1 /* SPDX-License-Identifier: GPL-2.0-or-later */ 2 /****************************************************************************** 3 * 4 * (C)Copyright 1998,1999 SysKonnect, 5 * a business unit of Schneider & Koch & Co. Datensysteme GmbH. 6 * 7 * The information in this file is provided "AS IS" without warranty. 8 * 9 ******************************************************************************/ 10 11 /* 12 * SMT 7.2 frame definitions 13 */ 14 15 #ifndef _SMT_ 16 #define _SMT_ 17 18 /* #define SMT5_10 */ 19 #define SMT6_10 20 #define SMT7_20 21 22 #define OPT_PMF /* if parameter management is supported */ 23 #define OPT_SRF /* if status report is supported */ 24 25 /* 26 * SMT frame version 5.1 27 */ 28 29 #define SMT_VID 0x0001 /* V 5.1 .. 6.1 */ 30 #define SMT_VID_2 0x0002 /* V 7.2 */ 31 32 struct smt_sid { 33 u_char sid_oem[2] ; /* implementation spec. */ 34 struct fddi_addr sid_node ; /* node address */ 35 } ; 36 37 typedef u_char t_station_id[8] ; 38 39 /* 40 * note on alignment : 41 * sizeof(struct smt_header) = 32 42 * all parameters are long aligned 43 * if struct smt_header starts at offset 0, all longs are aligned correctly 44 * (FC starts at offset 3) 45 */ 46 _packed struct smt_header { 47 struct fddi_addr smt_dest ; /* destination address */ 48 struct fddi_addr smt_source ; /* source address */ 49 u_char smt_class ; /* NIF, SIF ... */ 50 u_char smt_type ; /* req., response .. */ 51 u_short smt_version ; /* version id */ 52 u_int smt_tid ; /* transaction ID */ 53 struct smt_sid smt_sid ; /* station ID */ 54 u_short smt_pad ; /* pad with 0 */ 55 u_short smt_len ; /* length of info field */ 56 } ; 57 #define SWAP_SMTHEADER "662sl8ss" 58 59 #if 0 60 /* 61 * MAC FC values 62 */ 63 #define FC_SMT_INFO 0x41 /* SMT info */ 64 #define FC_SMT_NSA 0x4f /* SMT Next Station Addressing */ 65 #endif 66 67 68 /* 69 * type codes 70 */ 71 #define SMT_ANNOUNCE 0x01 /* announcement */ 72 #define SMT_REQUEST 0x02 /* request */ 73 #define SMT_REPLY 0x03 /* reply */ 74 75 /* 76 * class codes 77 */ 78 #define SMT_NIF 0x01 /* neighbor information frames */ 79 #define SMT_SIF_CONFIG 0x02 /* station information configuration */ 80 #define SMT_SIF_OPER 0x03 /* station information operation */ 81 #define SMT_ECF 0x04 /* echo frames */ 82 #define SMT_RAF 0x05 /* resource allocation */ 83 #define SMT_RDF 0x06 /* request denied */ 84 #define SMT_SRF 0x07 /* status report */ 85 #define SMT_PMF_GET 0x08 /* parameter management get */ 86 #define SMT_PMF_SET 0x09 /* parameter management set */ 87 #define SMT_ESF 0xff /* extended service */ 88 89 #define SMT_MAX_ECHO_LEN 4458 /* max length of SMT Echo */ 90 #if defined(CONC) || defined(CONC_II) 91 #define SMT_TEST_ECHO_LEN 50 /* test length of SMT Echo */ 92 #else 93 #define SMT_TEST_ECHO_LEN SMT_MAX_ECHO_LEN /* test length */ 94 #endif 95 96 #define SMT_MAX_INFO_LEN (4352-20) /* max length for SMT info */ 97 98 99 /* 100 * parameter types 101 */ 102 103 struct smt_para { 104 u_short p_type ; /* type */ 105 u_short p_len ; /* length of parameter */ 106 } ; 107 108 #define PARA_LEN (sizeof(struct smt_para)) 109 110 #define SMTSETPARA(p,t) (p)->para.p_type = (t),\ 111 (p)->para.p_len = sizeof(*(p)) - PARA_LEN 112 113 /* 114 * P01 : Upstream Neighbor Address, UNA 115 */ 116 #define SMT_P_UNA 0x0001 /* upstream neighbor address */ 117 #define SWAP_SMT_P_UNA "s6" 118 119 struct smt_p_una { 120 struct smt_para para ; /* generic parameter header */ 121 u_short una_pad ; 122 struct fddi_addr una_node ; /* node address, zero if unknown */ 123 } ; 124 125 /* 126 * P02 : Station Descriptor 127 */ 128 #define SMT_P_SDE 0x0002 /* station descriptor */ 129 #define SWAP_SMT_P_SDE "1111" 130 131 #define SMT_SDE_STATION 0 /* end node */ 132 #define SMT_SDE_CONCENTRATOR 1 /* concentrator */ 133 134 struct smt_p_sde { 135 struct smt_para para ; /* generic parameter header */ 136 u_char sde_type ; /* station type */ 137 u_char sde_mac_count ; /* number of MACs */ 138 u_char sde_non_master ; /* number of A,B or S ports */ 139 u_char sde_master ; /* number of S ports on conc. */ 140 } ; 141 142 /* 143 * P03 : Station State 144 */ 145 #define SMT_P_STATE 0x0003 /* station state */ 146 #define SWAP_SMT_P_STATE "scc" 147 148 struct smt_p_state { 149 struct smt_para para ; /* generic parameter header */ 150 u_short st_pad ; 151 u_char st_topology ; /* topology */ 152 u_char st_dupl_addr ; /* duplicate address detected */ 153 } ; 154 #define SMT_ST_WRAPPED (1<<0) /* station wrapped */ 155 #define SMT_ST_UNATTACHED (1<<1) /* unattached concentrator */ 156 #define SMT_ST_TWISTED_A (1<<2) /* A-A connection, twisted ring */ 157 #define SMT_ST_TWISTED_B (1<<3) /* B-B connection, twisted ring */ 158 #define SMT_ST_ROOTED_S (1<<4) /* rooted station */ 159 #define SMT_ST_SRF (1<<5) /* SRF protocol supported */ 160 #define SMT_ST_SYNC_SERVICE (1<<6) /* use synchronous bandwidth */ 161 162 #define SMT_ST_MY_DUPA (1<<0) /* my station detected dupl. */ 163 #define SMT_ST_UNA_DUPA (1<<1) /* my UNA detected duplicate */ 164 165 /* 166 * P04 : timestamp 167 */ 168 #define SMT_P_TIMESTAMP 0x0004 /* time stamp */ 169 #define SWAP_SMT_P_TIMESTAMP "8" 170 struct smt_p_timestamp { 171 struct smt_para para ; /* generic parameter header */ 172 u_char ts_time[8] ; /* time, resolution 80nS, unique */ 173 } ; 174 175 /* 176 * P05 : station policies 177 */ 178 #define SMT_P_POLICY 0x0005 /* station policies */ 179 #define SWAP_SMT_P_POLICY "ss" 180 181 struct smt_p_policy { 182 struct smt_para para ; /* generic parameter header */ 183 u_short pl_config ; 184 u_short pl_connect ; /* bit string POLICY_AA ... */ 185 } ; 186 #define SMT_PL_HOLD 1 /* hold policy supported (Dual MAC) */ 187 188 /* 189 * P06 : latency equivalent 190 */ 191 #define SMT_P_LATENCY 0x0006 /* latency */ 192 #define SWAP_SMT_P_LATENCY "ssss" 193 194 /* 195 * note: latency has two phy entries by definition 196 * for a SAS, the 2nd one is null 197 */ 198 struct smt_p_latency { 199 struct smt_para para ; /* generic parameter header */ 200 u_short lt_phyout_idx1 ; /* index */ 201 u_short lt_latency1 ; /* latency , unit : byte clock */ 202 u_short lt_phyout_idx2 ; /* 0 if SAS */ 203 u_short lt_latency2 ; /* 0 if SAS */ 204 } ; 205 206 /* 207 * P07 : MAC neighbors 208 */ 209 #define SMT_P_NEIGHBORS 0x0007 /* MAC neighbor description */ 210 #define SWAP_SMT_P_NEIGHBORS "ss66" 211 212 struct smt_p_neighbor { 213 struct smt_para para ; /* generic parameter header */ 214 u_short nb_mib_index ; /* MIB index */ 215 u_short nb_mac_index ; /* n+1 .. n+m, m = #MACs, n = #PHYs */ 216 struct fddi_addr nb_una ; /* UNA , 0 for unknown */ 217 struct fddi_addr nb_dna ; /* DNA , 0 for unknown */ 218 } ; 219 220 /* 221 * PHY record 222 */ 223 #define SMT_PHY_A 0 /* A port */ 224 #define SMT_PHY_B 1 /* B port */ 225 #define SMT_PHY_S 2 /* slave port */ 226 #define SMT_PHY_M 3 /* master port */ 227 228 #define SMT_CS_DISABLED 0 /* connect state : disabled */ 229 #define SMT_CS_CONNECTING 1 /* connect state : connecting */ 230 #define SMT_CS_STANDBY 2 /* connect state : stand by */ 231 #define SMT_CS_ACTIVE 3 /* connect state : active */ 232 233 #define SMT_RM_NONE 0 234 #define SMT_RM_MAC 1 235 236 struct smt_phy_rec { 237 u_short phy_mib_index ; /* MIB index */ 238 u_char phy_type ; /* A/B/S/M */ 239 u_char phy_connect_state ; /* disabled/connecting/active */ 240 u_char phy_remote_type ; /* A/B/S/M */ 241 u_char phy_remote_mac ; /* none/remote */ 242 u_short phy_resource_idx ; /* 1 .. n */ 243 } ; 244 245 /* 246 * MAC record 247 */ 248 struct smt_mac_rec { 249 struct fddi_addr mac_addr ; /* MAC address */ 250 u_short mac_resource_idx ; /* n+1 .. n+m */ 251 } ; 252 253 /* 254 * P08 : path descriptors 255 * should be really an array ; however our environment has a fixed number of 256 * PHYs and MACs 257 */ 258 #define SMT_P_PATH 0x0008 /* path descriptor */ 259 #define SWAP_SMT_P_PATH "[6s]" 260 261 struct smt_p_path { 262 struct smt_para para ; /* generic parameter header */ 263 struct smt_phy_rec pd_phy[2] ; /* PHY A */ 264 struct smt_mac_rec pd_mac ; /* MAC record */ 265 } ; 266 267 /* 268 * P09 : MAC status 269 */ 270 #define SMT_P_MAC_STATUS 0x0009 /* MAC status */ 271 #define SWAP_SMT_P_MAC_STATUS "sslllllllll" 272 273 struct smt_p_mac_status { 274 struct smt_para para ; /* generic parameter header */ 275 u_short st_mib_index ; /* MIB index */ 276 u_short st_mac_index ; /* n+1 .. n+m */ 277 u_int st_t_req ; /* T_Req */ 278 u_int st_t_neg ; /* T_Neg */ 279 u_int st_t_max ; /* T_Max */ 280 u_int st_tvx_value ; /* TVX_Value */ 281 u_int st_t_min ; /* T_Min */ 282 u_int st_sba ; /* synchr. bandwidth alloc */ 283 u_int st_frame_ct ; /* frame counter */ 284 u_int st_error_ct ; /* error counter */ 285 u_int st_lost_ct ; /* lost frames counter */ 286 } ; 287 288 /* 289 * P0A : PHY link error rate monitoring 290 */ 291 #define SMT_P_LEM 0x000a /* link error monitor */ 292 #define SWAP_SMT_P_LEM "ssccccll" 293 /* 294 * units of lem_cutoff,lem_alarm,lem_estimate : 10**-x 295 */ 296 struct smt_p_lem { 297 struct smt_para para ; /* generic parameter header */ 298 u_short lem_mib_index ; /* MIB index */ 299 u_short lem_phy_index ; /* 1 .. n */ 300 u_char lem_pad2 ; /* be nice and make it even . */ 301 u_char lem_cutoff ; /* 0x4 .. 0xf, default 0x7 */ 302 u_char lem_alarm ; /* 0x4 .. 0xf, default 0x8 */ 303 u_char lem_estimate ; /* 0x0 .. 0xff */ 304 u_int lem_reject_ct ; /* 0x00000000 .. 0xffffffff */ 305 u_int lem_ct ; /* 0x00000000 .. 0xffffffff */ 306 } ; 307 308 /* 309 * P0B : MAC frame counters 310 */ 311 #define SMT_P_MAC_COUNTER 0x000b /* MAC frame counters */ 312 #define SWAP_SMT_P_MAC_COUNTER "ssll" 313 314 struct smt_p_mac_counter { 315 struct smt_para para ; /* generic parameter header */ 316 u_short mc_mib_index ; /* MIB index */ 317 u_short mc_index ; /* mac index */ 318 u_int mc_receive_ct ; /* receive counter */ 319 u_int mc_transmit_ct ; /* transmit counter */ 320 } ; 321 322 /* 323 * P0C : MAC frame not copied counter 324 */ 325 #define SMT_P_MAC_FNC 0x000c /* MAC frame not copied counter */ 326 #define SWAP_SMT_P_MAC_FNC "ssl" 327 328 struct smt_p_mac_fnc { 329 struct smt_para para ; /* generic parameter header */ 330 u_short nc_mib_index ; /* MIB index */ 331 u_short nc_index ; /* mac index */ 332 u_int nc_counter ; /* not copied counter */ 333 } ; 334 335 336 /* 337 * P0D : MAC priority values 338 */ 339 #define SMT_P_PRIORITY 0x000d /* MAC priority values */ 340 #define SWAP_SMT_P_PRIORITY "ssl" 341 342 struct smt_p_priority { 343 struct smt_para para ; /* generic parameter header */ 344 u_short pr_mib_index ; /* MIB index */ 345 u_short pr_index ; /* mac index */ 346 u_int pr_priority[7] ; /* priority values */ 347 } ; 348 349 /* 350 * P0E : PHY elasticity buffer status 351 */ 352 #define SMT_P_EB 0x000e /* PHY EB status */ 353 #define SWAP_SMT_P_EB "ssl" 354 355 struct smt_p_eb { 356 struct smt_para para ; /* generic parameter header */ 357 u_short eb_mib_index ; /* MIB index */ 358 u_short eb_index ; /* phy index */ 359 u_int eb_error_ct ; /* # of eb overflows */ 360 } ; 361 362 /* 363 * P0F : manufacturer field 364 */ 365 #define SMT_P_MANUFACTURER 0x000f /* manufacturer field */ 366 #define SWAP_SMT_P_MANUFACTURER "" 367 368 struct smp_p_manufacturer { 369 struct smt_para para ; /* generic parameter header */ 370 u_char mf_data[32] ; /* OUI + arbitrary data */ 371 } ; 372 373 /* 374 * P10 : user field 375 */ 376 #define SMT_P_USER 0x0010 /* manufacturer field */ 377 #define SWAP_SMT_P_USER "" 378 379 struct smp_p_user { 380 struct smt_para para ; /* generic parameter header */ 381 u_char us_data[32] ; /* arbitrary data */ 382 } ; 383 384 385 386 /* 387 * P11 : echo data 388 */ 389 #define SMT_P_ECHODATA 0x0011 /* echo data */ 390 #define SWAP_SMT_P_ECHODATA "" 391 392 struct smt_p_echo { 393 struct smt_para para ; /* generic parameter header */ 394 u_char ec_data[SMT_MAX_ECHO_LEN-4] ; /* echo data */ 395 } ; 396 397 /* 398 * P12 : reason code 399 */ 400 #define SMT_P_REASON 0x0012 /* reason code */ 401 #define SWAP_SMT_P_REASON "l" 402 403 struct smt_p_reason { 404 struct smt_para para ; /* generic parameter header */ 405 u_int rdf_reason ; /* CLASS/VERSION */ 406 } ; 407 #define SMT_RDF_CLASS 0x00000001 /* class not supported */ 408 #define SMT_RDF_VERSION 0x00000002 /* version not supported */ 409 #define SMT_RDF_SUCCESS 0x00000003 /* success (PMF) */ 410 #define SMT_RDF_BADSET 0x00000004 /* bad set count (PMF) */ 411 #define SMT_RDF_ILLEGAL 0x00000005 /* read only (PMF) */ 412 #define SMT_RDF_NOPARAM 0x6 /* parameter not supported (PMF) */ 413 #define SMT_RDF_RANGE 0x8 /* out of range */ 414 #define SMT_RDF_AUTHOR 0x9 /* not autohorized */ 415 #define SMT_RDF_LENGTH 0x0a /* length error */ 416 #define SMT_RDF_TOOLONG 0x0b /* length error */ 417 #define SMT_RDF_SBA 0x0d /* SBA denied */ 418 419 /* 420 * P13 : refused frame beginning 421 */ 422 #define SMT_P_REFUSED 0x0013 /* refused frame beginning */ 423 #define SWAP_SMT_P_REFUSED "l" 424 425 struct smt_p_refused { 426 struct smt_para para ; /* generic parameter header */ 427 u_int ref_fc ; /* 3 bytes 0 + FC */ 428 struct smt_header ref_header ; /* refused header */ 429 } ; 430 431 /* 432 * P14 : supported SMT versions 433 */ 434 #define SMT_P_VERSION 0x0014 /* SMT supported versions */ 435 #define SWAP_SMT_P_VERSION "sccss" 436 437 struct smt_p_version { 438 struct smt_para para ; /* generic parameter header */ 439 u_short v_pad ; 440 u_char v_n ; /* 1 .. 0xff, #versions */ 441 u_char v_index ; /* 1 .. 0xff, index of op. v. */ 442 u_short v_version[1] ; /* list of min. 1 version */ 443 u_short v_pad2 ; /* pad if necessary */ 444 } ; 445 446 /* 447 * P15 : Resource Type 448 */ 449 #define SWAP_SMT_P0015 "l" 450 451 struct smt_p_0015 { 452 struct smt_para para ; /* generic parameter header */ 453 u_int res_type ; /* recsource type */ 454 } ; 455 456 #define SYNC_BW 0x00000001L /* Synchronous Bandwidth */ 457 458 /* 459 * P16 : SBA Command 460 */ 461 #define SWAP_SMT_P0016 "l" 462 463 struct smt_p_0016 { 464 struct smt_para para ; /* generic parameter header */ 465 u_int sba_cmd ; /* command for the SBA */ 466 } ; 467 468 #define REQUEST_ALLOCATION 0x1 /* req allocation of sync bandwidth */ 469 #define REPORT_ALLOCATION 0x2 /* rep of sync bandwidth allocation */ 470 #define CHANGE_ALLOCATION 0x3 /* forces a station using sync band-*/ 471 /* width to change its current allo-*/ 472 /* cation */ 473 474 /* 475 * P17 : SBA Payload Request 476 */ 477 #define SWAP_SMT_P0017 "l" 478 479 struct smt_p_0017 { 480 struct smt_para para ; /* generic parameter header */ 481 int sba_pl_req ; /* total sync bandwidth measured in */ 482 } ; /* bytes per 125 us */ 483 484 /* 485 * P18 : SBA Overhead Request 486 */ 487 #define SWAP_SMT_P0018 "l" 488 489 struct smt_p_0018 { 490 struct smt_para para ; /* generic parameter header */ 491 int sba_ov_req ; /* total sync bandwidth req for overhead*/ 492 } ; /* measuered in bytes per T_Neg */ 493 494 /* 495 * P19 : SBA Allocation Address 496 */ 497 #define SWAP_SMT_P0019 "s6" 498 499 struct smt_p_0019 { 500 struct smt_para para ; /* generic parameter header */ 501 u_short sba_pad ; 502 struct fddi_addr alloc_addr ; /* Allocation Address */ 503 } ; 504 505 /* 506 * P1A : SBA Category 507 */ 508 #define SWAP_SMT_P001A "l" 509 510 struct smt_p_001a { 511 struct smt_para para ; /* generic parameter header */ 512 u_int category ; /* Allocator defined classification */ 513 } ; 514 515 /* 516 * P1B : Maximum T_Neg 517 */ 518 #define SWAP_SMT_P001B "l" 519 520 struct smt_p_001b { 521 struct smt_para para ; /* generic parameter header */ 522 u_int max_t_neg ; /* longest T_NEG for the sync service*/ 523 } ; 524 525 /* 526 * P1C : Minimum SBA Segment Size 527 */ 528 #define SWAP_SMT_P001C "l" 529 530 struct smt_p_001c { 531 struct smt_para para ; /* generic parameter header */ 532 u_int min_seg_siz ; /* smallest number of bytes per frame*/ 533 } ; 534 535 /* 536 * P1D : SBA Allocatable 537 */ 538 #define SWAP_SMT_P001D "l" 539 540 struct smt_p_001d { 541 struct smt_para para ; /* generic parameter header */ 542 u_int allocatable ; /* total sync bw available for alloc */ 543 } ; 544 545 /* 546 * P20 0B : frame status capabilities 547 * NOTE: not in swap table, is used by smt.c AND PMF table 548 */ 549 #define SMT_P_FSC 0x200b 550 /* #define SWAP_SMT_P_FSC "ssss" */ 551 552 struct smt_p_fsc { 553 struct smt_para para ; /* generic parameter header */ 554 u_short fsc_pad0 ; 555 u_short fsc_mac_index ; /* mac index 1 .. ff */ 556 u_short fsc_pad1 ; 557 u_short fsc_value ; /* FSC_TYPE[0-2] */ 558 } ; 559 560 #define FSC_TYPE0 0 /* "normal" node (A/C handling) */ 561 #define FSC_TYPE1 1 /* Special A/C indicator forwarding */ 562 #define FSC_TYPE2 2 /* Special A/C indicator forwarding */ 563 564 /* 565 * P00 21 : user defined authoriziation (see pmf.c) 566 */ 567 #define SMT_P_AUTHOR 0x0021 568 569 /* 570 * notification parameters 571 */ 572 #define SWAP_SMT_P1048 "ll" 573 struct smt_p_1048 { 574 u_int p1048_flag ; 575 u_int p1048_cf_state ; 576 } ; 577 578 /* 579 * NOTE: all 2xxx 3xxx and 4xxx must include the INDEX in the swap string, 580 * even so the INDEX is NOT part of the struct. 581 * INDEX is already swapped in pmf.c, format in string is '4' 582 */ 583 #define SWAP_SMT_P208C "4lss66" 584 struct smt_p_208c { 585 u_int p208c_flag ; 586 u_short p208c_pad ; 587 u_short p208c_dupcondition ; 588 struct fddi_addr p208c_fddilong ; 589 struct fddi_addr p208c_fddiunalong ; 590 } ; 591 592 #define SWAP_SMT_P208D "4lllll" 593 struct smt_p_208d { 594 u_int p208d_flag ; 595 u_int p208d_frame_ct ; 596 u_int p208d_error_ct ; 597 u_int p208d_lost_ct ; 598 u_int p208d_ratio ; 599 } ; 600 601 #define SWAP_SMT_P208E "4llll" 602 struct smt_p_208e { 603 u_int p208e_flag ; 604 u_int p208e_not_copied ; 605 u_int p208e_copied ; 606 u_int p208e_not_copied_ratio ; 607 } ; 608 609 #define SWAP_SMT_P208F "4ll6666s6" 610 611 struct smt_p_208f { 612 u_int p208f_multiple ; 613 u_int p208f_nacondition ; 614 struct fddi_addr p208f_old_una ; 615 struct fddi_addr p208f_new_una ; 616 struct fddi_addr p208f_old_dna ; 617 struct fddi_addr p208f_new_dna ; 618 u_short p208f_curren_path ; 619 struct fddi_addr p208f_smt_address ; 620 } ; 621 622 #define SWAP_SMT_P2090 "4lssl" 623 624 struct smt_p_2090 { 625 u_int p2090_multiple ; 626 u_short p2090_availablepaths ; 627 u_short p2090_currentpath ; 628 u_int p2090_requestedpaths ; 629 } ; 630 631 /* 632 * NOTE: 633 * special kludge for parameters 320b,320f,3210 634 * these parameters are part of RAF frames 635 * RAF frames are parsed in SBA.C and must be swapped 636 * PMF.C has special code to avoid double swapping 637 */ 638 #ifdef LITTLE_ENDIAN 639 #define SBAPATHINDEX (0x01000000L) 640 #else 641 #define SBAPATHINDEX (0x01L) 642 #endif 643 644 #define SWAP_SMT_P320B "42s" 645 646 struct smt_p_320b { 647 struct smt_para para ; /* generic parameter header */ 648 u_int mib_index ; 649 u_short path_pad ; 650 u_short path_index ; 651 } ; 652 653 #define SWAP_SMT_P320F "4l" 654 655 struct smt_p_320f { 656 struct smt_para para ; /* generic parameter header */ 657 u_int mib_index ; 658 u_int mib_payload ; 659 } ; 660 661 #define SWAP_SMT_P3210 "4l" 662 663 struct smt_p_3210 { 664 struct smt_para para ; /* generic parameter header */ 665 u_int mib_index ; 666 u_int mib_overhead ; 667 } ; 668 669 #define SWAP_SMT_P4050 "4l1111ll" 670 671 struct smt_p_4050 { 672 u_int p4050_flag ; 673 u_char p4050_pad ; 674 u_char p4050_cutoff ; 675 u_char p4050_alarm ; 676 u_char p4050_estimate ; 677 u_int p4050_reject_ct ; 678 u_int p4050_ct ; 679 } ; 680 681 #define SWAP_SMT_P4051 "4lssss" 682 struct smt_p_4051 { 683 u_int p4051_multiple ; 684 u_short p4051_porttype ; 685 u_short p4051_connectstate ; 686 u_short p4051_pc_neighbor ; 687 u_short p4051_pc_withhold ; 688 } ; 689 690 #define SWAP_SMT_P4052 "4ll" 691 struct smt_p_4052 { 692 u_int p4052_flag ; 693 u_int p4052_eberrorcount ; 694 } ; 695 696 #define SWAP_SMT_P4053 "4lsslss" 697 698 struct smt_p_4053 { 699 u_int p4053_multiple ; 700 u_short p4053_availablepaths ; 701 u_short p4053_currentpath ; 702 u_int p4053_requestedpaths ; 703 u_short p4053_mytype ; 704 u_short p4053_neighbortype ; 705 } ; 706 707 708 #define SMT_P_SETCOUNT 0x1035 709 #define SWAP_SMT_P_SETCOUNT "l8" 710 711 struct smt_p_setcount { 712 struct smt_para para ; /* generic parameter header */ 713 u_int count ; 714 u_char timestamp[8] ; 715 } ; 716 717 /* 718 * SMT FRAMES 719 */ 720 721 /* 722 * NIF : neighbor information frames 723 */ 724 struct smt_nif { 725 struct smt_header smt ; /* generic header */ 726 struct smt_p_una una ; /* UNA */ 727 struct smt_p_sde sde ; /* station descriptor */ 728 struct smt_p_state state ; /* station state */ 729 #ifdef SMT6_10 730 struct smt_p_fsc fsc ; /* frame status cap. */ 731 #endif 732 } ; 733 734 /* 735 * SIF : station information frames 736 */ 737 struct smt_sif_config { 738 struct smt_header smt ; /* generic header */ 739 struct smt_p_timestamp ts ; /* time stamp */ 740 struct smt_p_sde sde ; /* station descriptor */ 741 struct smt_p_version version ; /* supported versions */ 742 struct smt_p_state state ; /* station state */ 743 struct smt_p_policy policy ; /* station policy */ 744 struct smt_p_latency latency ; /* path latency */ 745 struct smt_p_neighbor neighbor ; /* neighbors, we have only one*/ 746 #ifdef OPT_PMF 747 struct smt_p_setcount setcount ; /* Set Count mandatory */ 748 #endif 749 /* WARNING : path MUST BE LAST FIELD !!! (see smt.c:smt_fill_path) */ 750 struct smt_p_path path ; /* path descriptor */ 751 } ; 752 #define SIZEOF_SMT_SIF_CONFIG (sizeof(struct smt_sif_config)- \ 753 sizeof(struct smt_p_path)) 754 755 struct smt_sif_operation { 756 struct smt_header smt ; /* generic header */ 757 struct smt_p_timestamp ts ; /* time stamp */ 758 struct smt_p_mac_status status ; /* mac status */ 759 struct smt_p_mac_counter mc ; /* MAC counter */ 760 struct smt_p_mac_fnc fnc ; /* MAC frame not copied */ 761 struct smp_p_manufacturer man ; /* manufacturer field */ 762 struct smp_p_user user ; /* user field */ 763 #ifdef OPT_PMF 764 struct smt_p_setcount setcount ; /* Set Count mandatory */ 765 #endif 766 /* must be last */ 767 struct smt_p_lem lem[1] ; /* phy lem status */ 768 } ; 769 #define SIZEOF_SMT_SIF_OPERATION (sizeof(struct smt_sif_operation)- \ 770 sizeof(struct smt_p_lem)) 771 772 /* 773 * ECF : echo frame 774 */ 775 struct smt_ecf { 776 struct smt_header smt ; /* generic header */ 777 struct smt_p_echo ec_echo ; /* echo parameter */ 778 } ; 779 #define SMT_ECF_LEN (sizeof(struct smt_header)+sizeof(struct smt_para)) 780 781 /* 782 * RDF : request denied frame 783 */ 784 struct smt_rdf { 785 struct smt_header smt ; /* generic header */ 786 struct smt_p_reason reason ; /* reason code */ 787 struct smt_p_version version ; /* supported versions */ 788 struct smt_p_refused refused ; /* refused frame fragment */ 789 } ; 790 791 /* 792 * SBA Request Allocation Response Frame 793 */ 794 struct smt_sba_alc_res { 795 struct smt_header smt ; /* generic header */ 796 struct smt_p_0015 s_type ; /* resource type */ 797 struct smt_p_0016 cmd ; /* SBA command */ 798 struct smt_p_reason reason ; /* reason code */ 799 struct smt_p_320b path ; /* path type */ 800 struct smt_p_320f payload ; /* current SBA payload */ 801 struct smt_p_3210 overhead ; /* current SBA overhead */ 802 struct smt_p_0019 a_addr ; /* Allocation Address */ 803 struct smt_p_001a cat ; /* Category - from the request */ 804 struct smt_p_001d alloc ; /* SBA Allocatable */ 805 } ; 806 807 /* 808 * SBA Request Allocation Request Frame 809 */ 810 struct smt_sba_alc_req { 811 struct smt_header smt ; /* generic header */ 812 struct smt_p_0015 s_type ; /* resource type */ 813 struct smt_p_0016 cmd ; /* SBA command */ 814 struct smt_p_320b path ; /* path type */ 815 struct smt_p_0017 pl_req ; /* requested payload */ 816 struct smt_p_0018 ov_req ; /* requested SBA overhead */ 817 struct smt_p_320f payload ; /* current SBA payload */ 818 struct smt_p_3210 overhead ; /* current SBA overhead */ 819 struct smt_p_0019 a_addr ; /* Allocation Address */ 820 struct smt_p_001a cat ; /* Category - from the request */ 821 struct smt_p_001b tneg ; /* max T-NEG */ 822 struct smt_p_001c segm ; /* minimum segment size */ 823 } ; 824 825 /* 826 * SBA Change Allocation Request Frame 827 */ 828 struct smt_sba_chg { 829 struct smt_header smt ; /* generic header */ 830 struct smt_p_0015 s_type ; /* resource type */ 831 struct smt_p_0016 cmd ; /* SBA command */ 832 struct smt_p_320b path ; /* path type */ 833 struct smt_p_320f payload ; /* current SBA payload */ 834 struct smt_p_3210 overhead ; /* current SBA overhead */ 835 struct smt_p_001a cat ; /* Category - from the request */ 836 } ; 837 838 /* 839 * SBA Report Allocation Request Frame 840 */ 841 struct smt_sba_rep_req { 842 struct smt_header smt ; /* generic header */ 843 struct smt_p_0015 s_type ; /* resource type */ 844 struct smt_p_0016 cmd ; /* SBA command */ 845 } ; 846 847 /* 848 * SBA Report Allocation Response Frame 849 */ 850 struct smt_sba_rep_res { 851 struct smt_header smt ; /* generic header */ 852 struct smt_p_0015 s_type ; /* resource type */ 853 struct smt_p_0016 cmd ; /* SBA command */ 854 struct smt_p_320b path ; /* path type */ 855 struct smt_p_320f payload ; /* current SBA payload */ 856 struct smt_p_3210 overhead ; /* current SBA overhead */ 857 } ; 858 859 /* 860 * actions 861 */ 862 #define SMT_STATION_ACTION 1 863 #define SMT_STATION_ACTION_CONNECT 0 864 #define SMT_STATION_ACTION_DISCONNECT 1 865 #define SMT_STATION_ACTION_PATHTEST 2 866 #define SMT_STATION_ACTION_SELFTEST 3 867 #define SMT_STATION_ACTION_DISABLE_A 4 868 #define SMT_STATION_ACTION_DISABLE_B 5 869 #define SMT_STATION_ACTION_DISABLE_M 6 870 871 #define SMT_PORT_ACTION 2 872 #define SMT_PORT_ACTION_MAINT 0 873 #define SMT_PORT_ACTION_ENABLE 1 874 #define SMT_PORT_ACTION_DISABLE 2 875 #define SMT_PORT_ACTION_START 3 876 #define SMT_PORT_ACTION_STOP 4 877 878 #endif /* _SMT_ */ 879