/* * DLL imports support * * Copyright 2000 Alexandre Julliard * 2000 Eric Pouech * * 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #include "config.h" #include "wine/port.h" #include #include #include #include #ifdef HAVE_UNISTD_H # include #endif #include "build.h" struct func { char *name; /* function name */ int ordinal; /* function ordinal */ int ord_only; /* non-zero if function is imported by ordinal */ }; struct import { char *dll; /* dll name */ int delay; /* delay or not dll loading ? */ struct func *exports; /* functions exported from this dll */ int nb_exports; /* number of exported functions */ struct func *imports; /* functions we want to import from this dll */ int nb_imports; /* number of imported functions */ }; static char **undef_symbols; /* list of undefined symbols */ static int nb_undef_symbols = -1; static int undef_size; static char **ignore_symbols; /* list of symbols to ignore */ static int nb_ignore_symbols; static int ignore_size; static char *ld_tmp_file; /* ld temp file name */ static struct import **dll_imports = NULL; static int nb_imports = 0; /* number of imported dlls (delayed or not) */ static int nb_delayed = 0; /* number of delayed dlls */ static int total_imports = 0; /* total number of imported functions */ static int total_delayed = 0; /* total number of imported functions in delayed DLLs */ /* list of symbols that are ignored by default */ static const char * const default_ignored_symbols[] = { "abs", "acos", "asin", "atan", "atan2", "atof", "atoi", "atol", "bsearch", "ceil", "cos", "cosh", "div", "exp", "fabs", "floor", "fmod", "frexp", "labs", "ldiv", "log", "log10", "memchr", "memcmp", "memcpy", "memmove", "memset", "modf", "pow", "qsort", "sin", "sinh", "sqrt", "strcat", "strchr", "strcmp", "strcpy", "strcspn", "strlen", "strncat", "strncmp", "strncpy", "strpbrk", "strrchr", "strspn", "strstr", "tan", "tanh" }; /* compare function names; helper for resolve_imports */ static int name_cmp( const void *name, const void *entry ) { return strcmp( *(char **)name, *(char **)entry ); } /* compare function names; helper for resolve_imports */ static int func_cmp( const void *func1, const void *func2 ) { return strcmp( ((struct func *)func1)->name, ((struct func *)func2)->name ); } /* locate a symbol in a (sorted) list */ inline static const char *find_symbol( const char *name, char **table, int size ) { char **res = NULL; if (table) { res = bsearch( &name, table, size, sizeof(*table), name_cmp ); } return res ? *res : NULL; } /* locate an export in a (sorted) export list */ inline static struct func *find_export( const char *name, struct func *table, int size ) { struct func func, *res = NULL; func.name = (char *)name; func.ordinal = -1; if (table) res = bsearch( &func, table, size, sizeof(*table), func_cmp ); return res; } /* sort a symbol table */ inline static void sort_symbols( char **table, int size ) { if (table ) qsort( table, size, sizeof(*table), name_cmp ); } /* free an import structure */ static void free_imports( struct import *imp ) { int i; for (i = 0; i < imp->nb_exports; i++) free( imp->exports[i].name ); for (i = 0; i < imp->nb_imports; i++) free( imp->imports[i].name ); free( imp->exports ); free( imp->imports ); free( imp->dll ); free( imp ); } /* remove the temp file at exit */ static void remove_ld_tmp_file(void) { if (ld_tmp_file) unlink( ld_tmp_file ); } /* check whether a given dll has already been imported */ static int is_already_imported( const char *name ) { int i; for (i = 0; i < nb_imports; i++) { if (!strcmp( dll_imports[i]->dll, name )) return 1; } return 0; } /* open the .so library for a given dll in a specified path */ static char *try_library_path( const char *path, const char *name ) { char *buffer; int fd; buffer = xmalloc( strlen(path) + strlen(name) + 9 ); sprintf( buffer, "%s/lib%s.def", path, name ); /* check if the file exists */ if ((fd = open( buffer, O_RDONLY )) != -1) { close( fd ); return buffer; } free( buffer ); return NULL; } /* open the .so library for a given dll */ static char *open_library( const char *name ) { char *fullname; int i; for (i = 0; i < nb_lib_paths; i++) { if ((fullname = try_library_path( lib_path[i], name ))) return fullname; } if (!(fullname = try_library_path( ".", name ))) fatal_error( "could not open .def file for %s\n", name ); return fullname; } /* skip whitespace until the next token */ static char *skip_whitespace( char *p ) { while (*p && isspace(*p)) p++; if (!*p || *p == ';') p = NULL; return p; } /* skip to the start of the next token, null terminating the current one */ static char *next_token( char *p ) { while (*p && !isspace(*p)) p++; if (*p) *p++ = 0; return skip_whitespace( p ); } /* remove the @nn suffix from stdcall names */ static char *remove_stdcall_decoration( char *buffer ) { char *p = buffer + strlen(buffer) - 1; while (p > buffer && isdigit(*p)) p--; if (p > buffer && *p == '@') *p = 0; return buffer; } /* read in the list of exported symbols of an import library */ static int read_import_lib( const char *name, struct import *imp ) { FILE *f; char buffer[1024]; char *fullname; int size; imp->exports = NULL; imp->nb_exports = size = 0; fullname = open_library( name ); f = open_input_file( NULL, fullname ); free( fullname ); while (fgets( buffer, sizeof(buffer), f )) { char *name, *flags; int ordinal = 0, ord_only = 0; char *p = buffer + strlen(buffer) - 1; if (p < buffer) goto next; if (*p == '\n') *p-- = 0; p = buffer; if (!(p = skip_whitespace(p))) goto next; name = p; p = next_token( name ); if (!strcmp( name, "LIBRARY" )) { if (!p) { error( "Expected name after LIBRARY\n" ); goto next; } name = p; p = next_token( name ); if (p) { error( "Garbage after LIBRARY statement\n" ); goto next; } if (is_already_imported( name )) { close_input_file( f ); return 0; /* ignore this dll */ } free( imp->dll ); imp->dll = xstrdup( name ); goto next; } if (!strcmp( name, "EXPORTS" )) goto next; /* check for ordinal */ if (!p) { error( "Expected ordinal after function name\n" ); goto next; } if (*p != '@' || !isdigit(p[1])) { error( "Expected ordinal after function name '%s'\n", name ); goto next; } ordinal = strtol( p+1, &p, 10 ); if (ordinal >= MAX_ORDINALS) { error( "Invalid ordinal number %d\n", ordinal ); goto next; } /* check for optional flags */ while (p && (p = skip_whitespace(p))) { flags = p; p = next_token( flags ); if (!strcmp( flags, "NONAME" )) { ord_only = 1; if (!ordinal) { error( "Invalid ordinal number %d\n", ordinal ); goto next; } } else if (!strcmp( flags, "CONSTANT" ) || !strcmp( flags, "DATA" )) { /* we don't support importing non-function entry points */ goto next; } else { error( "Garbage after ordinal declaration\n" ); goto next; } } if (imp->nb_exports == size) { size += 128; imp->exports = xrealloc( imp->exports, size * sizeof(*imp->exports) ); } if ((p = strchr( name, '=' ))) *p = 0; remove_stdcall_decoration( name ); imp->exports[imp->nb_exports].name = xstrdup( name ); imp->exports[imp->nb_exports].ordinal = ordinal; imp->exports[imp->nb_exports].ord_only = ord_only; imp->nb_exports++; next: current_line++; } close_input_file( f ); if (imp->nb_exports) qsort( imp->exports, imp->nb_exports, sizeof(*imp->exports), func_cmp ); return !nb_errors; } /* add a dll to the list of imports */ void add_import_dll( const char *name, int delay ) { struct import *imp; char *fullname; fullname = xmalloc( strlen(name) + 5 ); strcpy( fullname, name ); if (!strchr( fullname, '.' )) strcat( fullname, ".dll" ); /* check if we already imported it */ if (is_already_imported( fullname )) { free( fullname ); return; } imp = xmalloc( sizeof(*imp) ); imp->dll = fullname; imp->delay = delay; imp->imports = NULL; imp->nb_imports = 0; if (delay) nb_delayed++; if (read_import_lib( name, imp )) { dll_imports = xrealloc( dll_imports, (nb_imports+1) * sizeof(*dll_imports) ); dll_imports[nb_imports++] = imp; } else { free_imports( imp ); if (nb_errors) exit(1); } } /* remove an imported dll, based on its index in the dll_imports array */ static void remove_import_dll( int index ) { struct import *imp = dll_imports[index]; memmove( &dll_imports[index], &dll_imports[index+1], sizeof(imp) * (nb_imports - index - 1) ); nb_imports--; if (imp->delay) nb_delayed--; free_imports( imp ); } /* initialize the list of ignored symbols */ static void init_ignored_symbols(void) { int i; nb_ignore_symbols = sizeof(default_ignored_symbols)/sizeof(default_ignored_symbols[0]); ignore_size = nb_ignore_symbols + 32; ignore_symbols = xmalloc( ignore_size * sizeof(*ignore_symbols) ); for (i = 0; i < nb_ignore_symbols; i++) ignore_symbols[i] = xstrdup( default_ignored_symbols[i] ); } /* add a symbol to the ignored symbol list */ /* if the name starts with '-' the symbol is removed instead */ void add_ignore_symbol( const char *name ) { int i; if (!ignore_symbols) init_ignored_symbols(); /* first time around, fill list with defaults */ if (name[0] == '-') /* remove it */ { if (!name[1]) /* remove everything */ { for (i = 0; i < nb_ignore_symbols; i++) free( ignore_symbols[i] ); nb_ignore_symbols = 0; } else { for (i = 0; i < nb_ignore_symbols; i++) { if (!strcmp( ignore_symbols[i], name+1 )) { free( ignore_symbols[i] ); memmove( &ignore_symbols[i], &ignore_symbols[i+1], nb_ignore_symbols - i - 1 ); nb_ignore_symbols--; } } } } else { if (nb_ignore_symbols == ignore_size) { ignore_size += 32; ignore_symbols = xrealloc( ignore_symbols, ignore_size * sizeof(*ignore_symbols) ); } ignore_symbols[nb_ignore_symbols++] = xstrdup( name ); } } /* add a function to the list of imports from a given dll */ static void add_import_func( struct import *imp, const struct func *func ) { imp->imports = xrealloc( imp->imports, (imp->nb_imports+1) * sizeof(*imp->imports) ); imp->imports[imp->nb_imports].name = xstrdup( func->name ); imp->imports[imp->nb_imports].ordinal = func->ordinal; imp->imports[imp->nb_imports].ord_only = func->ord_only; imp->nb_imports++; total_imports++; if (imp->delay) total_delayed++; } /* add a symbol to the undef list */ inline static void add_undef_symbol( const char *name ) { if (nb_undef_symbols == undef_size) { undef_size += 128; undef_symbols = xrealloc( undef_symbols, undef_size * sizeof(*undef_symbols) ); } undef_symbols[nb_undef_symbols++] = xstrdup( name ); } /* remove all the holes in the undefined symbol list; return the number of removed symbols */ static int remove_symbol_holes(void) { int i, off; for (i = off = 0; i < nb_undef_symbols; i++) { if (!undef_symbols[i]) off++; else undef_symbols[i - off] = undef_symbols[i]; } nb_undef_symbols -= off; return off; } /* add a symbol to the extra list, but only if needed */ static int add_extra_symbol( const char **extras, int *count, const char *name ) { int i; if (!find_symbol( name, undef_symbols, nb_undef_symbols )) { /* check if the symbol is being exported by this dll */ for (i = 0; i < nb_entry_points; i++) { ORDDEF *odp = EntryPoints[i]; if (odp->type == TYPE_STDCALL || odp->type == TYPE_CDECL || odp->type == TYPE_VARARGS || odp->type == TYPE_EXTERN) { if (odp->name && !strcmp( odp->name, name )) return 0; } } extras[*count] = name; (*count)++; } return 1; } /* add the extra undefined symbols that will be contained in the generated spec file itself */ static void add_extra_undef_symbols(void) { const char *extras[10]; int i, count = 0, nb_stubs = 0, nb_regs = 0; int kernel_imports = 0, ntdll_imports = 0; sort_symbols( undef_symbols, nb_undef_symbols ); for (i = 0; i < nb_entry_points; i++) { ORDDEF *odp = EntryPoints[i]; if (odp->type == TYPE_STUB) nb_stubs++; if (odp->flags & FLAG_REGISTER) nb_regs++; } /* add symbols that will be contained in the spec file itself */ switch (SpecMode) { case SPEC_MODE_DLL: break; case SPEC_MODE_GUIEXE: kernel_imports += add_extra_symbol( extras, &count, "GetCommandLineA" ); kernel_imports += add_extra_symbol( extras, &count, "GetStartupInfoA" ); kernel_imports += add_extra_symbol( extras, &count, "GetModuleHandleA" ); /* fall through */ case SPEC_MODE_CUIEXE: kernel_imports += add_extra_symbol( extras, &count, "ExitProcess" ); break; case SPEC_MODE_GUIEXE_UNICODE: kernel_imports += add_extra_symbol( extras, &count, "GetCommandLineA" ); kernel_imports += add_extra_symbol( extras, &count, "GetStartupInfoA" ); kernel_imports += add_extra_symbol( extras, &count, "GetModuleHandleA" ); /* fall through */ case SPEC_MODE_CUIEXE_UNICODE: kernel_imports += add_extra_symbol( extras, &count, "ExitProcess" ); break; } if (nb_delayed) { kernel_imports += add_extra_symbol( extras, &count, "LoadLibraryA" ); kernel_imports += add_extra_symbol( extras, &count, "GetProcAddress" ); } if (nb_regs) ntdll_imports += add_extra_symbol( extras, &count, "__wine_call_from_32_regs" ); if (nb_delayed || nb_stubs) ntdll_imports += add_extra_symbol( extras, &count, "RtlRaiseException" ); /* make sure we import the dlls that contain these functions */ if (kernel_imports) add_import_dll( "kernel32", 0 ); if (ntdll_imports) add_import_dll( "ntdll", 0 ); if (count) { for (i = 0; i < count; i++) add_undef_symbol( extras[i] ); sort_symbols( undef_symbols, nb_undef_symbols ); } } /* check if a given imported dll is not needed, taking forwards into account */ static int check_unused( const struct import* imp ) { int i; size_t len = strlen(imp->dll); const char *p = strchr( imp->dll, '.' ); if (p && !strcasecmp( p, ".dll" )) len = p - imp->dll; for (i = Base; i <= Limit; i++) { ORDDEF *odp = Ordinals[i]; if (!odp || !(odp->flags & FLAG_FORWARD)) continue; if (!strncasecmp( odp->link_name, imp->dll, len ) && odp->link_name[len] == '.') return 0; /* found a forward, it is used */ } return 1; } /* combine a list of object files with ld into a single object file */ /* returns the name of the combined file */ static const char *ldcombine_files( char **argv ) { int i, len = 0; char *cmd; int fd, err; if (output_file_name && output_file_name[0]) { ld_tmp_file = xmalloc( strlen(output_file_name) + 10 ); strcpy( ld_tmp_file, output_file_name ); strcat( ld_tmp_file, ".XXXXXX.o" ); } else ld_tmp_file = xstrdup( "/tmp/winebuild.tmp.XXXXXX.o" ); if ((fd = mkstemps( ld_tmp_file, 2 ) == -1)) fatal_error( "could not generate a temp file\n" ); close( fd ); atexit( remove_ld_tmp_file ); for (i = 0; argv[i]; i++) len += strlen(argv[i]) + 1; cmd = xmalloc( len + strlen(ld_tmp_file) + 10 ); sprintf( cmd, "ld -r -o %s", ld_tmp_file ); for (i = 0; argv[i]; i++) sprintf( cmd + strlen(cmd), " %s", argv[i] ); err = system( cmd ); if (err) fatal_error( "ld -r failed with status %d\n", err ); free( cmd ); return ld_tmp_file; } /* read in the list of undefined symbols */ void read_undef_symbols( char **argv ) { FILE *f; char buffer[1024]; int err; const char *name; if (!argv[0]) return; undef_size = nb_undef_symbols = 0; /* if we have multiple object files, link them together */ if (argv[1]) name = ldcombine_files( argv ); else name = argv[0]; sprintf( buffer, "nm -u %s", name ); if (!(f = popen( buffer, "r" ))) fatal_error( "Cannot execute '%s'\n", buffer ); while (fgets( buffer, sizeof(buffer), f )) { char *p = buffer + strlen(buffer) - 1; if (p < buffer) continue; if (*p == '\n') *p-- = 0; p = buffer; while (*p == ' ') p++; if (p[0] == 'U' && p[1] == ' ' && p[2]) p += 2; add_undef_symbol( p ); } if ((err = pclose( f ))) warning( "nm -u %s error %d\n", name, err ); } static void remove_ignored_symbols(void) { int i; if (!ignore_symbols) init_ignored_symbols(); sort_symbols( ignore_symbols, nb_ignore_symbols ); for (i = 0; i < nb_undef_symbols; i++) { if (find_symbol( undef_symbols[i], ignore_symbols, nb_ignore_symbols )) { free( undef_symbols[i] ); undef_symbols[i] = NULL; } } remove_symbol_holes(); } /* resolve the imports for a Win32 module */ int resolve_imports( void ) { int i, j; if (nb_undef_symbols == -1) return 0; /* no symbol file specified */ add_extra_undef_symbols(); remove_ignored_symbols(); for (i = 0; i < nb_imports; i++) { struct import *imp = dll_imports[i]; for (j = 0; j < nb_undef_symbols; j++) { struct func *func = find_export( undef_symbols[j], imp->exports, imp->nb_exports ); if (func) { add_import_func( imp, func ); free( undef_symbols[j] ); undef_symbols[j] = NULL; } } /* remove all the holes in the undef symbols list */ if (!remove_symbol_holes() && check_unused( imp )) { /* the dll is not used, get rid of it */ warning( "%s imported but no symbols used\n", imp->dll ); remove_import_dll( i ); i--; } } return 1; } /* output the import table of a Win32 module */ static int output_immediate_imports( FILE *outfile ) { int i, j, pos; int nb_imm = nb_imports - nb_delayed; if (!nb_imm) goto done; /* main import header */ fprintf( outfile, "\nstatic struct {\n" ); fprintf( outfile, " struct {\n" ); fprintf( outfile, " void *OriginalFirstThunk;\n" ); fprintf( outfile, " unsigned int TimeDateStamp;\n" ); fprintf( outfile, " unsigned int ForwarderChain;\n" ); fprintf( outfile, " const char *Name;\n" ); fprintf( outfile, " void *FirstThunk;\n" ); fprintf( outfile, " } imp[%d];\n", nb_imm+1 ); fprintf( outfile, " const char *data[%d];\n", total_imports - total_delayed + nb_imm ); fprintf( outfile, "} imports = {\n {\n" ); /* list of dlls */ for (i = j = 0; i < nb_imports; i++) { if (dll_imports[i]->delay) continue; fprintf( outfile, " { 0, 0, 0, \"%s\", &imports.data[%d] },\n", dll_imports[i]->dll, j ); j += dll_imports[i]->nb_imports + 1; } fprintf( outfile, " { 0, 0, 0, 0, 0 },\n" ); fprintf( outfile, " },\n {\n" ); /* list of imported functions */ for (i = 0; i < nb_imports; i++) { if (dll_imports[i]->delay) continue; fprintf( outfile, " /* %s */\n", dll_imports[i]->dll ); for (j = 0; j < dll_imports[i]->nb_imports; j++) { struct func *import = &dll_imports[i]->imports[j]; if (!import->ord_only) { unsigned short ord = import->ordinal; fprintf( outfile, " \"\\%03o\\%03o%s\",\n", *(unsigned char *)&ord, *((unsigned char *)&ord + 1), import->name ); } else fprintf( outfile, " (char *)%d,\n", import->ordinal ); } fprintf( outfile, " 0,\n" ); } fprintf( outfile, " }\n};\n\n" ); /* thunks for imported functions */ fprintf( outfile, "#ifndef __GNUC__\nstatic void __asm__dummy_import(void) {\n#endif\n\n" ); pos = 20 * (nb_imm + 1); /* offset of imports.data from start of imports */ fprintf( outfile, "asm(\".data\\n\\t.align %d\\n\"\n", get_alignment(8) ); for (i = 0; i < nb_imports; i++) { if (dll_imports[i]->delay) continue; for (j = 0; j < dll_imports[i]->nb_imports; j++, pos += 4) { struct func *import = &dll_imports[i]->imports[j]; fprintf( outfile, " \"\\t" __ASM_FUNC("%s") "\\n\"\n", import->name ); fprintf( outfile, " \"\\t.globl " __ASM_NAME("%s") "\\n\"\n", import->name ); fprintf( outfile, " \"" __ASM_NAME("%s") ":\\n\\t", import->name); #if defined(__i386__) if (strstr( import->name, "__wine_call_from_16" )) fprintf( outfile, ".byte 0x2e\\n\\tjmp *(imports+%d)\\n\\tnop\\n", pos ); else fprintf( outfile, "jmp *(imports+%d)\\n\\tmovl %%esi,%%esi\\n", pos ); #elif defined(__sparc__) if ( !UsePIC ) { fprintf( outfile, "sethi %%hi(imports+%d), %%g1\\n\\t", pos ); fprintf( outfile, "ld [%%g1+%%lo(imports+%d)], %%g1\\n\\t", pos ); fprintf( outfile, "jmp %%g1\\n\\tnop\\n" ); } else { /* Hmpf. Stupid sparc assembler always interprets global variable names as GOT offsets, so we have to do it the long way ... */ fprintf( outfile, "save %%sp, -96, %%sp\\n" ); fprintf( outfile, "0:\\tcall 1f\\n\\tnop\\n" ); fprintf( outfile, "1:\\tsethi %%hi(imports+%d-0b), %%g1\\n\\t", pos ); fprintf( outfile, "or %%g1, %%lo(imports+%d-0b), %%g1\\n\\t", pos ); fprintf( outfile, "ld [%%g1+%%o7], %%g1\\n\\t" ); fprintf( outfile, "jmp %%g1\\n\\trestore\\n" ); } #elif defined(__PPC__) fprintf(outfile, "\taddi 1, 1, -0x4\\n\"\n"); fprintf(outfile, "\t\"\\tstw 9, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\taddi 1, 1, -0x4\\n\"\n"); fprintf(outfile, "\t\"\\tstw 8, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\taddi 1, 1, -0x4\\n\"\n"); fprintf(outfile, "\t\"\\tstw 7, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\tlis 9,imports+%d@ha\\n\"\n", pos); fprintf(outfile, "\t\"\\tla 8,imports+%d@l(9)\\n\"\n", pos); fprintf(outfile, "\t\"\\tlwz 7, 0(8)\\n\"\n"); fprintf(outfile, "\t\"\\tmtctr 7\\n\"\n"); fprintf(outfile, "\t\"\\tlwz 7, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\taddi 1, 1, 0x4\\n\"\n"); fprintf(outfile, "\t\"\\tlwz 8, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\taddi 1, 1, 0x4\\n\"\n"); fprintf(outfile, "\t\"\\tlwz 9, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\taddi 1, 1, 0x4\\n\"\n"); fprintf(outfile, "\t\"\\tbctr\\n"); #else #error You need to define import thunks for your architecture! #endif fprintf( outfile, "\"\n" ); } pos += 4; } fprintf( outfile, "\".section\\t\\\".text\\\"\");\n#ifndef __GNUC__\n}\n#endif\n\n" ); done: return nb_imm; } /* output the delayed import table of a Win32 module */ static int output_delayed_imports( FILE *outfile ) { int i, idx, j, pos; if (!nb_delayed) goto done; for (i = 0; i < nb_imports; i++) { if (!dll_imports[i]->delay) continue; fprintf( outfile, "static void *__wine_delay_imp_%d_hmod;\n", i); for (j = 0; j < dll_imports[i]->nb_imports; j++) { fprintf( outfile, "void __wine_delay_imp_%d_%s();\n", i, dll_imports[i]->imports[j].name ); } } fprintf( outfile, "\n" ); fprintf( outfile, "static struct {\n" ); fprintf( outfile, " struct ImgDelayDescr {\n" ); fprintf( outfile, " unsigned int grAttrs;\n" ); fprintf( outfile, " const char *szName;\n" ); fprintf( outfile, " void **phmod;\n" ); fprintf( outfile, " void **pIAT;\n" ); fprintf( outfile, " const char **pINT;\n" ); fprintf( outfile, " void* pBoundIAT;\n" ); fprintf( outfile, " void* pUnloadIAT;\n" ); fprintf( outfile, " unsigned long dwTimeStamp;\n" ); fprintf( outfile, " } imp[%d];\n", nb_delayed ); fprintf( outfile, " void *IAT[%d];\n", total_delayed ); fprintf( outfile, " const char *INT[%d];\n", total_delayed ); fprintf( outfile, "} delay_imports = {\n" ); fprintf( outfile, " {\n" ); for (i = j = 0; i < nb_imports; i++) { if (!dll_imports[i]->delay) continue; fprintf( outfile, " { 0, \"%s\", &__wine_delay_imp_%d_hmod, &delay_imports.IAT[%d], &delay_imports.INT[%d], 0, 0, 0 },\n", dll_imports[i]->dll, i, j, j ); j += dll_imports[i]->nb_imports; } fprintf( outfile, " },\n {\n" ); for (i = 0; i < nb_imports; i++) { if (!dll_imports[i]->delay) continue; fprintf( outfile, " /* %s */\n", dll_imports[i]->dll ); for (j = 0; j < dll_imports[i]->nb_imports; j++) { fprintf( outfile, " &__wine_delay_imp_%d_%s,\n", i, dll_imports[i]->imports[j].name); } } fprintf( outfile, " },\n {\n" ); for (i = 0; i < nb_imports; i++) { if (!dll_imports[i]->delay) continue; fprintf( outfile, " /* %s */\n", dll_imports[i]->dll ); for (j = 0; j < dll_imports[i]->nb_imports; j++) { struct func *import = &dll_imports[i]->imports[j]; if (import->ord_only) fprintf( outfile, " (char *)%d,\n", import->ordinal ); else fprintf( outfile, " \"%s\",\n", import->name ); } } fprintf( outfile, " }\n};\n\n" ); /* check if there's some stub defined. if so, exception struct * is already defined, so don't emit it twice */ for (i = 0; i < nb_entry_points; i++) if (EntryPoints[i]->type == TYPE_STUB) break; if (i == nb_entry_points) { fprintf( outfile, "struct exc_record {\n" ); fprintf( outfile, " unsigned int code, flags;\n" ); fprintf( outfile, " void *rec, *addr;\n" ); fprintf( outfile, " unsigned int params;\n" ); fprintf( outfile, " const void *info[15];\n" ); fprintf( outfile, "};\n\n" ); fprintf( outfile, "extern void __stdcall RtlRaiseException( struct exc_record * );\n" ); } fprintf( outfile, "extern void * __stdcall LoadLibraryA(const char*);\n"); fprintf( outfile, "extern void * __stdcall GetProcAddress(void *, const char*);\n"); fprintf( outfile, "\n" ); fprintf( outfile, "void *__stdcall __wine_delay_load( int idx_nr )\n" ); fprintf( outfile, "{\n" ); fprintf( outfile, " int idx = idx_nr >> 16, nr = idx_nr & 0xffff;\n" ); fprintf( outfile, " struct ImgDelayDescr *imd = delay_imports.imp + idx;\n" ); fprintf( outfile, " void **pIAT = imd->pIAT + nr;\n" ); fprintf( outfile, " const char** pINT = imd->pINT + nr;\n" ); fprintf( outfile, " void *fn;\n\n" ); fprintf( outfile, " if (!*imd->phmod) *imd->phmod = LoadLibraryA(imd->szName);\n" ); fprintf( outfile, " if (*imd->phmod && (fn = GetProcAddress(*imd->phmod, *pINT)))\n"); fprintf( outfile, " /* patch IAT with final value */\n" ); fprintf( outfile, " return *pIAT = fn;\n" ); fprintf( outfile, " else {\n"); fprintf( outfile, " struct exc_record rec;\n" ); fprintf( outfile, " rec.code = 0x80000100;\n" ); fprintf( outfile, " rec.flags = 1;\n" ); fprintf( outfile, " rec.rec = 0;\n" ); fprintf( outfile, " rec.params = 2;\n" ); fprintf( outfile, " rec.info[0] = imd->szName;\n" ); fprintf( outfile, " rec.info[1] = *pINT + 2;\n" ); fprintf( outfile, "#ifdef __GNUC__\n" ); fprintf( outfile, " rec.addr = __builtin_return_address(1);\n" ); fprintf( outfile, "#else\n" ); fprintf( outfile, " rec.addr = 0;\n" ); fprintf( outfile, "#endif\n" ); fprintf( outfile, " for (;;) RtlRaiseException( &rec );\n" ); fprintf( outfile, " return 0; /* shouldn't go here */\n" ); fprintf( outfile, " }\n}\n\n" ); fprintf( outfile, "#ifndef __GNUC__\n" ); fprintf( outfile, "static void __asm__dummy_delay_import(void) {\n" ); fprintf( outfile, "#endif\n" ); fprintf( outfile, "asm(\".align %d\\n\"\n", get_alignment(8) ); fprintf( outfile, " \"\\t" __ASM_FUNC("__wine_delay_load_asm") "\\n\"\n" ); fprintf( outfile, " \"" __ASM_NAME("__wine_delay_load_asm") ":\\n\"\n" ); #if defined(__i386__) fprintf( outfile, " \"\\tpushl %%ecx\\n\\tpushl %%edx\\n\\tpushl %%eax\\n\"\n" ); fprintf( outfile, " \"\\tcall __wine_delay_load\\n\"\n" ); fprintf( outfile, " \"\\tpopl %%edx\\n\\tpopl %%ecx\\n\\tjmp *%%eax\\n\"\n" ); #elif defined(__sparc__) fprintf( outfile, " \"\\tsave %%sp, -96, %%sp\\n\"\n" ); fprintf( outfile, " \"\\tcall __wine_delay_load\\n\"\n" ); fprintf( outfile, " \"\\tmov %%g1, %%o0\\n\"\n" ); fprintf( outfile, " \"\\tjmp %%o0\\n\\trestore\\n\"\n" ); #elif defined(__PPC__) /* Save all callee saved registers into a stackframe. */ fprintf( outfile, " \"\\tstwu %%r1, -48(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tstw %%r3, 4(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tstw %%r4, 8(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tstw %%r5, 12(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tstw %%r6, 16(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tstw %%r7, 20(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tstw %%r8, 24(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tstw %%r9, 28(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tstw %%r10, 32(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tstw %%r11, 36(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tstw %%r12, 40(%%r1)\\n\"\n" ); /* r0 -> r3 (arg1) */ fprintf( outfile, " \"\\tmr %%r3, %%r0\\n\"\n" ); /* save return address */ fprintf( outfile, " \"\\tmflr %%r0\\n\"\n" ); fprintf( outfile, " \"\\tstw %%r0, 44(%%r1)\\n\"\n" ); /* Call the __wine_delay_load function, arg1 is arg1. */ fprintf( outfile, " \"\\tbl __wine_delay_load\\n\"\n" ); /* Load return value from call into ctr register */ fprintf( outfile, " \"\\tmtctr %%r3\\n\"\n" ); /* restore all saved registers and drop stackframe. */ fprintf( outfile, " \"\\tlwz %%r3, 4(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tlwz %%r4, 8(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tlwz %%r5, 12(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tlwz %%r6, 16(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tlwz %%r7, 20(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tlwz %%r8, 24(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tlwz %%r9, 28(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tlwz %%r10, 32(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tlwz %%r11, 36(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tlwz %%r12, 40(%%r1)\\n\"\n" ); /* Load return value from call into return register */ fprintf( outfile, " \"\\tlwz %%r0, 44(%%r1)\\n\"\n" ); fprintf( outfile, " \"\\tmtlr %%r0\\n\"\n" ); fprintf( outfile, " \"\\taddi %%r1, %%r1, 48\\n\"\n" ); /* branch to ctr register. */ fprintf( outfile, " \"\\tbctr\\n\"\n" ); #else #error You need to defined delayed import thunks for your architecture! #endif for (i = idx = 0; i < nb_imports; i++) { if (!dll_imports[i]->delay) continue; for (j = 0; j < dll_imports[i]->nb_imports; j++) { char buffer[128]; sprintf( buffer, "__wine_delay_imp_%d_%s", i, dll_imports[i]->imports[j].name ); fprintf( outfile, " \"\\t" __ASM_FUNC("%s") "\\n\"\n", buffer ); fprintf( outfile, " \"" __ASM_NAME("%s") ":\\n\"\n", buffer ); #if defined(__i386__) fprintf( outfile, " \"\\tmovl $%d, %%eax\\n\"\n", (idx << 16) | j ); fprintf( outfile, " \"\\tjmp __wine_delay_load_asm\\n\"\n" ); #elif defined(__sparc__) fprintf( outfile, " \"\\tset %d, %%g1\\n\"\n", (idx << 16) | j ); fprintf( outfile, " \"\\tb,a __wine_delay_load_asm\\n\"\n" ); #elif defined(__PPC__) /* g0 is a function scratch register or so I understand. */ fprintf( outfile, " \"\\tli %%r0, %d\\n\"\n", (idx << 16) | j ); fprintf( outfile, " \"\\tb __wine_delay_load_asm\\n\"\n" ); #else #error You need to defined delayed import thunks for your architecture! #endif } idx++; } fprintf( outfile, "\n \".data\\n\\t.align %d\\n\"\n", get_alignment(8) ); pos = nb_delayed * 32; for (i = 0; i < nb_imports; i++) { if (!dll_imports[i]->delay) continue; for (j = 0; j < dll_imports[i]->nb_imports; j++, pos += 4) { struct func *import = &dll_imports[i]->imports[j]; fprintf( outfile, " \"\\t" __ASM_FUNC("%s") "\\n\"\n", import->name ); fprintf( outfile, " \"\\t.globl " __ASM_NAME("%s") "\\n\"\n", import->name ); fprintf( outfile, " \"" __ASM_NAME("%s") ":\\n\\t\"", import->name); #if defined(__i386__) if (strstr( import->name, "__wine_call_from_16" )) fprintf( outfile, "\".byte 0x2e\\n\\tjmp *(delay_imports+%d)\\n\\tnop\\n\"", pos ); else fprintf( outfile, "\"jmp *(delay_imports+%d)\\n\\tmovl %%esi,%%esi\\n\"", pos ); #elif defined(__sparc__) if ( !UsePIC ) { fprintf( outfile, "\"sethi %%hi(delay_imports+%d), %%g1\\n\\t\"", pos ); fprintf( outfile, "\"ld [%%g1+%%lo(delay_imports+%d)], %%g1\\n\\t\"", pos ); fprintf( outfile, "\"jmp %%g1\\n\\tnop\\n\"" ); } else { /* Hmpf. Stupid sparc assembler always interprets global variable names as GOT offsets, so we have to do it the long way ... */ fprintf( outfile, "\"save %%sp, -96, %%sp\\n\"" ); fprintf( outfile, "\"0:\\tcall 1f\\n\\tnop\\n\"" ); fprintf( outfile, "\"1:\\tsethi %%hi(delay_imports+%d-0b), %%g1\\n\\t\"", pos ); fprintf( outfile, "\"or %%g1, %%lo(delay_imports+%d-0b), %%g1\\n\\t\"", pos ); fprintf( outfile, "\"ld [%%g1+%%o7], %%g1\\n\\t\"" ); fprintf( outfile, "\"jmp %%g1\\n\\trestore\\n\"" ); } #elif defined(__PPC__) fprintf(outfile, "\t\"addi 1, 1, -0x4\\n\"\n"); fprintf(outfile, "\t\"\\tstw 9, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\taddi 1, 1, -0x4\\n\"\n"); fprintf(outfile, "\t\"\\tstw 8, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\taddi 1, 1, -0x4\\n\"\n"); fprintf(outfile, "\t\"\\tstw 7, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\tlis 9,delay_imports+%d@ha\\n\"\n", pos); fprintf(outfile, "\t\"\\tla 8,delay_imports+%d@l(9)\\n\"\n", pos); fprintf(outfile, "\t\"\\tlwz 7, 0(8)\\n\"\n"); fprintf(outfile, "\t\"\\tmtctr 7\\n\"\n"); fprintf(outfile, "\t\"\\tlwz 7, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\taddi 1, 1, 0x4\\n\"\n"); fprintf(outfile, "\t\"\\tlwz 8, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\taddi 1, 1, 0x4\\n\"\n"); fprintf(outfile, "\t\"\\tlwz 9, 0(1)\\n\"\n"); fprintf(outfile, "\t\"\\taddi 1, 1, 0x4\\n\"\n"); fprintf(outfile, "\t\"\\tbctr\\n\""); /*fprintf(outfile, "\t\"li r0,delay_imports\\n\\t\"\n" ); fprintf(outfile, "\t\"lwz r0, %d(r0)\\n\\t\"\n", pos); fprintf(outfile, "\t\"mtctr r0\\n\\t\"\n"); fprintf(outfile, "\t\"bctr\\n\"");*/ #else #error You need to define delayed import thunks for your architecture! #endif fprintf( outfile, "\n" ); } } fprintf( outfile, "\".section \\\".text\\\"\");\n" ); fprintf( outfile, "#ifndef __GNUC__\n" ); fprintf( outfile, "}\n" ); fprintf( outfile, "#endif\n" ); fprintf( outfile, "\n" ); done: return nb_delayed; } /* output the import and delayed import tables of a Win32 module * returns number of DLLs exported in 'immediate' mode */ int output_imports( FILE *outfile ) { output_delayed_imports( outfile ); return output_immediate_imports( outfile ); }