%{ /* * zlexer.lex - lexical analyzer for (DNS) zone files * * Copyright (c) 2001-2011, NLnet Labs. All rights reserved. * * See LICENSE for the license. * */ #include #include #include #include #include #include "zonec.h" #include "dname.h" #include "zparser.h" #define YY_NO_UNPUT #if 0 #define LEXOUT(s) printf s /* used ONLY when debugging */ #else #define LEXOUT(s) #endif enum lexer_state { EXPECT_OWNER, PARSING_OWNER, PARSING_TTL_CLASS_TYPE, PARSING_RDATA }; static int parse_token(int token, char *yytext, enum lexer_state *lexer_state); static YY_BUFFER_STATE include_stack[MAXINCLUDES]; static zparser_type zparser_stack[MAXINCLUDES]; static int include_stack_ptr = 0; /* * Saves the file specific variables on the include stack. */ static void push_parser_state(FILE *input) { zparser_stack[include_stack_ptr].filename = parser->filename; zparser_stack[include_stack_ptr].line = parser->line; zparser_stack[include_stack_ptr].origin = parser->origin; include_stack[include_stack_ptr] = YY_CURRENT_BUFFER; yy_switch_to_buffer(yy_create_buffer(input, YY_BUF_SIZE)); ++include_stack_ptr; } /* * Restores the file specific variables from the include stack. */ static void pop_parser_state(void) { --include_stack_ptr; parser->filename = zparser_stack[include_stack_ptr].filename; parser->line = zparser_stack[include_stack_ptr].line; parser->origin = zparser_stack[include_stack_ptr].origin; yy_delete_buffer(YY_CURRENT_BUFFER); yy_switch_to_buffer(include_stack[include_stack_ptr]); } #ifndef yy_set_bol /* compat definition, for flex 2.4.6 */ #define yy_set_bol(at_bol) \ { \ if ( ! yy_current_buffer ) \ yy_current_buffer = yy_create_buffer( yyin, YY_BUF_SIZE ); \ yy_current_buffer->yy_ch_buf[0] = ((at_bol)?'\n':' '); \ } #endif %} SPACE [ \t] LETTER [a-zA-Z] NEWLINE [\n\r] ZONESTR [^ \t\n\r();.\"\$] DOLLAR \$ COMMENT ; DOT \. BIT [^\]\n]|\\. ANY [^\"\n\\]|\\. %x incl bitlabel quotedstring %% static int paren_open = 0; static enum lexer_state lexer_state = EXPECT_OWNER; {SPACE}*{COMMENT}.* /* ignore */ ^{DOLLAR}TTL { lexer_state = PARSING_RDATA; return DOLLAR_TTL; } ^{DOLLAR}ORIGIN { lexer_state = PARSING_RDATA; return DOLLAR_ORIGIN; } /* * Handle $INCLUDE directives. See * http://dinosaur.compilertools.net/flex/flex_12.html#SEC12. */ ^{DOLLAR}INCLUDE { BEGIN(incl); } \n | <> { int error_occurred = parser->error_occurred; BEGIN(INITIAL); zc_error("missing file name in $INCLUDE directive"); yy_set_bol(1); /* Set beginning of line, so "^" rules match. */ ++parser->line; parser->error_occurred = error_occurred; } .+ { char *tmp; domain_type *origin = parser->origin; int error_occurred = parser->error_occurred; BEGIN(INITIAL); if (include_stack_ptr >= MAXINCLUDES ) { zc_error("includes nested too deeply, skipped (>%d)", MAXINCLUDES); } else { FILE *input; /* Remove trailing comment. */ tmp = strrchr(yytext, ';'); if (tmp) { *tmp = '\0'; } strip_string(yytext); /* Parse origin for include file. */ tmp = strrchr(yytext, ' '); if (!tmp) { tmp = strrchr(yytext, '\t'); } if (tmp) { const dname_type *dname; /* split the original yytext */ *tmp = '\0'; strip_string(yytext); dname = dname_parse(parser->region, tmp + 1); if (!dname) { zc_error("incorrect include origin '%s'", tmp + 1); } else { origin = domain_table_insert( parser->db->domains, dname); } } if (strlen(yytext) == 0) { zc_error("missing file name in $INCLUDE directive"); } else if (!(input = fopen(yytext, "r"))) { zc_error("cannot open include file '%s': %s", yytext, strerror(errno)); } else { /* Initialize parser for include file. */ char *filename = region_strdup(parser->region, yytext); push_parser_state(input); /* Destroys yytext. */ parser->filename = filename; parser->line = 1; parser->origin = origin; lexer_state = EXPECT_OWNER; } } parser->error_occurred = error_occurred; } <> { yy_set_bol(1); /* Set beginning of line, so "^" rules match. */ if (include_stack_ptr == 0) { yyterminate(); } else { fclose(yyin); pop_parser_state(); } } ^{DOLLAR}{LETTER}+ { zc_warning("Unknown directive: %s", yytext); } {DOT} { LEXOUT((". ")); return parse_token('.', yytext, &lexer_state); } @ { LEXOUT(("@ ")); return parse_token('@', yytext, &lexer_state); } \\# { LEXOUT(("\\# ")); return parse_token(URR, yytext, &lexer_state); } {NEWLINE} { ++parser->line; if (!paren_open) { lexer_state = EXPECT_OWNER; LEXOUT(("NL\n")); return NL; } else { LEXOUT(("SP ")); return SP; } } \( { if (paren_open) { zc_error("nested parentheses"); yyterminate(); } LEXOUT(("( ")); paren_open = 1; return SP; } \) { if (!paren_open) { zc_error("closing parentheses without opening parentheses"); yyterminate(); } LEXOUT((") ")); paren_open = 0; return SP; } {SPACE}+ { if (!paren_open && lexer_state == EXPECT_OWNER) { lexer_state = PARSING_TTL_CLASS_TYPE; LEXOUT(("PREV ")); return PREV; } if (lexer_state == PARSING_OWNER) { lexer_state = PARSING_TTL_CLASS_TYPE; } LEXOUT(("SP ")); return SP; } /* Bitlabels. Strip leading and ending brackets. */ \\\[ { BEGIN(bitlabel); } <> { zc_error("EOF inside bitlabel"); BEGIN(INITIAL); } {BIT}* { yymore(); } \n { ++parser->line; yymore(); } \] { BEGIN(INITIAL); yytext[yyleng - 1] = '\0'; return parse_token(BITLAB, yytext, &lexer_state); } /* Quoted strings. Strip leading and ending quotes. */ \" { BEGIN(quotedstring); LEXOUT(("\" ")); } <> { zc_error("EOF inside quoted string"); BEGIN(INITIAL); } {ANY}* { LEXOUT(("STR ")); yymore(); } \n { ++parser->line; yymore(); } \" { LEXOUT(("\" ")); BEGIN(INITIAL); yytext[yyleng - 1] = '\0'; return parse_token(STR, yytext, &lexer_state); } ({ZONESTR}|\\.|\\\n)+ { /* Any allowed word. */ return parse_token(STR, yytext, &lexer_state); } . { zc_error("unknown character '%c' (\\%03d) seen - is this a zonefile?", (int) yytext[0], (int) yytext[0]); } %% /* * Analyze "word" to see if it matches an RR type, possibly by using * the "TYPExxx" notation. If it matches, the corresponding token is * returned and the TYPE parameter is set to the RR type value. */ static int rrtype_to_token(const char *word, uint16_t *type) { uint16_t t = rrtype_from_string(word); if (t != 0) { rrtype_descriptor_type *entry = rrtype_descriptor_by_type(t); *type = t; return entry->token; } return 0; } /* * Remove \DDD constructs from the input. See RFC 1035, section 5.1. */ static size_t zoctet(char *text) { /* * s follows the string, p lags behind and rebuilds the new * string */ char *s; char *p; for (s = p = text; *s; ++s, ++p) { assert(p <= s); if (s[0] != '\\') { /* Ordinary character. */ *p = *s; } else if (isdigit((int)s[1]) && isdigit((int)s[2]) && isdigit((int)s[3])) { /* \DDD escape. */ int val = (hexdigit_to_int(s[1]) * 100 + hexdigit_to_int(s[2]) * 10 + hexdigit_to_int(s[3])); if (0 <= val && val <= 255) { s += 3; *p = val; } else { zc_warning("text escape \\DDD overflow"); *p = *++s; } } else if (s[1] != '\0') { /* \X where X is any character, keep X. */ *p = *++s; } else { /* Trailing backslash, ignore it. */ zc_warning("trailing backslash ignored"); --p; } } *p = '\0'; return p - text; } static int parse_token(int token, char *yytext, enum lexer_state *lexer_state) { size_t len; char *str; if (*lexer_state == EXPECT_OWNER) { *lexer_state = PARSING_OWNER; } else if (*lexer_state == PARSING_TTL_CLASS_TYPE) { const char *t; int token; uint16_t rrclass; /* type */ token = rrtype_to_token(yytext, &yylval.type); if (token != 0) { *lexer_state = PARSING_RDATA; LEXOUT(("%d[%s] ", token, yytext)); return token; } /* class */ rrclass = rrclass_from_string(yytext); if (rrclass != 0) { yylval.klass = rrclass; LEXOUT(("CLASS ")); return T_RRCLASS; } /* ttl */ yylval.ttl = strtottl(yytext, &t); if (*t == '\0') { LEXOUT(("TTL ")); return T_TTL; } } str = region_strdup(parser->rr_region, yytext); len = zoctet(str); yylval.data.str = str; yylval.data.len = len; LEXOUT(("%d[%s] ", token, yytext)); return token; }