/* windmc.c -- a program to compile Windows message files. Copyright (C) 2007-2023 Free Software Foundation, Inc. Written by Kai Tietz, Onevision. This file is part of GNU Binutils. 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 3 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 Street - Fifth Floor, Boston, MA 02110-1301, USA. */ /* This program can read and comile Windows message format. It is based on information taken from the following sources: * Microsoft documentation. * The wmc program, written by Bertho A. Stultiens (BS). */ #include "sysdep.h" #include #include #include "bfd.h" #include "getopt.h" #include "bucomm.h" #include "libiberty.h" #include "safe-ctype.h" #include "obstack.h" #include "windmc.h" #include "windint.h" /* Defines a message compiler element item with length and offset information. */ typedef struct mc_msg_item { rc_uint_type res_len; rc_uint_type res_off; struct bin_messagetable_item *res; } mc_msg_item; bool target_is_bigendian = 0; const char *def_target_arch; /* Globals and static variable definitions. */ /* bfd global helper struct variable. */ static struct { bfd *abfd; asection *sec; } mc_bfd; /* Memory list. */ mc_node *mc_nodes = NULL; static mc_node_lang **mc_nodes_lang = NULL; static int mc_nodes_lang_count = 0; static mc_keyword **mc_severity_codes = NULL; static int mc_severity_codes_count = 0; static mc_keyword **mc_facility_codes = NULL; static int mc_facility_codes_count = 0; /* When we are building a resource tree, we allocate everything onto an obstack, so that we can free it all at once if we want. */ #define obstack_chunk_alloc xmalloc #define obstack_chunk_free free /* The resource building obstack. */ static struct obstack res_obstack; /* Flag variables. */ /* Set by -C. Set the default code page to be used for input text file. */ static rc_uint_type mcset_codepage_in = 0; /* Set by -O. Set the default code page to be used for output text files. */ static rc_uint_type mcset_codepage_out = 0; /* Set by -b. .BIN filename should have .mc filename_ included for uniqueness. */ static int mcset_prefix_bin = 0; /* The base name of the .mc file. */ static const char *mcset_mc_basename = "unknown"; /* Set by -e . Specify the extension for the header file. */ static const char *mcset_header_ext = ".h"; /* Set by -h . Gives the path of where to create the C include file. */ static const char *mcset_header_dir = "./"; /* Set by -r . Gives the path of where to create the RC include file and the binary message resource files it includes. */ static const char *mcset_rc_dir = "./"; /* Modified by -a & -u. By -u input file is unicode, by -a is ASCII (default). */ static int mcset_text_in_is_unicode = 0; /* Modified by -A & -U. By -U bin file is unicode (default), by -A is ASCII. */ static int mcset_bin_out_is_unicode = 1; /* Set by -c. Sets the Customer bit in all the message ID's. */ int mcset_custom_bit = 0; /* Set by -o. Generate OLE2 header file. Use HRESULT definition instead of status code definition. */ static int mcset_use_hresult = 0; /* Set by -m . Generate a warning if the size of any message exceeds maxmsglen characters. */ rc_uint_type mcset_max_message_length = 0; /* Set by -d. Sets message values in header to decimal initially. */ int mcset_out_values_are_decimal = 0; /* Set by -n. terminates all strings with null's in the message tables. */ static int mcset_automatic_null_termination = 0; /* The type used for message id output in header. */ unichar *mcset_msg_id_typedef = NULL; /* Set by -x path. Geberated debug C file for mapping ID's to text. */ static const char *mcset_dbg_dir = NULL; /* getopt long name definitions. */ static const struct option long_options[] = { {"binprefix", no_argument, 0, 'b'}, {"target", required_argument, 0, 'F'}, {"extension", required_argument, 0, 'e'}, {"headerdir", required_argument, 0, 'h'}, {"rcdir", required_argument, 0, 'r'}, {"verbose", no_argument, 0, 'v'}, {"codepage_in", required_argument, 0, 'C'}, {"codepage_out", required_argument, 0, 'O'}, {"maxlength", required_argument, 0, 'm'}, {"ascii_in", no_argument, 0, 'a'}, {"ascii_out", no_argument, 0, 'A'}, {"unicode_in", no_argument, 0, 'u'}, {"unicode_out", no_argument, 0, 'U'}, {"customflag", no_argument, 0, 'c'}, {"decimal_values", no_argument, 0, 'd'}, {"hresult_use", no_argument, 0, 'o'}, {"nullterminate", no_argument, 0, 'n'}, {"xdbg", required_argument, 0, 'x'}, {"version", no_argument, 0, 'V'}, {"help", no_argument, 0, 'H'}, {0, no_argument, 0, 0} }; /* Initialize the resource building obstack. */ static void res_init (void) { obstack_init (&res_obstack); } /* Allocate space on the resource building obstack. */ void * res_alloc (rc_uint_type bytes) { return obstack_alloc (&res_obstack, (size_t) bytes); } static FILE * mc_create_path_text_file (const char *path, const char *ext) { FILE *ret; size_t len = 1; char *hsz; len += (path != NULL ? strlen (path) : 0); len += strlen (mcset_mc_basename); len += (ext != NULL ? strlen (ext) : 0); hsz = xmalloc (len); sprintf (hsz, "%s%s%s", (path != NULL ? path : ""), mcset_mc_basename, (ext != NULL ? ext : "")); if ((ret = fopen (hsz, "wb")) == NULL) fatal (_("can't create %s file `%s' for output.\n"), (ext ? ext : "text"), hsz); free (hsz); return ret; } static void usage (FILE *stream, int status) { fprintf (stream, _("Usage: %s [option(s)] [input-file]\n"), program_name); fprintf (stream, _(" The options are:\n\ -a --ascii_in Read input file as ASCII file\n\ -A --ascii_out Write binary messages as ASCII\n\ -b --binprefix .bin filename is prefixed by .mc filename_ for uniqueness.\n\ -c --customflag Set custom flags for messages\n\ -C --codepage_in= Set codepage when reading mc text file\n\ -d --decimal_values Print values to text files decimal\n\ -e --extension= Set header extension used on export header file\n\ -F --target Specify output target for endianness.\n\ -h --headerdir= Set the export directory for headers\n\ -u --unicode_in Read input file as UTF16 file\n\ -U --unicode_out Write binary messages as UFT16\n\ -m --maxlength= Set the maximal allowed message length\n\ -n --nullterminate Automatic add a zero termination to strings\n\ -o --hresult_use Use HRESULT definition instead of status code definition\n\ -O --codepage_out= Set codepage used for writing text file\n\ -r --rcdir= Set the export directory for rc files\n\ -x --xdbg= Where to create the .dbg C include file\n\ that maps message ID's to their symbolic name.\n\ ")); fprintf (stream, _("\ -H --help Print this help message\n\ -v --verbose Verbose - tells you what it's doing\n\ -V --version Print version information\n")); list_supported_targets (program_name, stream); if (REPORT_BUGS_TO[0] && status == 0) fprintf (stream, _("Report bugs to %s\n"), REPORT_BUGS_TO); exit (status); } static void set_endianness (bfd *abfd, const char *target) { const bfd_target *target_vec; def_target_arch = NULL; target_vec = bfd_get_target_info (target, abfd, &target_is_bigendian, NULL, &def_target_arch); if (! target_vec) fatal ("Can't detect target endianness and architecture."); if (! def_target_arch) fatal ("Can't detect architecture."); } static int probe_codepage (rc_uint_type *cp, int *is_uni, const char *pswitch, int defmode) { if (*is_uni == -1) { if (*cp != CP_UTF16) *is_uni = defmode; else *is_uni = 1; } if (*is_uni) { if (*cp != 0 && *cp != CP_UTF16) { fprintf (stderr, _("%s: warning: "), program_name); fprintf (stderr, _("A codepage was specified switch `%s' and UTF16.\n"), pswitch); fprintf (stderr, _("\tcodepage settings are ignored.\n")); } *cp = CP_UTF16; return 1; } if (*cp == CP_UTF16) { *is_uni = 1; return 1; } if (*cp == 0) *cp = 1252; if (! unicode_is_valid_codepage (*cp)) fatal ("Code page 0x%x is unknown.", (unsigned int) *cp); *is_uni = 0; return 1; } mc_node * mc_add_node (void) { mc_node *ret; ret = res_alloc (sizeof (mc_node)); memset (ret, 0, sizeof (mc_node)); if (! mc_nodes) mc_nodes = ret; else { mc_node *h = mc_nodes; while (h->next != NULL) h = h->next; h->next = ret; } return ret; } mc_node_lang * mc_add_node_lang (mc_node *root, const mc_keyword *lang, rc_uint_type vid) { mc_node_lang *ret, *h, *p; if (! lang || ! root) fatal (_("try to add a ill language.")); ret = res_alloc (sizeof (mc_node_lang)); memset (ret, 0, sizeof (mc_node_lang)); ret->lang = lang; ret->vid = vid; if ((h = root->sub) == NULL) root->sub = ret; else { p = NULL; while (h != NULL) { if (h->lang->nval > lang->nval) break; if (h->lang->nval == lang->nval) { if (h->vid > vid) break; if (h->vid == vid) fatal ("double defined message id %ld.\n", (long) vid); } h = (p = h)->next; } ret->next = h; if (! p) root->sub = ret; else p->next = ret; } return ret; } static char * convert_unicode_to_ACP (const unichar *usz) { char *s = NULL; rc_uint_type l; if (! usz) return NULL; codepage_from_unicode (&l, usz, &s, mcset_codepage_out); if (! s) fatal ("unicode string not mappable to ASCII codepage 0x%lx.\n", (unsigned long) mcset_codepage_out); return s; } static void write_dbg_define (FILE *fp, const unichar *sym_name, const unichar *typecast) { char *sym; if (!sym_name || sym_name[0] == 0) return; sym = convert_unicode_to_ACP (sym_name); fprintf (fp, " {("); if (typecast) unicode_print (fp, typecast, unichar_len (typecast)); else fprintf (fp, "DWORD"); fprintf (fp, ") %s, \"%s\" },\n", sym, sym); } static void write_header_define (FILE *fp, const unichar *sym_name, rc_uint_type vid, const unichar *typecast, mc_node_lang *nl) { char *sym; char *tdef = NULL; if (!sym_name || sym_name[0] == 0) { if (nl != NULL) { if (mcset_out_values_are_decimal) fprintf (fp, "//\n// MessageId: %lu\n//\n", (unsigned long) vid); else fprintf (fp, "//\n// MessageId: 0x%lx\n//\n", (unsigned long) vid); } return; } sym = convert_unicode_to_ACP (sym_name); if (typecast && typecast[0] != 0) tdef = convert_unicode_to_ACP (typecast); fprintf (fp, "//\n// MessageId: %s\n//\n", sym); if (! mcset_out_values_are_decimal) fprintf (fp, "#define %s %s%s%s 0x%lx\n\n", sym, (tdef ? "(" : ""), (tdef ? tdef : ""), (tdef ? ")" : ""), (unsigned long) vid); else fprintf (fp, "#define %s %s%s%s %lu\n\n", sym, (tdef ? "(" : ""), (tdef ? tdef : ""), (tdef ? ")" : ""), (unsigned long) vid); } static int sort_mc_node_lang (const void *l, const void *r) { const mc_node_lang *l1 = *((const mc_node_lang **)l); const mc_node_lang *r1 = *((const mc_node_lang **)r); if (l == r) return 0; if (l1->lang != r1->lang) { if (l1->lang->nval < r1->lang->nval) return -1; return 1; } if (l1->vid == r1->vid) return 0; if (l1->vid < r1->vid) return -1; return 1; } static int sort_keyword_by_nval (const void *l, const void *r) { const mc_keyword *l1 = *((const mc_keyword **)l); const mc_keyword *r1 = *((const mc_keyword **)r); rc_uint_type len1, len2; int e; if (l == r) return 0; if (l1->nval != r1->nval) { if (l1->nval < r1->nval) return -1; return 1; } len1 = unichar_len (l1->usz); len2 = unichar_len (r1->usz); if (len1 <= len2) e = memcmp (l1->usz, r1->usz, sizeof (unichar) * len1); else e = memcmp (l1->usz, r1->usz, sizeof (unichar) * len2); if (e) return e; if (len1 < len2) return -1; else if (len1 > len2) return 1; return 0; } static void do_sorts (void) { mc_node *h; mc_node_lang *n; const mc_keyword *k; int i; /* Sort message by their language and id ascending. */ mc_nodes_lang_count = 0; h = mc_nodes; while (h != NULL) { n = h->sub; while (n != NULL) { mc_nodes_lang_count +=1; n = n->next; } h = h->next; } if (mc_nodes_lang_count != 0) { h = mc_nodes; i = 0; mc_nodes_lang = xmalloc (sizeof (mc_node_lang *) * mc_nodes_lang_count); while (h != NULL) { n = h->sub; while (n != NULL) { mc_nodes_lang[i++] = n; n = n->next; } h = h->next; } qsort (mc_nodes_lang, (size_t) mc_nodes_lang_count, sizeof (mc_node_lang *), sort_mc_node_lang); } /* Sort facility code definitions by there id ascending. */ i = 0; while ((k = enum_facility (i)) != NULL) ++i; mc_facility_codes_count = i; if (i != 0) { mc_facility_codes = xmalloc (sizeof (mc_keyword *) * i); i = 0; while ((k = enum_facility (i)) != NULL) mc_facility_codes[i++] = (mc_keyword *) k; qsort (mc_facility_codes, (size_t) mc_facility_codes_count, sizeof (mc_keyword *), sort_keyword_by_nval); } /* Sort severity code definitions by there id ascending. */ i = 0; while ((k = enum_severity (i)) != NULL) ++i; mc_severity_codes_count = i; if (i != 0) { mc_severity_codes = xmalloc (sizeof (mc_keyword *) * i); i = 0; while ((k = enum_severity (i)) != NULL) mc_severity_codes[i++] = (mc_keyword *) k; qsort (mc_severity_codes, (size_t) mc_severity_codes_count, sizeof (mc_keyword *), sort_keyword_by_nval); } } static int mc_get_block_count (mc_node_lang **nl, int elems) { rc_uint_type exid; int i, ret; if (! nl) return 0; i = 0; ret = 0; while (i < elems) { ret++; exid = nl[i++]->vid; while (i < elems && nl[i]->vid == exid + 1) exid = nl[i++]->vid; } return ret; } static bfd * windmc_open_as_binary (const char *filename) { bfd *abfd; abfd = bfd_openw (filename, "binary"); if (! abfd) fatal ("can't open `%s' for output", filename); return abfd; } static void target_put_16 (void *p, rc_uint_type value) { assert (!! p); if (target_is_bigendian) bfd_putb16 (value, p); else bfd_putl16 (value, p); } static void target_put_32 (void *p, rc_uint_type value) { assert (!! p); if (target_is_bigendian) bfd_putb32 (value, p); else bfd_putl32 (value, p); } static struct bin_messagetable_item * mc_generate_bin_item (mc_node_lang *n, rc_uint_type *res_len) { struct bin_messagetable_item *ret = NULL; rc_uint_type len; *res_len = 0; if (mcset_bin_out_is_unicode == 1) { unichar *ht = n->message; rc_uint_type txt_len; txt_len = unichar_len (n->message); if (mcset_automatic_null_termination && txt_len != 0) { while (txt_len > 0 && ht[txt_len - 1] > 0 && ht[txt_len - 1] < 0x20) ht[--txt_len] = 0; } txt_len *= sizeof (unichar); len = BIN_MESSAGETABLE_ITEM_SIZE + txt_len + sizeof (unichar); ret = res_alloc ((len + 3) & ~3); memset (ret, 0, (len + 3) & ~3); target_put_16 (ret->length, (len + 3) & ~3); target_put_16 (ret->flags, MESSAGE_RESOURCE_UNICODE); txt_len = 0; while (*ht != 0) { target_put_16 (ret->data + txt_len, *ht++); txt_len += 2; } } else { rc_uint_type txt_len, l; char *cvt_txt = NULL; codepage_from_unicode( &l, n->message, &cvt_txt, n->lang->lang_info.wincp); if (! cvt_txt) fatal ("Failed to convert message to language codepage.\n"); txt_len = strlen (cvt_txt); if (mcset_automatic_null_termination && txt_len > 0) { while (txt_len > 0 && cvt_txt[txt_len - 1] > 0 && cvt_txt[txt_len - 1] < 0x20) cvt_txt[--txt_len] = 0; } len = BIN_MESSAGETABLE_ITEM_SIZE + txt_len + 1; ret = res_alloc ((len + 3) & ~3); memset (ret, 0, (len + 3) & ~3); target_put_16 (ret->length, (len + 3) & ~3); target_put_16 (ret->flags, 0); strcpy ((char *) ret->data, cvt_txt); } *res_len = (len + 3) & ~3; return ret; } static void mc_write_blocks (struct bin_messagetable *mtbl, mc_node_lang **nl, mc_msg_item *ml, int elems) { int i, idx = 0; rc_uint_type exid; if (! nl) return; i = 0; while (i < elems) { target_put_32 (mtbl->items[idx].lowid, nl[i]->vid); target_put_32 (mtbl->items[idx].highid, nl[i]->vid); target_put_32 (mtbl->items[idx].offset, ml[i].res_off); exid = nl[i++]->vid; while (i < elems && nl[i]->vid == exid + 1) { target_put_32 (mtbl->items[idx].highid, nl[i]->vid); exid = nl[i++]->vid; } ++idx; } } static void set_windmc_bfd_content (const void *data, rc_uint_type off, rc_uint_type length) { if (! bfd_set_section_contents (mc_bfd.abfd, mc_bfd.sec, data, off, length)) bfd_fatal ("bfd_set_section_contents"); } static void windmc_write_bin (const char *filename, mc_node_lang **nl, int elems) { unsigned long sec_length = 1; int block_count, i; mc_msg_item *mi; struct bin_messagetable *mtbl; rc_uint_type dta_off, dta_start; if (elems <= 0) return; mc_bfd.abfd = windmc_open_as_binary (filename); mc_bfd.sec = bfd_make_section_with_flags (mc_bfd.abfd, ".data", (SEC_HAS_CONTENTS | SEC_ALLOC | SEC_LOAD | SEC_DATA)); if (mc_bfd.sec == NULL) bfd_fatal ("bfd_make_section"); /* Requiring this is probably a bug in BFD. */ mc_bfd.sec->output_section = mc_bfd.sec; block_count = mc_get_block_count (nl, elems); dta_off = (rc_uint_type) ((BIN_MESSAGETABLE_BLOCK_SIZE * block_count) + BIN_MESSAGETABLE_SIZE - 4); dta_start = dta_off = (dta_off + 3) & ~3; mi = xmalloc (sizeof (mc_msg_item) * elems); mtbl = xmalloc (dta_start); /* Clear header region. */ memset (mtbl, 0, dta_start); target_put_32 (mtbl->cblocks, block_count); /* Prepare items section for output. */ for (i = 0; i < elems; i++) { mi[i].res_off = dta_off; mi[i].res = mc_generate_bin_item (nl[i], &mi[i].res_len); dta_off += mi[i].res_len; } sec_length = (dta_off + 3) & ~3; if (!bfd_set_section_size (mc_bfd.sec, sec_length)) bfd_fatal ("bfd_set_section_size"); /* Make sure we write the complete block. */ set_windmc_bfd_content ("\0", sec_length - 1, 1); /* Write block information. */ mc_write_blocks (mtbl, nl, mi, elems); set_windmc_bfd_content (mtbl, 0, dta_start); /* Write items. */ for (i = 0; i < elems; i++) set_windmc_bfd_content (mi[i].res, mi[i].res_off, mi[i].res_len); free (mtbl); free (mi); bfd_close (mc_bfd.abfd); mc_bfd.abfd = NULL; mc_bfd.sec = NULL; } static void write_bin (void) { mc_node_lang *n = NULL; int i, c; if (! mc_nodes_lang_count) return; i = 0; while (i < mc_nodes_lang_count) { char *nd; char *filename; if (n && n->lang == mc_nodes_lang[i]->lang) { i++; continue; } n = mc_nodes_lang[i]; c = i + 1; while (c < mc_nodes_lang_count && n->lang == mc_nodes_lang[c]->lang) c++; nd = convert_unicode_to_ACP (n->lang->sval); /* Prepare filename for binary output. */ filename = xmalloc (strlen (nd) + 4 + 1 + strlen (mcset_mc_basename) + 1 + strlen (mcset_rc_dir)); strcpy (filename, mcset_rc_dir); if (mcset_prefix_bin) sprintf (filename + strlen (filename), "%s_", mcset_mc_basename); strcat (filename, nd); strcat (filename, ".bin"); /* Write message file. */ windmc_write_bin (filename, &mc_nodes_lang[i], (c - i)); free (filename); i = c; } } static void write_rc (FILE *fp) { mc_node_lang *n; int l; fprintf (fp, "/* Do not edit this file manually.\n" " This file is autogenerated by windmc. */\n\n"); if (! mc_nodes_lang_count) return; n = NULL; for (l = 0; l < mc_nodes_lang_count; l++) { if (n && n->lang == mc_nodes_lang[l]->lang) continue; n = mc_nodes_lang[l]; fprintf (fp, "\n// Country: %s\n// Language: %s\n#pragma code_page(%u)\n", n->lang->lang_info.country, n->lang->lang_info.name, (unsigned) n->lang->lang_info.wincp); fprintf (fp, "LANGUAGE 0x%lx, 0x%lx\n", (unsigned long) (n->lang->nval & 0x3ff), (unsigned long) ((n->lang->nval & 0xffff) >> 10)); fprintf (fp, "1 MESSAGETABLE \""); if (mcset_prefix_bin) fprintf (fp, "%s_", mcset_mc_basename); unicode_print (fp, n->lang->sval, unichar_len (n->lang->sval)); fprintf (fp, ".bin\"\n"); } } static void write_dbg (FILE *fp) { mc_node *h; fprintf (fp, "/* Do not edit this file manually.\n" " This file is autogenerated by windmc.\n\n" " This file maps each message ID value in to a text string that contains\n" " the symbolic name used for it. */\n\n"); fprintf (fp, "struct %sSymbolicName\n" "{\n ", mcset_mc_basename); if (mcset_msg_id_typedef) unicode_print (fp, mcset_msg_id_typedef, unichar_len (mcset_msg_id_typedef)); else fprintf (fp, "DWORD"); fprintf (fp, " MessageId;\n" " char *SymbolicName;\n" "} %sSymbolicNames[] =\n" "{\n", mcset_mc_basename); h = mc_nodes; while (h != NULL) { if (h->symbol) write_dbg_define (fp, h->symbol, h->id_typecast); h = h->next; } fprintf (fp, " { ("); if (mcset_msg_id_typedef) unicode_print (fp, mcset_msg_id_typedef, unichar_len (mcset_msg_id_typedef)); else fprintf (fp, "DWORD"); fprintf (fp, ") 0xffffffff, NULL }\n" "};\n"); } static void write_header (FILE *fp) { char *s; int i; const mc_keyword *key; mc_node *h; fprintf (fp, "/* Do not edit this file manually.\n" " This file is autogenerated by windmc. */\n\n" "//\n// The values are 32 bit layed out as follows:\n//\n" "// 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1\n" "// 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0\n" "// +---+-+-+-----------------------+-------------------------------+\n" "// |Sev|C|R| Facility | Code |\n" "// +---+-+-+-----------------------+-------------------------------+\n//\n" "// where\n//\n" "// C - is the Customer code flag\n//\n" "// R - is a reserved bit\n//\n" "// Code - is the facility's status code\n//\n"); h = mc_nodes; fprintf (fp, "// Sev - is the severity code\n//\n"); if (mc_severity_codes_count != 0) { for (i = 0; i < mc_severity_codes_count; i++) { key = mc_severity_codes[i]; fprintf (fp, "// %s - %02lx\n", convert_unicode_to_ACP (key->usz), (unsigned long) key->nval); if (key->sval && key->sval[0] != 0) { if (! mcset_out_values_are_decimal) fprintf (fp, "#define %s 0x%lx\n", convert_unicode_to_ACP (key->sval), (unsigned long) key->nval); else fprintf (fp, "#define %s %lu\n", convert_unicode_to_ACP (key->sval), (unsigned long) key->nval); } } fprintf (fp, "//\n"); } fprintf (fp, "// Facility - is the facility code\n//\n"); if (mc_facility_codes_count != 0) { for (i = 0; i < mc_facility_codes_count; i++) { key = mc_facility_codes[i]; fprintf (fp, "// %s - %04lx\n", convert_unicode_to_ACP (key->usz), (unsigned long) key->nval); if (key->sval && key->sval[0] != 0) { if (! mcset_out_values_are_decimal) fprintf (fp, "#define %s 0x%lx\n", convert_unicode_to_ACP (key->sval), (unsigned long) key->nval); else fprintf (fp, "#define %s %lu\n", convert_unicode_to_ACP (key->sval), (unsigned long) key->nval); } } fprintf (fp, "//\n"); } fprintf (fp, "\n"); while (h != NULL) { if (h->user_text) { s = convert_unicode_to_ACP (h->user_text); if (s) fprintf (fp, "%s", s); } if (h->symbol) write_header_define (fp, h->symbol, h->vid, h->id_typecast, h->sub); h = h->next; } } static const char * mc_unify_path (const char *path) { char *end; char *hsz; if (! path || *path == 0) return "./"; hsz = xmalloc (strlen (path) + 2); strcpy (hsz, path); end = hsz + strlen (hsz); if (end[-1] != '/' && end[-1] != '\\') strcpy (end, "/"); while ((end = strchr (hsz, '\\')) != NULL) *end = '/'; return hsz; } int main (int, char **); int main (int argc, char **argv) { FILE *h_fp; int c; char *target, *input_filename; int verbose; #ifdef HAVE_LC_MESSAGES setlocale (LC_MESSAGES, ""); #endif setlocale (LC_CTYPE, ""); bindtextdomain (PACKAGE, LOCALEDIR); textdomain (PACKAGE); program_name = argv[0]; xmalloc_set_program_name (program_name); bfd_set_error_program_name (program_name); expandargv (&argc, &argv); if (bfd_init () != BFD_INIT_MAGIC) fatal (_("fatal error: libbfd ABI mismatch")); set_default_bfd_target (); target = NULL; verbose = 0; input_filename = NULL; res_init (); while ((c = getopt_long (argc, argv, "C:F:O:h:e:m:r:x:aAbcdHunoUvV", long_options, (int *) 0)) != EOF) { switch (c) { case 'b': mcset_prefix_bin = 1; break; case 'e': { mcset_header_ext = optarg; if (mcset_header_ext[0] != '.' && mcset_header_ext[0] != 0) { char *hsz = xmalloc (strlen (mcset_header_ext) + 2); sprintf (hsz, ".%s", mcset_header_ext); mcset_header_ext = hsz; } } break; case 'h': mcset_header_dir = mc_unify_path (optarg); break; case 'r': mcset_rc_dir = mc_unify_path (optarg); break; case 'a': mcset_text_in_is_unicode = 0; break; case 'x': if (*optarg != 0) mcset_dbg_dir = mc_unify_path (optarg); break; case 'A': mcset_bin_out_is_unicode = 0; break; case 'd': mcset_out_values_are_decimal = 1; break; case 'u': mcset_text_in_is_unicode = 1; break; case 'U': mcset_bin_out_is_unicode = 1; break; case 'c': mcset_custom_bit = 1; break; case 'n': mcset_automatic_null_termination = 1; break; case 'o': mcset_use_hresult = 1; fatal ("option -o is not implemented until yet.\n"); break; case 'F': target = optarg; break; case 'v': verbose ++; break; case 'm': mcset_max_message_length = strtol (optarg, (char **) NULL, 10); break; case 'C': mcset_codepage_in = strtol (optarg, (char **) NULL, 10); break; case 'O': mcset_codepage_out = strtol (optarg, (char **) NULL, 10); break; case '?': case 'H': usage (stdout, 0); break; case 'V': print_version ("windmc"); break; default: usage (stderr, 1); break; } } if (input_filename == NULL && optind < argc) { input_filename = argv[optind]; ++optind; } set_endianness (NULL, target); if (input_filename == NULL) { fprintf (stderr, "Error: No input file was specified.\n"); usage (stderr, 1); } mc_set_inputfile (input_filename); if (!probe_codepage (&mcset_codepage_in, &mcset_text_in_is_unicode, "codepage_in", 0)) usage (stderr, 1); if (mcset_codepage_out == 0) mcset_codepage_out = 1252; if (! unicode_is_valid_codepage (mcset_codepage_out)) fatal ("Code page 0x%x is unknown.", (unsigned int) mcset_codepage_out); if (mcset_codepage_out == CP_UTF16) fatal ("UTF16 is no valid text output code page."); if (verbose) { fprintf (stderr, "// Default target is %s and it is %s endian.\n", def_target_arch, (target_is_bigendian ? "big" : "little")); fprintf (stderr, "// Input codepage: 0x%x\n", (unsigned int) mcset_codepage_in); fprintf (stderr, "// Output codepage: 0x%x\n", (unsigned int) mcset_codepage_out); } if (argc != optind) usage (stderr, 1); /* Initialize mcset_mc_basename. */ { const char *bn, *bn2; char *hsz; bn = strrchr (input_filename, '/'); bn2 = strrchr (input_filename, '\\'); if (! bn) bn = bn2; if (bn && bn2 && bn < bn2) bn = bn2; if (! bn) bn = input_filename; else bn++; mcset_mc_basename = hsz = xstrdup (bn); /* Cut of right-hand extension. */ if ((hsz = strrchr (hsz, '.')) != NULL) *hsz = 0; } /* Load the input file and do code page transformations to UTF16. */ { unichar *u = NULL; rc_uint_type ul; char *buff; bfd_size_type flen; FILE *fp = fopen (input_filename, "rb"); if (!fp) fatal (_("unable to open file `%s' for input.\n"), input_filename); fseek (fp, 0, SEEK_END); flen = ftell (fp); fseek (fp, 0, SEEK_SET); buff = malloc (flen + 3); memset (buff, 0, flen + 3); if (fread (buff, 1, flen, fp) < flen) fatal (_("unable to read contents of %s"), input_filename); fclose (fp); if (mcset_text_in_is_unicode != 1) { unicode_from_codepage (&ul, &u, buff, mcset_codepage_in); if (! u) fatal ("Failed to convert input to UFT16\n"); mc_set_content (u); } else { if ((flen & 1) != 0) fatal (_("input file does not seems to be UFT16.\n")); mc_set_content ((unichar *) buff); } free (buff); } while (yyparse ()) ; do_sorts (); h_fp = mc_create_path_text_file (mcset_header_dir, mcset_header_ext); write_header (h_fp); fclose (h_fp); h_fp = mc_create_path_text_file (mcset_rc_dir, ".rc"); write_rc (h_fp); fclose (h_fp); if (mcset_dbg_dir != NULL) { h_fp = mc_create_path_text_file (mcset_dbg_dir, ".dbg"); write_dbg (h_fp); fclose (h_fp); } write_bin (); free (mc_nodes_lang); free (mc_severity_codes); free (mc_facility_codes); xexit (0); return 0; }