Merge pull request #22044 from Faless/uwp_miniupnpc
Update miniupnpc to use UWP compatible APIs.
This commit is contained in:
commit
197a3b2924
1 changed files with 81 additions and 40 deletions
113
thirdparty/miniupnpc/minissdpc.c
vendored
113
thirdparty/miniupnpc/minissdpc.c
vendored
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@ -494,7 +494,6 @@ ssdpDiscoverDevices(const char * const deviceTypes[],
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struct addrinfo hints, *servinfo, *p;
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#endif
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#ifdef _WIN32
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MIB_IPFORWARDROW ip_forward;
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unsigned long _ttl = (unsigned long)ttl;
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#endif
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int linklocal = 1;
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@ -538,61 +537,103 @@ ssdpDiscoverDevices(const char * const deviceTypes[],
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* SSDP multicast traffic */
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/* Get IP associated with the index given in the ip_forward struct
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* in order to give this ip to setsockopt(sudp, IPPROTO_IP, IP_MULTICAST_IF) */
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if(!ipv6
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&& (GetBestRoute(inet_addr("223.255.255.255"), 0, &ip_forward) == NO_ERROR)) {
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DWORD dwRetVal = 0;
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PMIB_IPADDRTABLE pIPAddrTable;
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if(!ipv6) {
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DWORD ifbestidx;
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SOCKADDR_IN destAddr;
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memset(&destAddr, 0, sizeof(destAddr));
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destAddr.sin_family = AF_INET;
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destAddr.sin_addr.s_addr = inet_addr("223.255.255.255");
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destAddr.sin_port = 0;
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if (GetBestInterfaceEx((struct sockaddr *)&destAddr, &ifbestidx) == NO_ERROR) {
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DWORD dwSize = 0;
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#ifdef DEBUG
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IN_ADDR IPAddr;
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#endif
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int i;
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#ifdef DEBUG
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printf("ifIndex=%lu nextHop=%lx \n", ip_forward.dwForwardIfIndex, ip_forward.dwForwardNextHop);
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#endif
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pIPAddrTable = (MIB_IPADDRTABLE *) malloc(sizeof (MIB_IPADDRTABLE));
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if(pIPAddrTable) {
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if (GetIpAddrTable(pIPAddrTable, &dwSize, 0) == ERROR_INSUFFICIENT_BUFFER) {
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free(pIPAddrTable);
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pIPAddrTable = (MIB_IPADDRTABLE *) malloc(dwSize);
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DWORD dwRetVal = 0;
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unsigned int i = 0;
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ULONG flags = GAA_FLAG_INCLUDE_PREFIX;
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ULONG family = AF_INET;
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LPVOID lpMsgBuf = NULL;
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PIP_ADAPTER_ADDRESSES pAddresses = NULL;
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ULONG outBufLen = 0;
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ULONG Iterations = 0;
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PIP_ADAPTER_ADDRESSES pCurrAddresses = NULL;
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PIP_ADAPTER_UNICAST_ADDRESS pUnicast = NULL;
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PIP_ADAPTER_ANYCAST_ADDRESS pAnycast = NULL;
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PIP_ADAPTER_MULTICAST_ADDRESS pMulticast = NULL;
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IP_ADAPTER_DNS_SERVER_ADDRESS *pDnServer = NULL;
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IP_ADAPTER_PREFIX *pPrefix = NULL;
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outBufLen = 15360;
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do {
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pAddresses = (IP_ADAPTER_ADDRESSES *) HeapAlloc(GetProcessHeap(), 0, outBufLen);
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if (pAddresses == NULL) {
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break;
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}
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dwRetVal = GetAdaptersAddresses(family, flags, NULL, pAddresses, &outBufLen);
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if (dwRetVal == ERROR_BUFFER_OVERFLOW) {
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HeapFree(GetProcessHeap(), 0, pAddresses);
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pAddresses = NULL;
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} else {
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break;
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}
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if(pIPAddrTable) {
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dwRetVal = GetIpAddrTable( pIPAddrTable, &dwSize, 0 );
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Iterations++;
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} while ((dwRetVal == ERROR_BUFFER_OVERFLOW) && (Iterations < 3));
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if (dwRetVal == NO_ERROR) {
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pCurrAddresses = pAddresses;
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while (pCurrAddresses) {
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#ifdef DEBUG
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printf("\tNum Entries: %ld\n", pIPAddrTable->dwNumEntries);
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#endif
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for (i=0; i < (int) pIPAddrTable->dwNumEntries; i++) {
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#ifdef DEBUG
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printf("\n\tInterface Index[%d]:\t%ld\n", i, pIPAddrTable->table[i].dwIndex);
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IPAddr.S_un.S_addr = (u_long) pIPAddrTable->table[i].dwAddr;
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printf("\tIfIndex (IPv4 interface): %u\n", pCurrAddresses->IfIndex);
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printf("\tAdapter name: %s\n", pCurrAddresses->AdapterName);
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pUnicast = pCurrAddresses->FirstUnicastAddress;
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if (pUnicast != NULL) {
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for (i = 0; pUnicast != NULL; i++) {
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IPAddr.S_un.S_addr = (u_long) pUnicast->Address;
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printf("\tIP Address[%d]: \t%s\n", i, inet_ntoa(IPAddr) );
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IPAddr.S_un.S_addr = (u_long) pIPAddrTable->table[i].dwMask;
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printf("\tSubnet Mask[%d]: \t%s\n", i, inet_ntoa(IPAddr) );
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IPAddr.S_un.S_addr = (u_long) pIPAddrTable->table[i].dwBCastAddr;
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printf("\tBroadCast[%d]: \t%s (%ld)\n", i, inet_ntoa(IPAddr), pIPAddrTable->table[i].dwBCastAddr);
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printf("\tReassembly size[%d]:\t%ld\n", i, pIPAddrTable->table[i].dwReasmSize);
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printf("\tType and State[%d]:", i);
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pUnicast = pUnicast->Next;
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}
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printf("\tNumber of Unicast Addresses: %d\n", i);
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}
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pAnycast = pCurrAddresses->FirstAnycastAddress;
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if (pAnycast) {
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for (i = 0; pAnycast != NULL; i++) {
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IPAddr.S_un.S_addr = (u_long) pAnyCast->Address;
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printf("\tAnycast Address[%d]: \t%s\n", i, inet_ntoa(IPAddr) );
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pAnycast = pAnycast->Next;
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}
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printf("\tNumber of Anycast Addresses: %d\n", i);
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}
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pMulticast = pCurrAddresses->FirstMulticastAddress;
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if (pMulticast) {
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for (i = 0; pMulticast != NULL; i++) {
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IPAddr.S_un.S_addr = (u_long) pMultiCast->Address;
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printf("\tMulticast Address[%d]: \t%s\n", i, inet_ntoa(IPAddr) );
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}
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}
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printf("\n");
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#endif
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if (pIPAddrTable->table[i].dwIndex == ip_forward.dwForwardIfIndex) {
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pUnicast = pCurrAddresses->FirstUnicastAddress;
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if (pCurrAddresses->IfIndex == ifbestidx && pUnicast != NULL) {
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SOCKADDR_IN *ipv4 = (SOCKADDR_IN *)(pUnicast->Address.lpSockaddr);
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/* Set the address of this interface to be used */
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struct in_addr mc_if;
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memset(&mc_if, 0, sizeof(mc_if));
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mc_if.s_addr = pIPAddrTable->table[i].dwAddr;
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mc_if.s_addr = ipv4->sin_addr.s_addr;
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if(setsockopt(sudp, IPPROTO_IP, IP_MULTICAST_IF, (const char *)&mc_if, sizeof(mc_if)) < 0) {
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PRINT_SOCKET_ERROR("setsockopt");
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}
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((struct sockaddr_in *)&sockudp_r)->sin_addr.s_addr = pIPAddrTable->table[i].dwAddr;
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((struct sockaddr_in *)&sockudp_r)->sin_addr.s_addr = ipv4->sin_addr.s_addr;
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#ifndef DEBUG
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break;
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#endif
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}
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pCurrAddresses = pCurrAddresses->Next;
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}
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}
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free(pIPAddrTable);
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pIPAddrTable = NULL;
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if (pAddresses != NULL) {
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HeapFree(GetProcessHeap(), 0, pAddresses);
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pAddresses = NULL;
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}
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}
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}
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#endif /* _WIN32 */
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