embedaddon/miniupnpd/miniupnpc/src/listdevices.c - view

File: [ELWIX - Embedded LightWeight unIX -] / embedaddon / miniupnpd / miniupnpc / src / listdevices.c
Revision 1.1.1.1 (vendor branch): download - view: text, annotated - select for diffs - revision graph
Wed Sep 27 11:25:11 2023 UTC (12 months ago) by misho
Branches: miniupnpd, MAIN
CVS tags: v2_3_3p0, HEAD

Version 2.3.3p0

/* $Id: listdevices.c,v 1.1.1.1 2023/09/27 11:25:11 misho Exp $ */ /* Project : miniupnp * Author : Thomas Bernard * Copyright (c) 2013-2015 Thomas Bernard * This software is subject to the conditions detailed in the * LICENCE file provided in this distribution. */ #include <stdio.h> #include <string.h> #include <stdlib.h> #ifdef _WIN32 #include <winsock2.h> #endif /* _WIN32 */ #include "miniupnpc.h" struct upnp_dev_list { struct upnp_dev_list * next; char * descURL; struct UPNPDev * * array; size_t count; size_t allocated_count; }; #define ADD_DEVICE_COUNT_STEP 16 void add_device(struct upnp_dev_list * * list_head, struct UPNPDev * dev) { struct upnp_dev_list * elt; size_t i; if(dev == NULL) return; for(elt = *list_head; elt != NULL; elt = elt->next) { if(strcmp(elt->descURL, dev->descURL) == 0) { for(i = 0; i < elt->count; i++) { if (strcmp(elt->array[i]->st, dev->st) == 0 && strcmp(elt->array[i]->usn, dev->usn) == 0) { return; /* already found */ } } if(elt->count >= elt->allocated_count) { struct UPNPDev * * tmp; elt->allocated_count += ADD_DEVICE_COUNT_STEP; tmp = realloc(elt->array, elt->allocated_count * sizeof(struct UPNPDev *)); if(tmp == NULL) { fprintf(stderr, "Failed to realloc(%p, %lu)\n", elt->array, (unsigned long)(elt->allocated_count * sizeof(struct UPNPDev *))); return; } elt->array = tmp; } elt->array[elt->count++] = dev; return; } } elt = malloc(sizeof(struct upnp_dev_list)); if(elt == NULL) { fprintf(stderr, "Failed to malloc(%lu)\n", (unsigned long)sizeof(struct upnp_dev_list)); return; } elt->next = *list_head; elt->descURL = strdup(dev->descURL); if(elt->descURL == NULL) { fprintf(stderr, "Failed to strdup(%s)\n", dev->descURL); free(elt); return; } elt->allocated_count = ADD_DEVICE_COUNT_STEP; elt->array = malloc(ADD_DEVICE_COUNT_STEP * sizeof(struct UPNPDev *)); if(elt->array == NULL) { fprintf(stderr, "Failed to malloc(%lu)\n", (unsigned long)(ADD_DEVICE_COUNT_STEP * sizeof(struct UPNPDev *))); free(elt->descURL); free(elt); return; } elt->array[0] = dev; elt->count = 1; *list_head = elt; } void free_device(struct upnp_dev_list * elt) { free(elt->descURL); free(elt->array); free(elt); } int main(int argc, char * * argv) { const char * searched_device = NULL; const char * * searched_devices = NULL; const char * multicastif = 0; const char * minissdpdpath = 0; int ipv6 = 0; unsigned char ttl = 2; int error = 0; struct UPNPDev * devlist = 0; struct UPNPDev * dev; struct upnp_dev_list * sorted_list = NULL; struct upnp_dev_list * dev_array; int i; #ifdef _WIN32 WSADATA wsaData; int nResult = WSAStartup(MAKEWORD(2,2), &wsaData); if(nResult != NO_ERROR) { fprintf(stderr, "WSAStartup() failed.\n"); return -1; } #endif for(i = 1; i < argc; i++) { if(strcmp(argv[i], "-6") == 0) ipv6 = 1; else if(strcmp(argv[i], "-d") == 0) { if(++i >= argc) { fprintf(stderr, "%s option needs one argument\n", "-d"); return 1; } searched_device = argv[i]; } else if(strcmp(argv[i], "-t") == 0) { if(++i >= argc) { fprintf(stderr, "%s option needs one argument\n", "-t"); return 1; } ttl = (unsigned char)atoi(argv[i]); } else if(strcmp(argv[i], "-l") == 0) { if(++i >= argc) { fprintf(stderr, "-l option needs at least one argument\n"); return 1; } searched_devices = (const char * *)(argv + i); break; } else if(strcmp(argv[i], "-m") == 0) { if(++i >= argc) { fprintf(stderr, "-m option needs one argument\n"); return 1; } multicastif = argv[i]; } else { printf("usage : %s [options] [-l <device1> <device2> ...]\n", argv[0]); printf("options :\n"); printf(" -6 : use IPv6\n"); printf(" -m address/ifname : network interface to use for multicast\n"); printf(" -d <device string> : search only for this type of device\n"); printf(" -l <device1> <device2> ... : search only for theses types of device\n"); printf(" -t ttl : set multicast TTL. Default value is 2.\n"); printf(" -h : this help\n"); return 1; } } if(searched_device) { printf("searching UPnP device type %s\n", searched_device); devlist = upnpDiscoverDevice(searched_device, 2000, multicastif, minissdpdpath, 0/*localport*/, ipv6, ttl, &error); } else if(searched_devices) { printf("searching UPnP device types :\n"); for(i = 0; searched_devices[i]; i++) printf("\t%s\n", searched_devices[i]); devlist = upnpDiscoverDevices(searched_devices, 2000, multicastif, minissdpdpath, 0/*localport*/, ipv6, ttl, &error, 1); } else { printf("searching all UPnP devices\n"); devlist = upnpDiscoverAll(2000, multicastif, minissdpdpath, 0/*localport*/, ipv6, ttl, &error); } if(devlist) { for(dev = devlist, i = 1; dev != NULL; dev = dev->pNext, i++) { printf("%3d: %-48s\n", i, dev->st); printf(" %s\n", dev->descURL); printf(" %s\n", dev->usn); add_device(&sorted_list, dev); } putchar('\n'); for (dev_array = sorted_list; dev_array != NULL ; dev_array = dev_array->next) { printf("%s :\n", dev_array->descURL); for(i = 0; (unsigned)i < dev_array->count; i++) { printf("%2d: %s\n", i+1, dev_array->array[i]->st); printf(" %s\n", dev_array->array[i]->usn); } putchar('\n'); } freeUPNPDevlist(devlist); while(sorted_list != NULL) { dev_array = sorted_list; sorted_list = sorted_list->next; free_device(dev_array); } } else { printf("no device found.\n"); } return 0; }