package hexdump import ( "fq/internal/columnwriter" "fq/internal/num" "fq/pkg/bitio" "io" "strings" ) type Dumper struct { addrLen int addrBase int lineBytes int64 columnW *columnwriter.Writer separatorsW io.Writer startOffset int64 offset int64 hexFn func(b byte) string asciiFn func(b byte) string dumpHeaderFn func(s string) string dumpAddrFn func(s string) string column string hasWrittenHeader bool bitsBuf []byte bitsBufN int } // TODO: something more generic? bin, octal, arbitrary base? // TODO: template for columns? // TODO: merge with dump? // TODO: replace addrLen with highest address and calc instead // TODO: use dump options? config struct? func New(w io.Writer, startOffset int64, addrLen int, addrBase int, lineBytes int, hexFn func(b byte) string, asciiFn func(b byte) string, dumpHeaderFn func(s string) string, dumpAddrFn func(s string) string, column string) *Dumper { cw := columnwriter.New(w, []int{addrLen, 1, lineBytes*3 - 1, 1, lineBytes, 1}) return &Dumper{ addrLen: addrLen, addrBase: addrBase, lineBytes: int64(lineBytes), columnW: cw, separatorsW: io.MultiWriter(cw.Columns[1], cw.Columns[3], cw.Columns[5]), startOffset: startOffset, offset: startOffset - startOffset%int64(lineBytes), hexFn: hexFn, asciiFn: asciiFn, dumpHeaderFn: dumpHeaderFn, dumpAddrFn: dumpAddrFn, column: column, hasWrittenHeader: false, bitsBuf: make([]byte, 1), } } func (d *Dumper) flush() error { if _, err := d.columnW.Columns[0].Write([]byte( d.dumpAddrFn(num.PadFormatInt(((d.offset-1)/d.lineBytes)*d.lineBytes, d.addrBase, true, d.addrLen)))); err != nil { return err } if _, err := d.separatorsW.Write([]byte(d.column)); err != nil { return err } if err := d.columnW.Flush(); err != nil { return err } return nil } func (d *Dumper) WriteBits(p []byte, nBits int) (n int, err error) { pos := 0 rBits := nBits if d.bitsBufN > 0 { r := num.MinInt(8-d.bitsBufN, nBits) v := bitio.Read64(p, 0, r) bitio.Write64(v, r, d.bitsBuf, d.bitsBufN) d.bitsBufN += r if d.bitsBufN < 8 { return nBits, nil } if n, err := d.Write(d.bitsBuf); err != nil { return n * 8, err } pos = r rBits -= r } for rBits >= 8 { b := [1]byte{0} b[0] = byte(bitio.Read64(p, pos, 8)) if n, err := d.Write(b[:]); err != nil { return n * 8, err } pos += 8 rBits -= 8 } if rBits > 0 { d.bitsBuf[0] = byte(bitio.Read64(p, pos, rBits)) << (8 - rBits) d.bitsBufN = rBits } else { d.bitsBufN = 0 } return nBits, nil } func (d *Dumper) Write(p []byte) (n int, err error) { if !d.hasWrittenHeader { if _, err := d.separatorsW.Write([]byte(d.column)); err != nil { return 0, err } for i := int64(0); i < d.lineBytes; i++ { headerSB := &strings.Builder{} if _, err := headerSB.Write([]byte(num.PadFormatInt(i, d.addrBase, false, 2))); err != nil { return 0, err } if i < d.lineBytes-1 { if _, err := headerSB.Write([]byte(" ")); err != nil { return 0, err } } if _, err := d.columnW.Columns[2].Write([]byte(d.dumpHeaderFn(headerSB.String()))); err != nil { return 0, err } } if err := d.columnW.Flush(); err != nil { return 0, err } d.hasWrittenHeader = true } if d.offset < d.startOffset { r := int(d.startOffset - d.offset) if _, err := d.columnW.Columns[2].Write([]byte(strings.Repeat(" ", r))); err != nil { return n, err } if _, err := d.columnW.Columns[4].Write([]byte(strings.Repeat(" ", r))); err != nil { return n, err } d.offset = d.startOffset } for len(p) > 0 { cl := d.lineBytes - d.offset%d.lineBytes if cl == 0 { cl = d.lineBytes } if cl > int64(len(p)) { cl = int64(len(p)) } ps := p[0:cl] for _, b := range ps { d.offset++ if _, err := d.columnW.Columns[2].Write([]byte(d.hexFn(b))); err != nil { return n, err } if d.offset%d.lineBytes != 0 { if _, err := d.columnW.Columns[2].Write([]byte(" ")); err != nil { return n, err } } if _, err := d.columnW.Columns[4].Write([]byte(d.asciiFn(b))); err != nil { return n, err } n++ } if d.offset%d.lineBytes == 0 { if err := d.flush(); err != nil { return n, err } } p = p[cl:] } return n, nil } func (d *Dumper) Close() error { if d.offset == 0 || d.offset%d.lineBytes != 0 { return d.flush() } return nil }