windows-nt/Source/XPSP1/NT/net/rras/netsh/ip/preview/msdpcfg.c

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2020-09-26 03:20:57 -05:00
/*++
Copyright (c) 1999, Microsoft Corporation
Module Name:
routing\netsh\ip\protocols\msdpcfg.c
Abstract:
Multicast Source Discovery Protocol configuration implementation.
This module contains configuration routines which are relied upon
by msdpopt.c. The routines retrieve, update, and display
the configuration for the MSDP protocol.
This file also contains default configuration settings
for MSDP.
N.B. The display routines require special attention since display
may result in a list of commands sent to a 'dump' file, or in a
textual presentation of the configuration to a console window.
In the latter case, we use non-localizable output routines to generate
a script-like description of the configuration. In the former case,
we use localizable routines to generate a human-readable description.
Author:
Dave Thaler (dthaler) 21-May-1999
Revision History:
--*/
#include "precomp.h"
#pragma hdrstop
#ifndef HAVE_INTSOCK
# include <nhapi.h>
# include <rpc.h>
#endif
#define MSDP_DEFAULT_KEEPALIVE 30 // suggested value in RFC 1771
#define MSDP_DEFAULT_SAHOLDDOWN 30 // should be 30 per MSDP spec
#define MSDP_DEFAULT_CONNECTRETRY 120 // suggested value in RFC 1771
#define MSDP_DEFAULT_CACHE_LIFETIME 120 // should be >=90 seconds per MSDP spec
#define MSDP_DEFAULT_ENCAPSULATION MSDP_ENCAPS_NONE // XXX
#define MALLOC(x) HeapAlloc(GetProcessHeap(), 0, (x))
#define REALLOC(x,y) HeapReAlloc(GetProcessHeap(), 0, (x), (y))
#define FREE(x) HeapFree(GetProcessHeap(), 0, (x))
static MSDP_GLOBAL_CONFIG g_MsdpGlobalDefault =
{
MSDP_LOGGING_ERROR,
0, // flags
MSDP_DEFAULT_KEEPALIVE,
MSDP_DEFAULT_CONNECTRETRY,
MSDP_DEFAULT_CACHE_LIFETIME,
MSDP_DEFAULT_SAHOLDDOWN
};
typedef enum {
CommonLoggingIndex = 0,
CommonBooleanIndex,
MsdpEncapsIndex
} DISPLAY_VALUE_INDEX;
VALUE_STRING MsdpEncapsStringArray[] = {
MSDP_ENCAPS_NONE, STRING_NONE,
};
VALUE_TOKEN MsdpEncapsTokenArray[] = {
MSDP_ENCAPS_NONE, TOKEN_OPT_VALUE_NONE,
};
static PUCHAR g_pMsdpGlobalDefault = (PUCHAR)&g_MsdpGlobalDefault;
static MSDP_IPV4_PEER_CONFIG g_MsdpPeerDefault =
{
0, 0, 0, 0, 0, MSDP_ENCAPS_DEFAULT
};
//
// Forward declarations
//
ULONG
ValidateMsdpPeerInfo(
PMSDP_IPV4_PEER_CONFIG PeerInfo
);
//
// What follows are the arrays used to map values to strings and
// to map values to tokens. These, respectively, are used in the case
// where we are displaying to a 'dump' file and to a console window.
//
VALUE_STRING MsdpGlobalLoggingStringArray[] = {
MSDP_LOGGING_NONE, STRING_LOGGING_NONE,
MSDP_LOGGING_ERROR, STRING_LOGGING_ERROR,
MSDP_LOGGING_WARN, STRING_LOGGING_WARN,
MSDP_LOGGING_INFO, STRING_LOGGING_INFO
};
VALUE_TOKEN MsdpGlobalLoggingTokenArray[] = {
MSDP_LOGGING_NONE, TOKEN_OPT_VALUE_NONE,
MSDP_LOGGING_ERROR, TOKEN_OPT_VALUE_ERROR,
MSDP_LOGGING_WARN, TOKEN_OPT_VALUE_WARN,
MSDP_LOGGING_INFO, TOKEN_OPT_VALUE_INFO
};
//
// Allocate a global info block containing the default information
//
// Called by: HandleMsdpInstall()
//
ULONG
MakeMsdpGlobalConfig(
OUT PUCHAR* ppGlobalInfo,
OUT PULONG pulGlobalInfoSize
)
{
*pulGlobalInfoSize = sizeof(MSDP_GLOBAL_CONFIG);
*ppGlobalInfo = MALLOC(*pulGlobalInfoSize);
if (!*ppGlobalInfo) {
DisplayMessage(g_hModule, EMSG_NOT_ENOUGH_MEMORY);
return ERROR_NOT_ENOUGH_MEMORY;
}
CopyMemory(*ppGlobalInfo, g_pMsdpGlobalDefault, sizeof(MSDP_GLOBAL_CONFIG));
return NO_ERROR;
}
#if 0
//
// Update global parameters
//
// Called by: HandleMsdpSetGlobal()
//
ULONG
CreateMsdpGlobalInfo(
OUT PMSDP_GLOBAL_CONFIG* pGlobalInfo,
IN DWORD dwLoggingLevel
)
{
DWORD dwGlobalInfoSize;
dwGlobalInfoSize = sizeof(PMSDP_GLOBAL_CONFIG);
*pGlobalInfo = MALLOC(dwGlobalInfoSize);
if (!*pGlobalInfo) {
DisplayMessage(g_hModule, EMSG_NOT_ENOUGH_MEMORY);
return ERROR_NOT_ENOUGH_MEMORY;
}
CopyMemory(*pGlobalInfo, g_pMsdpGlobalDefault, dwGlobalInfoSize);
(*pGlobalInfo)->dwLoggingLevel = dwLoggingLevel;
return NO_ERROR;
}
#endif
//
// Called by: MsdpHandleAddPeer()
//
ULONG
MakeMsdpIPv4PeerConfig(
OUT PMSDP_IPV4_PEER_CONFIG *ppPeer
)
{
ULONG ulSize = sizeof(MSDP_IPV4_PEER_CONFIG);
*ppPeer = MALLOC(ulSize);
if (!*ppPeer) {
return ERROR_NOT_ENOUGH_MEMORY;
}
CopyMemory(*ppPeer, &g_MsdpPeerDefault, ulSize);
return NO_ERROR;
}
DWORD
MsdpAddIPv4PeerInterface(
IN LPCWSTR pwszMachineName,
IN LPCWSTR pwszInterfaceName,
IN PMSDP_IPV4_PEER_CONFIG pPeer
)
{
DWORD dwErr = NO_ERROR;
do {
dwErr = IpmontrCreateInterface(pwszMachineName, pwszInterfaceName,
pPeer->ipLocalAddress,
pPeer->ipRemoteAddress,
1);
if (dwErr isnot NO_ERROR)
{
break;
}
dwErr = SetMsdpInterfaceConfig( pwszInterfaceName, pPeer );
} while (FALSE);
return dwErr;
}
#if 0
DWORD
MsdpAddIPv4PeerConfig(
IN PMSDP_IPV4_PEER_CONFIG pPeer
)
{
PMSDP_GLOBAL_CONFIG pGlobal = NULL, pNewGlobal;
DWORD dwErr;
ULONG ulV4PeerCount, ulSize, i;
PMSDP_FAMILY_CONFIG pFamily;
do {
dwErr = GetMsdpGlobalConfig( &pGlobal );
if (dwErr isnot NO_ERROR)
{
break;
}
pFamily = MSDP_FIRST_FAMILY(pGlobal);
// Check for duplicate
for (i=0; (i<pFamily->usNumPeers) and
(pFamily->pPeer[i].ipRemoteAddress isnot pPeer->ipRemoteAddress); i++);
if (i<pFamily->usNumPeers)
{
dwErr = ERROR_OBJECT_ALREADY_EXISTS;
break;
}
ulV4PeerCount = pFamily->usNumPeers++;
ulSize = MSDP_GLOBAL_CONFIG_SIZE(ulV4PeerCount+1);
pNewGlobal = REALLOC( pGlobal, ulSize );
if (!pNewGlobal)
{
dwErr = GetLastError();
break;
}
pGlobal = pNewGlobal;
pFamily = MSDP_FIRST_FAMILY(pGlobal);
memcpy( &pFamily->pPeer[ulV4PeerCount],
pPeer,
sizeof(MSDP_IPV4_PEER_CONFIG) );
// DisplayMessageT(L"remoteaddr=%1!x!\n",
// pFamily->pPeer[ulV4PeerCount].ipRemoteAddress);
dwErr = SetMsdpGlobalConfig( pGlobal );
} while (FALSE);
if (pGlobal)
{
FREE(pGlobal);
}
return dwErr;
}
#endif
#if 0
//
// Called by: XXX
//
ULONG
MakeMsdpFamilyInfo(
IN OUT PUCHAR pFamily
)
{
//
// Always assume that the space has been preassigned
//
if (!pFamily) {
return ERROR_INVALID_PARAMETER;
}
CopyMemory(pFamily,&g_MsdpFamilyDefault,sizeof(g_MsdpFamilyDefault));
return NO_ERROR;
}
#endif
PTCHAR
MsdpQueryValueString(
DWORD dwFormat,
DISPLAY_VALUE_INDEX Index,
ULONG Value
)
{
ULONG Count;
DWORD dwErr;
PTCHAR String = NULL;
PVALUE_STRING StringArray;
PVALUE_TOKEN TokenArray;
switch (Index) {
case CommonLoggingIndex:
Count = COMMON_LOGGING_SIZE;
StringArray = CommonLoggingStringArray;
TokenArray = CommonLoggingTokenArray;
break;
case CommonBooleanIndex:
Count = COMMON_BOOLEAN_SIZE;
StringArray = CommonBooleanStringArray;
TokenArray = CommonBooleanTokenArray;
break;
case MsdpEncapsIndex:
Count = MSDP_ENCAPS_SIZE;
StringArray = MsdpEncapsStringArray;
TokenArray = MsdpEncapsTokenArray;
break;
default:
return NULL;
}
dwErr = GetAltDisplayString( g_hModule,
(HANDLE)(dwFormat is FORMAT_DUMP),
Value,
TokenArray,
StringArray,
Count,
&String );
return (dwErr)? NULL : String;
}
DWORD
GetMsdpInterfaceConfig(
IN LPCWSTR pwszInterfaceName,
OUT PMSDP_IPV4_PEER_CONFIG *ppConfigInfo
)
{
DWORD dwErr, dwIfType;
ULONG ulSize, ulCount;
//
// Retrieve the interface configuration for MSDP
//
dwErr = IpmontrGetInfoBlockFromInterfaceInfo( pwszInterfaceName,
MS_IP_MSDP,
(PUCHAR*)ppConfigInfo,
&ulSize,
&ulCount,
&dwIfType );
if (dwErr isnot NO_ERROR) {
return dwErr;
} else if (!(ulCount * ulSize)) {
return ERROR_NOT_FOUND;
}
return NO_ERROR;
}
DWORD
GetMsdpGlobalConfig(
PMSDP_GLOBAL_CONFIG *ppGlobalInfo
)
{
DWORD dwErr;
ULONG ulSize, ulCount;
//
// Retrieve the global configuration for MSDP,
//
dwErr = IpmontrGetInfoBlockFromGlobalInfo( MS_IP_MSDP,
(PUCHAR*)ppGlobalInfo,
&ulSize,
&ulCount );
if (dwErr isnot NO_ERROR) {
return dwErr;
} else if (!(ulCount * ulSize)) {
return ERROR_NOT_FOUND;
}
return NO_ERROR;
}
DWORD
SetMsdpInterfaceConfig(
PWCHAR pwszInterfaceName,
PMSDP_IPV4_PEER_CONFIG pConfigInfo
)
{
DWORD dwErr;
ULONG ulSize, ulV4PeerCount;
WCHAR wszIfName[MAX_INTERFACE_NAME_LEN+1];
ulSize = sizeof(wszIfName);
dwErr = IpmontrGetIfNameFromFriendlyName(pwszInterfaceName,
wszIfName,
&ulSize);
if (dwErr isnot NO_ERROR)
{
return dwErr;
}
//
// Save the interface configuration for MSDP
//
ulSize = sizeof(MSDP_IPV4_PEER_CONFIG);
dwErr = IpmontrSetInfoBlockInInterfaceInfo( wszIfName,
MS_IP_MSDP,
(PUCHAR)pConfigInfo,
ulSize,
1 );
return dwErr;
}
DWORD
SetMsdpGlobalConfig(
PMSDP_GLOBAL_CONFIG pGlobalInfo
)
{
DWORD dwErr;
ULONG ulSize;
//
// Save the global configuration for MSDP,
//
ulSize = sizeof(MSDP_GLOBAL_CONFIG);
dwErr = IpmontrSetInfoBlockInGlobalInfo( MS_IP_MSDP,
(PUCHAR)pGlobalInfo,
ulSize,
1 );
return dwErr;
}
ULONG
ShowMsdpGlobalInfo(
DWORD dwFormat
)
{
ULONG ulCount = 0;
DWORD dwErr;
PMSDP_GLOBAL_CONFIG pGlobalInfo = NULL;
ULONG i;
PWCHAR pwszLoggingLevel = NULL,
pwszAcceptAll = NULL;
ULONG ulSize;
do {
dwErr = GetMsdpGlobalConfig(&pGlobalInfo);
if (dwErr) {
break;
}
pwszLoggingLevel = MsdpQueryValueString( dwFormat,
CommonLoggingIndex,
pGlobalInfo->dwLoggingLevel );
pwszAcceptAll = MsdpQueryValueString( dwFormat,
CommonBooleanIndex,
(pGlobalInfo->dwFlags & MSDP_GLOBAL_FLAG_ACCEPT_ALL) );
if (dwFormat is FORMAT_DUMP)
{
DisplayMessageT( DMP_INSTALL );
DisplayMessageT( DMP_MSDP_SET_GLOBAL );
if (pwszLoggingLevel) {
DisplayMessageT( DMP_MSDP_STRING_ARGUMENT,
TOKEN_OPT_LOGGINGLEVEL, pwszLoggingLevel );
}
DisplayMessageT( DMP_MSDP_INTEGER_ARGUMENT,
TOKEN_OPT_KEEPALIVE, pGlobalInfo->ulDefKeepAlive);
DisplayMessageT( DMP_MSDP_INTEGER_ARGUMENT,
TOKEN_OPT_SAHOLDDOWN,pGlobalInfo->ulSAHolddown);
DisplayMessageT( DMP_MSDP_INTEGER_ARGUMENT,
TOKEN_OPT_CONNECTRETRY,
pGlobalInfo->ulDefConnectRetry);
DisplayMessageT( DMP_MSDP_STRING_ARGUMENT,
TOKEN_OPT_ACCEPTALL,
pwszAcceptAll);
DisplayMessageT( DMP_MSDP_INTEGER_ARGUMENT,
TOKEN_OPT_CACHELIFETIME,
pGlobalInfo->ulCacheLifetime);
DisplayMessageT( MSG_NEWLINE );
}
else
{
DisplayMessage( g_hModule,
MSG_MSDP_GLOBAL_INFO,
pwszLoggingLevel,
pGlobalInfo->ulDefKeepAlive,
pGlobalInfo->ulSAHolddown,
pGlobalInfo->ulDefConnectRetry,
pwszAcceptAll,
pGlobalInfo->ulCacheLifetime );
}
} while(FALSE);
if (pwszLoggingLevel) { FREE(pwszLoggingLevel); }
if (pGlobalInfo) { FREE(pGlobalInfo); }
if ((dwFormat isnot FORMAT_DUMP) and (dwErr isnot NO_ERROR))
{
if (dwErr == ERROR_NOT_FOUND) {
DisplayMessage(g_hModule, EMSG_PROTO_NO_GLOBAL_INFO);
} else {
DisplayError(g_hModule, dwErr);
}
}
return dwErr;
}
ULONG
MsdpPeerKeepAlive(
IN PMSDP_GLOBAL_CONFIG pGlobal,
IN PMSDP_IPV4_PEER_CONFIG pPeer
)
{
if (pPeer->dwConfigFlags & MSDP_PEER_CONFIG_KEEPALIVE)
{
return pPeer->ulKeepAlive;
}
return pGlobal->ulDefKeepAlive;
}
ULONG
MsdpPeerConnectRetry(
IN PMSDP_GLOBAL_CONFIG pGlobal,
IN PMSDP_IPV4_PEER_CONFIG pPeer
)
{
if (pPeer->dwConfigFlags & MSDP_PEER_CONFIG_CONNECTRETRY)
{
return pPeer->ulConnectRetry;
}
return pGlobal->ulDefConnectRetry;
}
PWCHAR
MsdpPeerFlags(
IN PMSDP_IPV4_PEER_CONFIG pPeer
)
{
static WCHAR wszString[33];
wszString[0] = (pPeer->dwConfigFlags & MSDP_PEER_CONFIG_CONNECTRETRY)? L'R' : L' ';
wszString[1] = (pPeer->dwConfigFlags & MSDP_PEER_CONFIG_KEEPALIVE) ? L'K' : L' ';
wszString[2] = (pPeer->dwConfigFlags & MSDP_PEER_CONFIG_CACHING) ? L'C' : L' ';
wszString[3] = (pPeer->dwConfigFlags & MSDP_PEER_CONFIG_DEFAULTPEER) ? L'D' : L' ';
wszString[4] = (pPeer->dwConfigFlags & MSDP_PEER_CONFIG_PASSIVE) ? L'P' : L' ';
wszString[5] = 0;
return wszString;
}
//
// Called by: HandleMsdpShowPeer()
//
DWORD
ShowMsdpPeerInfo(
IN DWORD dwFormat,
IN LPCWSTR pwszPeerAddress OPTIONAL,
IN LPCWSTR pwszPeerName OPTIONAL
)
{
DWORD dwErr, dwTotal;
PMSDP_IPV4_PEER_CONFIG pPeer;
ULONG i, ulNumInterfaces, ulCount = 0;
WCHAR wszRemoteAddress[20];
WCHAR wszLocalAddress[20];
PWCHAR pwszEncapsMethod;
PMPR_INTERFACE_0 pmi0 = NULL;
PMSDP_GLOBAL_CONFIG pGlobalInfo = NULL;
WCHAR wszFriendlyName[MAX_INTERFACE_NAME_LEN+1];
DWORD dwSize = sizeof(wszFriendlyName);
dwErr = GetMsdpGlobalConfig(&pGlobalInfo);
if (dwErr isnot NO_ERROR)
{
return dwErr;
}
do {
//
// Retrieve the peer's configuration
// and format it to the output file or console.
//
dwErr = IpmontrInterfaceEnum((PBYTE *) &pmi0,
&ulNumInterfaces,
&dwTotal);
if (dwErr isnot NO_ERROR)
{
return dwErr;
}
for (i=0; i<ulNumInterfaces; i++)
{
dwErr = IpmontrGetFriendlyNameFromIfName(pmi0[i].wszInterfaceName,
wszFriendlyName, &dwSize);
if (pwszPeerName
and wcscmp(pwszPeerName, wszFriendlyName))
{
continue;
}
dwErr = GetMsdpInterfaceConfig(pmi0[i].wszInterfaceName, &pPeer);
if (dwErr isnot NO_ERROR)
{
continue;
}
IP_TO_TSTR(wszRemoteAddress, &pPeer->ipRemoteAddress);
if (pwszPeerAddress
and wcscmp(pwszPeerAddress, wszRemoteAddress))
{
FREE(pPeer);
continue;
}
if ((ulCount is 0) and (dwFormat is FORMAT_TABLE))
{
DisplayMessage( g_hModule, MSG_MSDP_PEER_HEADER );
}
IP_TO_TSTR(wszLocalAddress, &pPeer->ipLocalAddress);
pwszEncapsMethod = MsdpQueryValueString( dwFormat,
MsdpEncapsIndex,
pPeer->dwEncapsMethod );
if (dwFormat is FORMAT_DUMP) {
DisplayMessageT(DMP_MSDP_ADD_PEER);
DisplayMessageT(DMP_MSDP_STRING_ARGUMENT,
TOKEN_OPT_NAME, wszFriendlyName);
DisplayMessageT(DMP_MSDP_STRING_ARGUMENT,
TOKEN_OPT_REMADDR, wszRemoteAddress);
if (pPeer->ipLocalAddress)
{
DisplayMessageT(DMP_MSDP_STRING_ARGUMENT,
TOKEN_OPT_LOCALADDR, wszLocalAddress);
}
if (pPeer->dwConfigFlags & MSDP_PEER_CONFIG_KEEPALIVE)
{
DisplayMessageT(DMP_MSDP_INTEGER_ARGUMENT,
TOKEN_OPT_KEEPALIVE, pPeer->ulKeepAlive);
}
if (pPeer->dwConfigFlags & MSDP_PEER_CONFIG_CONNECTRETRY)
{
DisplayMessageT(DMP_MSDP_INTEGER_ARGUMENT,
TOKEN_OPT_CONNECTRETRY,
pPeer->ulConnectRetry);
}
if (pPeer->dwConfigFlags & MSDP_PEER_CONFIG_CACHING)
{
DisplayMessageT(DMP_MSDP_STRING_ARGUMENT,
TOKEN_OPT_CACHING,
TOKEN_OPT_VALUE_YES);
}
if (pPeer->dwConfigFlags & MSDP_PEER_CONFIG_DEFAULTPEER)
{
DisplayMessageT(DMP_MSDP_STRING_ARGUMENT,
TOKEN_OPT_DEFAULTPEER,
TOKEN_OPT_VALUE_YES);
}
if (pPeer->dwEncapsMethod isnot MSDP_DEFAULT_ENCAPSULATION)
{
DisplayMessageT(DMP_MSDP_STRING_ARGUMENT,
TOKEN_OPT_ENCAPSMETHOD,
pwszEncapsMethod);
}
DisplayMessageT(MSG_NEWLINE);
} else {
DWORD dwId = (dwFormat is FORMAT_TABLE)? MSG_MSDP_PEER_INFO :
MSG_MSDP_PEER_INFO_EX;
DisplayMessage( g_hModule,
dwId,
wszRemoteAddress,
wszLocalAddress,
MsdpPeerKeepAlive(pGlobalInfo, pPeer),
MsdpPeerConnectRetry(pGlobalInfo, pPeer),
MsdpPeerFlags(pPeer),
pwszEncapsMethod,
wszFriendlyName);
}
FREE(pPeer);
ulCount++;
}
} while(FALSE);
FREE(pGlobalInfo);
if ((dwFormat isnot FORMAT_DUMP) && dwErr) {
if (dwErr == ERROR_NOT_FOUND) {
DisplayMessage(g_hModule, EMSG_PROTO_NO_IF_INFO);
} else {
DisplayError(g_hModule, dwErr);
}
}
if (pmi0)
{
FREE(pmi0);
}
if ((dwFormat is FORMAT_TABLE) and (ulCount is 0) and (dwErr is NO_ERROR))
{
DisplayMessage(g_hModule, MSG_MSDP_NO_PEER_INFO);
}
return dwErr;
}
#if 0
ULONG
UpdateMsdpGlobalInfo(
PMSDP_GLOBAL_CONFIG GlobalInfo
)
{
ULONG Count;
ULONG Error;
PMSDP_GLOBAL_CONFIG NewGlobalInfo = NULL;
PMSDP_GLOBAL_CONFIG OldGlobalInfo = NULL;
ULONG Size;
do {
//
// Retrieve the existing global configuration.
//
Error =
IpmontrGetInfoBlockFromGlobalInfo(
MS_IP_MSDP,
(PUCHAR*)&OldGlobalInfo,
&Size,
&Count
);
if (Error) {
break;
} else if (!(Count * Size)) {
Error = ERROR_NOT_FOUND; break;
}
//
// Allocate a new structure, copy to it the original configuration,
//
NewGlobalInfo = MALLOC(Count * Size);
if (!NewGlobalInfo) { Error = ERROR_NOT_ENOUGH_MEMORY; break; }
CopyMemory(NewGlobalInfo, OldGlobalInfo, Count * Size);
//
// Based on the changes requested, change the NewGlobalInfo.
// Since for MSDP there is only the logging level to change, we just set that.
//
NewGlobalInfo->dwLoggingLevel = GlobalInfo->dwLoggingLevel;
Error =
IpmontrSetInfoBlockInGlobalInfo(
MS_IP_MSDP,
(PUCHAR)NewGlobalInfo,
FIELD_OFFSET(IP_NAT_GLOBAL_INFO, Header) +
Size,
1
);
} while(FALSE);
if (NewGlobalInfo) { FREE(NewGlobalInfo); }
if (OldGlobalInfo) { FREE(OldGlobalInfo); }
if (Error == ERROR_NOT_FOUND) {
DisplayMessage(g_hModule, EMSG_PROTO_NO_GLOBAL_INFO);
} else if (Error) {
DisplayError(g_hModule, Error);
}
return Error;
}
#endif
#if 0
ULONG
UpdateMsdpPeerInfo(
PWCHAR PeerName,
PMSDP_FAMILY_CONFIG pFamily,
ULONG BitVector,
BOOL AddPeer
)
{
ULONG Count;
ULONG Error;
PMSDP_IPV4_PEER_CONFIG NewPeerInfo = NULL;
PMSDP_IPV4_PEER_CONFIG OldPeerInfo = NULL;
ULONG Size;
ROUTER_INTERFACE_TYPE Type;
ULONG i;
if (!AddPeer && !BitVector) { return NO_ERROR; }
do {
//
// Retrieve the existing interface configuration.
// We will update this block below, as well as adding to or removing
// from it depending on the flags specified in 'BitVector'.
//
Error =
GetInfoBlockFromPeerInfo(
PeerName,
MS_IP_MSDP,
(PUCHAR*)&OldPeerInfo,
&Size,
&Count,
&Type
);
if (Error) {
//
// No existing configuration is found. This is an error unless
// we are adding the interface anew, in which case we just
// create for ourselves a block containing the default settings.
//
if (!AddPeer) {
break;
} else {
Error = GetPeerType(PeerName, &Type);
if (Error) {
break;
} else {
Count = 1;
Error =
MakeMsdpPeerInfo(
Type, (PUCHAR*)&OldPeerInfo, &Size
);
if (Error) { break; }
}
}
} else {
//
// There is configuration on the interface. If it is empty this is
// an error. If this is an add interface, and the info exists, it is
// an error.
//
if (!(Count * Size) && !AddPeer) {
Error = ERROR_NOT_FOUND; break;
}
else if (AddPeer) {
//
// We were asked to add an interface which already exists
//
DisplayMessage(g_hModule, EMSG_INTERFACE_EXISTS, PeerName);
Error = ERROR_INVALID_PARAMETER;
break;
}
}
if (!BitVector) {
//
// Just add this interface without any additional info.
//
DWORD OldSize;
if (NewPeerInfo == NULL){
NewPeerInfo = MALLOC((OldSize=GetMsdpPeerInfoSize(OldPeerInfo))+
sizeof(MSDP_VROUTER_CONFIG));
if (!NewPeerInfo) {
DisplayMessage(g_hModule, EMSG_NOT_ENOUGH_MEMORY);
Error = ERROR_NOT_ENOUGH_MEMORY;
break;
}
}
CopyMemory(NewPeerInfo,OldPeerInfo,OldSize);
}
else{
if (!AddPeer || (OldPeerInfo->VrouterCount != 0)) {
//
// There is a prexisting VRID set. Check for this VRID in the list and then
// update it if required.
//
ASSERT(BitVector & MSDP_INTF_VRID_MASK);
for (i = 0, PVrouter = MSDP_FIRST_VROUTER_CONFIG(OldPeerInfo);
i < OldPeerInfo->VrouterCount;
i++, PVrouter = MSDP_NEXT_VROUTER_CONFIG(PVrouter)) {
if (PVrouter->VRID == VRouterInfo->VRID) {
break;
}
}
if (i == OldPeerInfo->VrouterCount) {
//
// This is a new VRID, Add it.
//
DWORD OldSize;
//
// The IP address should be valid or else this is a set op.
//
if (!(BitVector & MSDP_INTF_IPADDR_MASK)){
DisplayMessage(
g_hModule, EMSG_INVALID_VRID,
VRouterInfo->VRID
);
Error = ERROR_INVALID_PARAMETER;
break;
}
if (NewPeerInfo == NULL){
NewPeerInfo = MALLOC((OldSize=GetMsdpPeerInfoSize(
OldPeerInfo))+
sizeof(MSDP_VROUTER_CONFIG));
if (!NewPeerInfo) {
DisplayMessage(g_hModule, EMSG_NOT_ENOUGH_MEMORY);
Error = ERROR_NOT_ENOUGH_MEMORY;
break;
}
}
CopyMemory(NewPeerInfo, OldPeerInfo, OldSize);
PVrouter = (PMSDP_VROUTER_CONFIG)((PBYTE)NewPeerInfo+OldSize);
CopyMemory(PVrouter,VRouterInfo,sizeof(MSDP_VROUTER_CONFIG));
NewPeerInfo->VrouterCount++;
//
// Check if we own the IP address given. If yes, set the priority.
//
PVrouter->ConfigPriority =
FoundIpAddress(PVrouter->IPAddress[0]) ? 255 : 100;
}
else{
//
// This is an old VRID. Its priority should not need to be changed.
//
DWORD Offset, OldSize;
if(BitVector & MSDP_INTF_IPADDR_MASK) {
if ( ((PVrouter->ConfigPriority != 255) &&
(FoundIpAddress(VRouterInfo->IPAddress[0]))
)
||
((PVrouter->ConfigPriority == 255) &&
(!FoundIpAddress(VRouterInfo->IPAddress[0])))
) {
DisplayMessage(g_hModule, EMSG_BAD_OPTION_VALUE);
Error = ERROR_INVALID_PARAMETER;
break;
}
//
// Add this IP address to the VRID specified.
//
if (NewPeerInfo == NULL){
NewPeerInfo = MALLOC((OldSize = GetMsdpPeerInfoSize(
OldPeerInfo))+
sizeof(DWORD));
if (!NewPeerInfo) {
DisplayMessage(g_hModule, EMSG_NOT_ENOUGH_MEMORY);
Error = ERROR_NOT_ENOUGH_MEMORY;
break;
}
}
//
// Shift all the VROUTER configs after the PVrouter by 1 DWORD.
//
Offset = (PUCHAR) MSDP_NEXT_VROUTER_CONFIG(PVrouter) -
(PUCHAR) OldPeerInfo;
CopyMemory(NewPeerInfo, OldPeerInfo, OldSize);
for (i = 0, PVrouter = MSDP_FIRST_VROUTER_CONFIG(NewPeerInfo);
i < NewPeerInfo->VrouterCount;
i++, PVrouter = MSDP_NEXT_VROUTER_CONFIG(PVrouter)) {
if (PVrouter->VRID == VRouterInfo->VRID) {
break;
}
}
ASSERT(i < NewPeerInfo->VrouterCount);
PVrouter->IPAddress[PVrouter->IPCount++] = VRouterInfo->IPAddress[0];
ASSERT(((PUCHAR)NewPeerInfo+Offset+sizeof(DWORD)) ==
(PUCHAR) MSDP_NEXT_VROUTER_CONFIG(PVrouter));
CopyMemory(MSDP_NEXT_VROUTER_CONFIG(PVrouter),
OldPeerInfo+Offset, OldSize-Offset);
} else {
//
// Set the new info block as the old info block and point to the
// vrouter block
//
if (NewPeerInfo == NULL){
NewPeerInfo = MALLOC((OldSize = GetMsdpPeerInfoSize(
OldPeerInfo)));
if (!NewPeerInfo) {
DisplayMessage(g_hModule, EMSG_NOT_ENOUGH_MEMORY);
Error = ERROR_NOT_ENOUGH_MEMORY;
break;
}
}
CopyMemory(NewPeerInfo, OldPeerInfo, OldSize);
for (i = 0, PVrouter = MSDP_FIRST_VROUTER_CONFIG(NewPeerInfo);
i < NewPeerInfo->VrouterCount;
i++, PVrouter = MSDP_NEXT_VROUTER_CONFIG(PVrouter)) {
if (PVrouter->VRID == VRouterInfo->VRID) {
break;
}
}
ASSERT(i < NewPeerInfo->VrouterCount);
}
if (BitVector & MSDP_INTF_AUTH_MASK) {
PVrouter->AuthenticationType = VRouterInfo->AuthenticationType;
}
if (BitVector & MSDP_INTF_PASSWD_MASK) {
CopyMemory(PVrouter->AuthenticationData,
VRouterInfo->AuthenticationData,
MSDP_MAX_AUTHKEY_SIZE);
}
if (BitVector & MSDP_INTF_ADVT_MASK) {
PVrouter->AdvertisementPeer= VRouterInfo->AdvertisementPeer
}
if (BitVector & MSDP_INTF_PRIO_MASK) {
PVrouter->ConfigPriority = VRouterInfo->ConfigPriority;
}
if (BitVector & MSDP_INTF_PREEMPT_MASK) {
PVrouter->PreemptMode = VRouterInfo->PreemptMode;
}
}
}
}
ValidateMsdpPeerInfo(NewPeerInfo);
Error =
SetInfoBlockInPeerInfo(
PeerName,
MS_IP_MSDP,
(PUCHAR)NewPeerInfo,
GetMsdpPeerInfoSize(NewPeerInfo),
1
);
} while(FALSE);
if (NewPeerInfo) { FREE(NewPeerInfo); }
if (OldPeerInfo) { FREE(OldPeerInfo); }
if (Error == ERROR_NOT_FOUND) {
DisplayMessage(g_hModule, EMSG_PROTO_NO_IF_INFO);
} else if (Error) {
DisplayError(g_hModule, Error);
}
return Error;
}
#endif
#if 0
DWORD
MsdpDeleteIPv4PeerConfig(
IPV4_ADDRESS ipAddr
)
/*++
Called by: HandleMsdpDeletePeer()
--*/
{
DWORD dwErr = NO_ERROR;
ULONG ulV4PeerCount;
PMSDP_IPV4_PEER_CONFIG NewPeerInfo = NULL;
PMSDP_IPV4_PEER_CONFIG OldPeerInfo = NULL;
ULONG Size;
ULONG i;
do {
dwErr = GetMsdpGlobalConfig(&pGlobal);
if (dwErr isnot NO_ERROR) {
break;
}
pFamily = MSDP_FIRST_FAMILY(pGlobal);
for (i=0; (i < pFamily->usNumPeers)
&& (pFamily->pPeer[i].ipRemoteAddress isnot ipAddr); i++);
if (i is pFamily->usNumPeers)
{
return ERROR_NOT_FOUND;
}
// Shift every after 'i' up one position (overlapping copy)
i++;
memcpy( &pFamily->pPeer[i-1],
&pFamily->pPeer[i],
(pFamily->usNumPeers-i) * sizeof(MSDP_IPV4_PEER_CONFIG) );
pFamily->usNumPeers--;
dwErr = SetMsdpGlobalConfig( pGlobal );
} while (FALSE);
if (pGlobal)
{
FREE(pGlobal);
}
return dwErr;
}
#endif
ULONG
ValidateMsdpPeerInfo(
PMSDP_IPV4_PEER_CONFIG PeerInfo
)
{
return NO_ERROR;
}
#if 0
DWORD
GetMsdpPeerInfoSize(
PMSDP_IPV4_PEER_CONFIG PeerInfo
)
{
DWORD Size = 0;
ULONG i;
PMSDP_VROUTER_CONFIG pvr;
Size += sizeof(PeerInfo->VrouterCount);
for (i = 0, pvr = MSDP_FIRST_VROUTER_CONFIG(PeerInfo);
i < PeerInfo->VrouterCount;
i++,pvr = MSDP_NEXT_VROUTER_CONFIG(pvr)) {
Size += MSDP_VROUTER_CONFIG_SIZE(pvr);
}
return Size;
}
#endif