// Copyright 2018 The gVisor Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package p9 import ( "fmt" "math" "gvisor.dev/gvisor/pkg/fd" ) // ErrInvalidMsgType is returned when an unsupported message type is found. type ErrInvalidMsgType struct { MsgType } // Error returns a useful string. func (e *ErrInvalidMsgType) Error() string { return fmt.Sprintf("invalid message type: %d", e.MsgType) } // message is a generic 9P message. type message interface { encoder fmt.Stringer // Type returns the message type number. Type() MsgType } // payloader is a special message which may include an inline payload. type payloader interface { // FixedSize returns the size of the fixed portion of this message. FixedSize() uint32 // Payload returns the payload for sending. Payload() []byte // SetPayload returns the decoded message. // // This is going to be total message size - FixedSize. But this should // be validated during decode, which will be called after SetPayload. SetPayload([]byte) } // filer is a message capable of passing a file. type filer interface { // FilePayload returns the file payload. FilePayload() *fd.FD // SetFilePayload sets the file payload. SetFilePayload(*fd.FD) } // filePayload embeds a File object. type filePayload struct { File *fd.FD } // FilePayload returns the file payload. func (f *filePayload) FilePayload() *fd.FD { return f.File } // SetFilePayload sets the received file. func (f *filePayload) SetFilePayload(file *fd.FD) { f.File = file } // Tversion is a version request. type Tversion struct { // MSize is the message size to use. MSize uint32 // Version is the version string. // // For this implementation, this must be 9P2000.L. Version string } // decode implements encoder.decode. func (t *Tversion) decode(b *buffer) { t.MSize = b.Read32() t.Version = b.ReadString() } // encode implements encoder.encode. func (t *Tversion) encode(b *buffer) { b.Write32(t.MSize) b.WriteString(t.Version) } // Type implements message.Type. func (*Tversion) Type() MsgType { return MsgTversion } // String implements fmt.Stringer. func (t *Tversion) String() string { return fmt.Sprintf("Tversion{MSize: %d, Version: %s}", t.MSize, t.Version) } // Rversion is a version response. type Rversion struct { // MSize is the negotiated size. MSize uint32 // Version is the negotiated version. Version string } // decode implements encoder.decode. func (r *Rversion) decode(b *buffer) { r.MSize = b.Read32() r.Version = b.ReadString() } // encode implements encoder.encode. func (r *Rversion) encode(b *buffer) { b.Write32(r.MSize) b.WriteString(r.Version) } // Type implements message.Type. func (*Rversion) Type() MsgType { return MsgRversion } // String implements fmt.Stringer. func (r *Rversion) String() string { return fmt.Sprintf("Rversion{MSize: %d, Version: %s}", r.MSize, r.Version) } // Tflush is a flush request. type Tflush struct { // OldTag is the tag to wait on. OldTag Tag } // decode implements encoder.decode. func (t *Tflush) decode(b *buffer) { t.OldTag = b.ReadTag() } // encode implements encoder.encode. func (t *Tflush) encode(b *buffer) { b.WriteTag(t.OldTag) } // Type implements message.Type. func (*Tflush) Type() MsgType { return MsgTflush } // String implements fmt.Stringer. func (t *Tflush) String() string { return fmt.Sprintf("Tflush{OldTag: %d}", t.OldTag) } // Rflush is a flush response. type Rflush struct { } // decode implements encoder.decode. func (*Rflush) decode(*buffer) { } // encode implements encoder.encode. func (*Rflush) encode(*buffer) { } // Type implements message.Type. func (*Rflush) Type() MsgType { return MsgRflush } // String implements fmt.Stringer. func (r *Rflush) String() string { return "RFlush{}" } // Twalk is a walk request. type Twalk struct { // FID is the FID to be walked. FID FID // NewFID is the resulting FID. NewFID FID // Names are the set of names to be walked. Names []string } // decode implements encoder.decode. func (t *Twalk) decode(b *buffer) { t.FID = b.ReadFID() t.NewFID = b.ReadFID() n := b.Read16() t.Names = t.Names[:0] for i := 0; i < int(n); i++ { t.Names = append(t.Names, b.ReadString()) } } // encode implements encoder.encode. func (t *Twalk) encode(b *buffer) { b.WriteFID(t.FID) b.WriteFID(t.NewFID) b.Write16(uint16(len(t.Names))) for _, name := range t.Names { b.WriteString(name) } } // Type implements message.Type. func (*Twalk) Type() MsgType { return MsgTwalk } // String implements fmt.Stringer. func (t *Twalk) String() string { return fmt.Sprintf("Twalk{FID: %d, NewFID: %d, Names: %v}", t.FID, t.NewFID, t.Names) } // Rwalk is a walk response. type Rwalk struct { // QIDs are the set of QIDs returned. QIDs []QID } // decode implements encoder.decode. func (r *Rwalk) decode(b *buffer) { n := b.Read16() r.QIDs = r.QIDs[:0] for i := 0; i < int(n); i++ { var q QID q.decode(b) r.QIDs = append(r.QIDs, q) } } // encode implements encoder.encode. func (r *Rwalk) encode(b *buffer) { b.Write16(uint16(len(r.QIDs))) for _, q := range r.QIDs { q.encode(b) } } // Type implements message.Type. func (*Rwalk) Type() MsgType { return MsgRwalk } // String implements fmt.Stringer. func (r *Rwalk) String() string { return fmt.Sprintf("Rwalk{QIDs: %v}", r.QIDs) } // Tclunk is a close request. type Tclunk struct { // FID is the FID to be closed. FID FID } // decode implements encoder.decode. func (t *Tclunk) decode(b *buffer) { t.FID = b.ReadFID() } // encode implements encoder.encode. func (t *Tclunk) encode(b *buffer) { b.WriteFID(t.FID) } // Type implements message.Type. func (*Tclunk) Type() MsgType { return MsgTclunk } // String implements fmt.Stringer. func (t *Tclunk) String() string { return fmt.Sprintf("Tclunk{FID: %d}", t.FID) } // Rclunk is a close response. type Rclunk struct { } // decode implements encoder.decode. func (*Rclunk) decode(*buffer) { } // encode implements encoder.encode. func (*Rclunk) encode(*buffer) { } // Type implements message.Type. func (*Rclunk) Type() MsgType { return MsgRclunk } // String implements fmt.Stringer. func (r *Rclunk) String() string { return "Rclunk{}" } // Tremove is a remove request. // // This will eventually be replaced by Tunlinkat. type Tremove struct { // FID is the FID to be removed. FID FID } // decode implements encoder.decode. func (t *Tremove) decode(b *buffer) { t.FID = b.ReadFID() } // encode implements encoder.encode. func (t *Tremove) encode(b *buffer) { b.WriteFID(t.FID) } // Type implements message.Type. func (*Tremove) Type() MsgType { return MsgTremove } // String implements fmt.Stringer. func (t *Tremove) String() string { return fmt.Sprintf("Tremove{FID: %d}", t.FID) } // Rremove is a remove response. type Rremove struct { } // decode implements encoder.decode. func (*Rremove) decode(*buffer) { } // encode implements encoder.encode. func (*Rremove) encode(*buffer) { } // Type implements message.Type. func (*Rremove) Type() MsgType { return MsgRremove } // String implements fmt.Stringer. func (r *Rremove) String() string { return "Rremove{}" } // Rlerror is an error response. // // Note that this replaces the error code used in 9p. type Rlerror struct { Error uint32 } // decode implements encoder.decode. func (r *Rlerror) decode(b *buffer) { r.Error = b.Read32() } // encode implements encoder.encode. func (r *Rlerror) encode(b *buffer) { b.Write32(r.Error) } // Type implements message.Type. func (*Rlerror) Type() MsgType { return MsgRlerror } // String implements fmt.Stringer. func (r *Rlerror) String() string { return fmt.Sprintf("Rlerror{Error: %d}", r.Error) } // Tauth is an authentication request. type Tauth struct { // AuthenticationFID is the FID to attach the authentication result. AuthenticationFID FID // UserName is the user to attach. UserName string // AttachName is the attach name. AttachName string // UserID is the numeric identifier for UserName. UID UID } // decode implements encoder.decode. func (t *Tauth) decode(b *buffer) { t.AuthenticationFID = b.ReadFID() t.UserName = b.ReadString() t.AttachName = b.ReadString() t.UID = b.ReadUID() } // encode implements encoder.encode. func (t *Tauth) encode(b *buffer) { b.WriteFID(t.AuthenticationFID) b.WriteString(t.UserName) b.WriteString(t.AttachName) b.WriteUID(t.UID) } // Type implements message.Type. func (*Tauth) Type() MsgType { return MsgTauth } // String implements fmt.Stringer. func (t *Tauth) String() string { return fmt.Sprintf("Tauth{AuthFID: %d, UserName: %s, AttachName: %s, UID: %d", t.AuthenticationFID, t.UserName, t.AttachName, t.UID) } // Rauth is an authentication response. // // encode and decode are inherited directly from QID. type Rauth struct { QID } // Type implements message.Type. func (*Rauth) Type() MsgType { return MsgRauth } // String implements fmt.Stringer. func (r *Rauth) String() string { return fmt.Sprintf("Rauth{QID: %s}", r.QID) } // Tattach is an attach request. type Tattach struct { // FID is the FID to be attached. FID FID // Auth is the embedded authentication request. // // See client.Attach for information regarding authentication. Auth Tauth } // decode implements encoder.decode. func (t *Tattach) decode(b *buffer) { t.FID = b.ReadFID() t.Auth.decode(b) } // encode implements encoder.encode. func (t *Tattach) encode(b *buffer) { b.WriteFID(t.FID) t.Auth.encode(b) } // Type implements message.Type. func (*Tattach) Type() MsgType { return MsgTattach } // String implements fmt.Stringer. func (t *Tattach) String() string { return fmt.Sprintf("Tattach{FID: %d, AuthFID: %d, UserName: %s, AttachName: %s, UID: %d}", t.FID, t.Auth.AuthenticationFID, t.Auth.UserName, t.Auth.AttachName, t.Auth.UID) } // Rattach is an attach response. type Rattach struct { QID } // Type implements message.Type. func (*Rattach) Type() MsgType { return MsgRattach } // String implements fmt.Stringer. func (r *Rattach) String() string { return fmt.Sprintf("Rattach{QID: %s}", r.QID) } // Tlopen is an open request. type Tlopen struct { // FID is the FID to be opened. FID FID // Flags are the open flags. Flags OpenFlags } // decode implements encoder.decode. func (t *Tlopen) decode(b *buffer) { t.FID = b.ReadFID() t.Flags = b.ReadOpenFlags() } // encode implements encoder.encode. func (t *Tlopen) encode(b *buffer) { b.WriteFID(t.FID) b.WriteOpenFlags(t.Flags) } // Type implements message.Type. func (*Tlopen) Type() MsgType { return MsgTlopen } // String implements fmt.Stringer. func (t *Tlopen) String() string { return fmt.Sprintf("Tlopen{FID: %d, Flags: %v}", t.FID, t.Flags) } // Rlopen is a open response. type Rlopen struct { // QID is the file's QID. QID QID // IoUnit is the recommended I/O unit. IoUnit uint32 filePayload } // decode implements encoder.decode. func (r *Rlopen) decode(b *buffer) { r.QID.decode(b) r.IoUnit = b.Read32() } // encode implements encoder.encode. func (r *Rlopen) encode(b *buffer) { r.QID.encode(b) b.Write32(r.IoUnit) } // Type implements message.Type. func (*Rlopen) Type() MsgType { return MsgRlopen } // String implements fmt.Stringer. func (r *Rlopen) String() string { return fmt.Sprintf("Rlopen{QID: %s, IoUnit: %d, File: %v}", r.QID, r.IoUnit, r.File) } // Tlcreate is a create request. type Tlcreate struct { // FID is the parent FID. // // This becomes the new file. FID FID // Name is the file name to create. Name string // Mode is the open mode (O_RDWR, etc.). // // Note that flags like O_TRUNC are ignored, as is O_EXCL. All // create operations are exclusive. OpenFlags OpenFlags // Permissions is the set of permission bits. Permissions FileMode // GID is the group ID to use for creating the file. GID GID } // decode implements encoder.decode. func (t *Tlcreate) decode(b *buffer) { t.FID = b.ReadFID() t.Name = b.ReadString() t.OpenFlags = b.ReadOpenFlags() t.Permissions = b.ReadPermissions() t.GID = b.ReadGID() } // encode implements encoder.encode. func (t *Tlcreate) encode(b *buffer) { b.WriteFID(t.FID) b.WriteString(t.Name) b.WriteOpenFlags(t.OpenFlags) b.WritePermissions(t.Permissions) b.WriteGID(t.GID) } // Type implements message.Type. func (*Tlcreate) Type() MsgType { return MsgTlcreate } // String implements fmt.Stringer. func (t *Tlcreate) String() string { return fmt.Sprintf("Tlcreate{FID: %d, Name: %s, OpenFlags: %s, Permissions: 0o%o, GID: %d}", t.FID, t.Name, t.OpenFlags, t.Permissions, t.GID) } // Rlcreate is a create response. // // The encode, decode, etc. methods are inherited from Rlopen. type Rlcreate struct { Rlopen } // Type implements message.Type. func (*Rlcreate) Type() MsgType { return MsgRlcreate } // String implements fmt.Stringer. func (r *Rlcreate) String() string { return fmt.Sprintf("Rlcreate{QID: %s, IoUnit: %d, File: %v}", r.QID, r.IoUnit, r.File) } // Tsymlink is a symlink request. type Tsymlink struct { // Directory is the directory FID. Directory FID // Name is the new in the directory. Name string // Target is the symlink target. Target string // GID is the owning group. GID GID } // decode implements encoder.decode. func (t *Tsymlink) decode(b *buffer) { t.Directory = b.ReadFID() t.Name = b.ReadString() t.Target = b.ReadString() t.GID = b.ReadGID() } // encode implements encoder.encode. func (t *Tsymlink) encode(b *buffer) { b.WriteFID(t.Directory) b.WriteString(t.Name) b.WriteString(t.Target) b.WriteGID(t.GID) } // Type implements message.Type. func (*Tsymlink) Type() MsgType { return MsgTsymlink } // String implements fmt.Stringer. func (t *Tsymlink) String() string { return fmt.Sprintf("Tsymlink{DirectoryFID: %d, Name: %s, Target: %s, GID: %d}", t.Directory, t.Name, t.Target, t.GID) } // Rsymlink is a symlink response. type Rsymlink struct { // QID is the new symlink's QID. QID QID } // decode implements encoder.decode. func (r *Rsymlink) decode(b *buffer) { r.QID.decode(b) } // encode implements encoder.encode. func (r *Rsymlink) encode(b *buffer) { r.QID.encode(b) } // Type implements message.Type. func (*Rsymlink) Type() MsgType { return MsgRsymlink } // String implements fmt.Stringer. func (r *Rsymlink) String() string { return fmt.Sprintf("Rsymlink{QID: %s}", r.QID) } // Tlink is a link request. type Tlink struct { // Directory is the directory to contain the link. Directory FID // FID is the target. Target FID // Name is the new source name. Name string } // decode implements encoder.decode. func (t *Tlink) decode(b *buffer) { t.Directory = b.ReadFID() t.Target = b.ReadFID() t.Name = b.ReadString() } // encode implements encoder.encode. func (t *Tlink) encode(b *buffer) { b.WriteFID(t.Directory) b.WriteFID(t.Target) b.WriteString(t.Name) } // Type implements message.Type. func (*Tlink) Type() MsgType { return MsgTlink } // String implements fmt.Stringer. func (t *Tlink) String() string { return fmt.Sprintf("Tlink{DirectoryFID: %d, TargetFID: %d, Name: %s}", t.Directory, t.Target, t.Name) } // Rlink is a link response. type Rlink struct { } // Type implements message.Type. func (*Rlink) Type() MsgType { return MsgRlink } // decode implements encoder.decode. func (*Rlink) decode(*buffer) { } // encode implements encoder.encode. func (*Rlink) encode(*buffer) { } // String implements fmt.Stringer. func (r *Rlink) String() string { return "Rlink{}" } // Trenameat is a rename request. type Trenameat struct { // OldDirectory is the source directory. OldDirectory FID // OldName is the source file name. OldName string // NewDirectory is the target directory. NewDirectory FID // NewName is the new file name. NewName string } // decode implements encoder.decode. func (t *Trenameat) decode(b *buffer) { t.OldDirectory = b.ReadFID() t.OldName = b.ReadString() t.NewDirectory = b.ReadFID() t.NewName = b.ReadString() } // encode implements encoder.encode. func (t *Trenameat) encode(b *buffer) { b.WriteFID(t.OldDirectory) b.WriteString(t.OldName) b.WriteFID(t.NewDirectory) b.WriteString(t.NewName) } // Type implements message.Type. func (*Trenameat) Type() MsgType { return MsgTrenameat } // String implements fmt.Stringer. func (t *Trenameat) String() string { return fmt.Sprintf("TrenameAt{OldDirectoryFID: %d, OldName: %s, NewDirectoryFID: %d, NewName: %s}", t.OldDirectory, t.OldName, t.NewDirectory, t.NewName) } // Rrenameat is a rename response. type Rrenameat struct { } // decode implements encoder.decode. func (*Rrenameat) decode(*buffer) { } // encode implements encoder.encode. func (*Rrenameat) encode(*buffer) { } // Type implements message.Type. func (*Rrenameat) Type() MsgType { return MsgRrenameat } // String implements fmt.Stringer. func (r *Rrenameat) String() string { return "Rrenameat{}" } // Tunlinkat is an unlink request. type Tunlinkat struct { // Directory is the originating directory. Directory FID // Name is the name of the entry to unlink. Name string // Flags are extra flags (e.g. O_DIRECTORY). These are not interpreted by p9. Flags uint32 } // decode implements encoder.decode. func (t *Tunlinkat) decode(b *buffer) { t.Directory = b.ReadFID() t.Name = b.ReadString() t.Flags = b.Read32() } // encode implements encoder.encode. func (t *Tunlinkat) encode(b *buffer) { b.WriteFID(t.Directory) b.WriteString(t.Name) b.Write32(t.Flags) } // Type implements message.Type. func (*Tunlinkat) Type() MsgType { return MsgTunlinkat } // String implements fmt.Stringer. func (t *Tunlinkat) String() string { return fmt.Sprintf("Tunlinkat{DirectoryFID: %d, Name: %s, Flags: 0x%X}", t.Directory, t.Name, t.Flags) } // Runlinkat is an unlink response. type Runlinkat struct { } // decode implements encoder.decode. func (*Runlinkat) decode(*buffer) { } // encode implements encoder.encode. func (*Runlinkat) encode(*buffer) { } // Type implements message.Type. func (*Runlinkat) Type() MsgType { return MsgRunlinkat } // String implements fmt.Stringer. func (r *Runlinkat) String() string { return "Runlinkat{}" } // Trename is a rename request. // // Note that this generally isn't used anymore, and ideally all rename calls // should Trenameat below. type Trename struct { // FID is the FID to rename. FID FID // Directory is the target directory. Directory FID // Name is the new file name. Name string } // decode implements encoder.decode. func (t *Trename) decode(b *buffer) { t.FID = b.ReadFID() t.Directory = b.ReadFID() t.Name = b.ReadString() } // encode implements encoder.encode. func (t *Trename) encode(b *buffer) { b.WriteFID(t.FID) b.WriteFID(t.Directory) b.WriteString(t.Name) } // Type implements message.Type. func (*Trename) Type() MsgType { return MsgTrename } // String implements fmt.Stringer. func (t *Trename) String() string { return fmt.Sprintf("Trename{FID: %d, DirectoryFID: %d, Name: %s}", t.FID, t.Directory, t.Name) } // Rrename is a rename response. type Rrename struct { } // decode implements encoder.decode. func (*Rrename) decode(*buffer) { } // encode implements encoder.encode. func (*Rrename) encode(*buffer) { } // Type implements message.Type. func (*Rrename) Type() MsgType { return MsgRrename } // String implements fmt.Stringer. func (r *Rrename) String() string { return "Rrename{}" } // Treadlink is a readlink request. type Treadlink struct { // FID is the symlink. FID FID } // decode implements encoder.decode. func (t *Treadlink) decode(b *buffer) { t.FID = b.ReadFID() } // encode implements encoder.encode. func (t *Treadlink) encode(b *buffer) { b.WriteFID(t.FID) } // Type implements message.Type. func (*Treadlink) Type() MsgType { return MsgTreadlink } // String implements fmt.Stringer. func (t *Treadlink) String() string { return fmt.Sprintf("Treadlink{FID: %d}", t.FID) } // Rreadlink is a readlink response. type Rreadlink struct { // Target is the symlink target. Target string } // decode implements encoder.decode. func (r *Rreadlink) decode(b *buffer) { r.Target = b.ReadString() } // encode implements encoder.encode. func (r *Rreadlink) encode(b *buffer) { b.WriteString(r.Target) } // Type implements message.Type. func (*Rreadlink) Type() MsgType { return MsgRreadlink } // String implements fmt.Stringer. func (r *Rreadlink) String() string { return fmt.Sprintf("Rreadlink{Target: %s}", r.Target) } // Tread is a read request. type Tread struct { // FID is the FID to read. FID FID // Offset indicates the file offset. Offset uint64 // Count indicates the number of bytes to read. Count uint32 } // decode implements encoder.decode. func (t *Tread) decode(b *buffer) { t.FID = b.ReadFID() t.Offset = b.Read64() t.Count = b.Read32() } // encode implements encoder.encode. func (t *Tread) encode(b *buffer) { b.WriteFID(t.FID) b.Write64(t.Offset) b.Write32(t.Count) } // Type implements message.Type. func (*Tread) Type() MsgType { return MsgTread } // String implements fmt.Stringer. func (t *Tread) String() string { return fmt.Sprintf("Tread{FID: %d, Offset: %d, Count: %d}", t.FID, t.Offset, t.Count) } // Rread is the response for a Tread. type Rread struct { // Data is the resulting data. Data []byte } // decode implements encoder.decode. // // Data is automatically decoded via Payload. func (r *Rread) decode(b *buffer) { count := b.Read32() if count != uint32(len(r.Data)) { b.markOverrun() } } // encode implements encoder.encode. // // Data is automatically encoded via Payload. func (r *Rread) encode(b *buffer) { b.Write32(uint32(len(r.Data))) } // Type implements message.Type. func (*Rread) Type() MsgType { return MsgRread } // FixedSize implements payloader.FixedSize. func (*Rread) FixedSize() uint32 { return 4 } // Payload implements payloader.Payload. func (r *Rread) Payload() []byte { return r.Data } // SetPayload implements payloader.SetPayload. func (r *Rread) SetPayload(p []byte) { r.Data = p } // String implements fmt.Stringer. func (r *Rread) String() string { return fmt.Sprintf("Rread{len(Data): %d}", len(r.Data)) } // Twrite is a write request. type Twrite struct { // FID is the FID to read. FID FID // Offset indicates the file offset. Offset uint64 // Data is the data to be written. Data []byte } // decode implements encoder.decode. func (t *Twrite) decode(b *buffer) { t.FID = b.ReadFID() t.Offset = b.Read64() count := b.Read32() if count != uint32(len(t.Data)) { b.markOverrun() } } // encode implements encoder.encode. // // This uses the buffer payload to avoid a copy. func (t *Twrite) encode(b *buffer) { b.WriteFID(t.FID) b.Write64(t.Offset) b.Write32(uint32(len(t.Data))) } // Type implements message.Type. func (*Twrite) Type() MsgType { return MsgTwrite } // FixedSize implements payloader.FixedSize. func (*Twrite) FixedSize() uint32 { return 16 } // Payload implements payloader.Payload. func (t *Twrite) Payload() []byte { return t.Data } // SetPayload implements payloader.SetPayload. func (t *Twrite) SetPayload(p []byte) { t.Data = p } // String implements fmt.Stringer. func (t *Twrite) String() string { return fmt.Sprintf("Twrite{FID: %v, Offset %d, len(Data): %d}", t.FID, t.Offset, len(t.Data)) } // Rwrite is the response for a Twrite. type Rwrite struct { // Count indicates the number of bytes successfully written. Count uint32 } // decode implements encoder.decode. func (r *Rwrite) decode(b *buffer) { r.Count = b.Read32() } // encode implements encoder.encode. func (r *Rwrite) encode(b *buffer) { b.Write32(r.Count) } // Type implements message.Type. func (*Rwrite) Type() MsgType { return MsgRwrite } // String implements fmt.Stringer. func (r *Rwrite) String() string { return fmt.Sprintf("Rwrite{Count: %d}", r.Count) } // Tmknod is a mknod request. type Tmknod struct { // Directory is the parent directory. Directory FID // Name is the device name. Name string // Mode is the device mode and permissions. Mode FileMode // Major is the device major number. Major uint32 // Minor is the device minor number. Minor uint32 // GID is the device GID. GID GID } // decode implements encoder.decode. func (t *Tmknod) decode(b *buffer) { t.Directory = b.ReadFID() t.Name = b.ReadString() t.Mode = b.ReadFileMode() t.Major = b.Read32() t.Minor = b.Read32() t.GID = b.ReadGID() } // encode implements encoder.encode. func (t *Tmknod) encode(b *buffer) { b.WriteFID(t.Directory) b.WriteString(t.Name) b.WriteFileMode(t.Mode) b.Write32(t.Major) b.Write32(t.Minor) b.WriteGID(t.GID) } // Type implements message.Type. func (*Tmknod) Type() MsgType { return MsgTmknod } // String implements fmt.Stringer. func (t *Tmknod) String() string { return fmt.Sprintf("Tmknod{DirectoryFID: %d, Name: %s, Mode: 0o%o, Major: %d, Minor: %d, GID: %d}", t.Directory, t.Name, t.Mode, t.Major, t.Minor, t.GID) } // Rmknod is a mknod response. type Rmknod struct { // QID is the resulting QID. QID QID } // decode implements encoder.decode. func (r *Rmknod) decode(b *buffer) { r.QID.decode(b) } // encode implements encoder.encode. func (r *Rmknod) encode(b *buffer) { r.QID.encode(b) } // Type implements message.Type. func (*Rmknod) Type() MsgType { return MsgRmknod } // String implements fmt.Stringer. func (r *Rmknod) String() string { return fmt.Sprintf("Rmknod{QID: %s}", r.QID) } // Tmkdir is a mkdir request. type Tmkdir struct { // Directory is the parent directory. Directory FID // Name is the new directory name. Name string // Permissions is the set of permission bits. Permissions FileMode // GID is the owning group. GID GID } // decode implements encoder.decode. func (t *Tmkdir) decode(b *buffer) { t.Directory = b.ReadFID() t.Name = b.ReadString() t.Permissions = b.ReadPermissions() t.GID = b.ReadGID() } // encode implements encoder.encode. func (t *Tmkdir) encode(b *buffer) { b.WriteFID(t.Directory) b.WriteString(t.Name) b.WritePermissions(t.Permissions) b.WriteGID(t.GID) } // Type implements message.Type. func (*Tmkdir) Type() MsgType { return MsgTmkdir } // String implements fmt.Stringer. func (t *Tmkdir) String() string { return fmt.Sprintf("Tmkdir{DirectoryFID: %d, Name: %s, Permissions: 0o%o, GID: %d}", t.Directory, t.Name, t.Permissions, t.GID) } // Rmkdir is a mkdir response. type Rmkdir struct { // QID is the resulting QID. QID QID } // decode implements encoder.decode. func (r *Rmkdir) decode(b *buffer) { r.QID.decode(b) } // encode implements encoder.encode. func (r *Rmkdir) encode(b *buffer) { r.QID.encode(b) } // Type implements message.Type. func (*Rmkdir) Type() MsgType { return MsgRmkdir } // String implements fmt.Stringer. func (r *Rmkdir) String() string { return fmt.Sprintf("Rmkdir{QID: %s}", r.QID) } // Tgetattr is a getattr request. type Tgetattr struct { // FID is the FID to get attributes for. FID FID // AttrMask is the set of attributes to get. AttrMask AttrMask } // decode implements encoder.decode. func (t *Tgetattr) decode(b *buffer) { t.FID = b.ReadFID() t.AttrMask.decode(b) } // encode implements encoder.encode. func (t *Tgetattr) encode(b *buffer) { b.WriteFID(t.FID) t.AttrMask.encode(b) } // Type implements message.Type. func (*Tgetattr) Type() MsgType { return MsgTgetattr } // String implements fmt.Stringer. func (t *Tgetattr) String() string { return fmt.Sprintf("Tgetattr{FID: %d, AttrMask: %s}", t.FID, t.AttrMask) } // Rgetattr is a getattr response. type Rgetattr struct { // Valid indicates which fields are valid. Valid AttrMask // QID is the QID for this file. QID // Attr is the set of attributes. Attr Attr } // decode implements encoder.decode. func (r *Rgetattr) decode(b *buffer) { r.Valid.decode(b) r.QID.decode(b) r.Attr.decode(b) } // encode implements encoder.encode. func (r *Rgetattr) encode(b *buffer) { r.Valid.encode(b) r.QID.encode(b) r.Attr.encode(b) } // Type implements message.Type. func (*Rgetattr) Type() MsgType { return MsgRgetattr } // String implements fmt.Stringer. func (r *Rgetattr) String() string { return fmt.Sprintf("Rgetattr{Valid: %v, QID: %s, Attr: %s}", r.Valid, r.QID, r.Attr) } // Tsetattr is a setattr request. type Tsetattr struct { // FID is the FID to change. FID FID // Valid is the set of bits which will be used. Valid SetAttrMask // SetAttr is the set request. SetAttr SetAttr } // decode implements encoder.decode. func (t *Tsetattr) decode(b *buffer) { t.FID = b.ReadFID() t.Valid.decode(b) t.SetAttr.decode(b) } // encode implements encoder.encode. func (t *Tsetattr) encode(b *buffer) { b.WriteFID(t.FID) t.Valid.encode(b) t.SetAttr.encode(b) } // Type implements message.Type. func (*Tsetattr) Type() MsgType { return MsgTsetattr } // String implements fmt.Stringer. func (t *Tsetattr) String() string { return fmt.Sprintf("Tsetattr{FID: %d, Valid: %v, SetAttr: %s}", t.FID, t.Valid, t.SetAttr) } // Rsetattr is a setattr response. type Rsetattr struct { } // decode implements encoder.decode. func (*Rsetattr) decode(*buffer) { } // encode implements encoder.encode. func (*Rsetattr) encode(*buffer) { } // Type implements message.Type. func (*Rsetattr) Type() MsgType { return MsgRsetattr } // String implements fmt.Stringer. func (r *Rsetattr) String() string { return "Rsetattr{}" } // Tallocate is an allocate request. This is an extension to 9P protocol, not // present in the 9P2000.L standard. type Tallocate struct { FID FID Mode AllocateMode Offset uint64 Length uint64 } // decode implements encoder.decode. func (t *Tallocate) decode(b *buffer) { t.FID = b.ReadFID() t.Mode.decode(b) t.Offset = b.Read64() t.Length = b.Read64() } // encode implements encoder.encode. func (t *Tallocate) encode(b *buffer) { b.WriteFID(t.FID) t.Mode.encode(b) b.Write64(t.Offset) b.Write64(t.Length) } // Type implements message.Type. func (*Tallocate) Type() MsgType { return MsgTallocate } // String implements fmt.Stringer. func (t *Tallocate) String() string { return fmt.Sprintf("Tallocate{FID: %d, Offset: %d, Length: %d}", t.FID, t.Offset, t.Length) } // Rallocate is an allocate response. type Rallocate struct { } // decode implements encoder.decode. func (*Rallocate) decode(*buffer) { } // encode implements encoder.encode. func (*Rallocate) encode(*buffer) { } // Type implements message.Type. func (*Rallocate) Type() MsgType { return MsgRallocate } // String implements fmt.Stringer. func (r *Rallocate) String() string { return "Rallocate{}" } // Tlistxattr is a listxattr request. type Tlistxattr struct { // FID refers to the file on which to list xattrs. FID FID // Size is the buffer size for the xattr list. Size uint64 } // decode implements encoder.decode. func (t *Tlistxattr) decode(b *buffer) { t.FID = b.ReadFID() t.Size = b.Read64() } // encode implements encoder.encode. func (t *Tlistxattr) encode(b *buffer) { b.WriteFID(t.FID) b.Write64(t.Size) } // Type implements message.Type. func (*Tlistxattr) Type() MsgType { return MsgTlistxattr } // String implements fmt.Stringer. func (t *Tlistxattr) String() string { return fmt.Sprintf("Tlistxattr{FID: %d, Size: %d}", t.FID, t.Size) } // Rlistxattr is a listxattr response. type Rlistxattr struct { // Xattrs is a list of extended attribute names. Xattrs []string } // decode implements encoder.decode. func (r *Rlistxattr) decode(b *buffer) { n := b.Read16() r.Xattrs = r.Xattrs[:0] for i := 0; i < int(n); i++ { r.Xattrs = append(r.Xattrs, b.ReadString()) } } // encode implements encoder.encode. func (r *Rlistxattr) encode(b *buffer) { b.Write16(uint16(len(r.Xattrs))) for _, x := range r.Xattrs { b.WriteString(x) } } // Type implements message.Type. func (*Rlistxattr) Type() MsgType { return MsgRlistxattr } // String implements fmt.Stringer. func (r *Rlistxattr) String() string { return fmt.Sprintf("Rlistxattr{Xattrs: %v}", r.Xattrs) } // Txattrwalk walks extended attributes. type Txattrwalk struct { // FID is the FID to check for attributes. FID FID // NewFID is the new FID associated with the attributes. NewFID FID // Name is the attribute name. Name string } // decode implements encoder.decode. func (t *Txattrwalk) decode(b *buffer) { t.FID = b.ReadFID() t.NewFID = b.ReadFID() t.Name = b.ReadString() } // encode implements encoder.encode. func (t *Txattrwalk) encode(b *buffer) { b.WriteFID(t.FID) b.WriteFID(t.NewFID) b.WriteString(t.Name) } // Type implements message.Type. func (*Txattrwalk) Type() MsgType { return MsgTxattrwalk } // String implements fmt.Stringer. func (t *Txattrwalk) String() string { return fmt.Sprintf("Txattrwalk{FID: %d, NewFID: %d, Name: %s}", t.FID, t.NewFID, t.Name) } // Rxattrwalk is a xattrwalk response. type Rxattrwalk struct { // Size is the size of the extended attribute. Size uint64 } // decode implements encoder.decode. func (r *Rxattrwalk) decode(b *buffer) { r.Size = b.Read64() } // encode implements encoder.encode. func (r *Rxattrwalk) encode(b *buffer) { b.Write64(r.Size) } // Type implements message.Type. func (*Rxattrwalk) Type() MsgType { return MsgRxattrwalk } // String implements fmt.Stringer. func (r *Rxattrwalk) String() string { return fmt.Sprintf("Rxattrwalk{Size: %d}", r.Size) } // Txattrcreate prepare to set extended attributes. type Txattrcreate struct { // FID is input/output parameter, it identifies the file on which // extended attributes will be set but after successful Rxattrcreate // it is used to write the extended attribute value. FID FID // Name is the attribute name. Name string // Size of the attribute value. When the FID is clunked it has to match // the number of bytes written to the FID. AttrSize uint64 // Linux setxattr(2) flags. Flags uint32 } // decode implements encoder.decode. func (t *Txattrcreate) decode(b *buffer) { t.FID = b.ReadFID() t.Name = b.ReadString() t.AttrSize = b.Read64() t.Flags = b.Read32() } // encode implements encoder.encode. func (t *Txattrcreate) encode(b *buffer) { b.WriteFID(t.FID) b.WriteString(t.Name) b.Write64(t.AttrSize) b.Write32(t.Flags) } // Type implements message.Type. func (*Txattrcreate) Type() MsgType { return MsgTxattrcreate } // String implements fmt.Stringer. func (t *Txattrcreate) String() string { return fmt.Sprintf("Txattrcreate{FID: %d, Name: %s, AttrSize: %d, Flags: %d}", t.FID, t.Name, t.AttrSize, t.Flags) } // Rxattrcreate is a xattrcreate response. type Rxattrcreate struct { } // decode implements encoder.decode. func (r *Rxattrcreate) decode(*buffer) { } // encode implements encoder.encode. func (r *Rxattrcreate) encode(*buffer) { } // Type implements message.Type. func (*Rxattrcreate) Type() MsgType { return MsgRxattrcreate } // String implements fmt.Stringer. func (r *Rxattrcreate) String() string { return "Rxattrcreate{}" } // Tgetxattr is a getxattr request. type Tgetxattr struct { // FID refers to the file for which to get xattrs. FID FID // Name is the xattr to get. Name string // Size is the buffer size for the xattr to get. Size uint64 } // decode implements encoder.decode. func (t *Tgetxattr) decode(b *buffer) { t.FID = b.ReadFID() t.Name = b.ReadString() t.Size = b.Read64() } // encode implements encoder.encode. func (t *Tgetxattr) encode(b *buffer) { b.WriteFID(t.FID) b.WriteString(t.Name) b.Write64(t.Size) } // Type implements message.Type. func (*Tgetxattr) Type() MsgType { return MsgTgetxattr } // String implements fmt.Stringer. func (t *Tgetxattr) String() string { return fmt.Sprintf("Tgetxattr{FID: %d, Name: %s, Size: %d}", t.FID, t.Name, t.Size) } // Rgetxattr is a getxattr response. type Rgetxattr struct { // Value is the extended attribute value. Value string } // decode implements encoder.decode. func (r *Rgetxattr) decode(b *buffer) { r.Value = b.ReadString() } // encode implements encoder.encode. func (r *Rgetxattr) encode(b *buffer) { b.WriteString(r.Value) } // Type implements message.Type. func (*Rgetxattr) Type() MsgType { return MsgRgetxattr } // String implements fmt.Stringer. func (r *Rgetxattr) String() string { return fmt.Sprintf("Rgetxattr{Value: %s}", r.Value) } // Tsetxattr sets extended attributes. type Tsetxattr struct { // FID refers to the file on which to set xattrs. FID FID // Name is the attribute name. Name string // Value is the attribute value. Value string // Linux setxattr(2) flags. Flags uint32 } // decode implements encoder.decode. func (t *Tsetxattr) decode(b *buffer) { t.FID = b.ReadFID() t.Name = b.ReadString() t.Value = b.ReadString() t.Flags = b.Read32() } // encode implements encoder.encode. func (t *Tsetxattr) encode(b *buffer) { b.WriteFID(t.FID) b.WriteString(t.Name) b.WriteString(t.Value) b.Write32(t.Flags) } // Type implements message.Type. func (*Tsetxattr) Type() MsgType { return MsgTsetxattr } // String implements fmt.Stringer. func (t *Tsetxattr) String() string { return fmt.Sprintf("Tsetxattr{FID: %d, Name: %s, Value: %s, Flags: %d}", t.FID, t.Name, t.Value, t.Flags) } // Rsetxattr is a setxattr response. type Rsetxattr struct { } // decode implements encoder.decode. func (r *Rsetxattr) decode(*buffer) { } // encode implements encoder.encode. func (r *Rsetxattr) encode(*buffer) { } // Type implements message.Type. func (*Rsetxattr) Type() MsgType { return MsgRsetxattr } // String implements fmt.Stringer. func (r *Rsetxattr) String() string { return "Rsetxattr{}" } // Tremovexattr is a removexattr request. type Tremovexattr struct { // FID refers to the file on which to set xattrs. FID FID // Name is the attribute name. Name string } // decode implements encoder.decode. func (t *Tremovexattr) decode(b *buffer) { t.FID = b.ReadFID() t.Name = b.ReadString() } // encode implements encoder.encode. func (t *Tremovexattr) encode(b *buffer) { b.WriteFID(t.FID) b.WriteString(t.Name) } // Type implements message.Type. func (*Tremovexattr) Type() MsgType { return MsgTremovexattr } // String implements fmt.Stringer. func (t *Tremovexattr) String() string { return fmt.Sprintf("Tremovexattr{FID: %d, Name: %s}", t.FID, t.Name) } // Rremovexattr is a removexattr response. type Rremovexattr struct { } // decode implements encoder.decode. func (r *Rremovexattr) decode(*buffer) { } // encode implements encoder.encode. func (r *Rremovexattr) encode(*buffer) { } // Type implements message.Type. func (*Rremovexattr) Type() MsgType { return MsgRremovexattr } // String implements fmt.Stringer. func (r *Rremovexattr) String() string { return "Rremovexattr{}" } // Treaddir is a readdir request. type Treaddir struct { // Directory is the directory FID to read. Directory FID // Offset is the offset to read at. Offset uint64 // Count is the number of bytes to read. Count uint32 } // decode implements encoder.decode. func (t *Treaddir) decode(b *buffer) { t.Directory = b.ReadFID() t.Offset = b.Read64() t.Count = b.Read32() } // encode implements encoder.encode. func (t *Treaddir) encode(b *buffer) { b.WriteFID(t.Directory) b.Write64(t.Offset) b.Write32(t.Count) } // Type implements message.Type. func (*Treaddir) Type() MsgType { return MsgTreaddir } // String implements fmt.Stringer. func (t *Treaddir) String() string { return fmt.Sprintf("Treaddir{DirectoryFID: %d, Offset: %d, Count: %d}", t.Directory, t.Offset, t.Count) } // Rreaddir is a readdir response. type Rreaddir struct { // Count is the byte limit. // // This should always be set from the Treaddir request. Count uint32 // Entries are the resulting entries. // // This may be constructed in decode. Entries []Dirent // payload is the encoded payload. // // This is constructed by encode. payload []byte } // decode implements encoder.decode. func (r *Rreaddir) decode(b *buffer) { r.Count = b.Read32() entriesBuf := buffer{data: r.payload} r.Entries = r.Entries[:0] for { var d Dirent d.decode(&entriesBuf) if entriesBuf.isOverrun() { // Couldn't decode a complete entry. break } r.Entries = append(r.Entries, d) } } // encode implements encoder.encode. func (r *Rreaddir) encode(b *buffer) { entriesBuf := buffer{} payloadSize := 0 for _, d := range r.Entries { d.encode(&entriesBuf) if len(entriesBuf.data) > int(r.Count) { break } payloadSize = len(entriesBuf.data) } r.Count = uint32(payloadSize) r.payload = entriesBuf.data[:payloadSize] b.Write32(r.Count) } // Type implements message.Type. func (*Rreaddir) Type() MsgType { return MsgRreaddir } // FixedSize implements payloader.FixedSize. func (*Rreaddir) FixedSize() uint32 { return 4 } // Payload implements payloader.Payload. func (r *Rreaddir) Payload() []byte { return r.payload } // SetPayload implements payloader.SetPayload. func (r *Rreaddir) SetPayload(p []byte) { r.payload = p } // String implements fmt.Stringer. func (r *Rreaddir) String() string { return fmt.Sprintf("Rreaddir{Count: %d, Entries: %s}", r.Count, r.Entries) } // Tfsync is an fsync request. type Tfsync struct { // FID is the fid to sync. FID FID } // decode implements encoder.decode. func (t *Tfsync) decode(b *buffer) { t.FID = b.ReadFID() } // encode implements encoder.encode. func (t *Tfsync) encode(b *buffer) { b.WriteFID(t.FID) } // Type implements message.Type. func (*Tfsync) Type() MsgType { return MsgTfsync } // String implements fmt.Stringer. func (t *Tfsync) String() string { return fmt.Sprintf("Tfsync{FID: %d}", t.FID) } // Rfsync is an fsync response. type Rfsync struct { } // decode implements encoder.decode. func (*Rfsync) decode(*buffer) { } // encode implements encoder.encode. func (*Rfsync) encode(*buffer) { } // Type implements message.Type. func (*Rfsync) Type() MsgType { return MsgRfsync } // String implements fmt.Stringer. func (r *Rfsync) String() string { return "Rfsync{}" } // Tstatfs is a stat request. type Tstatfs struct { // FID is the root. FID FID } // decode implements encoder.decode. func (t *Tstatfs) decode(b *buffer) { t.FID = b.ReadFID() } // encode implements encoder.encode. func (t *Tstatfs) encode(b *buffer) { b.WriteFID(t.FID) } // Type implements message.Type. func (*Tstatfs) Type() MsgType { return MsgTstatfs } // String implements fmt.Stringer. func (t *Tstatfs) String() string { return fmt.Sprintf("Tstatfs{FID: %d}", t.FID) } // Rstatfs is the response for a Tstatfs. type Rstatfs struct { // FSStat is the stat result. FSStat FSStat } // decode implements encoder.decode. func (r *Rstatfs) decode(b *buffer) { r.FSStat.decode(b) } // encode implements encoder.encode. func (r *Rstatfs) encode(b *buffer) { r.FSStat.encode(b) } // Type implements message.Type. func (*Rstatfs) Type() MsgType { return MsgRstatfs } // String implements fmt.Stringer. func (r *Rstatfs) String() string { return fmt.Sprintf("Rstatfs{FSStat: %v}", r.FSStat) } // Tflushf is a flush file request, not to be confused with Tflush. type Tflushf struct { // FID is the FID to be flushed. FID FID } // decode implements encoder.decode. func (t *Tflushf) decode(b *buffer) { t.FID = b.ReadFID() } // encode implements encoder.encode. func (t *Tflushf) encode(b *buffer) { b.WriteFID(t.FID) } // Type implements message.Type. func (*Tflushf) Type() MsgType { return MsgTflushf } // String implements fmt.Stringer. func (t *Tflushf) String() string { return fmt.Sprintf("Tflushf{FID: %d}", t.FID) } // Rflushf is a flush file response. type Rflushf struct { } // decode implements encoder.decode. func (*Rflushf) decode(*buffer) { } // encode implements encoder.encode. func (*Rflushf) encode(*buffer) { } // Type implements message.Type. func (*Rflushf) Type() MsgType { return MsgRflushf } // String implements fmt.Stringer. func (*Rflushf) String() string { return "Rflushf{}" } // Twalkgetattr is a walk request. type Twalkgetattr struct { // FID is the FID to be walked. FID FID // NewFID is the resulting FID. NewFID FID // Names are the set of names to be walked. Names []string } // decode implements encoder.decode. func (t *Twalkgetattr) decode(b *buffer) { t.FID = b.ReadFID() t.NewFID = b.ReadFID() n := b.Read16() t.Names = t.Names[:0] for i := 0; i < int(n); i++ { t.Names = append(t.Names, b.ReadString()) } } // encode implements encoder.encode. func (t *Twalkgetattr) encode(b *buffer) { b.WriteFID(t.FID) b.WriteFID(t.NewFID) b.Write16(uint16(len(t.Names))) for _, name := range t.Names { b.WriteString(name) } } // Type implements message.Type. func (*Twalkgetattr) Type() MsgType { return MsgTwalkgetattr } // String implements fmt.Stringer. func (t *Twalkgetattr) String() string { return fmt.Sprintf("Twalkgetattr{FID: %d, NewFID: %d, Names: %v}", t.FID, t.NewFID, t.Names) } // Rwalkgetattr is a walk response. type Rwalkgetattr struct { // Valid indicates which fields are valid in the Attr below. Valid AttrMask // Attr is the set of attributes for the last QID (the file walked to). Attr Attr // QIDs are the set of QIDs returned. QIDs []QID } // decode implements encoder.decode. func (r *Rwalkgetattr) decode(b *buffer) { r.Valid.decode(b) r.Attr.decode(b) n := b.Read16() r.QIDs = r.QIDs[:0] for i := 0; i < int(n); i++ { var q QID q.decode(b) r.QIDs = append(r.QIDs, q) } } // encode implements encoder.encode. func (r *Rwalkgetattr) encode(b *buffer) { r.Valid.encode(b) r.Attr.encode(b) b.Write16(uint16(len(r.QIDs))) for _, q := range r.QIDs { q.encode(b) } } // Type implements message.Type. func (*Rwalkgetattr) Type() MsgType { return MsgRwalkgetattr } // String implements fmt.Stringer. func (r *Rwalkgetattr) String() string { return fmt.Sprintf("Rwalkgetattr{Valid: %s, Attr: %s, QIDs: %v}", r.Valid, r.Attr, r.QIDs) } // Tucreate is a Tlcreate message that includes a UID. type Tucreate struct { Tlcreate // UID is the UID to use as the effective UID in creation messages. UID UID } // decode implements encoder.decode. func (t *Tucreate) decode(b *buffer) { t.Tlcreate.decode(b) t.UID = b.ReadUID() } // encode implements encoder.encode. func (t *Tucreate) encode(b *buffer) { t.Tlcreate.encode(b) b.WriteUID(t.UID) } // Type implements message.Type. func (t *Tucreate) Type() MsgType { return MsgTucreate } // String implements fmt.Stringer. func (t *Tucreate) String() string { return fmt.Sprintf("Tucreate{Tlcreate: %v, UID: %d}", &t.Tlcreate, t.UID) } // Rucreate is a file creation response. type Rucreate struct { Rlcreate } // Type implements message.Type. func (*Rucreate) Type() MsgType { return MsgRucreate } // String implements fmt.Stringer. func (r *Rucreate) String() string { return fmt.Sprintf("Rucreate{%v}", &r.Rlcreate) } // Tumkdir is a Tmkdir message that includes a UID. type Tumkdir struct { Tmkdir // UID is the UID to use as the effective UID in creation messages. UID UID } // decode implements encoder.decode. func (t *Tumkdir) decode(b *buffer) { t.Tmkdir.decode(b) t.UID = b.ReadUID() } // encode implements encoder.encode. func (t *Tumkdir) encode(b *buffer) { t.Tmkdir.encode(b) b.WriteUID(t.UID) } // Type implements message.Type. func (t *Tumkdir) Type() MsgType { return MsgTumkdir } // String implements fmt.Stringer. func (t *Tumkdir) String() string { return fmt.Sprintf("Tumkdir{Tmkdir: %v, UID: %d}", &t.Tmkdir, t.UID) } // Rumkdir is a umkdir response. type Rumkdir struct { Rmkdir } // Type implements message.Type. func (*Rumkdir) Type() MsgType { return MsgRumkdir } // String implements fmt.Stringer. func (r *Rumkdir) String() string { return fmt.Sprintf("Rumkdir{%v}", &r.Rmkdir) } // Tumknod is a Tmknod message that includes a UID. type Tumknod struct { Tmknod // UID is the UID to use as the effective UID in creation messages. UID UID } // decode implements encoder.decode. func (t *Tumknod) decode(b *buffer) { t.Tmknod.decode(b) t.UID = b.ReadUID() } // encode implements encoder.encode. func (t *Tumknod) encode(b *buffer) { t.Tmknod.encode(b) b.WriteUID(t.UID) } // Type implements message.Type. func (t *Tumknod) Type() MsgType { return MsgTumknod } // String implements fmt.Stringer. func (t *Tumknod) String() string { return fmt.Sprintf("Tumknod{Tmknod: %v, UID: %d}", &t.Tmknod, t.UID) } // Rumknod is a umknod response. type Rumknod struct { Rmknod } // Type implements message.Type. func (*Rumknod) Type() MsgType { return MsgRumknod } // String implements fmt.Stringer. func (r *Rumknod) String() string { return fmt.Sprintf("Rumknod{%v}", &r.Rmknod) } // Tusymlink is a Tsymlink message that includes a UID. type Tusymlink struct { Tsymlink // UID is the UID to use as the effective UID in creation messages. UID UID } // decode implements encoder.decode. func (t *Tusymlink) decode(b *buffer) { t.Tsymlink.decode(b) t.UID = b.ReadUID() } // encode implements encoder.encode. func (t *Tusymlink) encode(b *buffer) { t.Tsymlink.encode(b) b.WriteUID(t.UID) } // Type implements message.Type. func (t *Tusymlink) Type() MsgType { return MsgTusymlink } // String implements fmt.Stringer. func (t *Tusymlink) String() string { return fmt.Sprintf("Tusymlink{Tsymlink: %v, UID: %d}", &t.Tsymlink, t.UID) } // Rusymlink is a usymlink response. type Rusymlink struct { Rsymlink } // Type implements message.Type. func (*Rusymlink) Type() MsgType { return MsgRusymlink } // String implements fmt.Stringer. func (r *Rusymlink) String() string { return fmt.Sprintf("Rusymlink{%v}", &r.Rsymlink) } // Tlconnect is a connect request. type Tlconnect struct { // FID is the FID to be connected. FID FID // Flags are the connect flags. Flags ConnectFlags } // decode implements encoder.decode. func (t *Tlconnect) decode(b *buffer) { t.FID = b.ReadFID() t.Flags = b.ReadConnectFlags() } // encode implements encoder.encode. func (t *Tlconnect) encode(b *buffer) { b.WriteFID(t.FID) b.WriteConnectFlags(t.Flags) } // Type implements message.Type. func (*Tlconnect) Type() MsgType { return MsgTlconnect } // String implements fmt.Stringer. func (t *Tlconnect) String() string { return fmt.Sprintf("Tlconnect{FID: %d, Flags: %v}", t.FID, t.Flags) } // Rlconnect is a connect response. type Rlconnect struct { filePayload } // decode implements encoder.decode. func (r *Rlconnect) decode(*buffer) {} // encode implements encoder.encode. func (r *Rlconnect) encode(*buffer) {} // Type implements message.Type. func (*Rlconnect) Type() MsgType { return MsgRlconnect } // String implements fmt.Stringer. func (r *Rlconnect) String() string { return fmt.Sprintf("Rlconnect{File: %v}", r.File) } // Tchannel creates a new channel. type Tchannel struct { // ID is the channel ID. ID uint32 // Control is 0 if the Rchannel response should provide the flipcall // component of the channel, and 1 if the Rchannel response should // provide the fdchannel component of the channel. Control uint32 } // decode implements encoder.decode. func (t *Tchannel) decode(b *buffer) { t.ID = b.Read32() t.Control = b.Read32() } // encode implements encoder.encode. func (t *Tchannel) encode(b *buffer) { b.Write32(t.ID) b.Write32(t.Control) } // Type implements message.Type. func (*Tchannel) Type() MsgType { return MsgTchannel } // String implements fmt.Stringer. func (t *Tchannel) String() string { return fmt.Sprintf("Tchannel{ID: %d, Control: %d}", t.ID, t.Control) } // Rchannel is the channel response. type Rchannel struct { Offset uint64 Length uint64 filePayload } // decode implements encoder.decode. func (r *Rchannel) decode(b *buffer) { r.Offset = b.Read64() r.Length = b.Read64() } // encode implements encoder.encode. func (r *Rchannel) encode(b *buffer) { b.Write64(r.Offset) b.Write64(r.Length) } // Type implements message.Type. func (*Rchannel) Type() MsgType { return MsgRchannel } // String implements fmt.Stringer. func (r *Rchannel) String() string { return fmt.Sprintf("Rchannel{Offset: %d, Length: %d}", r.Offset, r.Length) } const maxCacheSize = 3 // msgFactory is used to reduce allocations by caching messages for reuse. type msgFactory struct { create func() message cache chan message } // msgRegistry indexes all message factories by type. var msgRegistry registry type registry struct { factories [math.MaxUint8]msgFactory // largestFixedSize is computed so that given some message size M, you can // compute the maximum payload size (e.g. for Twrite, Rread) with // M-largestFixedSize. You could do this individual on a per-message basis, // but it's easier to compute a single maximum safe payload. largestFixedSize uint32 } // get returns a new message by type. // // An error is returned in the case of an unknown message. // // This takes, and ignores, a message tag so that it may be used directly as a // lookupTagAndType function for recv (by design). func (r *registry) get(_ Tag, t MsgType) (message, error) { entry := &r.factories[t] if entry.create == nil { return nil, &ErrInvalidMsgType{t} } select { case msg := <-entry.cache: return msg, nil default: return entry.create(), nil } } func (r *registry) put(msg message) { if p, ok := msg.(payloader); ok { p.SetPayload(nil) } if f, ok := msg.(filer); ok { f.SetFilePayload(nil) } entry := &r.factories[msg.Type()] select { case entry.cache <- msg: default: } } // register registers the given message type. // // This may cause panic on failure and should only be used from init. func (r *registry) register(t MsgType, fn func() message) { if int(t) >= len(r.factories) { panic(fmt.Sprintf("message type %d is too large. It must be smaller than %d", t, len(r.factories))) } if r.factories[t].create != nil { panic(fmt.Sprintf("duplicate message type %d: first is %T, second is %T", t, r.factories[t].create(), fn())) } r.factories[t] = msgFactory{ create: fn, cache: make(chan message, maxCacheSize), } if size := calculateSize(fn()); size > r.largestFixedSize { r.largestFixedSize = size } } func calculateSize(m message) uint32 { if p, ok := m.(payloader); ok { return p.FixedSize() } var dataBuf buffer m.encode(&dataBuf) return uint32(len(dataBuf.data)) } func init() { msgRegistry.register(MsgRlerror, func() message { return &Rlerror{} }) msgRegistry.register(MsgTstatfs, func() message { return &Tstatfs{} }) msgRegistry.register(MsgRstatfs, func() message { return &Rstatfs{} }) msgRegistry.register(MsgTlopen, func() message { return &Tlopen{} }) msgRegistry.register(MsgRlopen, func() message { return &Rlopen{} }) msgRegistry.register(MsgTlcreate, func() message { return &Tlcreate{} }) msgRegistry.register(MsgRlcreate, func() message { return &Rlcreate{} }) msgRegistry.register(MsgTsymlink, func() message { return &Tsymlink{} }) msgRegistry.register(MsgRsymlink, func() message { return &Rsymlink{} }) msgRegistry.register(MsgTmknod, func() message { return &Tmknod{} }) msgRegistry.register(MsgRmknod, func() message { return &Rmknod{} }) msgRegistry.register(MsgTrename, func() message { return &Trename{} }) msgRegistry.register(MsgRrename, func() message { return &Rrename{} }) msgRegistry.register(MsgTreadlink, func() message { return &Treadlink{} }) msgRegistry.register(MsgRreadlink, func() message { return &Rreadlink{} }) msgRegistry.register(MsgTgetattr, func() message { return &Tgetattr{} }) msgRegistry.register(MsgRgetattr, func() message { return &Rgetattr{} }) msgRegistry.register(MsgTsetattr, func() message { return &Tsetattr{} }) msgRegistry.register(MsgRsetattr, func() message { return &Rsetattr{} }) msgRegistry.register(MsgTlistxattr, func() message { return &Tlistxattr{} }) msgRegistry.register(MsgRlistxattr, func() message { return &Rlistxattr{} }) msgRegistry.register(MsgTxattrwalk, func() message { return &Txattrwalk{} }) msgRegistry.register(MsgRxattrwalk, func() message { return &Rxattrwalk{} }) msgRegistry.register(MsgTxattrcreate, func() message { return &Txattrcreate{} }) msgRegistry.register(MsgRxattrcreate, func() message { return &Rxattrcreate{} }) msgRegistry.register(MsgTgetxattr, func() message { return &Tgetxattr{} }) msgRegistry.register(MsgRgetxattr, func() message { return &Rgetxattr{} }) msgRegistry.register(MsgTsetxattr, func() message { return &Tsetxattr{} }) msgRegistry.register(MsgRsetxattr, func() message { return &Rsetxattr{} }) msgRegistry.register(MsgTremovexattr, func() message { return &Tremovexattr{} }) msgRegistry.register(MsgRremovexattr, func() message { return &Rremovexattr{} }) msgRegistry.register(MsgTreaddir, func() message { return &Treaddir{} }) msgRegistry.register(MsgRreaddir, func() message { return &Rreaddir{} }) msgRegistry.register(MsgTfsync, func() message { return &Tfsync{} }) msgRegistry.register(MsgRfsync, func() message { return &Rfsync{} }) msgRegistry.register(MsgTlink, func() message { return &Tlink{} }) msgRegistry.register(MsgRlink, func() message { return &Rlink{} }) msgRegistry.register(MsgTmkdir, func() message { return &Tmkdir{} }) msgRegistry.register(MsgRmkdir, func() message { return &Rmkdir{} }) msgRegistry.register(MsgTrenameat, func() message { return &Trenameat{} }) msgRegistry.register(MsgRrenameat, func() message { return &Rrenameat{} }) msgRegistry.register(MsgTunlinkat, func() message { return &Tunlinkat{} }) msgRegistry.register(MsgRunlinkat, func() message { return &Runlinkat{} }) msgRegistry.register(MsgTversion, func() message { return &Tversion{} }) msgRegistry.register(MsgRversion, func() message { return &Rversion{} }) msgRegistry.register(MsgTauth, func() message { return &Tauth{} }) msgRegistry.register(MsgRauth, func() message { return &Rauth{} }) msgRegistry.register(MsgTattach, func() message { return &Tattach{} }) msgRegistry.register(MsgRattach, func() message { return &Rattach{} }) msgRegistry.register(MsgTflush, func() message { return &Tflush{} }) msgRegistry.register(MsgRflush, func() message { return &Rflush{} }) msgRegistry.register(MsgTwalk, func() message { return &Twalk{} }) msgRegistry.register(MsgRwalk, func() message { return &Rwalk{} }) msgRegistry.register(MsgTread, func() message { return &Tread{} }) msgRegistry.register(MsgRread, func() message { return &Rread{} }) msgRegistry.register(MsgTwrite, func() message { return &Twrite{} }) msgRegistry.register(MsgRwrite, func() message { return &Rwrite{} }) msgRegistry.register(MsgTclunk, func() message { return &Tclunk{} }) msgRegistry.register(MsgRclunk, func() message { return &Rclunk{} }) msgRegistry.register(MsgTremove, func() message { return &Tremove{} }) msgRegistry.register(MsgRremove, func() message { return &Rremove{} }) msgRegistry.register(MsgTflushf, func() message { return &Tflushf{} }) msgRegistry.register(MsgRflushf, func() message { return &Rflushf{} }) msgRegistry.register(MsgTwalkgetattr, func() message { return &Twalkgetattr{} }) msgRegistry.register(MsgRwalkgetattr, func() message { return &Rwalkgetattr{} }) msgRegistry.register(MsgTucreate, func() message { return &Tucreate{} }) msgRegistry.register(MsgRucreate, func() message { return &Rucreate{} }) msgRegistry.register(MsgTumkdir, func() message { return &Tumkdir{} }) msgRegistry.register(MsgRumkdir, func() message { return &Rumkdir{} }) msgRegistry.register(MsgTumknod, func() message { return &Tumknod{} }) msgRegistry.register(MsgRumknod, func() message { return &Rumknod{} }) msgRegistry.register(MsgTusymlink, func() message { return &Tusymlink{} }) msgRegistry.register(MsgRusymlink, func() message { return &Rusymlink{} }) msgRegistry.register(MsgTlconnect, func() message { return &Tlconnect{} }) msgRegistry.register(MsgRlconnect, func() message { return &Rlconnect{} }) msgRegistry.register(MsgTallocate, func() message { return &Tallocate{} }) msgRegistry.register(MsgRallocate, func() message { return &Rallocate{} }) msgRegistry.register(MsgTchannel, func() message { return &Tchannel{} }) msgRegistry.register(MsgRchannel, func() message { return &Rchannel{} }) }