#include #include #include #include #include #include "netifd.h" #include "interface.h" #include "proto.h" #include "system.h" struct static_proto_state { struct interface_proto_state proto; struct uci_section *section; struct interface *iface; }; static bool split_netmask(char *str, unsigned int *netmask) { char *delim, *err = NULL; delim = strchr(str, '/'); if (delim) { *(delim++) = 0; *netmask = strtoul(delim, &err, 10); if (err && *err) return false; } return true; } static int parse_ip_and_netmask(int af, const char *str, void *addr, unsigned int *netmask) { char *astr = alloca(strlen(str) + 1); strcpy(astr, str); if (!split_netmask(astr, netmask)) return 0; if (af == AF_INET6) { if (*netmask > 128) return 0; } else { if (*netmask > 32) return 0; } return inet_pton(af, str, addr); } static bool parse_addr(struct static_proto_state *state, const char *str, bool v6, int mask) { struct device_addr *addr; int af = v6 ? AF_INET6 : AF_INET; addr = calloc(1, sizeof(*addr)); addr->flags = v6 ? DEVADDR_INET6 : DEVADDR_INET4; addr->ctx = state; addr->mask = mask; if (!parse_ip_and_netmask(af, str, &addr->addr, &addr->mask)) { interface_add_error(state->iface, "proto-static", "INVALID_ADDRESS", &str, 1); free(addr); return false; } interface_add_address(state->iface, addr); return true; } static int parse_address_option(struct static_proto_state *state, struct uci_option *o, bool v6, int netmask) { struct uci_element *e; int n_addr = 0; if (o->type == UCI_TYPE_STRING) { n_addr++; if (!parse_addr(state, o->v.string, v6, netmask)) return -1; } else { uci_foreach_element(&o->v.list, e) { n_addr++; if (!parse_addr(state, e->name, v6, netmask)) return -1; } } return n_addr; } static bool parse_gateway_option(struct static_proto_state *state, struct uci_option *o, bool v6) { struct device_route *route; const char *str = o->v.string; int af = v6 ? AF_INET6 : AF_INET; route = calloc(1, sizeof(*route)); if (!inet_pton(af, str, &route->nexthop)) { interface_add_error(state->iface, "proto-static", "INVALID_GATEWAY", &str, 1); free(route); return false; } route->mask = 0; route->flags = DEVADDR_DEVICE | (v6 ? DEVADDR_INET6 : DEVADDR_INET4); interface_add_route(state->iface, route); return true; } enum { OPT_IPADDR, OPT_IP6ADDR, OPT_NETMASK, OPT_GATEWAY, OPT_IP6GW, __OPT_MAX, }; static const struct uci_parse_option opts[__OPT_MAX] = { [OPT_IPADDR] = { .name = "ipaddr" }, [OPT_IP6ADDR] = { .name = "ip6addr" }, [OPT_NETMASK] = { .name = "netmask", .type = UCI_TYPE_STRING }, [OPT_GATEWAY] = { .name = "gateway", .type = UCI_TYPE_STRING }, [OPT_IP6GW] = { .name = "ip6gw", .type = UCI_TYPE_STRING }, }; static bool static_proto_setup(struct static_proto_state *state) { struct uci_option *tb[__OPT_MAX]; struct in_addr ina; const char *error; int netmask = 32; int n_v4 = 0, n_v6 = 0; uci_parse_section(state->section, opts, __OPT_MAX, tb); if (tb[OPT_NETMASK]) { if (!inet_aton(tb[OPT_NETMASK]->v.string, &ina)) { error = "INVALID_NETMASK"; goto error; } netmask = 32 - fls(~(ntohl(ina.s_addr))); } if (tb[OPT_IPADDR]) n_v4 = parse_address_option(state, tb[OPT_IPADDR], false, netmask); if (tb[OPT_IP6ADDR]) n_v6 = parse_address_option(state, tb[OPT_IP6ADDR], true, netmask); if (!n_v4 && !n_v6) { error = "NO_ADDRESS"; goto error; } if (n_v4 < 0 || n_v6 < 0) goto out; if (n_v4 && tb[OPT_GATEWAY]) { if (!parse_gateway_option(state, tb[OPT_GATEWAY], false)) goto out; } if (n_v6 && tb[OPT_IP6GW]) { if (!parse_gateway_option(state, tb[OPT_IP6GW], true)) goto out; } return true; error: interface_add_error(state->iface, "proto-static", error, NULL, 0); out: return false; } static int static_handler(struct interface_proto_state *proto, enum interface_proto_cmd cmd, bool force) { struct static_proto_state *state; int ret = 0; state = container_of(proto, struct static_proto_state, proto); switch (cmd) { case PROTO_CMD_SETUP: if (static_proto_setup(state)) break; /* fall through */ case PROTO_CMD_TEARDOWN: interface_del_ctx_addr(state->iface, state); break; } return ret; } static void static_free(struct interface_proto_state *proto) { struct static_proto_state *state; state = container_of(proto, struct static_proto_state, proto); free(state); } struct interface_proto_state * static_attach(const struct proto_handler *h, struct interface *iface, struct uci_section *s) { struct static_proto_state *state; state = calloc(1, sizeof(*state)); state->iface = iface; state->section = s; state->proto.free = static_free; state->proto.handler = static_handler; state->proto.flags = PROTO_FLAG_IMMEDIATE; return &state->proto; } static struct proto_handler static_proto = { .name = "static", .attach = static_attach, }; static void __init static_proto_init(void) { add_proto_handler(&static_proto); }