/* * Binary encode X templates from text format. * * Copyright 2011 Dylan Smith * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include "config.h" #include "wine/port.h" #include #include #include #ifdef HAVE_GETOPT_H # include #endif #ifdef HAVE_UNISTD_H # include #endif #include "windef.h" #include "guiddef.h" #define ARRAY_SIZE(array) (sizeof(array)/sizeof(array[0])) #define TOKEN_NAME 1 #define TOKEN_STRING 2 #define TOKEN_INTEGER 3 #define TOKEN_GUID 5 #define TOKEN_INTEGER_LIST 6 #define TOKEN_FLOAT_LIST 7 #define TOKEN_OBRACE 10 #define TOKEN_CBRACE 11 #define TOKEN_OPAREN 12 #define TOKEN_CPAREN 13 #define TOKEN_OBRACKET 14 #define TOKEN_CBRACKET 15 #define TOKEN_OANGLE 16 #define TOKEN_CANGLE 17 #define TOKEN_DOT 18 #define TOKEN_COMMA 19 #define TOKEN_SEMICOLON 20 #define TOKEN_TEMPLATE 31 #define TOKEN_WORD 40 #define TOKEN_DWORD 41 #define TOKEN_FLOAT 42 #define TOKEN_DOUBLE 43 #define TOKEN_CHAR 44 #define TOKEN_UCHAR 45 #define TOKEN_SWORD 46 #define TOKEN_SDWORD 47 #define TOKEN_VOID 48 #define TOKEN_LPSTR 49 #define TOKEN_UNICODE 50 #define TOKEN_CSTRING 51 #define TOKEN_ARRAY 52 struct parser { FILE *infile; FILE *outfile; int line_no; UINT bytes_output; BOOL(*write_bytes)(struct parser *parser, const BYTE *data, DWORD size); BOOL error; }; struct keyword { const char *word; WORD token; }; static const struct keyword reserved_words[] = { {"ARRAY", TOKEN_ARRAY}, {"CHAR", TOKEN_CHAR}, {"CSTRING", TOKEN_CSTRING}, {"DOUBLE", TOKEN_DOUBLE}, {"DWORD", TOKEN_DWORD}, {"FLOAT", TOKEN_FLOAT}, {"SDWORD", TOKEN_SDWORD}, {"STRING", TOKEN_LPSTR}, {"SWORD", TOKEN_SWORD}, {"TEMPLATE", TOKEN_TEMPLATE}, {"UCHAR", TOKEN_UCHAR}, {"UNICODE", TOKEN_UNICODE}, {"VOID", TOKEN_VOID}, {"WORD", TOKEN_WORD} }; static char *program_name; static inline BOOL read_byte(struct parser *parser, char *byte) { int c = fgetc(parser->infile); *byte = c; return c != EOF; } static inline BOOL unread_byte(struct parser *parser, char last_byte) { return ungetc(last_byte, parser->infile) != EOF; } static inline BOOL read_bytes(struct parser *parser, void *data, DWORD size) { return fread(data, size, 1, parser->infile) > 0; } static BOOL write_c_hex_bytes(struct parser *parser, const BYTE *data, DWORD size) { while (size--) { if (parser->bytes_output % 12 == 0) fprintf(parser->outfile, "\n "); fprintf(parser->outfile, " 0x%02x,", *data++); parser->bytes_output++; } return TRUE; } static BOOL write_raw_bytes(struct parser *parser, const BYTE *data, DWORD size) { return fwrite(data, size, 1, parser->outfile) > 0; } static inline BOOL write_bytes(struct parser *parser, const void *data, DWORD size) { return parser->write_bytes(parser, data, size); } static inline BOOL write_byte(struct parser *parser, BYTE value) { return write_bytes(parser, &value, sizeof(value)); } static inline BOOL write_word(struct parser *parser, WORD value) { return write_bytes(parser, &value, sizeof(value)); } static inline BOOL write_dword(struct parser *parser, DWORD value) { return write_bytes(parser, &value, sizeof(value)); } static int compare_names(const void *a, const void *b) { return strcasecmp(*(const char **)a, *(const char **)b); } static BOOL parse_keyword(struct parser *parser, const char *name) { const struct keyword *keyword; keyword = bsearch(&name, reserved_words, ARRAY_SIZE(reserved_words), sizeof(reserved_words[0]), compare_names); if (!keyword) return FALSE; return write_word(parser, keyword->token); } static BOOL parse_guid(struct parser *parser) { char buf[39]; GUID guid; DWORD tab[10]; BOOL ret; static const char *guidfmt = "<%08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X>"; buf[0] = '<'; if (!read_bytes(parser, buf + 1, 37)) { fprintf(stderr, "%s: Truncated GUID (line %d)\n", program_name, parser->line_no); parser->error = TRUE; return FALSE; } buf[38] = 0; ret = sscanf(buf, guidfmt, &guid.Data1, tab, tab+1, tab+2, tab+3, tab+4, tab+5, tab+6, tab+7, tab+8, tab+9); if (ret != 11) { fprintf(stderr, "%s: Invalid GUID '%s' (line %d)\n", program_name, buf, parser->line_no); parser->error = TRUE; return FALSE; } guid.Data2 = tab[0]; guid.Data3 = tab[1]; guid.Data4[0] = tab[2]; guid.Data4[1] = tab[3]; guid.Data4[2] = tab[4]; guid.Data4[3] = tab[5]; guid.Data4[4] = tab[6]; guid.Data4[5] = tab[7]; guid.Data4[6] = tab[8]; guid.Data4[7] = tab[9]; return write_word(parser, TOKEN_GUID) && write_bytes(parser, &guid, sizeof(guid)); } static BOOL parse_name(struct parser *parser) { char c; int len = 0; char name[512]; while (read_byte(parser, &c) && len < sizeof(name) && (isalnum(c) || c == '_' || c == '-')) { if (len + 1 < sizeof(name)) name[len++] = c; } unread_byte(parser, c); name[len] = 0; if (parse_keyword(parser, name)) { return TRUE; } else { return write_word(parser, TOKEN_NAME) && write_dword(parser, len) && write_bytes(parser, name, len); } } static BOOL parse_number(struct parser *parser) { int len = 0; char c; char buffer[512]; BOOL dot = FALSE; BOOL ret; while (read_byte(parser, &c) && ((!len && c == '-') || (!dot && c == '.') || isdigit(c))) { if (len + 1 < sizeof(buffer)) buffer[len++] = c; if (c == '.') dot = TRUE; } unread_byte(parser, c); buffer[len] = 0; if (dot) { float value; ret = sscanf(buffer, "%f", &value); if (!ret) { fprintf(stderr, "%s: Invalid float token (line %d).\n", program_name, parser->line_no); parser->error = TRUE; } else { ret = write_word(parser, TOKEN_FLOAT) && write_bytes(parser, &value, sizeof(value)); } } else { int value; ret = sscanf(buffer, "%d", &value); if (!ret) { fprintf(stderr, "%s: Invalid integer token (line %d).\n", program_name, parser->line_no); parser->error = TRUE; } else { ret = write_word(parser, TOKEN_INTEGER) && write_dword(parser, value); } } return ret; } static BOOL parse_token(struct parser *parser) { char c; if (!read_byte(parser, &c)) return FALSE; switch (c) { case '\n': parser->line_no++; /* fall through */ case '\r': case ' ': case '\t': return TRUE; case '{': return write_word(parser, TOKEN_OBRACE); case '}': return write_word(parser, TOKEN_CBRACE); case '[': return write_word(parser, TOKEN_OBRACKET); case ']': return write_word(parser, TOKEN_CBRACKET); case '(': return write_word(parser, TOKEN_OPAREN); case ')': return write_word(parser, TOKEN_CPAREN); case ',': return write_word(parser, TOKEN_COMMA); case ';': return write_word(parser, TOKEN_SEMICOLON); case '.': return write_word(parser, TOKEN_DOT); case '/': if (!read_byte(parser, &c) || c != '/') { fprintf(stderr, "%s: Invalid single '/' comment token (line %d).\n", program_name, parser->line_no); parser->error = TRUE; return FALSE; } /* fall through */ case '#': while (read_byte(parser, &c) && c != '\n'); return c == '\n'; case '<': return parse_guid(parser); case '"': { int len = 0; char buffer[512]; /* FIXME: Handle '\' (e.g. "valid\"string") */ while (read_byte(parser, &c) && c != '"') { if (len + 1 < sizeof(buffer)) buffer[len++] = c; } if (c == EOF) { fprintf(stderr, "%s: Unterminated string (line %d).\n", program_name, parser->line_no); parser->error = TRUE; return FALSE; } return write_word(parser, TOKEN_STRING) && write_dword(parser, len) && write_bytes(parser, buffer, len); } default: unread_byte(parser, c); if (isdigit(c) || c == '-') return parse_number(parser); if (isalpha(c) || c == '_') return parse_name(parser); fprintf(stderr, "%s: Invalid character (%d) to start token (line %d).\n", program_name, c, parser->line_no); parser->error = TRUE; return FALSE; } return TRUE; } static const char *output_file; static void cleanup_files(void) { if (output_file) unlink(output_file); } static void exit_on_signal( int sig ) { exit(1); /* this will call the atexit functions */ } static void usage(void) { fprintf(stderr, "Usage: %s [OPTIONS] INFILE\n" "Options:\n" " -i NAME Output to a c header file, data in variable NAME\n" " -s NAME In a c header file, define NAME to be the data size\n" " -o FILE Write output to FILE\n", program_name); } static char *option_inc_var_name = NULL; static char *option_inc_size_name = NULL; static const char *option_outfile_name = "-"; static char **parse_options(int argc, char **argv) { int optc; while ((optc = getopt(argc, argv, "hi:o:s:")) != -1) { switch (optc) { case 'h': usage(); exit(0); case 'i': option_inc_var_name = strdup(optarg); break; case 'o': option_outfile_name = strdup(optarg); break; case 's': option_inc_size_name = strdup(optarg); break; } } return &argv[optind]; } int main(int argc, char **argv) { const char *infile_name; char header[16]; struct parser parser; char **args; char *header_name = NULL; program_name = argv[0]; args = parse_options(argc, argv); infile_name = *args++; if (!infile_name || *args) { usage(); return 1; } parser.infile = stdin; parser.outfile = NULL; parser.error = FALSE; if (!strcmp(infile_name, "-")) { infile_name = "stdin"; } else if (!(parser.infile = fopen(infile_name, "rb"))) { perror(infile_name); goto error; } if (!read_bytes(&parser, header, sizeof(header))) { fprintf(stderr, "%s: Failed to read file header\n", program_name); goto error; } if (strncmp(header, "xof ", 4)) { fprintf(stderr, "%s: Invalid magic value '%.4s'\n", program_name, header); goto error; } if (strncmp(header + 4, "0302", 4) && strncmp(header + 4, "0303", 4)) { fprintf(stderr, "%s: Unsupported version '%.4s'\n", program_name, header + 4); goto error; } if (strncmp(header + 8, "txt ", 4)) { fprintf(stderr, "%s: Only support conversion from text encoded X files.", program_name); goto error; } if (strncmp(header + 12, "0032", 4) && strncmp(header + 12, "0064", 4)) { fprintf(stderr, "%s: Only 32-bit or 64-bit float format supported, not '%.4s'.\n", program_name, header + 12); goto error; } if (!strcmp(option_outfile_name, "-")) { option_outfile_name = "stdout"; parser.outfile = stdout; } else { output_file = option_outfile_name; atexit(cleanup_files); signal(SIGTERM, exit_on_signal); signal(SIGINT, exit_on_signal); #ifdef SIGHUP signal(SIGHUP, exit_on_signal); #endif if (!(parser.outfile = fopen(output_file, "wb"))) { perror(option_outfile_name); goto error; } } if (option_inc_var_name) { char *str_ptr; header_name = strrchr(option_outfile_name, '/'); if (header_name) header_name = strdup(header_name + 1); else header_name = strdup(option_outfile_name); if (!header_name) { fprintf(stderr, "Out of memory\n"); goto error; } str_ptr = header_name; while (*str_ptr) { if (*str_ptr == '.') *str_ptr = '_'; else *str_ptr = toupper(*str_ptr); str_ptr++; } fprintf(parser.outfile, "/* File generated automatically from %s; do not edit */\n" "\n" "#ifndef __WINE_%s\n" "#define __WINE_%s\n" "\n" "unsigned char %s[] = {", infile_name, header_name, header_name, option_inc_var_name); if (ferror(parser.outfile)) goto error; parser.write_bytes = &write_c_hex_bytes; } else { parser.write_bytes = &write_raw_bytes; } parser.bytes_output = 0; if (!write_bytes(&parser, "xof 0302bin 0064", 16)) goto error; parser.line_no = 1; while (parse_token(&parser)); if (parser.error || ferror(parser.outfile) || ferror(parser.infile)) goto error; if (option_inc_var_name) { fprintf(parser.outfile, "\n};\n\n"); if (option_inc_size_name) fprintf(parser.outfile, "#define %s %u\n\n", option_inc_size_name, parser.bytes_output); fprintf(parser.outfile, "#endif /* __WINE_%s */\n", header_name); if (ferror(parser.outfile)) goto error; } fclose(parser.infile); fclose(parser.outfile); output_file = NULL; return 0; error: if (parser.infile) { if (ferror(parser.infile)) perror(infile_name); fclose(parser.infile); } if (parser.outfile) { if (ferror(parser.outfile)) perror(option_outfile_name); fclose(parser.outfile); } return 1; }