/* * Copyright (c) 2003-2005 Sendmail, Inc. and its suppliers. * All rights reserved. * * By using this file, you agree to the terms and conditions set * forth in the LICENSE file which can be found at the top level of * the sendmail distribution. */ /* ** Send address (printable recipient address) to SMAR to check whether ** recipient is acceptable, i.e., if "local" then it must be in aliases. ** Used by t-archk-0.sh */ #include "sm/generic.h" SM_RCSID("@(#)$Id: t-smar-2.c,v 1.29 2006/04/02 06:34:20 ca Exp $") #include "sm/error.h" #include "sm/assert.h" #include "sm/memops.h" #include "sm/io.h" #include "sm/rcb.h" #include "sm/qmgr.h" #include "sm/qmgr-int.h" #include "sm/dns.h" #include "sm/smar.h" #include "sm/reccom.h" #include "sm/unixsock.h" #include "sm/test.h" /* context for requests */ struct t_req_S { char **rq_rcpt_pa; int rq_count; uint32_t rq_lt; uint32_t rq_flags; rcbcom_ctx_P rq_qar_com; sm_evthr_task_P rq_wr_tsk; }; #define SMAXLEN 256 typedef struct t_req_S t_req_T, *t_req_P; static pthread_mutex_t mutex; static pthread_cond_t cond; static int Verbose = 0; static uint MaxCount = (DNS_TIMEOUT + 1) * 10; static int Requests = 0; static int aqt_rcpts_ar = 0; static sm_evthr_ctx_P evthr_ctx; static rcbcom_ctx_T rcb_com; static sm_ret_T ar2qmgr(sm_evthr_task_P _tsk); static sm_ret_T qmgr2ar(sm_evthr_task_P _tsk); /* ** FCTS -- "sleep" function: this function terminates the evthr system ** either after a certain number of iterations or if there are no ** more outstanding requests. ** ** Parameters: ** tsk -- evthr task ** ** Returns: ** usual sm_error code */ static sm_ret_T fcts(sm_evthr_task_P tsk) { static uint count = 0; struct timeval sleept, delay; ++count; if (Verbose > 3 && (count % 10 == 0)) fprintf(stderr, "fcts: count=%u/%u, ", count, MaxCount); /* Theoretically Requests needs to be protected by a mutex... */ if (Requests <= 0 || count > MaxCount) return EVTHR_DEL|EVTHR_TERM; sm_memzero(&sleept, sizeof(sleept)); gettimeofday(&sleept, NULL); delay.tv_sec = 1; delay.tv_usec = 0; timeradd(&sleept, &delay, &tsk->evthr_t_sleep); return EVTHR_SLPQ; } /* ** QMGR_AR -- test program to AR interface ** ** Parameters: ** tsk -- evthr task ** ** Returns: ** usual sm_error code */ static sm_ret_T qmgr_ar(sm_evthr_task_P tsk) { sm_ret_T ret; SM_IS_EVTHR_TSK(tsk); if (is_valid_fd(tsk->evthr_t_fd)) { ret = EVTHR_WAITQ; if (evthr_got_wr(tsk)) { if (Verbose > 3) fprintf(stderr, "write\n"); ret = qmgr2ar(tsk); /* XXX check ret here? */ if (sm_is_err(ret) && Verbose > 0) fprintf(stderr, "qmgr2ar=%x\n", ret); } if (evthr_got_rd(tsk)) { if (Verbose > 3) fprintf(stderr, "read\n"); ret = ar2qmgr(tsk); } if (sm_is_err(ret)) { if (Verbose > 1) fprintf(stderr, "qmgr_ar=%x\n", ret); return ret; } return ret; } return EVTHR_DEL; } /* ** QR2AR -- Send recipient data to AR, i.e., put it into RCB ** ** Parameters: ** rcpt_pa -- printable address of recipient ** rcbe -- RCB entry ** flags -- flags ** lt -- lookup type ** ** Returns: ** usual sm_error code */ static sm_ret_T qr2ar(sm_str_P rcpt_pa, sm_rcbe_P rcbe, uint32_t flags, uint32_t lt) { sm_rcb_P rcb; sm_ret_T ret; sessta_id_T ta_id; ret = SM_SUCCESS; rcb = &rcbe->rcbe_rcb; sm_snprintf(ta_id, sizeof(ta_id), SMTPS_STID_FORMAT, (ulonglong_T)0, 0); /* XXX send rcpt_idx and ta_id separately? */ ret = sm_rcb_putv(rcb, RCB_PUTV_FIRST, SM_RCBV_INT, RT_PROT_VER, PROT_VER_RT, SM_RCBV_INT, RT_S2A_ID, 1, SM_RCBV_BUF, RT_S2A_TAID, ta_id, SMTP_STID_SIZE, SM_RCBV_STR, RT_S2A_RCPT, rcpt_pa, SM_RCBV_INT, RT_S2A_RCPT_IDX, 1, SM_RCBV_INT2, RT_S2A_LTYPE, lt, flags, SM_RCBV_END); if (sm_is_err(ret)) goto error; if (Verbose > 4) fprintf(stderr, "qr2ar, ret=%d, rw=%d, size=%d, len=%d, max=%d\n" , ret , rcb->sm_rcb_rw , (int) rcb->sm_rcb_size , (int) rcb->sm_rcb_len , (int) rcb->sm_rcb_max ); return ret; error: /* XXX leave rcb in a consistent state? */ return ret; } /* ** RCPT2AR -- send a recipient to SMAR ** ** Parameters: ** qar_tsk -- evthr task ** rcpt_pa -- printable address of recipient ** qar_com -- RCBCOM context ** flags -- flags ** lt -- lookup type ** ** Returns: ** usual sm_error code */ static sm_ret_T rcpt2ar(sm_evthr_task_P qar_tsk, sm_str_P rcpt_pa, rcbcom_ctx_P qar_com, uint32_t flags, uint32_t lt) { sm_ret_T ret; sm_rcbe_P rcbe; ret = sm_rcbe_new_enc(&rcbe, -1, 0); if (sm_is_err(ret)) goto error; ret = qr2ar(rcpt_pa, rcbe, flags, lt); if (sm_is_err(ret)) goto error; ret = sm_rcbcom_endrep(qar_com, qar_tsk, true, &rcbe); if (sm_is_err(ret)) goto error; ++aqt_rcpts_ar; return SM_SUCCESS; error: if (rcbe != NULL) sm_rcbe_free(rcbe); return ret; } /* ** QMGR2AR -- Test program to AR interface ** ** Parameters: ** tsk -- evthr task ** ** Returns: ** usual sm_error code */ static sm_ret_T qmgr2ar(sm_evthr_task_P tsk) { sm_ret_T ret; rcbcom_ctx_P qar_com; t_req_P t_req; SM_IS_EVTHR_TSK(tsk); t_req = (t_req_P) tsk->evthr_t_actx; qar_com = t_req->rq_qar_com; ret = sm_rcbcom2mod(tsk, qar_com); if (Verbose > 4) fprintf(stderr, "qmgr2ar, ret=%d\n", ret); return ret; } /* ** REACT -- Decode data received from AR and act accordingly ** ** Parameters: ** tsk -- evthr task ** ** Returns: ** usual sm_error code */ static sm_ret_T react(sm_evthr_task_P tsk) { uint32_t v, l, rt, tl; bool needeol; sm_ret_T ret; sm_rcb_P rcb; sessta_id_T ta_id; t_req_P t_req; rcbcom_ctx_P qar_com; /* decode rcb */ needeol = false; t_req = (t_req_P) tsk->evthr_t_actx; qar_com = t_req->rq_qar_com; rcb = qar_com->rcbcom_rdrcb; ret = sm_rcb_open_dec(rcb); if (sm_is_err(ret)) goto error; /* total length of record */ ret = sm_rcb_getuint32(rcb, &tl); if (sm_is_err(ret) || tl > QM_AR_MAX_REC_LEN || tl > sm_rcb_getlen(rcb)) goto err2; /* protocol header: version */ ret = sm_rcb_get3uint32(rcb, &l, &rt, &v); if (sm_is_err(ret)) goto err2; if (l != 4 || rt != RT_PROT_VER || v != PROT_VER_RT) goto err2; /* XXX define protocol first in smX docs! */ /* SM_RCBV_INT, RT_PROT_VER, PROT_VER_RT, SM_RCBV_INT, RT_A2S_ID, smar_addr->ara_id, SM_RCBV_BUF, RT_A2S_TAID, smar_addr->ara_taid, SMTP_STID_SIZE, SM_RCBV_INT, RT_A2S_RCPT_ST, smar_addr->ara_status, SM_RCBV_STR, RT_A2S_STATT, smar_addr->ara_rhs, */ /* XXX decode data, act accordingly... */ ret = sm_rcb_get3uint32(rcb, &l, &rt, &v); if (sm_is_err(ret) || l != 4 || rt != RT_A2S_ID) goto err2; ret = sm_rcb_get2uint32(rcb, &l, &rt); if (sm_is_err(ret) || l != SMTP_STID_SIZE || rt != RT_A2S_TAID) goto err2; ret = sm_rcb_getn(rcb, (uchar *) ta_id, l); if (sm_is_err(ret)) goto err2; ret = sm_rcb_get3uint32(rcb, &l, &rt, &v); if (sm_is_err(ret) || l != 4) goto err3; SM_TEST(rt == RT_A2S_MAP_RES); if (rt == RT_A2S_MAP_RES && v == SM_ACC_FOUND) { ret = sm_rcb_get3uint32(rcb, &l, &rt, &v); if (sm_is_err(ret) || l != 4) goto err3; SM_TEST(rt == RT_A2S_RCPT_ST); if (rt == RT_A2S_RCPT_ST) fprintf(stderr, "status=%d\n", v); } #if 0 ret = sm_rcb_get3uint32(rcb, &l, &rt, &v); if (sm_is_err(ret) || l != 4 || rt != RT_R2Q_RCPT_NAR) goto err3; #endif while (!SM_RCB_ISEOB(rcb)) { ret = sm_rcb_get2uint32(rcb, &l, &rt); switch (rt) { case RT_Q2S_STATT: case RT_A2S_STATT: break; case RT_A2S_RVRS_ST: break; case RT_A2S_RVRS_NAME: break; default: goto err3; } } ret = sm_rcb_close_dec(qar_com->rcbcom_rdrcb); (void) sm_rcb_open_rcv(qar_com->rcbcom_rdrcb); --Requests; if (needeol) fprintf(stderr, "\n"); return ret; err3: err2: /* use rcb functions that don't do check the state */ (void) sm_rcb_close_decn(qar_com->rcbcom_rdrcb); error: /* open rcb for receiving next record */ (void) sm_rcb_open_rcvn(qar_com->rcbcom_rdrcb); if (needeol) fprintf(stderr, "\n"); fprintf(stderr, "ERROR: react=%x\n", ret); --Requests; return ret; } /* ** AR2QMGR -- AR - test program interface ** ** Parameters: ** tsk -- evthr task ** ** Returns: ** usual sm_error code */ static sm_ret_T ar2qmgr(sm_evthr_task_P tsk) { int fd; sm_ret_T ret; t_req_P t_req; rcbcom_ctx_P qar_com; SM_IS_EVTHR_TSK(tsk); t_req = (t_req_P) tsk->evthr_t_actx; qar_com = t_req->rq_qar_com; fd = tsk->evthr_t_fd; /* checked in caller */ ret = sm_rcb_rcv(fd, qar_com->rcbcom_rdrcb, QSS_RC_MINSZ); if (Verbose > 4) fprintf(stderr, "ar2qmgr, ret=%d, rw=%d, size=%d, len=%d, max=%d\n" , ret , qar_com->rcbcom_rdrcb->sm_rcb_rw , (int) qar_com->rcbcom_rdrcb->sm_rcb_size , (int) qar_com->rcbcom_rdrcb->sm_rcb_len , (int) qar_com->rcbcom_rdrcb->sm_rcb_max ); else if (Verbose > 1) fprintf(stderr, "ar2qmgr, ret=%d\n", ret); if (ret > 0) { return EVTHR_WAITQ; } else if (ret == 0) { ret = sm_rcb_close_rcv(qar_com->rcbcom_rdrcb); /* start appropriate function ... */ ret = react(tsk); if (sm_is_err(ret)) goto termit; /* too harsh? */ else if (ret == QMGR_R_WAITQ) return EVTHR_WAITQ; else if (ret == QMGR_R_ASYNC) return EVTHR_OK; else if (ret == EVTHR_DEL) goto termit; else return ret; } else if (ret == SM_IO_EOF) { ret = sm_rcb_close_rcv(qar_com->rcbcom_rdrcb); termit: close(fd); /* XXX see comment in qm_fr_ss() */ tsk->evthr_t_fd = INVALID_FD; /* make it invalid */ return EVTHR_DEL; } else /* if (ret < 0) */ { } return EVTHR_DEL; } /* ** LOOKUP -- queue recipient address lookups to SMAR ** ** Parameters: ** tsk -- evthr task ** ** Returns: ** usual sm_error code */ static sm_ret_T lookup(sm_evthr_task_P tsk) { t_req_P t_req; int n; sm_ret_T ret; char *rcpt; sm_str_P rcpt_pa; SM_REQUIRE(tsk != NULL); t_req = (t_req_P) tsk->evthr_t_actx; if (t_req == NULL) return EVTHR_DEL|EVTHR_TERM; rcpt_pa = NULL; #if 0 n = pthread_mutex_lock(&mutex); SM_TEST(n == 0); n = pthread_cond_wait(&cond, &mutex); SM_TEST(n == 0); #endif if (Verbose > 1) fprintf(stderr, "lookup, count=%d\n", t_req->rq_count); for (n = 0; n < t_req->rq_count; n++) { rcpt = t_req->rq_rcpt_pa[n]; if (rcpt == NULL || *rcpt == '\0') return EVTHR_DEL|EVTHR_TERM; if (rcpt_pa == NULL) { rcpt_pa = sm_str_scpy(NULL, rcpt, SMAXLEN); SM_TEST(rcpt_pa != NULL); if (rcpt_pa == NULL) goto error; } else { sm_str_clr(rcpt_pa); ret = sm_str_scat(rcpt_pa, rcpt); SM_TEST(ret == SM_SUCCESS); if (sm_is_err(ret)) goto error; } if (Verbose > 1) fprintf(stderr, "rcpt_pa[%d]=%.256s\n", n, rcpt); ret = rcpt2ar(tsk, rcpt_pa, t_req->rq_qar_com, t_req->rq_flags, t_req->rq_lt); if (sm_is_err(ret)) goto error; } /* Wakeup write task */ SM_TEST(t_req->rq_wr_tsk != NULL); if (t_req->rq_wr_tsk != NULL) { ret = evthr_en_wr(t_req->rq_wr_tsk); if (Verbose > 1) fprintf(stderr, "wakeup=%x\n", ret); SM_TEST(sm_is_success(ret)); } /* Paranoia... */ t_req->rq_count = 0; SM_STR_FREE(rcpt_pa); /* We're done */ return EVTHR_DEL; error: SM_STR_FREE(rcpt_pa); return EVTHR_DEL|EVTHR_TERM; } /* ** TESTSMAR -- Test SMAR ** ** Parameters: ** t_req -- test context ** ** Returns: ** none. */ static void testsmar(t_req_P t_req) { sm_ret_T ret; sm_evthr_task_P task, task2, task3; struct timeval sleept; int lfd, n; rcbcom_ctx_P qar_com; evthr_ctx = NULL; task = task3 = NULL; ret = thr_init(); SM_TEST(sm_is_success(ret)); if (sm_is_err(ret)) goto errq; ret = evthr_init(&evthr_ctx, 1, 6, 10); SM_TEST(sm_is_success(ret)); if (sm_is_err(ret)) goto errt1; SM_TEST(evthr_ctx != NULL); n = pthread_cond_init(&cond, NULL); SM_TEST(n == 0); n = pthread_mutex_init(&mutex, NULL); SM_TEST(n == 0); qar_com = t_req->rq_qar_com; ret = sm_rcbcom_open(qar_com); if (sm_is_err(ret)) goto error; SM_IS_RCB(qar_com->rcbcom_rdrcb); #if SMAR_TCP_NET (void) net_client_connect(smarip, smarport, &lfd); #else (void) unix_client_connect(smarsock, &lfd); #endif if (lfd < 0) { ret = sm_error_perm(SM_EM_AR, errno); goto error; } ret = sm_rcb_open_rcv(qar_com->rcbcom_rdrcb); if (sm_is_err(ret)) goto error; ret = sm_fd_nonblock(lfd, true); if (sm_is_err(ret)) goto error; /* XXX COMPLAIN */ ret = evthr_task_new(evthr_ctx, &task, EVTHR_EV_RD, lfd, NULL, qmgr_ar, (void *) t_req); if (sm_is_err(ret)) goto error; t_req->rq_wr_tsk = task; n = gettimeofday(&sleept, NULL); SM_TEST(n == 0); sleept.tv_usec += 1000; ret = evthr_task_new(evthr_ctx, &task3, EVTHR_EV_SL, -1, &sleept, fcts, (void *) NULL); SM_TEST(sm_is_success(ret)); SM_TEST(task3 != NULL); sleept.tv_usec += 1; ret = evthr_task_new(evthr_ctx, &task2, EVTHR_EV_SL, -1, &sleept, lookup, (void *) t_req); SM_TEST(sm_is_success(ret)); SM_TEST(task2 != NULL); ret = evthr_loop(evthr_ctx); SM_TEST(sm_is_success(ret)); goto done; error: fprintf(stderr, "ERROR\n"); done: pthread_cond_destroy(&cond); pthread_mutex_destroy(&mutex); ret = evthr_stop(evthr_ctx); SM_TEST(sm_is_success(ret)); errt1: ret = thr_stop(); SM_TEST(sm_is_success(ret)); errq: return; } /* ** USAGE -- usage message ** ** Parameters: ** prg -- program name ** ** Returns: ** none */ static void usage(const char *prg) { fprintf(stderr, "usage: %s [options] addresses...\n" "Check whether recipient is acceptable, i.e.,\n" "if local: must be valid (currently: aliases)\n" "-l Check local recipient in access map\n" "-R n wait n times 0.1s\n" "-V increase verbosity\n" , prg ); return; } /* ** MAIN -- guess... ** ** Parameters: ** argc -- arg counter ** argv -- arg vector ** ** Returns: ** usual exit code */ int main(int argc, char *argv[]) { int r; t_req_T t_req; char **h; void *ptr; ptr = NULL; h = NULL; t_req.rq_flags = SMARA_LFL_2821; t_req.rq_lt = SMARA_LT_RCPT_LOCAL; while ((r = getopt(argc, argv, "lR:V")) != -1) { switch (r) { case 'l': t_req.rq_lt |= SMARA_LT_RCPT_ACC; break; case 'R': MaxCount = atoi(optarg); break; case 'V': Verbose++; #if RCBCOMM_DEBUG rcbcomm_debug++; #endif break; default: usage(argv[0]); return 1; } } sm_test_begin(argc, argv, "test smar 0"); t_req.rq_count = argc - optind; h = (char **) sm_malloc(sizeof(char *) * t_req.rq_count); ptr = h; SM_TEST(h != NULL); if (h == NULL) goto error; t_req.rq_rcpt_pa = h; t_req.rq_qar_com = &rcb_com; for (r = optind; r < argc; r++) { *h = argv[r]; ++h; ++Requests; } testsmar(&t_req); error: if (ptr != NULL) sm_free(ptr); return sm_test_end(); }