/* * util_funcs.c */ /* * Portions of this file are copyrighted by: * Copyright Copyright 2003 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms specified in the COPYING file * distributed with the Net-SNMP package. */ #include #include #include #if HAVE_IO_H #include #endif #include #if HAVE_STDLIB_H #include #endif #if HAVE_MALLOC_H #include #endif #ifdef __alpha #ifndef _BSD #define _BSD #define _myBSD #endif #endif #if HAVE_SYS_WAIT_H # include #endif #ifdef __alpha #ifdef _myBSD #undef _BSD #undef _myBSD #endif #endif #ifndef WEXITSTATUS # define WEXITSTATUS(stat_val) ((unsigned)(stat_val) >> 8) #endif #ifndef WIFEXITED # define WIFEXITED(stat_val) (((stat_val) & 255) == 0) #endif #if TIME_WITH_SYS_TIME # include # include #else # if HAVE_SYS_TIME_H # include # else # include # endif #endif #if HAVE_UNISTD_H #include #endif #if HAVE_FCNTL_H #include #endif #include #include #if HAVE_STRING_H #include #else #include #endif #include #if HAVE_NETINET_IN_H #include #endif #if HAVE_BASETSD_H #include #define ssize_t SSIZE_T #endif #if HAVE_RAISE #define alarm raise #endif #ifdef HAVE_SYS_STAT_H #include #endif #include #include #include #include "struct.h" #include "util_funcs.h" #include "utilities/execute.h" #if HAVE_LIMITS_H #include "limits.h" #endif #ifdef USING_UCD_SNMP_ERRORMIB_MODULE #include "ucd-snmp/errormib.h" #else #define setPerrorstatus(x) snmp_log_perror(x) #endif netsnmp_feature_child_of(util_funcs, libnetsnmpmibs) netsnmp_feature_child_of(shell_command, util_funcs) netsnmp_feature_child_of(get_exten_instance, util_funcs) netsnmp_feature_child_of(clear_cache, util_funcs) netsnmp_feature_child_of(find_field, util_funcs) netsnmp_feature_child_of(parse_miboid, util_funcs) netsnmp_feature_child_of(string_append_int, util_funcs) netsnmp_feature_child_of(internal_mib_table, util_funcs) #if defined(HAVE_LINUX_RTNETLINK_H) netsnmp_feature_child_of(prefix_info_all, util_funcs) netsnmp_feature_child_of(prefix_info, prefix_info_all) netsnmp_feature_child_of(update_prefix_info, prefix_info_all) netsnmp_feature_child_of(delete_prefix_info, prefix_info_all) netsnmp_feature_child_of(find_prefix_info, prefix_info_all) netsnmp_feature_child_of(create_prefix_info, prefix_info_all) #endif /* HAVE_LINUX_RTNETLINK_H */ #ifdef NETSNMP_EXCACHETIME static long cachetime; #endif extern int numprocs, numextens; /** deprecated, use netsnmp_mktemp instead */ const char * make_tempfile(void) { return netsnmp_mktemp(); } #ifndef NETSNMP_FEATURE_REMOVE_SHELL_COMMAND int shell_command(struct extensible *ex) { #if HAVE_SYSTEM const char *ofname; char shellline[STRMAX]; FILE *shellout; ofname = make_tempfile(); if (ofname == NULL) { ex->output[0] = 0; ex->result = 127; return ex->result; } snprintf(shellline, sizeof(shellline), "%s > %s", ex->command, ofname); shellline[ sizeof(shellline)-1 ] = 0; ex->result = system(shellline); ex->result = WEXITSTATUS(ex->result); shellout = fopen(ofname, "r"); if (shellout != NULL) { if (fgets(ex->output, sizeof(ex->output), shellout) == NULL) { ex->output[0] = 0; } fclose(shellout); } unlink(ofname); #else ex->output[0] = 0; ex->result = 0; #endif return (ex->result); } #endif /* NETSNMP_FEATURE_REMOVE_SHELL_COMMAND */ #define MAXOUTPUT 300 int exec_command(struct extensible *ex) { #if defined (HAVE_EXECV) || defined (WIN32) int fd; FILE *file; if ((fd = get_exec_output(ex)) != -1) { file = fdopen(fd, "r"); if (fgets(ex->output, sizeof(ex->output), file) == NULL) { ex->output[0] = 0; } fclose(file); wait_on_exec(ex); } else #endif /* HAVE_EXECV */ { ex->output[0] = 0; ex->result = 0; } return (ex->result); } #ifndef NETSNMP_FEATURE_REMOVE_GET_EXTEN_INSTANCE struct extensible * get_exten_instance(struct extensible *exten, size_t inst) { int i; if (exten == NULL) return (NULL); for (i = 1; i != (int) inst && exten != NULL; i++) exten = exten->next; return (exten); } #endif /* NETSNMP_FEATURE_REMOVE_GET_EXTEN_INSTANCE */ void wait_on_exec(struct extensible *ex) { #if defined(WIN32) && !defined (mingw32) int rc; if (ex->tid != 0 && ex->pid != 0) { HANDLE hThread = ex->tid; HANDLE hProcess = ex->pid; rc = WaitForSingleObject(hProcess, NETSNMP_TIMEOUT_WAITFORSINGLEOBJECT); DEBUGMSGT(("exec:wait_on_exec","WaitForSingleObject rc=(%d)\n",rc )); rc = CloseHandle( hThread ); DEBUGMSGT(("exec:wait_on_exec","CloseHandle hThread=(%d)\n",rc )); rc = CloseHandle( hProcess ); DEBUGMSGT(("exec:wait_on_exec","CloseHandle hProcess=(%d)\n",rc )); ex->pid = 0; ex->tid = 0; } #else #ifndef NETSNMP_EXCACHETIME if (ex->pid && waitpid(ex->pid, &ex->result, 0) < 0) { setPerrorstatus("waitpid"); } ex->pid = 0; #endif /* NETSNMP_EXCACHETIME */ #endif /* WIN32 */ } #define MAXARGS 30 int get_exec_output(struct extensible *ex) { #ifndef USING_UTILITIES_EXECUTE_MODULE ex->result = -1; NETSNMP_LOGONCE((LOG_WARNING, "support for run_exec_command not available\n")); #else #if HAVE_EXECV char cachefile[STRMAX]; char cache[NETSNMP_MAXCACHESIZE]; int cachebytes; int cfd; #ifdef NETSNMP_EXCACHETIME long curtime; static char lastcmd[STRMAX]; static int lastresult; #endif DEBUGMSGTL(("exec:get_exec_output","calling %s\n", ex->command)); sprintf(cachefile, "%s/%s", get_persistent_directory(), NETSNMP_CACHEFILE); #ifdef NETSNMP_EXCACHETIME curtime = time(NULL); if (curtime > (cachetime + NETSNMP_EXCACHETIME) || strcmp(ex->command, lastcmd) != 0) { strcpy(lastcmd, ex->command); cachetime = curtime; #endif cachebytes = NETSNMP_MAXCACHESIZE; ex->result = run_exec_command( ex->command, NULL, cache, &cachebytes ); unlink(cachefile); /* * XXX Use SNMP_FILEMODE_CLOSED instead of 644? */ if ((cfd = open(cachefile, O_WRONLY | O_TRUNC | O_CREAT, 0600)) < 0) { snmp_log(LOG_ERR,"can not create cache file\n"); setPerrorstatus(cachefile); #ifdef NETSNMP_EXCACHETIME cachetime = 0; #endif return -1; } if (cachebytes > 0) write(cfd, (void *) cache, cachebytes); close(cfd); #ifdef NETSNMP_EXCACHETIME lastresult = ex->result; } else { ex->result = lastresult; } #endif DEBUGMSGTL(("exec:get_exec_output","using cached value\n")); if ((cfd = open(cachefile, O_RDONLY)) < 0) { snmp_log(LOG_ERR,"can not open cache file\n"); setPerrorstatus(cachefile); return -1; } return (cfd); #else /* !HAVE_EXECV */ #if defined(WIN32) && !defined(HAVE_EXECV) /* MSVC and MinGW. Cygwin already works as it has execv and fork */ int fd; /* Reference: MS tech note: 190351 */ HANDLE hOutputReadTmp, hOutputRead, hOutputWrite = NULL; HANDLE hErrorWrite; SECURITY_ATTRIBUTES sa; PROCESS_INFORMATION pi; STARTUPINFO si; sa.nLength= sizeof(SECURITY_ATTRIBUTES); sa.lpSecurityDescriptor = NULL; sa.bInheritHandle = TRUE; DEBUGMSGTL(("exec:get_exec_output","calling %s\n", ex->command)); /* Child temporary output pipe with Inheritance on (sa.bInheritHandle is true) */ if (!CreatePipe(&hOutputReadTmp,&hOutputWrite,&sa,0)) { DEBUGMSGTL(("util_funcs", "get_exec_pipes CreatePipe ChildOut: %lu\n", GetLastError())); return -1; } /* Copy the stdout handle to the stderr handle in case the child closes one of * its stdout handles. */ if (!DuplicateHandle(GetCurrentProcess(),hOutputWrite, GetCurrentProcess(), &hErrorWrite,0, TRUE,DUPLICATE_SAME_ACCESS)) { DEBUGMSGTL(("util_funcs", "get_exec_output DuplicateHandle: %lu\n", GetLastError())); return -1; } /* Create new copies of the input and output handles but set bInheritHandle to * FALSE so the new handle can not be inherited. Otherwise the handles can not * be closed. */ if (!DuplicateHandle(GetCurrentProcess(), hOutputReadTmp, GetCurrentProcess(), &hOutputRead, 0, FALSE, DUPLICATE_SAME_ACCESS)) { DEBUGMSGTL(("util_funcs", "get_exec_output DupliateHandle ChildOut: %lu\n", GetLastError())); CloseHandle(hErrorWrite); return -1; } /* Close the temporary output and input handles */ if (!CloseHandle(hOutputReadTmp)) { DEBUGMSGTL(("util_funcs", "get_exec_output CloseHandle (hOutputReadTmp): %lu\n", GetLastError())); CloseHandle(hErrorWrite); CloseHandle(hOutputRead); return -1; } /* Associates a C run-time file descriptor with an existing operating-system file handle. */ fd = _open_osfhandle((long) hOutputRead, 0); /* Set up STARTUPINFO for CreateProcess with the handles and have it hide the window * for the new process. */ ZeroMemory(&si,sizeof(STARTUPINFO)); si.cb = sizeof(STARTUPINFO); si.dwFlags = STARTF_USESTDHANDLES | STARTF_USESHOWWINDOW; si.hStdOutput = hOutputWrite; si.hStdError = hErrorWrite; si.wShowWindow = SW_HIDE; /* Launch the process that you want to redirect. Example snmpd.conf pass_persist: * pass_persist .1.3.6.1.4.1.2021.255 c:/perl/bin/perl c:/temp/pass_persisttest */ if (!CreateProcess(NULL, ex->command, NULL, NULL, TRUE, CREATE_NEW_CONSOLE, NULL, NULL, &si, &pi)) { DEBUGMSGTL(("util_funcs","get_exec_output CreateProcess:'%s' %lu\n",ex->command, GetLastError())); CloseHandle(hErrorWrite); CloseHandle(hOutputRead); return -1; } /* Set global child process handle */ ex->pid = pi.hProcess; ex->tid = pi.hThread; /* Close pipe handles to make sure that no handles to the write end of the * output pipe are maintained in this process or else the pipe will * not close when the child process exits and any calls to ReadFile * will hang. */ if (!CloseHandle(hOutputWrite)){ DEBUGMSGTL(("util_funcs","get_exec_output CloseHandle hOutputWrite: %lu\n", GetLastError())); return -1; } if (!CloseHandle(hErrorWrite)) { DEBUGMSGTL(("util_funcs","get_exec_output CloseHandle hErrorWrite: %lu\n", GetLastError())); return -1; } return fd; #endif /* WIN32 */ #endif #endif /* !defined(USING_UTILITIES_EXECUTE_MODULE) */ return -1; } int get_exec_pipes(char *cmd, int *fdIn, int *fdOut, netsnmp_pid_t *pid) { /* Alexander Prömel, alexander@proemel.de 08/24/2006 The following code, is tested on picotux rev. 1.01. I think, it will be better to put the named pipes, into /var/run or make it selectable via CONFIG file. If the pipe file already exist, the creation will fail. I put the pipes into /flash, the pipepath has to change in ucd-snmp/pass_persist.c too, if you change it here. */ #if HAVE_EXECV #ifdef __uClinux__ /* HAVE uClinux */ int in,out; char fifo_in_path[256]; char fifo_out_path[256]; pid_t tpid; if ((tpid = vfork()) == 0) { /*temp child*/ execve(cmd, NULL,NULL); perror(cmd); exit(1); } else { if(tpid > 0) { /*initialize workspace*/ snprintf(fifo_in_path, 256, "/flash/cp_%d", tpid); snprintf(fifo_out_path, 256, "/flash/pc_%d", tpid); in = mkfifo(fifo_in_path, S_IRWXU); /*Create Input Pipe, 700*/ if ( in ) { perror("parent: inpipe"); exit(0); } out = mkfifo(fifo_out_path, S_IRWXU); /*Create Output Pipe, 700*/ if ( out ) { perror("parent: outpipe"); exit(0); } in = open(fifo_in_path,O_RDONLY); /*open the Input Pipe read Only*/ if(in < 0) { perror("parent: input"); exit(0); } out = open(fifo_out_path,O_WRONLY); /*open the Output Pipe write Only*/ if(out < 0) { perror("parent: output"); exit(0); } *fdIn = in; /*read*/ *fdOut = out; /*write*/ *pid = tpid; return (1); /* We are returning 0 for error... */ } else { /*pid < 0*/ setPerrorstatus("vfork"); return 0; } } #else /*HAVE x86*/ int fd[2][2], i, cnt; char ctmp[STRMAX], *cptr1, *cptr2, argvs[STRMAX], **argv, **aptr; /* * Setup our pipes */ if (pipe(fd[0]) || pipe(fd[1])) { setPerrorstatus("pipe"); return 0; } if ((*pid = fork()) == 0) { /* First handle for the child */ close(0); if (dup(fd[0][0]) != 0) { setPerrorstatus("dup 0"); return 0; } close(1); if (dup(fd[1][1]) != 1) { setPerrorstatus("dup 1"); return 0; } /* * write standard output and standard error to pipe. */ /* * close all non-standard open file descriptors */ for (cnt = getdtablesize() - 1; cnt >= 2; --cnt) (void) close(cnt); (void) dup(1); /* stderr */ for (cnt = 1, cptr1 = cmd, cptr2 = argvs; *cptr1 != 0; cptr2++, cptr1++) { *cptr2 = *cptr1; if (*cptr1 == ' ') { *(cptr2++) = 0; if ((cptr1 = skip_white(cptr1)) == NULL) break; *cptr2 = *cptr1; if (*cptr1 != 0) cnt++; } } *cptr2 = 0; *(cptr2 + 1) = 0; argv = (char **) malloc((cnt + 2) * sizeof(char *)); if (argv == NULL) return 0; /* memory alloc error */ aptr = argv; *(aptr++) = argvs; for (cptr2 = argvs, i = 1; i != cnt; cptr2++) if (*cptr2 == 0) { *(aptr++) = cptr2 + 1; i++; } while (*cptr2 != 0) cptr2++; *(aptr++) = NULL; copy_nword(cmd, ctmp, sizeof(ctmp)); execv(ctmp, argv); perror(ctmp); exit(1); } else { close(fd[0][0]); close(fd[1][1]); if (*pid < 0) { close(fd[0][1]); close(fd[1][0]); setPerrorstatus("fork"); return 0; } *fdIn = fd[1][0]; *fdOut = fd[0][1]; return (1); /* We are returning 0 for error... */ } #endif /* uClinux or x86 */ #endif /* !HAVE_EXECV */ #if defined(WIN32) && !defined (mingw32) && !defined(HAVE_EXECV) /* MSVC (MinGW not working but should use this code). Cygwin already works as it has execv and fork */ /* Reference: MS tech note: 190351 */ HANDLE hInputWriteTmp, hInputRead, hInputWrite = NULL; HANDLE hOutputReadTmp, hOutputRead, hOutputWrite = NULL; HANDLE hErrorWrite; SECURITY_ATTRIBUTES sa; PROCESS_INFORMATION pi; STARTUPINFO si; sa.nLength= sizeof(SECURITY_ATTRIBUTES); sa.lpSecurityDescriptor = NULL; sa.bInheritHandle = TRUE; /* Child temporary output pipe with Inheritance on (sa.bInheritHandle is true) */ if (!CreatePipe(&hOutputReadTmp,&hOutputWrite,&sa,0)) { DEBUGMSGTL(("util_funcs", "get_exec_pipes CreatePipe ChildOut: %d\n", GetLastError())); return 0; } /* Child temporary input pipe with Inheritance on (sa.bInheritHandle is true) */ if (!CreatePipe(&hInputRead,&hInputWriteTmp,&sa,0)) { DEBUGMSGTL(("util_funcs", "get_exec_pipes CreatePipe ChildIn: %d\n", GetLastError())); return 0; } /* Copy the stdout handle to the stderr handle in case the child closes one of * its stdout handles. */ if (!DuplicateHandle(GetCurrentProcess(),hOutputWrite, GetCurrentProcess(), &hErrorWrite,0, TRUE,DUPLICATE_SAME_ACCESS)) { DEBUGMSGTL(("util_funcs", "get_exec_pipes DuplicateHandle: %d\n", GetLastError())); return 0; } /* Create new copies of the input and output handles but set bInheritHandle to * FALSE so the new handle can not be inherited. Otherwise the handles can not * be closed. */ if (!DuplicateHandle(GetCurrentProcess(), hOutputReadTmp, GetCurrentProcess(), &hOutputRead, 0, FALSE, DUPLICATE_SAME_ACCESS)) { DEBUGMSGTL(("util_funcs", "get_exec_pipes DupliateHandle ChildOut: %d\n", GetLastError())); CloseHandle(hErrorWrite); return 0; } if (!DuplicateHandle(GetCurrentProcess(),hInputWriteTmp, GetCurrentProcess(), &hInputWrite, 0, FALSE, DUPLICATE_SAME_ACCESS)) { DEBUGMSGTL(("util_funcs","get_exec_pipes DupliateHandle ChildIn: %d\n", GetLastError())); CloseHandle(hErrorWrite); CloseHandle(hOutputRead); return 0; } /* Close the temporary output and input handles */ if (!CloseHandle(hOutputReadTmp)) { DEBUGMSGTL(("util_funcs", "get_exec_pipes CloseHandle (hOutputReadTmp): %d\n", GetLastError())); CloseHandle(hErrorWrite); CloseHandle(hOutputRead); CloseHandle(hInputWrite); return 0; } if (!CloseHandle(hInputWriteTmp)) { DEBUGMSGTL(("util_funcs", "get_exec_pipes CloseHandle (hInputWriteTmp): %d\n", GetLastError())); CloseHandle(hErrorWrite); CloseHandle(hOutputRead); CloseHandle(hInputWrite); return 0; } /* Associates a C run-time file descriptor with an existing operating-system file handle. */ *fdIn = _open_osfhandle((long) hOutputRead, 0); *fdOut = _open_osfhandle((long) hInputWrite, 0); /* Set up STARTUPINFO for CreateProcess with the handles and have it hide the window * for the new process. */ ZeroMemory(&si,sizeof(STARTUPINFO)); si.cb = sizeof(STARTUPINFO); si.dwFlags = STARTF_USESTDHANDLES | STARTF_USESHOWWINDOW; si.hStdOutput = hOutputWrite; si.hStdInput = hInputRead; si.hStdError = hErrorWrite; si.wShowWindow = SW_HIDE; /* Launch the process that you want to redirect. Example snmpd.conf pass_persist: * pass_persist .1.3.6.1.4.1.2021.255 c:/perl/bin/perl c:/temp/pass_persisttest */ if (!CreateProcess(NULL, cmd, NULL, NULL, TRUE, CREATE_NEW_CONSOLE, NULL, NULL, &si, &pi)) { DEBUGMSGTL(("util_funcs","get_exec_pipes CreateProcess:'%s' %d\n",cmd, GetLastError())); CloseHandle(hErrorWrite); CloseHandle(hOutputRead); CloseHandle(hInputWrite); return 0; } DEBUGMSGTL(("util_funcs","child hProcess (stored in pid): %d\n",(int)pi.hProcess)); DEBUGMSGTL(("util_funcs","child dwProcessId (task manager): %d\n",(int)pi.dwProcessId)); /* Set global child process handle */ *pid = pi.hProcess; /* Cleanup */ if (!CloseHandle(pi.hThread)) DEBUGMSGTL(("util_funcs","get_exec_pipes CloseHandle pi.hThread: %d\n",cmd)); /* Close pipe handles to make sure that no handles to the write end of the * output pipe are maintained in this process or else the pipe will * not close when the child process exits and any calls to ReadFile * will hang. */ if (!CloseHandle(hOutputWrite)){ DEBUGMSGTL(("util_funcs","get_exec_pipes CloseHandle hOutputWrite: %d\n",cmd, GetLastError())); return 0; } if (!CloseHandle(hInputRead)) { DEBUGMSGTL(("util_funcs","get_exec_pipes CloseHandle hInputRead: %d\n",cmd, GetLastError())); return 0; } if (!CloseHandle(hErrorWrite)) { DEBUGMSGTL(("util_funcs","get_exec_pipes CloseHandle hErrorWrite: %d\n",cmd, GetLastError())); return 0; } return 1; #endif /* WIN32 */ return 0; } #ifndef NETSNMP_FEATURE_REMOVE_CLEAR_CACHE int clear_cache(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) { long tmp = 0; if (var_val_type != ASN_INTEGER) { snmp_log(LOG_NOTICE, "Wrong type != int\n"); return SNMP_ERR_WRONGTYPE; } tmp = *((long *) var_val); if (tmp == 1 && action == COMMIT) { #ifdef NETSNMP_EXCACHETIME cachetime = 0; /* reset the cache next read */ #endif } return SNMP_ERR_NOERROR; } #endif /* NETSNMP_FEATURE_REMOVE_CLEAR_CACHE */ void print_mib_oid(oid name[], size_t len) { char *buffer; buffer = (char *) malloc(11 * len); /* maximum digit lengths for int32 + a '.' */ if (!buffer) { snmp_log(LOG_ERR, "Malloc failed - out of memory?"); return; } sprint_mib_oid(buffer, name, len); snmp_log(LOG_NOTICE, "Mib: %s\n", buffer); free(buffer); } void sprint_mib_oid(char *buf, const oid *name, size_t len) { int i; for (i = 0; i < (int) len; i++) buf += sprintf(buf, ".%" NETSNMP_PRIo "u", name[i]); } /* * checkmib(): provided for backwards compatibility, do not use: */ int checkmib(struct variable *vp, oid * name, size_t * length, int exact, size_t * var_len, WriteMethod ** write_method, int max) { /* * checkmib used to be header_simple_table, with reveresed boolean * return output. header_simple_table() was created to match * header_generic(). */ return (!header_simple_table(vp, name, length, exact, var_len, write_method, max)); } #ifndef NETSNMP_FEATURE_REMOVE_FIND_FIELD char * find_field(char *ptr, int field) { int i; char *init = ptr; if (field == NETSNMP_LASTFIELD) { /* * skip to end */ while (*ptr++); ptr = ptr - 2; /* * rewind a field length */ while (*ptr != 0 && isspace((unsigned char)(*ptr)) && init <= ptr) ptr--; while (*ptr != 0 && !isspace((unsigned char)(*ptr)) && init <= ptr) ptr--; if (isspace((unsigned char)(*ptr))) ptr++; /* past space */ if (ptr < init) ptr = init; if (!isspace((unsigned char)(*ptr)) && *ptr != 0) return (ptr); } else { if ((ptr = skip_white(ptr)) == NULL) return (NULL); for (i = 1; *ptr != 0 && i != field; i++) { if ((ptr = skip_not_white(ptr)) == NULL) return (NULL); if ((ptr = skip_white(ptr)) == NULL) return (NULL); } if (*ptr != 0 && i == field) return (ptr); return (NULL); } return (NULL); } #endif /* NETSNMP_FEATURE_REMOVE_FIND_FIELD */ #ifndef NETSNMP_FEATURE_REMOVE_PARSE_MIBOID int parse_miboid(const char *buf, oid * oidout) { int i; if (!buf) return 0; if (*buf == '.') buf++; for (i = 0; isdigit((unsigned char)(*buf)); i++) { /* Subidentifiers are unsigned values, up to 2^32-1 * so we need to use 'strtoul' rather than 'atoi' */ oidout[i] = strtoul(buf, NULL, 10) & 0xffffffff; while (isdigit((unsigned char)(*buf++))); if (*buf == '.') buf++; } /* * oidout[i] = -1; hmmm */ return i; } #endif /* NETSNMP_FEATURE_REMOVE_PARSE_MIBOID */ #ifndef NETSNMP_FEATURE_REMOVE_STRING_APPEND_INT void string_append_int(char *s, int val) { char textVal[16]; if (val < 10) { *s++ = '0' + val; *s = '\0'; return; } sprintf(textVal, "%d", val); strcpy(s, textVal); return; } #endif /* NETSNMP_FEATURE_REMOVE_STRING_APPEND_INT */ #ifndef NETSNMP_FEATURE_REMOVE_INTERNAL_MIB_TABLE struct internal_mib_table { int max_size; /* Size of the current data table */ int next_index; /* Index of the next free entry */ int current_index; /* Index of the 'current' entry */ int cache_timeout; marker_t cache_markerM; RELOAD *reload; /* Routine to read in the data */ COMPARE *compare; /* Routine to compare two entries */ int data_size; /* Size of an individual entry */ void *data; /* The table itself */ }; mib_table_t Initialise_Table(int size, int timeout, RELOAD *reload, COMPARE *compare) { struct internal_mib_table *t; t = (struct internal_mib_table *) malloc(sizeof(struct internal_mib_table)); if (t == NULL) return NULL; t->max_size = 0; t->next_index = 1; /* Don't use index 0 */ t->current_index = 1; t->cache_timeout = timeout; t->cache_markerM = NULL; t->reload = reload; t->compare = compare; t->data_size = size; t->data = NULL; return (mib_table_t) t; } #define TABLE_ADD( x, y ) ((void*)((char*)(x) + y)) #define TABLE_INDEX(t, i) (TABLE_ADD(t->data, i * t->data_size)) #define TABLE_START(t) (TABLE_INDEX(t, 1)) #define TABLE_NEXT(t) (TABLE_INDEX(t, t->next_index)) #define TABLE_CURRENT(t) (TABLE_INDEX(t, t->current_index)) int check_and_reload_table(struct internal_mib_table *table) { /* * If the saved data is fairly recent, * we don't need to reload it */ if (table->cache_markerM && !(netsnmp_ready_monotonic(table->cache_markerM, table->cache_timeout * 1000))) return 1; /* * Call the routine provided to read in the data * * N.B: Update the cache marker *before* calling * this routine, to avoid problems with recursion */ netsnmp_set_monotonic_marker(&table->cache_markerM); table->next_index = 1; if (table->reload((mib_table_t) table) < 0) { free(table->cache_markerM); table->cache_markerM = NULL; return 0; } table->current_index = 1; if (table->compare != NULL) /* Sort the table */ qsort(TABLE_START(table), table->next_index-1, table->data_size, table->compare); return 1; } int Search_Table(mib_table_t t, void *entry, int exact) { struct internal_mib_table *table = (struct internal_mib_table *) t; void *entry2; int res; if (!check_and_reload_table(table)) return -1; if (table->compare == NULL) { /* * XXX - not sure this is right ? */ memcpy(entry, table->data, table->data_size); return 0; } if (table->next_index == table->current_index) table->current_index = 1; entry2 = TABLE_CURRENT(table); res = table->compare(entry, entry2); if ((res < 0) && (table->current_index != 1)) { table->current_index = 1; entry2 = TABLE_CURRENT(table); res = table->compare(entry, entry2); } while (res > 0) { table->current_index++; if (table->next_index == table->current_index) return -1; entry2 = TABLE_CURRENT(table); res = table->compare(entry, entry2); } if (exact && res != 0) return -1; if (!exact && res == 0) { table->current_index++; if (table->next_index == table->current_index) return -1; entry2 = TABLE_CURRENT(table); } memcpy(entry, entry2, table->data_size); return 0; } int Add_Entry(mib_table_t t, void *entry) { struct internal_mib_table *table = (struct internal_mib_table *) t; int new_max; void *new_data; /* Used for * a) extending the data table * b) the next entry to use */ if (table->max_size <= table->next_index) { /* * Table is full, so extend it to double the size */ new_max = 2 * table->max_size; if (new_max == 0) new_max = 10; /* Start with 10 entries */ new_data = (void *) malloc(new_max * table->data_size); if (new_data == NULL) return -1; if (table->data) { memcpy(new_data, table->data, table->max_size * table->data_size); free(table->data); } table->data = new_data; table->max_size = new_max; } /* * Insert the new entry into the data array */ new_data = TABLE_NEXT(table); memcpy(new_data, entry, table->data_size); table->next_index++; return 0; } void * Retrieve_Table_Data(mib_table_t t, int *max_idx) { struct internal_mib_table *table = (struct internal_mib_table *) t; if (!check_and_reload_table(table)) return NULL; *max_idx = table->next_index - 1; return table->data; } #endif /* NETSNMP_FEATURE_REMOVE_INTERNAL_MIB_TABLE */ #if defined(HAVE_LINUX_RTNETLINK_H) #ifndef NETSNMP_FEATURE_REMOVE_CREATE_PREFIX_INFO prefix_cbx *net_snmp_create_prefix_info(unsigned long OnLinkFlag, unsigned long AutonomousFlag, char *in6ptr) { prefix_cbx *node = SNMP_MALLOC_TYPEDEF(prefix_cbx); if(!in6ptr) { free(node); return NULL; } if(!node) { free(node); return NULL; } node->next_info = NULL; node->ipAddressPrefixOnLinkFlag = OnLinkFlag; node->ipAddressPrefixAutonomousFlag = AutonomousFlag; memcpy(node->in6p, in6ptr, sizeof(node->in6p)); return node; } #endif /* NETSNMP_FEATURE_REMOVE_CREATE_PREFIX_INFO */ #ifndef NETSNMP_FEATURE_REMOVE_FIND_PREFIX_INFO int net_snmp_find_prefix_info(prefix_cbx **head, char *address, prefix_cbx *node_to_find) { int iret; memset(node_to_find, 0, sizeof(prefix_cbx)); if(!*head) return -1; memcpy(node_to_find->in6p, address, sizeof(node_to_find->in6p)); iret = net_snmp_search_update_prefix_info(head, node_to_find, 1); if(iret < 0) { DEBUGMSGTL(("util_funcs:prefix", "Unable to search the list\n")); return -1; } else if (!iret) { DEBUGMSGTL(("util_funcs:prefix", "Could not find prefix info\n")); return -1; } else return 0; } #endif /* NETSNMP_FEATURE_REMOVE_FIND_PREFIX_INFO */ #ifndef NETSNMP_FEATURE_REMOVE_UPDATE_PREFIX_INFO int net_snmp_update_prefix_info(prefix_cbx **head, prefix_cbx *node_to_update) { int iret; iret = net_snmp_search_update_prefix_info(head, node_to_update, 0); if(iret < 0) { DEBUGMSGTL(("util_funcs:prefix", "Unable to update prefix info\n")); return -1; } else if (!iret) { DEBUGMSGTL(("util_funcs:prefix", "Unable to find the node to update\n")); return -1; } else return 0; } #endif /* NETSNMP_FEATURE_REMOVE_UPDATE_PREFIX_INFO */ int net_snmp_search_update_prefix_info(prefix_cbx **head, prefix_cbx *node_to_use, int functionality) { /* We define functionality based on need * * 0 - Need to do a search and update. We have to provide the node_to_use structure filled fully * * 1 - Need to do only search. Provide the node_to_use with in6p value filled */ prefix_cbx *temp_node; netsnmp_assert(NULL != head); netsnmp_assert(NULL != node_to_use); if(functionality > 1) return -1; if(!node_to_use) return -1; if (!functionality) { if (!*head) { *head = node_to_use; return 1; } for (temp_node = *head; temp_node->next_info != NULL ; temp_node = temp_node->next_info) { if (0 == strcmp(temp_node->in6p, node_to_use->in6p)) { temp_node->ipAddressPrefixOnLinkFlag = node_to_use->ipAddressPrefixOnLinkFlag; temp_node->ipAddressPrefixAutonomousFlag = node_to_use->ipAddressPrefixAutonomousFlag; return 2; } } temp_node->next_info = node_to_use; return 1; } else { for (temp_node = *head; temp_node != NULL ; temp_node = temp_node->next_info) { if (0 == strcmp(temp_node->in6p, node_to_use->in6p)) { /*need yo put sem here as i read here */ node_to_use->ipAddressPrefixOnLinkFlag = temp_node->ipAddressPrefixOnLinkFlag; node_to_use->ipAddressPrefixAutonomousFlag = temp_node->ipAddressPrefixAutonomousFlag; return 1; } } return 0; } } #ifndef NETSNMP_FEATURE_REMOVE_DELETE_PREFIX_INFO int net_snmp_delete_prefix_info(prefix_cbx **head, char *address) { prefix_cbx *temp_node,*prev_node; if(!address) return -1; if(!head) return -1; for (temp_node = *head, prev_node = NULL; temp_node; prev_node = temp_node, temp_node = temp_node->next_info) { if (temp_node->in6p && strcmp(temp_node->in6p, address) == 0) { if (prev_node) prev_node->next_info = temp_node->next_info; else *head = temp_node->next_info; free(temp_node); return 1; } } return 0; } #endif /* NETSNMP_FEATURE_REMOVE_DELETE_PREFIX_INFO */ #endif /* HAVE_LINUX_RTNETLINK_H */