/* SPDX-License-Identifier: LGPL-2.1-only */ /* * lib/netfilter/exp_obj.c Conntrack Expectation Object * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation version 2.1 * of the License. * * Copyright (c) 2003-2008 Thomas Graf * Copyright (c) 2007 Philip Craig * Copyright (c) 2007 Secure Computing Corporation * Copyright (c) 2012 Rich Fought */ #include #include #include #include #include #include #include #include // The 32-bit attribute mask in the common object header isn't // big enough to handle all attributes of an expectation. So // we'll for sure specify optional attributes + parent attributes // that are required for valid object comparison. Comparison of // these parent attributes will include nested attributes. /** @cond SKIP */ #define EXP_ATTR_FAMILY (1UL << 0) // 8-bit #define EXP_ATTR_TIMEOUT (1UL << 1) // 32-bit #define EXP_ATTR_ID (1UL << 2) // 32-bit #define EXP_ATTR_HELPER_NAME (1UL << 3) // string #define EXP_ATTR_ZONE (1UL << 4) // 16-bit #define EXP_ATTR_FLAGS (1UL << 5) // 32-bit #define EXP_ATTR_CLASS (1UL << 6) // 32-bit #define EXP_ATTR_FN (1UL << 7) // String // Tuples #define EXP_ATTR_EXPECT_IP_SRC (1UL << 8) #define EXP_ATTR_EXPECT_IP_DST (1UL << 9) #define EXP_ATTR_EXPECT_L4PROTO_NUM (1UL << 10) #define EXP_ATTR_EXPECT_L4PROTO_PORTS (1UL << 11) #define EXP_ATTR_EXPECT_L4PROTO_ICMP (1UL << 12) #define EXP_ATTR_MASTER_IP_SRC (1UL << 13) #define EXP_ATTR_MASTER_IP_DST (1UL << 14) #define EXP_ATTR_MASTER_L4PROTO_NUM (1UL << 15) #define EXP_ATTR_MASTER_L4PROTO_PORTS (1UL << 16) #define EXP_ATTR_MASTER_L4PROTO_ICMP (1UL << 17) #define EXP_ATTR_MASK_IP_SRC (1UL << 18) #define EXP_ATTR_MASK_IP_DST (1UL << 19) #define EXP_ATTR_MASK_L4PROTO_NUM (1UL << 20) #define EXP_ATTR_MASK_L4PROTO_PORTS (1UL << 21) #define EXP_ATTR_MASK_L4PROTO_ICMP (1UL << 22) #define EXP_ATTR_NAT_IP_SRC (1UL << 23) #define EXP_ATTR_NAT_IP_DST (1UL << 24) #define EXP_ATTR_NAT_L4PROTO_NUM (1UL << 25) #define EXP_ATTR_NAT_L4PROTO_PORTS (1UL << 26) #define EXP_ATTR_NAT_L4PROTO_ICMP (1UL << 27) #define EXP_ATTR_NAT_DIR (1UL << 28) /** @endcond */ static void exp_free_data(struct nl_object *c) { struct nfnl_exp *exp = (struct nfnl_exp *) c; if (exp == NULL) return; nl_addr_put(exp->exp_expect.src); nl_addr_put(exp->exp_expect.dst); nl_addr_put(exp->exp_master.src); nl_addr_put(exp->exp_master.dst); nl_addr_put(exp->exp_mask.src); nl_addr_put(exp->exp_mask.dst); nl_addr_put(exp->exp_nat.src); nl_addr_put(exp->exp_nat.dst); free(exp->exp_fn); free(exp->exp_helper_name); } static int exp_clone(struct nl_object *_dst, struct nl_object *_src) { struct nfnl_exp *dst = (struct nfnl_exp *) _dst; struct nfnl_exp *src = (struct nfnl_exp *) _src; struct nl_addr *addr; // Expectation if (src->exp_expect.src) { addr = nl_addr_clone(src->exp_expect.src); if (!addr) return -NLE_NOMEM; dst->exp_expect.src = addr; } if (src->exp_expect.dst) { addr = nl_addr_clone(src->exp_expect.dst); if (!addr) return -NLE_NOMEM; dst->exp_expect.dst = addr; } // Master CT if (src->exp_master.src) { addr = nl_addr_clone(src->exp_master.src); if (!addr) return -NLE_NOMEM; dst->exp_master.src = addr; } if (src->exp_master.dst) { addr = nl_addr_clone(src->exp_master.dst); if (!addr) return -NLE_NOMEM; dst->exp_master.dst = addr; } // Mask if (src->exp_mask.src) { addr = nl_addr_clone(src->exp_mask.src); if (!addr) return -NLE_NOMEM; dst->exp_mask.src = addr; } if (src->exp_mask.dst) { addr = nl_addr_clone(src->exp_mask.dst); if (!addr) return -NLE_NOMEM; dst->exp_mask.dst = addr; } // NAT if (src->exp_nat.src) { addr = nl_addr_clone(src->exp_nat.src); if (!addr) return -NLE_NOMEM; dst->exp_nat.src = addr; } if (src->exp_nat.dst) { addr = nl_addr_clone(src->exp_nat.dst); if (!addr) return -NLE_NOMEM; dst->exp_nat.dst = addr; } if (src->exp_fn) dst->exp_fn = strdup(src->exp_fn); if (src->exp_helper_name) dst->exp_helper_name = strdup(src->exp_helper_name); return 0; } static void dump_addr(struct nl_dump_params *p, struct nl_addr *addr, int port) { char buf[64]; if (addr) nl_dump(p, "%s", nl_addr2str(addr, buf, sizeof(buf))); if (port) nl_dump(p, ":%u ", port); else if (addr) nl_dump(p, " "); } static void dump_icmp(struct nl_dump_params *p, struct nfnl_exp *exp, int tuple) { if (nfnl_exp_test_icmp(exp, tuple)) { nl_dump(p, "icmp type %d ", nfnl_exp_get_icmp_type(exp, tuple)); nl_dump(p, "code %d ", nfnl_exp_get_icmp_code(exp, tuple)); nl_dump(p, "id %d ", nfnl_exp_get_icmp_id(exp, tuple)); } } static void exp_dump_tuples(struct nfnl_exp *exp, struct nl_dump_params *p) { struct nl_addr *tuple_src, *tuple_dst; int tuple_sport, tuple_dport; int i = 0; char buf[64]; for (i = NFNL_EXP_TUPLE_EXPECT; i < NFNL_EXP_TUPLE_MAX; i++) { tuple_src = NULL; tuple_dst = NULL; tuple_sport = 0; tuple_dport = 0; // Test needed for NAT case if (nfnl_exp_test_src(exp, i)) tuple_src = nfnl_exp_get_src(exp, i); if (nfnl_exp_test_dst(exp, i)) tuple_dst = nfnl_exp_get_dst(exp, i); // Don't have tests for individual ports/types/codes/ids, if (nfnl_exp_test_l4protonum(exp, i)) { nl_dump(p, "%s ", nl_ip_proto2str(nfnl_exp_get_l4protonum(exp, i), buf, sizeof(buf))); } if (nfnl_exp_test_ports(exp, i)) { tuple_sport = nfnl_exp_get_src_port(exp, i); tuple_dport = nfnl_exp_get_dst_port(exp, i); } dump_addr(p, tuple_src, tuple_sport); dump_addr(p, tuple_dst, tuple_dport); dump_icmp(p, exp, 0); } if (nfnl_exp_test_nat_dir(exp)) nl_dump(p, "nat dir %s ", exp->exp_nat_dir); } /* FIXME Compatible with /proc/net/nf_conntrack */ static void exp_dump_line(struct nl_object *a, struct nl_dump_params *p) { struct nfnl_exp *exp = (struct nfnl_exp *) a; nl_new_line(p); exp_dump_tuples(exp, p); nl_dump(p, "\n"); } static void exp_dump_details(struct nl_object *a, struct nl_dump_params *p) { struct nfnl_exp *exp = (struct nfnl_exp *) a; char buf[64]; int fp = 0; exp_dump_line(a, p); nl_dump(p, " id 0x%x ", exp->exp_id); nl_dump_line(p, "family %s ", nl_af2str(exp->exp_family, buf, sizeof(buf))); if (nfnl_exp_test_timeout(exp)) { uint64_t timeout_ms = nfnl_exp_get_timeout(exp) * 1000UL; nl_dump(p, "timeout %s ", nl_msec2str(timeout_ms, buf, sizeof(buf))); } if (nfnl_exp_test_helper_name(exp)) nl_dump(p, "helper %s ", exp->exp_helper_name); if (nfnl_exp_test_fn(exp)) nl_dump(p, "fn %s ", exp->exp_fn); if (nfnl_exp_test_class(exp)) nl_dump(p, "class %u ", nfnl_exp_get_class(exp)); if (nfnl_exp_test_zone(exp)) nl_dump(p, "zone %u ", nfnl_exp_get_zone(exp)); if (nfnl_exp_test_flags(exp)) nl_dump(p, "<"); #define PRINT_FLAG(str) \ { nl_dump(p, "%s%s", fp++ ? "," : "", (str)); } if (exp->exp_flags & NF_CT_EXPECT_PERMANENT) PRINT_FLAG("PERMANENT"); if (exp->exp_flags & NF_CT_EXPECT_INACTIVE) PRINT_FLAG("INACTIVE"); if (exp->exp_flags & NF_CT_EXPECT_USERSPACE) PRINT_FLAG("USERSPACE"); #undef PRINT_FLAG if (nfnl_exp_test_flags(exp)) nl_dump(p, ">"); nl_dump(p, "\n"); } static int exp_cmp_l4proto_ports (union nfnl_exp_protodata *a, union nfnl_exp_protodata *b) { // Must return 0 for match, 1 for mismatch int d = 0; d = ( (a->port.src != b->port.src) || (a->port.dst != b->port.dst) ); return d; } static int exp_cmp_l4proto_icmp (union nfnl_exp_protodata *a, union nfnl_exp_protodata *b) { // Must return 0 for match, 1 for mismatch int d = 0; d = ( (a->icmp.code != b->icmp.code) || (a->icmp.type != b->icmp.type) || (a->icmp.id != b->icmp.id) ); return d; } static uint64_t exp_compare(struct nl_object *_a, struct nl_object *_b, uint64_t attrs, int flags) { struct nfnl_exp *a = (struct nfnl_exp *) _a; struct nfnl_exp *b = (struct nfnl_exp *) _b; uint64_t diff = 0; #define EXP_DIFF(ATTR, EXPR) ATTR_DIFF(attrs, EXP_ATTR_##ATTR, a, b, EXPR) #define EXP_DIFF_VAL(ATTR, FIELD) EXP_DIFF(ATTR, a->FIELD != b->FIELD) #define EXP_DIFF_STRING(ATTR, FIELD) EXP_DIFF(ATTR, (strcmp(a->FIELD, b->FIELD) != 0)) #define EXP_DIFF_ADDR(ATTR, FIELD) \ ((flags & LOOSE_COMPARISON) \ ? EXP_DIFF(ATTR, nl_addr_cmp_prefix(a->FIELD, b->FIELD)) \ : EXP_DIFF(ATTR, nl_addr_cmp(a->FIELD, b->FIELD))) #define EXP_DIFF_L4PROTO_PORTS(ATTR, FIELD) \ EXP_DIFF(ATTR, exp_cmp_l4proto_ports(&(a->FIELD), &(b->FIELD))) #define EXP_DIFF_L4PROTO_ICMP(ATTR, FIELD) \ EXP_DIFF(ATTR, exp_cmp_l4proto_icmp(&(a->FIELD), &(b->FIELD))) diff |= EXP_DIFF_VAL(FAMILY, exp_family); diff |= EXP_DIFF_VAL(TIMEOUT, exp_timeout); diff |= EXP_DIFF_VAL(ID, exp_id); diff |= EXP_DIFF_VAL(ZONE, exp_zone); diff |= EXP_DIFF_VAL(CLASS, exp_class); diff |= EXP_DIFF_VAL(FLAGS, exp_flags); diff |= EXP_DIFF_VAL(NAT_DIR, exp_nat_dir); diff |= EXP_DIFF_STRING(FN, exp_fn); diff |= EXP_DIFF_STRING(HELPER_NAME, exp_helper_name); diff |= EXP_DIFF_ADDR(EXPECT_IP_SRC, exp_expect.src); diff |= EXP_DIFF_ADDR(EXPECT_IP_DST, exp_expect.dst); diff |= EXP_DIFF_VAL(EXPECT_L4PROTO_NUM, exp_expect.proto.l4protonum); diff |= EXP_DIFF_L4PROTO_PORTS(EXPECT_L4PROTO_PORTS, exp_expect.proto.l4protodata); diff |= EXP_DIFF_L4PROTO_ICMP(EXPECT_L4PROTO_ICMP, exp_expect.proto.l4protodata); diff |= EXP_DIFF_ADDR(MASTER_IP_SRC, exp_master.src); diff |= EXP_DIFF_ADDR(MASTER_IP_DST, exp_master.dst); diff |= EXP_DIFF_VAL(MASTER_L4PROTO_NUM, exp_master.proto.l4protonum); diff |= EXP_DIFF_L4PROTO_PORTS(MASTER_L4PROTO_PORTS, exp_master.proto.l4protodata); diff |= EXP_DIFF_L4PROTO_ICMP(MASTER_L4PROTO_ICMP, exp_master.proto.l4protodata); diff |= EXP_DIFF_ADDR(MASK_IP_SRC, exp_mask.src); diff |= EXP_DIFF_ADDR(MASK_IP_DST, exp_mask.dst); diff |= EXP_DIFF_VAL(MASK_L4PROTO_NUM, exp_mask.proto.l4protonum); diff |= EXP_DIFF_L4PROTO_PORTS(MASK_L4PROTO_PORTS, exp_mask.proto.l4protodata); diff |= EXP_DIFF_L4PROTO_ICMP(MASK_L4PROTO_ICMP, exp_mask.proto.l4protodata); diff |= EXP_DIFF_ADDR(NAT_IP_SRC, exp_nat.src); diff |= EXP_DIFF_ADDR(NAT_IP_DST, exp_nat.dst); diff |= EXP_DIFF_VAL(NAT_L4PROTO_NUM, exp_nat.proto.l4protonum); diff |= EXP_DIFF_L4PROTO_PORTS(NAT_L4PROTO_PORTS, exp_nat.proto.l4protodata); diff |= EXP_DIFF_L4PROTO_ICMP(NAT_L4PROTO_ICMP, exp_nat.proto.l4protodata); #undef EXP_DIFF #undef EXP_DIFF_VAL #undef EXP_DIFF_STRING #undef EXP_DIFF_ADDR #undef EXP_DIFF_L4PROTO_PORTS #undef EXP_DIFF_L4PROTO_ICMP return diff; } // CLI arguments? static const struct trans_tbl exp_attrs[] = { __ADD(EXP_ATTR_FAMILY, family), __ADD(EXP_ATTR_TIMEOUT, timeout), __ADD(EXP_ATTR_ID, id), __ADD(EXP_ATTR_HELPER_NAME, helpername), __ADD(EXP_ATTR_ZONE, zone), __ADD(EXP_ATTR_CLASS, class), __ADD(EXP_ATTR_FLAGS, flags), __ADD(EXP_ATTR_FN, function), __ADD(EXP_ATTR_EXPECT_IP_SRC, expectipsrc), __ADD(EXP_ATTR_EXPECT_IP_DST, expectipdst), __ADD(EXP_ATTR_EXPECT_L4PROTO_NUM, expectprotonum), __ADD(EXP_ATTR_EXPECT_L4PROTO_PORTS, expectports), __ADD(EXP_ATTR_EXPECT_L4PROTO_ICMP, expecticmp), __ADD(EXP_ATTR_MASTER_IP_SRC, masteripsrc), __ADD(EXP_ATTR_MASTER_IP_DST, masteripdst), __ADD(EXP_ATTR_MASTER_L4PROTO_NUM, masterprotonum), __ADD(EXP_ATTR_MASTER_L4PROTO_PORTS, masterports), __ADD(EXP_ATTR_MASTER_L4PROTO_ICMP, mastericmp), __ADD(EXP_ATTR_MASK_IP_SRC, maskipsrc), __ADD(EXP_ATTR_MASK_IP_DST, maskipdst), __ADD(EXP_ATTR_MASK_L4PROTO_NUM, maskprotonum), __ADD(EXP_ATTR_MASK_L4PROTO_PORTS, maskports), __ADD(EXP_ATTR_MASK_L4PROTO_ICMP, maskicmp), __ADD(EXP_ATTR_NAT_IP_SRC, natipsrc), __ADD(EXP_ATTR_NAT_IP_DST, natipdst), __ADD(EXP_ATTR_NAT_L4PROTO_NUM, natprotonum), __ADD(EXP_ATTR_NAT_L4PROTO_PORTS, natports), __ADD(EXP_ATTR_NAT_L4PROTO_ICMP, naticmp), __ADD(EXP_ATTR_NAT_DIR, natdir), }; static char *exp_attrs2str(int attrs, char *buf, size_t len) { return __flags2str(attrs, buf, len, exp_attrs, ARRAY_SIZE(exp_attrs)); } /** * @name Allocation/Freeing * @{ */ struct nfnl_exp *nfnl_exp_alloc(void) { return (struct nfnl_exp *) nl_object_alloc(&exp_obj_ops); } void nfnl_exp_get(struct nfnl_exp *exp) { nl_object_get((struct nl_object *) exp); } void nfnl_exp_put(struct nfnl_exp *exp) { nl_object_put((struct nl_object *) exp); } /** @} */ /** * @name Attributes * @{ */ void nfnl_exp_set_family(struct nfnl_exp *exp, uint8_t family) { exp->exp_family = family; exp->ce_mask |= EXP_ATTR_FAMILY; } uint8_t nfnl_exp_get_family(const struct nfnl_exp *exp) { if (exp->ce_mask & EXP_ATTR_FAMILY) return exp->exp_family; else return AF_UNSPEC; } void nfnl_exp_set_flags(struct nfnl_exp *exp, uint32_t flags) { exp->exp_flags |= flags; exp->ce_mask |= EXP_ATTR_FLAGS; } int nfnl_exp_test_flags(const struct nfnl_exp *exp) { return !!(exp->ce_mask & EXP_ATTR_FLAGS); } void nfnl_exp_unset_flags(struct nfnl_exp *exp, uint32_t flags) { exp->exp_flags &= ~flags; exp->ce_mask |= EXP_ATTR_FLAGS; } uint32_t nfnl_exp_get_flags(const struct nfnl_exp *exp) { return exp->exp_flags; } static const struct trans_tbl flag_table[] = { __ADD(IPS_EXPECTED, expected), __ADD(IPS_SEEN_REPLY, seen_reply), __ADD(IPS_ASSURED, assured), }; char * nfnl_exp_flags2str(int flags, char *buf, size_t len) { return __flags2str(flags, buf, len, flag_table, ARRAY_SIZE(flag_table)); } int nfnl_exp_str2flags(const char *name) { return __str2flags(name, flag_table, ARRAY_SIZE(flag_table)); } void nfnl_exp_set_timeout(struct nfnl_exp *exp, uint32_t timeout) { exp->exp_timeout = timeout; exp->ce_mask |= EXP_ATTR_TIMEOUT; } int nfnl_exp_test_timeout(const struct nfnl_exp *exp) { return !!(exp->ce_mask & EXP_ATTR_TIMEOUT); } uint32_t nfnl_exp_get_timeout(const struct nfnl_exp *exp) { return exp->exp_timeout; } void nfnl_exp_set_id(struct nfnl_exp *exp, uint32_t id) { exp->exp_id = id; exp->ce_mask |= EXP_ATTR_ID; } int nfnl_exp_test_id(const struct nfnl_exp *exp) { return !!(exp->ce_mask & EXP_ATTR_ID); } uint32_t nfnl_exp_get_id(const struct nfnl_exp *exp) { return exp->exp_id; } int nfnl_exp_set_helper_name(struct nfnl_exp *exp, void *name) { free(exp->exp_helper_name); exp->exp_helper_name = strdup(name); if (!exp->exp_helper_name) return -NLE_NOMEM; exp->ce_mask |= EXP_ATTR_HELPER_NAME; return 0; } int nfnl_exp_test_helper_name(const struct nfnl_exp *exp) { return !!(exp->ce_mask & EXP_ATTR_HELPER_NAME); } const char * nfnl_exp_get_helper_name(const struct nfnl_exp *exp) { return exp->exp_helper_name; } void nfnl_exp_set_zone(struct nfnl_exp *exp, uint16_t zone) { exp->exp_zone = zone; exp->ce_mask |= EXP_ATTR_ZONE; } int nfnl_exp_test_zone(const struct nfnl_exp *exp) { return !!(exp->ce_mask & EXP_ATTR_ZONE); } uint16_t nfnl_exp_get_zone(const struct nfnl_exp *exp) { return exp->exp_zone; } void nfnl_exp_set_class(struct nfnl_exp *exp, uint32_t class) { exp->exp_class = class; exp->ce_mask |= EXP_ATTR_CLASS; } int nfnl_exp_test_class(const struct nfnl_exp *exp) { return !!(exp->ce_mask & EXP_ATTR_CLASS); } uint32_t nfnl_exp_get_class(const struct nfnl_exp *exp) { return exp->exp_class; } int nfnl_exp_set_fn(struct nfnl_exp *exp, void *fn) { free(exp->exp_fn); exp->exp_fn = strdup(fn); if (!exp->exp_fn) return -NLE_NOMEM; exp->ce_mask |= EXP_ATTR_FN; return 0; } int nfnl_exp_test_fn(const struct nfnl_exp *exp) { return !!(exp->ce_mask & EXP_ATTR_FN); } const char * nfnl_exp_get_fn(const struct nfnl_exp *exp) { return exp->exp_fn; } void nfnl_exp_set_nat_dir(struct nfnl_exp *exp, uint8_t nat_dir) { exp->exp_nat_dir = nat_dir; exp->ce_mask |= EXP_ATTR_NAT_DIR; } int nfnl_exp_test_nat_dir(const struct nfnl_exp *exp) { return !!(exp->ce_mask & EXP_ATTR_NAT_DIR); } uint8_t nfnl_exp_get_nat_dir(const struct nfnl_exp *exp) { return exp->exp_nat_dir; } #define EXP_GET_TUPLE(e, t) \ (t == NFNL_EXP_TUPLE_MASTER) ? \ &(e->exp_master) : \ (t == NFNL_EXP_TUPLE_MASK) ? \ &(e->exp_mask) : \ (t == NFNL_EXP_TUPLE_NAT) ? \ &(e->exp_nat) : &(exp->exp_expect) static int exp_get_src_attr(int tuple) { int attr = 0; switch (tuple) { case NFNL_EXP_TUPLE_MASTER: attr = EXP_ATTR_MASTER_IP_SRC; break; case NFNL_EXP_TUPLE_MASK: attr = EXP_ATTR_MASK_IP_SRC; break; case NFNL_EXP_TUPLE_NAT: attr = EXP_ATTR_NAT_IP_SRC; break; case NFNL_EXP_TUPLE_EXPECT: default : attr = EXP_ATTR_EXPECT_IP_SRC; } return attr; } static int exp_get_dst_attr(int tuple) { int attr = 0; switch (tuple) { case NFNL_EXP_TUPLE_MASTER: attr = EXP_ATTR_MASTER_IP_DST; break; case NFNL_EXP_TUPLE_MASK: attr = EXP_ATTR_MASK_IP_DST; break; case NFNL_EXP_TUPLE_NAT: attr = EXP_ATTR_NAT_IP_DST; break; case NFNL_EXP_TUPLE_EXPECT: default : attr = EXP_ATTR_EXPECT_IP_DST; } return attr; } static int exp_set_addr(struct nfnl_exp *exp, struct nl_addr *addr, int attr, struct nl_addr ** exp_addr) { if (exp->ce_mask & EXP_ATTR_FAMILY) { if (addr->a_family != exp->exp_family) return -NLE_AF_MISMATCH; } else nfnl_exp_set_family(exp, addr->a_family); if (*exp_addr) nl_addr_put(*exp_addr); nl_addr_get(addr); *exp_addr = addr; exp->ce_mask |= attr; return 0; } int nfnl_exp_set_src(struct nfnl_exp *exp, int tuple, struct nl_addr *addr) { struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); return exp_set_addr(exp, addr, exp_get_src_attr(tuple), &dir->src); } int nfnl_exp_set_dst(struct nfnl_exp *exp, int tuple, struct nl_addr *addr) { struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); return exp_set_addr(exp, addr, exp_get_dst_attr(tuple), &dir->dst); } int nfnl_exp_test_src(const struct nfnl_exp *exp, int tuple) { return !!(exp->ce_mask & exp_get_src_attr(tuple)); } int nfnl_exp_test_dst(const struct nfnl_exp *exp, int tuple) { return !!(exp->ce_mask & exp_get_dst_attr(tuple)); } struct nl_addr *nfnl_exp_get_src(const struct nfnl_exp *exp, int tuple) { const struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); if (!(exp->ce_mask & exp_get_src_attr(tuple))) return NULL; return dir->src; } struct nl_addr *nfnl_exp_get_dst(const struct nfnl_exp *exp, int tuple) { const struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); if (!(exp->ce_mask & exp_get_dst_attr(tuple))) return NULL; return dir->dst; } static int exp_get_l4protonum_attr(int tuple) { int attr = 0; switch (tuple) { case NFNL_EXP_TUPLE_MASTER: attr = EXP_ATTR_MASTER_L4PROTO_NUM; break; case NFNL_EXP_TUPLE_MASK: attr = EXP_ATTR_MASK_L4PROTO_NUM; break; case NFNL_EXP_TUPLE_NAT: attr = EXP_ATTR_NAT_L4PROTO_NUM; break; case NFNL_EXP_TUPLE_EXPECT: default : attr = EXP_ATTR_EXPECT_L4PROTO_NUM; } return attr; } void nfnl_exp_set_l4protonum(struct nfnl_exp *exp, int tuple, uint8_t l4protonum) { struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); dir->proto.l4protonum = l4protonum; exp->ce_mask |= exp_get_l4protonum_attr(tuple); } int nfnl_exp_test_l4protonum(const struct nfnl_exp *exp, int tuple) { return !!(exp->ce_mask & exp_get_l4protonum_attr(tuple)); } uint8_t nfnl_exp_get_l4protonum(const struct nfnl_exp *exp, int tuple) { const struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); return dir->proto.l4protonum; } static int exp_get_l4ports_attr(int tuple) { int attr = 0; switch (tuple) { case NFNL_EXP_TUPLE_MASTER: attr = EXP_ATTR_MASTER_L4PROTO_PORTS; break; case NFNL_EXP_TUPLE_MASK: attr = EXP_ATTR_MASK_L4PROTO_PORTS; break; case NFNL_EXP_TUPLE_NAT: attr = EXP_ATTR_NAT_L4PROTO_PORTS; break; case NFNL_EXP_TUPLE_EXPECT: default : attr = EXP_ATTR_EXPECT_L4PROTO_PORTS; } return attr; } void nfnl_exp_set_ports(struct nfnl_exp *exp, int tuple, uint16_t srcport, uint16_t dstport) { struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); dir->proto.l4protodata.port.src = srcport; dir->proto.l4protodata.port.dst = dstport; exp->ce_mask |= exp_get_l4ports_attr(tuple); } int nfnl_exp_test_ports(const struct nfnl_exp *exp, int tuple) { return !!(exp->ce_mask & exp_get_l4ports_attr(tuple)); } uint16_t nfnl_exp_get_src_port(const struct nfnl_exp *exp, int tuple) { const struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); return dir->proto.l4protodata.port.src; } uint16_t nfnl_exp_get_dst_port(const struct nfnl_exp *exp, int tuple) { const struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); return dir->proto.l4protodata.port.dst; } static int exp_get_l4icmp_attr(int tuple) { int attr = 0; switch (tuple) { case NFNL_EXP_TUPLE_MASTER: attr = EXP_ATTR_MASTER_L4PROTO_ICMP; break; case NFNL_EXP_TUPLE_MASK: attr = EXP_ATTR_MASK_L4PROTO_ICMP; break; case NFNL_EXP_TUPLE_NAT: attr = EXP_ATTR_NAT_L4PROTO_ICMP; break; case NFNL_EXP_TUPLE_EXPECT: default : attr = EXP_ATTR_EXPECT_L4PROTO_ICMP; } return attr; } void nfnl_exp_set_icmp(struct nfnl_exp *exp, int tuple, uint16_t id, uint8_t type, uint8_t code) { struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); dir->proto.l4protodata.icmp.id = id; dir->proto.l4protodata.icmp.type = type; dir->proto.l4protodata.icmp.code = code; exp->ce_mask |= exp_get_l4icmp_attr(tuple); } int nfnl_exp_test_icmp(const struct nfnl_exp *exp, int tuple) { int attr = exp_get_l4icmp_attr(tuple); return !!(exp->ce_mask & attr); } uint16_t nfnl_exp_get_icmp_id(const struct nfnl_exp *exp, int tuple) { const struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); return dir->proto.l4protodata.icmp.id; } uint8_t nfnl_exp_get_icmp_type(const struct nfnl_exp *exp, int tuple) { const struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); return dir->proto.l4protodata.icmp.type; } uint8_t nfnl_exp_get_icmp_code(const struct nfnl_exp *exp, int tuple) { const struct nfnl_exp_dir *dir = EXP_GET_TUPLE(exp, tuple); return dir->proto.l4protodata.icmp.code; } /** @} */ struct nl_object_ops exp_obj_ops = { .oo_name = "netfilter/exp", .oo_size = sizeof(struct nfnl_exp), .oo_free_data = exp_free_data, .oo_clone = exp_clone, .oo_dump = { [NL_DUMP_LINE] = exp_dump_line, [NL_DUMP_DETAILS] = exp_dump_details, }, .oo_compare = exp_compare, .oo_attrs2str = exp_attrs2str, }; /** @} */