/* * host.go * * Copyright 2017-2018 Bill Zissimopoulos */ /* * This file is part of Cgofuse. * * It is licensed under the MIT license. The full license text can be found * in the License.txt file at the root of this project. */ package fuse import ( "errors" "os" "os/signal" "path/filepath" "runtime" "strings" "sync" "syscall" "unsafe" ) // FileSystemHost is used to host a file system. type FileSystemHost struct { fsop FileSystemInterface fuse *c_struct_fuse mntp string sigc chan os.Signal capCaseInsensitive, capReaddirPlus bool } var ( hostGuard = sync.Mutex{} hostTable = map[unsafe.Pointer]*FileSystemHost{} ) func hostHandleNew(host *FileSystemHost) unsafe.Pointer { p := c_malloc(1) hostGuard.Lock() hostTable[p] = host hostGuard.Unlock() return p } func hostHandleDel(p unsafe.Pointer) { hostGuard.Lock() delete(hostTable, p) hostGuard.Unlock() c_free(p) } func hostHandleGet(p unsafe.Pointer) *FileSystemHost { hostGuard.Lock() host, _ := hostTable[p] hostGuard.Unlock() return host } func copyCstatvfsFromFusestatfs(dst *c_fuse_statvfs_t, src *Statfs_t) { c_hostCstatvfsFromFusestatfs(dst, c_uint64_t(src.Bsize), c_uint64_t(src.Frsize), c_uint64_t(src.Blocks), c_uint64_t(src.Bfree), c_uint64_t(src.Bavail), c_uint64_t(src.Files), c_uint64_t(src.Ffree), c_uint64_t(src.Favail), c_uint64_t(src.Fsid), c_uint64_t(src.Flag), c_uint64_t(src.Namemax)) } func copyCstatFromFusestat(dst *c_fuse_stat_t, src *Stat_t) { c_hostCstatFromFusestat(dst, c_uint64_t(src.Dev), c_uint64_t(src.Ino), c_uint32_t(src.Mode), c_uint32_t(src.Nlink), c_uint32_t(src.Uid), c_uint32_t(src.Gid), c_uint64_t(src.Rdev), c_int64_t(src.Size), c_int64_t(src.Atim.Sec), c_int64_t(src.Atim.Nsec), c_int64_t(src.Mtim.Sec), c_int64_t(src.Mtim.Nsec), c_int64_t(src.Ctim.Sec), c_int64_t(src.Ctim.Nsec), c_int64_t(src.Blksize), c_int64_t(src.Blocks), c_int64_t(src.Birthtim.Sec), c_int64_t(src.Birthtim.Nsec), c_uint32_t(src.Flags)) } func copyFusetimespecFromCtimespec(dst *Timespec, src *c_fuse_timespec_t) { dst.Sec = int64(src.tv_sec) dst.Nsec = int64(src.tv_nsec) } func recoverAsErrno(errc0 *c_int) { if r := recover(); nil != r { switch e := r.(type) { case Error: *errc0 = c_int(e) default: *errc0 = -c_int(EIO) } } } func hostGetattr(path0 *c_char, stat0 *c_fuse_stat_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) stat := &Stat_t{} errc := fsop.Getattr(path, stat, ^uint64(0)) copyCstatFromFusestat(stat0, stat) return c_int(errc) } func hostReadlink(path0 *c_char, buff0 *c_char, size0 c_size_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc, rslt := fsop.Readlink(path) buff := (*[1 << 30]byte)(unsafe.Pointer(buff0)) copy(buff[:size0-1], rslt) rlen := len(rslt) if c_size_t(rlen) < size0 { buff[rlen] = 0 } return c_int(errc) } func hostMknod(path0 *c_char, mode0 c_fuse_mode_t, dev0 c_fuse_dev_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Mknod(path, uint32(mode0), uint64(dev0)) return c_int(errc) } func hostMkdir(path0 *c_char, mode0 c_fuse_mode_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Mkdir(path, uint32(mode0)) return c_int(errc) } func hostUnlink(path0 *c_char) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Unlink(path) return c_int(errc) } func hostRmdir(path0 *c_char) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Rmdir(path) return c_int(errc) } func hostSymlink(target0 *c_char, newpath0 *c_char) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop target, newpath := c_GoString(target0), c_GoString(newpath0) errc := fsop.Symlink(target, newpath) return c_int(errc) } func hostRename(oldpath0 *c_char, newpath0 *c_char) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop oldpath, newpath := c_GoString(oldpath0), c_GoString(newpath0) errc := fsop.Rename(oldpath, newpath) return c_int(errc) } func hostLink(oldpath0 *c_char, newpath0 *c_char) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop oldpath, newpath := c_GoString(oldpath0), c_GoString(newpath0) errc := fsop.Link(oldpath, newpath) return c_int(errc) } func hostChmod(path0 *c_char, mode0 c_fuse_mode_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Chmod(path, uint32(mode0)) return c_int(errc) } func hostChown(path0 *c_char, uid0 c_fuse_uid_t, gid0 c_fuse_gid_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Chown(path, uint32(uid0), uint32(gid0)) return c_int(errc) } func hostTruncate(path0 *c_char, size0 c_fuse_off_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Truncate(path, int64(size0), ^uint64(0)) return c_int(errc) } func hostOpen(path0 *c_char, fi0 *c_struct_fuse_file_info) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc, rslt := fsop.Open(path, int(fi0.flags)) fi0.fh = c_uint64_t(rslt) return c_int(errc) } func hostRead(path0 *c_char, buff0 *c_char, size0 c_size_t, ofst0 c_fuse_off_t, fi0 *c_struct_fuse_file_info) (nbyt0 c_int) { defer recoverAsErrno(&nbyt0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) buff := (*[1 << 30]byte)(unsafe.Pointer(buff0)) nbyt := fsop.Read(path, buff[:size0], int64(ofst0), uint64(fi0.fh)) return c_int(nbyt) } func hostWrite(path0 *c_char, buff0 *c_char, size0 c_size_t, ofst0 c_fuse_off_t, fi0 *c_struct_fuse_file_info) (nbyt0 c_int) { defer recoverAsErrno(&nbyt0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) buff := (*[1 << 30]byte)(unsafe.Pointer(buff0)) nbyt := fsop.Write(path, buff[:size0], int64(ofst0), uint64(fi0.fh)) return c_int(nbyt) } func hostStatfs(path0 *c_char, stat0 *c_fuse_statvfs_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) stat := &Statfs_t{} errc := fsop.Statfs(path, stat) if -ENOSYS == errc { stat = &Statfs_t{} errc = 0 } copyCstatvfsFromFusestatfs(stat0, stat) return c_int(errc) } func hostFlush(path0 *c_char, fi0 *c_struct_fuse_file_info) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Flush(path, uint64(fi0.fh)) return c_int(errc) } func hostRelease(path0 *c_char, fi0 *c_struct_fuse_file_info) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Release(path, uint64(fi0.fh)) return c_int(errc) } func hostFsync(path0 *c_char, datasync c_int, fi0 *c_struct_fuse_file_info) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Fsync(path, 0 != datasync, uint64(fi0.fh)) if -ENOSYS == errc { errc = 0 } return c_int(errc) } func hostSetxattr(path0 *c_char, name0 *c_char, buff0 *c_char, size0 c_size_t, flags c_int) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) name := c_GoString(name0) buff := (*[1 << 30]byte)(unsafe.Pointer(buff0)) errc := fsop.Setxattr(path, name, buff[:size0], int(flags)) return c_int(errc) } func hostGetxattr(path0 *c_char, name0 *c_char, buff0 *c_char, size0 c_size_t) (nbyt0 c_int) { defer recoverAsErrno(&nbyt0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) name := c_GoString(name0) errc, rslt := fsop.Getxattr(path, name) if 0 != errc { return c_int(errc) } if 0 != size0 { if len(rslt) > int(size0) { return -c_int(ERANGE) } buff := (*[1 << 30]byte)(unsafe.Pointer(buff0)) copy(buff[:size0], rslt) } return c_int(len(rslt)) } func hostListxattr(path0 *c_char, buff0 *c_char, size0 c_size_t) (nbyt0 c_int) { defer recoverAsErrno(&nbyt0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) buff := (*[1 << 30]byte)(unsafe.Pointer(buff0)) size := int(size0) nbyt := 0 fill := func(name1 string) bool { nlen := len(name1) if 0 != size { if nbyt+nlen+1 > size { return false } copy(buff[nbyt:nbyt+nlen], name1) buff[nbyt+nlen] = 0 } nbyt += nlen + 1 return true } errc := fsop.Listxattr(path, fill) if 0 != errc { return c_int(errc) } return c_int(nbyt) } func hostRemovexattr(path0 *c_char, name0 *c_char) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) name := c_GoString(name0) errc := fsop.Removexattr(path, name) return c_int(errc) } func hostOpendir(path0 *c_char, fi0 *c_struct_fuse_file_info) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc, rslt := fsop.Opendir(path) if -ENOSYS == errc { errc = 0 } fi0.fh = c_uint64_t(rslt) return c_int(errc) } func hostReaddir(path0 *c_char, buff0 unsafe.Pointer, fill0 c_fuse_fill_dir_t, ofst0 c_fuse_off_t, fi0 *c_struct_fuse_file_info) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) fill := func(name1 string, stat1 *Stat_t, off1 int64) bool { name := c_CString(name1) defer c_free(unsafe.Pointer(name)) if nil == stat1 { return 0 == c_hostFilldir(fill0, buff0, name, nil, c_fuse_off_t(off1)) } else { stat_ex := c_fuse_stat_ex_t{} // support WinFsp fuse_stat_ex stat := (*c_fuse_stat_t)(unsafe.Pointer(&stat_ex)) copyCstatFromFusestat(stat, stat1) return 0 == c_hostFilldir(fill0, buff0, name, stat, c_fuse_off_t(off1)) } } errc := fsop.Readdir(path, fill, int64(ofst0), uint64(fi0.fh)) return c_int(errc) } func hostReleasedir(path0 *c_char, fi0 *c_struct_fuse_file_info) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Releasedir(path, uint64(fi0.fh)) return c_int(errc) } func hostFsyncdir(path0 *c_char, datasync c_int, fi0 *c_struct_fuse_file_info) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Fsyncdir(path, 0 != datasync, uint64(fi0.fh)) if -ENOSYS == errc { errc = 0 } return c_int(errc) } func hostInit(conn0 *c_struct_fuse_conn_info) (user_data unsafe.Pointer) { defer recover() fctx := c_fuse_get_context() user_data = fctx.private_data host := hostHandleGet(user_data) host.fuse = fctx.fuse c_hostAsgnCconninfo(conn0, c_bool(host.capCaseInsensitive), c_bool(host.capReaddirPlus)) if nil != host.sigc { signal.Notify(host.sigc, syscall.SIGINT, syscall.SIGTERM) } host.fsop.Init() return } func hostDestroy(user_data unsafe.Pointer) { defer recover() if "netbsd" == runtime.GOOS { user_data = c_fuse_get_context().private_data } host := hostHandleGet(user_data) host.fsop.Destroy() if nil != host.sigc { signal.Stop(host.sigc) } host.fuse = nil } func hostAccess(path0 *c_char, mask0 c_int) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Access(path, uint32(mask0)) return c_int(errc) } func hostCreate(path0 *c_char, mode0 c_fuse_mode_t, fi0 *c_struct_fuse_file_info) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc, rslt := fsop.Create(path, int(fi0.flags), uint32(mode0)) if -ENOSYS == errc { errc = fsop.Mknod(path, S_IFREG|uint32(mode0), 0) if 0 == errc { errc, rslt = fsop.Open(path, int(fi0.flags)) } } fi0.fh = c_uint64_t(rslt) return c_int(errc) } func hostFtruncate(path0 *c_char, size0 c_fuse_off_t, fi0 *c_struct_fuse_file_info) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) errc := fsop.Truncate(path, int64(size0), uint64(fi0.fh)) return c_int(errc) } func hostFgetattr(path0 *c_char, stat0 *c_fuse_stat_t, fi0 *c_struct_fuse_file_info) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) stat := &Stat_t{} errc := fsop.Getattr(path, stat, uint64(fi0.fh)) copyCstatFromFusestat(stat0, stat) return c_int(errc) } func hostUtimens(path0 *c_char, tmsp0 *c_fuse_timespec_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop path := c_GoString(path0) if nil == tmsp0 { errc := fsop.Utimens(path, nil) return c_int(errc) } else { tmsp := [2]Timespec{} tmsa := (*[2]c_fuse_timespec_t)(unsafe.Pointer(tmsp0)) copyFusetimespecFromCtimespec(&tmsp[0], &tmsa[0]) copyFusetimespecFromCtimespec(&tmsp[1], &tmsa[1]) errc := fsop.Utimens(path, tmsp[:]) return c_int(errc) } } func hostSetchgtime(path0 *c_char, tmsp0 *c_fuse_timespec_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop intf, ok := fsop.(FileSystemSetchgtime) if !ok { // say we did it! return 0 } path := c_GoString(path0) tmsp := Timespec{} copyFusetimespecFromCtimespec(&tmsp, tmsp0) errc := intf.Setchgtime(path, tmsp) return c_int(errc) } func hostSetcrtime(path0 *c_char, tmsp0 *c_fuse_timespec_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop intf, ok := fsop.(FileSystemSetcrtime) if !ok { // say we did it! return 0 } path := c_GoString(path0) tmsp := Timespec{} copyFusetimespecFromCtimespec(&tmsp, tmsp0) errc := intf.Setcrtime(path, tmsp) return c_int(errc) } func hostChflags(path0 *c_char, flags c_uint32_t) (errc0 c_int) { defer recoverAsErrno(&errc0) fsop := hostHandleGet(c_fuse_get_context().private_data).fsop intf, ok := fsop.(FileSystemChflags) if !ok { // say we did it! return 0 } path := c_GoString(path0) errc := intf.Chflags(path, uint32(flags)) return c_int(errc) } // NewFileSystemHost creates a file system host. func NewFileSystemHost(fsop FileSystemInterface) *FileSystemHost { host := &FileSystemHost{} host.fsop = fsop return host } // SetCapCaseInsensitive informs the host that the hosted file system is case insensitive // [OSX and Windows only]. func (host *FileSystemHost) SetCapCaseInsensitive(value bool) { host.capCaseInsensitive = value } // SetCapReaddirPlus informs the host that the hosted file system has the readdir-plus // capability [Windows only]. A file system that has the readdir-plus capability can send // full stat information during Readdir, thus avoiding extraneous Getattr calls. func (host *FileSystemHost) SetCapReaddirPlus(value bool) { host.capReaddirPlus = value } // Mount mounts a file system on the given mountpoint with the mount options in opts. // // Many of the mount options in opts are specific to the underlying FUSE implementation. // Some of the common options include: // // -h --help print help // -V --version print FUSE version // -d -o debug enable FUSE debug output // -s disable multi-threaded operation // // Please refer to the individual FUSE implementation documentation for additional options. // // It is allowed for the mountpoint to be the empty string ("") in which case opts is assumed // to contain the mountpoint. It is also allowed for opts to be nil, although in this case the // mountpoint must be non-empty. func (host *FileSystemHost) Mount(mountpoint string, opts []string) bool { if 0 == c_hostFuseInit() { panic("cgofuse: cannot find winfsp") } /* * Command line handling * * We must prepare a command line to send to FUSE. This command line will look like this: * * execname [mountpoint] "-f" [opts...] NULL * * We add the "-f" option because Go cannot handle daemonization (at least on OSX). */ exec := "" if 0 < len(os.Args) { exec = os.Args[0] } argc := len(opts) + 2 if "" != mountpoint { argc++ } argv := make([]*c_char, argc+1) argv[0] = c_CString(exec) defer c_free(unsafe.Pointer(argv[0])) opti := 1 if "" != mountpoint { argv[1] = c_CString(mountpoint) defer c_free(unsafe.Pointer(argv[1])) opti++ } argv[opti] = c_CString("-f") defer c_free(unsafe.Pointer(argv[opti])) opti++ for i := 0; len(opts) > i; i++ { argv[i+opti] = c_CString(opts[i]) defer c_free(unsafe.Pointer(argv[i+opti])) } /* * Mountpoint extraction * * We need to determine the mountpoint that FUSE is going (to try) to use, so that we * can unmount later. */ if "" != mountpoint { host.mntp = mountpoint } else { outargs, _ := OptParse(opts, "") if 1 <= len(outargs) { host.mntp = outargs[0] } } if "" != host.mntp { if "windows" != runtime.GOOS || 2 != len(host.mntp) || ':' != host.mntp[1] { abs, err := filepath.Abs(host.mntp) if nil == err { host.mntp = abs } } } defer func() { host.mntp = "" }() /* * Handle zombie mounts * * FUSE on UNIX does not automatically unmount the file system, leaving behind "zombie" * mounts. So set things up to always unmount the file system (unless forcibly terminated). * This has the added benefit that the file system Destroy() always gets called. * * On Windows (WinFsp) this is handled by the FUSE layer and we do not have to do anything. */ if "windows" != runtime.GOOS { done := make(chan bool) defer func() { <-done }() host.sigc = make(chan os.Signal, 1) defer close(host.sigc) go func() { _, ok := <-host.sigc if ok { host.Unmount() } close(done) }() } /* * Tell FUSE to do its job! */ hndl := hostHandleNew(host) defer hostHandleDel(hndl) return 0 != c_hostMount(c_int(argc), &argv[0], hndl) } // Unmount unmounts a mounted file system. // Unmount may be called at any time after the Init() method has been called // and before the Destroy() method has been called. func (host *FileSystemHost) Unmount() bool { if nil == host.fuse { return false } var mntp *c_char if "" != host.mntp { mntp = c_CString(host.mntp) } return 0 != c_hostUnmount(host.fuse, mntp) } // Getcontext gets information related to a file system operation. func Getcontext() (uid uint32, gid uint32, pid int) { context := c_fuse_get_context() uid = uint32(context.uid) gid = uint32(context.gid) pid = int(context.pid) return } func optNormBool(opt string) string { if i := strings.Index(opt, "=%"); -1 != i { switch opt[i+2:] { case "d", "o", "x", "X": return opt case "v": return opt[:i+1] default: panic("unknown format " + opt[i+1:]) } } else { return opt } } func optNormInt(opt string, modf string) string { if i := strings.Index(opt, "=%"); -1 != i { switch opt[i+2:] { case "d", "o", "x", "X": return opt[:i+2] + modf + opt[i+2:] case "v": return opt[:i+2] + modf + "i" default: panic("unknown format " + opt[i+1:]) } } else if strings.HasSuffix(opt, "=") { return opt + "%" + modf + "i" } else { return opt + "=%" + modf + "i" } } func optNormStr(opt string) string { if i := strings.Index(opt, "=%"); -1 != i { switch opt[i+2:] { case "s", "v": return opt[:i+2] + "s" default: panic("unknown format " + opt[i+1:]) } } else if strings.HasSuffix(opt, "=") { return opt + "%s" } else { return opt + "=%s" } } // OptParse parses the FUSE command line arguments in args as determined by format // and stores the resulting values in vals, which must be pointers. It returns a // list of unparsed arguments or nil if an error happens. // // The format may be empty or non-empty. An empty format is taken as a special // instruction to OptParse to only return all non-option arguments in outargs. // // A non-empty format is a space separated list of acceptable FUSE options. Each // option is matched with a corresponding pointer value in vals. The combination // of the option and the type of the corresponding pointer value, determines how // the option is used. The allowed pointer types are pointer to bool, pointer to // an integer type and pointer to string. // // For pointer to bool types: // // -x Match -x without parameter. // -foo --foo As above for -foo or --foo. // foo Match "-o foo". // -x= -foo= --foo= foo= Match option with parameter. // -x=%VERB ... foo=%VERB Match option with parameter of syntax. // Allowed verbs: d,o,x,X,v // - d,o,x,X: set to true if parameter non-0. // - v: set to true if parameter present. // // The formats -x=, and -x=%v are equivalent. // // For pointer to other types: // // -x Match -x with parameter (-x=PARAM). // -foo --foo As above for -foo or --foo. // foo Match "-o foo=PARAM". // -x= -foo= --foo= foo= Match option with parameter. // -x=%VERB ... foo=%VERB Match option with parameter of syntax. // Allowed verbs for pointer to int types: d,o,x,X,v // Allowed verbs for pointer to string types: s,v // // The formats -x, -x=, and -x=%v are equivalent. // // For example: // // var f bool // var set_attr_timeout bool // var attr_timeout int // var umask uint32 // outargs, err := OptParse(args, "-f attr_timeout= attr_timeout umask=%o", // &f, &set_attr_timeout, &attr_timeout, &umask) // // Will accept a command line of: // // $ program -f -o attr_timeout=42,umask=077 // // And will set variables as follows: // // f == true // set_attr_timeout == true // attr_timeout == 42 // umask == 077 // func OptParse(args []string, format string, vals ...interface{}) (outargs []string, err error) { if 0 == c_hostFuseInit() { panic("cgofuse: cannot find winfsp") } defer func() { if r := recover(); nil != r { if s, ok := r.(string); ok { outargs = nil err = errors.New("OptParse: " + s) } else { panic(r) } } }() var opts []string var nonopts bool if "" == format { opts = make([]string, 0) nonopts = true } else { opts = strings.Split(format, " ") } align := int(2 * unsafe.Sizeof(c_size_t(0))) // match malloc alignment (usually 8 or 16) fuse_opts := make([]c_struct_fuse_opt, len(opts)+1) for i := 0; len(opts) > i; i++ { var templ *c_char switch vals[i].(type) { case *bool: templ = c_CString(optNormBool(opts[i])) case *int: templ = c_CString(optNormInt(opts[i], "")) case *int8: templ = c_CString(optNormInt(opts[i], "hh")) case *int16: templ = c_CString(optNormInt(opts[i], "h")) case *int32: templ = c_CString(optNormInt(opts[i], "")) case *int64: templ = c_CString(optNormInt(opts[i], "ll")) case *uint: templ = c_CString(optNormInt(opts[i], "")) case *uint8: templ = c_CString(optNormInt(opts[i], "hh")) case *uint16: templ = c_CString(optNormInt(opts[i], "h")) case *uint32: templ = c_CString(optNormInt(opts[i], "")) case *uint64: templ = c_CString(optNormInt(opts[i], "ll")) case *uintptr: templ = c_CString(optNormInt(opts[i], "ll")) case *string: templ = c_CString(optNormStr(opts[i])) } defer c_free(unsafe.Pointer(templ)) c_hostOptSet(&fuse_opts[i], templ, c_fuse_opt_offset_t(i*align), 1) } fuse_args := c_struct_fuse_args{} defer c_fuse_opt_free_args(&fuse_args) argc := 1 + len(args) argp := c_calloc(c_size_t(argc+1), c_size_t(unsafe.Sizeof((*c_char)(nil)))) argv := (*[1 << 16]*c_char)(argp) argv[0] = c_CString("") for i := 0; len(args) > i; i++ { argv[1+i] = c_CString(args[i]) } fuse_args.allocated = 1 fuse_args.argc = c_int(argc) fuse_args.argv = (**c_char)(&argv[0]) data := c_calloc(c_size_t(len(opts)), c_size_t(align)) defer c_free(data) if -1 == c_hostOptParse(&fuse_args, data, &fuse_opts[0], c_bool(nonopts)) { panic("failed") } for i := 0; len(opts) > i; i++ { switch v := vals[i].(type) { case *bool: *v = 0 != int(*(*c_int)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *int: *v = int(*(*c_int)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *int8: *v = int8(*(*c_int8_t)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *int16: *v = int16(*(*c_int16_t)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *int32: *v = int32(*(*c_int32_t)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *int64: *v = int64(*(*c_int64_t)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *uint: *v = uint(*(*c_unsigned)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *uint8: *v = uint8(*(*c_uint8_t)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *uint16: *v = uint16(*(*c_uint16_t)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *uint32: *v = uint32(*(*c_uint32_t)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *uint64: *v = uint64(*(*c_uint64_t)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *uintptr: *v = uintptr(*(*c_uintptr_t)(unsafe.Pointer(uintptr(data) + uintptr(i*align)))) case *string: s := *(**c_char)(unsafe.Pointer(uintptr(data) + uintptr(i*align))) *v = c_GoString(s) c_free(unsafe.Pointer(s)) } } if 1 >= fuse_args.argc { outargs = make([]string, 0) } else { outargs = make([]string, fuse_args.argc-1) for i := 1; int(fuse_args.argc) > i; i++ { outargs[i-1] = c_GoString((*[1 << 16]*c_char)(unsafe.Pointer(fuse_args.argv))[i]) } } if nonopts && 1 <= len(outargs) && "--" == outargs[0] { outargs = outargs[1:] } return } func init() { c_hostStaticInit() }