// C equivalents of ASM STRUCS // Aug 2010 Extend Applmask to 32 bit #ifndef _ASMSTRUCS_ #define _ASMSTRUCS_ #ifdef WIN32 #include "winsock2.h" #include "ws2tcpip.h" #include "winstdint.h" #endif #define BPQICON 2 #define BUFFLEN 400 #define BUFFALLOC 464 // Actual size of buffer. Extra 64 bytes for a source code tag to help find buffer leaks //#define ApplStringLen 48 // Length of each config entry #define NumberofAppls 32 // Max APPLICATIONS= values #define ALIASLEN 48 #define MHENTRIES 30 // Entries in MH List #define MaxLockedRoutes 100 typedef int (FAR *FARPROCY)(); #define NRPID 0xcf // NETROM PID #define L4BUSY 0x80 // BNA - DONT SEND ANY MORE #define L4NAK 0x40 // NEGATIVE RESPONSE FLAG #define L4MORE 0x20 // MORE DATA FOLLOWS - FRAGMENTATION FLAG #define L4CREQ 1 // CONNECT REQUEST #define L4CACK 2 // CONNECT ACK #define L4DREQ 3 // DISCONNECT REQUEST #define L4DACK 4 // DISCONNECT ACK #define L4INFO 5 // INFORMATION #define L4IACK 6 // INFORMATION ACK extern char MYCALL[]; // 7 chars, ax.25 format extern char MYALIASTEXT[]; // 6 chars, not null terminated extern UCHAR L3RTT[7]; // 7 chars, ax.25 format extern UCHAR L3KEEP[7]; // 7 chars, ax.25 format //extern int SENDNETFRAME(); extern struct _DATABASE * DataBase; //extern APPLCALLS APPLCALLTABLE[8]; extern int MAXDESTS; //extern VOID * GETBUFF(); //extern VOID SETUPNODEHEADER(); extern VOID POSTDATAAVAIL(); extern int DATABASE; extern int ENDOFDATA; extern int L3LIVES; extern int NUMBEROFNODES; typedef struct _CMDX { char String[12]; // COMMAND STRING UCHAR CMDLEN; // SIGNIFICANT LENGTH VOID (* CMDPROC)(); // COMMAND PROCESSOR size_t CMDFLAG; // FLAG/VALUE Offset } CMDX; struct APPLCONFIG { char Command[12]; char CommandAlias[48]; char ApplCall[10]; char ApplAlias[10]; char L2Alias[10]; int ApplQual; }; typedef struct _MHSTRUC { UCHAR MHCALL[7]; UCHAR MHDIGIS[7][8]; time_t MHTIME; int MHCOUNT; BYTE MHDIGI; char MHFreq[12]; char MHLocator[6]; } MHSTRUC, *PMHSTRUC; // // Session Record // typedef struct _TRANSPORTENTRY { UCHAR L4USER[7]; // CALL OF ORIGINATING USER union // POINTER TO TARGET HOST/LINK/DEST/PORT (if Pactor) { struct PORTCONTROL * PORT; struct _LINKTABLE * LINK; struct DEST_LIST * DEST; struct _BPQVECSTRUC * HOST; struct _EXTPORTDATA * EXTPORT; } L4TARGET; UCHAR L4MYCALL[7]; // CALL WE ARE USING UCHAR CIRCUITINDEX; // OUR CIRCUIT INFO UCHAR CIRCUITID; // UCHAR FARINDEX; // UCHAR FARID; // OTHER END'S INFO UCHAR L4WINDOW; // WINDOW SIZE UCHAR L4WS; // WINDOW START - NEXT FRAME TO ACK UCHAR TXSEQNO; // UCHAR RXSEQNO; // TRANSPORT LEVEL SEQUENCE INFO UCHAR L4LASTACKED; // LAST SEQUENCE ACKED UCHAR FLAGS; // TRANSPORT LEVEL FLAGS UCHAR NAKBITS; // NAK & CHOKE BITS TO BE SENT struct _TRANSPORTENTRY * L4CROSSLINK; // POINTER TO LINKED L4 SESSION ENTRY UCHAR L4CIRCUITTYPE; // BIT SIGNIFICANT - SEE BELOW UCHAR KAMSESSION; // Session Number on KAM Host Mode TNC struct DATAMESSAGE * L4TX_Q; struct _L3MESSAGEBUFFER * L4RX_Q; struct DATAMESSAGE * L4HOLD_Q; // FRAMES WAITING TO BE ACKED struct _L3MESSAGEBUFFER * L4RESEQ_Q; // FRAMES RECEIVED OUT OF SEQUENCE UCHAR L4STATE; USHORT L4TIMER; UCHAR L4ACKREQ; // DATA ACK NEEDED UCHAR L4RETRIES; // RETRY COUNTER USHORT L4KILLTIMER; // IDLE CIRCUIT TIMER USHORT SESSIONT1; // TIMEOUT FOR SESSIONS FROM HERE UCHAR SESSPACLEN; // PACLEN FOR THIS SESSION UCHAR BADCOMMANDS; // SUCCESSIVE BAD COMMANDS UCHAR STAYFLAG; // STAY CONNECTED FLAG UCHAR SPYFLAG; // SPY - CONNECT TO NODE VIA BBS CALLSIGN UCHAR RTT_SEQ; // SEQUENCE NUMBER BEING TIMED uint32_t RTT_TIMER; // TIME ABOVE SEQUENCE WAS SENT USHORT PASSWORD; // AUTHORISATION CODE FOR REMOTE SYSOP UCHAR SESS_APPLFLAGS; // APPL FLAGS FOR THIS SESSION UCHAR Secure_Session; // Set if Host session from BPQTerminal or BPQMailChat VOID * DUMPPTR; // POINTER FOR REMOTnE DUMP MODE VOID * PARTCMDBUFFER; // Save area for incomplete commmand long long Frequency; // If known - for CMS Reporting Hz char RMSCall[10]; UCHAR Mode; // ditto int UNPROTO; // Unproto Mode flag - port number if in unproto mode int UAddrLen; // char UADDRESS[64]; // Unproto Address String - Dest + Digis uint64_t LISTEN; // Port Mask if in Listen Mode char APPL[16]; // Set if session initiated by an APPL int L4LIMIT; // Idle time for this Session } TRANSPORTENTRY; // // CIRCUITTYPE EQUATES // #define L2LINK 1 #define SESSION 2 #define UPLINK 4 #define DOWNLINK 8 #define BPQHOST 32 #define PACTOR 64 typedef struct ROUTE { // Adjacent Nodes UCHAR NEIGHBOUR_CALL[7]; // AX25 CALLSIGN UCHAR NEIGHBOUR_DIGI1[7]; // DIGIS EN ROUTE (MAX 2 - ?? REMOVE) UCHAR NEIGHBOUR_DIGI2[7]; // DIGIS EN ROUTE (MAX 2 - ?? REMOVE) UCHAR NEIGHBOUR_PORT; UCHAR NEIGHBOUR_QUAL; UCHAR NEIGHBOUR_FLAG; // SET IF 'LOCKED' ROUTE struct _LINKTABLE * NEIGHBOUR_LINK; // POINTER TO LINK FOR THIS NEIGHBOUR USHORT NEIGHBOUR_TIME; // TIME LAST HEARD (HH MM) int NBOUR_IFRAMES; // FRAMES SENT/RECEIVED int NBOUR_RETRIES; // RETRASMISSIONS UCHAR NBOUR_MAXFRAME; // FOR OPTIMISATION CODE UCHAR NBOUR_FRACK; UCHAR NBOUR_PACLEN; BOOL INP3Node; BOOL NoKeepAlive; // Suppress Keepalive Processing int LastConnectAttempt; // To stop us trying too often int Status; // int LastRTT; // Last Value Reported int RTT; // Current int SRTT; // Smoothed RTT int NeighbourSRTT; // Other End SRTT // int RTTIncrement; // Average of Ours and Neighbours SRTT in 10 ms int BCTimer; // Time to next L3RTT Broadcast int Timeout; // Lost Response Timer int Retries; // Lost Response Count struct _L3MESSAGEBUFFER * Msg; // RIF being built int OtherendsRouteQual; // Route quality used by other end. int OtherendLocked; // Route quality locked by ROUTES entry. int FirstTimeFlag; // Set once quality has been set by direct receive } *PROUTE; // Status Equates #define GotRTTRequest 1 // Other end has sent us a RTT Packet #define GotRTTResponse 2 // Other end has sent us a RTT Response #define GotRIF 4 // Other end has sent RIF, so is probably an INP3 Node // (could just be monitoring RTT for some reason #define SentOurRIF 16 // Set when we have sent a rif for our Call and any ApplCalls // (only sent when we have seen both a request and response) #pragma pack(1) typedef struct _L3MESSAGEBUFFER { // // NETROM LEVEL 3 MESSAGE with Buffer Header // struct _L3MESSAGEBUFFER * Next; UCHAR Port; SHORT LENGTH; UCHAR L3PID; // PID UCHAR L3SRCE[7]; // ORIGIN NODE UCHAR L3DEST[7]; // DEST NODE UCHAR L3TTL; // TX MONITOR FIELD - TO PREVENT MESSAGE GOING // ROUND THE NETWORK FOR EVER DUE TO ROUTING LOOP // // NETROM LEVEL 4 DATA // UCHAR L4INDEX; // TRANSPORT SESSION INDEX UCHAR L4ID; // TRANSPORT SESSION ID UCHAR L4TXNO; // TRANSMIT SEQUENCE NUMBER UCHAR L4RXNO; // RECEIVE (ACK) SEQ NUMBER UCHAR L4FLAGS; // FRAGMENTATION, ACK/NAK, FLOW CONTROL AND MSG TYPE BITS UCHAR L4DATA[236] ; //DATA } L3MESSAGEBUFFER, *PL3MESSAGEBUFFER; typedef struct _L3MESSAGE { // // NETROM LEVEL 3 MESSAGE - WITHOUT L2 INFO // UCHAR L3SRCE[7]; // ORIGIN NODE UCHAR L3DEST[7]; // DEST NODE UCHAR L3TTL; // TX MONITOR FIELD - TO PREVENT MESSAGE GOING // ROUND THE NETWORK FOR EVER DUE TO ROUTING LOOP // // NETROM LEVEL 4 DATA // UCHAR L4INDEX; // TRANSPORT SESSION INDEX UCHAR L4ID; // TRANSPORT SESSION ID UCHAR L4TXNO; // TRANSMIT SEQUENCE NUMBER UCHAR L4RXNO; // RECEIVE (ACK) SEQ NUMBER UCHAR L4FLAGS; // FRAGMENTATION, ACK/NAK, FLOW CONTROL AND MSG TYPE BITS UCHAR L4DATA[236] ; //DATA } L3MESSAGE, *PL3MESSAGE; #define MSGHDDRLEN (USHORT)(sizeof(VOID *) + sizeof(UCHAR) + sizeof(USHORT)) typedef struct _MESSAGE { // BASIC LINK LEVEL MESSAGE BUFFER LAYOUT struct _MESSAGE * CHAIN; UCHAR PORT; USHORT LENGTH; UCHAR DEST[7]; UCHAR ORIGIN[7]; // MAY BE UP TO 56 BYTES OF DIGIS UCHAR CTL; UCHAR PID; union { /* array named screen */ UCHAR L2DATA[256]; struct _L3MESSAGE L3MSG; }; UCHAR Padding[BUFFLEN - (sizeof(time_t) + (2 * sizeof(unsigned short)) + sizeof(VOID *) + 256 + MSGHDDRLEN + 16)]; // 16 = Addrs CTL PID time_t Timestamp; struct _LINKTABLE * Linkptr; // For ACKMODE processing unsigned short Process; // Process that got buffer unsigned short GuardZone; // Should always be zero }MESSAGE, *PMESSAGE; #define MAXDATA BUFFLEN - (sizeof(time_t) + (2 * sizeof(unsigned short)) + sizeof(VOID *) + MSGHDDRLEN + 16) // 16 = Addrs CTL PID typedef struct HDDRWITHDIGIS { // BASIC LINK LEVEL MESSAGE BUFFER LAYOUT struct _MESSAGE * CHAIN; UCHAR PORT; USHORT LENGTH; UCHAR DEST[7]; UCHAR ORIGIN[7]; UCHAR DIGIS[8][7]; UCHAR CTL; UCHAR PID; union { UCHAR L2DATA[256]; struct _L3MESSAGE L3MSG; }; UCHAR Padding[BUFFLEN - (sizeof(time_t) + (2 * sizeof(unsigned short)) + sizeof(VOID *) + 256 + 56 + MSGHDDRLEN + 16)]; // 16 = Addrs CTL PID time_t Timestamp; struct _LINKTABLE * Linkptr; // For ACKMODE processing unsigned short Process; // Process that got buffer unsigned short GuardZone; } DIGIMESSAGE, *PDIGIMESSAGE; typedef struct DATAMESSAGE { // BASIC LINK LEVEL MESSAGE HEADERLAYOUT struct DATAMESSAGE * CHAIN; UCHAR PORT; USHORT LENGTH; UCHAR PID; UCHAR L2DATA[256]; } *PDATAMESSAGE; typedef struct MSGWITHLEN { // BASIC LINK LEVEL MESSAGE HEADERLAYOUT struct MSGWITHLEN * Next; size_t Len; UCHAR Data[256]; } *PMSGWITHLEN; typedef struct MSGWITHOUTLEN { // Basic Chained Buffer struct MSGWITHLEN * Next; UCHAR Data[256]; } *PMSGWITHOUTLEN; // // BPQHOST MODE VECTOR STRUC // #pragma pack() typedef struct _BPQVECSTRUC { struct _TRANSPORTENTRY * HOSTSESSION; // Pointer to Session UCHAR HOSTFLAGS; // ALLOCATED AND STATE CHANGE FLAGS ULONG HOSTAPPLMASK; UCHAR HOSTAPPLFLAGS; UCHAR HOSTSTREAM; // STREAM NUMBER PMESSAGE HOSTTRACEQ; HWND HOSTHANDLE; // HANDLE FOR POSTING MSGS TO ULONG HOSTAPPLNUM; // Application Number ULONG STREAMOWNER; // PID of Process owning stream char PgmName[32]; // Program Name; } BPQVECSTRUC, *PBPQVECSTRUC; typedef struct _APPLCALLS { // Application Calls/Alias Supports multiple L4 application calls UCHAR APPLCALL[7]; // ax.25 char APPLALIAS_TEXT[10]; // TEXT, WITH APPENDED SPACE char APPLCALL_TEXT[10]; UCHAR APPLALIAS[6]; char Filler; // So we can use ConvtoAX25 on Alias USHORT APPLQUAL; struct DEST_LIST * NODEPOINTER; // Pointer to "NODES" entry for this App (if L4) char APPLCMD[13]; // BOOL APPLHASALIAS; int APPLPORT; // Port used if APPL has an Alias char APPLALIASVAL[48]; // Alias if defined UCHAR L2ALIAS[7]; // Additional Alias foe L2 connects } APPLCALLS; // // We store the Time Received from our neighbour. Before using it we add our current route SRTT // This way our times adjust to changes of neighbour SRTT. We can't cater for changes to other hop RTTs, // But if these are significant (say 25% or 100 ms) they will be retransmitted typedef struct NR_DEST_ROUTE_ENTRY { struct ROUTE * ROUT_NEIGHBOUR; // POINTER TO NEXT NODE IN PATH UCHAR ROUT_QUALITY; // QUALITY UCHAR ROUT_OBSCOUNT; UCHAR Padding[5]; // SO Entries are the same length } *PNR_DEST_ROUTE_ENTRY; typedef struct DEST_ROUTE_ENTRY { struct ROUTE * ROUT_NEIGHBOUR; // POINTER TO NEXT NODE IN PATH USHORT LastRTT; // Last Value Reported USHORT RTT; // Current USHORT SRTT; // Smoothed RTT UCHAR Hops; } *PDEST_ROUTE_ENTRY; typedef struct DEST_LIST { // L4 Destinations (NODES) struct DEST_LIST * DEST_CHAIN; // SORTED LIST CHAIN UCHAR DEST_CALL[7]; // DESTINATION CALLSIGN (AX25 FORMAT) UCHAR DEST_ALIAS[6]; UCHAR DEST_STATE; // CONTROL BITS - SETTING UP, ACTIVE ETC UCHAR DEST_ROUTE; // CURRENTY ACTIVE DESTINATION UCHAR INP3FLAGS; struct NR_DEST_ROUTE_ENTRY NRROUTE[3];// Best 3 NR neighbours for this dest struct DEST_ROUTE_ENTRY ROUTE[3]; // Best 3 INP neighbours for this dest void * DEST_Q; // QUEUE OF FRAMES FOR THIS DESTINATION int DEST_RTT; // SMOOTHED ROUND TRIP TIMER int DEST_COUNT; // FRAMES SENT } dest_list; // IMNP3FLAGS Equates #define NewNode 1 // Just added to table, so need to pass on struct XDIGI { struct XDIGI * Next; // Chain UCHAR Call[7]; UCHAR Alias[7]; int Port; BOOL UIOnly; }; struct WL2KInfo { struct WL2KInfo * Next; char * Host; short WL2KPort; char RMSCall[10]; char BaseCall[10]; char GridSquare[7]; char Times[80]; char ServiceCode[17]; BOOL UseRigCtrlFreqs; char WL2KFreq[12]; char xWL2KMode; // WL2K reporting mode char WL2KModeChar; // W or N BOOL DontReportNarrowOnWideFreqs; // char NARROWMODE; // char WIDEMODE; // Mode numbers to report to WL2K // struct WL2KInfo WL2KInfoList[MAXFREQS]; // Freqs for sending to WL2K long long Freq; char Bandwidth; // char * TimeList; // eg 06-10,12-15 int mode; // see below (an integer) int baud; // see below (an integer) int power; // actual power if known, default to 100 for HF, 30 for VHF/UHF (an integer) int height; // antenna height in feet if known, default to 25 int gain; // antenna gain if known, default to 0 int direction; // primary antenna direction in degrees if known, use 000 for omni (an integer) BOOL RPonPTC; // Set if scanning for Robust Packet on a PTC }; typedef struct PORTCONTROL { UCHAR PORTCALL[7]; UCHAR PORTALIAS[7]; //USED FOR UPLINKS ONLY char PORTNUMBER; char PROTOCOL; // PORT PROTOCOL // 0 = KISS, 2 = NETROM, 4 = BPQKISS //; 6 = HDLC, 8 = L2 struct PORTCONTROL * PORTPOINTER; // NEXT IN CHAIN PMESSAGE PORTRX_Q; // FRAMES RECEIVED ON THIS PORT PMESSAGE PORTTX_Q; // FRAMES TO BE SENT ON THIS PORT void (FAR * PORTTXROUTINE)(); // POINTER TO TRANSMIT ROUTINE FOR THIS PORT void (FAR * PORTRXROUTINE)(); // POINTER TO RECEIVE ROUTINE FOR THIS PORT void (FAR * PORTINITCODE)(); // INITIALISATION ROUTINE void (FAR * PORTTIMERCODE)(); // void (FAR * PORTCLOSECODE)(); // CLOSE ROUTINE int (FAR * PORTTXCHECKCODE)(); // OK to TX Check BOOL (FAR * PORTSTOPCODE)(); // Temporarily Stop Port BOOL (FAR * PORTSTARTCODE)(); // Restart Port BOOL PortStopped; // STOPPORT command used BOOL PortSuspended; // Suspended by interlock char PORTDESCRIPTION[31];// TEXT DESCRIPTION OF FREQ/SPEED ETC (31 so null terminated) UCHAR PORTQUALITY; // 'STANDARD' QUALITY FOR THIS PORT char PORTBBSFLAG; // NZ MEANS PORT CALL/ALIAS ARE FOR BBS char PORTL3FLAG; // NZ RESTRICTS OUTGOING L2 CONNECTS // // CWID FIELDS // USHORT CWID[9]; // 8 ELEMENTS + FLAG USHORT ELEMENT; // REMAINING BITS OF CURRENT CHAR USHORT * CWPOINTER; // POINTER TO NEXT CHAR USHORT CWIDTIMER; // TIME TO NEXT ID char CWSTATE; // STATE MACHINE FOR CWID char CWTYPE; // SET TO USE ON/OFF KEYING INSTEAD OF // FSK (FOR RUH MODEMS) UCHAR PORTMINQUAL; // MIN QUAL TO BRAOCAST ON THIS PORT // STATS COUNTERS int L2DIGIED; int L2FRAMES; int L2FRAMESFORUS; int L2FRAMESSENT; int L2TIMEOUTS; int L2ORUNC; // OVERRUNS int L2URUNC; // UNDERRUNS int L1DISCARD; // FRAMES DISCARDED (UNABLE TO TX DUE TO DCD) int L2FRMRRX; int L2FRMRTX; int RXERRORS; // RECEIVE ERRORS int L2REJCOUNT; // REJ FRAMES RECEIVED int L2OUTOFSEQ; // FRAMES RECEIVED OUT OF SEQUENCE int L2RESEQ; // FRAMES RESEQUENCED USHORT SENDING; // LINK STATUS BITS USHORT ACTIVE; UCHAR AVSENDING; // LAST MINUTE UCHAR AVACTIVE; char PORTTYPE; // H/W TYPE // 0 = ASYNC, 2 = PC120, 4 = DRSI // 6 = TOSH, 8 = QUAD, 10 = RLC100 // 12 = RLC400 14 = INTERNAL 16 = EXTERNAL USHORT IOBASE; // CONFIG PARAMS FOR HARDWARE DRIVERS char INTLEVEL; // NEXT 4 SAME FOR ALL H/W TYPES int BAUDRATE; // SPEED char CHANNELNUM; // ON MULTICHANNEL H/W struct PORTCONTROL * INTCHAIN; // POINTER TO NEXT PORT USING THIS LEVEL UCHAR PORTWINDOW; // L2 WINDOW FOR THIS PORT USHORT PORTTXDELAY; // TX DELAY FOR THIS PORT UCHAR PORTPERSISTANCE; // PERSISTANCE VALUE FOR THIS PORT UCHAR FULLDUPLEX; // FULL DUPLEX IF SET UCHAR SOFTDCDFLAG; // IF SET USE 'SOFT DCD' - IF MODEM CANT GIVE A REAL ONE UCHAR PORTSLOTTIME; // SLOT TIME UCHAR PORTTAILTIME; // TAIL TIME UCHAR PORTT1; // L2 TIMEOUT UCHAR PORTT2; // L2 DELAYED ACK TIMER UCHAR PORTN2; // RETRIES UCHAR PORTPACLEN; // DEFAULT PACLEN FOR INCOMING SESSIONS UINT * PORTINTERRUPT; // ADDRESS OF INTERRUPT HANDLER UCHAR QUAL_ADJUST; // % REDUCTION IN QUALITY IF ON SAME PORT char * PERMITTEDCALLS; // POINTER TO PERMITED CALLS LIST char * PORTUNPROTO; // POINTER TO UI DEST AND DIGI LIST UCHAR PORTDISABLED; // PORT TX DISABLE FLAG char DIGIFLAG; // ENABLE/DISABLE/UI ONLY UCHAR DIGIPORT; // CROSSBAND DIGI PORT USHORT DIGIMASK; // CROSSBAND DIGI MASK UCHAR USERS; // MAX USERS ON PORT USHORT KISSFLAGS; // KISS SPECIAL MODE BITS UCHAR PORTINTERLOCK; // TO DEFINE PORTS WHICH CANT TX AT SAME TIME // // PORTINTERLOCK was also used to prevent use of Attach'able ports at the same time // and was the RADIO number used in rig control // // Now a port can have both a rx and tx radio definition, so Attach now // Checks them (Transferred to TNC->TXRADIO and RXRADIO // // For backward compatibility of configs, if INTERLOCK is set on an Attachable // port it is set as a default tx and rx radio // // Acually may not need the following PORT fields UCHAR PORTXRADIO; // TO DEFINE PORTS WHICH CANT TX Attach AT SAME TIME UCHAR PORRXRADIO; // TO DEFINE PORTS WHICH CANT TX Attach AT SAME TIME UCHAR NODESPACLEN; // MAX LENGTH OF 'NODES' MSG UCHAR TXPORT; // PORT FOR SHARED TX OPERATION MHSTRUC * PORTMHEARD; // POINTER TO MH DATA USHORT PARAMTIMER; // MOVED FROM HW DATA FOR SYSOPH UCHAR PORTMAXDIGIS; // DIGIS ALLOWED ON THIS PORT UCHAR PORTALIAS2[7]; // 2ND ALIAS FOR DIGIPEATING FOR APRS UCHAR PORTBCALL[7]; // Source call for Beacon char PortNoKeepAlive; // Default to no Keepalives char PortUIONLY; // UI only port - no connects char UICAPABLE; // Pactor-style port that can do UI struct WL2KInfo WL2KInfo; // WL2K Report for this Port struct in_addr PORTIPADDR; // IP address for "KISS over UDP" int ListenPort; // For KISS over UDP, if Different TX and RX Ports needed BOOL KISSTCP; // TCP instead of UDP for KISS BOOL KISSSLAVE; // TCP KISS is Slave char * SerialPortName; // Serial Port Name for Unix struct XDIGI * XDIGIS; // Cross port digi setup BOOL NormalizeQuality; // Normalise Node Qualities BOOL IgnoreUnlocked; // Ignore Unlocked routes BOOL INP3ONLY; // Default to INP3 and disallow NODES FARPROCY UIHook; // Used for KISSARQ struct PORTCONTROL * HookPort; int PortSlot; // Index in Port Table struct TNCINFO * TNC; // Associated TNC record int RIGPort; // Linked port for freq resporting unsigned int PERMITTEDAPPLS; // Appls allowed on this port (generalisation of BBSBANNED) char * CTEXT; // Port Specific CText char Hide; // Hide from port display and AGW connect menu TRANSPORTENTRY * Session; // For Response to KISS command time_t LastKISSCmdTime; time_t LastSmartIDTime; // For SmartID - ID only if packets sent recently time_t SmartIDNeeded; // Time to send next smart ID time_t SmartIDInterval; // Smart ID Interval (Secs) int SendtoM0LTEMap; } PORTCONTROLX, *PPORTCONTROL; typedef struct FULLPORTDATA { struct PORTCONTROL PORTCONTROL; UCHAR HARDWAREDATA[300]; // WORK AREA FOR HARDWARE DRIVERS } *PFULLPORTDATA; // KISS Mapping of HARDWAREDATA typedef struct KISSINFO { struct PORTCONTROL PORT; int LINKSTS; // CURRENT STATE UINT * CURALP; // CURRENT BUFFER UINT * NEXTCHR; // void * ASYNCMSG_Q; // RECEIVED MESSAGES void * KISSTX_Q ; // MESSAGES TO SEND int ESCFLAG ; // ; SET IF LAST RX CHAR WAS DLE int ESCTXCHAR; // ; CHAR TO SEND FOLLOWING DLE IF NZ struct KISSINFO * FIRSTPORT; // ; FIRST PORT DEFINED FOR THIS IO ADDR struct KISSINFO * SUBCHAIN; // ; NEXT SUBCHANNEL FOR SAME PHYSICAL PORT int OURCTRL; // ; CONTROL BYTE FOR THIS PORT int XCTRL; // CONTROL BYTE TO SEND int REALKISSFLAGS; // ; KISS FLAGS FOR ACTIVE SUBPORT USHORT TXCCC; // ; NETROM/BPQKISS CHECKSUMS USHORT RXCCC; // int TXACTIVE; // TIMER TO DETECT 'HUNG' SENDS int POLLFLAG; // POLL OUTSTANDING FOR MULTIKISS struct KISSINFO * POLLPOINTER; // LAST GROUP POLLED int POLLED; // SET WHEN POLL RECEIVED UCHAR * KISSCMD; // Commands to be sent when port opened int KISSCMDLEN; // UCHAR WIN32INFO[16]; // FOR WINDOWS DRIVER } *PKISSINFO; // EXT Driver Mapping of HARDWAREDATA typedef struct _EXTPORTDATA { struct PORTCONTROL PORTCONTROL ; // REMAP HARDWARE INFO void * (* PORT_EXT_ADDR) (); // ADDR OF RESIDENT ROUTINE char PORT_DLL_NAME[16]; UCHAR EXTRESTART; // FLAG FOR DRIVER REINIT HINSTANCE DLLhandle; int MAXHOSTMODESESSIONS; // Max Host Sessions supported (Used for KAM Pactor + ax.25 support) struct _TRANSPORTENTRY * ATTACHEDSESSIONS[27]; // For PACTOR. etc BOOL PERMITGATEWAY; // Set if ax.25 ports can change callsign (ie SCS, not KAM int SCANCAPABILITIES; //Type of scan control Controller supports (None, Simple, Connect Lock) #define NONE 0 #define SIMPLE 1 #define CONLOCK 2 void * UI_Q; // Unproto Frames for Session Mode Drivers (TRK, etc) int FramesQueued; // TX Frames queued in Driver } EXTPORTDATA, *PEXTPORTDATA; typedef struct _HDLCDATA { struct PORTCONTROL PORTCONTROL ; // REMAP HARDWARE INFO // // Mapping of VXD fields (mainly to simplify debugging // ULONG ASIOC; // A CHAN ADDRESSES ULONG SIO; // OUR ADDRESSES (COULD BE A OR B) ULONG SIOC; ULONG BSIOC; // B CHAN CONTROL struct _HDLCDATA * A_PTR; // PORT ENTRY FOR A CHAN struct _HDLCDATA * B_PTR; // PORT ENTRY FOR B CHAN VOID (FAR * VECTOR[4]) (); // INTERRUPT VECTORS // UINT * IOTXCA; // INTERRUPT VECTORS // UINT * IOTXEA; // UINT * IORXCA; // UINT * IORXEA; UCHAR LINKSTS; UINT * SDRNEXT; UINT * SDRXCNT; UINT * CURALP; UCHAR OLOADS; // LOCAL COUNT OF BUFFERS SHORTAGES USHORT FRAMELEN; UINT * SDTNEXT; // POINTER to NEXT BYTE to TRANSMIT USHORT SDTXCNT; // CHARS LEFT TO SEND UCHAR RR0; // CURRENT RR0 UINT * TXFRAME; // ADDRESS OF FRAME BEING SENT UCHAR SDFLAGS; // GENERAL FLAGS void * PCTX_Q; // HDLC HOLDING QUEUE void * RXMSG_Q; // RX INTERRUPT TO SDLC BG //;SOFTDCD DB 0 ; RX ACTIVE FLAG FOR 'SOFT DC UCHAR TXDELAY; // TX KEYUP DELAY TIMER UCHAR SLOTTIME; // TIME TO WAIT IF WE DONT SEND UCHAR FIRSTCHAR; // CHAR TO SEND FOLLOWING TXDELAY USHORT L1TIMEOUT; // UNABLE TO TX TIMEOUT UCHAR PORTSLOTIMER; USHORT TXBRG; // FOR CARDS WITHOUT /32 DIVIDER USHORT RXBRG; UCHAR WR10 ; // NRZ/NRZI FLAG int IRQHand; int fd; // file descriptor for LKM ULONG IOLEN; // Number of bytes in IO Space struct PORTCONTROL * DRIVERPORTTABLE; // ADDR OF PORT TABLE ENTRY IN VXD // Used in NT Driver for Kernel Device Pointer }HDLCDATA, * PHDLCDATA; extern struct ROUTE * NEIGHBOURS; extern int ROUTE_LEN; extern int MAXNEIGHBOURS; extern struct DEST_LIST * DESTS; // NODE LIST extern int DEST_LIST_LEN; extern int MAXDESTS; // MAX NODES IN SYSTEM extern struct _LINKTABLE * LINKS; extern int LINK_TABLE_LEN; extern int MAXLINKS; /* L4TABLE DD 0 MAXCIRCUITS DW 50 ; NUMBER OF L4 CIRCUITS NUMBEROFPORTS DW 0 TNCTABLE DD 0 NUMBEROFSTREAMS DW 0 ENDDESTLIST DD 0 ; NODE LIST+1 */ typedef struct _LINKTABLE { //; //; LEVEL 2 LINK CONTROL TABLE //; UCHAR LINKCALL[7]; // CALLSIGN OF STATION UCHAR OURCALL[7]; // CALLSIGN OF OUR END UCHAR DIGIS[56]; // LEVEL 2 DIGIS IN PATH PPORTCONTROL LINKPORT; // PORT NUMBER UCHAR LINKTYPE; // 1 = UP, 2= DOWN, 3 = INTERNODE UCHAR LINKNR; UCHAR LINKNS; // LEV 2 SEQUENCE COUNTS UCHAR LINKWS; // WINDOW START UCHAR LINKOWS; // OLD (LAST ACKED) WINDOW START UCHAR LINKWINDOW; // LEVEL 2 WINDOW SIZE UCHAR L2FLAGS; // CONTROL BITS UCHAR VER1FLAG; // SET IF OTHER END RUNNING VERSION 1 VOID * RX_Q; // PACKETS RECEIVED ON THIS LINK VOID * TX_Q; // PACKETS TO SEND VOID * FRAMES[8]; // FRAMES WAITING ACK VOID * RXFRAMES[8]; // Frames received out of sequence UCHAR L2STATE; // PROCESSING STATE UCHAR Ver2point2; // Set if running 2.2 USHORT L2TIMER; // FRAME RETRY TIMER UCHAR L2TIME; // RETRY TIMER INITIAL VALUE USHORT L2SLOTIM; // DELAY FOR LINK VALIDATION POLL UCHAR L2ACKREQ; // DELAYED TEXT ACK TIMER UCHAR REJTIMER; // TO TIME OUT REJ IN VERSION 1 USHORT LAST_F_TIME; // TIME LAST R(F) SENT UCHAR SDREJF; // FLAGS FOR FRMR UCHAR SDRBYTE; // SAVED CONTROL BYTE FOR FRMR UCHAR SDTSLOT ; // POINTER TO NEXT TXSLOT TO USE UCHAR L2RETRIES; // RETRY COUNTER UCHAR SESSACTIVE; // SET WHEN WE ARE SURE SESSION IS UP UINT APPLMASK; // Used when XIR processed VOID * ALIASPTR; USHORT KILLTIMER; // TIME TO KILL IDLE LINK VOID * CIRCUITPOINTER; // POINTER TO L4 CIRCUIT TABLE ENTRY // (IF UP/DOWN) PROUTE NEIGHBOUR; // POINTER TO NEIGHBOUR (IF CROSSLINK) VOID * L2FRAG_Q; // DEFRAGMENTATION QUEUE } LINKTABLE; #pragma pack(1) struct myin_addr { union { struct { u_char s_b1,s_b2,s_b3,s_b4; } S_un_b; struct { u_short s_w1,s_w2; } S_un_w; uint32_t addr; }; }; typedef struct _IPMSG { // FORMAT OF IP HEADER // // NOTE THESE FIELDS ARE STORED HI ORDER BYTE FIRST (NOT NORMAL 8086 FORMAT) UCHAR VERLEN; // 4 BITS VERSION, 4 BITS LENGTH UCHAR TOS; // TYPE OF SERVICE USHORT IPLENGTH; // DATAGRAM LENGTH USHORT IPID; // IDENTIFICATION USHORT FRAGWORD; // 3 BITS FLAGS, 13 BITS OFFSET UCHAR IPTTL; UCHAR IPPROTOCOL; // HIGHER LEVEL PROTOCOL USHORT IPCHECKSUM; // HEADER CHECKSUM struct myin_addr IPSOURCE; struct myin_addr IPDEST; UCHAR Data; } IPMSG, *PIPMSG; typedef struct _PSEUDOHEADER { struct myin_addr IPSOURCE; struct myin_addr IPDEST; UCHAR Reserved; UCHAR IPPROTOCOL; // HIGHER LEVEL PROTUDP/TCP Length USHORT LENGTH; // DATAGRAM LENGTH } PHEADER; typedef struct _TCPMSG { // FORMAT OF TCP HEADER WITHIN AN IP DATAGRAM // NOTE THESE FIELDS ARE STORED HI ORDER BYTE FIRST (NOT NORMAL 8086 FORMAT) USHORT SOURCEPORT; USHORT DESTPORT; uint32_t SEQNUM; uint32_t ACKNUM; UCHAR TCPCONTROL; // 4 BITS DATA OFFSET 4 RESERVED UCHAR TCPFLAGS; // (2 RESERVED) URG ACK PSH RST SYN FIN USHORT WINDOW; USHORT CHECKSUM; USHORT URGPTR; } TCPMSG, *PTCPMSG; typedef struct _UDPMSG { // FORMAT OF UDP HEADER WITHIN AN IP DATAGRAM // NOTE THESE FIELDS ARE STORED HI ORDER BYTE FIRST (NOT NORMAL 8086 FORMAT) USHORT SOURCEPORT; USHORT DESTPORT; USHORT LENGTH; USHORT CHECKSUM; UCHAR UDPData[0]; } UDPMSG, *PUDPMSG; // ICMP MESSAGE STRUCTURE typedef struct _ICMPMSG { // FORMAT OF ICMP HEADER WITHIN AN IP DATAGRAM // NOTE THESE FIELDS ARE STORED HI ORDER BYTE FIRST (NOT NORMAL 8086 FORMAT) UCHAR ICMPTYPE; UCHAR ICMPCODE; USHORT ICMPCHECKSUM; USHORT ICMPID; USHORT ICMPSEQUENCE; UCHAR ICMPData[0]; } ICMPMSG, *PICMPMSG; #pragma pack() struct SEM { UINT Flag; int Clashes; int Gets; int Rels; DWORD SemProcessID; DWORD SemThreadID; }; #define TNCBUFFLEN 8192 #define MAXSTREAMS 32 // DED Emulator Stream Info struct StreamInfo { UCHAR * Chan_TXQ; // !! Leave at front so ASM Code Finds it // FRAMES QUEUED TO NODE int BPQStream; BOOL Connected; // Set if connected to Node int CloseTimer; // Used to close session after connect failure UCHAR MYCall[30]; char OutgoingCall[16]; }; struct TNC2StreamInfo { // Not sure which of these is session specific UCHAR VMSR; // VIRTUAL MSR (Only Connected Bit) int BPQPort; BOOL MODEFLAG; // COMMAND/DATA MODE int TPACLEN; // MAX PACKET SIZE FOR TNC GENERATED PACKETS char RemoteCall[10]; // FOr Stream Changed Message /* I suspect only the above are needed int TRANSTIMER; // TRANPARENT MODE SEND TIMOUT BOOL AUTOSENDFLAG; // SET WHEN TRANSMODE TIME EXPIRES int CMDTMR; // TRANSARENT MODE ESCAPE TIMER int COMCOUNT; // NUMBER OF COMMAND CHARS RECEIVED int CMDTIME ; // GUARD TIME FOR TRANS MODE EACAPE int CMSG; // Enable CTEXT flag int COMCHAR; // CHAR TO LEAVE CONV MODE int PASSCHAR; // Escape char char CTEXT[120]; char ECHOFLAG; // ECHO ENABLED BOOL TRACEFLAG; // MONITOR ON/OFF BOOL FLOWFLAG; // FLOW OFF/ON BOOL CONOK; BOOL CBELL; BOOL NOMODE; // MODE CHANGE FLAGS BOOL NEWMODE; BOOL CONMODEFLAG; // CONNECT MODE - CONV OR TRANS BOOL LFIGNORE; BOOL MCON; // TRACE MODE FLAGS BOOL MCOM; BOOL MALL; BOOL AUTOLF; // Add LF after CR BOOL BBSMON; // SPECIAL SHORT MONITOR FOR BBS BOOL MTX; // MONITOR TRANSMITTED FRAMES BOOL MTXFORCE; // MONITOR TRANSMITTED FRAMES EVEN IF M OFF UINT MMASK; // MONITOR PORT MASK BOOL HEADERLN; // PUT MONITORED DATA ON NEW LINE FLAG BOOL InEscape; // PASS Char received (treat next char as normal char not ctrl char) UINT APPLICATION; // APPLMASK UINT APPLFLAGS; // FLAGS TO CONTROL APPL SYSTEM UINT SENDPAC; // SEND PACKET CHAR BOOL CPACTIME; // USE PACTIME IN CONV MODE BOOL CRFLAG ; // APPEND SENDPAC FLAG int TPACLEN ; // MAX PACKET SIZE FOR TNC GENERATED PACKETS UCHAR UNPROTO[64]; // UNPROTO DEST AND DIGI STRING char MYCALL[10]; */ }; struct TNCDATA { struct TNCDATA * Next; unsigned int Mode; // 0 = TNC2, others may follow UCHAR TOUSERBUFFER[TNCBUFFLEN]; // BUFFER TO USER UCHAR TONODEBUFFER[300]; // BUFFER TO NODE UCHAR FROMUSERBUFFER[TNCBUFFLEN]; char PORTNAME[80]; // for Linux Port Names int ComPort; BOOL VCOM; int RTS; int CTS; int DCD; int DTR; int DSR; int BPQPort; int Speed; char PortLabel[20]; char TypeFlag[2]; BOOL PortEnabled; HANDLE hDevice; BOOL NewVCOM; // Set if User Mode VCOM Port UCHAR VMSR; // VIRTUAL MSR // BIT 7 - Receive Line Signal Detect (DCD) // 6 - Ring Indicator // 5 - Data Set Ready // 4 - Clear To Send // 3 - Delta RLSD ( ie state has changed since last // access) // 2 - Trailing Edge Ring Detect // 1 - Delta DSR // 0 - Delta CTS BOOL RTSFLAG; // BIT 0 SET IF RTS/DTR UP UCHAR VLSR; // LAST RECEIVED LSR VALUE int RXCOUNT; // BYTES IN RX BUFFER UCHAR * PUTPTR; // POINTER FOR LOADING BUFFER UCHAR * GETPTR; // POINTER FOR UNLOADING BUFFER UCHAR * CURSOR; // POSTION IN KEYBOARD BUFFER int MSGLEN; int TRANSTIMER; // TRANPARENT MODE SEND TIMOUT BOOL AUTOSENDFLAG; // SET WHEN TRANSMODE TIME EXPIRES int CMDTMR; // TRANSARENT MODE ESCAPE TIMER int COMCOUNT; // NUMBER OF COMMAND CHARS RECEIVED int CMDTIME ; // GUARD TIME FOR TRANS MODE EACAPE int CMSG; // Enable CTEXT flag int COMCHAR; // CHAR TO LEAVE CONV MODE int PASSCHAR; // Escape char int StreamSW; // Stream Switch Char int StreamDbl; int StreamCall; // Send call with stream switch char int LCStream; // Stream is case independant int Users; // Number of streams allowed char CTEXT[120]; char ECHOFLAG; // ECHO ENABLED BOOL TRACEFLAG; // MONITOR ON/OFF BOOL FLOWFLAG; // FLOW OFF/ON BOOL CONOK; BOOL CBELL; BOOL NOMODE; // MODE CHANGE FLAGS BOOL NEWMODE; BOOL CONMODEFLAG; // CONNECT MODE - CONV OR TRANS BOOL LFIGNORE; BOOL MCON; // TRACE MODE FLAGS BOOL MCOM; BOOL MALL; BOOL MUIONLY; BOOL AUTOLF; // Add LF after CR BOOL BBSMON; // SPECIAL SHORT MONITOR FOR BBS BOOL MTX; // MONITOR TRANSMITTED FRAMES BOOL MTXFORCE; // MONITOR TRANSMITTED FRAMES EVEN IF M OFF uint64_t MMASK; // MONITOR PORT MASK BOOL HEADERLN; // PUT MONITORED DATA ON NEW LINE FLAG BOOL InEscape; // PASS Char received (treat next char as normal char not ctrl char) BOOL InStreamSW; // StreamSW Char received (treat next char as new stream) // BOOL MODEFLAG; // TNC2 COMMAND/DATA MODE UINT APPLICATION; // APPLMASK UINT APPLFLAGS; // FLAGS TO CONTROL APPL SYSTEM UINT SENDPAC; // SEND PACKET CHAR BOOL CPACTIME; // USE PACTIME IN CONV MODE BOOL CRFLAG ; // APPEND SENDPAC FLAG int TPACLEN ; // MAX PACKET SIZE FOR TNC GENERATED PACKETS UCHAR UNPROTO[64]; // UNPROTO DEST AND DIGI STRING char MYCALL[10]; // TNC2 Stream Fields int TXStream; // Currently Selected Stream int RXStream; struct TNC2StreamInfo * TNC2Stream[26]; // For StreamSW support // DED Mode Fields int PollDelay; // Used by VCOM to slow down continuous reads on real port struct StreamInfo * Channels[MAXSTREAMS+1]; char MODE; // INITIALLY TERMINAL MODE char HOSTSTATE; // HOST STATE MACHINE int MSGCOUNT; // LENGTH OF MESSAGE EXPECTED int MSGLENGTH; char MSGTYPE; unsigned char MSGCHANNEL; char DEDMODE; // CLUSTER MODE - DONT ALLOW DUP CONNECTS int HOSTSTREAMS; // Default Streams UCHAR DEDTXBUFFER[256]; UCHAR * DEDCURSOR; unsigned char MONBUFFER[258]; //="\x6"; int MONLENGTH; int MONFLAG; time_t LastDEDPollTime; // To detect lost host program // Kantronics Fields int RXBPtr; char nextMode; // Mode after RESET // SCS Fields int FROMUSERLEN; BOOL Term4Mode; // Used by Airmail BOOL PACMode; // SCS in Packet Mode BOOL Toggle; // SCS Sequence Toggle char MyCall[10]; }; // Emulatiom mode equates #define TNC2 0 #define DED 1 #define KANTRONICS 2 // For future use #define SCS 3 #define MAX_ENTRIES 128 #define MaxMHEntries 100 #define MAX_BROADCASTS 8 #define MAXUDPPORTS 30 #ifndef MAXGETHOSTSTRUCT #define MAXGETHOSTSTRUCT 1024 #endif struct arp_table_entry { unsigned char callsign[7]; unsigned char len; // bytes to compare (6 or 7) BOOL IPv6; // union // { // struct in_addr in_addr; // unsigned int ipaddr; // struct in6_addr in6_addr; // }; unsigned short port; unsigned char hostname[64]; unsigned int error; BOOL ResolveFlag; // True if need to resolve name unsigned int keepalive; unsigned int keepaliveinit; BOOL BCFlag; // True if we want broadcasts to got to this call BOOL AutoAdded; // Set if Entry created as a result of AUTOADDMAP SOCKET TCPListenSock; // Listening socket if slave SOCKET TCPSock; int TCPMode; // TCPMaster ot TCPSlave UCHAR * TCPBuffer; // Area for building TCP message from byte stream int InputLen; // Bytes in TCPBuffer union { struct sockaddr_in6 destaddr6; struct sockaddr_in destaddr; }; BOOL TCPState; pthread_t TCPThreadID; // Thread ID if TCP Master UINT TCPOK; // Cleared when Message RXed . Incremented by timer int SourcePort; // Used to select socket, hence from port. // SOCKET SourceSocket; struct AXIPPORTINFO * PORT; BOOL noUpdate; // Don't update dest address from incoming packet }; struct broadcast_table_entry { unsigned char callsign[7]; unsigned char len; // bytes to compare (6 or 7) }; struct MHTableEntry { unsigned char callsign[7]; char proto; short port; union { struct in_addr ipaddr; struct in6_addr ipaddr6; }; time_t LastHeard; // Time last packet received int Keepalive; BOOL IPv6; }; struct AXIPPORTINFO { int Port; struct MHTableEntry MHTable[MaxMHEntries]; struct broadcast_table_entry BroadcastAddresses[MAX_BROADCASTS]; int NumberofBroadcastAddreses; BOOL Checkifcanreply; int arp_table_len; int ResolveIndex; // pointer to entry being resolved struct arp_table_entry arp_table[MAX_ENTRIES]; struct arp_table_entry default_arp; BOOL MHEnabled; BOOL MHAvailable; // Enabled with config file directive BOOL AutoAddARP; BOOL AutoAddBC; // Broadcast flag for autoaddmap unsigned char hostaddr[64]; HWND hResWnd, hMHWnd, ConfigWnd; BOOL GotMsg; int udpport[MAXUDPPORTS+2]; BOOL IPv6[MAXUDPPORTS+2]; BOOL PortIPv6; // Set if any MAPS for IPv6 int NumberofUDPPorts; BOOL needip; BOOL NeedResolver; BOOL NeedTCP; SOCKET sock; // IP 93 Sock SOCKET udpsock[MAXUDPPORTS+2]; time_t ltime,lasttime; int baseline; int mhbaseline; int CurrentMHEntries; char buf[MAXGETHOSTSTRUCT]; int MaxMHWindowlength; int MaxResWindowlength; BOOL ResMinimized; BOOL MHMinimized; HMENU hResMenu; HMENU hMHMenu; pthread_t ResolveNamesThreadId; }; #define Disconnect(stream) SessionControl(stream,2,0) #define Connect(stream) SessionControl(stream,1,0) #endif