#include #if HAVE_STDLIB_H #include #endif #include #if HAVE_STRING_H #include #else #include #endif #if HAVE_UNISTD_H #include #endif #include #include #if HAVE_NETINET_IN_H #include #endif #if HAVE_SYS_WAIT_H # include #endif #if HAVE_WINSOCK_H #include #endif #if HAVE_DMALLOC_H #include #endif #include #include #include "struct.h" #include "pass.h" #include "extensible.h" #include "util_funcs.h" struct extensible *passthrus = NULL; int numpassthrus = 0; /* * the relocatable extensible commands variables */ struct variable2 extensible_passthru_variables[] = { /* * bogus entry. Only some of it is actually used. */ {MIBINDEX, ASN_INTEGER, RWRITE, var_extensible_pass, 0, {MIBINDEX}}, }; /* * lexicographical compare two object identifiers. * * Returns -1 if name1 < name2, * * 0 if name1 = name2, * * 1 if name1 > name2 * * * * This method differs from snmp_oid_compare * * in that the comparison stops at the length * * of the smallest object identifier. */ int snmp_oid_min_compare(const oid * in_name1, size_t len1, const oid * in_name2, size_t len2) { register int len; register const oid *name1 = in_name1; register const oid *name2 = in_name2; /* * len = minimum of len1 and len2 */ if (len1 < len2) len = len1; else len = len2; /* * find first non-matching OID */ while (len-- > 0) { /* * these must be done in seperate comparisons, since * subtracting them and using that result has problems with * subids > 2^31. */ if (*(name1) < *(name2)) return -1; if (*(name1++) > *(name2++)) return 1; } /* * both OIDs equal up to length of shorter OID */ return 0; } /* * This is also called from pass_persist.c */ int asc2bin(char *p) { char *r, *q = p; char c; int n = 0; for (;;) { c = (char) strtol(q, &r, 16); if (r == q) break; *p++ = c; q = r; n++; } return n; } /* * This is also called from pass_persist.c */ int bin2asc(char *p, size_t n) { int i, flag = 0; char buffer[SNMP_MAXBUF]; /* prevent buffer overflow */ if ((int)n > (sizeof(buffer) - 1)) n = sizeof(buffer) - 1; for (i = 0; i < (int) n; i++) { buffer[i] = p[i]; if (!isprint(p[i])) flag = 1; } if (flag == 0) { p[n] = 0; return n; } for (i = 0; i < (int) n; i++) { sprintf(p, "%02x ", (unsigned char) (buffer[i] & 0xff)); p += 3; } *--p = 0; return 3 * n - 1; } void init_pass(void) { snmpd_register_config_handler("pass", pass_parse_config, pass_free_config, "miboid command"); } void pass_parse_config(const char *token, char *cptr) { struct extensible **ppass = &passthrus, **etmp, *ptmp; char *tcptr; int i; if (*cptr == '.') cptr++; if (!isdigit(*cptr)) { config_perror("second token is not a OID"); return; } numpassthrus++; while (*ppass != NULL) ppass = &((*ppass)->next); (*ppass) = (struct extensible *) malloc(sizeof(struct extensible)); if (*ppass == NULL) return; (*ppass)->type = PASSTHRU; (*ppass)->miblen = parse_miboid(cptr, (*ppass)->miboid); while (isdigit(*cptr) || *cptr == '.') cptr++; /* * name */ cptr = skip_white(cptr); if (cptr == NULL) { config_perror("No command specified on pass line"); (*ppass)->command[0] = 0; } else { for (tcptr = cptr; *tcptr != 0 && *tcptr != '#' && *tcptr != ';'; tcptr++); strncpy((*ppass)->command, cptr, tcptr - cptr); (*ppass)->command[tcptr - cptr] = 0; } strncpy((*ppass)->name, (*ppass)->command, sizeof((*ppass)->name)); (*ppass)->name[ sizeof((*ppass)->name)-1 ] = 0; (*ppass)->next = NULL; register_mib("pass", (struct variable *) extensible_passthru_variables, sizeof(struct variable2), 1, (*ppass)->miboid, (*ppass)->miblen); /* * argggg -- pasthrus must be sorted */ if (numpassthrus > 1) { etmp = (struct extensible **) malloc(((sizeof(struct extensible *)) * numpassthrus)); if (etmp == NULL) return; for (i = 0, ptmp = (struct extensible *) passthrus; i < numpassthrus && ptmp != 0; i++, ptmp = ptmp->next) etmp[i] = ptmp; qsort(etmp, numpassthrus, sizeof(struct extensible *), pass_compare); passthrus = (struct extensible *) etmp[0]; ptmp = (struct extensible *) etmp[0]; for (i = 0; i < numpassthrus - 1; i++) { ptmp->next = etmp[i + 1]; ptmp = ptmp->next; } ptmp->next = NULL; free(etmp); } } void pass_free_config(void) { struct extensible *etmp, *etmp2; for (etmp = passthrus; etmp != NULL;) { etmp2 = etmp; etmp = etmp->next; unregister_mib(etmp2->miboid, etmp2->miblen); free(etmp2); } passthrus = NULL; numpassthrus = 0; } u_char * var_extensible_pass(struct variable *vp, oid * name, size_t * length, int exact, size_t * var_len, WriteMethod ** write_method) { oid newname[MAX_OID_LEN]; int i, rtest, fd, newlen; static long long_ret; char buf[SNMP_MAXBUF]; static char buf2[SNMP_MAXBUF]; static oid objid[MAX_OID_LEN]; struct extensible *passthru; FILE *file; long_ret = *length; for (i = 1; i <= numpassthrus; i++) { passthru = get_exten_instance(passthrus, i); rtest = snmp_oid_min_compare(name, *length, passthru->miboid, passthru->miblen); if ((exact && rtest == 0) || (!exact && rtest <= 0)) { /* * setup args */ if (passthru->miblen >= *length || rtest < 0) sprint_mib_oid(buf, passthru->miboid, passthru->miblen); else sprint_mib_oid(buf, name, *length); if (exact) snprintf(passthru->command, sizeof(passthru->command), "%s -g %s", passthru->name, buf); else snprintf(passthru->command, sizeof(passthru->command), "%s -n %s", passthru->name, buf); passthru->command[ sizeof(passthru->command)-1 ] = 0; DEBUGMSGTL(("ucd-snmp/pass", "pass-running: %s\n", passthru->command)); /* * valid call. Exec and get output */ if ((fd = get_exec_output(passthru)) != -1) { file = fdopen(fd, "r"); if (fgets(buf, sizeof(buf), file) == NULL) { fclose(file); wait_on_exec(passthru); if (exact) { /* * to enable creation */ *write_method = setPass; *var_len = 0; return (NULL); } continue; } newlen = parse_miboid(buf, newname); /* * its good, so copy onto name/length */ memcpy((char *) name, (char *) newname, (int) newlen * sizeof(oid)); *length = newlen; /* * set up return pointer for setable stuff */ *write_method = setPass; if (newlen == 0 || fgets(buf, sizeof(buf), file) == NULL || fgets(buf2, sizeof(buf2), file) == NULL) { *var_len = 0; fclose(file); wait_on_exec(passthru); return (NULL); } fclose(file); wait_on_exec(passthru); /* * buf contains the return type, and buf2 contains the data */ if (!strncasecmp(buf, "string", 6)) { buf2[strlen(buf2) - 1] = 0; /* zap the linefeed */ *var_len = strlen(buf2); vp->type = ASN_OCTET_STR; return ((unsigned char *) buf2); } else if (!strncasecmp(buf, "integer", 7)) { *var_len = sizeof(long_ret); long_ret = strtol(buf2, NULL, 10); vp->type = ASN_INTEGER; return ((unsigned char *) &long_ret); } else if (!strncasecmp(buf, "unsigned", 8)) { *var_len = sizeof(long_ret); long_ret = strtoul(buf2, NULL, 10); vp->type = ASN_UNSIGNED; return ((unsigned char *) &long_ret); } else if (!strncasecmp(buf, "counter", 7)) { *var_len = sizeof(long_ret); long_ret = strtoul(buf2, NULL, 10); vp->type = ASN_COUNTER; return ((unsigned char *) &long_ret); } else if (!strncasecmp(buf, "octet", 5)) { *var_len = asc2bin(buf2); vp->type = ASN_OCTET_STR; return ((unsigned char *) buf2); } else if (!strncasecmp(buf, "opaque", 6)) { *var_len = asc2bin(buf2); vp->type = ASN_OPAQUE; return ((unsigned char *) buf2); } else if (!strncasecmp(buf, "gauge", 5)) { *var_len = sizeof(long_ret); long_ret = strtoul(buf2, NULL, 10); vp->type = ASN_GAUGE; return ((unsigned char *) &long_ret); } else if (!strncasecmp(buf, "objectid", 8)) { newlen = parse_miboid(buf2, objid); *var_len = newlen * sizeof(oid); vp->type = ASN_OBJECT_ID; return ((unsigned char *) objid); } else if (!strncasecmp(buf, "timetick", 8)) { *var_len = sizeof(long_ret); long_ret = strtoul(buf2, NULL, 10); vp->type = ASN_TIMETICKS; return ((unsigned char *) &long_ret); } else if (!strncasecmp(buf, "ipaddress", 9)) { newlen = parse_miboid(buf2, objid); if (newlen != 4) { snmp_log(LOG_ERR, "invalid ipaddress returned: %s\n", buf2); *var_len = 0; return (NULL); } long_ret = (objid[0] << (8 * 3)) + (objid[1] << (8 * 2)) + (objid[2] << 8) + objid[3]; long_ret = htonl(long_ret); *var_len = sizeof(long_ret); vp->type = ASN_IPADDRESS; return ((unsigned char *) &long_ret); } } *var_len = 0; return (NULL); } } if (var_len) *var_len = 0; *write_method = NULL; return (NULL); } int setPass(int action, u_char * var_val, u_char var_val_type, size_t var_val_len, u_char * statP, oid * name, size_t name_len) { int i, rtest; struct extensible *passthru; char buf[SNMP_MAXBUF], buf2[SNMP_MAXBUF]; long tmp; unsigned long utmp; for (i = 1; i <= numpassthrus; i++) { passthru = get_exten_instance(passthrus, i); rtest = snmp_oid_min_compare(name, name_len, passthru->miboid, passthru->miblen); if (rtest <= 0) { if (action != ACTION) return SNMP_ERR_NOERROR; /* * setup args */ if (passthru->miblen >= name_len || rtest < 0) sprint_mib_oid(buf, passthru->miboid, passthru->miblen); else sprint_mib_oid(buf, name, name_len); snprintf(passthru->command, sizeof(passthru->command), "%s -s %s ", passthru->name, buf); passthru->command[ sizeof(passthru->command)-1 ] = 0; switch (var_val_type) { case ASN_INTEGER: case ASN_COUNTER: case ASN_GAUGE: case ASN_TIMETICKS: tmp = *((long *) var_val); switch (var_val_type) { case ASN_INTEGER: sprintf(buf, "integer %d\n", (int) tmp); break; case ASN_COUNTER: sprintf(buf, "counter %d\n", (int) tmp); break; case ASN_GAUGE: sprintf(buf, "gauge %d\n", (int) tmp); break; case ASN_TIMETICKS: sprintf(buf, "timeticks %d\n", (int) tmp); break; } break; case ASN_IPADDRESS: utmp = *((u_long *) var_val); utmp = ntohl(utmp); sprintf(buf, "ipaddress %d.%d.%d.%d\n", (int) ((utmp & 0xff000000) >> (8 * 3)), (int) ((utmp & 0xff0000) >> (8 * 2)), (int) ((utmp & 0xff00) >> (8)), (int) ((utmp & 0xff))); break; case ASN_OCTET_STR: memcpy(buf2, var_val, var_val_len); if (var_val_len == 0) sprintf(buf, "string \"\"\n"); else if (bin2asc(buf2, var_val_len) == (int) var_val_len) snprintf(buf, sizeof(buf), "string \"%s\"\n", buf2); else snprintf(buf, sizeof(buf), "octet \"%s\"\n", buf2); buf[ sizeof(buf)-1 ] = 0; break; case ASN_OBJECT_ID: sprint_mib_oid(buf2, (oid *) var_val, var_val_len); snprintf(buf, sizeof(buf), "objectid \"%s\"\n", buf2); buf[ sizeof(buf)-1 ] = 0; break; } strncat(passthru->command, buf, sizeof(passthru->command)); passthru->command[ sizeof(passthru->command)-1 ] = 0; DEBUGMSGTL(("ucd-snmp/pass", "pass-running: %s", passthru->command)); exec_command(passthru); DEBUGMSGTL(("ucd-snmp/pass", "pass-running returned: %s", passthru->output)); if (!strncasecmp(passthru->output, "not-writable", 12)) { return SNMP_ERR_NOTWRITABLE; } else if (!strncasecmp(passthru->output, "wrong-type", 10)) { return SNMP_ERR_WRONGTYPE; } return SNMP_ERR_NOERROR; } } if (snmp_get_do_debugging()) { sprint_mib_oid(buf2, name, name_len); DEBUGMSGTL(("ucd-snmp/pass", "pass-notfound: %s\n", buf2)); } return SNMP_ERR_NOSUCHNAME; } int pass_compare(const void *a, const void *b) { const struct extensible *const *ap, *const *bp; ap = (const struct extensible * const *) a; bp = (const struct extensible * const *) b; return snmp_oid_compare((*ap)->miboid, (*ap)->miblen, (*bp)->miboid, (*bp)->miblen); }