npf_test_subr.c revision 1.17
1 1.1 rmind /* 2 1.1 rmind * NPF initialisation and handler routines. 3 1.1 rmind * 4 1.1 rmind * Public Domain. 5 1.1 rmind */ 6 1.1 rmind 7 1.12 christos #ifdef _KERNEL 8 1.1 rmind #include <sys/types.h> 9 1.7 rmind #include <sys/cprng.h> 10 1.13 rmind #include <sys/kmem.h> 11 1.1 rmind #include <net/if.h> 12 1.1 rmind #include <net/if_types.h> 13 1.12 christos #endif 14 1.1 rmind 15 1.1 rmind #include "npf_impl.h" 16 1.1 rmind #include "npf_test.h" 17 1.1 rmind 18 1.1 rmind /* State of the current stream. */ 19 1.1 rmind static npf_state_t cstream_state; 20 1.1 rmind static void * cstream_ptr; 21 1.1 rmind static bool cstream_retval; 22 1.1 rmind 23 1.9 rmind static long (*_random_func)(void); 24 1.9 rmind static int (*_pton_func)(int, const char *, void *); 25 1.9 rmind static const char * (*_ntop_func)(int, const void *, char *, socklen_t); 26 1.9 rmind 27 1.4 rmind static void npf_state_sample(npf_state_t *, bool); 28 1.4 rmind 29 1.13 rmind static void load_npf_config_ifs(nvlist_t *, bool); 30 1.13 rmind 31 1.12 christos #ifndef __NetBSD__ 32 1.12 christos /* 33 1.12 christos * Standalone NPF: we define the same struct ifnet members 34 1.12 christos * to reduce the npf_ifops_t implementation differences. 35 1.12 christos */ 36 1.12 christos struct ifnet { 37 1.12 christos char if_xname[32]; 38 1.12 christos void * if_softc; 39 1.12 christos TAILQ_ENTRY(ifnet) if_list; 40 1.12 christos }; 41 1.12 christos #endif 42 1.12 christos 43 1.12 christos static TAILQ_HEAD(, ifnet) npftest_ifnet_list = 44 1.12 christos TAILQ_HEAD_INITIALIZER(npftest_ifnet_list); 45 1.12 christos 46 1.17 rmind static const char * npftest_ifop_getname(npf_t *, ifnet_t *); 47 1.17 rmind static ifnet_t * npftest_ifop_lookup(npf_t *, const char *); 48 1.17 rmind static void npftest_ifop_flush(npf_t *, void *); 49 1.17 rmind static void * npftest_ifop_getmeta(npf_t *, const ifnet_t *); 50 1.17 rmind static void npftest_ifop_setmeta(npf_t *, ifnet_t *, void *); 51 1.12 christos 52 1.15 rmind const npf_ifops_t npftest_ifops = { 53 1.12 christos .getname = npftest_ifop_getname, 54 1.17 rmind .lookup = npftest_ifop_lookup, 55 1.12 christos .flush = npftest_ifop_flush, 56 1.12 christos .getmeta = npftest_ifop_getmeta, 57 1.12 christos .setmeta = npftest_ifop_setmeta, 58 1.12 christos }; 59 1.12 christos 60 1.4 rmind void 61 1.9 rmind npf_test_init(int (*pton_func)(int, const char *, void *), 62 1.9 rmind const char *(*ntop_func)(int, const void *, char *, socklen_t), 63 1.9 rmind long (*rndfunc)(void)) 64 1.4 rmind { 65 1.12 christos npf_t *npf; 66 1.12 christos 67 1.16 rmind npfk_sysinit(0); 68 1.17 rmind npf = npfk_create(0, &npftest_mbufops, &npftest_ifops, NULL); 69 1.16 rmind npfk_thread_register(npf); 70 1.12 christos npf_setkernctx(npf); 71 1.12 christos 72 1.4 rmind npf_state_setsampler(npf_state_sample); 73 1.9 rmind _pton_func = pton_func; 74 1.9 rmind _ntop_func = ntop_func; 75 1.9 rmind _random_func = rndfunc; 76 1.15 rmind 77 1.15 rmind (void)npf_test_addif(IFNAME_DUMMY, false, false); 78 1.4 rmind } 79 1.4 rmind 80 1.12 christos void 81 1.12 christos npf_test_fini(void) 82 1.12 christos { 83 1.12 christos npf_t *npf = npf_getkernctx(); 84 1.16 rmind npfk_thread_unregister(npf); 85 1.16 rmind npfk_destroy(npf); 86 1.16 rmind npfk_sysfini(); 87 1.12 christos } 88 1.12 christos 89 1.1 rmind int 90 1.13 rmind npf_test_load(const void *buf, size_t len, bool verbose) 91 1.1 rmind { 92 1.13 rmind nvlist_t *npf_dict; 93 1.13 rmind npf_error_t error; 94 1.17 rmind int ret; 95 1.13 rmind 96 1.13 rmind npf_dict = nvlist_unpack(buf, len, 0); 97 1.13 rmind if (!npf_dict) { 98 1.13 rmind printf("%s: could not unpack the nvlist\n", __func__); 99 1.13 rmind return EINVAL; 100 1.13 rmind } 101 1.13 rmind load_npf_config_ifs(npf_dict, verbose); 102 1.17 rmind ret = npfk_load(npf_getkernctx(), npf_dict, &error); 103 1.17 rmind nvlist_destroy(npf_dict); 104 1.17 rmind return ret; 105 1.1 rmind } 106 1.1 rmind 107 1.6 rmind ifnet_t * 108 1.6 rmind npf_test_addif(const char *ifname, bool reg, bool verbose) 109 1.3 rmind { 110 1.12 christos npf_t *npf = npf_getkernctx(); 111 1.13 rmind ifnet_t *ifp = kmem_zalloc(sizeof(*ifp), KM_SLEEP); 112 1.3 rmind 113 1.3 rmind /* 114 1.3 rmind * This is a "fake" interface with explicitly set index. 115 1.6 rmind * Note: test modules may not setup pfil(9) hooks and if_attach() 116 1.6 rmind * may not trigger npf_ifmap_attach(), so we call it manually. 117 1.3 rmind */ 118 1.3 rmind strlcpy(ifp->if_xname, ifname, sizeof(ifp->if_xname)); 119 1.12 christos TAILQ_INSERT_TAIL(&npftest_ifnet_list, ifp, if_list); 120 1.6 rmind 121 1.16 rmind npfk_ifmap_attach(npf, ifp); 122 1.6 rmind if (reg) { 123 1.12 christos npf_ifmap_register(npf, ifname); 124 1.6 rmind } 125 1.6 rmind 126 1.6 rmind if (verbose) { 127 1.6 rmind printf("+ Interface %s\n", ifname); 128 1.6 rmind } 129 1.6 rmind return ifp; 130 1.3 rmind } 131 1.3 rmind 132 1.17 rmind ifnet_t * 133 1.17 rmind npf_test_getif(const char *ifname) 134 1.17 rmind { 135 1.17 rmind ifnet_t *ifp; 136 1.17 rmind 137 1.17 rmind TAILQ_FOREACH(ifp, &npftest_ifnet_list, if_list) { 138 1.17 rmind if (!strcmp(ifp->if_xname, ifname)) 139 1.17 rmind return ifp; 140 1.17 rmind } 141 1.17 rmind return NULL; 142 1.17 rmind } 143 1.17 rmind 144 1.13 rmind static void 145 1.13 rmind load_npf_config_ifs(nvlist_t *npf_dict, bool verbose) 146 1.13 rmind { 147 1.13 rmind const nvlist_t * const *iflist; 148 1.13 rmind const nvlist_t *dbg_dict; 149 1.13 rmind size_t nitems; 150 1.13 rmind 151 1.13 rmind dbg_dict = dnvlist_get_nvlist(npf_dict, "debug", NULL); 152 1.13 rmind if (!dbg_dict) { 153 1.13 rmind return; 154 1.13 rmind } 155 1.13 rmind if (!nvlist_exists_nvlist_array(dbg_dict, "interfaces")) { 156 1.13 rmind return; 157 1.13 rmind } 158 1.13 rmind iflist = nvlist_get_nvlist_array(dbg_dict, "interfaces", &nitems); 159 1.13 rmind for (unsigned i = 0; i < nitems; i++) { 160 1.13 rmind const nvlist_t *ifdict = iflist[i]; 161 1.13 rmind const char *ifname; 162 1.13 rmind 163 1.13 rmind if ((ifname = nvlist_get_string(ifdict, "name")) != NULL) { 164 1.13 rmind (void)npf_test_addif(ifname, true, verbose); 165 1.13 rmind } 166 1.13 rmind } 167 1.13 rmind } 168 1.13 rmind 169 1.12 christos static const char * 170 1.17 rmind npftest_ifop_getname(npf_t *npf __unused, ifnet_t *ifp) 171 1.12 christos { 172 1.12 christos return ifp->if_xname; 173 1.12 christos } 174 1.12 christos 175 1.17 rmind static ifnet_t * 176 1.17 rmind npftest_ifop_lookup(npf_t *npf __unused, const char *ifname) 177 1.3 rmind { 178 1.17 rmind return npf_test_getif(ifname); 179 1.12 christos } 180 1.12 christos 181 1.12 christos static void 182 1.17 rmind npftest_ifop_flush(npf_t *npf __unused, void *arg) 183 1.12 christos { 184 1.12 christos ifnet_t *ifp; 185 1.12 christos 186 1.12 christos TAILQ_FOREACH(ifp, &npftest_ifnet_list, if_list) 187 1.12 christos ifp->if_softc = arg; 188 1.12 christos } 189 1.12 christos 190 1.12 christos static void * 191 1.17 rmind npftest_ifop_getmeta(npf_t *npf __unused, const ifnet_t *ifp) 192 1.12 christos { 193 1.12 christos return ifp->if_softc; 194 1.12 christos } 195 1.12 christos 196 1.12 christos static void 197 1.17 rmind npftest_ifop_setmeta(npf_t *npf __unused, ifnet_t *ifp, void *arg) 198 1.12 christos { 199 1.12 christos ifp->if_softc = arg; 200 1.3 rmind } 201 1.3 rmind 202 1.1 rmind /* 203 1.1 rmind * State sampler - this routine is called from inside of NPF state engine. 204 1.1 rmind */ 205 1.4 rmind static void 206 1.1 rmind npf_state_sample(npf_state_t *nst, bool retval) 207 1.1 rmind { 208 1.1 rmind /* Pointer will serve as an ID. */ 209 1.1 rmind cstream_ptr = nst; 210 1.1 rmind memcpy(&cstream_state, nst, sizeof(npf_state_t)); 211 1.1 rmind cstream_retval = retval; 212 1.1 rmind } 213 1.1 rmind 214 1.1 rmind int 215 1.6 rmind npf_test_statetrack(const void *data, size_t len, ifnet_t *ifp, 216 1.1 rmind bool forw, int64_t *result) 217 1.1 rmind { 218 1.12 christos npf_t *npf = npf_getkernctx(); 219 1.1 rmind struct mbuf *m; 220 1.1 rmind int i = 0, error; 221 1.1 rmind 222 1.1 rmind m = mbuf_getwithdata(data, len); 223 1.16 rmind error = npfk_packet_handler(npf, &m, ifp, forw ? PFIL_OUT : PFIL_IN); 224 1.1 rmind if (error) { 225 1.1 rmind assert(m == NULL); 226 1.1 rmind return error; 227 1.1 rmind } 228 1.1 rmind assert(m != NULL); 229 1.1 rmind m_freem(m); 230 1.1 rmind 231 1.1 rmind const int di = forw ? NPF_FLOW_FORW : NPF_FLOW_BACK; 232 1.1 rmind npf_tcpstate_t *fstate = &cstream_state.nst_tcpst[di]; 233 1.1 rmind npf_tcpstate_t *tstate = &cstream_state.nst_tcpst[!di]; 234 1.1 rmind 235 1.1 rmind result[i++] = (intptr_t)cstream_ptr; 236 1.1 rmind result[i++] = cstream_retval; 237 1.1 rmind result[i++] = cstream_state.nst_state; 238 1.1 rmind 239 1.1 rmind result[i++] = fstate->nst_end; 240 1.1 rmind result[i++] = fstate->nst_maxend; 241 1.1 rmind result[i++] = fstate->nst_maxwin; 242 1.2 rmind result[i++] = fstate->nst_wscale; 243 1.1 rmind 244 1.1 rmind result[i++] = tstate->nst_end; 245 1.1 rmind result[i++] = tstate->nst_maxend; 246 1.1 rmind result[i++] = tstate->nst_maxwin; 247 1.2 rmind result[i++] = tstate->nst_wscale; 248 1.1 rmind 249 1.1 rmind return 0; 250 1.1 rmind } 251 1.7 rmind 252 1.9 rmind int 253 1.9 rmind npf_inet_pton(int af, const char *src, void *dst) 254 1.9 rmind { 255 1.9 rmind return _pton_func(af, src, dst); 256 1.9 rmind } 257 1.9 rmind 258 1.9 rmind const char * 259 1.9 rmind npf_inet_ntop(int af, const void *src, char *dst, socklen_t size) 260 1.9 rmind { 261 1.9 rmind return _ntop_func(af, src, dst, size); 262 1.9 rmind } 263 1.9 rmind 264 1.12 christos #ifdef _KERNEL 265 1.7 rmind /* 266 1.11 tls * Need to override cprng_fast32() -- we need deterministic PRNG. 267 1.7 rmind */ 268 1.7 rmind uint32_t 269 1.11 tls cprng_fast32(void) 270 1.7 rmind { 271 1.9 rmind return (uint32_t)(_random_func ? _random_func() : random()); 272 1.7 rmind } 273 1.12 christos #endif 274
Indexes created Tue Sep 23 20:09:58 GMT 2025