/* Copyright 1998 by the Massachusetts Institute of Technology. * Copyright (C) 2008-2013 by Daniel Stenberg * * Permission to use, copy, modify, and distribute this * software and its documentation for any purpose and without * fee is hereby granted, provided that the above copyright * notice appear in all copies and that both that copyright * notice and this permission notice appear in supporting * documentation, and that the name of M.I.T. not be used in * advertising or publicity pertaining to distribution of the * software without specific, written prior permission. * M.I.T. makes no representations about the suitability of * this software for any purpose. It is provided "as is" * without express or implied warranty. */ #include "ares_setup.h" #ifdef HAVE_ARPA_INET_H # include #endif #include "ares.h" #include "ares_data.h" #include "ares_inet_net_pton.h" #include "ares_private.h" int ares_get_servers(ares_channel channel, struct ares_addr_node **servers) { struct ares_addr_node *srvr_head = NULL; struct ares_addr_node *srvr_last = NULL; struct ares_addr_node *srvr_curr; int status = ARES_SUCCESS; int i; if (!channel) return ARES_ENODATA; for (i = 0; i < channel->nservers; i++) { /* Allocate storage for this server node appending it to the list */ srvr_curr = ares_malloc_data(ARES_DATATYPE_ADDR_NODE); if (!srvr_curr) { status = ARES_ENOMEM; break; } if (srvr_last) { srvr_last->next = srvr_curr; } else { srvr_head = srvr_curr; } srvr_last = srvr_curr; /* Fill this server node data */ srvr_curr->family = channel->servers[i].addr.family; if (srvr_curr->family == AF_INET) memcpy(&srvr_curr->addrV4, &channel->servers[i].addr.addrV4, sizeof(srvr_curr->addrV4)); else memcpy(&srvr_curr->addrV6, &channel->servers[i].addr.addrV6, sizeof(srvr_curr->addrV6)); } if (status != ARES_SUCCESS) { if (srvr_head) { ares_free_data(srvr_head); srvr_head = NULL; } } *servers = srvr_head; return status; } int ares_get_servers_ports(ares_channel channel, struct ares_addr_port_node **servers) { struct ares_addr_port_node *srvr_head = NULL; struct ares_addr_port_node *srvr_last = NULL; struct ares_addr_port_node *srvr_curr; int status = ARES_SUCCESS; int i; if (!channel) return ARES_ENODATA; for (i = 0; i < channel->nservers; i++) { /* Allocate storage for this server node appending it to the list */ srvr_curr = ares_malloc_data(ARES_DATATYPE_ADDR_PORT_NODE); if (!srvr_curr) { status = ARES_ENOMEM; break; } if (srvr_last) { srvr_last->next = srvr_curr; } else { srvr_head = srvr_curr; } srvr_last = srvr_curr; /* Fill this server node data */ srvr_curr->family = channel->servers[i].addr.family; srvr_curr->udp_port = ntohs((unsigned short)channel->servers[i].addr.udp_port); srvr_curr->tcp_port = ntohs((unsigned short)channel->servers[i].addr.tcp_port); if (srvr_curr->family == AF_INET) memcpy(&srvr_curr->addrV4, &channel->servers[i].addr.addrV4, sizeof(srvr_curr->addrV4)); else memcpy(&srvr_curr->addrV6, &channel->servers[i].addr.addrV6, sizeof(srvr_curr->addrV6)); } if (status != ARES_SUCCESS) { if (srvr_head) { ares_free_data(srvr_head); srvr_head = NULL; } } *servers = srvr_head; return status; } int ares_set_servers(ares_channel channel, struct ares_addr_node *servers) { struct ares_addr_node *srvr; int num_srvrs = 0; int i; if (ares_library_initialized() != ARES_SUCCESS) return ARES_ENOTINITIALIZED; /* LCOV_EXCL_LINE: n/a on non-WinSock */ if (!channel) return ARES_ENODATA; ares__destroy_servers_state(channel); for (srvr = servers; srvr; srvr = srvr->next) { num_srvrs++; } if (num_srvrs > 0) { /* Allocate storage for servers state */ channel->servers = ares_malloc(num_srvrs * sizeof(struct server_state)); if (!channel->servers) { return ARES_ENOMEM; } channel->nservers = num_srvrs; /* Fill servers state address data */ for (i = 0, srvr = servers; srvr; i++, srvr = srvr->next) { channel->servers[i].addr.family = srvr->family; channel->servers[i].addr.udp_port = 0; channel->servers[i].addr.tcp_port = 0; if (srvr->family == AF_INET) memcpy(&channel->servers[i].addr.addrV4, &srvr->addrV4, sizeof(srvr->addrV4)); else memcpy(&channel->servers[i].addr.addrV6, &srvr->addrV6, sizeof(srvr->addrV6)); } /* Initialize servers state remaining data */ ares__init_servers_state(channel); } return ARES_SUCCESS; } int ares_set_servers_ports(ares_channel channel, struct ares_addr_port_node *servers) { struct ares_addr_port_node *srvr; int num_srvrs = 0; int i; if (ares_library_initialized() != ARES_SUCCESS) return ARES_ENOTINITIALIZED; /* LCOV_EXCL_LINE: n/a on non-WinSock */ if (!channel) return ARES_ENODATA; ares__destroy_servers_state(channel); for (srvr = servers; srvr; srvr = srvr->next) { num_srvrs++; } if (num_srvrs > 0) { /* Allocate storage for servers state */ channel->servers = ares_malloc(num_srvrs * sizeof(struct server_state)); if (!channel->servers) { return ARES_ENOMEM; } channel->nservers = num_srvrs; /* Fill servers state address data */ for (i = 0, srvr = servers; srvr; i++, srvr = srvr->next) { channel->servers[i].addr.family = srvr->family; channel->servers[i].addr.udp_port = htons((unsigned short)srvr->udp_port); channel->servers[i].addr.tcp_port = htons((unsigned short)srvr->tcp_port); if (srvr->family == AF_INET) memcpy(&channel->servers[i].addr.addrV4, &srvr->addrV4, sizeof(srvr->addrV4)); else memcpy(&channel->servers[i].addr.addrV6, &srvr->addrV6, sizeof(srvr->addrV6)); } /* Initialize servers state remaining data */ ares__init_servers_state(channel); } return ARES_SUCCESS; } /* Incomming string format: host[:port][,host[:port]]... */ /* IPv6 addresses with ports require square brackets [fe80::1%lo0]:53 */ static int set_servers_csv(ares_channel channel, const char* _csv, int use_port) { size_t i; char* csv = NULL; char* ptr; char* start_host; int cc = 0; int rv = ARES_SUCCESS; struct ares_addr_port_node *servers = NULL; struct ares_addr_port_node *last = NULL; if (ares_library_initialized() != ARES_SUCCESS) return ARES_ENOTINITIALIZED; /* LCOV_EXCL_LINE: n/a on non-WinSock */ if (!channel) return ARES_ENODATA; ares__destroy_servers_state(channel); i = strlen(_csv); if (i == 0) return ARES_SUCCESS; /* blank all servers */ csv = ares_malloc(i + 2); if (!csv) return ARES_ENOMEM; strcpy(csv, _csv); if (csv[i-1] != ',') { /* make parsing easier by ensuring ending ',' */ csv[i] = ','; csv[i+1] = 0; } start_host = csv; for (ptr = csv; *ptr; ptr++) { if (*ptr == ':') { /* count colons to determine if we have an IPv6 number or IPv4 with port */ cc++; } else if (*ptr == '[') { /* move start_host if an open square bracket is found wrapping an IPv6 address */ start_host = ptr + 1; } else if (*ptr == ',') { char* pp = ptr - 1; char* p = ptr; int port = 0; struct in_addr in4; struct ares_in6_addr in6; struct ares_addr_port_node *s = NULL; *ptr = 0; /* null terminate host:port string */ /* Got an entry..see if the port was specified. */ if (cc > 0) { while (pp > start_host) { /* a single close square bracket followed by a colon, ']:' indicates an IPv6 address with port */ if ((*pp == ']') && (*p == ':')) break; /* found port */ /* a single colon, ':' indicates an IPv4 address with port */ if ((*pp == ':') && (cc == 1)) break; /* found port */ if (!(ISDIGIT(*pp) || (*pp == ':'))) { /* Found end of digits before we found :, so wasn't a port */ /* must allow ':' for IPv6 case of ']:' indicates we found a port */ pp = p = ptr; break; } pp--; p--; } if ((pp != start_host) && ((pp + 1) < ptr)) { /* Found it. Parse over the port number */ /* when an IPv6 address is wrapped with square brackets the port starts at pp + 2 */ if (*pp == ']') p++; /* move p before ':' */ /* p will point to the start of the port */ port = (int)strtol(p, NULL, 10); *pp = 0; /* null terminate host */ } } /* resolve host, try ipv4 first, rslt is in network byte order */ rv = ares_inet_pton(AF_INET, start_host, &in4); if (!rv) { /* Ok, try IPv6 then */ rv = ares_inet_pton(AF_INET6, start_host, &in6); if (!rv) { rv = ARES_EBADSTR; goto out; } /* was ipv6, add new server */ s = ares_malloc(sizeof(*s)); if (!s) { rv = ARES_ENOMEM; goto out; } s->family = AF_INET6; memcpy(&s->addr, &in6, sizeof(struct ares_in6_addr)); } else { /* was ipv4, add new server */ s = ares_malloc(sizeof(*s)); if (!s) { rv = ARES_ENOMEM; goto out; } s->family = AF_INET; memcpy(&s->addr, &in4, sizeof(struct in_addr)); } if (s) { s->udp_port = use_port ? port: 0; s->tcp_port = s->udp_port; s->next = NULL; if (last) { last->next = s; /* need to move last to maintain the linked list */ last = last->next; } else { servers = s; last = s; } } /* Set up for next one */ start_host = ptr + 1; cc = 0; } } rv = ares_set_servers_ports(channel, servers); out: if (csv) ares_free(csv); while (servers) { struct ares_addr_port_node *s = servers; servers = servers->next; ares_free(s); } return rv; } int ares_set_servers_csv(ares_channel channel, const char* _csv) { return set_servers_csv(channel, _csv, FALSE); } int ares_set_servers_ports_csv(ares_channel channel, const char* _csv) { return set_servers_csv(channel, _csv, TRUE); }