/* SPDX-License-Identifier: LGPL-2.1-only */ /* * Copyright (C) 2012 Texas Instruments Incorporated - http://www.ti.com/ * * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the * distribution. * * Neither the name of Texas Instruments Incorporated nor the names of * its contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * */ /** * @ingroup xfrmnl * @defgroup sp Security Policy * @brief */ #include #include #include #include #include #include #include #include /** @cond SKIP */ #define XFRM_SP_ATTR_SEL 0x01 #define XFRM_SP_ATTR_LTIME_CFG 0x02 #define XFRM_SP_ATTR_LTIME_CUR 0x04 #define XFRM_SP_ATTR_PRIO 0x08 #define XFRM_SP_ATTR_INDEX 0x10 #define XFRM_SP_ATTR_DIR 0x20 #define XFRM_SP_ATTR_ACTION 0x40 #define XFRM_SP_ATTR_FLAGS 0x80 #define XFRM_SP_ATTR_SHARE 0x100 #define XFRM_SP_ATTR_POLTYPE 0x200 #define XFRM_SP_ATTR_SECCTX 0x400 #define XFRM_SP_ATTR_TMPL 0x800 #define XFRM_SP_ATTR_MARK 0x1000 static struct nl_cache_ops xfrmnl_sp_ops; static struct nl_object_ops xfrm_sp_obj_ops; /** @endcond */ static void xfrm_sp_alloc_data(struct nl_object *c) { struct xfrmnl_sp* sp = nl_object_priv (c); if ((sp->sel = xfrmnl_sel_alloc ()) == NULL) return; if ((sp->lft = xfrmnl_ltime_cfg_alloc ()) == NULL) return; nl_init_list_head(&sp->usertmpl_list); return; } static void xfrm_sp_free_data(struct nl_object *c) { struct xfrmnl_sp* sp = nl_object_priv (c); struct xfrmnl_user_tmpl *utmpl, *tmp; if (sp == NULL) return; xfrmnl_sel_put (sp->sel); xfrmnl_ltime_cfg_put (sp->lft); if(sp->sec_ctx) { free (sp->sec_ctx); } nl_list_for_each_entry_safe(utmpl, tmp, &sp->usertmpl_list, utmpl_list) { xfrmnl_sp_remove_usertemplate (sp, utmpl); xfrmnl_user_tmpl_free (utmpl); } } static int xfrm_sp_clone(struct nl_object *_dst, struct nl_object *_src) { struct xfrmnl_sp* dst = nl_object_priv(_dst); struct xfrmnl_sp* src = nl_object_priv(_src); uint32_t len = 0; struct xfrmnl_user_tmpl *utmpl, *new; if (src->sel) if ((dst->sel = xfrmnl_sel_clone (src->sel)) == NULL) return -NLE_NOMEM; if (src->lft) if ((dst->lft = xfrmnl_ltime_cfg_clone (src->lft)) == NULL) return -NLE_NOMEM; if(src->sec_ctx) { len = sizeof (struct xfrmnl_user_sec_ctx) + src->sec_ctx->ctx_len; if ((dst->sec_ctx = calloc (1, len)) == NULL) return -NLE_NOMEM; memcpy ((void *)dst->sec_ctx, (void *)src->sec_ctx, len); } nl_init_list_head(&dst->usertmpl_list); nl_list_for_each_entry(utmpl, &src->usertmpl_list, utmpl_list) { new = xfrmnl_user_tmpl_clone (utmpl); if (!new) return -NLE_NOMEM; xfrmnl_sp_add_usertemplate(dst, new); } return 0; } static uint64_t xfrm_sp_compare(struct nl_object *_a, struct nl_object *_b, uint64_t attrs, int flags) { struct xfrmnl_sp* a = (struct xfrmnl_sp *) _a; struct xfrmnl_sp* b = (struct xfrmnl_sp *) _b; struct xfrmnl_user_tmpl *tmpl_a, *tmpl_b; uint64_t diff = 0; #define XFRM_SP_DIFF(ATTR, EXPR) ATTR_DIFF(attrs, XFRM_SP_ATTR_##ATTR, a, b, EXPR) diff |= XFRM_SP_DIFF(SEL, xfrmnl_sel_cmp(a->sel, b->sel)); diff |= XFRM_SP_DIFF(LTIME_CFG, xfrmnl_ltime_cfg_cmp(a->lft, b->lft)); diff |= XFRM_SP_DIFF(PRIO, a->priority != b->priority); diff |= XFRM_SP_DIFF(INDEX, a->index != b->index); diff |= XFRM_SP_DIFF(DIR, a->dir != b->dir); diff |= XFRM_SP_DIFF(ACTION, a->action != b->action); diff |= XFRM_SP_DIFF(FLAGS, a->flags != b->flags); diff |= XFRM_SP_DIFF(SHARE, a->share != b->share); diff |= XFRM_SP_DIFF(SECCTX,((a->sec_ctx->len != b->sec_ctx->len) || (a->sec_ctx->exttype != b->sec_ctx->exttype) || (a->sec_ctx->ctx_alg != b->sec_ctx->ctx_alg) || (a->sec_ctx->ctx_doi != b->sec_ctx->ctx_doi) || (a->sec_ctx->ctx_len != b->sec_ctx->ctx_len) || strcmp(a->sec_ctx->ctx, b->sec_ctx->ctx))); diff |= XFRM_SP_DIFF(POLTYPE,(a->uptype.type != b->uptype.type)); diff |= XFRM_SP_DIFF(TMPL,(a->nr_user_tmpl != b->nr_user_tmpl)); diff |= XFRM_SP_DIFF(MARK,(a->mark.m != b->mark.m) || (a->mark.v != b->mark.v)); /* Compare the templates */ nl_list_for_each_entry(tmpl_b, &b->usertmpl_list, utmpl_list) nl_list_for_each_entry(tmpl_a, &a->usertmpl_list, utmpl_list) diff |= xfrmnl_user_tmpl_cmp (tmpl_a, tmpl_b); #undef XFRM_SP_DIFF return diff; } /** * @name XFRM SP Attribute Translations * @{ */ static const struct trans_tbl sp_attrs[] = { __ADD(XFRM_SP_ATTR_SEL, selector), __ADD(XFRM_SP_ATTR_LTIME_CFG, lifetime_cfg), __ADD(XFRM_SP_ATTR_LTIME_CUR, lifetime_cur), __ADD(XFRM_SP_ATTR_PRIO, priority), __ADD(XFRM_SP_ATTR_INDEX, index), __ADD(XFRM_SP_ATTR_DIR, direction), __ADD(XFRM_SP_ATTR_ACTION, action), __ADD(XFRM_SP_ATTR_FLAGS, flags), __ADD(XFRM_SP_ATTR_SHARE, share), __ADD(XFRM_SP_ATTR_POLTYPE, policy_type), __ADD(XFRM_SP_ATTR_SECCTX, security_context), __ADD(XFRM_SP_ATTR_TMPL, user_template), __ADD(XFRM_SP_ATTR_MARK, mark), }; static char* xfrm_sp_attrs2str(int attrs, char *buf, size_t len) { return __flags2str (attrs, buf, len, sp_attrs, ARRAY_SIZE(sp_attrs)); } /** @} */ /** * @name XFRM SP Action Translations * @{ */ static const struct trans_tbl sa_actions[] = { __ADD(XFRM_POLICY_ALLOW, allow), __ADD(XFRM_POLICY_BLOCK, block), }; char* xfrmnl_sp_action2str(int action, char *buf, size_t len) { return __type2str (action, buf, len, sa_actions, ARRAY_SIZE(sa_actions)); } int xfrmnl_sp_str2action(const char *name) { return __str2type (name, sa_actions, ARRAY_SIZE(sa_actions)); } /** @} */ /** * @name XFRM SP Flags Translations * @{ */ static const struct trans_tbl sp_flags[] = { __ADD(XFRM_POLICY_LOCALOK, allow policy override by user), __ADD(XFRM_POLICY_ICMP, auto include ICMP in policy), }; char* xfrmnl_sp_flags2str(int flags, char *buf, size_t len) { return __flags2str (flags, buf, len, sp_flags, ARRAY_SIZE(sp_flags)); } int xfrmnl_sp_str2flag(const char *name) { return __str2flags(name, sp_flags, ARRAY_SIZE(sp_flags)); } /** @} */ /** * @name XFRM SP Type Translations * @{ */ static const struct trans_tbl sp_types[] = { __ADD(XFRM_POLICY_TYPE_MAIN, main), __ADD(XFRM_POLICY_TYPE_SUB, sub), __ADD(XFRM_POLICY_TYPE_MAX, max), __ADD(XFRM_POLICY_TYPE_ANY, any), }; char* xfrmnl_sp_type2str(int type, char *buf, size_t len) { return __type2str(type, buf, len, sp_types, ARRAY_SIZE(sp_types)); } int xfrmnl_sp_str2type(const char *name) { return __str2type(name, sp_types, ARRAY_SIZE(sp_types)); } /** @} */ /** * @name XFRM SP Direction Translations * @{ */ static const struct trans_tbl sp_dir[] = { __ADD(XFRM_POLICY_IN, in), __ADD(XFRM_POLICY_OUT, out), __ADD(XFRM_POLICY_FWD, fwd), __ADD(XFRM_POLICY_MASK, mask), }; char* xfrmnl_sp_dir2str(int dir, char *buf, size_t len) { return __type2str (dir, buf, len, sp_dir, ARRAY_SIZE(sp_dir)); } int xfrmnl_sp_str2dir(const char *name) { return __str2type (name, sp_dir, ARRAY_SIZE(sp_dir)); } int xfrmnl_sp_index2dir (unsigned int index) { return index & 0x7; } /** @} */ /** * @name XFRM SP Share Translations * @{ */ static const struct trans_tbl sp_share[] = { __ADD(XFRM_SHARE_ANY, any), __ADD(XFRM_SHARE_SESSION, session), __ADD(XFRM_SHARE_USER, user), __ADD(XFRM_SHARE_UNIQUE, unique), }; char* xfrmnl_sp_share2str(int share, char *buf, size_t len) { return __type2str (share, buf, len, sp_share, ARRAY_SIZE(sp_share)); } int xfrmnl_sp_str2share(const char *name) { return __str2type (name, sp_share, ARRAY_SIZE(sp_share)); } /** @} */ static void xfrm_sp_dump_line(struct nl_object *a, struct nl_dump_params *p) { struct xfrmnl_sp* sp = (struct xfrmnl_sp *) a; char dir[32], action[32], share[32], flags[32]; char dst[INET6_ADDRSTRLEN+5], src[INET6_ADDRSTRLEN+5]; time_t add_time, use_time; struct tm *add_time_tm, *use_time_tm; nl_addr2str(xfrmnl_sel_get_saddr (sp->sel), src, sizeof(src)); nl_addr2str (xfrmnl_sel_get_daddr (sp->sel), dst, sizeof (dst)); nl_af2str (xfrmnl_sel_get_family (sp->sel), dir, 32); nl_dump_line(p, "src %s dst %s family: %s\n", src, dst, dir); nl_dump_line (p, "src port/mask: %d/%d dst port/mask: %d/%d\n", xfrmnl_sel_get_dport (sp->sel), xfrmnl_sel_get_dportmask (sp->sel), xfrmnl_sel_get_sport (sp->sel), xfrmnl_sel_get_sportmask (sp->sel)); nl_dump_line (p, "protocol: %s ifindex: %u uid: %u\n", nl_ip_proto2str (xfrmnl_sel_get_proto (sp->sel), dir, sizeof(dir)), xfrmnl_sel_get_ifindex (sp->sel), xfrmnl_sel_get_userid (sp->sel)); xfrmnl_sp_dir2str (sp->dir, dir, 32); xfrmnl_sp_action2str (sp->action, action, 32); xfrmnl_sp_share2str (sp->share, share, 32); xfrmnl_sp_flags2str (sp->flags, flags, 32); nl_dump_line(p, "\tdir: %s action: %s index: %u priority: %u share: %s flags: %s(0x%x) \n", dir, action, sp->index, sp->priority, share, flags, sp->flags); nl_dump_line(p, "\tlifetime configuration: \n"); if (sp->lft->soft_byte_limit == XFRM_INF) sprintf (dir, "INF"); else sprintf (dir, "%" PRIu64, sp->lft->soft_byte_limit); if (sp->lft->soft_packet_limit == XFRM_INF) sprintf (action, "INF"); else sprintf (action, "%" PRIu64, sp->lft->soft_packet_limit); if (sp->lft->hard_byte_limit == XFRM_INF) sprintf (flags, "INF"); else sprintf (flags, "%" PRIu64, sp->lft->hard_byte_limit); if (sp->lft->hard_packet_limit == XFRM_INF) sprintf (share, "INF"); else sprintf (share, "%" PRIu64, sp->lft->hard_packet_limit); nl_dump_line(p, "\t\tsoft limit: %s (bytes), %s (packets) \n", dir, action); nl_dump_line(p, "\t\thard limit: %s (bytes), %s (packets) \n", flags, share); nl_dump_line(p, "\t\tsoft add_time: %llu (seconds), soft use_time: %llu (seconds) \n", sp->lft->soft_add_expires_seconds, sp->lft->soft_use_expires_seconds); nl_dump_line(p, "\t\thard add_time: %llu (seconds), hard use_time: %llu (seconds) \n", sp->lft->hard_add_expires_seconds, sp->lft->hard_use_expires_seconds); nl_dump_line(p, "\tlifetime current: \n"); nl_dump_line(p, "\t\t%llu bytes, %llu packets\n", sp->curlft.bytes, sp->curlft.packets); if (sp->curlft.add_time != 0) { add_time = sp->curlft.add_time; add_time_tm = gmtime (&add_time); strftime (dst, INET6_ADDRSTRLEN+5, "%Y-%m-%d %H-%M-%S", add_time_tm); } else { sprintf (dst, "%s", "-"); } if (sp->curlft.use_time != 0) { use_time = sp->curlft.use_time; use_time_tm = gmtime (&use_time); strftime (src, INET6_ADDRSTRLEN+5, "%Y-%m-%d %H-%M-%S", use_time_tm); } else { sprintf (src, "%s", "-"); } nl_dump_line(p, "\t\tadd_time: %s, use_time: %s\n", dst, src); if (sp->ce_mask & XFRM_SP_ATTR_SECCTX) { nl_dump_line(p, "\tUser security context: \n"); nl_dump_line(p, "\t\tlen: %d exttype: %d Algo: %d DOI: %d ctxlen: %d\n", sp->sec_ctx->len, sp->sec_ctx->exttype, sp->sec_ctx->ctx_alg, sp->sec_ctx->ctx_doi, sp->sec_ctx->ctx_len); nl_dump_line (p, "\t\tctx: %s \n", sp->sec_ctx->ctx); } xfrmnl_sp_type2str (sp->uptype.type, flags, 32); if (sp->ce_mask & XFRM_SP_ATTR_POLTYPE) nl_dump_line(p, "\tUser policy type: %s\n", flags); if (sp->ce_mask & XFRM_SP_ATTR_TMPL) { struct xfrmnl_user_tmpl* utmpl; nl_dump_line(p, "\tUser template: \n"); nl_list_for_each_entry(utmpl, &sp->usertmpl_list, utmpl_list) xfrmnl_user_tmpl_dump (utmpl, p); } if (sp->ce_mask & XFRM_SP_ATTR_MARK) nl_dump_line(p, "\tMark mask: 0x%x Mark value: 0x%x\n", sp->mark.m, sp->mark.v); nl_dump(p, "\n"); } static void xfrm_sp_dump_details(struct nl_object *a, struct nl_dump_params *p) { xfrm_sp_dump_line(a, p); } static void xfrm_sp_dump_stats(struct nl_object *a, struct nl_dump_params *p) { xfrm_sp_dump_details(a, p); return; } /** * @name XFRM SP Object Allocation/Freeage * @{ */ struct xfrmnl_sp* xfrmnl_sp_alloc(void) { return (struct xfrmnl_sp*) nl_object_alloc(&xfrm_sp_obj_ops); } void xfrmnl_sp_put(struct xfrmnl_sp* sp) { nl_object_put((struct nl_object *) sp); } /** @} */ /** * @name SP Cache Managament * @{ */ /** * Build a SP cache including all SPs currently configured in the kernel. * @arg sock Netlink socket. * @arg result Pointer to store resulting cache. * * Allocates a new SP cache, initializes it properly and updates it * to include all SPs currently configured in the kernel. * * @return 0 on success or a negative error code. */ int xfrmnl_sp_alloc_cache(struct nl_sock *sock, struct nl_cache **result) { return nl_cache_alloc_and_fill(&xfrmnl_sp_ops, sock, result); } /** * Look up a SP by policy id and direction * @arg cache SP cache * @arg index Policy Id * @arg dir direction * @return sp handle or NULL if no match was found. */ struct xfrmnl_sp* xfrmnl_sp_get(struct nl_cache* cache, unsigned int index, unsigned int dir) { struct xfrmnl_sp *sp; //nl_list_for_each_entry(sp, &cache->c_items, ce_list) { for (sp = (struct xfrmnl_sp*)nl_cache_get_first (cache); sp != NULL; sp = (struct xfrmnl_sp*)nl_cache_get_next ((struct nl_object*)sp)) { if (sp->index == index && sp->dir == dir) { nl_object_get((struct nl_object *) sp); return sp; } } return NULL; } /** @} */ static struct nla_policy xfrm_sp_policy[XFRMA_MAX+1] = { [XFRMA_POLICY] = { .minlen = sizeof(struct xfrm_userpolicy_info)}, [XFRMA_SEC_CTX] = { .minlen = sizeof(struct xfrm_sec_ctx) }, [XFRMA_TMPL] = { .minlen = sizeof(struct xfrm_user_tmpl) }, [XFRMA_POLICY_TYPE] = { .minlen = sizeof(struct xfrm_userpolicy_type)}, [XFRMA_MARK] = { .minlen = sizeof(struct xfrm_mark) }, }; static int xfrm_sp_request_update(struct nl_cache *c, struct nl_sock *h) { struct xfrm_userpolicy_id sp_id; memset (&sp_id, 0, sizeof (sp_id)); return nl_send_simple (h, XFRM_MSG_GETPOLICY, NLM_F_DUMP, &sp_id, sizeof (sp_id)); } int xfrmnl_sp_parse(struct nlmsghdr *n, struct xfrmnl_sp **result) { struct xfrmnl_sp *sp; struct nlattr *tb[XFRMA_MAX + 1]; struct xfrm_userpolicy_info *sp_info; int len, err; struct nl_addr* addr; sp = xfrmnl_sp_alloc(); if (!sp) { err = -NLE_NOMEM; goto errout; } sp->ce_msgtype = n->nlmsg_type; if (n->nlmsg_type == XFRM_MSG_DELPOLICY) { sp_info = (struct xfrm_userpolicy_info*)((char *)nlmsg_data(n) + sizeof (struct xfrm_userpolicy_id) + NLA_HDRLEN); } else { sp_info = nlmsg_data(n); } err = nlmsg_parse(n, sizeof(struct xfrm_userpolicy_info), tb, XFRMA_MAX, xfrm_sp_policy); if (err < 0) { printf ("parse error: %d \n", err); goto errout; } if (sp_info->sel.family == AF_INET) addr = nl_addr_build (sp_info->sel.family, &sp_info->sel.daddr.a4, sizeof (sp_info->sel.daddr.a4)); else addr = nl_addr_build (sp_info->sel.family, &sp_info->sel.daddr.a6, sizeof (sp_info->sel.daddr.a6)); nl_addr_set_prefixlen (addr, sp_info->sel.prefixlen_d); xfrmnl_sel_set_daddr (sp->sel, addr); xfrmnl_sel_set_prefixlen_d (sp->sel, sp_info->sel.prefixlen_d); if (sp_info->sel.family == AF_INET) addr = nl_addr_build (sp_info->sel.family, &sp_info->sel.saddr.a4, sizeof (sp_info->sel.saddr.a4)); else addr = nl_addr_build (sp_info->sel.family, &sp_info->sel.saddr.a6, sizeof (sp_info->sel.saddr.a6)); nl_addr_set_prefixlen (addr, sp_info->sel.prefixlen_s); xfrmnl_sel_set_saddr (sp->sel, addr); xfrmnl_sel_set_prefixlen_s (sp->sel, sp_info->sel.prefixlen_s); xfrmnl_sel_set_dport (sp->sel, ntohs (sp_info->sel.dport)); xfrmnl_sel_set_dportmask (sp->sel, ntohs (sp_info->sel.dport_mask)); xfrmnl_sel_set_sport (sp->sel, ntohs (sp_info->sel.sport)); xfrmnl_sel_set_sportmask (sp->sel, ntohs (sp_info->sel.sport_mask)); xfrmnl_sel_set_family (sp->sel, sp_info->sel.family); xfrmnl_sel_set_proto (sp->sel, sp_info->sel.proto); xfrmnl_sel_set_ifindex (sp->sel, sp_info->sel.ifindex); xfrmnl_sel_set_userid (sp->sel, sp_info->sel.user); sp->ce_mask |= XFRM_SP_ATTR_SEL; sp->lft->soft_byte_limit = sp_info->lft.soft_byte_limit; sp->lft->hard_byte_limit = sp_info->lft.hard_byte_limit; sp->lft->soft_packet_limit = sp_info->lft.soft_packet_limit; sp->lft->hard_packet_limit = sp_info->lft.hard_packet_limit; sp->lft->soft_add_expires_seconds = sp_info->lft.soft_add_expires_seconds; sp->lft->hard_add_expires_seconds = sp_info->lft.hard_add_expires_seconds; sp->lft->soft_use_expires_seconds = sp_info->lft.soft_use_expires_seconds; sp->lft->hard_use_expires_seconds = sp_info->lft.hard_use_expires_seconds; sp->ce_mask |= XFRM_SP_ATTR_LTIME_CFG; sp->curlft.bytes = sp_info->curlft.bytes; sp->curlft.packets = sp_info->curlft.packets; sp->curlft.add_time = sp_info->curlft.add_time; sp->curlft.use_time = sp_info->curlft.use_time; sp->ce_mask |= XFRM_SP_ATTR_LTIME_CUR; sp->priority = sp_info->priority; sp->index = sp_info->index; sp->dir = sp_info->dir; sp->action = sp_info->action; sp->flags = sp_info->flags; sp->share = sp_info->share; sp->ce_mask |= (XFRM_SP_ATTR_PRIO | XFRM_SP_ATTR_INDEX | XFRM_SP_ATTR_DIR | XFRM_SP_ATTR_ACTION | XFRM_SP_ATTR_FLAGS | XFRM_SP_ATTR_SHARE); if (tb[XFRMA_SEC_CTX]) { struct xfrm_user_sec_ctx* ctx = nla_data(tb[XFRMA_SEC_CTX]); len = sizeof (struct xfrmnl_user_sec_ctx) + ctx->ctx_len; if ((sp->sec_ctx = calloc (1, len)) == NULL) { err = -NLE_NOMEM; goto errout; } memcpy ((void *)sp->sec_ctx, (void *)ctx, len); sp->ce_mask |= XFRM_SP_ATTR_SECCTX; } if (tb[XFRMA_POLICY_TYPE]) { struct xfrm_userpolicy_type* up = nla_data(tb[XFRMA_POLICY_TYPE]); memcpy ((void *)&sp->uptype, (void *)up, sizeof (struct xfrm_userpolicy_type)); sp->ce_mask |= XFRM_SP_ATTR_POLTYPE; } if (tb[XFRMA_TMPL]) { struct xfrm_user_tmpl* tmpl = nla_data(tb[XFRMA_TMPL]); struct xfrmnl_user_tmpl* sputmpl; uint32_t i; uint32_t num_tmpls = nla_len(tb[XFRMA_TMPL]) / sizeof (*tmpl); struct nl_addr* addr; for (i = 0; (i < num_tmpls) && (tmpl); i ++, tmpl++) { if ((sputmpl = xfrmnl_user_tmpl_alloc ()) == NULL) { err = -NLE_NOMEM; goto errout; } if (tmpl->family == AF_INET) addr = nl_addr_build(tmpl->family, &tmpl->id.daddr.a4, sizeof (tmpl->id.daddr.a4)); else addr = nl_addr_build(tmpl->family, &tmpl->id.daddr.a6, sizeof (tmpl->id.daddr.a6)); xfrmnl_user_tmpl_set_daddr (sputmpl, addr); xfrmnl_user_tmpl_set_spi (sputmpl, ntohl(tmpl->id.spi)); xfrmnl_user_tmpl_set_proto (sputmpl, tmpl->id.proto); xfrmnl_user_tmpl_set_family (sputmpl, tmpl->family); if (tmpl->family == AF_INET) addr = nl_addr_build(tmpl->family, &tmpl->saddr.a4, sizeof (tmpl->saddr.a4)); else addr = nl_addr_build(tmpl->family, &tmpl->saddr.a6, sizeof (tmpl->saddr.a6)); xfrmnl_user_tmpl_set_saddr (sputmpl, addr); xfrmnl_user_tmpl_set_reqid (sputmpl, tmpl->reqid); xfrmnl_user_tmpl_set_mode (sputmpl, tmpl->mode); xfrmnl_user_tmpl_set_share (sputmpl, tmpl->share); xfrmnl_user_tmpl_set_optional (sputmpl, tmpl->optional); xfrmnl_user_tmpl_set_aalgos (sputmpl, tmpl->aalgos); xfrmnl_user_tmpl_set_ealgos (sputmpl, tmpl->ealgos); xfrmnl_user_tmpl_set_calgos (sputmpl, tmpl->calgos); xfrmnl_sp_add_usertemplate (sp, sputmpl); sp->ce_mask |= XFRM_SP_ATTR_TMPL; } } if (tb[XFRMA_MARK]) { struct xfrm_mark* m = nla_data(tb[XFRMA_MARK]); sp->mark.m = m->m; sp->mark.v = m->v; sp->ce_mask |= XFRM_SP_ATTR_MARK; } *result = sp; return 0; errout: xfrmnl_sp_put(sp); return err; } static int xfrm_sp_msg_parser(struct nl_cache_ops *ops, struct sockaddr_nl *who, struct nlmsghdr *n, struct nl_parser_param *pp) { struct xfrmnl_sp* sp; int err; if ((err = xfrmnl_sp_parse(n, &sp)) < 0) { printf ("received error: %d \n", err); return err; } err = pp->pp_cb((struct nl_object *) sp, pp); xfrmnl_sp_put(sp); return err; } /** * @name XFRM SP Get * @{ */ int xfrmnl_sp_build_get_request(unsigned int index, unsigned int dir, unsigned int mark_v, unsigned int mark_m, struct nl_msg **result) { struct nl_msg *msg; struct xfrm_userpolicy_id spid; struct xfrm_mark mark; memset(&spid, 0, sizeof(spid)); spid.index = index; spid.dir = dir; if (!(msg = nlmsg_alloc_simple(XFRM_MSG_GETPOLICY, 0))) return -NLE_NOMEM; if (nlmsg_append(msg, &spid, sizeof(spid), NLMSG_ALIGNTO) < 0) goto nla_put_failure; if ((mark_m & mark_v) != 0) { memset(&mark, 0, sizeof(struct xfrm_mark)); mark.m = mark_m; mark.v = mark_v; NLA_PUT (msg, XFRMA_MARK, sizeof (struct xfrm_mark), &mark); } *result = msg; return 0; nla_put_failure: nlmsg_free(msg); return -NLE_MSGSIZE; } int xfrmnl_sp_get_kernel(struct nl_sock* sock, unsigned int index, unsigned int dir, unsigned int mark_v, unsigned int mark_m, struct xfrmnl_sp** result) { struct nl_msg *msg = NULL; struct nl_object *obj; int err; if ((err = xfrmnl_sp_build_get_request(index, dir, mark_m, mark_v, &msg)) < 0) return err; err = nl_send_auto(sock, msg); nlmsg_free(msg); if (err < 0) return err; if ((err = nl_pickup(sock, &xfrm_sp_msg_parser, &obj)) < 0) return err; /* We have used xfrm_sp_msg_parser(), object is definitely a xfrm ae */ *result = (struct xfrmnl_sp *) obj; /* If an object has been returned, we also need to wait for the ACK */ if (err == 0 && obj) nl_wait_for_ack(sock); return 0; } /** @} */ static int build_xfrm_sp_message(struct xfrmnl_sp *tmpl, int cmd, int flags, struct nl_msg **result) { struct nl_msg* msg; struct xfrm_userpolicy_info sp_info; uint32_t len; struct nl_addr* addr; if (!(tmpl->ce_mask & XFRM_SP_ATTR_DIR) || (!(tmpl->ce_mask & XFRM_SP_ATTR_INDEX) && !(tmpl->ce_mask & XFRM_SP_ATTR_SEL))) return -NLE_MISSING_ATTR; memset ((void*)&sp_info, 0, sizeof (sp_info)); if (tmpl->ce_mask & XFRM_SP_ATTR_SEL) { addr = xfrmnl_sel_get_daddr (tmpl->sel); memcpy ((void*)&sp_info.sel.daddr, (void*)nl_addr_get_binary_addr (addr), sizeof (uint8_t) * nl_addr_get_len (addr)); addr = xfrmnl_sel_get_saddr (tmpl->sel); memcpy ((void*)&sp_info.sel.saddr, (void*)nl_addr_get_binary_addr (addr), sizeof (uint8_t) * nl_addr_get_len (addr)); sp_info.sel.dport = htons (xfrmnl_sel_get_dport (tmpl->sel)); sp_info.sel.dport_mask = htons (xfrmnl_sel_get_dportmask (tmpl->sel)); sp_info.sel.sport = htons (xfrmnl_sel_get_sport (tmpl->sel)); sp_info.sel.sport_mask = htons (xfrmnl_sel_get_sportmask (tmpl->sel)); sp_info.sel.family = xfrmnl_sel_get_family (tmpl->sel); sp_info.sel.prefixlen_d = xfrmnl_sel_get_prefixlen_d (tmpl->sel); sp_info.sel.prefixlen_s = xfrmnl_sel_get_prefixlen_s (tmpl->sel); sp_info.sel.proto = xfrmnl_sel_get_proto (tmpl->sel); sp_info.sel.ifindex = xfrmnl_sel_get_ifindex (tmpl->sel); sp_info.sel.user = xfrmnl_sel_get_userid (tmpl->sel); } if (tmpl->ce_mask & XFRM_SP_ATTR_LTIME_CFG) { sp_info.lft.soft_byte_limit = xfrmnl_ltime_cfg_get_soft_bytelimit (tmpl->lft); sp_info.lft.hard_byte_limit = xfrmnl_ltime_cfg_get_hard_bytelimit (tmpl->lft); sp_info.lft.soft_packet_limit = xfrmnl_ltime_cfg_get_soft_packetlimit (tmpl->lft); sp_info.lft.hard_packet_limit = xfrmnl_ltime_cfg_get_hard_packetlimit (tmpl->lft); sp_info.lft.soft_add_expires_seconds = xfrmnl_ltime_cfg_get_soft_addexpires (tmpl->lft); sp_info.lft.hard_add_expires_seconds = xfrmnl_ltime_cfg_get_hard_addexpires (tmpl->lft); sp_info.lft.soft_use_expires_seconds = xfrmnl_ltime_cfg_get_soft_useexpires (tmpl->lft); sp_info.lft.hard_use_expires_seconds = xfrmnl_ltime_cfg_get_hard_useexpires (tmpl->lft); } //Skip current lifetime: cur lifetime can be updated only via AE if (tmpl->ce_mask & XFRM_SP_ATTR_PRIO) sp_info.priority = tmpl->priority; if (tmpl->ce_mask & XFRM_SP_ATTR_INDEX) sp_info.index = tmpl->index; if (tmpl->ce_mask & XFRM_SP_ATTR_DIR) sp_info.dir = tmpl->dir; if (tmpl->ce_mask & XFRM_SP_ATTR_ACTION) sp_info.action = tmpl->action; if (tmpl->ce_mask & XFRM_SP_ATTR_FLAGS) sp_info.flags = tmpl->flags; if (tmpl->ce_mask & XFRM_SP_ATTR_SHARE) sp_info.share = tmpl->share; msg = nlmsg_alloc_simple(cmd, flags); if (!msg) return -NLE_NOMEM; if (nlmsg_append(msg, &sp_info, sizeof(sp_info), NLMSG_ALIGNTO) < 0) goto nla_put_failure; if (tmpl->ce_mask & XFRM_SP_ATTR_SECCTX) { len = (sizeof (struct xfrm_user_sec_ctx)) + tmpl->sec_ctx->ctx_len; NLA_PUT (msg, XFRMA_SEC_CTX, len, tmpl->sec_ctx); } if (tmpl->ce_mask & XFRM_SP_ATTR_POLTYPE) { len = sizeof (struct xfrm_userpolicy_type); NLA_PUT (msg, XFRMA_POLICY_TYPE, len, &tmpl->uptype); } if (tmpl->ce_mask & XFRM_SP_ATTR_TMPL) { struct nlattr* tmpls; struct xfrmnl_user_tmpl* utmpl; struct nl_addr* addr; if (!(tmpls = nla_nest_start(msg, XFRMA_TMPL))) goto nla_put_failure; nl_list_for_each_entry(utmpl, &tmpl->usertmpl_list, utmpl_list) { struct xfrm_user_tmpl* tmpl; tmpl = nlmsg_reserve(msg, sizeof(*tmpl), NLMSG_ALIGNTO); if (!tmpl) goto nla_put_failure; addr = xfrmnl_user_tmpl_get_daddr (utmpl); memcpy ((void *)&tmpl->id.daddr, nl_addr_get_binary_addr (addr), nl_addr_get_len (addr)); tmpl->id.spi = htonl(xfrmnl_user_tmpl_get_spi (utmpl)); tmpl->id.proto = xfrmnl_user_tmpl_get_proto (utmpl); tmpl->family = xfrmnl_user_tmpl_get_family (utmpl); addr = xfrmnl_user_tmpl_get_saddr (utmpl); memcpy ((void *)&tmpl->saddr, nl_addr_get_binary_addr (addr), nl_addr_get_len (addr)); tmpl->reqid = xfrmnl_user_tmpl_get_reqid (utmpl); tmpl->mode = xfrmnl_user_tmpl_get_mode (utmpl); tmpl->share = xfrmnl_user_tmpl_get_share (utmpl); tmpl->optional = xfrmnl_user_tmpl_get_optional (utmpl); tmpl->aalgos = xfrmnl_user_tmpl_get_aalgos (utmpl); tmpl->ealgos = xfrmnl_user_tmpl_get_ealgos (utmpl); tmpl->calgos = xfrmnl_user_tmpl_get_calgos (utmpl); } nla_nest_end(msg, tmpls); } if (tmpl->ce_mask & XFRM_SP_ATTR_MARK) { NLA_PUT (msg, XFRMA_MARK, sizeof (struct xfrm_mark), &tmpl->mark); } *result = msg; return 0; nla_put_failure: nlmsg_free(msg); return -NLE_MSGSIZE; } /** * @name XFRM SP Add * @{ */ int xfrmnl_sp_build_add_request(struct xfrmnl_sp* tmpl, int flags, struct nl_msg **result) { return build_xfrm_sp_message (tmpl, XFRM_MSG_NEWPOLICY, flags, result); } int xfrmnl_sp_add(struct nl_sock* sk, struct xfrmnl_sp* tmpl, int flags) { int err; struct nl_msg *msg; if ((err = xfrmnl_sp_build_add_request(tmpl, flags, &msg)) < 0) return err; err = nl_send_auto_complete(sk, msg); nlmsg_free(msg); if (err < 0) return err; return nl_wait_for_ack(sk); } /** * @name XFRM SP Update * @{ */ int xfrmnl_sp_build_update_request(struct xfrmnl_sp* tmpl, int flags, struct nl_msg **result) { return build_xfrm_sp_message (tmpl, XFRM_MSG_UPDPOLICY, flags, result); } int xfrmnl_sp_update(struct nl_sock* sk, struct xfrmnl_sp* tmpl, int flags) { int err; struct nl_msg *msg; if ((err = xfrmnl_sp_build_update_request(tmpl, flags, &msg)) < 0) return err; err = nl_send_auto_complete(sk, msg); nlmsg_free(msg); if (err < 0) return err; return nl_wait_for_ack(sk); } /** @} */ /** * \brief Builds a xfrm_sp_delete_message. Uses either index and direction * or security-context (not set is a valid value), selector and * direction for identification. * Returns error if necessary values aren't set. * * \param tmpl The policy template. * \param cmd The command. Should be XFRM_MSG_DELPOLICY. * \param flags Additional flags * \param result Resulting message. * * \return 0 if successful, else error value < 0 */ static int build_xfrm_sp_delete_message(struct xfrmnl_sp *tmpl, int cmd, int flags, struct nl_msg **result) { struct nl_msg* msg; struct xfrm_userpolicy_id spid; struct nl_addr* addr; uint32_t len; if (!(tmpl->ce_mask & XFRM_SP_ATTR_DIR) || (!(tmpl->ce_mask & XFRM_SP_ATTR_INDEX) && !(tmpl->ce_mask & XFRM_SP_ATTR_SEL))) return -NLE_MISSING_ATTR; memset(&spid, 0, sizeof(spid)); spid.dir = tmpl->dir; if(tmpl->ce_mask & XFRM_SP_ATTR_INDEX) spid.index = tmpl->index; if (tmpl->ce_mask & XFRM_SP_ATTR_SEL) { addr = xfrmnl_sel_get_daddr (tmpl->sel); memcpy ((void*)&spid.sel.daddr, (void*)nl_addr_get_binary_addr (addr), sizeof (uint8_t) * nl_addr_get_len (addr)); addr = xfrmnl_sel_get_saddr (tmpl->sel); memcpy ((void*)&spid.sel.saddr, (void*)nl_addr_get_binary_addr (addr), sizeof (uint8_t) * nl_addr_get_len (addr)); spid.sel.dport = htons (xfrmnl_sel_get_dport (tmpl->sel)); spid.sel.dport_mask = htons (xfrmnl_sel_get_dportmask (tmpl->sel)); spid.sel.sport = htons (xfrmnl_sel_get_sport (tmpl->sel)); spid.sel.sport_mask = htons (xfrmnl_sel_get_sportmask (tmpl->sel)); spid.sel.family = xfrmnl_sel_get_family (tmpl->sel); spid.sel.prefixlen_d = xfrmnl_sel_get_prefixlen_d (tmpl->sel); spid.sel.prefixlen_s = xfrmnl_sel_get_prefixlen_s (tmpl->sel); spid.sel.proto = xfrmnl_sel_get_proto (tmpl->sel); spid.sel.ifindex = xfrmnl_sel_get_ifindex (tmpl->sel); spid.sel.user = xfrmnl_sel_get_userid (tmpl->sel); } msg = nlmsg_alloc_simple(cmd, flags); if (!msg) return -NLE_NOMEM; if (nlmsg_append(msg, &spid, sizeof(spid), NLMSG_ALIGNTO) < 0) goto nla_put_failure; if (tmpl->ce_mask & XFRM_SP_ATTR_SECCTX) { len = (sizeof (struct xfrm_user_sec_ctx)) + tmpl->sec_ctx->ctx_len; NLA_PUT (msg, XFRMA_SEC_CTX, len, tmpl->sec_ctx); } if (tmpl->ce_mask & XFRM_SP_ATTR_MARK) { len = sizeof (struct xfrm_mark); NLA_PUT (msg, XFRMA_MARK, len, &tmpl->mark); } *result = msg; return 0; nla_put_failure: nlmsg_free(msg); return -NLE_MSGSIZE; } /** * @name XFRM SA Delete * @{ */ int xfrmnl_sp_build_delete_request(struct xfrmnl_sp* tmpl, int flags, struct nl_msg **result) { return build_xfrm_sp_delete_message (tmpl, XFRM_MSG_DELPOLICY, flags, result); } int xfrmnl_sp_delete(struct nl_sock* sk, struct xfrmnl_sp* tmpl, int flags) { int err; struct nl_msg *msg; if ((err = xfrmnl_sp_build_delete_request(tmpl, flags, &msg)) < 0) return err; err = nl_send_auto_complete(sk, msg); nlmsg_free(msg); if (err < 0) return err; return nl_wait_for_ack(sk); } /** @} */ /** * @name Attributes * @{ */ struct xfrmnl_sel* xfrmnl_sp_get_sel (struct xfrmnl_sp* sp) { if (sp->ce_mask & XFRM_SP_ATTR_SEL) return sp->sel; else return NULL; } int xfrmnl_sp_set_sel (struct xfrmnl_sp* sp, struct xfrmnl_sel* sel) { /* Release any previously held selector object from the SP */ if (sp->sel) xfrmnl_sel_put (sp->sel); /* Increment ref count on new selector and save it in the SP */ xfrmnl_sel_get (sel); sp->sel = sel; sp->ce_mask |= XFRM_SP_ATTR_SEL; return 0; } struct xfrmnl_ltime_cfg* xfrmnl_sp_get_lifetime_cfg (struct xfrmnl_sp* sp) { if (sp->ce_mask & XFRM_SP_ATTR_LTIME_CFG) return sp->lft; else return NULL; } int xfrmnl_sp_set_lifetime_cfg (struct xfrmnl_sp* sp, struct xfrmnl_ltime_cfg* ltime) { /* Release any previously held lifetime cfg object from the SP */ if (sp->lft) xfrmnl_ltime_cfg_put (sp->lft); /* Increment ref count on new lifetime object and save it in the SP */ xfrmnl_ltime_cfg_get (ltime); sp->lft = ltime; sp->ce_mask |= XFRM_SP_ATTR_LTIME_CFG; return 0; } int xfrmnl_sp_get_curlifetime (struct xfrmnl_sp* sa, unsigned long long int* curr_bytes, unsigned long long int* curr_packets, unsigned long long int* curr_add_time, unsigned long long int* curr_use_time) { if (sa == NULL || curr_bytes == NULL || curr_packets == NULL || curr_add_time == NULL || curr_use_time == NULL) return -1; *curr_bytes = sa->curlft.bytes; *curr_packets = sa->curlft.packets; *curr_add_time = sa->curlft.add_time; *curr_use_time = sa->curlft.use_time; return 0; } int xfrmnl_sp_get_priority (struct xfrmnl_sp* sp) { if (sp->ce_mask & XFRM_SP_ATTR_PRIO) return sp->priority; else return -1; } int xfrmnl_sp_set_priority (struct xfrmnl_sp* sp, unsigned int prio) { sp->priority = prio; sp->ce_mask |= XFRM_SP_ATTR_PRIO; return 0; } int xfrmnl_sp_get_index (struct xfrmnl_sp* sp) { if (sp->ce_mask & XFRM_SP_ATTR_INDEX) return sp->index; else return -1; } int xfrmnl_sp_set_index (struct xfrmnl_sp* sp, unsigned int index) { sp->index = index; sp->ce_mask |= XFRM_SP_ATTR_INDEX; return 0; } int xfrmnl_sp_get_dir (struct xfrmnl_sp* sp) { if (sp->ce_mask & XFRM_SP_ATTR_DIR) return sp->dir; else return -1; } int xfrmnl_sp_set_dir (struct xfrmnl_sp* sp, unsigned int dir) { sp->dir = dir; sp->ce_mask |= XFRM_SP_ATTR_DIR; return 0; } int xfrmnl_sp_get_action (struct xfrmnl_sp* sp) { if (sp->ce_mask & XFRM_SP_ATTR_ACTION) return sp->action; else return -1; } int xfrmnl_sp_set_action (struct xfrmnl_sp* sp, unsigned int action) { sp->action = action; sp->ce_mask |= XFRM_SP_ATTR_ACTION; return 0; } int xfrmnl_sp_get_flags (struct xfrmnl_sp* sp) { if (sp->ce_mask & XFRM_SP_ATTR_FLAGS) return sp->flags; else return -1; } int xfrmnl_sp_set_flags (struct xfrmnl_sp* sp, unsigned int flags) { sp->flags = flags; sp->ce_mask |= XFRM_SP_ATTR_FLAGS; return 0; } int xfrmnl_sp_get_share (struct xfrmnl_sp* sp) { if (sp->ce_mask & XFRM_SP_ATTR_SHARE) return sp->share; else return -1; } int xfrmnl_sp_set_share (struct xfrmnl_sp* sp, unsigned int share) { sp->share = share; sp->ce_mask |= XFRM_SP_ATTR_SHARE; return 0; } /** * Get the security context. * * @arg sp The xfrmnl_sp object. * @arg len An optional output value for the ctx_str length including the xfrmnl_sp header. * @arg exttype An optional output value. * @arg alg An optional output value for the security context algorithm. * @arg doi An optional output value for the security context domain of interpretation. * @arg ctx_len An optional output value for the security context length, including the * terminating null byte ('\0'). * @arg ctx_str An optional buffer large enough for the security context string. It must * contain at least @ctx_len bytes. You are advised to create the ctx_str * buffer one element larger and ensure NUL termination yourself. * * Warning: you must ensure that @ctx_str is large enough. If you don't know the length before-hand, * call xfrmnl_sp_get_sec_ctx() without @ctx_str argument to query only the required buffer size. * This modified API is available in all versions of libnl3 that support the capability * @def NL_CAPABILITY_XFRM_SP_SEC_CTX_LEN (@see nl_has_capability for further information). * * @return 0 on success or a negative error code. */ int xfrmnl_sp_get_sec_ctx (struct xfrmnl_sp* sp, unsigned int* len, unsigned int* exttype, unsigned int* alg, unsigned int* doi, unsigned int* ctx_len, char* ctx_str) { if (sp->ce_mask & XFRM_SP_ATTR_SECCTX) { if (len) *len = sizeof (struct xfrmnl_user_sec_ctx) + sp->sec_ctx->ctx_len; if (exttype) *exttype = sp->sec_ctx->exttype; if (alg) *alg = sp->sec_ctx->ctx_alg; if (doi) *doi = sp->sec_ctx->ctx_doi; if (ctx_len) *ctx_len = sp->sec_ctx->ctx_len; if (ctx_str) memcpy ((void *)ctx_str, (void *)sp->sec_ctx->ctx, sp->sec_ctx->ctx_len); } else return -1; return 0; } /** * @brief Set security context (ctx_str) for XFRM Polixy. * * @param sp XFRM Policy * @param len !!! depricated unused parameter !!! * @param exttype netlink message attribute - probably XFRMA_SEC_CTX * @param alg security context algorithm * @param doi security context domain interpretation * @param ctx_len Length of the context string. * @param ctx_str The context string. * * @return 0 if sucessfull, else -1 */ int xfrmnl_sp_set_sec_ctx (struct xfrmnl_sp* sp, unsigned int len __attribute__((unused)), unsigned int exttype, unsigned int alg, unsigned int doi, unsigned int ctx_len, char* ctx_str) { /* Free up the old context string and allocate new one */ if (sp->sec_ctx) free (sp->sec_ctx); if ((sp->sec_ctx = calloc (1, sizeof (struct xfrmnl_user_sec_ctx) + 1 + ctx_len)) == NULL) return -1; /* Save the new info */ sp->sec_ctx->len = sizeof (struct xfrmnl_user_sec_ctx) + ctx_len; sp->sec_ctx->exttype = exttype; sp->sec_ctx->ctx_alg = alg; sp->sec_ctx->ctx_doi = doi; sp->sec_ctx->ctx_len = ctx_len; memcpy ((void *)sp->sec_ctx->ctx, (void *)ctx_str, ctx_len); sp->sec_ctx->ctx[ctx_len] = '\0'; sp->ce_mask |= XFRM_SP_ATTR_SECCTX; return 0; } int xfrmnl_sp_get_userpolicy_type (struct xfrmnl_sp* sp) { if (sp->ce_mask & XFRM_SP_ATTR_POLTYPE) return sp->uptype.type; else return -1; } int xfrmnl_sp_set_userpolicy_type (struct xfrmnl_sp* sp, unsigned int type) { sp->uptype.type = type; sp->ce_mask |= XFRM_SP_ATTR_POLTYPE; return 0; } void xfrmnl_sp_add_usertemplate(struct xfrmnl_sp *sp, struct xfrmnl_user_tmpl *utmpl) { nl_list_add_tail(&utmpl->utmpl_list, &sp->usertmpl_list); sp->nr_user_tmpl++; sp->ce_mask |= XFRM_SP_ATTR_TMPL; } void xfrmnl_sp_remove_usertemplate(struct xfrmnl_sp *sp, struct xfrmnl_user_tmpl *utmpl) { if (sp->ce_mask & XFRM_SP_ATTR_TMPL) { sp->nr_user_tmpl--; nl_list_del(&utmpl->utmpl_list); } } struct nl_list_head *xfrmnl_sp_get_usertemplates(struct xfrmnl_sp *sp) { if (sp->ce_mask & XFRM_SP_ATTR_TMPL) return &sp->usertmpl_list; return NULL; } int xfrmnl_sp_get_nusertemplates(struct xfrmnl_sp *sp) { if (sp->ce_mask & XFRM_SP_ATTR_TMPL) return sp->nr_user_tmpl; return 0; } void xfrmnl_sp_foreach_usertemplate(struct xfrmnl_sp *r, void (*cb)(struct xfrmnl_user_tmpl *, void *), void *arg) { struct xfrmnl_user_tmpl *utmpl; if (r->ce_mask & XFRM_SP_ATTR_TMPL) { nl_list_for_each_entry(utmpl, &r->usertmpl_list, utmpl_list) { cb(utmpl, arg); } } } struct xfrmnl_user_tmpl *xfrmnl_sp_usertemplate_n(struct xfrmnl_sp *r, int n) { struct xfrmnl_user_tmpl *utmpl; uint32_t i; if (r->ce_mask & XFRM_SP_ATTR_TMPL && r->nr_user_tmpl > n) { i = 0; nl_list_for_each_entry(utmpl, &r->usertmpl_list, utmpl_list) { if (i == n) return utmpl; i++; } } return NULL; } int xfrmnl_sp_get_mark (struct xfrmnl_sp* sp, unsigned int* mark_mask, unsigned int* mark_value) { if (mark_mask == NULL || mark_value == NULL) return -1; if (sp->ce_mask & XFRM_SP_ATTR_MARK) { *mark_mask = sp->mark.m; *mark_value = sp->mark.v; return 0; } else return -1; } int xfrmnl_sp_set_mark (struct xfrmnl_sp* sp, unsigned int value, unsigned int mask) { sp->mark.v = value; sp->mark.m = mask; sp->ce_mask |= XFRM_SP_ATTR_MARK; return 0; } /** @} */ static struct nl_object_ops xfrm_sp_obj_ops = { .oo_name = "xfrm/sp", .oo_size = sizeof(struct xfrmnl_sp), .oo_constructor = xfrm_sp_alloc_data, .oo_free_data = xfrm_sp_free_data, .oo_clone = xfrm_sp_clone, .oo_dump = { [NL_DUMP_LINE] = xfrm_sp_dump_line, [NL_DUMP_DETAILS] = xfrm_sp_dump_details, [NL_DUMP_STATS] = xfrm_sp_dump_stats, }, .oo_compare = xfrm_sp_compare, .oo_attrs2str = xfrm_sp_attrs2str, .oo_id_attrs = (XFRM_SP_ATTR_SEL | XFRM_SP_ATTR_INDEX | XFRM_SP_ATTR_DIR), }; static struct nl_af_group xfrm_sp_groups[] = { { AF_UNSPEC, XFRMNLGRP_POLICY }, { END_OF_GROUP_LIST }, }; static struct nl_cache_ops xfrmnl_sp_ops = { .co_name = "xfrm/sp", .co_hdrsize = sizeof(struct xfrm_userpolicy_info), .co_msgtypes = { { XFRM_MSG_NEWPOLICY, NL_ACT_NEW, "new" }, { XFRM_MSG_DELPOLICY, NL_ACT_DEL, "del" }, { XFRM_MSG_GETPOLICY, NL_ACT_GET, "get" }, { XFRM_MSG_UPDPOLICY, NL_ACT_NEW, "update" }, END_OF_MSGTYPES_LIST, }, .co_protocol = NETLINK_XFRM, .co_groups = xfrm_sp_groups, .co_request_update = xfrm_sp_request_update, .co_msg_parser = xfrm_sp_msg_parser, .co_obj_ops = &xfrm_sp_obj_ops, }; /** * @name XFRM SA Cache Managament * @{ */ static void __attribute__ ((constructor)) xfrm_sp_init(void) { nl_cache_mngt_register(&xfrmnl_sp_ops); } static void __attribute__ ((destructor)) xfrm_sp_exit(void) { nl_cache_mngt_unregister(&xfrmnl_sp_ops); } /** @} */