#include #include #include #include #include #include #include "internal.h" #include #include #include "obj.h" static int nftnl_obj_synproxy_set(struct nftnl_obj *e, uint16_t type, const void *data, uint32_t data_len) { struct nftnl_obj_synproxy *synproxy = nftnl_obj_data(e); switch (type) { case NFTNL_OBJ_SYNPROXY_MSS: memcpy(&synproxy->mss, data, data_len); break; case NFTNL_OBJ_SYNPROXY_WSCALE: memcpy(&synproxy->wscale, data, data_len); break; case NFTNL_OBJ_SYNPROXY_FLAGS: memcpy(&synproxy->flags, data, data_len); break; } return 0; } static const void *nftnl_obj_synproxy_get(const struct nftnl_obj *e, uint16_t type, uint32_t *data_len) { struct nftnl_obj_synproxy *synproxy = nftnl_obj_data(e); switch (type) { case NFTNL_OBJ_SYNPROXY_MSS: *data_len = sizeof(synproxy->mss); return &synproxy->mss; case NFTNL_OBJ_SYNPROXY_WSCALE: *data_len = sizeof(synproxy->wscale); return &synproxy->wscale; case NFTNL_OBJ_SYNPROXY_FLAGS: *data_len = sizeof(synproxy->flags); return &synproxy->flags; } return NULL; } static int nftnl_obj_synproxy_cb(const struct nlattr *attr, void *data) { int type = mnl_attr_get_type(attr); const struct nlattr **tb = data; if (mnl_attr_type_valid(attr, NFTA_SYNPROXY_MAX) < 0) return MNL_CB_OK; switch (type) { case NFTA_SYNPROXY_MSS: if (mnl_attr_validate(attr, MNL_TYPE_U16) < 0) abi_breakage(); break; case NFTA_SYNPROXY_WSCALE: if (mnl_attr_validate(attr, MNL_TYPE_U8) < 0) abi_breakage(); break; case NFTA_SYNPROXY_FLAGS: if (mnl_attr_validate(attr, MNL_TYPE_U32) < 0) abi_breakage(); break; } tb[type] = attr; return MNL_CB_OK; } static void nftnl_obj_synproxy_build(struct nlmsghdr *nlh, const struct nftnl_obj *e) { struct nftnl_obj_synproxy *synproxy = nftnl_obj_data(e); if (e->flags & (1 << NFTNL_OBJ_SYNPROXY_MSS)) mnl_attr_put_u16(nlh, NFTA_SYNPROXY_MSS, htons(synproxy->mss)); if (e->flags & (1 << NFTNL_OBJ_SYNPROXY_WSCALE)) mnl_attr_put_u8(nlh, NFTA_SYNPROXY_WSCALE, synproxy->wscale); if (e->flags & (1 << NFTNL_OBJ_SYNPROXY_FLAGS)) mnl_attr_put_u32(nlh, NFTA_SYNPROXY_FLAGS, htonl(synproxy->flags)); } static int nftnl_obj_synproxy_parse(struct nftnl_obj *e, struct nlattr *attr) { struct nftnl_obj_synproxy *synproxy = nftnl_obj_data(e); struct nlattr *tb[NFTA_SYNPROXY_MAX + 1] = {}; if (mnl_attr_parse_nested(attr, nftnl_obj_synproxy_cb, tb) < 0) return -1; if (tb[NFTA_SYNPROXY_MSS]) { synproxy->mss = ntohs(mnl_attr_get_u16(tb[NFTA_SYNPROXY_MSS])); e->flags |= (1 << NFTNL_OBJ_SYNPROXY_MSS); } if (tb[NFTA_SYNPROXY_WSCALE]) { synproxy->wscale = mnl_attr_get_u8(tb[NFTA_SYNPROXY_WSCALE]); e->flags |= (1 << NFTNL_OBJ_SYNPROXY_WSCALE); } if (tb[NFTA_SYNPROXY_FLAGS]) { synproxy->flags = ntohl(mnl_attr_get_u32(tb[NFTA_SYNPROXY_FLAGS])); e->flags |= (1 << NFTNL_OBJ_SYNPROXY_FLAGS); } return 0; } static int nftnl_obj_synproxy_snprintf(char *buf, size_t len, uint32_t flags, const struct nftnl_obj *e) { struct nftnl_obj_synproxy *synproxy = nftnl_obj_data(e); int ret, offset = 0; if (e->flags & (1 << NFTNL_OBJ_SYNPROXY_MSS) && e->flags & (1 << NFTNL_OBJ_SYNPROXY_WSCALE)) { ret = snprintf(buf, len, "mss %u wscale %u ", synproxy->mss, synproxy->wscale); SNPRINTF_BUFFER_SIZE(ret, len, offset); } return offset; } static struct attr_policy obj_synproxy_attr_policy[__NFTNL_OBJ_SYNPROXY_MAX] = { [NFTNL_OBJ_SYNPROXY_MSS] = { .maxlen = sizeof(uint16_t) }, [NFTNL_OBJ_SYNPROXY_WSCALE] = { .maxlen = sizeof(uint8_t) }, [NFTNL_OBJ_SYNPROXY_FLAGS] = { .maxlen = sizeof(uint32_t) }, }; struct obj_ops obj_ops_synproxy = { .name = "synproxy", .type = NFT_OBJECT_SYNPROXY, .alloc_len = sizeof(struct nftnl_obj_synproxy), .nftnl_max_attr = __NFTNL_OBJ_SYNPROXY_MAX - 1, .attr_policy = obj_synproxy_attr_policy, .set = nftnl_obj_synproxy_set, .get = nftnl_obj_synproxy_get, .parse = nftnl_obj_synproxy_parse, .build = nftnl_obj_synproxy_build, .output = nftnl_obj_synproxy_snprintf, };