/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /* based on ap_expr_parse.y from mod_ssl */ /* _________________________________________________________________ ** ** Expression Parser ** _________________________________________________________________ */ %pure-parser %error-verbose %defines %lex-param { void *yyscanner } %parse-param { ap_expr_parse_ctx_t *ctx } %{ #include "util_expr_private.h" %} %union { char *cpVal; ap_expr_t *exVal; int num; } %token T_TRUE %token T_FALSE %token T_EXPR_BOOL %token T_EXPR_STRING %token T_ERROR %token T_DIGIT %token T_ID %token T_STRING %token T_REGEX %token T_REGEX_I %token T_REGEX_BACKREF %token T_OP_UNARY %token T_OP_BINARY %token T_STR_BEGIN %token T_STR_END %token T_VAR_BEGIN %token T_VAR_END %token T_OP_EQ %token T_OP_NE %token T_OP_LT %token T_OP_LE %token T_OP_GT %token T_OP_GE %token T_OP_REG %token T_OP_NRE %token T_OP_IN %token T_OP_STR_EQ %token T_OP_STR_NE %token T_OP_STR_LT %token T_OP_STR_LE %token T_OP_STR_GT %token T_OP_STR_GE %token T_OP_CONCAT %token T_OP_OR %token T_OP_AND %token T_OP_NOT %left T_OP_OR %left T_OP_AND %left T_OP_NOT %left T_OP_CONCAT %type expr %type comparison %type strfunccall %type lstfunccall %type regex %type words %type wordlist %type word %type string %type strpart %type var %type backref %{ #include "util_expr_private.h" #define yyscanner ctx->scanner int ap_expr_yylex(YYSTYPE *lvalp, void *scanner); %} %% root : T_EXPR_BOOL expr { ctx->expr = $2; } | T_EXPR_STRING string { ctx->expr = $2; } | T_ERROR { YYABORT; } ; expr : T_TRUE { $$ = ap_expr_make(op_True, NULL, NULL, ctx); } | T_FALSE { $$ = ap_expr_make(op_False, NULL, NULL, ctx); } | T_OP_NOT expr { $$ = ap_expr_make(op_Not, $2, NULL, ctx); } | expr T_OP_OR expr { $$ = ap_expr_make(op_Or, $1, $3, ctx); } | expr T_OP_AND expr { $$ = ap_expr_make(op_And, $1, $3, ctx); } | comparison { $$ = ap_expr_make(op_Comp, $1, NULL, ctx); } | T_OP_UNARY word { $$ = ap_expr_unary_op_make( $1, $2, ctx); } | word T_OP_BINARY word { $$ = ap_expr_binary_op_make($2, $1, $3, ctx); } | '(' expr ')' { $$ = $2; } | T_ERROR { YYABORT; } ; comparison: word T_OP_EQ word { $$ = ap_expr_make(op_EQ, $1, $3, ctx); } | word T_OP_NE word { $$ = ap_expr_make(op_NE, $1, $3, ctx); } | word T_OP_LT word { $$ = ap_expr_make(op_LT, $1, $3, ctx); } | word T_OP_LE word { $$ = ap_expr_make(op_LE, $1, $3, ctx); } | word T_OP_GT word { $$ = ap_expr_make(op_GT, $1, $3, ctx); } | word T_OP_GE word { $$ = ap_expr_make(op_GE, $1, $3, ctx); } | word T_OP_STR_EQ word { $$ = ap_expr_make(op_STR_EQ, $1, $3, ctx); } | word T_OP_STR_NE word { $$ = ap_expr_make(op_STR_NE, $1, $3, ctx); } | word T_OP_STR_LT word { $$ = ap_expr_make(op_STR_LT, $1, $3, ctx); } | word T_OP_STR_LE word { $$ = ap_expr_make(op_STR_LE, $1, $3, ctx); } | word T_OP_STR_GT word { $$ = ap_expr_make(op_STR_GT, $1, $3, ctx); } | word T_OP_STR_GE word { $$ = ap_expr_make(op_STR_GE, $1, $3, ctx); } | word T_OP_IN wordlist { $$ = ap_expr_make(op_IN, $1, $3, ctx); } | word T_OP_REG regex { $$ = ap_expr_make(op_REG, $1, $3, ctx); } | word T_OP_NRE regex { $$ = ap_expr_make(op_NRE, $1, $3, ctx); } ; wordlist : lstfunccall { $$ = $1; } | '{' words '}' { $$ = $2; } ; words : word { $$ = ap_expr_make(op_ListElement, $1, NULL, ctx); } | words ',' word { $$ = ap_expr_make(op_ListElement, $3, $1, ctx); } ; string : string strpart { $$ = ap_expr_make(op_Concat, $1, $2, ctx); } | strpart { $$ = $1; } | T_ERROR { YYABORT; } ; strpart : T_STRING { $$ = ap_expr_make(op_String, $1, NULL, ctx); } | var { $$ = $1; } | backref { $$ = $1; } ; var : T_VAR_BEGIN T_ID T_VAR_END { $$ = ap_expr_var_make($2, ctx); } | T_VAR_BEGIN T_ID ':' string T_VAR_END { $$ = ap_expr_str_func_make($2, $4, ctx); } ; word : T_DIGIT { $$ = ap_expr_make(op_Digit, $1, NULL, ctx); } | word T_OP_CONCAT word { $$ = ap_expr_make(op_Concat, $1, $3, ctx); } | var { $$ = $1; } | backref { $$ = $1; } | strfunccall { $$ = $1; } | T_STR_BEGIN string T_STR_END { $$ = $2; } | T_STR_BEGIN T_STR_END { $$ = ap_expr_make(op_String, "", NULL, ctx); } ; regex : T_REGEX { ap_regex_t *regex; if ((regex = ap_pregcomp(ctx->pool, $1, AP_REG_EXTENDED|AP_REG_NOSUB)) == NULL) { ctx->error = "Failed to compile regular expression"; YYERROR; } $$ = ap_expr_make(op_Regex, regex, NULL, ctx); } | T_REGEX_I { ap_regex_t *regex; if ((regex = ap_pregcomp(ctx->pool, $1, AP_REG_EXTENDED|AP_REG_NOSUB|AP_REG_ICASE)) == NULL) { ctx->error = "Failed to compile regular expression"; YYERROR; } $$ = ap_expr_make(op_Regex, regex, NULL, ctx); } ; backref : T_REGEX_BACKREF { int *n = apr_palloc(ctx->pool, sizeof(int)); *n = $1; $$ = ap_expr_make(op_RegexBackref, n, NULL, ctx); } ; lstfunccall : T_ID '(' word ')' { $$ = ap_expr_list_func_make($1, $3, ctx); } ; strfunccall : T_ID '(' word ')' { $$ = ap_expr_str_func_make($1, $3, ctx); } ; %% void yyerror(ap_expr_parse_ctx_t *ctx, const char *s) { /* s is allocated on the stack */ ctx->error = apr_pstrdup(ctx->ptemp, s); }