%{ /****************************************************************************** * Icinga 2 * * Copyright (C) 2012-2014 Icinga Development Team (http://www.icinga.org) * * * * This program is free software; you can redistribute it and/or * * modify it under the terms of the GNU General Public License * * as published by the Free Software Foundation; either version 2 * * of the License, or (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software Foundation * * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. * ******************************************************************************/ #include "config/configcompiler.h" #include "config/typerule.h" #include "config/configcompilercontext.h" using namespace icinga; #include "config/config_parser.hh" #include #define YYLTYPE icinga::DebugInfo #define YY_EXTRA_TYPE ConfigCompiler * #define YY_USER_ACTION \ do { \ yylloc->Path = yyextra->GetPath(); \ yylloc->FirstLine = yylineno; \ yylloc->FirstColumn = yycolumn; \ yylloc->LastLine = yylineno; \ yylloc->LastColumn = yycolumn + yyleng - 1; \ yycolumn += yyleng; \ } while (0); #define YY_INPUT(buf, result, max_size) \ do { \ result = yyextra->ReadInput(buf, max_size); \ } while (0) extern int ignore_newlines; struct lex_buf { char *buf; size_t size; }; static void lb_init(lex_buf *lb) { lb->buf = NULL; lb->size = 0; } static void lb_cleanup(lex_buf *lb) { free(lb->buf); } static void lb_append_char(lex_buf *lb, char new_char) { const size_t block_size = 64; size_t old_blocks = (lb->size + (block_size - 1)) / block_size; size_t new_blocks = ((lb->size + 1) + (block_size - 1)) / block_size; if (old_blocks != new_blocks) { char *new_buf = (char *)realloc(lb->buf, new_blocks * block_size); if (new_buf == NULL && new_blocks > 0) throw std::bad_alloc(); lb->buf = new_buf; } lb->size++; lb->buf[lb->size - 1] = new_char; } static char *lb_steal(lex_buf *lb) { lb_append_char(lb, '\0'); char *buf = lb->buf; lb->buf = NULL; lb->size = 0; return buf; } %} %option reentrant noyywrap yylineno %option bison-bridge bison-locations %option never-interactive nounistd %x C_COMMENT %x STRING %x HEREDOC %% lex_buf string_buf; \" { lb_init(&string_buf); BEGIN(STRING); } \" { BEGIN(INITIAL); lb_append_char(&string_buf, '\0'); yylval->text = lb_steal(&string_buf); return T_STRING; } \n { std::ostringstream msgbuf; msgbuf << "Unterminated string found: " << *yylloc; ConfigCompilerContext::GetInstance()->AddMessage(true, msgbuf.str()); BEGIN(INITIAL); } \\[0-7]{1,3} { /* octal escape sequence */ int result; (void) sscanf(yytext + 1, "%o", &result); if (result > 0xff) { /* error, constant is out-of-bounds */ std::ostringstream msgbuf; msgbuf << "Constant is out-of-bounds: " << yytext << " " << *yylloc; ConfigCompilerContext::GetInstance()->AddMessage(true, msgbuf.str()); } lb_append_char(&string_buf, result); } \\[0-9]+ { /* generate error - bad escape sequence; something * like '\48' or '\0777777' */ std::ostringstream msgbuf; msgbuf << "Bad escape sequence found: " << yytext << " " << *yylloc; ConfigCompilerContext::GetInstance()->AddMessage(true, msgbuf.str()); } \\n { lb_append_char(&string_buf, '\n'); } \\t { lb_append_char(&string_buf, '\t'); } \\r { lb_append_char(&string_buf, '\r'); } \\b { lb_append_char(&string_buf, '\b'); } \\f { lb_append_char(&string_buf, '\f'); } \\(.|\n) { lb_append_char(&string_buf, yytext[1]); } [^\\\n\"]+ { char *yptr = yytext; while (*yptr) lb_append_char(&string_buf, *yptr++); } \{\{\{ { lb_init(&string_buf); BEGIN(HEREDOC); } \}\}\} { BEGIN(INITIAL); lb_append_char(&string_buf, '\0'); yylval->text = lb_steal(&string_buf); return T_STRING; } (.|\n) { lb_append_char(&string_buf, yytext[0]); } { "/*" BEGIN(C_COMMENT); } { "*/" BEGIN(INITIAL); [^*] /* ignore comment */ "*" /* ignore star */ } <> { std::ostringstream msgbuf; msgbuf << "End-of-file while in comment: " << yytext << " " << *yylloc; ConfigCompilerContext::GetInstance()->AddMessage(true, msgbuf.str()); yyterminate(); } \/\/[^\n]* /* ignore C++-style comments */ #[^\n]* /* ignore shell-style comments */ [ \t] /* ignore whitespace */ { %type return T_TYPE; %dictionary { yylval->type = TypeDictionary; return T_TYPE_DICTIONARY; } %array { yylval->type = TypeArray; return T_TYPE_ARRAY; } %number { yylval->type = TypeNumber; return T_TYPE_NUMBER; } %string { yylval->type = TypeString; return T_TYPE_STRING; } %scalar { yylval->type = TypeScalar; return T_TYPE_SCALAR; } %any { yylval->type = TypeAny; return T_TYPE_ANY; } %name { yylval->type = TypeName; return T_TYPE_NAME; } %validator { return T_VALIDATOR; } %require { return T_REQUIRE; } %attribute { return T_ATTRIBUTE; } %inherits return T_INHERITS; object return T_OBJECT; template return T_TEMPLATE; include return T_INCLUDE; include_recursive return T_INCLUDE_RECURSIVE; library return T_LIBRARY; null return T_NULL; partial return T_PARTIAL; true { yylval->num = 1; return T_NUMBER; } false { yylval->num = 0; return T_NUMBER; } const return T_CONST; apply return T_APPLY; to return T_TO; where return T_WHERE; import return T_IMPORT; assign return T_ASSIGN; ignore return T_IGNORE; function return T_FUNCTION; lambda return T_LAMBDA; return return T_RETURN; zone return T_ZONE; for return T_FOR; \<\< { yylval->op = &AExpression::OpShiftLeft; return T_SHIFT_LEFT; } \>\> { yylval->op = &AExpression::OpShiftRight; return T_SHIFT_RIGHT; } \<= { yylval->op = &AExpression::OpLessThanOrEqual; return T_LESS_THAN_OR_EQUAL; } \>= { yylval->op = &AExpression::OpGreaterThanOrEqual; return T_GREATER_THAN_OR_EQUAL; } == { yylval->op = &AExpression::OpEqual; return T_EQUAL; } != { yylval->op = &AExpression::OpNotEqual; return T_NOT_EQUAL; } !in { yylval->op = &AExpression::OpNotIn; return T_NOT_IN; } in { yylval->op = &AExpression::OpIn; return T_IN; } && { yylval->op = &AExpression::OpLogicalAnd; return T_LOGICAL_AND; } \|\| { yylval->op = &AExpression::OpLogicalOr; return T_LOGICAL_OR; } [a-zA-Z_][a-zA-Z0-9\-_]* { yylval->text = strdup(yytext); return T_IDENTIFIER; } \<[^\>]*\> { yytext[yyleng-1] = '\0'; yylval->text = strdup(yytext + 1); return T_STRING_ANGLE; } -?[0-9]+(\.[0-9]+)?ms { yylval->num = strtod(yytext, NULL) / 1000; return T_NUMBER; } -?[0-9]+(\.[0-9]+)?d { yylval->num = strtod(yytext, NULL) * 60 * 60 * 24; return T_NUMBER; } -?[0-9]+(\.[0-9]+)?h { yylval->num = strtod(yytext, NULL) * 60 * 60; return T_NUMBER; } -?[0-9]+(\.[0-9]+)?m { yylval->num = strtod(yytext, NULL) * 60; return T_NUMBER; } -?[0-9]+(\.[0-9]+)?s { yylval->num = strtod(yytext, NULL); return T_NUMBER; } -?[0-9]+(\.[0-9]+)? { yylval->num = strtod(yytext, NULL); return T_NUMBER; } = { yylval->op = &AExpression::OpSet; return T_SET; } \+= { yylval->op = &AExpression::OpSetPlus; return T_SET_PLUS; } -= { yylval->op = &AExpression::OpSetMinus; return T_SET_MINUS; } \*= { yylval->op = &AExpression::OpSetMultiply; return T_SET_MULTIPLY; } \/= { yylval->op = &AExpression::OpSetDivide; return T_SET_DIVIDE; } \+ { yylval->op = &AExpression::OpAdd; return T_PLUS; } \- { yylval->op = &AExpression::OpSubtract; return T_MINUS; } \* { yylval->op = &AExpression::OpMultiply; return T_MULTIPLY; } \/ { yylval->op = &AExpression::OpMultiply; return T_DIVIDE_OP; } \& { yylval->op = &AExpression::OpBinaryAnd; return T_BINARY_AND; } \| { yylval->op = &AExpression::OpBinaryOr; return T_BINARY_OR; } \< { yylval->op = &AExpression::OpLessThan; return T_LESS_THAN; } \> { yylval->op = &AExpression::OpLessThan; return T_GREATER_THAN; } } [\r\n]+ { yycolumn -= strlen(yytext) - 1; if (!ignore_newlines) return T_NEWLINE; } . return yytext[0]; %% void ConfigCompiler::InitializeScanner(void) { yylex_init(&m_Scanner); yyset_extra(this, m_Scanner); } void ConfigCompiler::DestroyScanner(void) { yylex_destroy(m_Scanner); }