From 830407e88f9d40d954356c3754f2647f91d5c06a Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 17:26:00 +0200 Subject: Adding upstream version 5.6.0. Signed-off-by: Daniel Baumann --- daemon/network.c | 928 +++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 928 insertions(+) create mode 100644 daemon/network.c (limited to 'daemon/network.c') diff --git a/daemon/network.c b/daemon/network.c new file mode 100644 index 0000000..a20b1e4 --- /dev/null +++ b/daemon/network.c @@ -0,0 +1,928 @@ +/* Copyright (C) CZ.NIC, z.s.p.o. + * SPDX-License-Identifier: GPL-3.0-or-later + */ + +#include "daemon/network.h" + +#include "contrib/cleanup.h" +#include "daemon/bindings/impl.h" +#include "daemon/io.h" +#include "daemon/tls.h" +#include "daemon/worker.h" +#include "lib/utils.h" + +#if ENABLE_XDP + #include +#endif + +#include +#include +#include +#include + +/** Determines the type of `struct endpoint_key`. */ +enum endpoint_key_type +{ + ENDPOINT_KEY_SOCKADDR = 1, + ENDPOINT_KEY_IFNAME = 2, +}; + +/** Used as a key in the `struct network::endpoints` trie. */ +struct endpoint_key { + enum endpoint_key_type type; + char data[]; +}; + +struct __attribute__((packed)) endpoint_key_sockaddr { + enum endpoint_key_type type; + struct kr_sockaddr_key_storage sa_key; +}; + +struct __attribute__((packed)) endpoint_key_ifname { + enum endpoint_key_type type; + char ifname[128]; +}; + +/** Used for reserving enough storage for `endpoint_key`. */ +struct endpoint_key_storage { + union { + enum endpoint_key_type type; + struct endpoint_key_sockaddr sa; + struct endpoint_key_ifname ifname; + char bytes[1]; /* for easier casting */ + }; +}; + +static_assert(_Alignof(struct endpoint_key) <= 4, "endpoint_key must be aligned to <=4"); +static_assert(_Alignof(struct endpoint_key_sockaddr) <= 4, "endpoint_key must be aligned to <=4"); +static_assert(_Alignof(struct endpoint_key_ifname) <= 4, "endpoint_key must be aligned to <=4"); + +void network_init(struct network *net, uv_loop_t *loop, int tcp_backlog) +{ + if (net != NULL) { + net->loop = loop; + net->endpoints = trie_create(NULL); + net->endpoint_kinds = trie_create(NULL); + net->proxy_all4 = false; + net->proxy_all6 = false; + net->proxy_addrs4 = trie_create(NULL); + net->proxy_addrs6 = trie_create(NULL); + net->tls_client_params = NULL; + net->tls_session_ticket_ctx = /* unsync. random, by default */ + tls_session_ticket_ctx_create(loop, NULL, 0); + net->tcp.in_idle_timeout = 10000; + net->tcp.tls_handshake_timeout = TLS_MAX_HANDSHAKE_TIME; + net->tcp_backlog = tcp_backlog; + } +} + +/** Notify the registered function about endpoint getting open. + * If log_port < 1, don't log it. */ +static int endpoint_open_lua_cb(struct network *net, struct endpoint *ep, + const char *log_addr) +{ + const bool ok = ep->flags.kind && !ep->handle && !ep->engaged && ep->fd != -1; + if (kr_fails_assert(ok)) + return kr_error(EINVAL); + /* First find callback in the endpoint registry. */ + lua_State *L = the_worker->engine->L; + void **pp = trie_get_try(net->endpoint_kinds, ep->flags.kind, + strlen(ep->flags.kind)); + if (!pp && net->missing_kind_is_error) { + kr_log_error(NETWORK, "error: network socket kind '%s' not handled when opening '%s", + ep->flags.kind, log_addr); + if (ep->family != AF_UNIX) + kr_log_error(NETWORK, "#%d", ep->port); + kr_log_error(NETWORK, "'\n"); + return kr_error(ENOENT); + } + if (!pp) return kr_ok(); + + /* Now execute the callback. */ + const int fun_id = (char *)*pp - (char *)NULL; + lua_rawgeti(L, LUA_REGISTRYINDEX, fun_id); + lua_pushboolean(L, true /* open */); + lua_pushpointer(L, ep); + if (ep->family == AF_UNIX) { + lua_pushstring(L, log_addr); + } else { + lua_pushfstring(L, "%s#%d", log_addr, ep->port); + } + if (lua_pcall(L, 3, 0, 0)) { + kr_log_error(NETWORK, "error opening %s: %s\n", log_addr, lua_tostring(L, -1)); + return kr_error(ENOSYS); /* TODO: better value? */ + } + ep->engaged = true; + return kr_ok(); +} + +static int engage_endpoint_array(const char *b_key, uint32_t key_len, trie_val_t *val, void *net) +{ + const char *log_addr = network_endpoint_key_str((struct endpoint_key *) b_key); + if (!log_addr) + log_addr = "[unknown]"; + + endpoint_array_t *eps = *val; + for (int i = 0; i < eps->len; ++i) { + struct endpoint *ep = &eps->at[i]; + const bool match = !ep->engaged && ep->flags.kind; + if (!match) continue; + int ret = endpoint_open_lua_cb(net, ep, log_addr); + if (ret) return ret; + } + return 0; +} + +int network_engage_endpoints(struct network *net) +{ + if (net->missing_kind_is_error) + return kr_ok(); /* maybe weird, but let's make it idempotent */ + net->missing_kind_is_error = true; + int ret = trie_apply_with_key(net->endpoints, engage_endpoint_array, net); + if (ret) { + net->missing_kind_is_error = false; /* avoid the same errors when closing */ + return ret; + } + return kr_ok(); +} + +const char *network_endpoint_key_str(const struct endpoint_key *key) +{ + switch (key->type) + { + case ENDPOINT_KEY_SOCKADDR:; + const struct endpoint_key_sockaddr *sa_key = + (struct endpoint_key_sockaddr *) key; + struct sockaddr_storage sa_storage; + struct sockaddr *sa = kr_sockaddr_from_key(&sa_storage, (const char *) &sa_key->sa_key); + return kr_straddr(sa); + case ENDPOINT_KEY_IFNAME:; + const struct endpoint_key_ifname *if_key = + (struct endpoint_key_ifname *) key; + return if_key->ifname; + default: + kr_assert(false); + return NULL; + } +} + +/** Notify the registered function about endpoint about to be closed. */ +static void endpoint_close_lua_cb(struct network *net, struct endpoint *ep) +{ + lua_State *L = the_worker->engine->L; + void **pp = trie_get_try(net->endpoint_kinds, ep->flags.kind, + strlen(ep->flags.kind)); + if (!pp && net->missing_kind_is_error) { + kr_log_error(NETWORK, "internal error: missing kind '%s' in endpoint registry\n", + ep->flags.kind); + return; + } + if (!pp) return; + + const int fun_id = (char *)*pp - (char *)NULL; + lua_rawgeti(L, LUA_REGISTRYINDEX, fun_id); + lua_pushboolean(L, false /* close */); + lua_pushpointer(L, ep); + lua_pushstring(L, "FIXME:endpoint-identifier"); + if (lua_pcall(L, 3, 0, 0)) { + kr_log_error(NETWORK, "failed to close FIXME:endpoint-identifier: %s\n", + lua_tostring(L, -1)); + } +} + +static void endpoint_close(struct network *net, struct endpoint *ep, bool force) +{ + const bool is_control = ep->flags.kind && strcmp(ep->flags.kind, "control") == 0; + const bool is_xdp = ep->family == AF_XDP; + + if (ep->family == AF_UNIX) { /* The FS name would be left behind. */ + /* Extract local address for this socket. */ + struct sockaddr_un sa; + sa.sun_path[0] = '\0'; /*< probably only for lint:scan-build */ + socklen_t addr_len = sizeof(sa); + if (getsockname(ep->fd, (struct sockaddr *)&sa, &addr_len) + || unlink(sa.sun_path)) { + kr_log_error(NETWORK, "error (ignored) when closing unix socket (fd = %d): %s\n", + ep->fd, strerror(errno)); + return; + } + } + + if (ep->flags.kind && !is_control && !is_xdp) { + kr_assert(!ep->handle); + /* Special lua-handled endpoint. */ + if (ep->engaged) { + endpoint_close_lua_cb(net, ep); + } + if (ep->fd > 0) { + close(ep->fd); /* nothing to do with errors */ + } + free_const(ep->flags.kind); + return; + } + + free_const(ep->flags.kind); /* needed if (is_control) */ + kr_require(ep->handle); + if (force) { /* Force close if event loop isn't running. */ + if (ep->fd >= 0) { + close(ep->fd); + } + if (ep->handle) { + ep->handle->loop = NULL; + io_free(ep->handle); + } + } else { /* Asynchronous close */ + uv_close(ep->handle, io_free); + } +} + +/** Endpoint visitor (see @file trie.h) */ +static int close_key(trie_val_t *val, void* net) +{ + endpoint_array_t *ep_array = *val; + for (int i = 0; i < ep_array->len; ++i) { + endpoint_close(net, &ep_array->at[i], true); + } + return 0; +} + +static int free_key(trie_val_t *val, void* ext) +{ + endpoint_array_t *ep_array = *val; + array_clear(*ep_array); + free(ep_array); + return kr_ok(); +} + +int kind_unregister(trie_val_t *tv, void *L) +{ + int fun_id = (char *)*tv - (char *)NULL; + luaL_unref(L, LUA_REGISTRYINDEX, fun_id); + return 0; +} + +void network_close_force(struct network *net) +{ + if (net != NULL) { + trie_apply(net->endpoints, close_key, net); + trie_apply(net->endpoints, free_key, NULL); + trie_clear(net->endpoints); + } +} + +/** Frees all the `struct net_proxy_data` in the specified trie. */ +void network_proxy_free_addr_data(trie_t* trie) +{ + trie_it_t *it; + for (it = trie_it_begin(trie); !trie_it_finished(it); trie_it_next(it)) { + struct net_proxy_data *data = *trie_it_val(it); + free(data); + } + trie_it_free(it); +} + +void network_deinit(struct network *net) +{ + if (net != NULL) { + network_close_force(net); + trie_apply(net->endpoint_kinds, kind_unregister, the_worker->engine->L); + trie_free(net->endpoint_kinds); + trie_free(net->endpoints); + network_proxy_free_addr_data(net->proxy_addrs4); + trie_free(net->proxy_addrs4); + network_proxy_free_addr_data(net->proxy_addrs6); + trie_free(net->proxy_addrs6); + + tls_credentials_free(net->tls_credentials); + tls_client_params_free(net->tls_client_params); + tls_session_ticket_ctx_destroy(net->tls_session_ticket_ctx); + #ifndef NDEBUG + memset(net, 0, sizeof(*net)); + #endif + } +} + +/** Creates an endpoint key for use with a `trie_t` and stores it into `dst`. + * Returns the actual length of the generated key. */ +static ssize_t endpoint_key_create(struct endpoint_key_storage *dst, + const char *addr_str, + const struct sockaddr *sa) +{ + memset(dst, 0, sizeof(*dst)); + if (sa) { + struct endpoint_key_sockaddr *key = &dst->sa; + key->type = ENDPOINT_KEY_SOCKADDR; + ssize_t keylen = kr_sockaddr_key(&key->sa_key, sa); + if (keylen < 0) + return keylen; + return sizeof(struct endpoint_key) + keylen; + } else { + struct endpoint_key_ifname *key = &dst->ifname; + key->type = ENDPOINT_KEY_IFNAME; + + /* The subtractions and additions of 1 are here to account for + * null-terminators. */ + strncpy(key->ifname, addr_str, sizeof(key->ifname) - 1); + return sizeof(struct endpoint_key) + strlen(key->ifname) + 1; + } +} + +/** Fetch or create endpoint array and insert endpoint (shallow memcpy). */ +static int insert_endpoint(struct network *net, const char *addr_str, + const struct sockaddr *addr, struct endpoint *ep) +{ + /* Fetch or insert address into map */ + struct endpoint_key_storage key; + ssize_t keylen = endpoint_key_create(&key, addr_str, addr); + if (keylen < 0) + return keylen; + trie_val_t *val = trie_get_ins(net->endpoints, key.bytes, keylen); + endpoint_array_t *ep_array; + if (*val) { + ep_array = *val; + } else { + ep_array = malloc(sizeof(*ep_array)); + kr_require(ep_array); + array_init(*ep_array); + *val = ep_array; + } + + if (array_reserve(*ep_array, ep_array->len + 1)) { + return kr_error(ENOMEM); + } + memcpy(&ep_array->at[ep_array->len++], ep, sizeof(*ep)); + return kr_ok(); +} + +/** Open endpoint protocols. ep->flags were pre-set. + * \p addr_str is only used for logging or for XDP "address". */ +static int open_endpoint(struct network *net, const char *addr_str, + struct endpoint *ep, const struct sockaddr *sa) +{ + const bool is_control = ep->flags.kind && strcmp(ep->flags.kind, "control") == 0; + const bool is_xdp = ep->family == AF_XDP; + bool ok = (!is_xdp) + || (sa == NULL && ep->fd == -1 && ep->nic_queue >= 0 + && ep->flags.sock_type == SOCK_DGRAM && !ep->flags.tls); + if (kr_fails_assert(ok)) + return kr_error(EINVAL); + if (ep->handle) { + return kr_error(EEXIST); + } + + if (sa && ep->fd == -1) { + if (sa->sa_family == AF_UNIX) { + struct sockaddr_un *sun = (struct sockaddr_un*)sa; + char *dirc = strdup(sun->sun_path); + char *dname = dirname(dirc); + (void)unlink(sun->sun_path); /** Attempt to unlink if socket path exists. */ + (void)mkdir(dname, S_IRWXU|S_IRWXG); /** Attempt to create dir. */ + free(dirc); + } + ep->fd = io_bind(sa, ep->flags.sock_type, &ep->flags); + if (ep->fd < 0) return ep->fd; + } + if (ep->flags.kind && !is_control && !is_xdp) { + /* This EP isn't to be managed internally after binding. */ + return endpoint_open_lua_cb(net, ep, addr_str); + } else { + ep->engaged = true; + /* .engaged seems not really meaningful in this case, but... */ + } + + int ret; + if (is_control) { + uv_pipe_t *ep_handle = malloc(sizeof(uv_pipe_t)); + ep->handle = (uv_handle_t *)ep_handle; + ret = !ep->handle ? ENOMEM + : io_listen_pipe(net->loop, ep_handle, ep->fd); + goto finish_ret; + } + + if (ep->family == AF_UNIX) { + /* Some parts of connection handling would need more work, + * so let's support AF_UNIX only with .kind != NULL for now. */ + kr_log_error(NETWORK, "AF_UNIX only supported with set { kind = '...' }\n"); + ret = EAFNOSUPPORT; + goto finish_ret; + /* + uv_pipe_t *ep_handle = malloc(sizeof(uv_pipe_t)); + */ + } + + if (is_xdp) { + #if ENABLE_XDP + uv_poll_t *ep_handle = malloc(sizeof(uv_poll_t)); + ep->handle = (uv_handle_t *)ep_handle; + ret = !ep->handle ? ENOMEM + : io_listen_xdp(net->loop, ep, addr_str); + #else + ret = ESOCKTNOSUPPORT; + #endif + goto finish_ret; + } /* else */ + + if (ep->flags.sock_type == SOCK_DGRAM) { + if (kr_fails_assert(!ep->flags.tls)) + return kr_error(EINVAL); + uv_udp_t *ep_handle = malloc(sizeof(uv_udp_t)); + ep->handle = (uv_handle_t *)ep_handle; + ret = !ep->handle ? ENOMEM + : io_listen_udp(net->loop, ep_handle, ep->fd); + goto finish_ret; + } /* else */ + + if (ep->flags.sock_type == SOCK_STREAM) { + uv_tcp_t *ep_handle = malloc(sizeof(uv_tcp_t)); + ep->handle = (uv_handle_t *)ep_handle; + ret = !ep->handle ? ENOMEM + : io_listen_tcp(net->loop, ep_handle, ep->fd, + net->tcp_backlog, ep->flags.tls, ep->flags.http); + goto finish_ret; + } /* else */ + + kr_assert(false); + return kr_error(EINVAL); +finish_ret: + if (!ret) return ret; + free(ep->handle); + ep->handle = NULL; + return kr_error(ret); +} + +/** @internal Fetch a pointer to endpoint of given parameters (or NULL). + * Beware that there might be multiple matches, though that's not common. + * The matching isn't really precise in the sense that it might not find + * and endpoint that would *collide* the passed one. */ +static struct endpoint * endpoint_get(struct network *net, + const char *addr_str, + const struct sockaddr *sa, + endpoint_flags_t flags) +{ + struct endpoint_key_storage key; + ssize_t keylen = endpoint_key_create(&key, addr_str, sa); + if (keylen < 0) + return NULL; + trie_val_t *val = trie_get_try(net->endpoints, key.bytes, keylen); + if (!val) + return NULL; + endpoint_array_t *ep_array = *val; + + uint16_t port = kr_inaddr_port(sa); + for (int i = 0; i < ep_array->len; ++i) { + struct endpoint *ep = &ep_array->at[i]; + if ((flags.xdp || ep->port == port) && endpoint_flags_eq(ep->flags, flags)) { + return ep; + } + } + return NULL; +} + +/** \note pass (either sa != NULL xor ep.fd != -1) or XDP case (neither sa nor ep.fd) + * \note in XDP case addr_str is interface name + * \note ownership of ep.flags.* is taken on success. */ +static int create_endpoint(struct network *net, const char *addr_str, + struct endpoint *ep, const struct sockaddr *sa) +{ + int ret = open_endpoint(net, addr_str, ep, sa); + if (ret == 0) { + ret = insert_endpoint(net, addr_str, sa, ep); + } + if (ret != 0 && ep->handle) { + endpoint_close(net, ep, false); + } + return ret; +} + +int network_listen_fd(struct network *net, int fd, endpoint_flags_t flags) +{ + if (kr_fails_assert(!flags.xdp)) + return kr_error(EINVAL); + /* Extract fd's socket type. */ + socklen_t len = sizeof(flags.sock_type); + int ret = getsockopt(fd, SOL_SOCKET, SO_TYPE, &flags.sock_type, &len); + if (ret != 0) + return kr_error(errno); + const bool is_dtls = flags.sock_type == SOCK_DGRAM && !flags.kind && flags.tls; + if (kr_fails_assert(!is_dtls)) + return kr_error(EINVAL); /* Perhaps DTLS some day. */ + if (flags.sock_type != SOCK_DGRAM && flags.sock_type != SOCK_STREAM) + return kr_error(EBADF); + + /* Extract local address for this socket. */ + struct sockaddr_storage ss = { .ss_family = AF_UNSPEC }; + socklen_t addr_len = sizeof(ss); + ret = getsockname(fd, (struct sockaddr *)&ss, &addr_len); + if (ret != 0) + return kr_error(errno); + + struct endpoint ep = { + .flags = flags, + .family = ss.ss_family, + .fd = fd, + }; + /* Extract address string and port. */ + char addr_buf[INET6_ADDRSTRLEN]; /* https://tools.ietf.org/html/rfc4291 */ + const char *addr_str; + switch (ep.family) { + case AF_INET: + ret = uv_ip4_name((const struct sockaddr_in*)&ss, addr_buf, sizeof(addr_buf)); + addr_str = addr_buf; + ep.port = ntohs(((struct sockaddr_in *)&ss)->sin_port); + break; + case AF_INET6: + ret = uv_ip6_name((const struct sockaddr_in6*)&ss, addr_buf, sizeof(addr_buf)); + addr_str = addr_buf; + ep.port = ntohs(((struct sockaddr_in6 *)&ss)->sin6_port); + break; + case AF_UNIX: + /* No SOCK_DGRAM with AF_UNIX support, at least for now. */ + ret = flags.sock_type == SOCK_STREAM ? kr_ok() : kr_error(EAFNOSUPPORT); + addr_str = ((struct sockaddr_un *)&ss)->sun_path; + break; + default: + ret = kr_error(EAFNOSUPPORT); + } + if (ret) return ret; + + /* always create endpoint for supervisor supplied fd + * even if addr+port is not unique */ + return create_endpoint(net, addr_str, &ep, (struct sockaddr *) &ss); +} + +/** Try selecting XDP queue automatically. */ +static int16_t nic_queue_auto(void) +{ + const char *inst_str = getenv("SYSTEMD_INSTANCE"); + if (!inst_str) + return 0; // should work OK for simple (single-kresd) deployments + char *endp; + errno = 0; // strtol() is special in this respect + long inst = strtol(inst_str, &endp, 10); + if (!errno && *endp == '\0' && inst > 0 && inst < UINT16_MAX) + return inst - 1; // 1-based vs. 0-based indexing conventions + return -1; +} + +int network_listen(struct network *net, const char *addr, uint16_t port, + int16_t nic_queue, endpoint_flags_t flags) +{ + if (kr_fails_assert(net != NULL && addr != 0 && nic_queue >= -1)) + return kr_error(EINVAL); + + if (flags.xdp && nic_queue < 0) { + nic_queue = nic_queue_auto(); + if (nic_queue < 0) { + return kr_error(EINVAL); + } + } + + // Try parsing the address. + const struct sockaddr *sa = kr_straddr_socket(addr, port, NULL); + if (!sa && !flags.xdp) { // unusable address spec + return kr_error(EINVAL); + } + char ifname_buf[64] UNUSED; + if (sa && flags.xdp) { // auto-detection: address -> interface + #if ENABLE_XDP + int ret = knot_eth_name_from_addr((const struct sockaddr_storage *)sa, + ifname_buf, sizeof(ifname_buf)); + // even on success we don't want to pass `sa` on + free_const(sa); + sa = NULL; + if (ret) { + return kr_error(ret); + } + addr = ifname_buf; + #else + return kr_error(ESOCKTNOSUPPORT); + #endif + } + // XDP: if addr failed to parse as address, we assume it's an interface name. + + if (endpoint_get(net, addr, sa, flags)) { + return kr_error(EADDRINUSE); // Already listening + } + + struct endpoint ep = { 0 }; + ep.flags = flags; + ep.fd = -1; + ep.port = port; + ep.family = flags.xdp ? AF_XDP : sa->sa_family; + ep.nic_queue = nic_queue; + + int ret = create_endpoint(net, addr, &ep, sa); + + // Error reporting: more precision. + if (ret == KNOT_EINVAL && !sa && flags.xdp && ENABLE_XDP) { + if (!if_nametoindex(addr) && errno == ENODEV) { + ret = kr_error(ENODEV); + } + } + + free_const(sa); + return ret; +} + +int network_proxy_allow(struct network *net, const char* addr) +{ + if (kr_fails_assert(net != NULL && addr != NULL)) + return kr_error(EINVAL); + + int family = kr_straddr_family(addr); + if (family < 0) { + kr_log_error(NETWORK, "Wrong address format for proxy_allowed: %s\n", + addr); + return kr_error(EINVAL); + } else if (family == AF_UNIX) { + kr_log_error(NETWORK, "Unix sockets not supported for proxy_allowed: %s\n", + addr); + return kr_error(EINVAL); + } + + union kr_in_addr ia; + int netmask = kr_straddr_subnet(&ia, addr); + if (netmask < 0) { + kr_log_error(NETWORK, "Wrong netmask format for proxy_allowed: %s\n", addr); + return kr_error(EINVAL); + } else if (netmask == 0) { + /* Netmask is zero: allow all addresses to use PROXYv2 */ + switch (family) { + case AF_INET: + net->proxy_all4 = true; + break; + case AF_INET6: + net->proxy_all6 = true; + break; + default: + kr_assert(false); + return kr_error(EINVAL); + } + + return kr_ok(); + } + + size_t addr_length; + trie_t *trie; + switch (family) { + case AF_INET: + addr_length = sizeof(ia.ip4); + trie = net->proxy_addrs4; + break; + case AF_INET6: + addr_length = sizeof(ia.ip6); + trie = net->proxy_addrs6; + break; + default: + kr_assert(false); + return kr_error(EINVAL); + } + + kr_bitmask((unsigned char *) &ia, addr_length, netmask); + trie_val_t *val = trie_get_ins(trie, (char *) &ia, addr_length); + if (!val) + return kr_error(ENOMEM); + + struct net_proxy_data *data = *val; + if (!data) { + /* Allocate data if the entry is new in the trie */ + *val = malloc(sizeof(struct net_proxy_data)); + data = *val; + data->netmask = 0; + } + + if (data->netmask == 0) { + memcpy(&data->addr, &ia, addr_length); + data->netmask = netmask; + } else if (data->netmask > netmask) { + /* A more relaxed netmask configured - replace it */ + data->netmask = netmask; + } + + return kr_ok(); +} + +void network_proxy_reset(struct network *net) +{ + net->proxy_all4 = false; + network_proxy_free_addr_data(net->proxy_addrs4); + trie_clear(net->proxy_addrs4); + net->proxy_all6 = false; + network_proxy_free_addr_data(net->proxy_addrs6); + trie_clear(net->proxy_addrs6); +} + +static int endpoints_close(struct network *net, + struct endpoint_key_storage *key, ssize_t keylen, + endpoint_array_t *ep_array, int port) +{ + size_t i = 0; + bool matched = false; /*< at least one match */ + while (i < ep_array->len) { + struct endpoint *ep = &ep_array->at[i]; + if (port < 0 || ep->port == port) { + endpoint_close(net, ep, false); + array_del(*ep_array, i); + matched = true; + /* do not advance i */ + } else { + ++i; + } + } + if (!matched) { + return kr_error(ENOENT); + } + + return kr_ok(); +} + +static bool endpoint_key_addr_matches(struct endpoint_key_storage *key_a, + struct endpoint_key_storage *key_b) +{ + if (key_a->type != key_b->type) + return false; + + if (key_a->type == ENDPOINT_KEY_IFNAME) + return strncmp(key_a->ifname.ifname, + key_b->ifname.ifname, + sizeof(key_a->ifname.ifname)) == 0; + + if (key_a->type == ENDPOINT_KEY_SOCKADDR) { + return kr_sockaddr_key_same_addr( + key_a->sa.sa_key.bytes, key_b->sa.sa_key.bytes); + } + + kr_assert(false); + return kr_error(EINVAL); +} + +struct endpoint_key_with_len { + struct endpoint_key_storage key; + size_t keylen; +}; +typedef array_t(struct endpoint_key_with_len) endpoint_key_array_t; + +struct endpoint_close_wildcard_context { + struct network *net; + struct endpoint_key_storage *match_key; + endpoint_key_array_t del; + int ret; +}; + +static int endpoints_close_wildcard(const char *s_key, uint32_t keylen, trie_val_t *val, void *baton) +{ + struct endpoint_close_wildcard_context *ctx = baton; + struct endpoint_key_storage *key = (struct endpoint_key_storage *)s_key; + + if (!endpoint_key_addr_matches(key, ctx->match_key)) + return kr_ok(); + + endpoint_array_t *ep_array = *val; + int ret = endpoints_close(ctx->net, key, keylen, ep_array, -1); + if (ret) + ctx->ret = ret; + + if (ep_array->len == 0) { + struct endpoint_key_with_len to_del = { + .key = *key, + .keylen = keylen + }; + array_push(ctx->del, to_del); + } + + return kr_ok(); +} + +int network_close(struct network *net, const char *addr_str, int port) +{ + auto_free struct sockaddr *addr = kr_straddr_socket(addr_str, port, NULL); + struct endpoint_key_storage key; + ssize_t keylen = endpoint_key_create(&key, addr_str, addr); + if (keylen < 0) + return keylen; + + if (port < 0) { + struct endpoint_close_wildcard_context ctx = { + .net = net, + .match_key = &key + }; + array_init(ctx.del); + trie_apply_with_key(net->endpoints, endpoints_close_wildcard, &ctx); + for (size_t i = 0; i < ctx.del.len; i++) { + trie_val_t val; + trie_del(net->endpoints, + ctx.del.at[i].key.bytes, ctx.del.at[i].keylen, + &val); + if (val) { + array_clear(*(endpoint_array_t *) val); + free(val); + } + } + return ctx.ret; + } + + trie_val_t *val = trie_get_try(net->endpoints, key.bytes, keylen); + if (!val) + return kr_error(ENOENT); + endpoint_array_t *ep_array = *val; + int ret = endpoints_close(net, &key, keylen, ep_array, port); + + /* Collapse key if it has no endpoint. */ + if (ep_array->len == 0) { + array_clear(*ep_array); + free(ep_array); + trie_del(net->endpoints, key.bytes, keylen, NULL); + } + + return ret; +} + +void network_new_hostname(struct network *net, struct engine *engine) +{ + if (net->tls_credentials && + net->tls_credentials->ephemeral_servicename) { + struct tls_credentials *newcreds; + newcreds = tls_get_ephemeral_credentials(engine); + if (newcreds) { + tls_credentials_release(net->tls_credentials); + net->tls_credentials = newcreds; + kr_log_info(TLS, "Updated ephemeral X.509 cert with new hostname\n"); + } else { + kr_log_error(TLS, "Failed to update ephemeral X.509 cert with new hostname, using existing one\n"); + } + } +} + +#ifdef SO_ATTACH_BPF +static int set_bpf_cb(trie_val_t *val, void *ctx) +{ + endpoint_array_t *endpoints = *val; + int *bpffd = (int *)ctx; + if (kr_fails_assert(endpoints && bpffd)) + return kr_error(EINVAL); + + for (size_t i = 0; i < endpoints->len; i++) { + struct endpoint *endpoint = &endpoints->at[i]; + uv_os_fd_t sockfd = -1; + if (endpoint->handle != NULL) + uv_fileno(endpoint->handle, &sockfd); + kr_require(sockfd != -1); + + if (setsockopt(sockfd, SOL_SOCKET, SO_ATTACH_BPF, bpffd, sizeof(int)) != 0) { + return 1; /* return error (and stop iterating over net->endpoints) */ + } + } + return 0; /* OK */ +} +#endif + +int network_set_bpf(struct network *net, int bpf_fd) +{ +#ifdef SO_ATTACH_BPF + if (trie_apply(net->endpoints, set_bpf_cb, &bpf_fd) != 0) { + /* set_bpf_cb() has returned error. */ + network_clear_bpf(net); + return 0; + } +#else + kr_log_error(NETWORK, "SO_ATTACH_BPF socket option doesn't supported\n"); + (void)net; + (void)bpf_fd; + return 0; +#endif + return 1; +} + +#ifdef SO_DETACH_BPF +static int clear_bpf_cb(trie_val_t *val, void *ctx) +{ + endpoint_array_t *endpoints = *val; + if (kr_fails_assert(endpoints)) + return kr_error(EINVAL); + + for (size_t i = 0; i < endpoints->len; i++) { + struct endpoint *endpoint = &endpoints->at[i]; + uv_os_fd_t sockfd = -1; + if (endpoint->handle != NULL) + uv_fileno(endpoint->handle, &sockfd); + kr_require(sockfd != -1); + + if (setsockopt(sockfd, SOL_SOCKET, SO_DETACH_BPF, NULL, 0) != 0) { + kr_log_error(NETWORK, "failed to clear SO_DETACH_BPF socket option\n"); + } + /* Proceed even if setsockopt() failed, + * as we want to process all opened sockets. */ + } + return 0; +} +#endif + +void network_clear_bpf(struct network *net) +{ +#ifdef SO_DETACH_BPF + trie_apply(net->endpoints, clear_bpf_cb, NULL); +#else + kr_log_error(NETWORK, "SO_DETACH_BPF socket option doesn't supported\n"); + (void)net; +#endif +} -- cgit v1.2.3