/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * 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 2 * 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. * * $URL$ * $Id$ * */ #include "common/archive.h" #include "common/file.h" #include "common/str.h" #include "common/savefile.h" #include "sci/sci.h" #include "sci/engine/state.h" #include "sci/engine/kernel.h" #include "sci/engine/savegame.h" namespace Sci { enum { MAX_SAVEGAME_NR = 20 /**< Maximum number of savegames */ }; /* * Note on how file I/O is implemented: In ScummVM, one can not create/write * arbitrary data files, simply because many of our target platforms do not * support this. The only files on can create are savestates. But SCI has an * opcode to create and write to seemingly 'arbitrary' files. * To implement that opcode, we combine the SaveFileManager with regular file * code, similarly to how the SCUMM HE engine does it. * * To handle opening a file called "foobar", what we do is this: First, we * create an 'augmented file name', by prepending the game target and a dash, * so if we running game target sq1vga, the name becomes "sq1vga-foobar". * Next, we check if such a file is known to the SaveFileManager. If so, we * we use that for reading/writing, delete it, whatever. * * If no such file is present but we were only asked to *read* the file, * we fallback to looking for a regular file called "foobar", and open that * for reading only. * * There are some caveats to this: First off, SCI apparently has no way * to signal that a file is supposed to be opened for reading only. For now, * we hackishly just assume that this is what _K_FILE_MODE_OPEN_OR_FAIL is for. * * Secondly, at least in theory, a file could be opened for both reading and * writing. We currently do not support this. If it turns out that we *have* * to support it, we could do it as follows: Initially open the file for * reading. If a write is attempted, store the file offset, close the file, * if necessary create a mirror clone (i.e., clone it into a suitably named * savefile), then open the file (resp. its clone for writing) and seek to the * correct position. If later a read is attempted, we again close and re-open. * * However, before putting any effort into implementing such an error-prone * scheme, we are well advised to first determine whether any game needs this * at all, and for what. Based on that, we can maybe come up with a better waybill * to provide this functionality. */ FileHandle::FileHandle() : _in(0), _out(0) { } FileHandle::~FileHandle() { close(); } void FileHandle::close() { delete _in; delete _out; _in = 0; _out = 0; _name.clear(); } bool FileHandle::isOpen() const { return _in || _out; } enum { _K_FILE_MODE_OPEN_OR_CREATE = 0, _K_FILE_MODE_OPEN_OR_FAIL = 1, _K_FILE_MODE_CREATE = 2 }; void file_open(EngineState *s, const char *filename, int mode) { Common::String englishName = s->getLanguageString(filename, K_LANG_ENGLISH); const Common::String wrappedName = ((Sci::SciEngine*)g_engine)->wrapFilename(englishName); Common::SeekableReadStream *inFile = 0; Common::WriteStream *outFile = 0; Common::SaveFileManager *saveFileMan = g_engine->getSaveFileManager(); if (mode == _K_FILE_MODE_OPEN_OR_FAIL) { // Try to open file, abort if not possible inFile = saveFileMan->openForLoading(wrappedName); // If no matching savestate exists: fall back to reading from a regular file if (!inFile) inFile = SearchMan.createReadStreamForMember(englishName); if (!inFile) warning("file_open(_K_FILE_MODE_OPEN_OR_FAIL) failed to open file '%s'", englishName.c_str()); } else if (mode == _K_FILE_MODE_CREATE) { // Create the file, destroying any content it might have had outFile = saveFileMan->openForSaving(wrappedName); if (!outFile) warning("file_open(_K_FILE_MODE_CREATE) failed to create file '%s'", englishName.c_str()); } else if (mode == _K_FILE_MODE_OPEN_OR_CREATE) { // Try to open file, create it if it doesn't exist // FIXME: I am disabling this for now, as it's not quite clear what // should happen if the given file already exists... open it for appending? // Or (more likely), open it for reading *and* writing? We may have to // clone the file for that, etc., see also the long comment at the start // of this file. // We really need some examples on how this is used. error("file_open(_K_FILE_MODE_OPEN_OR_CREATE) File creation currently not supported"); } else { error("file_open: unsupported mode %d", mode); } if (!inFile && !outFile) { // Failed debug(3, "file_open() failed"); s->r_acc = make_reg(0, 0xffff); return; } #if 0 // FIXME: The old FreeSCI code for opening a file. Left as a reference, as apparently // the implementation below used to work well enough. debugC(2, kDebugLevelFile, "Opening file %s with mode %d\n", englishName.c_str(), mode); if ((mode == _K_FILE_MODE_OPEN_OR_FAIL) || (mode == _K_FILE_MODE_OPEN_OR_CREATE)) { file = sci_fopen(englishName.c_str(), "r" FO_BINARY "+"); // Attempt to open existing file debugC(2, kDebugLevelFile, "Opening file %s with mode %d\n", englishName.c_str(), mode); if (!file) { debugC(2, kDebugLevelFile, "Failed. Attempting to copy from resource dir...\n"); file = f_open_mirrored(s, englishName.c_str()); if (file) debugC(2, kDebugLevelFile, "Success!\n"); else debugC(2, kDebugLevelFile, "Not found.\n"); } } if ((!file) && ((mode == _K_FILE_MODE_OPEN_OR_CREATE) || (mode == _K_FILE_MODE_CREATE))) { file = sci_fopen(englishName.c_str(), "w" FO_BINARY "+"); /* Attempt to create file */ debugC(2, kDebugLevelFile, "Creating file %s with mode %d\n", englishName.c_str(), mode); } if (!file) { // Failed debugC(2, kDebugLevelFile, "file_open() failed\n"); s->r_acc = make_reg(0, 0xffff); return; } #endif // Find a free file handle uint handle = 1; // Ignore _fileHandles[0] while ((handle < s->_fileHandles.size()) && s->_fileHandles[handle].isOpen()) handle++; if (handle == s->_fileHandles.size()) { // Hit size limit => Allocate more space s->_fileHandles.resize(s->_fileHandles.size() + 1); } s->_fileHandles[handle]._in = inFile; s->_fileHandles[handle]._out = outFile; s->_fileHandles[handle]._name = englishName; s->r_acc = make_reg(0, handle); debug(3, " -> opened file '%s' with handle %d", englishName.c_str(), handle); } reg_t kFOpen(EngineState *s, int funct_nr, int argc, reg_t *argv) { char *name = kernel_dereference_char_pointer(s->segmentManager, argv[0], 0); int mode = argv[1].toUint16(); debug(3, "kFOpen(%s,0x%x)", name, mode); file_open(s, name, mode); return s->r_acc; } static FileHandle *getFileFromHandle(EngineState *s, uint handle) { if (handle == 0) { error("Attempt to use file handle 0"); return 0; } if ((handle >= s->_fileHandles.size()) || !s->_fileHandles[handle].isOpen()) { error("Attempt to use invalid/unused file handle %d", handle); return 0; } return &s->_fileHandles[handle]; } void file_close(EngineState *s, int handle) { debugC(2, kDebugLevelFile, "Closing file %d\n", handle); FileHandle *f = getFileFromHandle(s, handle); if (f) f->close(); } reg_t kFClose(EngineState *s, int funct_nr, int argc, reg_t *argv) { debug(3, "kFClose(%d)", argv[0].toUint16()); file_close(s, argv[0].toUint16()); return s->r_acc; } void fwrite_wrapper(EngineState *s, int handle, char *data, int length) { debugC(2, kDebugLevelFile, "fwrite()'ing \"%s\" to handle %d\n", data, handle); FileHandle *f = getFileFromHandle(s, handle); if (!f) return; if (!f->_out) { error("fgets_wrapper: Trying to write to file '%s' opened for reading", f->_name.c_str()); return; } f->_out->write(data, length); } reg_t kFPuts(EngineState *s, int funct_nr, int argc, reg_t *argv) { int handle = argv[0].toUint16(); char *data = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); fwrite_wrapper(s, handle, data, strlen(data)); return s->r_acc; } static void fgets_wrapper(EngineState *s, char *dest, int maxsize, int handle) { debugC(2, kDebugLevelFile, "FGets'ing %d bytes from handle %d\n", maxsize, handle); FileHandle *f = getFileFromHandle(s, handle); if (!f) return; if (!f->_in) { error("fgets_wrapper: Trying to read from file '%s' opened for writing", f->_name.c_str()); return; } f->_in->readLine_NEW(dest, maxsize); // The returned string must not have an ending LF int strSize = strlen(dest); if (strSize > 0) { if (dest[strSize - 1] == 0x0A) dest[strSize - 1] = 0; } debugC(2, kDebugLevelFile, "FGets'ed \"%s\"\n", dest); } static void fread_wrapper(EngineState *s, char *dest, int bytes, int handle) { debugC(2, kDebugLevelFile, "fread()'ing %d bytes from handle %d\n", bytes, handle); FileHandle *f = getFileFromHandle(s, handle); if (!f) return; if (!f->_in) { error("fread_wrapper: Trying to read from file '%s' opened for writing", f->_name.c_str()); return; } s->r_acc = make_reg(0, f->_in->read(dest, bytes)); } static void fseek_wrapper(EngineState *s, int handle, int offset, int whence) { FileHandle *f = getFileFromHandle(s, handle); if (!f) return; if (!f->_in) { error("fseek_wrapper: Trying to seek in file '%s' opened for writing", f->_name.c_str()); return; } s->r_acc = make_reg(0, f->_in->seek(offset, whence)); } reg_t kFGets(EngineState *s, int funct_nr, int argc, reg_t *argv) { char *dest = kernel_dereference_char_pointer(s->segmentManager, argv[0], 0); int maxsize = argv[1].toUint16(); int handle = argv[2].toUint16(); debug(3, "kFGets(%d,%d)", handle, maxsize); fgets_wrapper(s, dest, maxsize, handle); return argv[0]; } /** * Writes the cwd to the supplied address and returns the address in acc. */ reg_t kGetCWD(EngineState *s, int funct_nr, int argc, reg_t *argv) { char *targetaddr = kernel_dereference_char_pointer(s->segmentManager, argv[0], 0); // We do not let the scripts see the file system, instead pretending // we are always in the same directory. // TODO/FIXME: Is "/" a good value? Maybe "" or "." or "C:\" are better? strcpy(targetaddr, "/"); debug(3, "kGetCWD() -> %s", targetaddr); return argv[0]; } void delete_savegame(EngineState *s, int savedir_nr) { Common::String filename = ((Sci::SciEngine*)g_engine)->getSavegameName(savedir_nr); //printf("Deleting savegame '%s'\n", filename.c_str()); Common::SaveFileManager *saveFileMan = g_engine->getSaveFileManager(); saveFileMan->removeSavefile(filename); } enum { K_DEVICE_INFO_GET_DEVICE = 0, K_DEVICE_INFO_GET_CURRENT_DEVICE = 1, K_DEVICE_INFO_PATHS_EQUAL = 2, K_DEVICE_INFO_IS_FLOPPY = 3, K_DEVICE_INFO_GET_SAVECAT_NAME = 7, K_DEVICE_INFO_GET_SAVEFILE_NAME = 8 }; reg_t kDeviceInfo(EngineState *s, int funct_nr, int argc, reg_t *argv) { int mode = argv[0].toUint16(); char *game_prefix, *input_s, *output_s; switch (mode) { case K_DEVICE_INFO_GET_DEVICE: input_s = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); output_s = kernel_dereference_char_pointer(s->segmentManager, argv[2], 0); assert(input_s != output_s); strcpy(output_s, "/"); debug(3, "K_DEVICE_INFO_GET_DEVICE(%s) -> %s", input_s, output_s); break; case K_DEVICE_INFO_GET_CURRENT_DEVICE: output_s = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); strcpy(output_s, "/"); debug(3, "K_DEVICE_INFO_GET_CURRENT_DEVICE() -> %s", output_s); break; case K_DEVICE_INFO_PATHS_EQUAL: { char *path1_s = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); char *path2_s = kernel_dereference_char_pointer(s->segmentManager, argv[2], 0); debug(3, "K_DEVICE_INFO_PATHS_EQUAL(%s,%s)", path1_s, path2_s); return make_reg(0, Common::matchString(path2_s, path1_s, true)); } break; case K_DEVICE_INFO_IS_FLOPPY: input_s = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); debug(3, "K_DEVICE_INFO_IS_FLOPPY(%s)", input_s); return NULL_REG; /* Never */ /* SCI uses these in a less-than-portable way to delete savegames. ** Read http://www-plan.cs.colorado.edu/creichen/freesci-logs/2005.10/log20051019.html ** for more information on our workaround for this. */ case K_DEVICE_INFO_GET_SAVECAT_NAME: { output_s = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); game_prefix = kernel_dereference_char_pointer(s->segmentManager, argv[2], 0); sprintf(output_s, "__throwaway"); debug(3, "K_DEVICE_INFO_GET_SAVECAT_NAME(%s) -> %s", game_prefix, output_s); } break; case K_DEVICE_INFO_GET_SAVEFILE_NAME: { output_s = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); game_prefix = kernel_dereference_char_pointer(s->segmentManager, argv[2], 0); int savegame_id = argv[3].toUint16(); sprintf(output_s, "__throwaway"); debug(3, "K_DEVICE_INFO_GET_SAVEFILE_NAME(%s,%d) -> %s", game_prefix, savegame_id, output_s); delete_savegame(s, savegame_id); } break; default: // TODO: Not all sub-commands are handled. E.g. KQ5CD calls sub-command 5 warning("Unknown DeviceInfo() sub-command: %d", mode); break; } return s->r_acc; } reg_t kGetSaveDir(EngineState *s, int funct_nr, int argc, reg_t *argv) { #ifdef ENABLE_SCI32 // TODO: SCI32 uses a parameter here. if (argc > 0) warning("kGetSaveDir called with a parameter"); #endif return make_reg(s->sys_strings_segment, SYS_STRING_SAVEDIR); } reg_t kCheckFreeSpace(EngineState *s, int funct_nr, int argc, reg_t *argv) { char *path = kernel_dereference_char_pointer(s->segmentManager, argv[0], 0); debug(3, "kCheckFreeSpace(%s)", path); // We simply always pretend that there is enough space. // The alternative would be to write a big test file, which is not nice // on systems where doing so is very slow. return make_reg(0, 1); } struct SavegameDesc { int id; int date; int time; }; static int _savegame_index_struct_compare(const void *a, const void *b) { SavegameDesc *A = (SavegameDesc *)a; SavegameDesc *B = (SavegameDesc *)b; if (B->date != A->date) return B->date - A->date; return B->time - A->time; } void listSavegames(Common::Array &saves) { Common::SaveFileManager *saveFileMan = g_engine->getSaveFileManager(); // Load all saves Common::StringList saveNames = saveFileMan->listSavefiles(((SciEngine *)g_engine)->getSavegamePattern()); for (Common::StringList::const_iterator iter = saveNames.begin(); iter != saveNames.end(); ++iter) { Common::String filename = *iter; Common::SeekableReadStream *in; if ((in = saveFileMan->openForLoading(filename))) { SavegameMetadata meta; if (!get_savegame_metadata(in, &meta)) { // invalid delete in; continue; } delete in; SavegameDesc desc; desc.id = strtol(filename.end() - 3, NULL, 10); desc.date = meta.savegame_date; desc.time = meta.savegame_time; debug(3, "Savegame in file %s ok, id %d", filename.c_str(), desc.id); saves.push_back(desc); } } // Sort the list by creation date of the saves qsort(saves.begin(), saves.size(), sizeof(SavegameDesc), _savegame_index_struct_compare); } reg_t kCheckSaveGame(EngineState *s, int funct_nr, int argc, reg_t *argv) { char *game_id = kernel_dereference_char_pointer(s->segmentManager, argv[0], 0); int savedir_nr = argv[1].toUint16(); debug(3, "kCheckSaveGame(%s, %d)", game_id, savedir_nr); Common::Array saves; listSavegames(saves); savedir_nr = saves[savedir_nr].id; if (savedir_nr > MAX_SAVEGAME_NR - 1) { return NULL_REG; } Common::SaveFileManager *saveFileMan = g_engine->getSaveFileManager(); Common::String filename = ((Sci::SciEngine*)g_engine)->getSavegameName(savedir_nr); Common::SeekableReadStream *in; if ((in = saveFileMan->openForLoading(filename))) { // found a savegame file SavegameMetadata meta; if (!get_savegame_metadata(in, &meta)) { // invalid s->r_acc = make_reg(0, 0); } else { s->r_acc = make_reg(0, 1); } delete in; } else { s->r_acc = make_reg(0, 1); } return s->r_acc; } reg_t kGetSaveFiles(EngineState *s, int funct_nr, int argc, reg_t *argv) { char *game_id = kernel_dereference_char_pointer(s->segmentManager, argv[0], 0); char *nametarget = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); reg_t nametarget_base = argv[1]; reg_t *nameoffsets = kernel_dereference_reg_pointer(s->segmentManager, argv[2], 0); debug(3, "kGetSaveFiles(%s,%s)", game_id, nametarget); Common::Array saves; listSavegames(saves); s->r_acc = NULL_REG; Common::SaveFileManager *saveFileMan = g_engine->getSaveFileManager(); for (uint i = 0; i < saves.size(); i++) { Common::String filename = ((Sci::SciEngine*)g_engine)->getSavegameName(saves[i].id); Common::SeekableReadStream *in; if ((in = saveFileMan->openForLoading(filename))) { // found a savegame file SavegameMetadata meta; if (!get_savegame_metadata(in, &meta)) { // invalid delete in; continue; } if (!meta.savegame_name.empty()) { if (meta.savegame_name.lastChar() == '\n') meta.savegame_name.deleteLastChar(); *nameoffsets = s->r_acc; // Store savegame ID ++s->r_acc.offset; // Increase number of files found nameoffsets++; // Make sure the next ID string address is written to the next pointer strncpy(nametarget, meta.savegame_name.c_str(), SCI_MAX_SAVENAME_LENGTH); // Copy identifier string *(nametarget + SCI_MAX_SAVENAME_LENGTH - 1) = 0; // Make sure it's terminated nametarget += SCI_MAX_SAVENAME_LENGTH; // Increase name offset pointer accordingly nametarget_base.offset += SCI_MAX_SAVENAME_LENGTH; } delete in; } } //free(gfname); *nametarget = 0; // Terminate list return s->r_acc; } reg_t kSaveGame(EngineState *s, int funct_nr, int argc, reg_t *argv) { char *game_id = kernel_dereference_char_pointer(s->segmentManager, argv[0], 0); int savedir_nr = argv[1].toUint16(); int savedir_id; // Savegame ID, derived from savedir_nr and the savegame ID list char *game_description = kernel_dereference_char_pointer(s->segmentManager, argv[2], 0); char *version = argc > 3 ? strdup(kernel_dereference_char_pointer(s->segmentManager, argv[3], 0)) : NULL; debug(3, "kSaveGame(%s,%d,%s,%s)", game_id, savedir_nr, game_description, version); s->game_version = version; Common::Array saves; listSavegames(saves); fprintf(stderr, "savedir_nr = %d\n", savedir_nr); if (savedir_nr >= 0 && (uint)savedir_nr < saves.size()) { // Overwrite savedir_id = saves[savedir_nr].id; } else if (savedir_nr >= 0 && savedir_nr < MAX_SAVEGAME_NR) { uint i = 0; fprintf(stderr, "searching for hole\n"); savedir_id = 0; // First, look for holes while (i < saves.size()) { if (saves[i].id == savedir_id) { ++savedir_id; i = 0; } else ++i; } if (savedir_id >= MAX_SAVEGAME_NR) { warning("Internal error: Free savegame ID is %d, shouldn't happen", savedir_id); return NULL_REG; } // This loop terminates when savedir_id is not in [x | ex. n. saves [n].id = x] } else { warning("Savegame ID %d is not allowed", savedir_nr); return NULL_REG; } Common::String filename = ((Sci::SciEngine*)g_engine)->getSavegameName(savedir_id); Common::SaveFileManager *saveFileMan = g_engine->getSaveFileManager(); Common::OutSaveFile *out; if (!(out = saveFileMan->openForSaving(filename))) { warning("Error opening savegame \"%s\" for writing", filename.c_str()); s->r_acc = NULL_REG; return NULL_REG; } if (gamestate_save(s, out, game_description)) { warning("Saving the game failed."); s->r_acc = NULL_REG; } else { out->finalize(); if (out->err()) { delete out; warning("Writing the savegame failed."); s->r_acc = NULL_REG; } else { delete out; s->r_acc = make_reg(0, 1); } } free(s->game_version); s->game_version = NULL; return s->r_acc; } reg_t kRestoreGame(EngineState *s, int funct_nr, int argc, reg_t *argv) { char *game_id = kernel_dereference_char_pointer(s->segmentManager, argv[0], 0); int savedir_nr = argv[1].toUint16(); debug(3, "kRestoreGame(%s,%d)", game_id, savedir_nr); Common::Array saves; listSavegames(saves); savedir_nr = saves[savedir_nr].id; if (savedir_nr > -1) { Common::SaveFileManager *saveFileMan = g_engine->getSaveFileManager(); Common::String filename = ((Sci::SciEngine*)g_engine)->getSavegameName(savedir_nr); Common::SeekableReadStream *in; if ((in = saveFileMan->openForLoading(filename))) { // found a savegame file EngineState *newstate = gamestate_restore(s, in); delete in; if (newstate) { s->successor = newstate; script_abort_flag = 2; // Abort current game with replay shrink_execution_stack(s, s->execution_stack_base + 1); } else { s->r_acc = make_reg(0, 1); warning("Restoring failed (game_id = '%s')", game_id); } return s->r_acc; } } s->r_acc = make_reg(0, 1); warning("Savegame #%d not found", savedir_nr); return s->r_acc; } reg_t kValidPath(EngineState *s, int funct_nr, int argc, reg_t *argv) { const char *path = kernel_dereference_char_pointer(s->segmentManager, argv[0], 0); // FIXME: For now, we only accept the (fake) root dir "/" as a valid path. s->r_acc = make_reg(0, 0 == strcmp(path, "/")); debug(3, "kValidPath(%s) -> %d", path, s->r_acc.offset); return s->r_acc; } enum { K_FILEIO_OPEN = 0, K_FILEIO_CLOSE = 1, K_FILEIO_READ_RAW = 2, K_FILEIO_WRITE_RAW = 3, K_FILEIO_UNLINK = 4, K_FILEIO_READ_STRING = 5, K_FILEIO_WRITE_STRING = 6, K_FILEIO_SEEK = 7, K_FILEIO_FIND_FIRST = 8, K_FILEIO_FIND_NEXT = 9, K_FILEIO_FILE_EXISTS = 10 }; void DirSeeker::firstFile(const char *mask, reg_t buffer) { // Verify that we are given a valid buffer if (!buffer.segment) { error("DirSeeker::firstFile('%s') invoked with invalid buffer", mask); _vm->r_acc = NULL_REG; return; } _outbuffer = buffer; // Obtain a list of all savefiles matching the given mask // TODO: Modify the mask, e.g. by prefixing "TARGET-". Common::SaveFileManager *saveFileMan = g_engine->getSaveFileManager(); _savefiles = saveFileMan->listSavefiles(mask); // Reset the list iterator and write the first match to the output buffer, if any. _iter = _savefiles.begin(); nextFile(); } void DirSeeker::nextFile() { if (_iter == _savefiles.end()) { _vm->r_acc = NULL_REG; return; } char *mem = kernel_dereference_char_pointer(_vm->segmentManager, _outbuffer, 0); memset(mem, 0, 13); // TODO: Transform the string back into a format usable by the SCI scripts. // I.e., strip any TARGET- prefix. const char *string = _iter->c_str(); assert(string); strncpy(mem, string, 12); // Return the result and advance the list iterator :) _vm->r_acc = _outbuffer; ++_iter; } reg_t kFileIO(EngineState *s, int funct_nr, int argc, reg_t *argv) { int func_nr = argv[0].toUint16(); switch (func_nr) { case K_FILEIO_OPEN : { char *name = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); int mode = argv[2].toUint16(); file_open(s, name, mode); debug(3, "K_FILEIO_OPEN(%s,0x%x)", name, mode); break; } case K_FILEIO_CLOSE : { int handle = argv[1].toUint16(); debug(3, "K_FILEIO_CLOSE(%d)", handle); file_close(s, handle); break; } case K_FILEIO_READ_RAW : { int handle = argv[1].toUint16(); char *dest = kernel_dereference_char_pointer(s->segmentManager, argv[2], 0); int size = argv[3].toUint16(); debug(3, "K_FILEIO_READ_RAW(%d,%d)", handle, size); fread_wrapper(s, dest, size, handle); break; } case K_FILEIO_WRITE_RAW : { int handle = argv[1].toUint16(); char *buf = kernel_dereference_char_pointer(s->segmentManager, argv[2], 0); int size = argv[3].toUint16(); debug(3, "K_FILEIO_WRITE_RAW(%d,%d)", handle, size); fwrite_wrapper(s, handle, buf, size); break; } case K_FILEIO_UNLINK : { char *name = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); debug(3, "K_FILEIO_UNLINK(%s)", name); Common::SaveFileManager *saveFileMan = g_engine->getSaveFileManager(); const Common::String wrappedName = ((Sci::SciEngine*)g_engine)->wrapFilename(name); saveFileMan->removeSavefile(wrappedName); // TODO/FIXME: Should we return something (like, a bool indicating // whether deleting the save succeeded or failed)? break; } case K_FILEIO_READ_STRING : { char *dest = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); int size = argv[2].toUint16(); int handle = argv[3].toUint16(); debug(3, "K_FILEIO_READ_STRING(%d,%d)", handle, size); fgets_wrapper(s, dest, size, handle); return argv[1]; } case K_FILEIO_WRITE_STRING : { int handle = argv[1].toUint16(); int size = argv[3].toUint16(); char *buf = kernel_dereference_char_pointer(s->segmentManager, argv[2], size); debug(3, "K_FILEIO_WRITE_STRING(%d,%d)", handle, size); // FIXME: What is the difference between K_FILEIO_WRITE_STRING and // K_FILEIO_WRITE_RAW? Normally, I would expect the difference to // be that the former doesn't receive a 'size' parameter. But here // it does. Are we missing something? if (buf) fwrite_wrapper(s, handle, buf, size); break; } case K_FILEIO_SEEK : { int handle = argv[1].toUint16(); int offset = argv[2].toUint16(); int whence = argv[3].toUint16(); debug(3, "K_FILEIO_SEEK(%d,%d,%d)", handle, offset, whence); fseek_wrapper(s, handle, offset, whence); break; } case K_FILEIO_FIND_FIRST : { char *mask = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); reg_t buf = argv[2]; int attr = argv[3].toUint16(); // We won't use this, Win32 might, though... debug(3, "K_FILEIO_FIND_FIRST(%s,0x%x)", mask, attr); #ifndef WIN32 if (strcmp(mask, "*.*") == 0) strcpy(mask, "*"); // For UNIX #endif s->_dirseeker.firstFile(mask, buf); break; } case K_FILEIO_FIND_NEXT : { debug(3, "K_FILEIO_FIND_NEXT()"); s->_dirseeker.nextFile(); break; } case K_FILEIO_FILE_EXISTS : { char *name = kernel_dereference_char_pointer(s->segmentManager, argv[1], 0); // Check for regular file bool exists = Common::File::exists(name); if (!exists) { // TODO: Transform the name given by the scripts to us, e.g. by // prepending TARGET- Common::SaveFileManager *saveFileMan = g_engine->getSaveFileManager(); exists = !saveFileMan->listSavefiles(name).empty(); } debug(3, "K_FILEIO_FILE_EXISTS(%s) -> %d", name, exists); return make_reg(0, exists); } default : error("Unknown FileIO() sub-command: %d", func_nr); } return s->r_acc; } } // End of namespace Sci