windows-nt/Source/XPSP1/NT/net/tcpip/driver/kdext2/9xkd/routeext.c

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2020-09-26 03:20:57 -05:00
#include "tcpipxp.h"
#pragma hdrstop
#include "routeext.h"
#include "lookup.h"
#if TCPIPKD
//
// Exported Functions
//
extern VOID
Tcpipkd_rtetable(
PVOID args[]
)
/*++
Routine Description:
Print the route table @ tcpip!RouteTable
Arguments:
args - Detail of debug information
[ SUMMARY is the default ]
Return Value:
None
--*/
{
ULONG printFlags;
// Get the detail of debug information needed
printFlags = STRIE_INFO | FTRIE_INFO;
if (*args)
{
printFlags = (ULONG) *args;
}
KdPrintTrie(RouteTable, (ULONG) RouteTable, printFlags);
}
extern VOID
Tcpipkd_rtes(
PVOID args[]
)
/*++
Routine Description:
Print the routes in the table @ tcpip!RouteTable
Arguments:
args - Detail of debug information
[ SUMMARY is the default ]
Return Value:
None
--*/
{
ULONG printFlags;
// Get the detail of debug information needed
printFlags = ROUTE_INFO;
if (*args)
{
printFlags = (ULONG) *args;
}
KdPrintTrie(RouteTable, (ULONG) RouteTable, printFlags);
}
UINT
KdPrintTrie(Trie *pTrie, ULONG proxyPtr, ULONG printFlags)
{
UINT retval;
if (printFlags == ROUTE_INFO)
{
KdPrintSTrie(NULL, (ULONG) pTrie->sTrie, ROUTE_INFO);
return 0;
}
if (pTrie->flags & TFLAG_FAST_TRIE_ENABLED)
dprintf("Fast Trie Enabled\n");
else
dprintf("Slow Trie Only\n");
if (printFlags & STRIE_INFO)
{
dprintf("STrie:\n");
retval = KdPrintSTrie(NULL, (ULONG) pTrie->sTrie, printFlags & STRIE_INFO);
if (retval == -1)
{
return -1;
}
}
if (printFlags & FTRIE_INFO)
{
if (pTrie->flags & TFLAG_FAST_TRIE_ENABLED)
{
dprintf("FTrie:\n");
KdPrintFTrie(NULL, (ULONG) pTrie->fTrie, printFlags & FTRIE_INFO);
}
}
return 0;
}
//
// STrie Print Routines
//
UINT
KdPrintSTrie(STrie *pSTrie, ULONG proxyPtr, ULONG printFlags)
{
UINT retval;
if (proxyPtr == 0)
return -1;
if (pSTrie == NULL)
{
pSTrie = (STrie *) proxyPtr;
}
if (printFlags == STRIE_INFO)
{
dprintf("\n\n/***Slow-Trie------------------------------------------------");
dprintf("\n/***---------------------------------------------------------\n");
dprintf("Available Memory: %10lu\n\n", pSTrie->availMemory);
dprintf("Statistics:\n\n");
dprintf("Total Number of Dests : %d\n", pSTrie->numDests);
dprintf("Total Number of Routes: %d\n", pSTrie->numRoutes);
dprintf("Total Number of Nodes : %d\n", pSTrie->numNodes);
}
if (pSTrie->trieRoot == NULL)
{
dprintf("\nEmpty STrie\n");
}
else
{
retval = KdPrintSTrieNode(NULL, (ULONG) pSTrie->trieRoot, printFlags);
if (retval == -1)
{
return (-1);
}
}
if (printFlags == STRIE_INFO)
{
dprintf("\n---------------------------------------------------------***/\n");
dprintf("---------------------------------------------------------***/\n\n");
}
return 0;
}
UINT
KdPrintSTrieNode(STrieNode *pSTrieNode, ULONG proxyPtr, ULONG printFlags)
{
ULONG bytesRead;
STrieNode stNode;
if (proxyPtr == 0)
return -1;
if (pSTrieNode == NULL)
{
pSTrieNode = (STrieNode *) proxyPtr;
}
if (printFlags == STRIE_INFO)
{
dprintf("\n--------------------------------------------------------\n");
dprintf("Child @ %08x", proxyPtr);
dprintf("\n--------------------------------------------------------\n");
dprintf("Key: Num of Bits : %8d, Value of Bits: %08x\n",
pSTrieNode->numBits,
pSTrieNode->keyBits);
}
KdPrintDest(NULL, (ULONG) pSTrieNode->dest, printFlags);
if (printFlags == STRIE_INFO)
{
dprintf("Children: On the left %08x, On the right %08x\n",
pSTrieNode->child[0],
pSTrieNode->child[1]);
dprintf("\n--------------------------------------------------------\n");
dprintf("\n\n");
}
KdPrintSTrieNode(NULL, (ULONG) pSTrieNode->child[0], printFlags);
KdPrintSTrieNode(NULL, (ULONG) pSTrieNode->child[1], printFlags);
return 0;
}
//
// FTrie Print Routines
//
UINT
KdPrintFTrie(FTrie *pFTrie, ULONG proxyPtr, ULONG printFlags)
{
FTrieNode *pCurrNode;
FTrie ftrie;
ULONG bytesRead;
UINT i;
if (proxyPtr == 0)
return -1;
if (pFTrie == NULL)
{
pFTrie = (FTrie *) proxyPtr;
}
dprintf("\n\n/***Fast-Trie------------------------------------------------");
dprintf("\n/***---------------------------------------------------------\n");
dprintf("Available Memory: %10lu\n\n", pFTrie->availMemory);
dprintf("\n---------------------------------------------------------***/\n");
dprintf("---------------------------------------------------------***/\n\n");
return 0;
}
UINT
KdPrintFTrieNode(FTrieNode *pFTrieNode, ULONG proxyPtr, ULONG printFlags)
{
return 0;
}
//
// Dest Routines
//
UINT
KdPrintDest(Dest *pDest, ULONG proxyPtr, ULONG printFlags)
{
UINT i;
Route **pRoutes;
if (proxyPtr == 0)
return -1;
if (pDest == NULL)
{
pDest = (Dest *) proxyPtr;
}
if (pDest->numBestRoutes > 1)
{
dprintf("\nBest Routes: Max = %d, Num = %d\n",
pDest->maxBestRoutes,
pDest->numBestRoutes);
// Read the cache of equal cost routes
proxyPtr += FIELD_OFFSET(Dest, bestRoutes);
pRoutes = (Route **) proxyPtr;
for (i = 0; i < pDest->numBestRoutes; i++)
{
dprintf("Best Route %d: %08x\n", i, pRoutes[i]);
}
}
// Get the first route on the destination
KdPrintRoute(NULL, (ULONG) pDest->firstRoute, printFlags);
if (pDest->numBestRoutes > 1)
{
dprintf("\n");
}
return 0;
}
//
// Route Routines
//
UINT
KdPrintRoute(Route *pRoute, ULONG proxyPtr, ULONG printFlags)
{
if (proxyPtr == 0)
return -1;
if (pRoute == NULL)
{
pRoute = (Route *) proxyPtr;
}
dprintf("(");
KdPrintIPAddr(&DEST(pRoute));
dprintf(" ");
KdPrintIPAddr(&MASK(pRoute));
dprintf(")");
while (pRoute != 0)
{
dprintf(" -> %08x", pRoute);
pRoute = NEXT(pRoute);
}
dprintf("\n");
return 0;
}
VOID
KdPrintIPAddr (IN ULONG *addr)
{
UCHAR *addrBytes = (UCHAR *) addr;
UINT i;
if (addrBytes)
{
dprintf("%3d.", addrBytes[0]);
dprintf("%3d.", addrBytes[1]);
dprintf("%3d.", addrBytes[2]);
dprintf("%3d ", addrBytes[3]);
}
else
{
dprintf("NULL Addr ");
}
}
#endif // TCPIPKD