linux-zen-desktop/drivers/net/fddi/skfp/h/smt.h

877 lines
23 KiB
C

/* SPDX-License-Identifier: GPL-2.0-or-later */
/******************************************************************************
*
* (C)Copyright 1998,1999 SysKonnect,
* a business unit of Schneider & Koch & Co. Datensysteme GmbH.
*
* The information in this file is provided "AS IS" without warranty.
*
******************************************************************************/
/*
* SMT 7.2 frame definitions
*/
#ifndef _SMT_
#define _SMT_
/* #define SMT5_10 */
#define SMT6_10
#define SMT7_20
#define OPT_PMF /* if parameter management is supported */
#define OPT_SRF /* if status report is supported */
/*
* SMT frame version 5.1
*/
#define SMT_VID 0x0001 /* V 5.1 .. 6.1 */
#define SMT_VID_2 0x0002 /* V 7.2 */
struct smt_sid {
u_char sid_oem[2] ; /* implementation spec. */
struct fddi_addr sid_node ; /* node address */
} ;
typedef u_char t_station_id[8] ;
/*
* note on alignment :
* sizeof(struct smt_header) = 32
* all parameters are long aligned
* if struct smt_header starts at offset 0, all longs are aligned correctly
* (FC starts at offset 3)
*/
_packed struct smt_header {
struct fddi_addr smt_dest ; /* destination address */
struct fddi_addr smt_source ; /* source address */
u_char smt_class ; /* NIF, SIF ... */
u_char smt_type ; /* req., response .. */
u_short smt_version ; /* version id */
u_int smt_tid ; /* transaction ID */
struct smt_sid smt_sid ; /* station ID */
u_short smt_pad ; /* pad with 0 */
u_short smt_len ; /* length of info field */
} ;
#define SWAP_SMTHEADER "662sl8ss"
#if 0
/*
* MAC FC values
*/
#define FC_SMT_INFO 0x41 /* SMT info */
#define FC_SMT_NSA 0x4f /* SMT Next Station Addressing */
#endif
/*
* type codes
*/
#define SMT_ANNOUNCE 0x01 /* announcement */
#define SMT_REQUEST 0x02 /* request */
#define SMT_REPLY 0x03 /* reply */
/*
* class codes
*/
#define SMT_NIF 0x01 /* neighbor information frames */
#define SMT_SIF_CONFIG 0x02 /* station information configuration */
#define SMT_SIF_OPER 0x03 /* station information operation */
#define SMT_ECF 0x04 /* echo frames */
#define SMT_RAF 0x05 /* resource allocation */
#define SMT_RDF 0x06 /* request denied */
#define SMT_SRF 0x07 /* status report */
#define SMT_PMF_GET 0x08 /* parameter management get */
#define SMT_PMF_SET 0x09 /* parameter management set */
#define SMT_ESF 0xff /* extended service */
#define SMT_MAX_ECHO_LEN 4458 /* max length of SMT Echo */
#if defined(CONC) || defined(CONC_II)
#define SMT_TEST_ECHO_LEN 50 /* test length of SMT Echo */
#else
#define SMT_TEST_ECHO_LEN SMT_MAX_ECHO_LEN /* test length */
#endif
#define SMT_MAX_INFO_LEN (4352-20) /* max length for SMT info */
/*
* parameter types
*/
struct smt_para {
u_short p_type ; /* type */
u_short p_len ; /* length of parameter */
} ;
#define PARA_LEN (sizeof(struct smt_para))
#define SMTSETPARA(p,t) (p)->para.p_type = (t),\
(p)->para.p_len = sizeof(*(p)) - PARA_LEN
/*
* P01 : Upstream Neighbor Address, UNA
*/
#define SMT_P_UNA 0x0001 /* upstream neighbor address */
#define SWAP_SMT_P_UNA "s6"
struct smt_p_una {
struct smt_para para ; /* generic parameter header */
u_short una_pad ;
struct fddi_addr una_node ; /* node address, zero if unknown */
} ;
/*
* P02 : Station Descriptor
*/
#define SMT_P_SDE 0x0002 /* station descriptor */
#define SWAP_SMT_P_SDE "1111"
#define SMT_SDE_STATION 0 /* end node */
#define SMT_SDE_CONCENTRATOR 1 /* concentrator */
struct smt_p_sde {
struct smt_para para ; /* generic parameter header */
u_char sde_type ; /* station type */
u_char sde_mac_count ; /* number of MACs */
u_char sde_non_master ; /* number of A,B or S ports */
u_char sde_master ; /* number of S ports on conc. */
} ;
/*
* P03 : Station State
*/
#define SMT_P_STATE 0x0003 /* station state */
#define SWAP_SMT_P_STATE "scc"
struct smt_p_state {
struct smt_para para ; /* generic parameter header */
u_short st_pad ;
u_char st_topology ; /* topology */
u_char st_dupl_addr ; /* duplicate address detected */
} ;
#define SMT_ST_WRAPPED (1<<0) /* station wrapped */
#define SMT_ST_UNATTACHED (1<<1) /* unattached concentrator */
#define SMT_ST_TWISTED_A (1<<2) /* A-A connection, twisted ring */
#define SMT_ST_TWISTED_B (1<<3) /* B-B connection, twisted ring */
#define SMT_ST_ROOTED_S (1<<4) /* rooted station */
#define SMT_ST_SRF (1<<5) /* SRF protocol supported */
#define SMT_ST_SYNC_SERVICE (1<<6) /* use synchronous bandwidth */
#define SMT_ST_MY_DUPA (1<<0) /* my station detected dupl. */
#define SMT_ST_UNA_DUPA (1<<1) /* my UNA detected duplicate */
/*
* P04 : timestamp
*/
#define SMT_P_TIMESTAMP 0x0004 /* time stamp */
#define SWAP_SMT_P_TIMESTAMP "8"
struct smt_p_timestamp {
struct smt_para para ; /* generic parameter header */
u_char ts_time[8] ; /* time, resolution 80nS, unique */
} ;
/*
* P05 : station policies
*/
#define SMT_P_POLICY 0x0005 /* station policies */
#define SWAP_SMT_P_POLICY "ss"
struct smt_p_policy {
struct smt_para para ; /* generic parameter header */
u_short pl_config ;
u_short pl_connect ; /* bit string POLICY_AA ... */
} ;
#define SMT_PL_HOLD 1 /* hold policy supported (Dual MAC) */
/*
* P06 : latency equivalent
*/
#define SMT_P_LATENCY 0x0006 /* latency */
#define SWAP_SMT_P_LATENCY "ssss"
/*
* note: latency has two phy entries by definition
* for a SAS, the 2nd one is null
*/
struct smt_p_latency {
struct smt_para para ; /* generic parameter header */
u_short lt_phyout_idx1 ; /* index */
u_short lt_latency1 ; /* latency , unit : byte clock */
u_short lt_phyout_idx2 ; /* 0 if SAS */
u_short lt_latency2 ; /* 0 if SAS */
} ;
/*
* P07 : MAC neighbors
*/
#define SMT_P_NEIGHBORS 0x0007 /* MAC neighbor description */
#define SWAP_SMT_P_NEIGHBORS "ss66"
struct smt_p_neighbor {
struct smt_para para ; /* generic parameter header */
u_short nb_mib_index ; /* MIB index */
u_short nb_mac_index ; /* n+1 .. n+m, m = #MACs, n = #PHYs */
struct fddi_addr nb_una ; /* UNA , 0 for unknown */
struct fddi_addr nb_dna ; /* DNA , 0 for unknown */
} ;
/*
* PHY record
*/
#define SMT_PHY_A 0 /* A port */
#define SMT_PHY_B 1 /* B port */
#define SMT_PHY_S 2 /* slave port */
#define SMT_PHY_M 3 /* master port */
#define SMT_CS_DISABLED 0 /* connect state : disabled */
#define SMT_CS_CONNECTING 1 /* connect state : connecting */
#define SMT_CS_STANDBY 2 /* connect state : stand by */
#define SMT_CS_ACTIVE 3 /* connect state : active */
#define SMT_RM_NONE 0
#define SMT_RM_MAC 1
struct smt_phy_rec {
u_short phy_mib_index ; /* MIB index */
u_char phy_type ; /* A/B/S/M */
u_char phy_connect_state ; /* disabled/connecting/active */
u_char phy_remote_type ; /* A/B/S/M */
u_char phy_remote_mac ; /* none/remote */
u_short phy_resource_idx ; /* 1 .. n */
} ;
/*
* MAC record
*/
struct smt_mac_rec {
struct fddi_addr mac_addr ; /* MAC address */
u_short mac_resource_idx ; /* n+1 .. n+m */
} ;
/*
* P08 : path descriptors
* should be really an array ; however our environment has a fixed number of
* PHYs and MACs
*/
#define SMT_P_PATH 0x0008 /* path descriptor */
#define SWAP_SMT_P_PATH "[6s]"
struct smt_p_path {
struct smt_para para ; /* generic parameter header */
struct smt_phy_rec pd_phy[2] ; /* PHY A */
struct smt_mac_rec pd_mac ; /* MAC record */
} ;
/*
* P09 : MAC status
*/
#define SMT_P_MAC_STATUS 0x0009 /* MAC status */
#define SWAP_SMT_P_MAC_STATUS "sslllllllll"
struct smt_p_mac_status {
struct smt_para para ; /* generic parameter header */
u_short st_mib_index ; /* MIB index */
u_short st_mac_index ; /* n+1 .. n+m */
u_int st_t_req ; /* T_Req */
u_int st_t_neg ; /* T_Neg */
u_int st_t_max ; /* T_Max */
u_int st_tvx_value ; /* TVX_Value */
u_int st_t_min ; /* T_Min */
u_int st_sba ; /* synchr. bandwidth alloc */
u_int st_frame_ct ; /* frame counter */
u_int st_error_ct ; /* error counter */
u_int st_lost_ct ; /* lost frames counter */
} ;
/*
* P0A : PHY link error rate monitoring
*/
#define SMT_P_LEM 0x000a /* link error monitor */
#define SWAP_SMT_P_LEM "ssccccll"
/*
* units of lem_cutoff,lem_alarm,lem_estimate : 10**-x
*/
struct smt_p_lem {
struct smt_para para ; /* generic parameter header */
u_short lem_mib_index ; /* MIB index */
u_short lem_phy_index ; /* 1 .. n */
u_char lem_pad2 ; /* be nice and make it even . */
u_char lem_cutoff ; /* 0x4 .. 0xf, default 0x7 */
u_char lem_alarm ; /* 0x4 .. 0xf, default 0x8 */
u_char lem_estimate ; /* 0x0 .. 0xff */
u_int lem_reject_ct ; /* 0x00000000 .. 0xffffffff */
u_int lem_ct ; /* 0x00000000 .. 0xffffffff */
} ;
/*
* P0B : MAC frame counters
*/
#define SMT_P_MAC_COUNTER 0x000b /* MAC frame counters */
#define SWAP_SMT_P_MAC_COUNTER "ssll"
struct smt_p_mac_counter {
struct smt_para para ; /* generic parameter header */
u_short mc_mib_index ; /* MIB index */
u_short mc_index ; /* mac index */
u_int mc_receive_ct ; /* receive counter */
u_int mc_transmit_ct ; /* transmit counter */
} ;
/*
* P0C : MAC frame not copied counter
*/
#define SMT_P_MAC_FNC 0x000c /* MAC frame not copied counter */
#define SWAP_SMT_P_MAC_FNC "ssl"
struct smt_p_mac_fnc {
struct smt_para para ; /* generic parameter header */
u_short nc_mib_index ; /* MIB index */
u_short nc_index ; /* mac index */
u_int nc_counter ; /* not copied counter */
} ;
/*
* P0D : MAC priority values
*/
#define SMT_P_PRIORITY 0x000d /* MAC priority values */
#define SWAP_SMT_P_PRIORITY "ssl"
struct smt_p_priority {
struct smt_para para ; /* generic parameter header */
u_short pr_mib_index ; /* MIB index */
u_short pr_index ; /* mac index */
u_int pr_priority[7] ; /* priority values */
} ;
/*
* P0E : PHY elasticity buffer status
*/
#define SMT_P_EB 0x000e /* PHY EB status */
#define SWAP_SMT_P_EB "ssl"
struct smt_p_eb {
struct smt_para para ; /* generic parameter header */
u_short eb_mib_index ; /* MIB index */
u_short eb_index ; /* phy index */
u_int eb_error_ct ; /* # of eb overflows */
} ;
/*
* P0F : manufacturer field
*/
#define SMT_P_MANUFACTURER 0x000f /* manufacturer field */
#define SWAP_SMT_P_MANUFACTURER ""
struct smp_p_manufacturer {
struct smt_para para ; /* generic parameter header */
u_char mf_data[32] ; /* OUI + arbitrary data */
} ;
/*
* P10 : user field
*/
#define SMT_P_USER 0x0010 /* manufacturer field */
#define SWAP_SMT_P_USER ""
struct smp_p_user {
struct smt_para para ; /* generic parameter header */
u_char us_data[32] ; /* arbitrary data */
} ;
/*
* P11 : echo data
*/
#define SMT_P_ECHODATA 0x0011 /* echo data */
#define SWAP_SMT_P_ECHODATA ""
struct smt_p_echo {
struct smt_para para ; /* generic parameter header */
u_char ec_data[SMT_MAX_ECHO_LEN-4] ; /* echo data */
} ;
/*
* P12 : reason code
*/
#define SMT_P_REASON 0x0012 /* reason code */
#define SWAP_SMT_P_REASON "l"
struct smt_p_reason {
struct smt_para para ; /* generic parameter header */
u_int rdf_reason ; /* CLASS/VERSION */
} ;
#define SMT_RDF_CLASS 0x00000001 /* class not supported */
#define SMT_RDF_VERSION 0x00000002 /* version not supported */
#define SMT_RDF_SUCCESS 0x00000003 /* success (PMF) */
#define SMT_RDF_BADSET 0x00000004 /* bad set count (PMF) */
#define SMT_RDF_ILLEGAL 0x00000005 /* read only (PMF) */
#define SMT_RDF_NOPARAM 0x6 /* parameter not supported (PMF) */
#define SMT_RDF_RANGE 0x8 /* out of range */
#define SMT_RDF_AUTHOR 0x9 /* not authorized */
#define SMT_RDF_LENGTH 0x0a /* length error */
#define SMT_RDF_TOOLONG 0x0b /* length error */
#define SMT_RDF_SBA 0x0d /* SBA denied */
/*
* P13 : refused frame beginning
*/
#define SMT_P_REFUSED 0x0013 /* refused frame beginning */
#define SWAP_SMT_P_REFUSED "l"
struct smt_p_refused {
struct smt_para para ; /* generic parameter header */
u_int ref_fc ; /* 3 bytes 0 + FC */
struct smt_header ref_header ; /* refused header */
} ;
/*
* P14 : supported SMT versions
*/
#define SMT_P_VERSION 0x0014 /* SMT supported versions */
#define SWAP_SMT_P_VERSION "sccss"
struct smt_p_version {
struct smt_para para ; /* generic parameter header */
u_short v_pad ;
u_char v_n ; /* 1 .. 0xff, #versions */
u_char v_index ; /* 1 .. 0xff, index of op. v. */
u_short v_version[1] ; /* list of min. 1 version */
u_short v_pad2 ; /* pad if necessary */
} ;
/*
* P15 : Resource Type
*/
#define SWAP_SMT_P0015 "l"
struct smt_p_0015 {
struct smt_para para ; /* generic parameter header */
u_int res_type ; /* resource type */
} ;
#define SYNC_BW 0x00000001L /* Synchronous Bandwidth */
/*
* P16 : SBA Command
*/
#define SWAP_SMT_P0016 "l"
struct smt_p_0016 {
struct smt_para para ; /* generic parameter header */
u_int sba_cmd ; /* command for the SBA */
} ;
#define REQUEST_ALLOCATION 0x1 /* req allocation of sync bandwidth */
#define REPORT_ALLOCATION 0x2 /* rep of sync bandwidth allocation */
#define CHANGE_ALLOCATION 0x3 /* forces a station using sync band-*/
/* width to change its current allo-*/
/* cation */
/*
* P17 : SBA Payload Request
*/
#define SWAP_SMT_P0017 "l"
struct smt_p_0017 {
struct smt_para para ; /* generic parameter header */
int sba_pl_req ; /* total sync bandwidth measured in */
} ; /* bytes per 125 us */
/*
* P18 : SBA Overhead Request
*/
#define SWAP_SMT_P0018 "l"
struct smt_p_0018 {
struct smt_para para ; /* generic parameter header */
int sba_ov_req ; /* total sync bandwidth req for overhead*/
} ; /* measured in bytes per T_Neg */
/*
* P19 : SBA Allocation Address
*/
#define SWAP_SMT_P0019 "s6"
struct smt_p_0019 {
struct smt_para para ; /* generic parameter header */
u_short sba_pad ;
struct fddi_addr alloc_addr ; /* Allocation Address */
} ;
/*
* P1A : SBA Category
*/
#define SWAP_SMT_P001A "l"
struct smt_p_001a {
struct smt_para para ; /* generic parameter header */
u_int category ; /* Allocator defined classification */
} ;
/*
* P1B : Maximum T_Neg
*/
#define SWAP_SMT_P001B "l"
struct smt_p_001b {
struct smt_para para ; /* generic parameter header */
u_int max_t_neg ; /* longest T_NEG for the sync service*/
} ;
/*
* P1C : Minimum SBA Segment Size
*/
#define SWAP_SMT_P001C "l"
struct smt_p_001c {
struct smt_para para ; /* generic parameter header */
u_int min_seg_siz ; /* smallest number of bytes per frame*/
} ;
/*
* P1D : SBA Allocatable
*/
#define SWAP_SMT_P001D "l"
struct smt_p_001d {
struct smt_para para ; /* generic parameter header */
u_int allocatable ; /* total sync bw available for alloc */
} ;
/*
* P20 0B : frame status capabilities
* NOTE: not in swap table, is used by smt.c AND PMF table
*/
#define SMT_P_FSC 0x200b
/* #define SWAP_SMT_P_FSC "ssss" */
struct smt_p_fsc {
struct smt_para para ; /* generic parameter header */
u_short fsc_pad0 ;
u_short fsc_mac_index ; /* mac index 1 .. ff */
u_short fsc_pad1 ;
u_short fsc_value ; /* FSC_TYPE[0-2] */
} ;
#define FSC_TYPE0 0 /* "normal" node (A/C handling) */
#define FSC_TYPE1 1 /* Special A/C indicator forwarding */
#define FSC_TYPE2 2 /* Special A/C indicator forwarding */
/*
* P00 21 : user defined authorization (see pmf.c)
*/
#define SMT_P_AUTHOR 0x0021
/*
* notification parameters
*/
#define SWAP_SMT_P1048 "ll"
struct smt_p_1048 {
u_int p1048_flag ;
u_int p1048_cf_state ;
} ;
/*
* NOTE: all 2xxx 3xxx and 4xxx must include the INDEX in the swap string,
* even so the INDEX is NOT part of the struct.
* INDEX is already swapped in pmf.c, format in string is '4'
*/
#define SWAP_SMT_P208C "4lss66"
struct smt_p_208c {
u_int p208c_flag ;
u_short p208c_pad ;
u_short p208c_dupcondition ;
struct fddi_addr p208c_fddilong ;
struct fddi_addr p208c_fddiunalong ;
} ;
#define SWAP_SMT_P208D "4lllll"
struct smt_p_208d {
u_int p208d_flag ;
u_int p208d_frame_ct ;
u_int p208d_error_ct ;
u_int p208d_lost_ct ;
u_int p208d_ratio ;
} ;
#define SWAP_SMT_P208E "4llll"
struct smt_p_208e {
u_int p208e_flag ;
u_int p208e_not_copied ;
u_int p208e_copied ;
u_int p208e_not_copied_ratio ;
} ;
#define SWAP_SMT_P208F "4ll6666s6"
struct smt_p_208f {
u_int p208f_multiple ;
u_int p208f_nacondition ;
struct fddi_addr p208f_old_una ;
struct fddi_addr p208f_new_una ;
struct fddi_addr p208f_old_dna ;
struct fddi_addr p208f_new_dna ;
u_short p208f_curren_path ;
struct fddi_addr p208f_smt_address ;
} ;
#define SWAP_SMT_P2090 "4lssl"
struct smt_p_2090 {
u_int p2090_multiple ;
u_short p2090_availablepaths ;
u_short p2090_currentpath ;
u_int p2090_requestedpaths ;
} ;
/*
* NOTE:
* special kludge for parameters 320b,320f,3210
* these parameters are part of RAF frames
* RAF frames are parsed in SBA.C and must be swapped
* PMF.C has special code to avoid double swapping
*/
#ifdef LITTLE_ENDIAN
#define SBAPATHINDEX (0x01000000L)
#else
#define SBAPATHINDEX (0x01L)
#endif
#define SWAP_SMT_P320B "42s"
struct smt_p_320b {
struct smt_para para ; /* generic parameter header */
u_int mib_index ;
u_short path_pad ;
u_short path_index ;
} ;
#define SWAP_SMT_P320F "4l"
struct smt_p_320f {
struct smt_para para ; /* generic parameter header */
u_int mib_index ;
u_int mib_payload ;
} ;
#define SWAP_SMT_P3210 "4l"
struct smt_p_3210 {
struct smt_para para ; /* generic parameter header */
u_int mib_index ;
u_int mib_overhead ;
} ;
#define SWAP_SMT_P4050 "4l1111ll"
struct smt_p_4050 {
u_int p4050_flag ;
u_char p4050_pad ;
u_char p4050_cutoff ;
u_char p4050_alarm ;
u_char p4050_estimate ;
u_int p4050_reject_ct ;
u_int p4050_ct ;
} ;
#define SWAP_SMT_P4051 "4lssss"
struct smt_p_4051 {
u_int p4051_multiple ;
u_short p4051_porttype ;
u_short p4051_connectstate ;
u_short p4051_pc_neighbor ;
u_short p4051_pc_withhold ;
} ;
#define SWAP_SMT_P4052 "4ll"
struct smt_p_4052 {
u_int p4052_flag ;
u_int p4052_eberrorcount ;
} ;
#define SWAP_SMT_P4053 "4lsslss"
struct smt_p_4053 {
u_int p4053_multiple ;
u_short p4053_availablepaths ;
u_short p4053_currentpath ;
u_int p4053_requestedpaths ;
u_short p4053_mytype ;
u_short p4053_neighbortype ;
} ;
#define SMT_P_SETCOUNT 0x1035
#define SWAP_SMT_P_SETCOUNT "l8"
struct smt_p_setcount {
struct smt_para para ; /* generic parameter header */
u_int count ;
u_char timestamp[8] ;
} ;
/*
* SMT FRAMES
*/
/*
* NIF : neighbor information frames
*/
struct smt_nif {
struct smt_header smt ; /* generic header */
struct smt_p_una una ; /* UNA */
struct smt_p_sde sde ; /* station descriptor */
struct smt_p_state state ; /* station state */
#ifdef SMT6_10
struct smt_p_fsc fsc ; /* frame status cap. */
#endif
} ;
/*
* SIF : station information frames
*/
struct smt_sif_config {
struct smt_header smt ; /* generic header */
struct smt_p_timestamp ts ; /* time stamp */
struct smt_p_sde sde ; /* station descriptor */
struct smt_p_version version ; /* supported versions */
struct smt_p_state state ; /* station state */
struct smt_p_policy policy ; /* station policy */
struct smt_p_latency latency ; /* path latency */
struct smt_p_neighbor neighbor ; /* neighbors, we have only one*/
#ifdef OPT_PMF
struct smt_p_setcount setcount ; /* Set Count mandatory */
#endif
/* WARNING : path MUST BE LAST FIELD !!! (see smt.c:smt_fill_path) */
struct smt_p_path path ; /* path descriptor */
} ;
#define SIZEOF_SMT_SIF_CONFIG (sizeof(struct smt_sif_config)- \
sizeof(struct smt_p_path))
struct smt_sif_operation {
struct smt_header smt ; /* generic header */
struct smt_p_timestamp ts ; /* time stamp */
struct smt_p_mac_status status ; /* mac status */
struct smt_p_mac_counter mc ; /* MAC counter */
struct smt_p_mac_fnc fnc ; /* MAC frame not copied */
struct smp_p_manufacturer man ; /* manufacturer field */
struct smp_p_user user ; /* user field */
#ifdef OPT_PMF
struct smt_p_setcount setcount ; /* Set Count mandatory */
#endif
/* must be last */
struct smt_p_lem lem[]; /* phy lem status */
} ;
/*
* ECF : echo frame
*/
struct smt_ecf {
struct smt_header smt ; /* generic header */
struct smt_p_echo ec_echo ; /* echo parameter */
} ;
#define SMT_ECF_LEN (sizeof(struct smt_header)+sizeof(struct smt_para))
/*
* RDF : request denied frame
*/
struct smt_rdf {
struct smt_header smt ; /* generic header */
struct smt_p_reason reason ; /* reason code */
struct smt_p_version version ; /* supported versions */
struct smt_p_refused refused ; /* refused frame fragment */
} ;
/*
* SBA Request Allocation Response Frame
*/
struct smt_sba_alc_res {
struct smt_header smt ; /* generic header */
struct smt_p_0015 s_type ; /* resource type */
struct smt_p_0016 cmd ; /* SBA command */
struct smt_p_reason reason ; /* reason code */
struct smt_p_320b path ; /* path type */
struct smt_p_320f payload ; /* current SBA payload */
struct smt_p_3210 overhead ; /* current SBA overhead */
struct smt_p_0019 a_addr ; /* Allocation Address */
struct smt_p_001a cat ; /* Category - from the request */
struct smt_p_001d alloc ; /* SBA Allocatable */
} ;
/*
* SBA Request Allocation Request Frame
*/
struct smt_sba_alc_req {
struct smt_header smt ; /* generic header */
struct smt_p_0015 s_type ; /* resource type */
struct smt_p_0016 cmd ; /* SBA command */
struct smt_p_320b path ; /* path type */
struct smt_p_0017 pl_req ; /* requested payload */
struct smt_p_0018 ov_req ; /* requested SBA overhead */
struct smt_p_320f payload ; /* current SBA payload */
struct smt_p_3210 overhead ; /* current SBA overhead */
struct smt_p_0019 a_addr ; /* Allocation Address */
struct smt_p_001a cat ; /* Category - from the request */
struct smt_p_001b tneg ; /* max T-NEG */
struct smt_p_001c segm ; /* minimum segment size */
} ;
/*
* SBA Change Allocation Request Frame
*/
struct smt_sba_chg {
struct smt_header smt ; /* generic header */
struct smt_p_0015 s_type ; /* resource type */
struct smt_p_0016 cmd ; /* SBA command */
struct smt_p_320b path ; /* path type */
struct smt_p_320f payload ; /* current SBA payload */
struct smt_p_3210 overhead ; /* current SBA overhead */
struct smt_p_001a cat ; /* Category - from the request */
} ;
/*
* SBA Report Allocation Request Frame
*/
struct smt_sba_rep_req {
struct smt_header smt ; /* generic header */
struct smt_p_0015 s_type ; /* resource type */
struct smt_p_0016 cmd ; /* SBA command */
} ;
/*
* SBA Report Allocation Response Frame
*/
struct smt_sba_rep_res {
struct smt_header smt ; /* generic header */
struct smt_p_0015 s_type ; /* resource type */
struct smt_p_0016 cmd ; /* SBA command */
struct smt_p_320b path ; /* path type */
struct smt_p_320f payload ; /* current SBA payload */
struct smt_p_3210 overhead ; /* current SBA overhead */
} ;
/*
* actions
*/
#define SMT_STATION_ACTION 1
#define SMT_STATION_ACTION_CONNECT 0
#define SMT_STATION_ACTION_DISCONNECT 1
#define SMT_STATION_ACTION_PATHTEST 2
#define SMT_STATION_ACTION_SELFTEST 3
#define SMT_STATION_ACTION_DISABLE_A 4
#define SMT_STATION_ACTION_DISABLE_B 5
#define SMT_STATION_ACTION_DISABLE_M 6
#define SMT_PORT_ACTION 2
#define SMT_PORT_ACTION_MAINT 0
#define SMT_PORT_ACTION_ENABLE 1
#define SMT_PORT_ACTION_DISABLE 2
#define SMT_PORT_ACTION_START 3
#define SMT_PORT_ACTION_STOP 4
#endif /* _SMT_ */