// +build linux package devicemapper /* #cgo LDFLAGS: -L. -ldevmapper #include #include // FIXME: present only for defines, maybe we can remove it? #include // FIXME: present only for BLKGETSIZE64, maybe we can remove it? #ifndef LOOP_CTL_GET_FREE #define LOOP_CTL_GET_FREE 0x4C82 #endif #ifndef LO_FLAGS_PARTSCAN #define LO_FLAGS_PARTSCAN 8 #endif // FIXME: Can't we find a way to do the logging in pure Go? extern void DevmapperLogCallback(int level, char *file, int line, int dm_errno_or_class, char *str); static void log_cb(int level, const char *file, int line, int dm_errno_or_class, const char *f, ...) { char buffer[256]; va_list ap; va_start(ap, f); vsnprintf(buffer, 256, f, ap); va_end(ap); DevmapperLogCallback(level, (char *)file, line, dm_errno_or_class, buffer); } static void log_with_errno_init() { dm_log_with_errno_init(log_cb); } */ import "C" import ( "reflect" "unsafe" ) type ( cdmTask C.struct_dm_task cLoopInfo64 C.struct_loop_info64 loopInfo64 struct { loDevice uint64 /* ioctl r/o */ loInode uint64 /* ioctl r/o */ loRdevice uint64 /* ioctl r/o */ loOffset uint64 loSizelimit uint64 /* bytes, 0 == max available */ loNumber uint32 /* ioctl r/o */ loEncryptType uint32 loEncryptKeySize uint32 /* ioctl w/o */ loFlags uint32 /* ioctl r/o */ loFileName [LoNameSize]uint8 loCryptName [LoNameSize]uint8 loEncryptKey [LoKeySize]uint8 /* ioctl w/o */ loInit [2]uint64 } ) // IOCTL consts const ( BlkGetSize64 = C.BLKGETSIZE64 BlkDiscard = C.BLKDISCARD LoopSetFd = C.LOOP_SET_FD LoopCtlGetFree = C.LOOP_CTL_GET_FREE LoopGetStatus64 = C.LOOP_GET_STATUS64 LoopSetStatus64 = C.LOOP_SET_STATUS64 LoopClrFd = C.LOOP_CLR_FD LoopSetCapacity = C.LOOP_SET_CAPACITY ) // LOOP consts. const ( LoFlagsAutoClear = C.LO_FLAGS_AUTOCLEAR LoFlagsReadOnly = C.LO_FLAGS_READ_ONLY LoFlagsPartScan = C.LO_FLAGS_PARTSCAN LoKeySize = C.LO_KEY_SIZE LoNameSize = C.LO_NAME_SIZE ) // Devicemapper cookie flags. const ( DmUdevDisableSubsystemRulesFlag = C.DM_UDEV_DISABLE_SUBSYSTEM_RULES_FLAG DmUdevDisableDiskRulesFlag = C.DM_UDEV_DISABLE_DISK_RULES_FLAG DmUdevDisableOtherRulesFlag = C.DM_UDEV_DISABLE_OTHER_RULES_FLAG DmUdevDisableLibraryFallback = C.DM_UDEV_DISABLE_LIBRARY_FALLBACK ) // DeviceMapper mapped functions. var ( DmGetLibraryVersion = dmGetLibraryVersionFct DmGetNextTarget = dmGetNextTargetFct DmLogInitVerbose = dmLogInitVerboseFct DmSetDevDir = dmSetDevDirFct DmTaskAddTarget = dmTaskAddTargetFct DmTaskCreate = dmTaskCreateFct DmTaskDestroy = dmTaskDestroyFct DmTaskGetDeps = dmTaskGetDepsFct DmTaskGetInfo = dmTaskGetInfoFct DmTaskGetDriverVersion = dmTaskGetDriverVersionFct DmTaskRun = dmTaskRunFct DmTaskSetAddNode = dmTaskSetAddNodeFct DmTaskSetCookie = dmTaskSetCookieFct DmTaskSetMessage = dmTaskSetMessageFct DmTaskSetName = dmTaskSetNameFct DmTaskSetRo = dmTaskSetRoFct DmTaskSetSector = dmTaskSetSectorFct DmUdevWait = dmUdevWaitFct DmUdevSetSyncSupport = dmUdevSetSyncSupportFct DmUdevGetSyncSupport = dmUdevGetSyncSupportFct DmCookieSupported = dmCookieSupportedFct LogWithErrnoInit = logWithErrnoInitFct DmTaskDeferredRemove = dmTaskDeferredRemoveFct DmTaskGetInfoWithDeferred = dmTaskGetInfoWithDeferredFct ) func free(p *C.char) { C.free(unsafe.Pointer(p)) } func dmTaskDestroyFct(task *cdmTask) { C.dm_task_destroy((*C.struct_dm_task)(task)) } func dmTaskCreateFct(taskType int) *cdmTask { return (*cdmTask)(C.dm_task_create(C.int(taskType))) } func dmTaskRunFct(task *cdmTask) int { ret, _ := C.dm_task_run((*C.struct_dm_task)(task)) return int(ret) } func dmTaskSetNameFct(task *cdmTask, name string) int { Cname := C.CString(name) defer free(Cname) return int(C.dm_task_set_name((*C.struct_dm_task)(task), Cname)) } func dmTaskSetMessageFct(task *cdmTask, message string) int { Cmessage := C.CString(message) defer free(Cmessage) return int(C.dm_task_set_message((*C.struct_dm_task)(task), Cmessage)) } func dmTaskSetSectorFct(task *cdmTask, sector uint64) int { return int(C.dm_task_set_sector((*C.struct_dm_task)(task), C.uint64_t(sector))) } func dmTaskSetCookieFct(task *cdmTask, cookie *uint, flags uint16) int { cCookie := C.uint32_t(*cookie) defer func() { *cookie = uint(cCookie) }() return int(C.dm_task_set_cookie((*C.struct_dm_task)(task), &cCookie, C.uint16_t(flags))) } func dmTaskSetAddNodeFct(task *cdmTask, addNode AddNodeType) int { return int(C.dm_task_set_add_node((*C.struct_dm_task)(task), C.dm_add_node_t(addNode))) } func dmTaskSetRoFct(task *cdmTask) int { return int(C.dm_task_set_ro((*C.struct_dm_task)(task))) } func dmTaskAddTargetFct(task *cdmTask, start, size uint64, ttype, params string) int { Cttype := C.CString(ttype) defer free(Cttype) Cparams := C.CString(params) defer free(Cparams) return int(C.dm_task_add_target((*C.struct_dm_task)(task), C.uint64_t(start), C.uint64_t(size), Cttype, Cparams)) } func dmTaskGetDepsFct(task *cdmTask) *Deps { Cdeps := C.dm_task_get_deps((*C.struct_dm_task)(task)) if Cdeps == nil { return nil } // golang issue: https://github.com/golang/go/issues/11925 hdr := reflect.SliceHeader{ Data: uintptr(unsafe.Pointer(uintptr(unsafe.Pointer(Cdeps)) + unsafe.Sizeof(*Cdeps))), Len: int(Cdeps.count), Cap: int(Cdeps.count), } devices := *(*[]C.uint64_t)(unsafe.Pointer(&hdr)) deps := &Deps{ Count: uint32(Cdeps.count), Filler: uint32(Cdeps.filler), } for _, device := range devices { deps.Device = append(deps.Device, uint64(device)) } return deps } func dmTaskGetInfoFct(task *cdmTask, info *Info) int { Cinfo := C.struct_dm_info{} defer func() { info.Exists = int(Cinfo.exists) info.Suspended = int(Cinfo.suspended) info.LiveTable = int(Cinfo.live_table) info.InactiveTable = int(Cinfo.inactive_table) info.OpenCount = int32(Cinfo.open_count) info.EventNr = uint32(Cinfo.event_nr) info.Major = uint32(Cinfo.major) info.Minor = uint32(Cinfo.minor) info.ReadOnly = int(Cinfo.read_only) info.TargetCount = int32(Cinfo.target_count) }() return int(C.dm_task_get_info((*C.struct_dm_task)(task), &Cinfo)) } func dmTaskGetDriverVersionFct(task *cdmTask) string { buffer := C.malloc(128) defer C.free(buffer) res := C.dm_task_get_driver_version((*C.struct_dm_task)(task), (*C.char)(buffer), 128) if res == 0 { return "" } return C.GoString((*C.char)(buffer)) } func dmGetNextTargetFct(task *cdmTask, next unsafe.Pointer, start, length *uint64, target, params *string) unsafe.Pointer { var ( Cstart, Clength C.uint64_t CtargetType, Cparams *C.char ) defer func() { *start = uint64(Cstart) *length = uint64(Clength) *target = C.GoString(CtargetType) *params = C.GoString(Cparams) }() nextp := C.dm_get_next_target((*C.struct_dm_task)(task), next, &Cstart, &Clength, &CtargetType, &Cparams) return nextp } func dmUdevSetSyncSupportFct(syncWithUdev int) { (C.dm_udev_set_sync_support(C.int(syncWithUdev))) } func dmUdevGetSyncSupportFct() int { return int(C.dm_udev_get_sync_support()) } func dmUdevWaitFct(cookie uint) int { return int(C.dm_udev_wait(C.uint32_t(cookie))) } func dmCookieSupportedFct() int { return int(C.dm_cookie_supported()) } func dmLogInitVerboseFct(level int) { C.dm_log_init_verbose(C.int(level)) } func logWithErrnoInitFct() { C.log_with_errno_init() } func dmSetDevDirFct(dir string) int { Cdir := C.CString(dir) defer free(Cdir) return int(C.dm_set_dev_dir(Cdir)) } func dmGetLibraryVersionFct(version *string) int { buffer := C.CString(string(make([]byte, 128))) defer free(buffer) defer func() { *version = C.GoString(buffer) }() return int(C.dm_get_library_version(buffer, 128)) }