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|
/*
proxySwitch
The plugin watches IP address changes, reports them via popups and adjusts
the proxy settings of Miranda and Internet Explorer accordingly.
*/
#include "stdafx.h"
/* ################################################################################ */
void IP_WatchDog(void*)
{
OVERLAPPED overlap;
overlap.hEvent = CreateEvent(0, TRUE, FALSE, 0);
while (true) {
HANDLE hResult;
DWORD ret = NotifyAddrChange(&hResult, &overlap);
if (ret != NO_ERROR && WSAGetLastError() != WSA_IO_PENDING) {
Netlib_Logf(0, "NotifyAddrChange Error: %d/nRestart Miranda NG to restore IP monitor.", WSAGetLastError());
break;
}
HANDLE event_list[2];
event_list[0] = overlap.hEvent;
event_list[1] = hEventRebound;
ret = MsgWaitForMultipleObjectsEx(2, event_list, INFINITE, 0, MWMO_ALERTABLE);
if (ret == WAIT_IO_COMPLETION && Miranda_IsTerminated())
break;
if (ret == WAIT_OBJECT_0 || ret == WAIT_TIMEOUT || ret == (WAIT_OBJECT_0 + 1)) {
NETWORK_INTERFACE_LIST list(10);
if (Create_NIF_List_Ex(&list) >= 0) {
int change = INCUPD_INTACT;
mir_cslock lck(csNIF_List);
change = IncUpdate_NIF_List(&g_arNIF, list);
if (change != INCUPD_INTACT && change != INCUPD_CONN_BIND) {
char proxy = -1;
int change_Miranda = 0;
int reset_Miranda = 0;
int change_IE = 0;
int change_Firefox = 0;
IP_RANGE_LIST range;
if (proxy == -1) {
Create_Range_List(&range, opt_useProxy, TRUE);
if (Match_Range_List(range, g_arNIF))
proxy = 1;
Free_Range_List(&range);
}
if (proxy == -1) {
Create_Range_List(&range, opt_noProxy, FALSE);
if (Match_Range_List(range, g_arNIF))
proxy = 0;
Free_Range_List(&range);
}
if (proxy == -1) {
Create_Range_List(&range, opt_useProxy, FALSE);
if (Match_Range_List(range, g_arNIF))
proxy = 1;
Free_Range_List(&range);
}
if (proxy != -1 && proxy != Get_Miranda_Proxy_Status())
change_Miranda = reset_Miranda = opt_miranda;
if (proxy != -1 && proxy != Get_IE_Proxy_Status())
change_IE = opt_ie;
if (proxy != -1 && proxy != Get_Firefox_Proxy_Status())
change_Firefox = opt_firefox;
if (opt_alwayReconnect)
reset_Miranda = 1;
const wchar_t *wszProxy = proxy ? TranslateT("Proxy") : TranslateT("Direct");
CMStringW msg;
if (opt_showProxyState) {
if (change_Miranda)
msg.AppendFormat(L"\n%s\t%s", TranslateT("Miranda"), wszProxy);
if (change_IE)
msg.AppendFormat(L"\n%s\t%s", TranslateT("Miranda"), wszProxy);
if (change_Firefox)
msg.AppendFormat(L"\n%s\t%s", TranslateT("Miranda"), wszProxy);
}
UpdateInterfacesMenu();
PopupMyIPAddrs(msg.IsEmpty() ? nullptr : msg.c_str());
if (change_IE)
Set_IE_Proxy_Status(proxy);
if (change_Firefox)
Set_Firefox_Proxy_Status(proxy);
if (reset_Miranda) {
PROTO_SETTINGS protocols;
Disconnect_All_Protocols(&protocols, change_Miranda);
Sleep(1000);
if (change_Miranda)
Set_Miranda_Proxy_Status(proxy);
Connect_All_Protocols(&protocols);
}
}
}
}
ResetEvent(hEventRebound);
ResetEvent(overlap.hEvent);
}
CloseHandle(overlap.hEvent);
}
/* ################################################################################ */
int Create_NIF_List_Ex(NETWORK_INTERFACE_LIST *list)
{
UINT delay = 1;
int out;
while ((out = Create_NIF_List(list)) == -2 && delay < 10) {
Sleep(delay * 50);
delay++;
}
if (out == -2)
Netlib_Logf(0, "Cannot retrieve IP or adapter data.");
return out < 0 ? -1 : out;
}
NETWORK_INTERFACE* Find_NIF_IP(NETWORK_INTERFACE_LIST &list, const LONG IP)
{
for (auto &it : list)
for (int i = 0; i < it->IPcount; i++)
if (it->IP[i] == IP)
return it;
return nullptr;
}
int Create_NIF_List(NETWORK_INTERFACE_LIST *list)
{
PIP_ADAPTER_INFO pAdapterInfo, pAdapt;
PIP_ADDR_STRING pAddrStr;
PIP_ADAPTER_ADDRESSES pAddresses, pAddr;
ULONG outBufLen;
wchar_t *tmp_opt, *intf, *rest, *name;
DWORD out;
// prepare and load IP_ADAPTER_ADDRESSES
outBufLen = 0;
if (GetAdaptersAddresses(AF_INET, 0, NULL, NULL, &outBufLen) == ERROR_BUFFER_OVERFLOW) {
pAddresses = (PIP_ADAPTER_ADDRESSES)mir_alloc(outBufLen);
if (pAddresses == NULL) {
Netlib_Logf(0, "Cannot allocate memory for pAddresses");
return -1;
}
if ((out = GetAdaptersAddresses(AF_INET, 0, NULL, pAddresses, &outBufLen)) != ERROR_SUCCESS) {
mir_free(pAddresses);
return -2;
}
}
else {
Netlib_Logf(0, "GetAdaptersAddresses sizing failed");
return -1;
}
// prepare and load IP_ADAPTER_INFO
outBufLen = 0;
if (GetAdaptersInfo(NULL, &outBufLen) == ERROR_BUFFER_OVERFLOW) {
pAdapterInfo = (PIP_ADAPTER_INFO)mir_alloc(outBufLen);
if (pAdapterInfo == NULL) {
Netlib_Logf(0, "Cannot allocate memory for pAdapterInfo");
mir_free(pAddresses);
return -1;
}
if (GetAdaptersInfo(pAdapterInfo, &outBufLen) != NO_ERROR) {
mir_free(pAdapterInfo);
mir_free(pAddresses);
return -2;
}
}
else {
Netlib_Logf(0, "GetAdaptersInfo sizing failed");
mir_free(pAddresses);
return -1;
}
list->destroy();
pAdapt = pAdapterInfo;
while (pAdapt) {
// add a new interface into the list
NETWORK_INTERFACE* nif = new NETWORK_INTERFACE();
// copy AdapterName
nif->AdapterName = mir_strdup(pAdapt->AdapterName);
// find its FriendlyName and copy it
pAddr = pAddresses;
while (pAddr && mir_strcmp(pAddr->AdapterName, pAdapt->AdapterName))
pAddr = pAddr->Next;
if (pAddr)
nif->FriendlyName = mir_wstrdup(pAddr->FriendlyName);
bool skip = false;
tmp_opt = intf = rest = mir_wstrdup(opt_hideIntf);
while (rest && rest[0] && !skip) {
rest = wcschr(rest, ';');
if (rest != NULL) {
rest[0] = 0;
rest++;
}
if (intf[0]) {
if (intf[mir_wstrlen(intf) - 1] == '*' && mir_wstrlen(intf) - 1 <= mir_wstrlen(nif->FriendlyName)) {
intf[mir_wstrlen(intf) - 1] = 0;
name = nif->FriendlyName;
skip = true;
while (intf[0]) {
if (intf[0] != name[0]) {
skip = false;
break;
}
intf++;
name++;
}
}
if (mir_wstrcmp(nif->FriendlyName, intf) == 0) {
skip = true;
}
}
intf = rest;
}
mir_free(tmp_opt);
if (skip) {
delete nif;
pAdapt = pAdapt->Next;
continue;
}
list->insert(nif);
// get required size for IPstr and IP
outBufLen = 0;
pAddrStr = &(pAdapt->IpAddressList);
while (pAddrStr) {
if (mir_strcmp("0.0.0.0", pAddrStr->IpAddress.String)) {
nif->IPcount++; // count IP addresses
outBufLen += (ULONG)strlen(pAddrStr->IpAddress.String); // count length of IPstr
}
pAddrStr = pAddrStr->Next;
if (pAddrStr) outBufLen += 2; // count length of IPstr (add ", ")
}
// create IPstr and IP
if (nif->IPcount) {
nif->IPstr = (char*)mir_alloc(outBufLen + 4);
mir_strcpy(nif->IPstr, "");
nif->IP = (LONG*)mir_alloc((nif->IPcount + 1) * sizeof(LONG));
outBufLen = 0;
pAddrStr = &(pAdapt->IpAddressList);
while (pAddrStr) {
if (mir_strcmp("0.0.0.0", pAddrStr->IpAddress.String)) {
mir_strcat(nif->IPstr, pAddrStr->IpAddress.String);
nif->IP[outBufLen] = inet_addr(pAddrStr->IpAddress.String);
outBufLen++;
}
pAddrStr = pAddrStr->Next;
if (pAddrStr)
mir_strcat(nif->IPstr, ", ");
}
nif->IP[outBufLen] = 0L;
}
pAdapt = pAdapt->Next;
}
mir_free(pAdapterInfo);
mir_free(pAddresses);
mir_cslock lck(csConnection_List);
for (auto &it : g_arConnections) {
NETWORK_INTERFACE* nif = Find_NIF_IP(*list, it->IP);
if (nif)
nif->Bound = true;
}
return 0;
}
/* ################################################################################ */
NETWORK_INTERFACE* Find_NIF_AdapterName(NETWORK_INTERFACE_LIST &list, const char *AdapterName)
{
for (auto &it : list)
if (mir_strcmp(it->AdapterName, AdapterName) == 0)
return it;
return nullptr;
}
NETWORK_INTERFACE* Find_NIF_MenuItem(NETWORK_INTERFACE_LIST &list, const HGENMENU MenuItem)
{
for (auto &it : list)
if (it->MenuItem == MenuItem)
return it;
return nullptr;
}
/* ################################################################################ */
int IncUpdate_NIF_List(NETWORK_INTERFACE_LIST *trg, NETWORK_INTERFACE_LIST &src)
{
int change = INCUPD_INTACT;
for (auto &it : src) {
NETWORK_INTERFACE *nif = Find_NIF_AdapterName(*trg, it->AdapterName);
if (nif) {
if (nif->Disabled)
nif->Disabled = false;
if (mir_strcmp(NVL(nif->IPstr), NVL(it->IPstr))) {
if (nif->IPstr)
mir_free(nif->IPstr);
nif->IPstr = it->IPstr ? mir_strdup(it->IPstr) : NULL;
INCUPD(change, INCUPD_UPDATED);
}
if (mir_wstrcmp(NVLW(nif->FriendlyName), NVLW(it->FriendlyName))) {
if (nif->FriendlyName)
mir_free(nif->FriendlyName);
nif->FriendlyName = it->FriendlyName ? mir_wstrdup(it->FriendlyName) : NULL;
INCUPD(change, INCUPD_UPDATED);
}
if (nif->IPcount != it->IPcount) {
if (nif->IPcount > it->IPcount && nif->Bound) {
INCUPD(change, INCUPD_CONN_LOST);
UnboundConnections(nif->IP, it->IP);
}
nif->IPcount = it->IPcount;
if (nif->IP)
mir_free(nif->IP);
if (it->IP) {
nif->IP = (LONG*)mir_alloc((nif->IPcount + 1) * sizeof(LONG));
memcpy(nif->IP, it->IP, (nif->IPcount + 1) * sizeof(LONG));
}
else {
nif->IP = NULL;
}
INCUPD(change, INCUPD_UPDATED);
}
else {
if (nif->IPcount > 0 && memcmp(nif->IP, it->IP, nif->IPcount * sizeof(LONG))) {
mir_free(nif->IP);
nif->IP = (LONG*)mir_alloc((nif->IPcount + 1) * sizeof(LONG));
memcpy(nif->IP, it->IP, (nif->IPcount + 1) * sizeof(LONG));
INCUPD(change, INCUPD_UPDATED);
}
}
if (nif->Bound != it->Bound) {
nif->Bound = it->Bound;
INCUPD(change, INCUPD_CONN_BIND);
}
}
else {
nif = new NETWORK_INTERFACE();
nif->AdapterName = it->AdapterName ? mir_strdup(it->AdapterName) : NULL;
nif->FriendlyName = it->FriendlyName ? mir_wstrdup(it->FriendlyName) : NULL;
nif->IPstr = it->IPstr ? strdup(it->IPstr) : NULL;
nif->IPcount = it->IPcount;
nif->Bound = it->Bound;
if (nif->IPcount > 0) {
nif->IP = (LONG*)mir_alloc((nif->IPcount + 1) * sizeof(LONG));
memcpy(nif->IP, it->IP, (nif->IPcount + 1) * sizeof(LONG));
}
trg->insert(nif);
INCUPD(change, INCUPD_UPDATED);
}
}
for (auto &it : *trg) {
if (it->Disabled)
continue;
NETWORK_INTERFACE *nif = Find_NIF_AdapterName(src, it->AdapterName);
if (!nif) {
if (it->Bound) {
INCUPD(change, INCUPD_CONN_LOST);
UnboundConnections(it->IP, NULL);
}
else {
INCUPD(change, INCUPD_UPDATED);
}
if (it->IPstr)
mir_free(it->IPstr);
if (it->IP)
mir_free(it->IP);
it->IPstr = NULL;
it->IPcount = 0;
it->IP = NULL;
it->Bound = false;
it->Disabled = true;
}
}
return change;
}
/* ################################################################################ */
static CMStringW wszTemp;
wchar_t* Print_NIF(NETWORK_INTERFACE* nif)
{
wszTemp.Format(L"%s:\t%s", nif->FriendlyName, nif->IPstr ? _A2T(nif->IPstr) : TranslateT("disconnected"));
return wszTemp.GetBuffer();
}
wchar_t* Print_NIF_List(NETWORK_INTERFACE_LIST &list, const wchar_t *msg)
{
wszTemp = L"";
for (auto &it : list) {
wszTemp.AppendFormat(L"%s:\t%s%s%s\n",
it->FriendlyName,
it->Bound ? L"[u]" : L"",
it->IPstr ? _A2T(it->IPstr) : TranslateT("disconnected"),
it->Bound ? L"[/u]" : L""
);
}
if (msg)
wszTemp.Append(msg);
return wszTemp.GetBuffer();
}
/* ################################################################################ */
void Parse_Range(PIP_RANGE range, wchar_t *str, BOOL prioritized)
{
wchar_t *ext;
unsigned long num;
range->cmpType = CMP_SKIP;
if ((str[0] == '!' && !prioritized) || (str[0] != '!' && prioritized)) {
range->mask = range->net = 0L;
return;
}
if (str[0] == '!')
str++;
// ip/mask
if ((ext = wcschr(str, '/')) != NULL) {
ext[0] = 0; ext++;
// ip/bits (10.0.0.1/16)
if (wcsspn(ext, DIGITS) == mir_wstrlen(ext)) {
num = _wtol(ext);
if (num >= 0 && num <= 32 && (range->net = inet_addr(_T2A(str))) != INADDR_NONE) {
range->cmpType = CMP_MASK;
range->mask = NETORDER(num ? ~(0xFFFFFFFF >> (num)) : ~0);
range->net = range->net & range->mask;
}
}
else {
// ip/subnet (10.0.0.1/255.255.0.0)
if ((range->net = inet_addr(_T2A(str))) != INADDR_NONE && (range->mask = inet_addr(_T2A(ext))) != INADDR_NONE) {
for (num = 0; num < 32; num++) {
if (range->mask == NETORDER(num ? ~(0xFFFFFFFF >> (32 - num)) : ~0)) {
range->cmpType = CMP_MASK;
range->net = range->net & range->mask;
break;
}
}
}
}
}
else {
// ipbegin-end
if ((ext = wcschr(str, '-')) != NULL) {
ext[0] = 0; ext++;
// ipA.B.C.D1-D2 (10.0.0.1-12)
if (wcsspn(ext, DIGITS) == mir_wstrlen(ext)) {
num = _wtol(ext);
if (num > 0 && num <= 255 && (range->loIP = inet_addr(_T2A(str))) != INADDR_NONE && (range->loIP >> 24) <= num) {
range->cmpType = CMP_SPAN;
range->hiIP = ((range->loIP & 0x00FFFFFF) | (num << 24));
range->loIP = (range->loIP);
}
}
else {
// ipstart-ipend (10.0.0.1-10.0.10.255)
if ((range->loIP = inet_addr(_T2A(str))) != INADDR_NONE && (range->hiIP = inet_addr(_T2A(ext))) != INADDR_NONE) {
range->loIP = (range->loIP);
range->hiIP = (range->hiIP);
if (range->loIP <= range->hiIP) {
range->cmpType = CMP_SPAN;
}
}
}
}
else {
// ip
if (mir_wstrlen(str) > 0 && (range->net = inet_addr(_T2A(str))) != INADDR_NONE) {
range->cmpType = CMP_MASK;
range->mask = 0xFFFFFFFF;
}
}
}
if (range->cmpType == CMP_SKIP) {
range->mask = range->net = 0L;
}
}
int Create_Range_List(IP_RANGE_LIST *list, wchar_t *str, BOOL prioritized)
{
wchar_t *range, *rest, *tmp;
int size, idx;
ZeroMemory(list, sizeof(IP_RANGE_LIST));
// get expected number of ranges
range = str;
size = mir_wstrlen(range) > 0 ? 1 : 0;
while (range[0]) {
if (range[0] == ';')
size++;
range++;
};
if (size == 0)
return 0;
// alloc required space
list->item = (PIP_RANGE)mir_alloc(size * sizeof(IP_RANGE));
ZeroMemory(list->item, size * sizeof(IP_RANGE));
tmp = range = rest = mir_wstrdup(str);
idx = 0;
while (rest && rest[0]) {
rest = wcschr(rest, ';');
if (rest != NULL) {
rest[0] = 0;
rest++;
}
Parse_Range(&(list->item[idx]), range, prioritized);
if (list->item[idx].cmpType != CMP_SKIP)
idx++;
range = rest;
}
list->count = idx;
list->item = (PIP_RANGE)mir_realloc(list->item, (idx + 1) * sizeof(IP_RANGE));
ZeroMemory(&(list->item[idx]), sizeof(IP_RANGE));
list->item[idx].cmpType = CMP_END;
mir_free(tmp);
return 0;
}
int Match_Range_List(IP_RANGE_LIST range, OBJLIST<NETWORK_INTERFACE> &nif)
{
if (range.count == 0 || nif.getCount() == 0)
return 0;
PIP_RANGE rng = range.item;
while (rng->cmpType != CMP_END) {
switch (rng->cmpType) {
case CMP_SKIP:
break;
case CMP_MASK:
for (auto &it : nif) {
ULONG *ip = (ULONG *)it->IP;
while (ip && *ip) {
if ((ULONG)(*ip & rng->mask) == rng->net)
return 1;
ip++;
}
}
break;
case CMP_SPAN:
for (auto &it : nif) {
ULONG *ip = (ULONG *)it->IP;
while (ip && *ip) {
if ((NETORDER(rng->loIP) <= NETORDER(*ip)) && (NETORDER(*ip) <= NETORDER(rng->hiIP)))
return 1;
ip++;
}
}
break;
}
rng++;
}
return 0;
}
void Free_Range_List(IP_RANGE_LIST *list)
{
if (list->item)
mir_free(list->item);
ZeroMemory(list, sizeof(IP_RANGE_LIST));
}
int ManageConnections(WPARAM wParam, LPARAM)
{
NETLIBCONNECTIONEVENTINFO *info = (NETLIBCONNECTIONEVENTINFO *)wParam;
ACTIVE_CONNECTION *pFound = nullptr;
mir_cslock lck(csConnection_List);
for (auto &it : g_arConnections)
if (it->IP == info->local.sin_addr.s_addr && it->Port == info->local.sin_port) {
pFound = it;
break;
}
if (!pFound && info->connected) {
g_arConnections.insert(new ACTIVE_CONNECTION(info->local.sin_addr.s_addr, info->local.sin_port));
SetEvent(hEventRebound);
}
else if (pFound && !info->connected) {
g_arConnections.remove(pFound);
SetEvent(hEventRebound);
}
return 0;
}
void UnboundConnections(LONG *OldIP, LONG *NewIP)
{
LONG *IP;
while (OldIP != NULL && *OldIP != 0) {
IP = NewIP;
while (IP != NULL && *IP != 0 && *IP != *OldIP)
IP++;
if (IP == NULL || *IP != *OldIP) {
mir_cslock lck(csConnection_List);
for (auto &it : g_arConnections.rev_iter())
if (it->IP == (ULONG)*OldIP)
g_arConnections.remove(g_arConnections.indexOf(&it));
}
OldIP++;
}
}
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