#include "stdafx.h" #include "Emu/Memory/Memory.h" #include "Emu/System.h" #include "Emu/IdManager.h" #include "Emu/SysCalls/Modules.h" #include "Emu/SysCalls/Callback.h" #include "Emu/SysCalls/CB_FUNC.h" #include "Emu/FS/VFS.h" #include "Emu/FS/vfsFile.h" #include "Emu/FS/vfsDir.h" #include "Emu/SysCalls/lv2/sys_fs.h" #include "cellFs.h" extern Module cellFs; struct CellFsDirectoryEntry { CellFsStat attribute; CellFsDirent entry_name; }; struct FsRingBufferConfig { CellFsRingBuffer m_ring_buffer; // Currently unused after assignment u32 m_buffer; u64 m_fs_status; u64 m_regid; u32 m_alloc_mem_size; u32 m_current_addr; FsRingBufferConfig() : m_fs_status(CELL_FS_ST_NOT_INITIALIZED) , m_regid(0) , m_alloc_mem_size(0) , m_current_addr(0) , m_ring_buffer() { } } fs_config; s32 cellFsOpen(vm::ptr path, s32 flags, vm::ptr fd, vm::ptr arg, u64 size) { cellFs.Warning("cellFsOpen(path=*0x%x, flags=0x%x, fd=*0x%x, arg=*0x%x, size=0x%llx) -> sys_fs_open()", path, flags, fd, arg, size); // TODO // call the syscall return sys_fs_open(path, flags, fd, 0, arg, size); } s32 cellFsRead(PPUThread& CPU, u32 fd, vm::ptr buf, u64 nbytes, vm::ptr nread) { cellFs.Log("cellFsRead(fd=0x%x, buf=0x%x, nbytes=0x%llx, nread=0x%x)", fd, buf, nbytes, nread); // call the syscall return sys_fs_read(fd, buf, nbytes, nread ? nread : vm::stackvar>(CPU)); } s32 cellFsWrite(PPUThread& CPU, u32 fd, vm::ptr buf, u64 nbytes, vm::ptr nwrite) { cellFs.Log("cellFsWrite(fd=0x%x, buf=*0x%x, nbytes=0x%llx, nwrite=*0x%x)", fd, buf, nbytes, nwrite); // call the syscall return sys_fs_write(fd, buf, nbytes, nwrite ? nwrite : vm::stackvar>(CPU)); } s32 cellFsClose(u32 fd) { cellFs.Log("cellFsClose(fd=0x%x)", fd); // call the syscall return sys_fs_close(fd); } s32 cellFsOpendir(vm::ptr path, vm::ptr fd) { cellFs.Warning("cellFsOpendir(path=*0x%x, fd=*0x%x) -> sys_fs_opendir()", path, fd); // TODO // call the syscall return sys_fs_opendir(path, fd); } s32 cellFsReaddir(u32 fd, vm::ptr dir, vm::ptr nread) { cellFs.Log("cellFsReaddir(fd=0x%x, dir=*0x%x, nread=*0x%x)", fd, dir, nread); // call the syscall return dir && nread ? sys_fs_readdir(fd, dir, nread) : CELL_EFAULT; } s32 cellFsClosedir(u32 fd) { cellFs.Log("cellFsClosedir(fd=0x%x)", fd); // call the syscall return sys_fs_closedir(fd); } s32 cellFsStat(vm::ptr path, vm::ptr sb) { cellFs.Warning("cellFsStat(path=*0x%x, sb=*0x%x) -> sys_fs_stat()", path, sb); // TODO // call the syscall return sys_fs_stat(path, sb); } s32 cellFsFstat(u32 fd, vm::ptr sb) { cellFs.Log("cellFsFstat(fd=0x%x, sb=*0x%x)", fd, sb); // call the syscall return sys_fs_fstat(fd, sb); } s32 cellFsMkdir(vm::ptr path, CellFsMode mode) { cellFs.Warning("cellFsMkdir(path=*0x%x, mode=%d) -> sys_fs_mkdir()", path, mode); // TODO // call the syscall return sys_fs_mkdir(path, mode); } s32 cellFsRename(vm::ptr from, vm::ptr to) { cellFs.Warning("cellFsRename(from=*0x%x, to=*0x%x) -> sys_fs_rename()", from, to); // TODO // call the syscall return sys_fs_rename(from, to); } s32 cellFsRmdir(vm::ptr path) { cellFs.Warning("cellFsRmdir(path=*0x%x) -> sys_fs_rmdir()", path); // TODO // call the syscall return sys_fs_rmdir(path); } s32 cellFsUnlink(vm::ptr path) { cellFs.Warning("cellFsUnlink(path=*0x%x) -> sys_fs_unlink()", path); // TODO // call the syscall return sys_fs_unlink(path); } s32 cellFsLseek(u32 fd, s64 offset, u32 whence, vm::ptr pos) { cellFs.Log("cellFsLseek(fd=0x%x, offset=0x%llx, whence=0x%x, pos=*0x%x)", fd, offset, whence, pos); // call the syscall return pos ? sys_fs_lseek(fd, offset, whence, pos) : CELL_EFAULT; } s32 cellFsFsync(u32 fd) { cellFs.Todo("cellFsFsync(fd=0x%x)", fd); return CELL_OK; } s32 cellFsFGetBlockSize(PPUThread& CPU, u32 fd, vm::ptr sector_size, vm::ptr block_size) { cellFs.Log("cellFsFGetBlockSize(fd=0x%x, sector_size=*0x%x, block_size=*0x%x)", fd, sector_size, block_size); // call the syscall return sector_size && block_size ? sys_fs_fget_block_size(fd, sector_size, block_size, vm::stackvar>(CPU), vm::stackvar>(CPU)) : CELL_EFAULT; } s32 cellFsGetBlockSize(PPUThread& CPU, vm::ptr path, vm::ptr sector_size, vm::ptr block_size) { cellFs.Warning("cellFsGetBlockSize(path=*0x%x, sector_size=*0x%x, block_size=*0x%x) -> sys_fs_get_block_size()", path, sector_size, block_size); // TODO // call the syscall return sys_fs_get_block_size(path, sector_size, block_size, vm::stackvar>(CPU)); } s32 cellFsTruncate(vm::ptr path, u64 size) { cellFs.Warning("cellFsTruncate(path=*0x%x, size=0x%llx) -> sys_fs_truncate()", path, size); // TODO // call the syscall return sys_fs_truncate(path, size); } s32 cellFsFtruncate(u32 fd, u64 size) { cellFs.Log("cellFsFtruncate(fd=0x%x, size=0x%llx)", fd, size); // call the syscall return sys_fs_ftruncate(fd, size); } s32 cellFsChmod(vm::ptr path, CellFsMode mode) { cellFs.Warning("cellFsChmod(path=*0x%x, mode=%d) -> sys_fs_chmod()", path, mode); // TODO // call the syscall return sys_fs_chmod(path, mode); } s32 cellFsGetFreeSize(vm::ptr path, vm::ptr block_size, vm::ptr block_count) { cellFs.Warning("cellFsGetFreeSize(path=*0x%x, block_size=*0x%x, block_count=*0x%x)", path, block_size, block_count); cellFs.Warning("*** path = '%s'", path.get_ptr()); // TODO: Get real values. Currently, it always returns 40 GB of free space divided in 4 KB blocks *block_size = 4096; // ? *block_count = 10 * 1024 * 1024; // ? return CELL_OK; } s32 cellFsGetDirectoryEntries(u32 fd, vm::ptr entries, u32 entries_size, vm::ptr data_count) { cellFs.Warning("cellFsGetDirectoryEntries(fd=0x%x, entries=*0x%x, entries_size=0x%x, data_count=*0x%x)", fd, entries, entries_size, data_count); std::shared_ptr directory; if (!Emu.GetIdManager().GetIDData(fd, directory)) return CELL_ESRCH; const DirEntryInfo* info = directory->Read(); if (info) { entries->attribute.mode = CELL_FS_S_IRUSR | CELL_FS_S_IWUSR | CELL_FS_S_IXUSR | CELL_FS_S_IRGRP | CELL_FS_S_IWGRP | CELL_FS_S_IXGRP | CELL_FS_S_IROTH | CELL_FS_S_IWOTH | CELL_FS_S_IXOTH; entries->attribute.uid = 0; entries->attribute.gid = 0; entries->attribute.atime = 0; //TODO entries->attribute.mtime = 0; //TODO entries->attribute.ctime = 0; //TODO entries->attribute.blksize = 4096; entries->entry_name.d_type = (info->flags & DirEntry_TypeFile) ? CELL_FS_TYPE_REGULAR : CELL_FS_TYPE_DIRECTORY; entries->entry_name.d_namlen = u8(std::min(info->name.length(), CELL_FS_MAX_FS_FILE_NAME_LENGTH)); strcpy_trunc(entries->entry_name.d_name, info->name); *data_count = 1; } else { *data_count = 0; } return CELL_OK; } s32 cellFsStReadInit(u32 fd, vm::ptr ringbuf) { cellFs.Warning("cellFsStReadInit(fd=0x%x, ringbuf=*0x%x)", fd, ringbuf); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; fs_config.m_ring_buffer = *ringbuf; // If the size is less than 1MB if (ringbuf->ringbuf_size < 0x40000000) fs_config.m_alloc_mem_size = (((u32)ringbuf->ringbuf_size + 64 * 1024 - 1) / (64 * 1024)) * (64 * 1024); else fs_config.m_alloc_mem_size = (((u32)ringbuf->ringbuf_size + 1024 * 1024 - 1) / (1024 * 1024)) * (1024 * 1024); // alloc memory fs_config.m_buffer = (u32)Memory.Alloc(fs_config.m_alloc_mem_size, 1024); memset(vm::get_ptr(fs_config.m_buffer), 0, fs_config.m_alloc_mem_size); fs_config.m_fs_status = CELL_FS_ST_INITIALIZED; return CELL_OK; } s32 cellFsStReadFinish(u32 fd) { cellFs.Warning("cellFsStReadFinish(fd=0x%x)", fd); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; Memory.Free(fs_config.m_buffer); fs_config.m_fs_status = CELL_FS_ST_NOT_INITIALIZED; return CELL_OK; } s32 cellFsStReadGetRingBuf(u32 fd, vm::ptr ringbuf) { cellFs.Warning("cellFsStReadGetRingBuf(fd=0x%x, ringbuf=*0x%x)", fd, ringbuf); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; *ringbuf = fs_config.m_ring_buffer; cellFs.Warning("*** fs stream config: block_size=0x%llx, copy=0x%x, ringbuf_size=0x%llx, transfer_rate=0x%llx", ringbuf->block_size, ringbuf->copy, ringbuf->ringbuf_size, ringbuf->transfer_rate); return CELL_OK; } s32 cellFsStReadGetStatus(u32 fd, vm::ptr status) { cellFs.Warning("cellFsStReadGetRingBuf(fd=0x%x, status=*0x%x)", fd, status); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; *status = fs_config.m_fs_status; return CELL_OK; } s32 cellFsStReadGetRegid(u32 fd, vm::ptr regid) { cellFs.Warning("cellFsStReadGetRingBuf(fd=0x%x, regid=*0x%x)", fd, regid); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; *regid = fs_config.m_regid; return CELL_OK; } s32 cellFsStReadStart(u32 fd, u64 offset, u64 size) { cellFs.Todo("cellFsStReadStart(fd=0x%x, offset=0x%llx, size=0x%llx)", fd, offset, size); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; fs_config.m_current_addr = fs_config.m_buffer + (u32)offset; fs_config.m_fs_status = CELL_FS_ST_PROGRESS; return CELL_OK; } s32 cellFsStReadStop(u32 fd) { cellFs.Warning("cellFsStReadStop(fd=0x%x)", fd); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; fs_config.m_fs_status = CELL_FS_ST_STOP; return CELL_OK; } s32 cellFsStRead(u32 fd, vm::ptr buf, u64 size, vm::ptr rsize) { cellFs.Warning("cellFsStRead(fd=0x%x, buf=*0x%x, size=0x%llx, rsize=*0x%x)", fd, buf, size, rsize); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; // TODO: use ringbuffer (fs_config) fs_config.m_regid += size; if (file->Eof()) return CELL_FS_ERANGE; *rsize = file->Read(buf.get_ptr(), size); return CELL_OK; } s32 cellFsStReadGetCurrentAddr(u32 fd, vm::ptr> addr, vm::ptr size) { cellFs.Todo("cellFsStReadGetCurrentAddr(fd=0x%x, addr=*0x%x, size=*0x%x)", fd, addr, size); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; return CELL_OK; } s32 cellFsStReadPutCurrentAddr(u32 fd, vm::ptr addr, u64 size) { cellFs.Todo("cellFsStReadPutCurrentAddr(fd=0x%x, addr=*0x%x, size=0x%llx)", fd, addr, size); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; return CELL_OK; } s32 cellFsStReadWait(u32 fd, u64 size) { cellFs.Todo("cellFsStReadWait(fd=0x%x, size=0x%llx)", fd, size); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; return CELL_OK; } s32 cellFsStReadWaitCallback(u32 fd, u64 size, vm::ptr func) { cellFs.Todo("cellFsStReadWaitCallback(fd=0x%x, size=0x%llx, func=*0x%x)", fd, size, func); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; return CELL_OK; } bool sdata_check(u32 version, u32 flags, u64 filesizeInput, u64 filesizeTmp) { if (version > 4 || flags & 0x7EFFFFC0){ printf("ERROR: unknown version"); return false; } if ((version == 1 && (flags & 0x7FFFFFFE)) || (version == 2 && (flags & 0x7EFFFFC0))){ printf("ERROR: unknown or unsupported type"); return false; } if (filesizeTmp > filesizeInput){ printf("ERROR: input file size is too short."); return false; } if (!(flags & 0x80000000)){ printf("ERROR: cannot extract finalized edata."); return false; } return true; } int sdata_unpack(const std::string& packed_file, const std::string& unpacked_file) { std::shared_ptr packed_stream(Emu.GetVFS().OpenFile(packed_file, vfsRead)); std::shared_ptr unpacked_stream(Emu.GetVFS().OpenFile(unpacked_file, vfsWrite)); if (!packed_stream || !packed_stream->IsOpened()) { cellFs.Error("'%s' not found! flags: 0x%02x", packed_file.c_str(), vfsRead); return CELL_ENOENT; } if (!unpacked_stream || !unpacked_stream->IsOpened()) { cellFs.Error("'%s' couldn't be created! flags: 0x%02x", unpacked_file.c_str(), vfsWrite); return CELL_ENOENT; } char buffer[10200]; packed_stream->Read(buffer, 256); u32 format = re32(*(u32*)&buffer[0]); if (format != 0x4E504400) // "NPD\x00" { cellFs.Error("Illegal format. Expected 0x4E504400, but got 0x%08x", format); return CELL_EFSSPECIFIC; } u32 version = re32(*(u32*)&buffer[0x04]); u32 flags = re32(*(u32*)&buffer[0x80]); u32 blockSize = re32(*(u32*)&buffer[0x84]); u64 filesizeOutput = re64(*(u64*)&buffer[0x88]); u64 filesizeInput = packed_stream->GetSize(); u32 blockCount = (u32)((filesizeOutput + blockSize - 1) / blockSize); // SDATA file is compressed if (flags & 0x1) { cellFs.Warning("cellFsSdataOpen: Compressed SDATA files are not supported yet."); return CELL_EFSSPECIFIC; } // SDATA file is NOT compressed else { u32 t1 = (flags & 0x20) ? 0x20 : 0x10; u32 startOffset = (blockCount * t1) + 0x100; u64 filesizeTmp = (filesizeOutput + 0xF) & 0xFFFFFFF0 + startOffset; if (!sdata_check(version, flags, filesizeInput, filesizeTmp)) { cellFs.Error("cellFsSdataOpen: Wrong header information."); return CELL_EFSSPECIFIC; } if (flags & 0x20) packed_stream->Seek(0x100); else packed_stream->Seek(startOffset); for (u32 i = 0; i < blockCount; i++) { if (flags & 0x20) packed_stream->Seek(packed_stream->Tell() + t1); if (!(blockCount - i - 1)) blockSize = (u32)(filesizeOutput - i * blockSize); packed_stream->Read(buffer + 256, blockSize); unpacked_stream->Write(buffer + 256, blockSize); } } return CELL_OK; } s32 cellFsSdataOpen(vm::ptr path, s32 flags, vm::ptr fd, vm::ptr arg, u64 size) { cellFs.Warning("cellFsSdataOpen(path=*0x%x, flags=0x%x, fd=*0x%x, arg=*0x%x, size=0x%llx) -> sys_fs_open()", path, flags, fd, arg, size); /*if (flags != CELL_O_RDONLY) return CELL_EINVAL; std::string suffix = path.substr(path.length() - 5, 5); if (suffix != ".sdat" && suffix != ".SDAT") return CELL_ENOTSDATA; std::string::size_type last_slash = path.rfind('/'); //TODO: use a filesystem library to solve this more robustly last_slash = last_slash == std::string::npos ? 0 : last_slash+1; std::string unpacked_path = "/dev_hdd1/"+path.substr(last_slash,path.length()-last_slash)+".unpacked"; int ret = sdata_unpack(path, unpacked_path); if (ret) return ret; fd = Emu.GetIdManager().GetNewID(Emu.GetVFS().OpenFile(unpacked_path, vfsRead), TYPE_FS_FILE); return CELL_OK;*/ return sys_fs_open(path, flags, fd, 0, arg, size); } s32 cellFsSdataOpenByFd(u32 mself_fd, s32 flags, vm::ptr sdata_fd, u64 offset, vm::ptr arg, u64 size) { cellFs.Todo("cellFsSdataOpenByFd(mself_fd=0x%x, flags=0x%x, sdata_fd=*0x%x, offset=0x%llx, arg=*0x%x, size=0x%llx)", mself_fd, flags, sdata_fd, offset, arg, size); // TODO: return CELL_OK; } std::atomic g_FsAioReadID(0); std::atomic g_FsAioReadCur(0); bool aio_init = false; void fsAioRead(u32 fd, vm::ptr aio, int xid, vm::ptr xaio, int error, int xid, u64 size)> func) { while (g_FsAioReadCur != xid) { std::this_thread::sleep_for(std::chrono::milliseconds(1)); // hack if (Emu.IsStopped()) { cellFs.Warning("fsAioRead() aborted"); return; } } u32 error = CELL_OK; u64 res = 0; { std::shared_ptr orig_file; if (!Emu.GetIdManager().GetIDData(fd, orig_file)) { cellFs.Error("Wrong fd (%s)", fd); Emu.Pause(); return; } u64 nbytes = aio->size; vfsStream& file = *orig_file; const u64 old_pos = file.Tell(); file.Seek((u64)aio->offset); if (nbytes != (u32)nbytes) { error = CELL_ENOMEM; } else { res = nbytes ? file.Read(aio->buf.get_ptr(), nbytes) : 0; } file.Seek(old_pos); cellFs.Log("*** fsAioRead(fd=%d, offset=0x%llx, buf=0x%x, size=0x%llx, error=0x%x, res=0x%llx, xid=0x%x)", fd, aio->offset, aio->buf, aio->size, error, res, xid); } if (func) { Emu.GetCallbackManager().Async([func, aio, error, xid, res](PPUThread& CPU) { func(CPU, aio, error, xid, res); }); } g_FsAioReadCur++; } s32 cellFsAioRead(vm::ptr aio, vm::ptr id, vm::ptr xaio, s32 error, s32 xid, u64 size)> func) { cellFs.Warning("cellFsAioRead(aio=*0x%x, id=*0x%x, func=*0x%x)", aio, id, func); if (!aio_init) { return CELL_ENXIO; } std::shared_ptr orig_file; u32 fd = aio->fd; if (!Emu.GetIdManager().GetIDData(fd, orig_file)) { return CELL_EBADF; } //get a unique id for the callback (may be used by cellFsAioCancel) const s32 xid = g_FsAioReadID++; *id = xid; thread_t t("CellFsAio Reading Thread", std::bind(fsAioRead, fd, aio, xid, func)); return CELL_OK; } s32 cellFsAioWrite(vm::ptr aio, vm::ptr id, vm::ptr xaio, s32 error, s32 xid, u64 size)> func) { cellFs.Todo("cellFsAioWrite(aio=*0x%x, id=*0x%x, func=*0x%x)", aio, id, func); // TODO: return CELL_OK; } s32 cellFsAioInit(vm::ptr mount_point) { cellFs.Warning("cellFsAioInit(mount_point=*0x%x)", mount_point); cellFs.Warning("*** mount_point = '%s'", mount_point.get_ptr()); aio_init = true; return CELL_OK; } s32 cellFsAioFinish(vm::ptr mount_point) { cellFs.Warning("cellFsAioFinish(mount_point=*0x%x)", mount_point); cellFs.Warning("*** mount_point = '%s'", mount_point.get_ptr()); //aio_init = false; return CELL_OK; } s32 cellFsReadWithOffset(PPUThread& CPU, u32 fd, u64 offset, vm::ptr buf, u64 buffer_size, vm::ptr nread) { cellFs.Warning("cellFsReadWithOffset(fd=%d, offset=0x%llx, buf=*0x%x, buffer_size=%lld, nread=*0x%llx)", fd, offset, buf, buffer_size, nread); int ret; vm::stackvar> oldPos(CPU), newPos(CPU); ret = cellFsLseek(fd, 0, CELL_FS_SEEK_CUR, oldPos); // Save the current position if (ret) return ret; ret = cellFsLseek(fd, offset, CELL_FS_SEEK_SET, newPos); // Move to the specified offset if (ret) return ret; ret = cellFsRead(CPU, fd, buf, buffer_size, nread); // Read the file if (ret) return ret; ret = cellFsLseek(fd, oldPos.value(), CELL_FS_SEEK_SET, newPos); // Return to the old position if (ret) return ret; return CELL_OK; } s32 cellFsSetDefaultContainer(u32 id, u32 total_limit) { cellFs.Todo("cellFsSetDefaultContainer(id=%d, total_limit=%d)", id, total_limit); return CELL_OK; } s32 cellFsSetIoBufferFromDefaultContainer(u32 fd, u32 buffer_size, u32 page_type) { cellFs.Todo("cellFsSetIoBufferFromDefaultContainer(fd=%d, buffer_size=%d, page_type=%d)", fd, buffer_size, page_type); std::shared_ptr file; if (!Emu.GetIdManager().GetIDData(fd, file)) return CELL_ESRCH; return CELL_OK; } Module cellFs("cellFs", []() { g_FsAioReadID = 0; g_FsAioReadCur = 0; aio_init = false; REG_FUNC(cellFs, cellFsOpen); REG_FUNC(cellFs, cellFsSdataOpen); REG_FUNC(cellFs, cellFsSdataOpenByFd); REG_FUNC(cellFs, cellFsRead); REG_FUNC(cellFs, cellFsWrite); REG_FUNC(cellFs, cellFsClose); REG_FUNC(cellFs, cellFsOpendir); REG_FUNC(cellFs, cellFsReaddir); REG_FUNC(cellFs, cellFsClosedir); REG_FUNC(cellFs, cellFsStat); REG_FUNC(cellFs, cellFsFstat); REG_FUNC(cellFs, cellFsMkdir); REG_FUNC(cellFs, cellFsRename); REG_FUNC(cellFs, cellFsChmod); REG_FUNC(cellFs, cellFsFsync); REG_FUNC(cellFs, cellFsRmdir); REG_FUNC(cellFs, cellFsUnlink); REG_FUNC(cellFs, cellFsLseek); REG_FUNC(cellFs, cellFsFtruncate); REG_FUNC(cellFs, cellFsTruncate); REG_FUNC(cellFs, cellFsFGetBlockSize); REG_FUNC(cellFs, cellFsAioRead); REG_FUNC(cellFs, cellFsAioWrite); REG_FUNC(cellFs, cellFsAioInit); REG_FUNC(cellFs, cellFsAioFinish); REG_FUNC(cellFs, cellFsGetBlockSize); REG_FUNC(cellFs, cellFsGetFreeSize); REG_FUNC(cellFs, cellFsReadWithOffset); REG_FUNC(cellFs, cellFsGetDirectoryEntries); REG_FUNC(cellFs, cellFsStReadInit); REG_FUNC(cellFs, cellFsStReadFinish); REG_FUNC(cellFs, cellFsStReadGetRingBuf); REG_FUNC(cellFs, cellFsStReadGetStatus); REG_FUNC(cellFs, cellFsStReadGetRegid); REG_FUNC(cellFs, cellFsStReadStart); REG_FUNC(cellFs, cellFsStReadStop); REG_FUNC(cellFs, cellFsStRead); REG_FUNC(cellFs, cellFsStReadGetCurrentAddr); REG_FUNC(cellFs, cellFsStReadPutCurrentAddr); REG_FUNC(cellFs, cellFsStReadWait); REG_FUNC(cellFs, cellFsStReadWaitCallback); REG_FUNC(cellFs, cellFsSetDefaultContainer); REG_FUNC(cellFs, cellFsSetIoBufferFromDefaultContainer); });