/*++ Copyright (c) 1989, 1990, 1991 Microsoft Corporation Module Name: nbfmac.c Abstract: This module contains code which implements Mac type dependent code for the NBF transport. Author: David Beaver (dbeaver) 1-July-1991 Environment: Kernel mode (Actually, unimportant) Revision History: --*/ #include "precomp.h" #pragma hdrstop UCHAR SingleRouteSourceRouting[] = { 0xc2, 0x70 }; UCHAR GeneralRouteSourceRouting[] = { 0x82, 0x70 }; ULONG DefaultSourceRoutingLength = 2; // // This is the interpretation of the length bits in // the 802.5 source-routing information. // ULONG SR802_5Lengths[8] = { 516, 1500, 2052, 4472, 8144, 11407, 17800, 17800 }; #ifdef ALLOC_PRAGMA #pragma alloc_text(PAGE,MacInitializeMacInfo) #pragma alloc_text(PAGE,MacSetNetBIOSMulticast) #endif VOID MacInitializeMacInfo( IN NDIS_MEDIUM MacType, IN BOOLEAN UseDix, OUT PNBF_NDIS_IDENTIFICATION MacInfo ) /*++ Routine Description: Fills in the MacInfo table based on MacType. Arguments: MacType - The MAC type we wish to decode. UseDix - TRUE if we should use DIX encoding on 802.3. MacInfo - The MacInfo structure to fill in. Return Value: None. --*/ { switch (MacType) { case NdisMedium802_3: MacInfo->DestinationOffset = 0; MacInfo->SourceOffset = 6; MacInfo->SourceRouting = FALSE; MacInfo->AddressLength = 6; if (UseDix) { MacInfo->TransferDataOffset = 3; MacInfo->MaxHeaderLength = 17; MacInfo->MediumType = NdisMediumDix; } else { MacInfo->TransferDataOffset = 0; MacInfo->MaxHeaderLength = 14; MacInfo->MediumType = NdisMedium802_3; } MacInfo->MediumAsync = FALSE; break; case NdisMedium802_5: MacInfo->DestinationOffset = 2; MacInfo->SourceOffset = 8; MacInfo->SourceRouting = TRUE; MacInfo->AddressLength = 6; MacInfo->TransferDataOffset = 0; MacInfo->MaxHeaderLength = 32; MacInfo->MediumType = NdisMedium802_5; MacInfo->MediumAsync = FALSE; break; case NdisMediumFddi: MacInfo->DestinationOffset = 1; MacInfo->SourceOffset = 7; MacInfo->SourceRouting = FALSE; MacInfo->AddressLength = 6; MacInfo->TransferDataOffset = 0; MacInfo->MaxHeaderLength = 13; MacInfo->MediumType = NdisMediumFddi; MacInfo->MediumAsync = FALSE; break; case NdisMediumWan: MacInfo->DestinationOffset = 0; MacInfo->SourceOffset = 6; MacInfo->SourceRouting = FALSE; MacInfo->AddressLength = 6; MacInfo->TransferDataOffset = 0; MacInfo->MaxHeaderLength = 14; MacInfo->MediumType = NdisMedium802_3; MacInfo->MediumAsync = TRUE; break; default: ASSERT(FALSE); } } VOID MacConstructHeader ( IN PNBF_NDIS_IDENTIFICATION MacInfo, IN PUCHAR Buffer, IN PUCHAR DestinationAddress, IN PUCHAR SourceAddress, IN UINT PacketLength, IN PUCHAR SourceRouting, IN UINT SourceRoutingLength, OUT PUINT HeaderLength ) /*++ Routine Description: This routine is called to construct the Mac header for the particular network type we're talking to. Arguments: MacInfo - Describes the mac we wish to build a header for. Buffer - Where to build the header. DestinationAddress - the address this packet is to be sent to. SourceAddress - Our address. Passing it in as a parameter allows us to play games with source if we need to. PacketLength - The length of this packet. Note that this does not includes the Mac header. SourceRouting - Optional source routing information. SourceRoutingLength - The length of SourceRouting. HeaderLength - Returns the length of the constructed header. Return Value: None. --*/ { // // Note network order of bytes. // switch (MacInfo->MediumType) { case NdisMedium802_3: *(ULONG UNALIGNED *)&Buffer[6] = *(ULONG UNALIGNED *)&SourceAddress[0]; Buffer[10] = SourceAddress[4]; Buffer[11] = SourceAddress[5]; *(ULONG UNALIGNED *)&Buffer[0] = *(ULONG UNALIGNED *)&DestinationAddress[0]; Buffer[4] = DestinationAddress[4]; Buffer[5] = DestinationAddress[5]; Buffer[12] = (UCHAR)(PacketLength >> 8); Buffer[13] = (UCHAR)PacketLength; *HeaderLength = 14; break; case NdisMediumDix: *(ULONG UNALIGNED *)&Buffer[6] = *(ULONG UNALIGNED *)&SourceAddress[0]; Buffer[10] = SourceAddress[4]; Buffer[11] = SourceAddress[5]; *(ULONG UNALIGNED *)&Buffer[0] = *(ULONG UNALIGNED *)&DestinationAddress[0]; Buffer[4] = DestinationAddress[4]; Buffer[5] = DestinationAddress[5]; Buffer[12] = 0x80; Buffer[13] = 0xd5; Buffer[14] = (UCHAR)(PacketLength >> 8); Buffer[15] = (UCHAR)PacketLength; Buffer[16] = 0x00; *HeaderLength = 17; break; case NdisMedium802_5: Buffer[0] = TR_HEADER_BYTE_0; Buffer[1] = TR_HEADER_BYTE_1; ASSERT (TR_ADDRESS_LENGTH == 6); *(ULONG UNALIGNED *)&Buffer[8] = *(ULONG UNALIGNED *)&SourceAddress[0]; Buffer[12] = SourceAddress[4]; Buffer[13] = SourceAddress[5]; *(ULONG UNALIGNED *)&Buffer[2] = *(ULONG UNALIGNED *)&DestinationAddress[0]; Buffer[6] = DestinationAddress[4]; Buffer[7] = DestinationAddress[5]; *HeaderLength = 14; if (SourceRouting != NULL) { RtlCopyMemory (&Buffer[14], SourceRouting, SourceRoutingLength); Buffer[8] |= 0x80; // add SR bit in source address *HeaderLength = 14 + SourceRoutingLength; } break; case NdisMediumFddi: Buffer[0] = FDDI_HEADER_BYTE; *(ULONG UNALIGNED *)&Buffer[7] = *(ULONG UNALIGNED *)&SourceAddress[0]; Buffer[11] = SourceAddress[4]; Buffer[12] = SourceAddress[5]; *(ULONG UNALIGNED *)&Buffer[1] = *(ULONG UNALIGNED *)&DestinationAddress[0]; Buffer[5] = DestinationAddress[4]; Buffer[6] = DestinationAddress[5]; *HeaderLength = 13; break; default: PANIC ("MacConstructHeader: PANIC! called with unsupported Mac type.\n"); // This should not happen - but just in case *HeaderLength = 0; } } VOID MacReturnMaxDataSize( IN PNBF_NDIS_IDENTIFICATION MacInfo, IN PUCHAR SourceRouting, IN UINT SourceRoutingLength, IN UINT DeviceMaxFrameSize, IN BOOLEAN AssumeWorstCase, OUT PUINT MaxFrameSize ) /*++ Routine Description: This routine returns the space available for user data in a MAC packet. This will be the available space after the MAC header; all LLC and NBF headers will be included in this space. Arguments: MacInfo - Describes the MAC we wish to decode. SourceRouting - If we are concerned about a reply to a specific frame, then this information is used. SourceRouting - The length of SourceRouting. MaxFrameSize - The maximum frame size as returned by the adapter. AssumeWorstCase - TRUE if we should be pessimistic. MaxDataSize - The maximum data size computed. Return Value: None. --*/ { switch (MacInfo->MediumType) { case NdisMedium802_3: // // For 802.3, we always have a 14-byte MAC header. // *MaxFrameSize = DeviceMaxFrameSize - 14; break; case NdisMediumDix: // // For DIX, we have the 14-byte MAC header plus // the three-byte DIX header. // *MaxFrameSize = DeviceMaxFrameSize - 17; break; case NdisMedium802_5: // // For 802.5, if we have source routing information then // use that, otherwise assume the worst if told to. // if (SourceRouting && SourceRoutingLength >= 2) { UINT SRLength; SRLength = SR802_5Lengths[(SourceRouting[1] & 0x70) >> 4]; DeviceMaxFrameSize -= (SourceRoutingLength + 14); if (DeviceMaxFrameSize < SRLength) { *MaxFrameSize = DeviceMaxFrameSize; } else { *MaxFrameSize = SRLength; } } else { if (!AssumeWorstCase) { *MaxFrameSize = DeviceMaxFrameSize - 16; } else if (DeviceMaxFrameSize < (544+sizeof(DLC_FRAME)+sizeof(NBF_HDR_CONNECTIONLESS))) { *MaxFrameSize = DeviceMaxFrameSize - 32; } else { *MaxFrameSize = 512 + sizeof(DLC_FRAME) + sizeof(NBF_HDR_CONNECTIONLESS); } } break; case NdisMediumFddi: // // For FDDI, we always have a 13-byte MAC header. // *MaxFrameSize = DeviceMaxFrameSize - 13; break; } } VOID MacSetNetBIOSMulticast ( IN NDIS_MEDIUM Type, IN PUCHAR Buffer ) /*++ Routine Description: This routine sets the NetBIOS broadcast address into a buffer provided by the user. Arguments: Type the Mac Medium type. Buffer the buffer to put the multicast address in. Return Value: none. --*/ { switch (Type) { case NdisMedium802_3: case NdisMediumDix: Buffer[0] = 0x03; Buffer[ETHERNET_ADDRESS_LENGTH-1] = 0x01; break; case NdisMedium802_5: Buffer[0] = 0xc0; Buffer[TR_ADDRESS_LENGTH-1] = 0x80; break; case NdisMediumFddi: Buffer[0] = 0x03; Buffer[FDDI_ADDRESS_LENGTH-1] = 0x01; break; default: PANIC ("MacSetNetBIOSAddress: PANIC! called with unsupported Mac type.\n"); } }