/* $Id$ */ /** @file host.cpp Functions related to getting host specific data (IPs). */ #ifdef ENABLE_NETWORK #include "../../stdafx.h" #include "../../debug.h" #include "os_abstraction.h" #include "../../core/alloc_func.hpp" /** * Internal implementation for finding the broadcast IPs. * This function is implemented multiple times for multiple targets. * @param broadcast the list of broadcasts to write into. * @param limit the maximum number of items to add. */ static int NetworkFindBroadcastIPsInternal(uint32 *broadcast, int limit); #if defined(PSP) static int NetworkFindBroadcastIPsInternal(uint32 *broadcast, int limit) // PSP implementation { return 0; } #elif defined(BEOS_NET_SERVER) /* doesn't have neither getifaddrs or net/if.h */ /* Based on Andrew Bachmann's netstat+.c. Big thanks to him! */ int _netstat(int fd, char **output, int verbose); int seek_past_header(char **pos, const char *header) { char *new_pos = strstr(*pos, header); if (new_pos == 0) { return B_ERROR; } *pos += strlen(header) + new_pos - *pos + 1; return B_OK; } static int NetworkFindBroadcastIPsInternal(uint32 *broadcast, int limit) // BEOS implementation { int sock = socket(AF_INET, SOCK_DGRAM, 0); if (sock < 0) { DEBUG(net, 0, "[core] error creating socket"); return 0; } char *output_pointer = NULL; int output_length = _netstat(sock, &output_pointer, 1); if (output_length < 0) { DEBUG(net, 0, "[core] error running _netstat"); return 0; } int index; char **output = &output_pointer; if (seek_past_header(output, "IP Interfaces:") == B_OK) { while (index != limit) { uint32 n, fields, read; uint8 i1, i2, i3, i4, j1, j2, j3, j4; struct in_addr inaddr; uint32 ip; uint32 netmask; fields = sscanf(*output, "%u: %hhu.%hhu.%hhu.%hhu, netmask %hhu.%hhu.%hhu.%hhu%n", &n, &i1, &i2, &i3, &i4, &j1, &j2, &j3, &j4, &read); read += 1; if (fields != 9) { break; } ip = (uint32)i1 << 24 | (uint32)i2 << 16 | (uint32)i3 << 8 | (uint32)i4; netmask = (uint32)j1 << 24 | (uint32)j2 << 16 | (uint32)j3 << 8 | (uint32)j4; if (ip != INADDR_LOOPBACK && ip != INADDR_ANY) { inaddr.s_addr = htonl(ip | ~netmask); broadcast[index] = inaddr.s_addr; index++; } if (read < 0) { break; } *output += read; } closesocket(sock); } return index; } #elif defined(HAVE_GETIFADDRS) static int NetworkFindBroadcastIPsInternal(uint32 *broadcast, int limit) // GETIFADDRS implementation { struct ifaddrs *ifap, *ifa; if (getifaddrs(&ifap) != 0) return 0; int index = 0; for (ifa = ifap; ifa != NULL && index != limit; ifa = ifa->ifa_next) { if (!(ifa->ifa_flags & IFF_BROADCAST)) continue; if (ifa->ifa_broadaddr == NULL) continue; if (ifa->ifa_broadaddr->sa_family != AF_INET) continue; broadcast[index] = ((struct sockaddr_in*)ifa->ifa_broadaddr)->sin_addr.s_addr; index++; } freeifaddrs(ifap); return index; } #elif defined(WIN32) static int NetworkFindBroadcastIPsInternal(uint32 *broadcast, int limit) // Win32 implementation { SOCKET sock = socket(AF_INET, SOCK_DGRAM, 0); if (sock == INVALID_SOCKET) return 0; DWORD len = 0; INTERFACE_INFO *ifo = AllocaM(INTERFACE_INFO, limit); memset(ifo, 0, limit * sizeof(*ifo)); if ((WSAIoctl(sock, SIO_GET_INTERFACE_LIST, NULL, 0, &ifo[0], limit * sizeof(*ifo), &len, NULL, NULL)) != 0) { closesocket(sock); return 0; } int index = 0; for (uint j = 0; j < len / sizeof(*ifo) && index != limit; j++) { if (ifo[j].iiFlags & IFF_LOOPBACK) continue; if (!(ifo[j].iiFlags & IFF_BROADCAST)) continue; /* iiBroadcast is unusable, because it always seems to be set to 255.255.255.255. */ broadcast[index++] = ifo[j].iiAddress.AddressIn.sin_addr.s_addr | ~ifo[j].iiNetmask.AddressIn.sin_addr.s_addr; } closesocket(sock); return index; } #else /* not HAVE_GETIFADDRS */ #include "../../string_func.h" static int NetworkFindBroadcastIPsInternal(uint32 *broadcast, int limit) // !GETIFADDRS implementation { SOCKET sock = socket(AF_INET, SOCK_DGRAM, 0); if (sock == INVALID_SOCKET) return 0; char buf[4 * 1024]; // Arbitrary buffer size struct ifconf ifconf; ifconf.ifc_len = sizeof(buf); ifconf.ifc_buf = buf; if (ioctl(sock, SIOCGIFCONF, &ifconf) == -1) { closesocket(sock); return 0; } const char *buf_end = buf + ifconf.ifc_len; int index = 0; for (const char *p = buf; p < buf_end && index != limit;) { const struct ifreq *req = (const struct ifreq*)p; if (req->ifr_addr.sa_family == AF_INET) { struct ifreq r; strecpy(r.ifr_name, req->ifr_name, lastof(r.ifr_name)); if (ioctl(sock, SIOCGIFFLAGS, &r) != -1 && r.ifr_flags & IFF_BROADCAST && ioctl(sock, SIOCGIFBRDADDR, &r) != -1) { broadcast[index++] = ((struct sockaddr_in*)&r.ifr_broadaddr)->sin_addr.s_addr; } } p += sizeof(struct ifreq); #if defined(AF_LINK) && !defined(SUNOS) p += req->ifr_addr.sa_len - sizeof(struct sockaddr); #endif } closesocket(sock); return index; } #endif /* all NetworkFindBroadcastIPsInternals */ /** * Find the IPs to broadcast. * @param broadcast the list of broadcasts to write into. * @param limit the maximum number of items to add. */ void NetworkFindBroadcastIPs(uint32 *broadcast, int limit) { int count = NetworkFindBroadcastIPsInternal(broadcast, limit); /* Make sure the list is terminated. */ broadcast[count] = 0; /* Now display to the debug all the detected ips */ DEBUG(net, 3, "Detected broadcast addresses:"); for (int i = 0; broadcast[i] != 0; i++) { DEBUG(net, 3, "%d) %s", i, inet_ntoa(*(struct in_addr *)&broadcast[i])); // inet_ntoa(inaddr)); } } /** * Resolve a hostname to an ip. * @param hsotname the hostname to resolve * @return the IP belonging to that hostname, or 0 on failure. */ uint32 NetworkResolveHost(const char *hostname) { /* Is this an IP address? */ in_addr_t ip = inet_addr(hostname); if (ip != INADDR_NONE) return ip; /* No, try to resolve the name */ struct in_addr addr; #if !defined(PSP) struct hostent *he = gethostbyname(hostname); if (he == NULL) { DEBUG(net, 0, "[NET] Cannot resolve %s", hostname); return 0; } addr = *(struct in_addr *)he->h_addr_list[0]; #else int rid = -1; char buf[1024]; /* Create a resolver */ if (sceNetResolverCreate(&rid, buf, sizeof(buf)) < 0) { DEBUG(net, 0, "[NET] Error connecting resolver"); return 0; } /* Try to resolve the name */ if (sceNetResolverStartNtoA(rid, hostname, &addr, 2, 3) < 0) { DEBUG(net, 0, "[NET] Cannot resolve %s", hostname); sceNetResolverDelete(rid); return 0; } sceNetResolverDelete(rid); #endif /* PSP */ DEBUG(net, 1, "[NET] Resolved %s to %s", hostname, inet_ntoa(addr)); ip = addr.s_addr; return ip; } #endif /* ENABLE_NETWORK */