/* * Copyright (C) 2004-2011 Internet Systems Consortium, Inc. ("ISC") * Copyright (C) 2000-2003 Internet Software Consortium. * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE * OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ /* $Id: parser.c,v 1.142 2011-11-03 05:15:09 each Exp $ */ /*! \file */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* Shorthand */ #define CAT CFG_LOGCATEGORY_CONFIG #define MOD CFG_LOGMODULE_PARSER #define MAP_SYM 1 /* Unique type for isc_symtab */ #define TOKEN_STRING(pctx) (pctx->token.value.as_textregion.base) /* Check a return value. */ #define CHECK(op) \ do { result = (op); \ if (result != ISC_R_SUCCESS) goto cleanup; \ } while (0) /* Clean up a configuration object if non-NULL. */ #define CLEANUP_OBJ(obj) \ do { if ((obj) != NULL) cfg_obj_destroy(pctx, &(obj)); } while (0) /* * Forward declarations of static functions. */ static void free_tuple(cfg_parser_t *pctx, cfg_obj_t *obj); static isc_result_t parse_list(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret); static void print_list(cfg_printer_t *pctx, const cfg_obj_t *obj); static void free_list(cfg_parser_t *pctx, cfg_obj_t *obj); static isc_result_t create_listelt(cfg_parser_t *pctx, cfg_listelt_t **eltp); static isc_result_t create_string(cfg_parser_t *pctx, const char *contents, const cfg_type_t *type, cfg_obj_t **ret); static void free_string(cfg_parser_t *pctx, cfg_obj_t *obj); static isc_result_t create_map(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **objp); static void free_map(cfg_parser_t *pctx, cfg_obj_t *obj); static isc_result_t parse_symtab_elt(cfg_parser_t *pctx, const char *name, cfg_type_t *elttype, isc_symtab_t *symtab, isc_boolean_t callback); static void free_noop(cfg_parser_t *pctx, cfg_obj_t *obj); static isc_result_t cfg_getstringtoken(cfg_parser_t *pctx); static void parser_complain(cfg_parser_t *pctx, isc_boolean_t is_warning, unsigned int flags, const char *format, va_list args); /* * Data representations. These correspond to members of the * "value" union in struct cfg_obj (except "void", which does * not need a union member). */ cfg_rep_t cfg_rep_uint32 = { "uint32", free_noop }; cfg_rep_t cfg_rep_uint64 = { "uint64", free_noop }; cfg_rep_t cfg_rep_string = { "string", free_string }; cfg_rep_t cfg_rep_boolean = { "boolean", free_noop }; cfg_rep_t cfg_rep_map = { "map", free_map }; cfg_rep_t cfg_rep_list = { "list", free_list }; cfg_rep_t cfg_rep_tuple = { "tuple", free_tuple }; cfg_rep_t cfg_rep_sockaddr = { "sockaddr", free_noop }; cfg_rep_t cfg_rep_netprefix = { "netprefix", free_noop }; cfg_rep_t cfg_rep_void = { "void", free_noop }; /* * Configuration type definitions. */ /*% * An implicit list. These are formed by clauses that occur multiple times. */ static cfg_type_t cfg_type_implicitlist = { "implicitlist", NULL, print_list, NULL, &cfg_rep_list, NULL }; /* Functions. */ void cfg_print_obj(cfg_printer_t *pctx, const cfg_obj_t *obj) { obj->type->print(pctx, obj); } void cfg_print_chars(cfg_printer_t *pctx, const char *text, int len) { pctx->f(pctx->closure, text, len); } static void print_open(cfg_printer_t *pctx) { cfg_print_chars(pctx, "{\n", 2); pctx->indent++; } static void print_indent(cfg_printer_t *pctx) { int indent = pctx->indent; while (indent > 0) { cfg_print_chars(pctx, "\t", 1); indent--; } } static void print_close(cfg_printer_t *pctx) { pctx->indent--; print_indent(pctx); cfg_print_chars(pctx, "}", 1); } isc_result_t cfg_parse_obj(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; INSIST(ret != NULL && *ret == NULL); result = type->parse(pctx, type, ret); if (result != ISC_R_SUCCESS) return (result); INSIST(*ret != NULL); return (ISC_R_SUCCESS); } void cfg_print(const cfg_obj_t *obj, void (*f)(void *closure, const char *text, int textlen), void *closure) { cfg_printer_t pctx; pctx.f = f; pctx.closure = closure; pctx.indent = 0; obj->type->print(&pctx, obj); } /* Tuples. */ isc_result_t cfg_create_tuple(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; const cfg_tuplefielddef_t *fields = type->of; const cfg_tuplefielddef_t *f; cfg_obj_t *obj = NULL; unsigned int nfields = 0; int i; for (f = fields; f->name != NULL; f++) nfields++; CHECK(cfg_create_obj(pctx, type, &obj)); obj->value.tuple = isc_mem_get(pctx->mctx, nfields * sizeof(cfg_obj_t *)); if (obj->value.tuple == NULL) { result = ISC_R_NOMEMORY; goto cleanup; } for (f = fields, i = 0; f->name != NULL; f++, i++) obj->value.tuple[i] = NULL; *ret = obj; return (ISC_R_SUCCESS); cleanup: if (obj != NULL) isc_mem_put(pctx->mctx, obj, sizeof(*obj)); return (result); } isc_result_t cfg_parse_tuple(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; const cfg_tuplefielddef_t *fields = type->of; const cfg_tuplefielddef_t *f; cfg_obj_t *obj = NULL; unsigned int i; CHECK(cfg_create_tuple(pctx, type, &obj)); for (f = fields, i = 0; f->name != NULL; f++, i++) CHECK(cfg_parse_obj(pctx, f->type, &obj->value.tuple[i])); *ret = obj; return (ISC_R_SUCCESS); cleanup: CLEANUP_OBJ(obj); return (result); } void cfg_print_tuple(cfg_printer_t *pctx, const cfg_obj_t *obj) { unsigned int i; const cfg_tuplefielddef_t *fields = obj->type->of; const cfg_tuplefielddef_t *f; isc_boolean_t need_space = ISC_FALSE; for (f = fields, i = 0; f->name != NULL; f++, i++) { const cfg_obj_t *fieldobj = obj->value.tuple[i]; if (need_space) cfg_print_chars(pctx, " ", 1); cfg_print_obj(pctx, fieldobj); need_space = ISC_TF(fieldobj->type->print != cfg_print_void); } } void cfg_doc_tuple(cfg_printer_t *pctx, const cfg_type_t *type) { const cfg_tuplefielddef_t *fields = type->of; const cfg_tuplefielddef_t *f; isc_boolean_t need_space = ISC_FALSE; for (f = fields; f->name != NULL; f++) { if (need_space) cfg_print_chars(pctx, " ", 1); cfg_doc_obj(pctx, f->type); need_space = ISC_TF(f->type->print != cfg_print_void); } } static void free_tuple(cfg_parser_t *pctx, cfg_obj_t *obj) { unsigned int i; const cfg_tuplefielddef_t *fields = obj->type->of; const cfg_tuplefielddef_t *f; unsigned int nfields = 0; if (obj->value.tuple == NULL) return; for (f = fields, i = 0; f->name != NULL; f++, i++) { CLEANUP_OBJ(obj->value.tuple[i]); nfields++; } isc_mem_put(pctx->mctx, obj->value.tuple, nfields * sizeof(cfg_obj_t *)); } isc_boolean_t cfg_obj_istuple(const cfg_obj_t *obj) { REQUIRE(obj != NULL); return (ISC_TF(obj->type->rep == &cfg_rep_tuple)); } const cfg_obj_t * cfg_tuple_get(const cfg_obj_t *tupleobj, const char* name) { unsigned int i; const cfg_tuplefielddef_t *fields; const cfg_tuplefielddef_t *f; REQUIRE(tupleobj != NULL && tupleobj->type->rep == &cfg_rep_tuple); fields = tupleobj->type->of; for (f = fields, i = 0; f->name != NULL; f++, i++) { if (strcmp(f->name, name) == 0) return (tupleobj->value.tuple[i]); } INSIST(0); return (NULL); } isc_result_t cfg_parse_special(cfg_parser_t *pctx, int special) { isc_result_t result; CHECK(cfg_gettoken(pctx, 0)); if (pctx->token.type == isc_tokentype_special && pctx->token.value.as_char == special) return (ISC_R_SUCCESS); cfg_parser_error(pctx, CFG_LOG_NEAR, "'%c' expected", special); return (ISC_R_UNEXPECTEDTOKEN); cleanup: return (result); } /* * Parse a required semicolon. If it is not there, log * an error and increment the error count but continue * parsing. Since the next token is pushed back, * care must be taken to make sure it is eventually * consumed or an infinite loop may result. */ static isc_result_t parse_semicolon(cfg_parser_t *pctx) { isc_result_t result; CHECK(cfg_gettoken(pctx, 0)); if (pctx->token.type == isc_tokentype_special && pctx->token.value.as_char == ';') return (ISC_R_SUCCESS); cfg_parser_error(pctx, CFG_LOG_BEFORE, "missing ';'"); cfg_ungettoken(pctx); cleanup: return (result); } /* * Parse EOF, logging and returning an error if not there. */ static isc_result_t parse_eof(cfg_parser_t *pctx) { isc_result_t result; CHECK(cfg_gettoken(pctx, 0)); if (pctx->token.type == isc_tokentype_eof) return (ISC_R_SUCCESS); cfg_parser_error(pctx, CFG_LOG_NEAR, "syntax error"); return (ISC_R_UNEXPECTEDTOKEN); cleanup: return (result); } /* A list of files, used internally for pctx->files. */ static cfg_type_t cfg_type_filelist = { "filelist", NULL, print_list, NULL, &cfg_rep_list, &cfg_type_qstring }; isc_result_t cfg_parser_create(isc_mem_t *mctx, isc_log_t *lctx, cfg_parser_t **ret) { isc_result_t result; cfg_parser_t *pctx; isc_lexspecials_t specials; REQUIRE(mctx != NULL); REQUIRE(ret != NULL && *ret == NULL); pctx = isc_mem_get(mctx, sizeof(*pctx)); if (pctx == NULL) return (ISC_R_NOMEMORY); result = isc_refcount_init(&pctx->references, 1); if (result != ISC_R_SUCCESS) { isc_mem_put(mctx, pctx, sizeof(*pctx)); return (result); } pctx->mctx = mctx; pctx->lctx = lctx; pctx->lexer = NULL; pctx->seen_eof = ISC_FALSE; pctx->ungotten = ISC_FALSE; pctx->errors = 0; pctx->warnings = 0; pctx->open_files = NULL; pctx->closed_files = NULL; pctx->line = 0; pctx->callback = NULL; pctx->callbackarg = NULL; pctx->token.type = isc_tokentype_unknown; pctx->flags = 0; memset(specials, 0, sizeof(specials)); specials['{'] = 1; specials['}'] = 1; specials[';'] = 1; specials['/'] = 1; specials['"'] = 1; specials['!'] = 1; CHECK(isc_lex_create(pctx->mctx, 1024, &pctx->lexer)); isc_lex_setspecials(pctx->lexer, specials); isc_lex_setcomments(pctx->lexer, (ISC_LEXCOMMENT_C | ISC_LEXCOMMENT_CPLUSPLUS | ISC_LEXCOMMENT_SHELL)); CHECK(cfg_create_list(pctx, &cfg_type_filelist, &pctx->open_files)); CHECK(cfg_create_list(pctx, &cfg_type_filelist, &pctx->closed_files)); *ret = pctx; return (ISC_R_SUCCESS); cleanup: if (pctx->lexer != NULL) isc_lex_destroy(&pctx->lexer); CLEANUP_OBJ(pctx->open_files); CLEANUP_OBJ(pctx->closed_files); isc_mem_put(mctx, pctx, sizeof(*pctx)); return (result); } static isc_result_t parser_openfile(cfg_parser_t *pctx, const char *filename) { isc_result_t result; cfg_listelt_t *elt = NULL; cfg_obj_t *stringobj = NULL; result = isc_lex_openfile(pctx->lexer, filename); if (result != ISC_R_SUCCESS) { cfg_parser_error(pctx, 0, "open: %s: %s", filename, isc_result_totext(result)); goto cleanup; } CHECK(create_string(pctx, filename, &cfg_type_qstring, &stringobj)); CHECK(create_listelt(pctx, &elt)); elt->obj = stringobj; ISC_LIST_APPEND(pctx->open_files->value.list, elt, link); return (ISC_R_SUCCESS); cleanup: CLEANUP_OBJ(stringobj); return (result); } void cfg_parser_setcallback(cfg_parser_t *pctx, cfg_parsecallback_t callback, void *arg) { pctx->callback = callback; pctx->callbackarg = arg; } /* * Parse a configuration using a pctx where a lexer has already * been set up with a source. */ static isc_result_t parse2(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; cfg_obj_t *obj = NULL; result = cfg_parse_obj(pctx, type, &obj); if (pctx->errors != 0) { /* Errors have been logged. */ if (result == ISC_R_SUCCESS) result = ISC_R_FAILURE; goto cleanup; } if (result != ISC_R_SUCCESS) { /* Parsing failed but no errors have been logged. */ cfg_parser_error(pctx, 0, "parsing failed"); goto cleanup; } CHECK(parse_eof(pctx)); *ret = obj; return (ISC_R_SUCCESS); cleanup: CLEANUP_OBJ(obj); return (result); } isc_result_t cfg_parse_file(cfg_parser_t *pctx, const char *filename, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; REQUIRE(filename != NULL); CHECK(parser_openfile(pctx, filename)); CHECK(parse2(pctx, type, ret)); cleanup: return (result); } isc_result_t cfg_parse_buffer(cfg_parser_t *pctx, isc_buffer_t *buffer, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; REQUIRE(buffer != NULL); CHECK(isc_lex_openbuffer(pctx->lexer, buffer)); CHECK(parse2(pctx, type, ret)); cleanup: return (result); } void cfg_parser_attach(cfg_parser_t *src, cfg_parser_t **dest) { REQUIRE(src != NULL); REQUIRE(dest != NULL && *dest == NULL); isc_refcount_increment(&src->references, NULL); *dest = src; } void cfg_parser_destroy(cfg_parser_t **pctxp) { cfg_parser_t *pctx = *pctxp; unsigned int refs; isc_refcount_decrement(&pctx->references, &refs); if (refs == 0) { isc_lex_destroy(&pctx->lexer); /* * Cleaning up open_files does not * close the files; that was already done * by closing the lexer. */ CLEANUP_OBJ(pctx->open_files); CLEANUP_OBJ(pctx->closed_files); isc_mem_put(pctx->mctx, pctx, sizeof(*pctx)); } *pctxp = NULL; } /* * void */ isc_result_t cfg_parse_void(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { UNUSED(type); return (cfg_create_obj(pctx, &cfg_type_void, ret)); } void cfg_print_void(cfg_printer_t *pctx, const cfg_obj_t *obj) { UNUSED(pctx); UNUSED(obj); } void cfg_doc_void(cfg_printer_t *pctx, const cfg_type_t *type) { UNUSED(pctx); UNUSED(type); } isc_boolean_t cfg_obj_isvoid(const cfg_obj_t *obj) { REQUIRE(obj != NULL); return (ISC_TF(obj->type->rep == &cfg_rep_void)); } cfg_type_t cfg_type_void = { "void", cfg_parse_void, cfg_print_void, cfg_doc_void, &cfg_rep_void, NULL }; /* * uint32 */ isc_result_t cfg_parse_uint32(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; cfg_obj_t *obj = NULL; UNUSED(type); CHECK(cfg_gettoken(pctx, ISC_LEXOPT_NUMBER | ISC_LEXOPT_CNUMBER)); if (pctx->token.type != isc_tokentype_number) { cfg_parser_error(pctx, CFG_LOG_NEAR, "expected number"); return (ISC_R_UNEXPECTEDTOKEN); } CHECK(cfg_create_obj(pctx, &cfg_type_uint32, &obj)); obj->value.uint32 = pctx->token.value.as_ulong; *ret = obj; cleanup: return (result); } void cfg_print_cstr(cfg_printer_t *pctx, const char *s) { cfg_print_chars(pctx, s, strlen(s)); } void cfg_print_rawuint(cfg_printer_t *pctx, unsigned int u) { char buf[32]; snprintf(buf, sizeof(buf), "%u", u); cfg_print_cstr(pctx, buf); } void cfg_print_uint32(cfg_printer_t *pctx, const cfg_obj_t *obj) { cfg_print_rawuint(pctx, obj->value.uint32); } isc_boolean_t cfg_obj_isuint32(const cfg_obj_t *obj) { REQUIRE(obj != NULL); return (ISC_TF(obj->type->rep == &cfg_rep_uint32)); } isc_uint32_t cfg_obj_asuint32(const cfg_obj_t *obj) { REQUIRE(obj != NULL && obj->type->rep == &cfg_rep_uint32); return (obj->value.uint32); } cfg_type_t cfg_type_uint32 = { "integer", cfg_parse_uint32, cfg_print_uint32, cfg_doc_terminal, &cfg_rep_uint32, NULL }; /* * uint64 */ isc_boolean_t cfg_obj_isuint64(const cfg_obj_t *obj) { REQUIRE(obj != NULL); return (ISC_TF(obj->type->rep == &cfg_rep_uint64)); } isc_uint64_t cfg_obj_asuint64(const cfg_obj_t *obj) { REQUIRE(obj != NULL && obj->type->rep == &cfg_rep_uint64); return (obj->value.uint64); } void cfg_print_uint64(cfg_printer_t *pctx, const cfg_obj_t *obj) { char buf[32]; snprintf(buf, sizeof(buf), "%" ISC_PRINT_QUADFORMAT "u", obj->value.uint64); cfg_print_cstr(pctx, buf); } cfg_type_t cfg_type_uint64 = { "64_bit_integer", NULL, cfg_print_uint64, cfg_doc_terminal, &cfg_rep_uint64, NULL }; /* * qstring (quoted string), ustring (unquoted string), astring * (any string) */ /* Create a string object from a null-terminated C string. */ static isc_result_t create_string(cfg_parser_t *pctx, const char *contents, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; cfg_obj_t *obj = NULL; int len; CHECK(cfg_create_obj(pctx, type, &obj)); len = strlen(contents); obj->value.string.length = len; obj->value.string.base = isc_mem_get(pctx->mctx, len + 1); if (obj->value.string.base == 0) { isc_mem_put(pctx->mctx, obj, sizeof(*obj)); return (ISC_R_NOMEMORY); } memcpy(obj->value.string.base, contents, len); obj->value.string.base[len] = '\0'; *ret = obj; cleanup: return (result); } isc_result_t cfg_parse_qstring(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; UNUSED(type); CHECK(cfg_gettoken(pctx, CFG_LEXOPT_QSTRING)); if (pctx->token.type != isc_tokentype_qstring) { cfg_parser_error(pctx, CFG_LOG_NEAR, "expected quoted string"); return (ISC_R_UNEXPECTEDTOKEN); } return (create_string(pctx, TOKEN_STRING(pctx), &cfg_type_qstring, ret)); cleanup: return (result); } static isc_result_t parse_ustring(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; UNUSED(type); CHECK(cfg_gettoken(pctx, 0)); if (pctx->token.type != isc_tokentype_string) { cfg_parser_error(pctx, CFG_LOG_NEAR, "expected unquoted string"); return (ISC_R_UNEXPECTEDTOKEN); } return (create_string(pctx, TOKEN_STRING(pctx), &cfg_type_ustring, ret)); cleanup: return (result); } isc_result_t cfg_parse_astring(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; UNUSED(type); CHECK(cfg_getstringtoken(pctx)); return (create_string(pctx, TOKEN_STRING(pctx), &cfg_type_qstring, ret)); cleanup: return (result); } isc_boolean_t cfg_is_enum(const char *s, const char *const *enums) { const char * const *p; for (p = enums; *p != NULL; p++) { if (strcasecmp(*p, s) == 0) return (ISC_TRUE); } return (ISC_FALSE); } static isc_result_t check_enum(cfg_parser_t *pctx, cfg_obj_t *obj, const char *const *enums) { const char *s = obj->value.string.base; if (cfg_is_enum(s, enums)) return (ISC_R_SUCCESS); cfg_parser_error(pctx, 0, "'%s' unexpected", s); return (ISC_R_UNEXPECTEDTOKEN); } isc_result_t cfg_parse_enum(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; cfg_obj_t *obj = NULL; CHECK(parse_ustring(pctx, NULL, &obj)); CHECK(check_enum(pctx, obj, type->of)); *ret = obj; return (ISC_R_SUCCESS); cleanup: CLEANUP_OBJ(obj); return (result); } void cfg_doc_enum(cfg_printer_t *pctx, const cfg_type_t *type) { const char * const *p; cfg_print_chars(pctx, "( ", 2); for (p = type->of; *p != NULL; p++) { cfg_print_cstr(pctx, *p); if (p[1] != NULL) cfg_print_chars(pctx, " | ", 3); } cfg_print_chars(pctx, " )", 2); } void cfg_print_ustring(cfg_printer_t *pctx, const cfg_obj_t *obj) { cfg_print_chars(pctx, obj->value.string.base, obj->value.string.length); } static void print_qstring(cfg_printer_t *pctx, const cfg_obj_t *obj) { cfg_print_chars(pctx, "\"", 1); cfg_print_ustring(pctx, obj); cfg_print_chars(pctx, "\"", 1); } static void free_string(cfg_parser_t *pctx, cfg_obj_t *obj) { isc_mem_put(pctx->mctx, obj->value.string.base, obj->value.string.length + 1); } isc_boolean_t cfg_obj_isstring(const cfg_obj_t *obj) { REQUIRE(obj != NULL); return (ISC_TF(obj->type->rep == &cfg_rep_string)); } const char * cfg_obj_asstring(const cfg_obj_t *obj) { REQUIRE(obj != NULL && obj->type->rep == &cfg_rep_string); return (obj->value.string.base); } /* Quoted string only */ cfg_type_t cfg_type_qstring = { "quoted_string", cfg_parse_qstring, print_qstring, cfg_doc_terminal, &cfg_rep_string, NULL }; /* Unquoted string only */ cfg_type_t cfg_type_ustring = { "string", parse_ustring, cfg_print_ustring, cfg_doc_terminal, &cfg_rep_string, NULL }; /* Any string (quoted or unquoted); printed with quotes */ cfg_type_t cfg_type_astring = { "string", cfg_parse_astring, print_qstring, cfg_doc_terminal, &cfg_rep_string, NULL }; /* * Booleans */ isc_boolean_t cfg_obj_isboolean(const cfg_obj_t *obj) { REQUIRE(obj != NULL); return (ISC_TF(obj->type->rep == &cfg_rep_boolean)); } isc_boolean_t cfg_obj_asboolean(const cfg_obj_t *obj) { REQUIRE(obj != NULL && obj->type->rep == &cfg_rep_boolean); return (obj->value.boolean); } isc_result_t cfg_parse_boolean(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; isc_boolean_t value; cfg_obj_t *obj = NULL; UNUSED(type); result = cfg_gettoken(pctx, 0); if (result != ISC_R_SUCCESS) return (result); if (pctx->token.type != isc_tokentype_string) goto bad_boolean; if ((strcasecmp(TOKEN_STRING(pctx), "true") == 0) || (strcasecmp(TOKEN_STRING(pctx), "yes") == 0) || (strcmp(TOKEN_STRING(pctx), "1") == 0)) { value = ISC_TRUE; } else if ((strcasecmp(TOKEN_STRING(pctx), "false") == 0) || (strcasecmp(TOKEN_STRING(pctx), "no") == 0) || (strcmp(TOKEN_STRING(pctx), "0") == 0)) { value = ISC_FALSE; } else { goto bad_boolean; } CHECK(cfg_create_obj(pctx, &cfg_type_boolean, &obj)); obj->value.boolean = value; *ret = obj; return (result); bad_boolean: cfg_parser_error(pctx, CFG_LOG_NEAR, "boolean expected"); return (ISC_R_UNEXPECTEDTOKEN); cleanup: return (result); } void cfg_print_boolean(cfg_printer_t *pctx, const cfg_obj_t *obj) { if (obj->value.boolean) cfg_print_chars(pctx, "yes", 3); else cfg_print_chars(pctx, "no", 2); } cfg_type_t cfg_type_boolean = { "boolean", cfg_parse_boolean, cfg_print_boolean, cfg_doc_terminal, &cfg_rep_boolean, NULL }; /* * Lists. */ isc_result_t cfg_create_list(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **obj) { isc_result_t result; CHECK(cfg_create_obj(pctx, type, obj)); ISC_LIST_INIT((*obj)->value.list); cleanup: return (result); } static isc_result_t create_listelt(cfg_parser_t *pctx, cfg_listelt_t **eltp) { cfg_listelt_t *elt; elt = isc_mem_get(pctx->mctx, sizeof(*elt)); if (elt == NULL) return (ISC_R_NOMEMORY); elt->obj = NULL; ISC_LINK_INIT(elt, link); *eltp = elt; return (ISC_R_SUCCESS); } static void free_list_elt(cfg_parser_t *pctx, cfg_listelt_t *elt) { cfg_obj_destroy(pctx, &elt->obj); isc_mem_put(pctx->mctx, elt, sizeof(*elt)); } static void free_list(cfg_parser_t *pctx, cfg_obj_t *obj) { cfg_listelt_t *elt, *next; for (elt = ISC_LIST_HEAD(obj->value.list); elt != NULL; elt = next) { next = ISC_LIST_NEXT(elt, link); free_list_elt(pctx, elt); } } isc_result_t cfg_parse_listelt(cfg_parser_t *pctx, const cfg_type_t *elttype, cfg_listelt_t **ret) { isc_result_t result; cfg_listelt_t *elt = NULL; cfg_obj_t *value = NULL; CHECK(create_listelt(pctx, &elt)); result = cfg_parse_obj(pctx, elttype, &value); if (result != ISC_R_SUCCESS) goto cleanup; elt->obj = value; *ret = elt; return (ISC_R_SUCCESS); cleanup: isc_mem_put(pctx->mctx, elt, sizeof(*elt)); return (result); } /* * Parse a homogeneous list whose elements are of type 'elttype' * and where each element is terminated by a semicolon. */ static isc_result_t parse_list(cfg_parser_t *pctx, const cfg_type_t *listtype, cfg_obj_t **ret) { cfg_obj_t *listobj = NULL; const cfg_type_t *listof = listtype->of; isc_result_t result; cfg_listelt_t *elt = NULL; CHECK(cfg_create_list(pctx, listtype, &listobj)); for (;;) { CHECK(cfg_peektoken(pctx, 0)); if (pctx->token.type == isc_tokentype_special && pctx->token.value.as_char == /*{*/ '}') break; CHECK(cfg_parse_listelt(pctx, listof, &elt)); CHECK(parse_semicolon(pctx)); ISC_LIST_APPEND(listobj->value.list, elt, link); elt = NULL; } *ret = listobj; return (ISC_R_SUCCESS); cleanup: if (elt != NULL) free_list_elt(pctx, elt); CLEANUP_OBJ(listobj); return (result); } static void print_list(cfg_printer_t *pctx, const cfg_obj_t *obj) { const cfg_list_t *list = &obj->value.list; const cfg_listelt_t *elt; for (elt = ISC_LIST_HEAD(*list); elt != NULL; elt = ISC_LIST_NEXT(elt, link)) { print_indent(pctx); cfg_print_obj(pctx, elt->obj); cfg_print_chars(pctx, ";\n", 2); } } isc_result_t cfg_parse_bracketed_list(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; CHECK(cfg_parse_special(pctx, '{')); CHECK(parse_list(pctx, type, ret)); CHECK(cfg_parse_special(pctx, '}')); cleanup: return (result); } void cfg_print_bracketed_list(cfg_printer_t *pctx, const cfg_obj_t *obj) { print_open(pctx); print_list(pctx, obj); print_close(pctx); } void cfg_doc_bracketed_list(cfg_printer_t *pctx, const cfg_type_t *type) { cfg_print_chars(pctx, "{ ", 2); cfg_doc_obj(pctx, type->of); cfg_print_chars(pctx, "; ... }", 7); } /* * Parse a homogeneous list whose elements are of type 'elttype' * and where elements are separated by space. The list ends * before the first semicolon. */ isc_result_t cfg_parse_spacelist(cfg_parser_t *pctx, const cfg_type_t *listtype, cfg_obj_t **ret) { cfg_obj_t *listobj = NULL; const cfg_type_t *listof = listtype->of; isc_result_t result; CHECK(cfg_create_list(pctx, listtype, &listobj)); for (;;) { cfg_listelt_t *elt = NULL; CHECK(cfg_peektoken(pctx, 0)); if (pctx->token.type == isc_tokentype_special && pctx->token.value.as_char == ';') break; CHECK(cfg_parse_listelt(pctx, listof, &elt)); ISC_LIST_APPEND(listobj->value.list, elt, link); } *ret = listobj; return (ISC_R_SUCCESS); cleanup: CLEANUP_OBJ(listobj); return (result); } void cfg_print_spacelist(cfg_printer_t *pctx, const cfg_obj_t *obj) { const cfg_list_t *list = &obj->value.list; const cfg_listelt_t *elt; for (elt = ISC_LIST_HEAD(*list); elt != NULL; elt = ISC_LIST_NEXT(elt, link)) { cfg_print_obj(pctx, elt->obj); if (ISC_LIST_NEXT(elt, link) != NULL) cfg_print_chars(pctx, " ", 1); } } isc_boolean_t cfg_obj_islist(const cfg_obj_t *obj) { REQUIRE(obj != NULL); return (ISC_TF(obj->type->rep == &cfg_rep_list)); } const cfg_listelt_t * cfg_list_first(const cfg_obj_t *obj) { REQUIRE(obj == NULL || obj->type->rep == &cfg_rep_list); if (obj == NULL) return (NULL); return (ISC_LIST_HEAD(obj->value.list)); } const cfg_listelt_t * cfg_list_next(const cfg_listelt_t *elt) { REQUIRE(elt != NULL); return (ISC_LIST_NEXT(elt, link)); } /* * Return the length of a list object. If obj is NULL or is not * a list, return 0. */ unsigned int cfg_list_length(const cfg_obj_t *obj, isc_boolean_t recurse) { const cfg_listelt_t *elt; unsigned int count = 0; if (obj == NULL || !cfg_obj_islist(obj)) return (0U); for (elt = cfg_list_first(obj); elt != NULL; elt = cfg_list_next(elt)) { if (recurse && cfg_obj_islist(elt->obj)) { count += cfg_list_length(elt->obj, recurse); } else { count++; } } return (count); } cfg_obj_t * cfg_listelt_value(const cfg_listelt_t *elt) { REQUIRE(elt != NULL); return (elt->obj); } /* * Maps. */ /* * Parse a map body. That's something like * * "foo 1; bar { glub; }; zap true; zap false;" * * i.e., a sequence of option names followed by values and * terminated by semicolons. Used for the top level of * the named.conf syntax, as well as for the body of the * options, view, zone, and other statements. */ isc_result_t cfg_parse_mapbody(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { const cfg_clausedef_t * const *clausesets = type->of; isc_result_t result; const cfg_clausedef_t * const *clauseset; const cfg_clausedef_t *clause; cfg_obj_t *value = NULL; cfg_obj_t *obj = NULL; cfg_obj_t *eltobj = NULL; cfg_obj_t *includename = NULL; isc_symvalue_t symval; cfg_list_t *list = NULL; CHECK(create_map(pctx, type, &obj)); obj->value.map.clausesets = clausesets; for (;;) { cfg_listelt_t *elt; redo: /* * Parse the option name and see if it is known. */ CHECK(cfg_gettoken(pctx, 0)); if (pctx->token.type != isc_tokentype_string) { cfg_ungettoken(pctx); break; } /* * We accept "include" statements wherever a map body * clause can occur. */ if (strcasecmp(TOKEN_STRING(pctx), "include") == 0) { /* * Turn the file name into a temporary configuration * object just so that it is not overwritten by the * semicolon token. */ CHECK(cfg_parse_obj(pctx, &cfg_type_qstring, &includename)); CHECK(parse_semicolon(pctx)); CHECK(parser_openfile(pctx, includename-> value.string.base)); cfg_obj_destroy(pctx, &includename); goto redo; } clause = NULL; for (clauseset = clausesets; *clauseset != NULL; clauseset++) { for (clause = *clauseset; clause->name != NULL; clause++) { if (strcasecmp(TOKEN_STRING(pctx), clause->name) == 0) goto done; } } done: if (clause == NULL || clause->name == NULL) { cfg_parser_error(pctx, CFG_LOG_NOPREP, "unknown option"); /* * Try to recover by parsing this option as an unknown * option and discarding it. */ CHECK(cfg_parse_obj(pctx, &cfg_type_unsupported, &eltobj)); cfg_obj_destroy(pctx, &eltobj); CHECK(parse_semicolon(pctx)); continue; } /* Clause is known. */ /* Issue warnings if appropriate */ if ((clause->flags & CFG_CLAUSEFLAG_OBSOLETE) != 0) cfg_parser_warning(pctx, 0, "option '%s' is obsolete", clause->name); if ((clause->flags & CFG_CLAUSEFLAG_NOTIMP) != 0) cfg_parser_warning(pctx, 0, "option '%s' is " "not implemented", clause->name); if ((clause->flags & CFG_CLAUSEFLAG_NYI) != 0) cfg_parser_warning(pctx, 0, "option '%s' is " "not implemented", clause->name); if ((clause->flags & CFG_CLAUSEFLAG_NOTCONFIGURED) != 0) { cfg_parser_warning(pctx, 0, "option '%s' is not " "configured", clause->name); result = ISC_R_FAILURE; goto cleanup; } /* * Don't log options with CFG_CLAUSEFLAG_NEWDEFAULT * set here - we need to log the *lack* of such an option, * not its presence. */ /* See if the clause already has a value; if not create one. */ result = isc_symtab_lookup(obj->value.map.symtab, clause->name, 0, &symval); if ((clause->flags & CFG_CLAUSEFLAG_MULTI) != 0) { /* Multivalued clause */ cfg_obj_t *listobj = NULL; if (result == ISC_R_NOTFOUND) { CHECK(cfg_create_list(pctx, &cfg_type_implicitlist, &listobj)); symval.as_pointer = listobj; result = isc_symtab_define(obj->value. map.symtab, clause->name, 1, symval, isc_symexists_reject); if (result != ISC_R_SUCCESS) { cfg_parser_error(pctx, CFG_LOG_NEAR, "isc_symtab_define(%s) " "failed", clause->name); isc_mem_put(pctx->mctx, list, sizeof(cfg_list_t)); goto cleanup; } } else { INSIST(result == ISC_R_SUCCESS); listobj = symval.as_pointer; } elt = NULL; CHECK(cfg_parse_listelt(pctx, clause->type, &elt)); CHECK(parse_semicolon(pctx)); ISC_LIST_APPEND(listobj->value.list, elt, link); } else { /* Single-valued clause */ if (result == ISC_R_NOTFOUND) { isc_boolean_t callback = ISC_TF((clause->flags & CFG_CLAUSEFLAG_CALLBACK) != 0); CHECK(parse_symtab_elt(pctx, clause->name, clause->type, obj->value.map.symtab, callback)); CHECK(parse_semicolon(pctx)); } else if (result == ISC_R_SUCCESS) { cfg_parser_error(pctx, CFG_LOG_NEAR, "'%s' redefined", clause->name); result = ISC_R_EXISTS; goto cleanup; } else { cfg_parser_error(pctx, CFG_LOG_NEAR, "isc_symtab_define() failed"); goto cleanup; } } } *ret = obj; return (ISC_R_SUCCESS); cleanup: CLEANUP_OBJ(value); CLEANUP_OBJ(obj); CLEANUP_OBJ(eltobj); CLEANUP_OBJ(includename); return (result); } static isc_result_t parse_symtab_elt(cfg_parser_t *pctx, const char *name, cfg_type_t *elttype, isc_symtab_t *symtab, isc_boolean_t callback) { isc_result_t result; cfg_obj_t *obj = NULL; isc_symvalue_t symval; CHECK(cfg_parse_obj(pctx, elttype, &obj)); if (callback && pctx->callback != NULL) CHECK(pctx->callback(name, obj, pctx->callbackarg)); symval.as_pointer = obj; CHECK(isc_symtab_define(symtab, name, 1, symval, isc_symexists_reject)); return (ISC_R_SUCCESS); cleanup: CLEANUP_OBJ(obj); return (result); } /* * Parse a map; e.g., "{ foo 1; bar { glub; }; zap true; zap false; }" */ isc_result_t cfg_parse_map(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; CHECK(cfg_parse_special(pctx, '{')); CHECK(cfg_parse_mapbody(pctx, type, ret)); CHECK(cfg_parse_special(pctx, '}')); cleanup: return (result); } /* * Subroutine for cfg_parse_named_map() and cfg_parse_addressed_map(). */ static isc_result_t parse_any_named_map(cfg_parser_t *pctx, cfg_type_t *nametype, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; cfg_obj_t *idobj = NULL; cfg_obj_t *mapobj = NULL; CHECK(cfg_parse_obj(pctx, nametype, &idobj)); CHECK(cfg_parse_map(pctx, type, &mapobj)); mapobj->value.map.id = idobj; idobj = NULL; *ret = mapobj; cleanup: CLEANUP_OBJ(idobj); return (result); } /* * Parse a map identified by a string name. E.g., "name { foo 1; }". * Used for the "key" and "channel" statements. */ isc_result_t cfg_parse_named_map(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { return (parse_any_named_map(pctx, &cfg_type_astring, type, ret)); } /* * Parse a map identified by a network address. * Used to be used for the "server" statement. */ isc_result_t cfg_parse_addressed_map(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { return (parse_any_named_map(pctx, &cfg_type_netaddr, type, ret)); } /* * Parse a map identified by a network prefix. * Used for the "server" statement. */ isc_result_t cfg_parse_netprefix_map(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { return (parse_any_named_map(pctx, &cfg_type_netprefix, type, ret)); } void cfg_print_mapbody(cfg_printer_t *pctx, const cfg_obj_t *obj) { isc_result_t result = ISC_R_SUCCESS; const cfg_clausedef_t * const *clauseset; for (clauseset = obj->value.map.clausesets; *clauseset != NULL; clauseset++) { isc_symvalue_t symval; const cfg_clausedef_t *clause; for (clause = *clauseset; clause->name != NULL; clause++) { result = isc_symtab_lookup(obj->value.map.symtab, clause->name, 0, &symval); if (result == ISC_R_SUCCESS) { cfg_obj_t *obj = symval.as_pointer; if (obj->type == &cfg_type_implicitlist) { /* Multivalued. */ cfg_list_t *list = &obj->value.list; cfg_listelt_t *elt; for (elt = ISC_LIST_HEAD(*list); elt != NULL; elt = ISC_LIST_NEXT(elt, link)) { print_indent(pctx); cfg_print_cstr(pctx, clause->name); cfg_print_chars(pctx, " ", 1); cfg_print_obj(pctx, elt->obj); cfg_print_chars(pctx, ";\n", 2); } } else { /* Single-valued. */ print_indent(pctx); cfg_print_cstr(pctx, clause->name); cfg_print_chars(pctx, " ", 1); cfg_print_obj(pctx, obj); cfg_print_chars(pctx, ";\n", 2); } } else if (result == ISC_R_NOTFOUND) { ; /* do nothing */ } else { INSIST(0); } } } } void cfg_doc_mapbody(cfg_printer_t *pctx, const cfg_type_t *type) { const cfg_clausedef_t * const *clauseset; const cfg_clausedef_t *clause; for (clauseset = type->of; *clauseset != NULL; clauseset++) { for (clause = *clauseset; clause->name != NULL; clause++) { cfg_print_cstr(pctx, clause->name); cfg_print_chars(pctx, " ", 1); cfg_doc_obj(pctx, clause->type); cfg_print_chars(pctx, ";", 1); /* XXX print flags here? */ cfg_print_chars(pctx, "\n\n", 2); } } } static struct flagtext { unsigned int flag; const char *text; } flagtexts[] = { { CFG_CLAUSEFLAG_NOTIMP, "not implemented" }, { CFG_CLAUSEFLAG_NYI, "not yet implemented" }, { CFG_CLAUSEFLAG_OBSOLETE, "obsolete" }, { CFG_CLAUSEFLAG_NEWDEFAULT, "default changed" }, { CFG_CLAUSEFLAG_TESTONLY, "test only" }, { CFG_CLAUSEFLAG_NOTCONFIGURED, "not configured" }, { 0, NULL } }; void cfg_print_map(cfg_printer_t *pctx, const cfg_obj_t *obj) { if (obj->value.map.id != NULL) { cfg_print_obj(pctx, obj->value.map.id); cfg_print_chars(pctx, " ", 1); } print_open(pctx); cfg_print_mapbody(pctx, obj); print_close(pctx); } static void print_clause_flags(cfg_printer_t *pctx, unsigned int flags) { struct flagtext *p; isc_boolean_t first = ISC_TRUE; for (p = flagtexts; p->flag != 0; p++) { if ((flags & p->flag) != 0) { if (first) cfg_print_chars(pctx, " // ", 4); else cfg_print_chars(pctx, ", ", 2); cfg_print_cstr(pctx, p->text); first = ISC_FALSE; } } } void cfg_doc_map(cfg_printer_t *pctx, const cfg_type_t *type) { const cfg_clausedef_t * const *clauseset; const cfg_clausedef_t *clause; if (type->parse == cfg_parse_named_map) { cfg_doc_obj(pctx, &cfg_type_astring); cfg_print_chars(pctx, " ", 1); } else if (type->parse == cfg_parse_addressed_map) { cfg_doc_obj(pctx, &cfg_type_netaddr); cfg_print_chars(pctx, " ", 1); } else if (type->parse == cfg_parse_netprefix_map) { cfg_doc_obj(pctx, &cfg_type_netprefix); cfg_print_chars(pctx, " ", 1); } print_open(pctx); for (clauseset = type->of; *clauseset != NULL; clauseset++) { for (clause = *clauseset; clause->name != NULL; clause++) { print_indent(pctx); cfg_print_cstr(pctx, clause->name); if (clause->type->print != cfg_print_void) cfg_print_chars(pctx, " ", 1); cfg_doc_obj(pctx, clause->type); cfg_print_chars(pctx, ";", 1); print_clause_flags(pctx, clause->flags); cfg_print_chars(pctx, "\n", 1); } } print_close(pctx); } isc_boolean_t cfg_obj_ismap(const cfg_obj_t *obj) { REQUIRE(obj != NULL); return (ISC_TF(obj->type->rep == &cfg_rep_map)); } isc_result_t cfg_map_get(const cfg_obj_t *mapobj, const char* name, const cfg_obj_t **obj) { isc_result_t result; isc_symvalue_t val; const cfg_map_t *map; REQUIRE(mapobj != NULL && mapobj->type->rep == &cfg_rep_map); REQUIRE(name != NULL); REQUIRE(obj != NULL && *obj == NULL); map = &mapobj->value.map; result = isc_symtab_lookup(map->symtab, name, MAP_SYM, &val); if (result != ISC_R_SUCCESS) return (result); *obj = val.as_pointer; return (ISC_R_SUCCESS); } const cfg_obj_t * cfg_map_getname(const cfg_obj_t *mapobj) { REQUIRE(mapobj != NULL && mapobj->type->rep == &cfg_rep_map); return (mapobj->value.map.id); } /* Parse an arbitrary token, storing its raw text representation. */ static isc_result_t parse_token(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { cfg_obj_t *obj = NULL; isc_result_t result; isc_region_t r; UNUSED(type); CHECK(cfg_create_obj(pctx, &cfg_type_token, &obj)); CHECK(cfg_gettoken(pctx, CFG_LEXOPT_QSTRING)); if (pctx->token.type == isc_tokentype_eof) { cfg_ungettoken(pctx); result = ISC_R_EOF; goto cleanup; } isc_lex_getlasttokentext(pctx->lexer, &pctx->token, &r); obj->value.string.base = isc_mem_get(pctx->mctx, r.length + 1); if (obj->value.string.base == NULL) { result = ISC_R_NOMEMORY; goto cleanup; } obj->value.string.length = r.length; memcpy(obj->value.string.base, r.base, r.length); obj->value.string.base[r.length] = '\0'; *ret = obj; return (result); cleanup: if (obj != NULL) isc_mem_put(pctx->mctx, obj, sizeof(*obj)); return (result); } cfg_type_t cfg_type_token = { "token", parse_token, cfg_print_ustring, cfg_doc_terminal, &cfg_rep_string, NULL }; /* * An unsupported option. This is just a list of tokens with balanced braces * ending in a semicolon. */ static isc_result_t parse_unsupported(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { cfg_obj_t *listobj = NULL; isc_result_t result; int braces = 0; CHECK(cfg_create_list(pctx, type, &listobj)); for (;;) { cfg_listelt_t *elt = NULL; CHECK(cfg_peektoken(pctx, 0)); if (pctx->token.type == isc_tokentype_special) { if (pctx->token.value.as_char == '{') braces++; else if (pctx->token.value.as_char == '}') braces--; else if (pctx->token.value.as_char == ';') if (braces == 0) break; } if (pctx->token.type == isc_tokentype_eof || braces < 0) { cfg_parser_error(pctx, CFG_LOG_NEAR, "unexpected token"); result = ISC_R_UNEXPECTEDTOKEN; goto cleanup; } CHECK(cfg_parse_listelt(pctx, &cfg_type_token, &elt)); ISC_LIST_APPEND(listobj->value.list, elt, link); } INSIST(braces == 0); *ret = listobj; return (ISC_R_SUCCESS); cleanup: CLEANUP_OBJ(listobj); return (result); } cfg_type_t cfg_type_unsupported = { "unsupported", parse_unsupported, cfg_print_spacelist, cfg_doc_terminal, &cfg_rep_list, NULL }; /* * Try interpreting the current token as a network address. * * If CFG_ADDR_WILDOK is set in flags, "*" can be used as a wildcard * and at least one of CFG_ADDR_V4OK and CFG_ADDR_V6OK must also be set. The * "*" is interpreted as the IPv4 wildcard address if CFG_ADDR_V4OK is * set (including the case where CFG_ADDR_V4OK and CFG_ADDR_V6OK are both set), * and the IPv6 wildcard address otherwise. */ static isc_result_t token_addr(cfg_parser_t *pctx, unsigned int flags, isc_netaddr_t *na) { char *s; struct in_addr in4a; struct in6_addr in6a; if (pctx->token.type != isc_tokentype_string) return (ISC_R_UNEXPECTEDTOKEN); s = TOKEN_STRING(pctx); if ((flags & CFG_ADDR_WILDOK) != 0 && strcmp(s, "*") == 0) { if ((flags & CFG_ADDR_V4OK) != 0) { isc_netaddr_any(na); return (ISC_R_SUCCESS); } else if ((flags & CFG_ADDR_V6OK) != 0) { isc_netaddr_any6(na); return (ISC_R_SUCCESS); } else { INSIST(0); } } else { if ((flags & (CFG_ADDR_V4OK | CFG_ADDR_V4PREFIXOK)) != 0) { if (inet_pton(AF_INET, s, &in4a) == 1) { isc_netaddr_fromin(na, &in4a); return (ISC_R_SUCCESS); } } if ((flags & CFG_ADDR_V4PREFIXOK) != 0 && strlen(s) <= 15U) { char buf[64]; int i; strcpy(buf, s); for (i = 0; i < 3; i++) { strcat(buf, ".0"); if (inet_pton(AF_INET, buf, &in4a) == 1) { isc_netaddr_fromin(na, &in4a); return (ISC_R_SUCCESS); } } } if ((flags & CFG_ADDR_V6OK) != 0 && strlen(s) <= 127U) { char buf[128]; /* see lib/bind9/getaddresses.c */ char *d; /* zone delimiter */ isc_uint32_t zone = 0; /* scope zone ID */ strcpy(buf, s); d = strchr(buf, '%'); if (d != NULL) *d = '\0'; if (inet_pton(AF_INET6, buf, &in6a) == 1) { if (d != NULL) { #ifdef ISC_PLATFORM_HAVESCOPEID isc_result_t result; result = isc_netscope_pton(AF_INET6, d + 1, &in6a, &zone); if (result != ISC_R_SUCCESS) return (result); #else return (ISC_R_BADADDRESSFORM); #endif } isc_netaddr_fromin6(na, &in6a); isc_netaddr_setzone(na, zone); return (ISC_R_SUCCESS); } } } return (ISC_R_UNEXPECTEDTOKEN); } isc_result_t cfg_parse_rawaddr(cfg_parser_t *pctx, unsigned int flags, isc_netaddr_t *na) { isc_result_t result; const char *wild = ""; const char *prefix = ""; CHECK(cfg_gettoken(pctx, 0)); result = token_addr(pctx, flags, na); if (result == ISC_R_UNEXPECTEDTOKEN) { if ((flags & CFG_ADDR_WILDOK) != 0) wild = " or '*'"; if ((flags & CFG_ADDR_V4PREFIXOK) != 0) wild = " or IPv4 prefix"; if ((flags & CFG_ADDR_MASK) == CFG_ADDR_V4OK) cfg_parser_error(pctx, CFG_LOG_NEAR, "expected IPv4 address%s%s", prefix, wild); else if ((flags & CFG_ADDR_MASK) == CFG_ADDR_V6OK) cfg_parser_error(pctx, CFG_LOG_NEAR, "expected IPv6 address%s%s", prefix, wild); else cfg_parser_error(pctx, CFG_LOG_NEAR, "expected IP address%s%s", prefix, wild); } cleanup: return (result); } isc_boolean_t cfg_lookingat_netaddr(cfg_parser_t *pctx, unsigned int flags) { isc_result_t result; isc_netaddr_t na_dummy; result = token_addr(pctx, flags, &na_dummy); return (ISC_TF(result == ISC_R_SUCCESS)); } isc_result_t cfg_parse_rawport(cfg_parser_t *pctx, unsigned int flags, in_port_t *port) { isc_result_t result; CHECK(cfg_gettoken(pctx, ISC_LEXOPT_NUMBER)); if ((flags & CFG_ADDR_WILDOK) != 0 && pctx->token.type == isc_tokentype_string && strcmp(TOKEN_STRING(pctx), "*") == 0) { *port = 0; return (ISC_R_SUCCESS); } if (pctx->token.type != isc_tokentype_number) { cfg_parser_error(pctx, CFG_LOG_NEAR, "expected port number or '*'"); return (ISC_R_UNEXPECTEDTOKEN); } if (pctx->token.value.as_ulong >= 65536U) { cfg_parser_error(pctx, CFG_LOG_NEAR, "port number out of range"); return (ISC_R_UNEXPECTEDTOKEN); } *port = (in_port_t)(pctx->token.value.as_ulong); return (ISC_R_SUCCESS); cleanup: return (result); } void cfg_print_rawaddr(cfg_printer_t *pctx, const isc_netaddr_t *na) { isc_result_t result; char text[128]; isc_buffer_t buf; isc_buffer_init(&buf, text, sizeof(text)); result = isc_netaddr_totext(na, &buf); RUNTIME_CHECK(result == ISC_R_SUCCESS); cfg_print_chars(pctx, isc_buffer_base(&buf), isc_buffer_usedlength(&buf)); } /* netaddr */ static unsigned int netaddr_flags = CFG_ADDR_V4OK | CFG_ADDR_V6OK; static unsigned int netaddr4_flags = CFG_ADDR_V4OK; static unsigned int netaddr4wild_flags = CFG_ADDR_V4OK | CFG_ADDR_WILDOK; static unsigned int netaddr6_flags = CFG_ADDR_V6OK; static unsigned int netaddr6wild_flags = CFG_ADDR_V6OK | CFG_ADDR_WILDOK; static isc_result_t parse_netaddr(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; cfg_obj_t *obj = NULL; isc_netaddr_t netaddr; unsigned int flags = *(const unsigned int *)type->of; CHECK(cfg_create_obj(pctx, type, &obj)); CHECK(cfg_parse_rawaddr(pctx, flags, &netaddr)); isc_sockaddr_fromnetaddr(&obj->value.sockaddr, &netaddr, 0); *ret = obj; return (ISC_R_SUCCESS); cleanup: CLEANUP_OBJ(obj); return (result); } static void cfg_doc_netaddr(cfg_printer_t *pctx, const cfg_type_t *type) { const unsigned int *flagp = type->of; int n = 0; if (*flagp != CFG_ADDR_V4OK && *flagp != CFG_ADDR_V6OK) cfg_print_chars(pctx, "( ", 2); if (*flagp & CFG_ADDR_V4OK) { cfg_print_cstr(pctx, ""); n++; } if (*flagp & CFG_ADDR_V6OK) { if (n != 0) cfg_print_chars(pctx, " | ", 3); cfg_print_cstr(pctx, ""); n++; } if (*flagp & CFG_ADDR_WILDOK) { if (n != 0) cfg_print_chars(pctx, " | ", 3); cfg_print_chars(pctx, "*", 1); n++; POST(n); } if (*flagp != CFG_ADDR_V4OK && *flagp != CFG_ADDR_V6OK) cfg_print_chars(pctx, " )", 2); } cfg_type_t cfg_type_netaddr = { "netaddr", parse_netaddr, cfg_print_sockaddr, cfg_doc_netaddr, &cfg_rep_sockaddr, &netaddr_flags }; cfg_type_t cfg_type_netaddr4 = { "netaddr4", parse_netaddr, cfg_print_sockaddr, cfg_doc_netaddr, &cfg_rep_sockaddr, &netaddr4_flags }; cfg_type_t cfg_type_netaddr4wild = { "netaddr4wild", parse_netaddr, cfg_print_sockaddr, cfg_doc_netaddr, &cfg_rep_sockaddr, &netaddr4wild_flags }; cfg_type_t cfg_type_netaddr6 = { "netaddr6", parse_netaddr, cfg_print_sockaddr, cfg_doc_netaddr, &cfg_rep_sockaddr, &netaddr6_flags }; cfg_type_t cfg_type_netaddr6wild = { "netaddr6wild", parse_netaddr, cfg_print_sockaddr, cfg_doc_netaddr, &cfg_rep_sockaddr, &netaddr6wild_flags }; /* netprefix */ isc_result_t cfg_parse_netprefix(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { cfg_obj_t *obj = NULL; isc_result_t result; isc_netaddr_t netaddr; unsigned int addrlen = 0, prefixlen; UNUSED(type); CHECK(cfg_parse_rawaddr(pctx, CFG_ADDR_V4OK | CFG_ADDR_V4PREFIXOK | CFG_ADDR_V6OK, &netaddr)); switch (netaddr.family) { case AF_INET: addrlen = 32; break; case AF_INET6: addrlen = 128; break; default: INSIST(0); break; } CHECK(cfg_peektoken(pctx, 0)); if (pctx->token.type == isc_tokentype_special && pctx->token.value.as_char == '/') { CHECK(cfg_gettoken(pctx, 0)); /* read "/" */ CHECK(cfg_gettoken(pctx, ISC_LEXOPT_NUMBER)); if (pctx->token.type != isc_tokentype_number) { cfg_parser_error(pctx, CFG_LOG_NEAR, "expected prefix length"); return (ISC_R_UNEXPECTEDTOKEN); } prefixlen = pctx->token.value.as_ulong; if (prefixlen > addrlen) { cfg_parser_error(pctx, CFG_LOG_NOPREP, "invalid prefix length"); return (ISC_R_RANGE); } } else { prefixlen = addrlen; } CHECK(cfg_create_obj(pctx, &cfg_type_netprefix, &obj)); obj->value.netprefix.address = netaddr; obj->value.netprefix.prefixlen = prefixlen; *ret = obj; return (ISC_R_SUCCESS); cleanup: cfg_parser_error(pctx, CFG_LOG_NEAR, "expected network prefix"); return (result); } static void print_netprefix(cfg_printer_t *pctx, const cfg_obj_t *obj) { const cfg_netprefix_t *p = &obj->value.netprefix; cfg_print_rawaddr(pctx, &p->address); cfg_print_chars(pctx, "/", 1); cfg_print_rawuint(pctx, p->prefixlen); } isc_boolean_t cfg_obj_isnetprefix(const cfg_obj_t *obj) { REQUIRE(obj != NULL); return (ISC_TF(obj->type->rep == &cfg_rep_netprefix)); } void cfg_obj_asnetprefix(const cfg_obj_t *obj, isc_netaddr_t *netaddr, unsigned int *prefixlen) { REQUIRE(obj != NULL && obj->type->rep == &cfg_rep_netprefix); REQUIRE(netaddr != NULL); REQUIRE(prefixlen != NULL); *netaddr = obj->value.netprefix.address; *prefixlen = obj->value.netprefix.prefixlen; } cfg_type_t cfg_type_netprefix = { "netprefix", cfg_parse_netprefix, print_netprefix, cfg_doc_terminal, &cfg_rep_netprefix, NULL }; static isc_result_t parse_sockaddrsub(cfg_parser_t *pctx, const cfg_type_t *type, int flags, cfg_obj_t **ret) { isc_result_t result; isc_netaddr_t netaddr; in_port_t port = 0; cfg_obj_t *obj = NULL; CHECK(cfg_create_obj(pctx, type, &obj)); CHECK(cfg_parse_rawaddr(pctx, flags, &netaddr)); CHECK(cfg_peektoken(pctx, 0)); if (pctx->token.type == isc_tokentype_string && strcasecmp(TOKEN_STRING(pctx), "port") == 0) { CHECK(cfg_gettoken(pctx, 0)); /* read "port" */ CHECK(cfg_parse_rawport(pctx, flags, &port)); } isc_sockaddr_fromnetaddr(&obj->value.sockaddr, &netaddr, port); *ret = obj; return (ISC_R_SUCCESS); cleanup: CLEANUP_OBJ(obj); return (result); } static unsigned int sockaddr_flags = CFG_ADDR_V4OK | CFG_ADDR_V6OK; cfg_type_t cfg_type_sockaddr = { "sockaddr", cfg_parse_sockaddr, cfg_print_sockaddr, cfg_doc_sockaddr, &cfg_rep_sockaddr, &sockaddr_flags }; isc_result_t cfg_parse_sockaddr(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { const unsigned int *flagp = type->of; return (parse_sockaddrsub(pctx, &cfg_type_sockaddr, *flagp, ret)); } void cfg_print_sockaddr(cfg_printer_t *pctx, const cfg_obj_t *obj) { isc_netaddr_t netaddr; in_port_t port; char buf[ISC_NETADDR_FORMATSIZE]; isc_netaddr_fromsockaddr(&netaddr, &obj->value.sockaddr); isc_netaddr_format(&netaddr, buf, sizeof(buf)); cfg_print_cstr(pctx, buf); port = isc_sockaddr_getport(&obj->value.sockaddr); if (port != 0) { cfg_print_chars(pctx, " port ", 6); cfg_print_rawuint(pctx, port); } } void cfg_doc_sockaddr(cfg_printer_t *pctx, const cfg_type_t *type) { const unsigned int *flagp = type->of; int n = 0; cfg_print_chars(pctx, "( ", 2); if (*flagp & CFG_ADDR_V4OK) { cfg_print_cstr(pctx, ""); n++; } if (*flagp & CFG_ADDR_V6OK) { if (n != 0) cfg_print_chars(pctx, " | ", 3); cfg_print_cstr(pctx, ""); n++; } if (*flagp & CFG_ADDR_WILDOK) { if (n != 0) cfg_print_chars(pctx, " | ", 3); cfg_print_chars(pctx, "*", 1); n++; POST(n); } cfg_print_chars(pctx, " ) ", 3); if (*flagp & CFG_ADDR_WILDOK) { cfg_print_cstr(pctx, "[ port ( | * ) ]"); } else { cfg_print_cstr(pctx, "[ port ]"); } } isc_boolean_t cfg_obj_issockaddr(const cfg_obj_t *obj) { REQUIRE(obj != NULL); return (ISC_TF(obj->type->rep == &cfg_rep_sockaddr)); } const isc_sockaddr_t * cfg_obj_assockaddr(const cfg_obj_t *obj) { REQUIRE(obj != NULL && obj->type->rep == &cfg_rep_sockaddr); return (&obj->value.sockaddr); } isc_result_t cfg_gettoken(cfg_parser_t *pctx, int options) { isc_result_t result; if (pctx->seen_eof) return (ISC_R_SUCCESS); options |= (ISC_LEXOPT_EOF | ISC_LEXOPT_NOMORE); redo: pctx->token.type = isc_tokentype_unknown; result = isc_lex_gettoken(pctx->lexer, options, &pctx->token); pctx->ungotten = ISC_FALSE; pctx->line = isc_lex_getsourceline(pctx->lexer); switch (result) { case ISC_R_SUCCESS: if (pctx->token.type == isc_tokentype_eof) { result = isc_lex_close(pctx->lexer); INSIST(result == ISC_R_NOMORE || result == ISC_R_SUCCESS); if (isc_lex_getsourcename(pctx->lexer) != NULL) { /* * Closed an included file, not the main file. */ cfg_listelt_t *elt; elt = ISC_LIST_TAIL(pctx->open_files-> value.list); INSIST(elt != NULL); ISC_LIST_UNLINK(pctx->open_files-> value.list, elt, link); ISC_LIST_APPEND(pctx->closed_files-> value.list, elt, link); goto redo; } pctx->seen_eof = ISC_TRUE; } break; case ISC_R_NOSPACE: /* More understandable than "ran out of space". */ cfg_parser_error(pctx, CFG_LOG_NEAR, "token too big"); break; case ISC_R_IOERROR: cfg_parser_error(pctx, 0, "%s", isc_result_totext(result)); break; default: cfg_parser_error(pctx, CFG_LOG_NEAR, "%s", isc_result_totext(result)); break; } return (result); } void cfg_ungettoken(cfg_parser_t *pctx) { if (pctx->seen_eof) return; isc_lex_ungettoken(pctx->lexer, &pctx->token); pctx->ungotten = ISC_TRUE; } isc_result_t cfg_peektoken(cfg_parser_t *pctx, int options) { isc_result_t result; CHECK(cfg_gettoken(pctx, options)); cfg_ungettoken(pctx); cleanup: return (result); } /* * Get a string token, accepting both the quoted and the unquoted form. * Log an error if the next token is not a string. */ static isc_result_t cfg_getstringtoken(cfg_parser_t *pctx) { isc_result_t result; result = cfg_gettoken(pctx, CFG_LEXOPT_QSTRING); if (result != ISC_R_SUCCESS) return (result); if (pctx->token.type != isc_tokentype_string && pctx->token.type != isc_tokentype_qstring) { cfg_parser_error(pctx, CFG_LOG_NEAR, "expected string"); return (ISC_R_UNEXPECTEDTOKEN); } return (ISC_R_SUCCESS); } void cfg_parser_error(cfg_parser_t *pctx, unsigned int flags, const char *fmt, ...) { va_list args; va_start(args, fmt); parser_complain(pctx, ISC_FALSE, flags, fmt, args); va_end(args); pctx->errors++; } void cfg_parser_warning(cfg_parser_t *pctx, unsigned int flags, const char *fmt, ...) { va_list args; va_start(args, fmt); parser_complain(pctx, ISC_TRUE, flags, fmt, args); va_end(args); pctx->warnings++; } #define MAX_LOG_TOKEN 30 /* How much of a token to quote in log messages. */ static isc_boolean_t have_current_file(cfg_parser_t *pctx) { cfg_listelt_t *elt; if (pctx->open_files == NULL) return (ISC_FALSE); elt = ISC_LIST_TAIL(pctx->open_files->value.list); if (elt == NULL) return (ISC_FALSE); return (ISC_TRUE); } static char * current_file(cfg_parser_t *pctx) { static char none[] = "none"; cfg_listelt_t *elt; cfg_obj_t *fileobj; if (!have_current_file(pctx)) return (none); elt = ISC_LIST_TAIL(pctx->open_files->value.list); if (elt == NULL) /* shouldn't be possible, but... */ return (none); fileobj = elt->obj; INSIST(fileobj->type == &cfg_type_qstring); return (fileobj->value.string.base); } static void parser_complain(cfg_parser_t *pctx, isc_boolean_t is_warning, unsigned int flags, const char *format, va_list args) { char tokenbuf[MAX_LOG_TOKEN + 10]; static char where[ISC_DIR_PATHMAX + 100]; static char message[2048]; int level = ISC_LOG_ERROR; const char *prep = ""; size_t len; if (is_warning) level = ISC_LOG_WARNING; where[0] = '\0'; if (have_current_file(pctx)) snprintf(where, sizeof(where), "%s:%u: ", current_file(pctx), pctx->line); len = vsnprintf(message, sizeof(message), format, args); if (len >= sizeof(message)) FATAL_ERROR(__FILE__, __LINE__, "error message would overflow"); if ((flags & (CFG_LOG_NEAR|CFG_LOG_BEFORE|CFG_LOG_NOPREP)) != 0) { isc_region_t r; if (pctx->ungotten) (void)cfg_gettoken(pctx, 0); if (pctx->token.type == isc_tokentype_eof) { snprintf(tokenbuf, sizeof(tokenbuf), "end of file"); } else if (pctx->token.type == isc_tokentype_unknown) { flags = 0; tokenbuf[0] = '\0'; } else { isc_lex_getlasttokentext(pctx->lexer, &pctx->token, &r); if (r.length > MAX_LOG_TOKEN) snprintf(tokenbuf, sizeof(tokenbuf), "'%.*s...'", MAX_LOG_TOKEN, r.base); else snprintf(tokenbuf, sizeof(tokenbuf), "'%.*s'", (int)r.length, r.base); } /* Choose a preposition. */ if (flags & CFG_LOG_NEAR) prep = " near "; else if (flags & CFG_LOG_BEFORE) prep = " before "; else prep = " "; } else { tokenbuf[0] = '\0'; } isc_log_write(pctx->lctx, CAT, MOD, level, "%s%s%s%s", where, message, prep, tokenbuf); } void cfg_obj_log(const cfg_obj_t *obj, isc_log_t *lctx, int level, const char *fmt, ...) { va_list ap; char msgbuf[2048]; if (! isc_log_wouldlog(lctx, level)) return; va_start(ap, fmt); vsnprintf(msgbuf, sizeof(msgbuf), fmt, ap); isc_log_write(lctx, CAT, MOD, level, "%s:%u: %s", obj->file == NULL ? "" : obj->file, obj->line, msgbuf); va_end(ap); } const char * cfg_obj_file(const cfg_obj_t *obj) { return (obj->file); } unsigned int cfg_obj_line(const cfg_obj_t *obj) { return (obj->line); } isc_result_t cfg_create_obj(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; cfg_obj_t *obj; obj = isc_mem_get(pctx->mctx, sizeof(cfg_obj_t)); if (obj == NULL) return (ISC_R_NOMEMORY); obj->type = type; obj->file = current_file(pctx); obj->line = pctx->line; result = isc_refcount_init(&obj->references, 1); if (result != ISC_R_SUCCESS) { isc_mem_put(pctx->mctx, obj, sizeof(cfg_obj_t)); return (result); } *ret = obj; return (ISC_R_SUCCESS); } static void map_symtabitem_destroy(char *key, unsigned int type, isc_symvalue_t symval, void *userarg) { cfg_obj_t *obj = symval.as_pointer; cfg_parser_t *pctx = (cfg_parser_t *)userarg; UNUSED(key); UNUSED(type); cfg_obj_destroy(pctx, &obj); } static isc_result_t create_map(cfg_parser_t *pctx, const cfg_type_t *type, cfg_obj_t **ret) { isc_result_t result; isc_symtab_t *symtab = NULL; cfg_obj_t *obj = NULL; CHECK(cfg_create_obj(pctx, type, &obj)); CHECK(isc_symtab_create(pctx->mctx, 5, /* XXX */ map_symtabitem_destroy, pctx, ISC_FALSE, &symtab)); obj->value.map.symtab = symtab; obj->value.map.id = NULL; *ret = obj; return (ISC_R_SUCCESS); cleanup: if (obj != NULL) isc_mem_put(pctx->mctx, obj, sizeof(*obj)); return (result); } static void free_map(cfg_parser_t *pctx, cfg_obj_t *obj) { CLEANUP_OBJ(obj->value.map.id); isc_symtab_destroy(&obj->value.map.symtab); } isc_boolean_t cfg_obj_istype(const cfg_obj_t *obj, const cfg_type_t *type) { return (ISC_TF(obj->type == type)); } /* * Destroy 'obj', a configuration object created in 'pctx'. */ void cfg_obj_destroy(cfg_parser_t *pctx, cfg_obj_t **objp) { cfg_obj_t *obj = *objp; unsigned int refs; isc_refcount_decrement(&obj->references, &refs); if (refs == 0) { obj->type->rep->free(pctx, obj); isc_refcount_destroy(&obj->references); isc_mem_put(pctx->mctx, obj, sizeof(cfg_obj_t)); } *objp = NULL; } void cfg_obj_attach(cfg_obj_t *src, cfg_obj_t **dest) { REQUIRE(src != NULL); REQUIRE(dest != NULL && *dest == NULL); isc_refcount_increment(&src->references, NULL); *dest = src; } static void free_noop(cfg_parser_t *pctx, cfg_obj_t *obj) { UNUSED(pctx); UNUSED(obj); } void cfg_doc_obj(cfg_printer_t *pctx, const cfg_type_t *type) { type->doc(pctx, type); } void cfg_doc_terminal(cfg_printer_t *pctx, const cfg_type_t *type) { cfg_print_chars(pctx, "<", 1); cfg_print_cstr(pctx, type->name); cfg_print_chars(pctx, ">", 1); } void cfg_print_grammar(const cfg_type_t *type, void (*f)(void *closure, const char *text, int textlen), void *closure) { cfg_printer_t pctx; pctx.f = f; pctx.closure = closure; pctx.indent = 0; cfg_doc_obj(&pctx, type); }