/*++ Copyright (c) 1991 Microsoft Corporation Copyright (c) 1991 ICL Data Module Name: llctrace.c Abstract: Module implements simple trace buffer management. The application must povides a trace buffer and read it by polling. THIS MODULE HAS BEEN IMPLEMENTED ONLY FOR THE DATA LINK EMULATION ENVIRONMENT ON USER LEVEL. Author: Antti Saarenheimo (o-anttis) 10-OCT-1991 Environment: Kernel mode Revision History: --*/ #include #ifndef max #include #endif #ifdef TRACE_ENABLED BOOLEAN TraceEnabled; static PLLC_TRACE_HEADER pTraceBufferBase; static PLLC_TRACE_HEADER pTraceBufferTop; static PLLC_TRACE_HEADER pTraceBufferHead; static NDIS_SPIN_LOCK TraceLock; static ULONG TraceFlags; UCHAR GetHexDigit( UINT Ch ); PUCHAR GetHexString( PUCHAR pDest, UINT Length, PUCHAR Buffer ); DLC_STATUS LlcTraceInitialize( IN PVOID pUserTraceBuffer, IN ULONG UserTraceBufferSize, IN ULONG UserTraceFlags ) { // // This small piece of code is not multiprocessors safe, // but nobody will ever find it ... // if (TraceEnabled) { return DLC_STATUS_DUPLICATE_COMMAND; } if (UserTraceBufferSize < LLC_MIN_TRACE_BUFFER) { return DLC_STATUS_INVALID_BUFFER_LENGTH; } RtlZeroMemory( pUserTraceBuffer, (UINT)UserTraceBufferSize ); ALLOCATE_SPIN_LOCK( &TraceLock ); pTraceBufferBase = pTraceBufferHead = (PLLC_TRACE_HEADER)pUserTraceBuffer; pTraceBufferHead->Event = LLC_TRACE_END_OF_DATA; pTraceBufferTop = &pTraceBufferBase[ UserTraceBufferSize / sizeof(LLC_TRACE_HEADER) ]; TraceFlags = UserTraceFlags; TraceEnabled = TRUE; return STATUS_SUCCESS; } VOID LlcTraceClose( VOID ) { if (TraceEnabled) { TraceEnabled = FALSE; DEALLOCATE_SPIN_LOCK( &TraceLock ); } } VOID LlcTraceWrite( IN UINT Event, IN UCHAR AdapterNumber, IN UINT DataBufferSize, IN PVOID pDataBuffer ) { //if ((AdapterNumber & 0x7f) != 0) // return; if (TraceEnabled) { ACQUIRE_SPIN_LOCK( &TraceLock ); if ((ULONG)(&pTraceBufferHead[1]) >= (ULONG)pTraceBufferTop) { pTraceBufferHead = (PLLC_TRACE_HEADER)pTraceBufferBase; } pTraceBufferHead->Event = (USHORT)Event; pTraceBufferHead->AdapterNumber = AdapterNumber; pTraceBufferHead->TimerTick = AbsoluteTime; pTraceBufferHead->DataLength = (UCHAR) #ifdef min min( TRACE_DATA_LENGTH, DataBufferSize ); #else __min( TRACE_DATA_LENGTH, DataBufferSize ); #endif memcpy( pTraceBufferHead->Buffer, pDataBuffer, pTraceBufferHead->DataLength ); pTraceBufferHead++; pTraceBufferHead->Event = LLC_TRACE_END_OF_DATA; RELEASE_SPIN_LOCK( &TraceLock ); } } #ifdef OS2_EMU_DLC // // Procedure makes the post mortem dump of the given number of last frames. // The output should look very much like in Sniffer. // This routine doesn't supprot source routing info, but its implementatin // should not be a very big thing. // VOID LlcTraceDump( IN UINT LastEvents, IN UINT AdapterNumber, IN PUCHAR pRemoteNode ) { PUCHAR pDest, pSrc, pCommand, pDlcHeader, pDirection, pTmp; UINT i; UCHAR Buffer1[13], Buffer2[13]; UCHAR CmdResp, PollFinal; LLC_HEADER LlcHeader; BOOLEAN IsEthernet; PLLC_TRACE_HEADER pTrace; UCHAR DataBuffer[18]; USHORT EthernetType; RtlZeroMemory( DataBuffer, sizeof( DataBuffer )); LlcTraceWrite( LLC_TRACE_RECEIVE_FRAME, AdapterNumber, sizeof(DataBuffer), DataBuffer ); if (!TraceEnabled) return; ACQUIRE_SPIN_LOCK( &TraceLock ); printf( "# Time Adpt Local Node Remote Node Dsp Ssp Cmd Nr Ns\n"); //0---------1---------2---------3---------4---------5---------6---------7----- //5 10 5 13 13 4 4 9 4 4 for ( pTrace = pTraceBufferHead, i = 0; i < LastEvents; i++) { EthernetType = 0; if (pTrace != pTraceBufferBase) { pTrace--; } else { pTrace = pTraceBufferTop - 2; } if (pTrace->Event == LLC_TRACE_END_OF_DATA) { break; } // // The highest bit is set in the adapter number, if // it's a token-ring adapter. // if (pTrace->AdapterNumber & 0x80) { IsEthernet = FALSE; } else IsEthernet = TRUE; pDlcHeader = &pTrace->Buffer[14]; if (IsEthernet) { pSrc = &pTrace->Buffer[6]; pDest = pTrace->Buffer; // // Discard all non ieee 802.2 frames, but support // the SNA dix headers. // if (pTrace->Buffer[12] == 0x80 && pTrace->Buffer[13] == 0xd5) { pDlcHeader = &pTrace->Buffer[17]; } else if (pTrace->Buffer[12] >= 64) { EthernetType = (USHORT) (((USHORT)pTrace->Buffer[12] << 8) + pTrace->Buffer[13] ); } } else { pSrc = &pTrace->Buffer[8]; pDest = &pTrace->Buffer[2]; // // Skip the source souting info // if (pTrace->Buffer[8] & 0x80) pDlcHeader += pTrace->Buffer[14] & 0x1f; // // Discard all non ieee 802.2 frames // if (pTrace->Buffer[1] != 0x40) continue; } memcpy( (PUCHAR)&LlcHeader, pDlcHeader, 4 ); if (AdapterNumber != -1 && AdapterNumber != ((UINT)pTrace->AdapterNumber & 0x7f)) continue; if (pTrace->Event == LLC_TRACE_SEND_FRAME) { if (pRemoteNode != NULL && memcmp( pDest, pRemoteNode, 6)) continue; pTmp = pDest; pDest = pSrc; pSrc = pTmp; pDirection = "->"; } else if (pTrace->Event == LLC_TRACE_RECEIVE_FRAME) { if (pRemoteNode != NULL && memcmp( pSrc, pRemoteNode, 6)) continue; pDirection = "<-"; } else { continue; } if (EthernetType != 0) { printf( "%-4u %-9lu %3u %12s %2s %12s DIX type %x\n", i, pTrace->TimerTick, pTrace->AdapterNumber & 0x7f, GetHexString( pDest, 6, Buffer1 ), pDirection, GetHexString( pSrc, 6, Buffer2 ), EthernetType ); } // // Handle first I frames, they are the most common! // else if (!(LlcHeader.U.Command & LLC_NOT_I_FRAME)) { PollFinal = ' '; if (LlcHeader.I.Ssap & LLC_SSAP_RESPONSE) { CmdResp = 'r'; if (LlcHeader.I.Nr & LLC_I_S_POLL_FINAL) { PollFinal = 'f'; } } else { CmdResp = 'c'; if (LlcHeader.I.Nr & LLC_I_S_POLL_FINAL) { PollFinal = 'p'; } } pCommand = "I"; printf( "%-4u %-9lu %3u %12s %2s %12s %-2x %-2x %5s-%c%c %-3u %-3u\n", i, pTrace->TimerTick, pTrace->AdapterNumber & 0x7f, GetHexString( pDest, 6, Buffer1 ), pDirection, GetHexString( pSrc, 6, Buffer2 ), LlcHeader.U.Dsap, LlcHeader.U.Ssap & 0xfe, pCommand, CmdResp, PollFinal, LlcHeader.I.Nr >> 1, LlcHeader.I.Ns >> 1 ); } else if (!(LlcHeader.S.Command & LLC_U_TYPE_BIT)) { // // Handle S (Supervisory) commands (RR, REJ, RNR) // switch (LlcHeader.S.Command) { case LLC_RR: pCommand = "RR"; break; case LLC_RNR: pCommand = "RNR"; break; case LLC_REJ: pCommand = "REJ"; break; default: pCommand = "INV"; break; }; // // The valid frames has modulo: Va <= Nr <= Vs, // Ie. the Receive sequence number should belong to // a frame that has been sent but not acknowledged. // The extra check in the beginning makes the most common // code path faster: usually the other is waiting the next frame. // (keep the rest code the same as in I path, even a very // primitive optimizer will puts these code paths together) // PollFinal = ' '; if (LlcHeader.S.Ssap & LLC_SSAP_RESPONSE) { CmdResp = 'r'; if (LlcHeader.S.Nr & LLC_I_S_POLL_FINAL) { PollFinal = 'f'; } } else { CmdResp = 'c'; if (LlcHeader.S.Nr & LLC_I_S_POLL_FINAL) { PollFinal = 'p'; } } printf( "%-4u %-9lu %3u %12s %2s %12s %-2x %-2x %5s-%c%c %-3u\n", i, pTrace->TimerTick, pTrace->AdapterNumber & 0x7f, GetHexString( pDest, 6, Buffer1 ), pDirection, GetHexString( pSrc, 6, Buffer2 ), LlcHeader.U.Dsap, LlcHeader.U.Ssap & 0xfe, pCommand, CmdResp, PollFinal, LlcHeader.I.Nr >> 1 ); } else { // // Handle U (Unnumbered) command frames // (FRMR, DM, UA, DISC, SABME, XID, TEST) switch (LlcHeader.U.Command & ~LLC_U_POLL_FINAL) { case LLC_UI: pCommand = "UI"; break; case LLC_DISC: pCommand = "DISC"; break; case LLC_SABME: pCommand = "SABME"; break; case LLC_DM: pCommand = "DM"; break; case LLC_UA: pCommand = "UA"; break; case LLC_FRMR: pCommand = "FRMR"; break; case LLC_TEST: pCommand = "TEST"; break; case LLC_XID: pCommand = "XID"; break; default: pCommand = "INV"; break; }; // // We set an uniform poll/final bit for procedure call // PollFinal = ' '; if (LlcHeader.U.Command & LLC_U_POLL_FINAL) { if (LlcHeader.U.Ssap & 1) { PollFinal = 'f'; } else { PollFinal = 'p'; } } if (LlcHeader.U.Ssap & 1) { CmdResp = 'r'; } else { CmdResp = 'c'; } printf( "%-4u %-9lu %3u %12s %2s %12s %-2x %-2x %5s-%c%c\n", i, pTrace->TimerTick, pTrace->AdapterNumber & 0x7f, GetHexString( pDest, 6, Buffer1 ), pDirection, GetHexString( pSrc, 6, Buffer2 ), LlcHeader.U.Dsap, LlcHeader.U.Ssap & 0xfe, pCommand, CmdResp, PollFinal ); } } RELEASE_SPIN_LOCK( &TraceLock ); } UCHAR GetHexDigit( UINT Ch ) { if (Ch <= 9) return (UCHAR)('0' + (UCHAR)Ch); else return (UCHAR)('A' + (UCHAR)Ch - 10); } PUCHAR GetHexString( PUCHAR pDest, UINT Length, PUCHAR Buffer ) { UINT i; for (i = 0; i < (Length * 2); i += 2) { Buffer[i] = GetHexDigit( *pDest >> 4 ); Buffer[i+1] = GetHexDigit( *pDest & 0x0f ); pDest++; } Buffer[i] = 0; return Buffer; } VOID LlcTraceDumpAndReset( IN UINT LastEvents, IN UINT AdapterNumber, IN PUCHAR pRemoteNode ) { LlcTraceDump( LastEvents, AdapterNumber, pRemoteNode ); ACQUIRE_SPIN_LOCK( &TraceLock ); if ((ULONG)(&pTraceBufferHead[1]) >= (ULONG)pTraceBufferTop) { pTraceBufferHead = (PLLC_TRACE_HEADER)pTraceBufferBase; } else pTraceBufferHead++; RELEASE_SPIN_LOCK( &TraceLock ); } #endif #endif // TRACE_ENABLED