import (
"encoding/binary"
- "fmt"
- "os"
+ "io"
)
type flattenedFileObject struct {
FlatFileHeader FlatFileHeader
- FlatFileInformationForkHeader FlatFileInformationForkHeader
+ FlatFileInformationForkHeader FlatFileForkHeader
FlatFileInformationFork FlatFileInformationFork
- FlatFileDataForkHeader FlatFileDataForkHeader
- FileData []byte
+ FlatFileDataForkHeader FlatFileForkHeader
+ FlatFileResForkHeader FlatFileForkHeader
}
// FlatFileHeader is the first section of a "Flattened File Object". All fields have static values.
Format [4]byte // Always "FILP"
Version [2]byte // Always 1
RSVD [16]byte // Always empty zeros
- ForkCount [2]byte // Always 2
-}
-
-// NewFlatFileHeader returns a FlatFileHeader struct
-func NewFlatFileHeader() FlatFileHeader {
- return FlatFileHeader{
- Format: [4]byte{0x46, 0x49, 0x4c, 0x50}, // FILP
- Version: [2]byte{0, 1},
- RSVD: [16]byte{},
- ForkCount: [2]byte{0, 2},
- }
-}
-
-// FlatFileInformationForkHeader is the second section of a "Flattened File Object"
-type FlatFileInformationForkHeader struct {
- ForkType []byte // Always "INFO"
- CompressionType []byte // Always 0; Compression was never implemented in the Hotline protocol
- RSVD []byte // Always zeros
- DataSize []byte // Size of the flat file information fork
+ ForkCount [2]byte // Number of forks, either 2 or 3 if there is a resource fork
}
type FlatFileInformationFork struct {
RSVD []byte
CreateDate []byte
ModifyDate []byte
- NameScript []byte // TODO: what is this?
+ NameScript []byte
NameSize []byte // Length of file name (Maximum 128 characters)
Name []byte // File name
- CommentSize []byte // Length of file comment
+ CommentSize []byte // Length of the comment
Comment []byte // File comment
}
-func NewFlatFileInformationFork(fileName string) FlatFileInformationFork {
+func NewFlatFileInformationFork(fileName string, modifyTime []byte, typeSignature string, creatorSignature string) FlatFileInformationFork {
return FlatFileInformationFork{
- Platform: []byte("AMAC"), // TODO: Remove hardcode to support "AWIN" Platform (maybe?)
- TypeSignature: []byte(fileTypeFromFilename(fileName)), // TODO: Don't infer types from filename
- CreatorSignature: []byte(fileCreatorFromFilename(fileName)), // TODO: Don't infer types from filename
- Flags: []byte{0, 0, 0, 0}, // TODO: What is this?
- PlatformFlags: []byte{0, 0, 1, 0}, // TODO: What is this?
- RSVD: make([]byte, 32), // Unimplemented in Hotline Protocol
- CreateDate: []byte{0x07, 0x70, 0x00, 0x00, 0xba, 0x74, 0x24, 0x73}, // TODO: implement
- ModifyDate: []byte{0x07, 0x70, 0x00, 0x00, 0xba, 0x74, 0x24, 0x73}, // TODO: implement
- NameScript: make([]byte, 2), // TODO: What is this?
+ Platform: []byte("AMAC"), // TODO: Remove hardcode to support "AWIN" Platform (maybe?)
+ TypeSignature: []byte(typeSignature), // TODO: Don't infer types from filename
+ CreatorSignature: []byte(creatorSignature), // TODO: Don't infer types from filename
+ Flags: []byte{0, 0, 0, 0}, // TODO: What is this?
+ PlatformFlags: []byte{0, 0, 1, 0}, // TODO: What is this?
+ RSVD: make([]byte, 32), // Unimplemented in Hotline Protocol
+ CreateDate: modifyTime, // some filesystems don't support createTime
+ ModifyDate: modifyTime,
+ NameScript: make([]byte, 2), // TODO: What is this?
Name: []byte(fileName),
- Comment: []byte("TODO"), // TODO: implement (maybe?)
+ CommentSize: []byte{0, 0},
+ Comment: []byte{}, // TODO: implement (maybe?)
+ }
+}
+
+func (ffif *FlatFileInformationFork) friendlyType() []byte {
+ if name, ok := friendlyCreatorNames[string(ffif.TypeSignature)]; ok {
+ return []byte(name)
+ }
+ return ffif.TypeSignature
+}
+
+func (ffif *FlatFileInformationFork) friendlyCreator() []byte {
+ if name, ok := friendlyCreatorNames[string(ffif.CreatorSignature)]; ok {
+ return []byte(name)
}
+ return ffif.CreatorSignature
}
-// Size of the flat file information fork, which is the fixed size of 72 bytes
-// plus the number of bytes in the FileName
-// TODO: plus the size of the Comment!
-func (ffif FlatFileInformationFork) DataSize() []byte {
+func (ffif *FlatFileInformationFork) setComment(comment []byte) error {
+ ffif.CommentSize = make([]byte, 2)
+ ffif.Comment = comment
+ binary.BigEndian.PutUint16(ffif.CommentSize, uint16(len(comment)))
+
+ // TODO: return err if comment is too long
+ return nil
+}
+
+// DataSize calculates the size of the flat file information fork, which is
+// 72 bytes for the fixed length fields plus the length of the Name + Comment
+func (ffif *FlatFileInformationFork) DataSize() []byte {
size := make([]byte, 4)
- nameLen := len(ffif.Name)
- //TODO: Can I do math directly on two byte slices?
- dataSize := nameLen + 74
+
+ dataSize := len(ffif.Name) + len(ffif.Comment) + 74 // 74 = len of fixed size headers
binary.BigEndian.PutUint32(size, uint32(dataSize))
return size
}
-func (ffo flattenedFileObject) TransferSize() []byte {
+func (ffif *FlatFileInformationFork) Size() [4]byte {
+ size := [4]byte{}
+
+ dataSize := len(ffif.Name) + len(ffif.Comment) + 74 // 74 = len of fixed size headers
+
+ binary.BigEndian.PutUint32(size[:], uint32(dataSize))
+
+ return size
+}
+
+func (ffo *flattenedFileObject) TransferSize(offset int64) []byte {
+ // get length of the flattenedFileObject, including the info fork
payloadSize := len(ffo.BinaryMarshal())
- dataSize := binary.BigEndian.Uint32(ffo.FlatFileDataForkHeader.DataSize)
- transferSize := make([]byte, 4)
- binary.BigEndian.PutUint32(transferSize, dataSize+uint32(payloadSize))
+ // length of data fork
+ dataSize := binary.BigEndian.Uint32(ffo.FlatFileDataForkHeader.DataSize[:])
+
+ // length of resource fork
+ resForkSize := binary.BigEndian.Uint32(ffo.FlatFileResForkHeader.DataSize[:])
- return transferSize
+ size := make([]byte, 4)
+ binary.BigEndian.PutUint32(size[:], dataSize+resForkSize+uint32(payloadSize)-uint32(offset))
+
+ return size
}
-func (ffif FlatFileInformationFork) ReadNameSize() []byte {
+func (ffif *FlatFileInformationFork) ReadNameSize() []byte {
size := make([]byte, 2)
binary.BigEndian.PutUint16(size, uint16(len(ffif.Name)))
return size
}
-type FlatFileDataForkHeader struct {
- ForkType []byte
- CompressionType []byte
- RSVD []byte
- DataSize []byte
+type FlatFileForkHeader struct {
+ ForkType [4]byte // Either INFO, DATA or MACR
+ CompressionType [4]byte
+ RSVD [4]byte
+ DataSize [4]byte
}
-// ReadFlattenedFileObject parses a byte slice into a flattenedFileObject
-func ReadFlattenedFileObject(bytes []byte) flattenedFileObject {
- nameSize := bytes[110:112]
- bs := binary.BigEndian.Uint16(nameSize)
+func (ffif *FlatFileInformationFork) MarshalBinary() []byte {
+ var b []byte
+ b = append(b, ffif.Platform...)
+ b = append(b, ffif.TypeSignature...)
+ b = append(b, ffif.CreatorSignature...)
+ b = append(b, ffif.Flags...)
+ b = append(b, ffif.PlatformFlags...)
+ b = append(b, ffif.RSVD...)
+ b = append(b, ffif.CreateDate...)
+ b = append(b, ffif.ModifyDate...)
+ b = append(b, ffif.NameScript...)
+ b = append(b, ffif.ReadNameSize()...)
+ b = append(b, ffif.Name...)
+ b = append(b, ffif.CommentSize...)
+ b = append(b, ffif.Comment...)
+
+ return b
+}
- nameEnd := 112 + bs
-
- commentSize := bytes[nameEnd : nameEnd+2]
- commentLen := binary.BigEndian.Uint16(commentSize)
-
- commentStartPos := int(nameEnd) + 2
- commentEndPos := int(nameEnd) + 2 + int(commentLen)
-
- comment := bytes[commentStartPos:commentEndPos]
-
- //dataSizeField := bytes[nameEnd+14+commentLen : nameEnd+18+commentLen]
- //dataSize := binary.BigEndian.Uint32(dataSizeField)
-
- ffo := flattenedFileObject{
- FlatFileHeader: NewFlatFileHeader(),
- FlatFileInformationForkHeader: FlatFileInformationForkHeader{
- ForkType: bytes[24:28],
- CompressionType: bytes[28:32],
- RSVD: bytes[32:36],
- DataSize: bytes[36:40],
- },
- FlatFileInformationFork: FlatFileInformationFork{
- Platform: bytes[40:44],
- TypeSignature: bytes[44:48],
- CreatorSignature: bytes[48:52],
- Flags: bytes[52:56],
- PlatformFlags: bytes[56:60],
- RSVD: bytes[60:92],
- CreateDate: bytes[92:100],
- ModifyDate: bytes[100:108],
- NameScript: bytes[108:110],
- NameSize: bytes[110:112],
- Name: bytes[112:nameEnd],
- CommentSize: bytes[nameEnd : nameEnd+2],
- Comment: comment,
- },
- FlatFileDataForkHeader: FlatFileDataForkHeader{
- ForkType: bytes[commentEndPos : commentEndPos+4],
- CompressionType: bytes[commentEndPos+4 : commentEndPos+8],
- RSVD: bytes[commentEndPos+8 : commentEndPos+12],
- DataSize: bytes[commentEndPos+12 : commentEndPos+16],
- },
+func (ffif *FlatFileInformationFork) UnmarshalBinary(b []byte) error {
+ nameSize := b[70:72]
+ bs := binary.BigEndian.Uint16(nameSize)
+ nameEnd := 72 + bs
+
+ ffif.Platform = b[0:4]
+ ffif.TypeSignature = b[4:8]
+ ffif.CreatorSignature = b[8:12]
+ ffif.Flags = b[12:16]
+ ffif.PlatformFlags = b[16:20]
+ ffif.RSVD = b[20:52]
+ ffif.CreateDate = b[52:60]
+ ffif.ModifyDate = b[60:68]
+ ffif.NameScript = b[68:70]
+ ffif.NameSize = b[70:72]
+ ffif.Name = b[72:nameEnd]
+
+ if len(b) > int(nameEnd) {
+ ffif.CommentSize = b[nameEnd : nameEnd+2]
+ commentLen := binary.BigEndian.Uint16(ffif.CommentSize)
+
+ commentStartPos := int(nameEnd) + 2
+ commentEndPos := int(nameEnd) + 2 + int(commentLen)
+
+ ffif.Comment = b[commentStartPos:commentEndPos]
}
- return ffo
+ return nil
}
-func (f flattenedFileObject) BinaryMarshal() []byte {
+func (ffo *flattenedFileObject) BinaryMarshal() []byte {
var out []byte
- out = append(out, f.FlatFileHeader.Format[:]...)
- out = append(out, f.FlatFileHeader.Version[:]...)
- out = append(out, f.FlatFileHeader.RSVD[:]...)
- out = append(out, f.FlatFileHeader.ForkCount[:]...)
+ out = append(out, ffo.FlatFileHeader.Format[:]...)
+ out = append(out, ffo.FlatFileHeader.Version[:]...)
+ out = append(out, ffo.FlatFileHeader.RSVD[:]...)
+ out = append(out, ffo.FlatFileHeader.ForkCount[:]...)
out = append(out, []byte("INFO")...)
out = append(out, []byte{0, 0, 0, 0}...)
out = append(out, make([]byte, 4)...)
- out = append(out, f.FlatFileInformationFork.DataSize()...)
-
- out = append(out, f.FlatFileInformationFork.Platform...)
- out = append(out, f.FlatFileInformationFork.TypeSignature...)
- out = append(out, f.FlatFileInformationFork.CreatorSignature...)
- out = append(out, f.FlatFileInformationFork.Flags...)
- out = append(out, f.FlatFileInformationFork.PlatformFlags...)
- out = append(out, f.FlatFileInformationFork.RSVD...)
- out = append(out, f.FlatFileInformationFork.CreateDate...)
- out = append(out, f.FlatFileInformationFork.ModifyDate...)
- out = append(out, f.FlatFileInformationFork.NameScript...)
- out = append(out, f.FlatFileInformationFork.ReadNameSize()...)
- out = append(out, f.FlatFileInformationFork.Name...)
-
- // TODO: Implement commentlen and comment field
- out = append(out, []byte{0, 0}...)
-
- out = append(out, f.FlatFileDataForkHeader.ForkType...)
- out = append(out, f.FlatFileDataForkHeader.CompressionType...)
- out = append(out, f.FlatFileDataForkHeader.RSVD...)
- out = append(out, f.FlatFileDataForkHeader.DataSize...)
+ out = append(out, ffo.FlatFileInformationFork.DataSize()...)
+
+ out = append(out, ffo.FlatFileInformationFork.Platform...)
+ out = append(out, ffo.FlatFileInformationFork.TypeSignature...)
+ out = append(out, ffo.FlatFileInformationFork.CreatorSignature...)
+ out = append(out, ffo.FlatFileInformationFork.Flags...)
+ out = append(out, ffo.FlatFileInformationFork.PlatformFlags...)
+ out = append(out, ffo.FlatFileInformationFork.RSVD...)
+ out = append(out, ffo.FlatFileInformationFork.CreateDate...)
+ out = append(out, ffo.FlatFileInformationFork.ModifyDate...)
+ out = append(out, ffo.FlatFileInformationFork.NameScript...)
+ out = append(out, ffo.FlatFileInformationFork.ReadNameSize()...)
+ out = append(out, ffo.FlatFileInformationFork.Name...)
+ out = append(out, ffo.FlatFileInformationFork.CommentSize...)
+ out = append(out, ffo.FlatFileInformationFork.Comment...)
+
+ out = append(out, ffo.FlatFileDataForkHeader.ForkType[:]...)
+ out = append(out, ffo.FlatFileDataForkHeader.CompressionType[:]...)
+ out = append(out, ffo.FlatFileDataForkHeader.RSVD[:]...)
+ out = append(out, ffo.FlatFileDataForkHeader.DataSize[:]...)
return out
}
-func NewFlattenedFileObject(filePath, fileName string) (*flattenedFileObject, error) {
- file, err := os.Open(fmt.Sprintf("%v/%v", filePath, fileName))
- if err != nil {
- return nil, err
+func (ffo *flattenedFileObject) ReadFrom(r io.Reader) (int, error) {
+ var n int
+
+ if err := binary.Read(r, binary.BigEndian, &ffo.FlatFileHeader); err != nil {
+ return n, err
}
- defer file.Close()
- fileInfo, err := file.Stat()
- if err != nil {
- return nil, err
+ if err := binary.Read(r, binary.BigEndian, &ffo.FlatFileInformationForkHeader); err != nil {
+ return n, err
}
- dataSize := make([]byte, 4)
- binary.BigEndian.PutUint32(dataSize, uint32(fileInfo.Size()))
-
- return &flattenedFileObject{
- FlatFileHeader: NewFlatFileHeader(),
- FlatFileInformationFork: NewFlatFileInformationFork(fileName),
- FlatFileDataForkHeader: FlatFileDataForkHeader{
- ForkType: []byte("DATA"),
- CompressionType: []byte{0, 0, 0, 0},
- RSVD: []byte{0, 0, 0, 0},
- DataSize: dataSize,
- },
- }, nil
+ dataLen := binary.BigEndian.Uint32(ffo.FlatFileInformationForkHeader.DataSize[:])
+ ffifBuf := make([]byte, dataLen)
+ if _, err := io.ReadFull(r, ffifBuf); err != nil {
+ return n, err
+ }
+
+ if err := ffo.FlatFileInformationFork.UnmarshalBinary(ffifBuf); err != nil {
+ return n, err
+ }
+
+ if err := binary.Read(r, binary.BigEndian, &ffo.FlatFileDataForkHeader); err != nil {
+ return n, err
+ }
+
+ return n, nil
+}
+
+func (ffo *flattenedFileObject) dataSize() int64 {
+ return int64(binary.BigEndian.Uint32(ffo.FlatFileDataForkHeader.DataSize[:]))
+}
+
+func (ffo *flattenedFileObject) rsrcSize() int64 {
+ return int64(binary.BigEndian.Uint32(ffo.FlatFileResForkHeader.DataSize[:]))
}
git.r.bdr.sh / rbdr / mobius / blobdiff