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WindowsXP-SP1/admin/dcpromo/exe/installtcpippage.cpp
Microsoft f7ca35dddd First commit
2020-09-30 16:53:49 +02:00

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// Copyright (C) 1997 Microsoft Corporation
//
// install tcp/ip page
//
// 12-18-97 sburns
#include "headers.hxx"
#include "InstallTcpIpPage.hpp"
#include "resource.h"
#include "state.hpp"
#include "common.hpp"
// artshel recommends that we use WSAIoctl + SIO_ADDRESS_LIST_QUERY instead of
// GetIpAddrTable because "it's more "official" and less likely to change,
// which means less work for everyone when we upgrade/revise IPHLPAPI," but
// confirms that for Whistler, they are equivalent.
// NTRAID#NTBUG9--2001/04/24-sburns
// sample code:
// //
// // DWORD
// // GetIPv4Addresses(
// // IN LPSOCKET_ADDRESS_LIST *ppList)
// // {
// // LPSOCKET_ADDRESS_LIST pList = NULL;
// // ULONG ulSize = 0;
// // DWORD dwErr;
// // DWORD dwBytesReturned;
// // SOCKET s;
// //
// // *ppList = NULL;
// //
// // s = socket(AF_INET, SOCK_DGRAM, 0);
// // if (s == INVALID_SOCKET)
// // return WSAGetLastError();
// //
// // for (;;) {
// // dwErr = WSAIoctl(s, SIO_ADDRESS_LIST_QUERY, NULL, 0, pList, ulSize,
// // &dwBytesReturned, NULL, NULL);
// //
// // if (!dwErr) {
// // break;
// // }
// //
// // if (pList) {
// // FREE(pList);
// // pList = NULL;
// // }
// //
// // dwErr = WSAGetLastError();
// // if (dwErr != WSAEFAULT)
// // break;
// //
// // pList = MALLOC(dwBytesReturned);
// // if (!pList) {
// // dwErr = ERROR_NOT_ENOUGH_MEMORY;
// // break;
// // }
// //
// // ulSize = dwBytesReturned;
// // }
// //
// // closesocket(s);
// //
// // *ppList = pList;
// // return dwErr;
// // }
// Returns true if tcp/ip is "working" (can send/receive packets on at least
// one IP address.
bool
IsTcpIpFunctioning()
{
LOG_FUNCTION(IsTcpIpFunctioning);
bool result = false;
// As per nksrin, we will call GetIpAddrTable. If no addresses are in
// the table, then the IP stack is not in a state to send/rcv packets
// with the rest of the world
HRESULT hr = S_OK;
BYTE* buf = 0;
do
{
// first, determine the size of the table
ULONG tableSize = 0;
DWORD err = ::GetIpAddrTable(0, &tableSize, FALSE);
if (err != ERROR_INSUFFICIENT_BUFFER)
{
LOG(L"GetIpAddrTable for table size failed");
LOG_HRESULT(Win32ToHresult(err));
break;
}
// allocate space for the table.
buf = new BYTE[tableSize + 1];
memset(buf, 0, tableSize + 1);
PMIB_IPADDRTABLE table = reinterpret_cast<PMIB_IPADDRTABLE>(buf);
LOG(L"Calling GetIpAddrTable");
hr =
Win32ToHresult(
::GetIpAddrTable(
table,
&tableSize,
FALSE));
BREAK_ON_FAILED_HRESULT2(hr, L"GetIpAddrTable failed");
LOG(String::format(L"dwNumEntries: %1!d!", table->dwNumEntries));
for (int i = 0; i < table->dwNumEntries; ++i)
{
DWORD addr = table->table[i].dwAddr;
LOG(String::format(L"entry %1!d!", i));
LOG(String::format(
L"dwAddr %1!X! (%2!d!.%3!d!.%4!d!.%5!d!)",
addr,
((BYTE*)&addr)[0],
((BYTE*)&addr)[1],
((BYTE*)&addr)[2],
((BYTE*)&addr)[3]));
// skip loopback, etc.
if (
INADDR_ANY == addr
|| INADDR_BROADCAST == addr
|| INADDR_LOOPBACK == addr
|| 0x0100007f == addr )
{
LOG(L"is loopback/broadcast -- skipping");
continue;
}
// Exclude MCAST addresses (class D).
if (
IN_CLASSA(htonl(addr))
|| IN_CLASSB(htonl(addr))
|| IN_CLASSC(htonl(addr)) )
{
LOG(L"is class A/B/C");
result = true;
break;
}
LOG(L"not class A/B/C -- skipping");
}
}
while (0);
delete[] buf;
LOG(String::format(L"TCP/IP %1 functioning", result ? L"is" : L"is NOT"));
return result;
}
InstallTcpIpPage::InstallTcpIpPage()
:
DCPromoWizardPage(
IDD_INSTALL_TCPIP,
IDS_INSTALL_TCPIP_PAGE_TITLE,
IDS_INSTALL_TCPIP_PAGE_SUBTITLE)
{
LOG_CTOR(InstallTcpIpPage);
}
InstallTcpIpPage::~InstallTcpIpPage()
{
LOG_DTOR(InstallTcpIpPage);
}
void
InstallTcpIpPage::OnInit()
{
LOG_FUNCTION(InstallTcpIpPage::OnInit);
}
bool
InstallTcpIpPage::OnSetActive()
{
LOG_FUNCTION(InstallTcpIpPage::OnSetActive);
State& state = State::GetInstance();
if (
state.RunHiddenUnattended()
or (IsTcpIpInstalled() and IsTcpIpFunctioning()) )
{
LOG(L"Planning to Skip InstallTcpIpPage");
Wizard& wizard = GetWizard();
if (wizard.IsBacktracking())
{
// backup once again
wizard.Backtrack(hwnd);
return true;
}
int nextPage = Validate();
if (nextPage != -1)
{
LOG(L"skipping InstallTcpIpPage");
wizard.SetNextPageID(hwnd, nextPage);
return true;
}
state.ClearHiddenWhileUnattended();
}
Win::PropSheet_SetWizButtons(
Win::GetParent(hwnd),
PSWIZB_BACK | PSWIZB_NEXT);
return true;
}
bool
InstallTcpIpPage::OnNotify(
HWND /* windowFrom */ ,
UINT_PTR controlIDFrom,
UINT code,
LPARAM /* lParam */ )
{
// LOG_FUNCTION(InstallTcpIpPage::OnNotify);
bool result = false;
if (controlIDFrom == IDC_JUMP)
{
switch (code)
{
case NM_CLICK:
case NM_RETURN:
{
ShowTroubleshooter(hwnd, IDS_INSTALL_TCPIP_HELP_TOPIC);
result = true;
}
default:
{
// do nothing
break;
}
}
}
return result;
}
int
InstallTcpIpPage::Validate()
{
LOG_FUNCTION(InstallTcpIpPage::Validate);
int nextPage = -1;
if (IsTcpIpInstalled() and IsTcpIpFunctioning())
{
State& state = State::GetInstance();
switch (state.GetRunContext())
{
case State::BDC_UPGRADE:
{
ASSERT(state.GetOperation() == State::REPLICA);
nextPage = IDD_REPLICATE_FROM_MEDIA; // IDD_CONFIG_DNS_CLIENT;
break;
}
case State::PDC_UPGRADE:
{
nextPage = IDD_TREE_OR_CHILD;
break;
}
case State::NT5_STANDALONE_SERVER:
case State::NT5_MEMBER_SERVER:
{
nextPage = IDD_REPLICA_OR_DOMAIN;
break;
}
default:
{
ASSERT(false);
break;
}
}
}
else
{
String message = String::load(IDS_INSTALL_TCPIP_FIRST);
popup.Info(hwnd, message);
}
return nextPage;
}
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