// -*- mode: C++; tab-width: 4; indent-tabs-mode: nil -*- (for GNU Emacs) // // Copyright (c) 1985-2000 Microsoft Corporation // // This file is part of the Microsoft Research IPv6 Network Protocol Stack. // You should have received a copy of the Microsoft End-User License Agreement // for this software along with this release; see the file "license.txt". // If not, please see http://www.research.microsoft.com/msripv6/license.htm, // or write to Microsoft Research, One Microsoft Way, Redmond, WA 98052-6399. // // Abstract: // // TCP debug code. // // This file contains the code for various TCP specific debug routines. // #include "oscfg.h" #include "ndis.h" #include "ip6imp.h" #include "tdi.h" #include "queue.h" #include "transprt.h" #include "tcp.h" #include "tcpsend.h" #if DBG ULONG TCPDebug = 0; //* CheckPacketList - Check a list of packets for the correct size. // // A routine to walk a chain of packets, making sure the size // is what we think it is. // void // Returns: Nothing. CheckPacketList( IPv6Packet *Chain, // List of packets to check. uint Size) // Total size all packets should sum to. { uint SoFar = 0; while (Chain != NULL) { SoFar += Chain->TotalSize; Chain = Chain->Next; } ASSERT(Size == SoFar); } //* CheckTCBRcv - Check receives on a TCB. // // Check the receive state of a TCB. // void // Returns: Nothing. CheckTCBRcv( TCB *CheckTCB) // TCB to check. { CHECK_STRUCT(CheckTCB, tcb); ASSERT(!(CheckTCB->tcb_flags & FLOW_CNTLD) || (CheckTCB->tcb_sendwin == 0)); if ((CheckTCB->tcb_fastchk & ~TCP_FLAG_IN_RCV) == TCP_FLAG_ACK) { ASSERT(CheckTCB->tcb_slowcount == 0); ASSERT(CheckTCB->tcb_state == TCB_ESTAB); ASSERT(CheckTCB->tcb_raq == NULL); ASSERT(!(CheckTCB->tcb_flags & TCP_SLOW_FLAGS)); ASSERT(!CLOSING(CheckTCB)); } else { ASSERT(CheckTCB->tcb_slowcount != 0); ASSERT((CheckTCB->tcb_state != TCB_ESTAB) || (CheckTCB->tcb_raq != NULL) || (CheckTCB->tcb_flags & TCP_SLOW_FLAGS) || CLOSING(CheckTCB)); } } //* CheckTCBSends - Check the send status of a TCB. // // A routine to check the send status of a TCB. We make sure that all // of the SendReqs make sense, as well as making sure that the send seq. // variables in the TCB are consistent. // void // Returns: Nothing. CheckTCBSends( TCB *CheckTCB) // TCB to check. { Queue *End, *Current; // End and current elements. TCPSendReq *CurrentTSR; // Current send req we're examining. uint Unacked; // Number of unacked bytes. PNDIS_BUFFER CurrentBuffer; TCPSendReq *TCBTsr; // Current send on TCB. uint FoundSendReq; CHECK_STRUCT(CheckTCB, tcb); // Don't check on unsynchronized TCBs. if (!SYNC_STATE(CheckTCB->tcb_state)) return; ASSERT(SEQ_LTE(CheckTCB->tcb_senduna, CheckTCB->tcb_sendnext)); ASSERT(SEQ_LTE(CheckTCB->tcb_sendnext, CheckTCB->tcb_sendmax)); ASSERT(!(CheckTCB->tcb_flags & FIN_OUTSTANDING) || (CheckTCB->tcb_sendnext == CheckTCB->tcb_sendmax)); if (CheckTCB->tcb_unacked == 0) { ASSERT(CheckTCB->tcb_cursend == NULL); ASSERT(CheckTCB->tcb_sendsize == 0); } if (CheckTCB->tcb_sendbuf != NULL) ASSERT(CheckTCB->tcb_sendofs < NdisBufferLength(CheckTCB->tcb_sendbuf)); TCBTsr = CheckTCB->tcb_cursend; FoundSendReq = (TCBTsr == NULL) ? TRUE : FALSE; End = QEND(&CheckTCB->tcb_sendq); Current = QHEAD(&CheckTCB->tcb_sendq); Unacked = 0; while (Current != End) { CurrentTSR = CONTAINING_RECORD(QSTRUCT(TCPReq, Current, tr_q), TCPSendReq, tsr_req); CHECK_STRUCT(CurrentTSR, tsr); if (CurrentTSR == TCBTsr) FoundSendReq = TRUE; ASSERT(CurrentTSR->tsr_unasize <= CurrentTSR->tsr_size); CurrentBuffer = CurrentTSR->tsr_buffer; ASSERT(CurrentBuffer != NULL); ASSERT(CurrentTSR->tsr_offset < NdisBufferLength(CurrentBuffer)); Unacked += CurrentTSR->tsr_unasize; Current = QNEXT(Current); } ASSERT(FoundSendReq); ASSERT(Unacked == CheckTCB->tcb_unacked); Unacked += ((CheckTCB->tcb_flags & FIN_SENT) ? 1 : 0); ASSERT((CheckTCB->tcb_sendmax - CheckTCB->tcb_senduna) <= (int) Unacked); } #endif