Leaked source code of windows server 2003
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32 KiB

#ifndef DBG
#define DBG 1
#endif
#define SRVDBG 1
#define SRVKD 1
#include <nt.h>
#include <ntrtl.h>
#include <nturtl.h>
#include <ntverp.h>
#include <windef.h>
#include <winbase.h>
#include <ntosp.h>
#include <wdbgexts.h>
#include <stdlib.h>
#define NT
#include <tdikrnl.h>
#include <cxport.h>
#include <ndis.h>
#include <netpnp.h>
#include <tdipnp.h>
#include <tdidebug.h>
WINDBG_EXTENSION_APIS ExtensionApis;
EXT_API_VERSION ApiVersion = { 5, 0, EXT_API_VERSION_NUMBER, 0 };
#define ERRPRT dprintf
#define NL 1
#define NONL 0
USHORT SavedMajorVersion;
USHORT SavedMinorVersion;
BOOL ChkTarget; // is debuggee a CHK build?
#define PROV_SIZE sizeof(TDI_PROVIDER_RESOURCE) + 32
CHAR provBuf[PROV_SIZE];
TDI_PROVIDER_RESOURCE *pProvider = (TDI_PROVIDER_RESOURCE *) provBuf;
typedef struct _TDI_EXEC_PARAMS {
LIST_ENTRY Linkage;
UINT Signature;
PLIST_ENTRY ClientList;
PLIST_ENTRY ProviderList;
PLIST_ENTRY RequestList;
TDI_SERIALIZED_REQUEST Request;
PETHREAD *CurrentThread;
CTEEvent *RequestCTEEvent;
PBOOLEAN SerializeFlag;
BOOLEAN ResetSerializeFlag;
} TDI_EXEC_PARAMS, *PTDI_EXEC_PARAMS;
typedef struct
{
char Name[16];
int Val;
} DBG_LEVEL;
#if 0
DBG_LEVEL DbgLevel[] = {
{"RXFRAME", DBG_RXFRAME },
{"TXFRAME", DBG_TXFRAME },
{"NDIS", DBG_NDIS },
{"IRMAC", DBG_IRMAC },
{"IRLAP", DBG_IRLAP },
{"IRLAPLOG", DBG_IRLAPLOG },
{"IRLMP", DBG_IRLMP },
{"IRLMP_CONN", DBG_IRLMP_CONN },
{"IRLMP_CRED", DBG_IRLMP_CRED },
{"IRLMP_IAS", DBG_IRLMP_IAS },
{"DISCOVERY", DBG_DISCOVERY },
{"TDI", DBG_TDI },
{"TDI_IRP", DBG_TDI_IRP },
{"ALLOC", DBG_ALLOC },
{"TIMER ", DBG_TIMER },
{"PRINT", DBG_PRINT },
{"ADDRESS", DBG_ADDR },
{"REFERENCE", DBG_REF },
{"FUNCTION", DBG_FUNCTION },
{"WARN", DBG_WARN },
{"ERROR", DBG_ERROR }};
char *IrlmpState[] =
{"LINK_DISCONNECTED",
"LINK_DISCONNECTING",
"LINK_IN_DISCOVERY",
"LINK_CONNECTING",
"LINK_READY"};
char *LsapState[] =
{"LSAP_DISCONNECTED",
"LSAP_IRLAP_CONN_PEND",
"LSAP_LMCONN_CONF_PEND",
"LSAP_CONN_RESP_PEND",
"LSAP_CONN_REQ_PEND",
"LSAP_EXCLUSIVEMODE_PEND",
"LSAP_MULTIPLEXEDMODE_PEND",
"LSAP_READY",
"LSAP_NO_TX_CREDIT"};
char *ConnObjState[] =
{"IRDA_CONN_CREATED",
"IRDA_CONN_CLOSING",
"IRDA_CONN_OPENING",
"IRDA_CONN_OPEN"};
#endif
void
TDIDumpDevice(
TDI_PROVIDER_RESOURCE *prov
);
void
TDIDumpAddress(
TDI_PROVIDER_RESOURCE *prov
);
void
TDIDumpProvider(
TDI_PROVIDER_RESOURCE *prov
);
/*
* Print out an optional message, an ANSI_STRING, and maybe a new-line
*/
BOOL
PrintStringA( IN LPSTR msg OPTIONAL, IN PANSI_STRING pStr, IN BOOL nl )
{
PCHAR StringData;
ULONG BytesRead;
if( msg )
dprintf( msg );
if( pStr->Length == 0 ) {
if( nl )
dprintf( "\n" );
return TRUE;
}
StringData = (PCHAR)LocalAlloc( LPTR, pStr->Length + 1 );
if( StringData == NULL ) {
ERRPRT( "Out of memory!\n" );
return FALSE;
}
ReadMemory((ULONG) pStr->Buffer,
StringData,
pStr->Length,
&BytesRead );
if ( BytesRead ) {
StringData[ pStr->Length ] = '\0';
dprintf("%s%s", StringData, nl ? "\n" : "" );
}
LocalFree((HLOCAL)StringData);
return BytesRead;
}
/*
* Get 'size' bytes from the debuggee program at 'dwAddress' and place it
* in our address space at 'ptr'. Use 'type' in an error printout if necessary
*/
BOOL
GetData( IN LPVOID ptr, IN DWORD dwAddress, IN ULONG size, IN PCSTR type )
{
BOOL b;
ULONG BytesRead;
ULONG count = size;
while( size > 0 ) {
if (count >= 3000)
count = 3000;
b = ReadMemory((ULONG) dwAddress, ptr, count, &BytesRead );
if (!b || BytesRead != count ) {
ERRPRT( "Unable to read %u bytes at %X, for %s\n", size, dwAddress, type );
return FALSE;
}
dwAddress += count;
size -= count;
ptr = (LPVOID)((ULONG)ptr + count);
}
return TRUE;
}
/*
* Follow a LIST_ENTRY list beginning with a head at dwListHeadAddr in the debugee's
* address space. For each element in the list, print out the pointer value at 'offset'
*/
BOOL
PrintListEntryList( IN DWORD dwListHeadAddr, IN LONG offset )
{
LIST_ENTRY ListEntry;
ULONG i=0;
BOOL retval = TRUE;
ULONG count = 20;
if( !GetData( &ListEntry, dwListHeadAddr, sizeof( ListEntry ), "LIST_ENTRY" ) )
return FALSE;
while( count-- ) {
if( (DWORD)ListEntry.Flink == dwListHeadAddr || (DWORD)ListEntry.Flink == 0 )
break;
if( !GetData( &ListEntry, (DWORD)ListEntry.Flink, sizeof( ListEntry ), "ListEntry" ) ) {
retval = FALSE;
break;
}
dprintf( "%16X%s", (LONG)ListEntry.Flink + offset, (i && !(i&3)) ? "\n" : "" );
i++;
}
if( count == 0 && (DWORD)ListEntry.Flink != dwListHeadAddr && ListEntry.Flink ) {
dprintf( "\nTruncated list dump\n" );
} else if( ! ( i && !(i&3) ) ) {
dprintf( "\n" );
}
return retval;
}
/*
* Print out a single HEX character
*/
VOID
PrintHexChar( IN UCHAR c )
{
dprintf( "%c%c", "0123456789abcdef"[ (c>>4)&0xf ], "0123456789abcdef"[ c&0xf ] );
}
/*
* Print out 'buf' of 'cbuf' bytes as HEX characters
*/
VOID
PrintHexBuf( IN PUCHAR buf, IN ULONG cbuf )
{
while( cbuf-- ) {
PrintHexChar( *buf++ );
dprintf( " " );
}
}
/*
* Fetch the null terminated UNICODE string at dwAddress into buf
*/
BOOL
GetString( IN DWORD dwAddress, IN LPSTR buf, IN ULONG MaxChars )
{
do {
if( !GetData( buf, dwAddress, sizeof( *buf ), "Character" ) )
return FALSE;
dwAddress += sizeof( *buf );
} while( --MaxChars && *buf++ != '\0' );
return TRUE;
}
char *mystrtok ( char *string, char * control )
{
static unsigned char *str;
char *p, *s;
if( string )
str = string;
if( str == NULL || *str == '\0' )
return NULL;
//
// Skip leading delimiters...
//
for( ; *str; str++ ) {
for( s=control; *s; s++ ) {
if( *str == *s )
break;
}
if( *s == '\0' )
break;
}
//
// Was it was all delimiters?
//
if( *str == '\0' ) {
str = NULL;
return NULL;
}
//
// We've got a string, terminate it at first delimeter
//
for( p = str+1; *p; p++ ) {
for( s = control; *s; s++ ) {
if( *p == *s ) {
s = str;
*p = '\0';
str = p+1;
return s;
}
}
}
//
// We've got a string that ends with the NULL
//
s = str;
str = NULL;
return s;
}
DECLARE_API( help )
{
int i;
dprintf("TDI extenstions:\n");
dprintf(" All dumps All Lists\n");
dprintf(" Providers dumps Providers List\n");
dprintf(" Clients dumps Clients List\n");
dprintf(" Request dumps Request List\n");
dprintf(" Address dumps Provider Addresses\n");
dprintf(" Devices dumps Provider Device Objects\n");
dprintf(" ProviderReady dumps Provider Device Objects\n");
dprintf(" item formats a TDI_REQUEST structure\n");
}
#if 0
DECLARE_API( dbgmsgs )
{
DWORD p;
DWORD Last, First;
char DbgMsg[MAX_MSG_LEN];
ULONG Read;
char *DbgMsgs;
if (!GetData(&Last,
GetExpression("irda!Last"),
sizeof(Last), "DWORD"))
{
dprintf("error\n");
return;
}
if (!GetData(&First,
GetExpression("irda!First"),
sizeof(Last), "DWORD"))
{
dprintf("error\n");
return;
}
DbgMsgs = (char *) GetExpression("irda!dbgmsgs");
dprintf("\n\n");
while (First != Last)
{
if (!GetString((ULONG) (DbgMsgs + First * MAX_MSG_LEN),
DbgMsg, MAX_MSG_LEN))
break;
/*
ReadMemory((ULONG) (DbgMsgs + First * MAX_MSG_LEN),
DbgMsg, MAX_MSG_LEN, &Read); */
dprintf("%s", DbgMsg);
First++;
if (First == LOG_MSG_CNT)
First = 0;
}
}
DECLARE_API( dbg )
{
int i;
int col = 0;
DWORD DbgSettings;
char argbuf[ MAX_PATH ];
char *p;
DWORD dwAddress;
DWORD Written;
dwAddress = GetExpression("irda!dbgsettings");
if (!GetData(&DbgSettings,
dwAddress,
sizeof(DbgSettings), "DWORD"))
{
dprintf("error\n");
return;
}
if (!args || !*args)
{
dprintf("Current settings:\n");
for (i = 0; i < sizeof(DbgLevel)/sizeof(DBG_LEVEL); i++)
{
if (DbgSettings & DbgLevel[i].Val)
{
dprintf(" %s", DbgLevel[i].Name);
if (col == 4)
{
col = 0;
dprintf("\n");
}
else
{
col ++;
}
}
}
if (col != 0)
dprintf("\n");
col = 0;
dprintf("Available settings:\n");
for (i = 0; i < sizeof(DbgLevel)/sizeof(DBG_LEVEL); i++)
{
if (!(DbgSettings & DbgLevel[i].Val))
{
dprintf(" %s", DbgLevel[i].Name);
if (col == 4)
{
col = 0;
dprintf("\n");
}
else
{
col++;
}
}
}
if (col != 0)
dprintf("\n");
return;
}
strcpy( argbuf, args );
for (p = mystrtok( argbuf, " \t,;" );
p && *p;
p = mystrtok(NULL, " \t,;"))
{
for (i = 0; i < sizeof(DbgLevel)/sizeof(DBG_LEVEL); i++)
{
if (strcmp(p, DbgLevel[i].Name) == 0)
{
if (DbgSettings & DbgLevel[i].Val)
{
DbgSettings &= ~DbgLevel[i].Val;
}
else
{
DbgSettings |= DbgLevel[i].Val;
}
}
}
}
WriteMemory(dwAddress, &DbgSettings, sizeof(DWORD), &Written);
}
VOID
DumpIrpList(LIST_ENTRY *pIrpList)
{
LIST_ENTRY IrpList, *pListEntry, ListEntry;
IRP *pIrp;
if (!GetData(&IrpList,
(DWORD) pIrpList,
sizeof(LIST_ENTRY), "LIST_ENTRY"))
{
return;
}
for (pListEntry = IrpList.Flink;
pListEntry != pIrpList;
pListEntry = ListEntry.Flink)
{
if (!GetData(&ListEntry,
(DWORD) pListEntry,
sizeof(LIST_ENTRY), "LIST_ENTRY"))
{
return;
}
pIrp = CONTAINING_RECORD(pListEntry, IRP, Tail.Overlay.ListEntry);
dprintf(" %x\n", pIrp);
}
}
#endif
#define PROV_TYPE 1
#define CLIENT_TYPE 2
#define NEITHER 3
DECLARE_API( request )
{
LIST_ENTRY List, *pList, *start;
TDI_EXEC_PARAMS TdiExec;
TDI_SERIALIZED_REQUEST Request;
BOOLEAN ElementTypeProvider = NEITHER;
TDI_NOTIFY_PNP_ELEMENT Client;
INT i = 1;
pList = (PLIST_ENTRY) GetExpression("tdi!PnpHandlerRequestList");
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "REQUEST_LIST"))
{
return;
}
if (List.Flink == List.Blink)
{
dprintf("No Requests\n");
return;
}
start = pList;
pList = List.Flink;
while (pList != start)
{
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "REQUEST_LIST"))
{
return;
}
if (!GetData(&TdiExec,
(DWORD) pList,
sizeof(TDI_EXEC_PARAMS), "EXEC PARAMS"))
{
return;
}
if(0x1234cdef != TdiExec.Signature) {
dprintf("signature is BAD - %d not 0x1234cdef\r\n", TdiExec.Signature);
return;
}
if (!GetData(&Request,
(DWORD) &TdiExec.Request,
sizeof (TDI_SERIALIZED_REQUEST), "REQUEST")) {
return;
}
dprintf("%d. Request(%X) Element @ %x\t Type: ", i++, Request.Element);
switch (Request.Type) {
case TDI_REGISTER_HANDLERS_PNP:
dprintf("TDI_REGISTER_HANDLERS_PNP\n");
ElementTypeProvider = CLIENT_TYPE;
break;
case TDI_DEREGISTER_HANDLERS_PNP:
dprintf("TDI_DEREGISTER_HANDLERS_PNP\n");
ElementTypeProvider = CLIENT_TYPE;
break;
case TDI_REGISTER_PNP_POWER_EVENT:
dprintf("TDI_REGISTER_PNP_POWER_EVENT\n");
ElementTypeProvider = PROV_TYPE;
break;
case TDI_REGISTER_ADDRESS_PNP:
dprintf("TDI_REGISTER_ADDRESS_PNP\n");
ElementTypeProvider = PROV_TYPE;
break;
case TDI_DEREGISTER_ADDRESS_PNP:
dprintf("TDI_DEREGISTER_ADDRESS_PNP\n");
ElementTypeProvider = PROV_TYPE;
break;
case TDI_REGISTER_DEVICE_PNP:
dprintf("TDI_REGISTER_DEVICE_PNP\n");
ElementTypeProvider = PROV_TYPE;
break;
case TDI_DEREGISTER_DEVICE_PNP:
dprintf("TDI_DEREGISTER_DEVICE_PNP\n");
ElementTypeProvider = PROV_TYPE;
break;
case TDI_NDIS_IOCTL_HANDLER_PNP:
dprintf("TDI_NDIS_IOCTL_HANDLER_PNP\n");
ElementTypeProvider = PROV_TYPE;
break;
case TDI_ENUMERATE_ADDRESSES:
dprintf("TDI_ENUMERATE_ADDRESSES\n");
ElementTypeProvider = CLIENT_TYPE;
break;
case TDI_REGISTER_PROVIDER_PNP:
dprintf("TDI_REGISTER_PROVIDER_PNP\n");
ElementTypeProvider = PROV_TYPE;
break;
case TDI_DEREGISTER_PROVIDER_PNP:
dprintf("TDI_DEREGISTER_PROVIDER_PNP\n");
ElementTypeProvider = PROV_TYPE;
break;
case TDI_PROVIDER_READY_PNP:
dprintf("TDI_PROVIDER_READY_PNP\n");
ElementTypeProvider = PROV_TYPE;
break;
default:
dprintf("TDI - UNKNOWN REQUEST TYPE!!!\n");
ElementTypeProvider = NEITHER;
break;
}
if (PROV_TYPE == ElementTypeProvider) {
if (!GetData(pProvider,
(DWORD) Request.Element,
PROV_SIZE, "PROVIDER_RESOURCE")) {
return;
}
if(TDI_RESOURCE_DEVICE == pProvider->Common.Type) {
TDIDumpDevice(pProvider);
} else if (TDI_RESOURCE_NET_ADDRESS == pProvider->Common.Type) {
TDIDumpAddress(pProvider);
} else if (TDI_RESOURCE_PROVIDER == pProvider->Common.Type) {
TDIDumpProvider(pProvider);
} else {
dprintf("Unknown type: %x\n", ElementTypeProvider);
return;
}
} else if (CLIENT_TYPE == ElementTypeProvider) {
if (!GetData(&Client,
(DWORD) Request.Element,
sizeof (TDI_NOTIFY_PNP_ELEMENT), "CLIENT_RESOURCE")) {
return;
}
dprintf("Its a client!\n Need to add some code for this \n");
} else {
dprintf("Unknown element type on request list\n");
}
dprintf("\n--------------------------------------------------------\n");
//Print(TdiExec.Request);
pList = List.Flink;
}
}
/*
typedef struct _TDI_PROVIDER_RESOURCE {
TDI_PROVIDER_COMMON Common;
// defined in netpnp.h
PNET_PNP_EVENT PnpPowerEvent;
// Each TDI Client gets back and tells us what the status
NTSTATUS Status;
// These are mostly Address Specific.
PTDI_PNP_CONTEXT Context1;
PTDI_PNP_CONTEXT Context2;
KEVENT PowerSyncEvent;
ULONG PowerHandlers;
PVOID PreviousContext;
union {
TDI_PROVIDER_DEVICE Device;
TDI_PROVIDER_NET_ADDRESS NetAddress;
} Specific;
*/
DECLARE_API( providers )
{
LIST_ENTRY List, *pList, *start;
pList = (PLIST_ENTRY) GetExpression("tdi!PnpHandlerProviderList");
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "PROVIDER_LIST"))
{
return;
}
if (List.Flink == List.Blink)
{
dprintf("No Providers\n");
return;
}
dprintf("---------------------------------------------------------------------\n");
start = pList;
pList = List.Flink;
while (List.Flink != start)
{
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "PROVIDER_LIST"))
{
return;
}
if (!GetData(pProvider,
(DWORD) pList,
PROV_SIZE, "PROVIDER_RESOURCE"))
{
return;
}
dprintf("Entry: %X\n", pList);
if(TDI_RESOURCE_DEVICE == pProvider->Common.Type) {
TDIDumpDevice(pProvider);
} else if (TDI_RESOURCE_NET_ADDRESS == pProvider->Common.Type) {
TDIDumpAddress(pProvider);
} else if (TDI_RESOURCE_PROVIDER == pProvider->Common.Type) {
TDIDumpProvider(pProvider);
} else {
dprintf("Unknown type: %x\n", pProvider->Common.Type);
return;
}
dprintf("---------------------------------------------------------------------\n");
//Print(TdiExec.Request);
pList = List.Flink;
}
}
DECLARE_API( devices )
{
LIST_ENTRY List, *pList, *start;
pList = (PLIST_ENTRY) GetExpression("tdi!PnpHandlerProviderList");
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "PROVIDER_LIST"))
{
return;
}
if (List.Flink == List.Blink)
{
dprintf("No Devices\n");
return;
}
start = pList;
pList = List.Flink;
dprintf("---------------------------------------------------------------------\n");
while (List.Flink != start)
{
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "PROVIDER_LIST"))
{
return;
}
if (!GetData(pProvider,
(DWORD) pList,
PROV_SIZE, "PROVIDER_RESOURCE"))
{
return;
}
if(TDI_RESOURCE_DEVICE == pProvider->Common.Type) {
dprintf("Entry: %X\n", pList);
TDIDumpDevice(pProvider);
dprintf("---------------------------------------------------------------------\n");
}
//Print(TdiExec.Request);
pList = List.Flink;
}
}
DECLARE_API( providerready )
{
LIST_ENTRY List, *pList, *start;
pList = (PLIST_ENTRY) GetExpression("tdi!PnpHandlerProviderList");
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "PROVIDER_LIST"))
{
return;
}
if (List.Flink == List.Blink)
{
dprintf("No Devices\n");
return;
}
start = pList;
pList = List.Flink;
dprintf("---------------------------------------------------------------------\n");
while (List.Flink != start)
{
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "PROVIDER_LIST"))
{
return;
}
if (!GetData(pProvider,
(DWORD) pList,
PROV_SIZE, "PROVIDER_RESOURCE"))
{
return;
}
if (TDI_RESOURCE_PROVIDER == pProvider->Common.Type) {
dprintf("Entry: %X\n", pList);
TDIDumpProvider(pProvider);
dprintf("---------------------------------------------------------------------\n");
}
//Print(TdiExec.Request);
pList = List.Flink;
}
}
DECLARE_API( addresses )
{
LIST_ENTRY List, *pList, *start;
pList = (PLIST_ENTRY) GetExpression("tdi!PnpHandlerProviderList");
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "PROVIDER_LIST"))
{
return;
}
if (List.Flink == List.Blink)
{
dprintf("No Devices\n");
return;
}
start = pList;
pList = List.Flink;
dprintf("---------------------------------------------------------------------\n");
while (List.Flink != start)
{
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "PROVIDER_LIST"))
{
return;
}
if (!GetData(pProvider,
(DWORD) pList,
PROV_SIZE, "PROVIDER_RESOURCE"))
{
return;
}
if (TDI_RESOURCE_NET_ADDRESS == pProvider->Common.Type) {
dprintf("Entry: %X\n", pList);
TDIDumpAddress(pProvider);
dprintf("---------------------------------------------------------------------\n");
}
//Print(TdiExec.Request);
pList = List.Flink;
}
}
void
TDIDumpDevice(
TDI_PROVIDER_RESOURCE *pProvider
)
{
CHAR *Buffer;
Buffer = malloc (sizeof(WCHAR) * pProvider->Specific.Device.DeviceName.MaximumLength);
if (!Buffer) {
dprintf("Cant alloc memory\n");
return;
}
if (!GetData(Buffer,
(DWORD) pProvider->Specific.Device.DeviceName.Buffer,
pProvider->Specific.Device.DeviceName.MaximumLength, "PROVIDER_LIST"))
{
free(Buffer);
return;
}
dprintf("Device: %ws\n", Buffer);
free(Buffer);
return;
}
void
TDIDumpAddress(
TDI_PROVIDER_RESOURCE *prov
)
{
int j;
//dprintf ("ADDRESS: len %d ", prov->Specific.NetAddress.Address.AddressLength);
if (prov->Specific.NetAddress.Address.AddressType == TDI_ADDRESS_TYPE_IP) {
dprintf("Type: IP\n");
dprintf("Address: %d.%d.%d.%d\n",
prov->Specific.NetAddress.Address.Address[2],
prov->Specific.NetAddress.Address.Address[3],
prov->Specific.NetAddress.Address.Address[4],
prov->Specific.NetAddress.Address.Address[5]);
} else if (prov->Specific.NetAddress.Address.AddressType == TDI_ADDRESS_TYPE_NETBIOS) {
if (prov->Specific.NetAddress.Address.Address[2] == '\0') {
dprintf("Type: NETBIOS reserved\n");
dprintf("Address: %02x %02x %02x %02x %02x %02x\n",
(ULONG)(prov->Specific.NetAddress.Address.Address[12]),
(ULONG)(prov->Specific.NetAddress.Address.Address[13]),
(ULONG)(prov->Specific.NetAddress.Address.Address[14]),
(ULONG)(prov->Specific.NetAddress.Address.Address[15]),
(ULONG)(prov->Specific.NetAddress.Address.Address[16]),
(ULONG)(prov->Specific.NetAddress.Address.Address[17]));
} else {
dprintf("Type: NETBIOS\n");
dprintf("Address: %.16s\n", prov->Specific.NetAddress.Address.Address+2);
}
} else {
dprintf("Type: %d\n", prov->Specific.NetAddress.Address.AddressType);
dprintf("Address: ");
for (j = 0; j < prov->Specific.NetAddress.Address.AddressLength; j++) {
dprintf ("%02x ", (ULONG)(prov->Specific.NetAddress.Address.Address[j]));
}
dprintf ("\n");
}
dprintf("Context1: %x\n", prov->Context1);
dprintf("Context2: %x\n", prov->Context2);
}
void
TDIDumpProvider(
TDI_PROVIDER_RESOURCE *pProvider
)
{
CHAR *Buffer;
Buffer = malloc (sizeof(WCHAR) * pProvider->Specific.Device.DeviceName.MaximumLength);
if (!Buffer) {
dprintf("Cant alloc memory\n");
return;
}
if (!GetData(Buffer,
(DWORD) pProvider->Specific.Device.DeviceName.Buffer,
pProvider->Specific.Device.DeviceName.MaximumLength, "PROVIDER_LIST"))
{
free(Buffer);
return;
}
dprintf("Provider: %ws\n", Buffer);
if (pProvider->ProviderReady) {
dprintf("Ready: yes\n");
} else {
dprintf("Ready: no\n");
}
free(Buffer);
return;
}
DECLARE_API( clients )
{
LIST_ENTRY List, *pList, *start;
TDI_NOTIFY_PNP_ELEMENT client;
CHAR *Buffer;
pList = (PLIST_ENTRY) GetExpression("tdi!PnpHandlerClientList");
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "CLIENT_LIST1"))
{
return;
}
if (List.Flink == List.Blink)
{
dprintf("No Clients\n");
return;
}
start = pList;
pList = List.Flink;
dprintf("---------------------------------------------------------------------\n");
while (List.Flink != start)
{
if (!GetData(&List,
(DWORD) pList,
sizeof(LIST_ENTRY), "CLIENT_LIST2"))
{
return;
}
dprintf("Entry: %x\n", pList);
if (!GetData(&client,
(DWORD) pList,
sizeof(TDI_NOTIFY_PNP_ELEMENT), "CLIENT_RESOURCE"))
{
return;
}
Buffer = malloc (sizeof(WCHAR) * client.ElementName.MaximumLength);
if (!Buffer) {
dprintf("Cant alloc memory\n");
return;
}
if (!GetData(Buffer,
(DWORD) client.ElementName.Buffer,
client.ElementName.MaximumLength, "CLIENT_LIST3"))
{
free(Buffer);
return;
}
dprintf("Name: %ws\n", Buffer);
free(Buffer);
dprintf("Version: %x.%x\n", (client.TdiVersion), (0xff & (client.TdiVersion >> 8)));
if (TDI_VERSION_ONE == client.TdiVersion) {
dprintf("BindHandler: %lx\n", client.Bind.BindHandler);
dprintf("UnBindHandler: %lx\n", client.Bind.UnbindHandler);
} else {
dprintf("BindingHandler: %lx\n", client.BindingHandler);
}
dprintf("AddAddressHandler: %lx\n", client.AddressElement.AddHandler);
dprintf("DeleteAddressHandler: %lx\n", client.AddressElement.DeleteHandler);
//dprintf("List of Interested Providers: %lx\n", client.AddressElement.ListofProviders);
if (TDI_VERSION_ONE != client.TdiVersion) {
dprintf("PnPPowerHandler: %lx\n", client.PnpPowerHandler);
}
dprintf("---------------------------------------------------------------------\n");
//Print(TdiExec.Request);
pList = List.Flink;
}
}
DECLARE_API( dbgmsgs )
{
DWORD p;
DWORD Last, First;
char DbgMsg[MAX_MSG_LEN];
ULONG Read;
char *DbgMsgs;
if (!GetData(&Last,
GetExpression("tdi!Last"),
sizeof(Last), "DWORD"))
{
dprintf("1. error\n");
return;
}
if (!GetData(&First,
GetExpression("tdi!First"),
sizeof(Last), "DWORD"))
{
dprintf("2. error\n");
return;
}
DbgMsgs = (char *) GetExpression("tdi!dbgmsgs");
dprintf("\n\n");
while (First != Last)
{
if (!GetString((ULONG) (DbgMsgs + First * MAX_MSG_LEN),
DbgMsg, MAX_MSG_LEN))
break;
/*
ReadMemory((ULONG) (DbgMsgs + First * MAX_MSG_LEN),
DbgMsg, MAX_MSG_LEN, &Read); */
dprintf("%s", DbgMsg);
First++;
if (First == LOG_MSG_CNT)
First = 0;
}
}
VOID
WinDbgExtensionDllInit(
PWINDBG_EXTENSION_APIS lpExtensionApis,
USHORT MajorVersion,
USHORT MinorVersion
)
{
ExtensionApis = *lpExtensionApis;
SavedMajorVersion = MajorVersion;
SavedMinorVersion = MinorVersion;
ChkTarget = SavedMajorVersion == 0x0c ? TRUE : FALSE;
}
DECLARE_API( version )
{
#if DBG
PCSTR kind = "Checked";
#else
PCSTR kind = "Free";
#endif
dprintf(
"%s SMB Extension dll for Build %d debugging %s kernel for Build %d\n",
kind,
VER_PRODUCTBUILD,
SavedMajorVersion == 0x0c ? "Checked" : "Free",
SavedMinorVersion
);
}
VOID
CheckVersion(
VOID
)
{
#if DBG
if ((SavedMajorVersion != 0x0c) || (SavedMinorVersion != VER_PRODUCTBUILD)) {
dprintf("\r\n*** Extension DLL(%d Checked) does not match target system(%d %s)\r\n\r\n",
VER_PRODUCTBUILD, SavedMinorVersion, (SavedMajorVersion==0x0f) ? "Free" : "Checked" );
}
#else
if ((SavedMajorVersion != 0x0f) || (SavedMinorVersion != VER_PRODUCTBUILD)) {
dprintf("\r\n*** Extension DLL(%d Free) does not match target system(%d %s)\r\n\r\n",
VER_PRODUCTBUILD, SavedMinorVersion, (SavedMajorVersion==0x0f) ? "Free" : "Checked" );
}
#endif
}
LPEXT_API_VERSION
ExtensionApiVersion(
VOID
)
{
return &ApiVersion;
}