/* * tkparse.c * * Eric Youngdale was the original author of xconfig. * Michael Elizabeth Chastain (mec@shout.net) is the current maintainer. * * Parse a config.in file and translate it to a wish script. * This task has three parts: * * tkparse.c tokenize the input * tkcond.c transform 'if ...' statements * tkgen.c generate output * * Change History * * 7 January 1999, Michael Elizabeth Chastain, * - Teach dep_tristate about a few literals, such as: * dep_tristate 'foo' CONFIG_FOO m * Also have it print an error message and exit on some parse failures. * * 14 January 1999, Michael Elizabeth Chastain, * - Don't fclose stdin. Thanks to Tony Hoyle for nailing this one. * * 14 January 1999, Michael Elizabeth Chastain, * - Steam-clean this file. I tested this by generating kconfig.tk for * every architecture and comparing it character-for-character against * the output of the old tkparse. * * 23 January 1999, Michael Elizabeth Chastain, * - Remove bug-compatible code. * * 07 July 1999, Andrzej M. Krzysztofowicz, * - Submenus implemented, * - plenty of option updating/displaying fixes, * - dep_bool, define_hex, define_int, define_string, define_tristate and * undef implemented, * - dep_tristate fixed to support multiple dependencies, * - handling of variables with an empty value implemented, * - value checking for int and hex fields, * - more checking during condition parsing; choice variables are treated as * all others now, * * TO DO: * - xconfig is at the end of its life cycle. Contact if * you are interested in working on the replacement. */ #include #include #include #include "tkparse.h" static struct kconfig * config_list = NULL; static struct kconfig * config_last = NULL; static const char * current_file = ""; static int lineno = 0; static void do_source( const char * ); #undef strcmp int my_strcmp( const char * s1, const char * s2 ) { return strcmp( s1, s2 ); } #define strcmp my_strcmp /* * Report a syntax error. */ static void syntax_error( const char * msg ) { fprintf( stderr, "%s: %d: %s\n", current_file, lineno, msg ); exit( 1 ); } /* * Find index of a specyfic variable in the symbol table. * Create a new entry if it does not exist yet. */ #define VARTABLE_SIZE 2048 struct variable vartable[VARTABLE_SIZE]; int max_varnum = 0; int get_varnum( char * name ) { int i; for ( i = 1; i <= max_varnum; i++ ) if ( strcmp( vartable[i].name, name ) == 0 ) return i; if (max_varnum > VARTABLE_SIZE-1) syntax_error( "Too many variables defined." ); vartable[++max_varnum].name = malloc( strlen( name )+1 ); strcpy( vartable[max_varnum].name, name ); return max_varnum; } /* * Get a string. */ static const char * get_string( const char * pnt, char ** label ) { const char * word; word = pnt; for ( ; ; ) { if ( *pnt == '\0' || *pnt == ' ' || *pnt == '\t' ) break; pnt++; } *label = malloc( pnt - word + 1 ); memcpy( *label, word, pnt - word ); (*label)[pnt - word] = '\0'; if ( *pnt != '\0' ) pnt++; return pnt; } /* * Get a quoted string. * Insert a '\' before any characters that need quoting. */ static const char * get_qstring( const char * pnt, char ** label ) { char quote_char; char newlabel [1024]; char * pnt1; /* advance to the open quote */ for ( ; ; ) { if ( *pnt == '\0' ) return pnt; quote_char = *pnt++; if ( quote_char == '"' || quote_char == '\'' ) break; } /* copy into an intermediate buffer */ pnt1 = newlabel; for ( ; ; ) { if ( *pnt == '\0' ) syntax_error( "unterminated quoted string" ); if ( *pnt == quote_char && pnt[-1] != '\\' ) break; /* copy the character, quoting if needed */ if ( *pnt == '"' || *pnt == '\'' || *pnt == '[' || *pnt == ']' ) *pnt1++ = '\\'; *pnt1++ = *pnt++; } /* copy the label into a permanent location */ *pnt1++ = '\0'; *label = (char *) malloc( pnt1 - newlabel ); memcpy( *label, newlabel, pnt1 - newlabel ); /* skip over last quote and next whitespace */ pnt++; while ( *pnt == ' ' || *pnt == '\t' ) pnt++; return pnt; } /* * Tokenize an 'if' statement condition. */ static struct condition * tokenize_if( const char * pnt ) { struct condition * list; struct condition * last; struct condition * prev; /* eat the open bracket */ while ( *pnt == ' ' || *pnt == '\t' ) pnt++; if ( *pnt != '[' ) syntax_error( "bad 'if' condition" ); pnt++; list = last = NULL; for ( ; ; ) { struct condition * cond; /* advance to the next token */ while ( *pnt == ' ' || *pnt == '\t' ) pnt++; if ( *pnt == '\0' ) syntax_error( "unterminated 'if' condition" ); if ( *pnt == ']' ) return list; /* allocate a new token */ cond = malloc( sizeof(*cond) ); memset( cond, 0, sizeof(*cond) ); if ( last == NULL ) { list = last = cond; prev = NULL; } else { prev = last; last->next = cond; last = cond; } /* determine the token value */ if ( *pnt == '-' && pnt[1] == 'a' ) { if ( ! prev || ( prev->op != op_variable && prev->op != op_constant ) ) syntax_error( "incorrect argument" ); cond->op = op_and; pnt += 2; continue; } if ( *pnt == '-' && pnt[1] == 'o' ) { if ( ! prev || ( prev->op != op_variable && prev->op != op_constant ) ) syntax_error( "incorrect argument" ); cond->op = op_or; pnt += 2; continue; } if ( *pnt == '!' && pnt[1] == '=' ) { if ( ! prev || ( prev->op != op_variable && prev->op != op_constant ) ) syntax_error( "incorrect argument" ); cond->op = op_neq; pnt += 2; continue; } if ( *pnt == '=' ) { if ( ! prev || ( prev->op != op_variable && prev->op != op_constant ) ) syntax_error( "incorrect argument" ); cond->op = op_eq; pnt += 1; continue; } if ( *pnt == '!' ) { if ( prev && ( prev->op != op_and && prev->op != op_or && prev->op != op_bang ) ) syntax_error( "incorrect argument" ); cond->op = op_bang; pnt += 1; continue; } if ( *pnt == '"' ) { const char * word; if ( prev && ( prev->op == op_variable || prev->op == op_constant ) ) syntax_error( "incorrect argument" ); /* advance to the word */ pnt++; if ( *pnt == '$' ) { cond->op = op_variable; pnt++; } else { cond->op = op_constant; } /* find the end of the word */ word = pnt; for ( ; ; ) { if ( *pnt == '\0' ) syntax_error( "unterminated double quote" ); if ( *pnt == '"' ) break; pnt++; } /* store a copy of this word */ { char * str = malloc( pnt - word + 1 ); memcpy( str, word, pnt - word ); str [pnt - word] = '\0'; if ( cond->op == op_variable ) { cond->nameindex = get_varnum( str ); free( str ); } else /* op_constant */ { cond->str = str; } } pnt++; continue; } /* unknown token */ syntax_error( "bad if condition" ); } } /* * Tokenize a choice list. Choices appear as pairs of strings; * note that I am parsing *inside* the double quotes. Ugh. */ static const char * tokenize_choices( struct kconfig * cfg_choose, const char * pnt ) { for ( ; ; ) { struct kconfig * cfg; char * buffer = malloc( 64 ); /* skip whitespace */ while ( *pnt == ' ' || *pnt == '\t' ) pnt++; if ( *pnt == '\0' ) return pnt; /* allocate a new kconfig line */ cfg = malloc( sizeof(*cfg) ); memset( cfg, 0, sizeof(*cfg) ); if ( config_last == NULL ) { config_last = config_list = cfg; } else { config_last->next = cfg; config_last = cfg; } /* fill out the line */ cfg->token = token_choice_item; cfg->cfg_parent = cfg_choose; pnt = get_string( pnt, &cfg->label ); while ( *pnt == ' ' || *pnt == '\t' ) pnt++; pnt = get_string( pnt, &buffer ); cfg->nameindex = get_varnum( buffer ); } return pnt; } /* * Tokenize one line. */ static void tokenize_line( const char * pnt ) { static struct kconfig * last_menuoption = NULL; enum e_token token; struct kconfig * cfg; struct dependency ** dep_ptr; char * buffer = malloc( 64 ); /* skip white space */ while ( *pnt == ' ' || *pnt == '\t' ) pnt++; /* * categorize the next token */ #define match_token(t, s) \ if (strncmp(pnt, s, strlen(s)) == 0) { token = t; pnt += strlen(s); break; } token = token_UNKNOWN; switch ( *pnt ) { default: break; case '#': case '\0': return; case 'b': match_token( token_bool, "bool" ); break; case 'c': match_token( token_choice_header, "choice" ); match_token( token_comment, "comment" ); break; case 'd': match_token( token_define_bool, "define_bool" ); match_token( token_define_hex, "define_hex" ); match_token( token_define_int, "define_int" ); match_token( token_define_string, "define_string" ); match_token( token_define_tristate, "define_tristate" ); match_token( token_dep_bool, "dep_bool" ); match_token( token_dep_tristate, "dep_tristate" ); break; case 'e': match_token( token_else, "else" ); match_token( token_endmenu, "endmenu" ); break; case 'f': match_token( token_fi, "fi" ); break; case 'h': match_token( token_hex, "hex" ); break; case 'i': match_token( token_if, "if" ); match_token( token_int, "int" ); break; case 'm': match_token( token_mainmenu_name, "mainmenu_name" ); match_token( token_mainmenu_option, "mainmenu_option" ); break; case 's': match_token( token_source, "source" ); match_token( token_string, "string" ); break; case 't': match_token( token_then, "then" ); match_token( token_tristate, "tristate" ); break; case 'u': match_token( token_unset, "unset" ); break; } #undef match_token if ( token == token_source ) { while ( *pnt == ' ' || *pnt == '\t' ) pnt++; do_source( pnt ); return; } if ( token == token_then ) { if ( config_last != NULL && config_last->token == token_if ) return; syntax_error( "bogus 'then'" ); } #if 0 if ( token == token_unset ) { fprintf( stderr, "Ignoring 'unset' command\n" ); return; } #endif if ( token == token_UNKNOWN ) syntax_error( "unknown command" ); /* * Allocate an item. */ cfg = malloc( sizeof(*cfg) ); memset( cfg, 0, sizeof(*cfg) ); if ( config_last == NULL ) { config_last = config_list = cfg; } else { config_last->next = cfg; config_last = cfg; } /* * Tokenize the arguments. */ while ( *pnt == ' ' || *pnt == '\t' ) pnt++; cfg->token = token; switch ( token ) { default: syntax_error( "unknown token" ); case token_bool: case token_tristate: pnt = get_qstring ( pnt, &cfg->label ); pnt = get_string ( pnt, &buffer ); cfg->nameindex = get_varnum( buffer ); break; case token_choice_header: { static int choose_number = 0; char * choice_list; pnt = get_qstring ( pnt, &cfg->label ); pnt = get_qstring ( pnt, &choice_list ); pnt = get_string ( pnt, &cfg->value ); cfg->nameindex = -(choose_number++); tokenize_choices( cfg, choice_list ); free( choice_list ); } break; case token_comment: pnt = get_qstring(pnt, &cfg->label); if ( last_menuoption != NULL ) { pnt = get_qstring(pnt, &cfg->label); last_menuoption->label = cfg->label; last_menuoption = NULL; } break; case token_define_bool: case token_define_tristate: pnt = get_string( pnt, &buffer ); cfg->nameindex = get_varnum( buffer ); while ( *pnt == ' ' || *pnt == '\t' ) pnt++; if ( ( pnt[0] == 'Y' || pnt[0] == 'M' || pnt[0] == 'N' || pnt[0] == 'y' || pnt[0] == 'm' || pnt[0] == 'n' ) && ( pnt[1] == '\0' || pnt[1] == ' ' || pnt[1] == '\t' ) ) { if ( *pnt == 'n' || *pnt == 'N' ) cfg->value = strdup( "CONSTANT_N" ); else if ( *pnt == 'y' || *pnt == 'Y' ) cfg->value = strdup( "CONSTANT_Y" ); else if ( *pnt == 'm' || *pnt == 'M' ) cfg->value = strdup( "CONSTANT_M" ); } else if ( *pnt == '$' ) { pnt++; pnt = get_string( pnt, &cfg->value ); } else { syntax_error( "unknown define_bool value" ); } get_varnum( cfg->value ); break; case token_define_hex: case token_define_int: pnt = get_string( pnt, &buffer ); cfg->nameindex = get_varnum( buffer ); pnt = get_string( pnt, &cfg->value ); break; case token_define_string: pnt = get_string( pnt, &buffer ); cfg->nameindex = get_varnum( buffer ); pnt = get_qstring( pnt, &cfg->value ); break; case token_dep_bool: case token_dep_tristate: pnt = get_qstring ( pnt, &cfg->label ); pnt = get_string ( pnt, &buffer ); cfg->nameindex = get_varnum( buffer ); while ( *pnt == ' ' || *pnt == '\t' ) pnt++; dep_ptr = &(cfg->depend); do { *dep_ptr = (struct dependency *) malloc( sizeof( struct dependency ) ); (*dep_ptr)->next = NULL; if ( ( pnt[0] == 'Y' || pnt[0] == 'M' || pnt[0] == 'N' || pnt[0] == 'y' || pnt[0] == 'm' || pnt[0] == 'n' ) && ( pnt[1] == '\0' || pnt[1] == ' ' || pnt[1] == '\t' ) ) { /* dep_tristate 'foo' CONFIG_FOO m */ if ( pnt[0] == 'Y' || pnt[0] == 'y' ) (*dep_ptr)->name = strdup( "CONSTANT_Y" ); else if ( pnt[0] == 'N' || pnt[0] == 'n' ) (*dep_ptr)->name = strdup( "CONSTANT_N" ); else (*dep_ptr)->name = strdup( "CONSTANT_M" ); pnt++; get_varnum( (*dep_ptr)->name ); } else if ( *pnt == '$' ) { pnt++; pnt = get_string( pnt, &(*dep_ptr)->name ); get_varnum( (*dep_ptr)->name ); } else { syntax_error( "can't handle dep_bool/dep_tristate condition" ); } dep_ptr = &(*dep_ptr)->next; while ( *pnt == ' ' || *pnt == '\t' ) pnt++; } while ( *pnt ); /* * Create a conditional for this object's dependencies. */ { char fake_if [1024]; struct dependency * dep; struct condition ** cond_ptr; int first = 1; cond_ptr = &(cfg->cond); for ( dep = cfg->depend; dep; dep = dep->next ) { if ( token == token_dep_tristate && ! strcmp( dep->name, "CONSTANT_M" ) ) { continue; } if ( first ) { first = 0; } else { *cond_ptr = malloc( sizeof(struct condition) ); memset( *cond_ptr, 0, sizeof(struct condition) ); (*cond_ptr)->op = op_and; cond_ptr = &(*cond_ptr)->next; } *cond_ptr = malloc( sizeof(struct condition) ); memset( *cond_ptr, 0, sizeof(struct condition) ); (*cond_ptr)->op = op_lparen; if ( token == token_dep_tristate ) sprintf( fake_if, "[ \"$%s\" = \"y\" -o \"$%s\" = \"m\" -o \"$%s\" = \"\" ]; then", dep->name, dep->name, dep->name ); else sprintf( fake_if, "[ \"$%s\" = \"y\" -o \"$%s\" = \"\" ]; then", dep->name, dep->name ); (*cond_ptr)->next = tokenize_if( fake_if ); while ( *cond_ptr ) cond_ptr = &(*cond_ptr)->next; *cond_ptr = malloc( sizeof(struct condition) ); memset( *cond_ptr, 0, sizeof(struct condition) ); (*cond_ptr)->op = op_rparen; cond_ptr = &(*cond_ptr)->next; } } break; case token_else: case token_endmenu: case token_fi: break; case token_hex: case token_int: pnt = get_qstring ( pnt, &cfg->label ); pnt = get_string ( pnt, &buffer ); cfg->nameindex = get_varnum( buffer ); pnt = get_string ( pnt, &cfg->value ); break; case token_string: pnt = get_qstring ( pnt, &cfg->label ); pnt = get_string ( pnt, &buffer ); cfg->nameindex = get_varnum( buffer ); pnt = get_qstring ( pnt, &cfg->value ); break; case token_if: cfg->cond = tokenize_if( pnt ); break; case token_mainmenu_name: pnt = get_qstring( pnt, &cfg->label ); break; case token_mainmenu_option: if ( strncmp( pnt, "next_comment", 12 ) == 0 ) last_menuoption = cfg; else pnt = get_qstring( pnt, &cfg->label ); break; case token_unset: pnt = get_string( pnt, &buffer ); cfg->nameindex = get_varnum( buffer ); while ( *pnt == ' ' || *pnt == '\t' ) pnt++; while (*pnt) { cfg->next = (struct kconfig *) malloc( sizeof(struct kconfig) ); memset( cfg->next, 0, sizeof(struct kconfig) ); cfg = cfg->next; cfg->token = token_unset; pnt = get_string( pnt, &buffer ); cfg->nameindex = get_varnum( buffer ); while ( *pnt == ' ' || *pnt == '\t' ) pnt++; } break; } return; } /* * Implement the "source" command. */ static void do_source( const char * filename ) { char buffer [1024]; FILE * infile; const char * old_file; int old_lineno; int offset; /* open the file */ if ( strcmp( filename, "-" ) == 0 ) infile = stdin; else infile = fopen( filename, "r" ); /* if that failed, try ../filename */ if ( infile == NULL ) { sprintf( buffer, "../%s", filename ); infile = fopen( buffer, "r" ); } if ( infile == NULL ) { sprintf( buffer, "unable to open %s", filename ); syntax_error( buffer ); } /* push the new file name and line number */ old_file = current_file; old_lineno = lineno; current_file = filename; lineno = 0; /* read and process lines */ for ( offset = 0; ; ) { char * pnt; /* read a line */ fgets( buffer + offset, sizeof(buffer) - offset, infile ); if ( feof( infile ) ) break; lineno++; /* strip the trailing return character */ pnt = buffer + strlen(buffer) - 1; if ( *pnt == '\n' ) *pnt-- = '\0'; /* eat \ NL pairs */ if ( *pnt == '\\' ) { offset = pnt - buffer; continue; } /* tokenize this line */ tokenize_line( buffer ); offset = 0; } /* that's all, folks */ if ( infile != stdin ) fclose( infile ); current_file = old_file; lineno = old_lineno; return; } /* * Main program. */ int main( int argc, const char * argv [] ) { do_source ( "-" ); fix_conditionals ( config_list ); dump_tk_script ( config_list ); return 0; }