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449 lines
14 KiB
Go
449 lines
14 KiB
Go
// Copyright 2014 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package dwarf
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// This file implements the mapping from PC to lines.
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// TODO: Find a way to test this properly.
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// http://www.dwarfstd.org/doc/DWARF4.pdf Section 6.2 page 108
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import (
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"fmt"
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"sort"
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"strings"
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)
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// PCToLine returns the file and line number corresponding to the PC value.
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// It returns an error if a correspondence cannot be found.
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func (d *Data) PCToLine(pc uint64) (file string, line uint64, err error) {
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c := d.pcToLineEntries
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if len(c) == 0 {
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return "", 0, fmt.Errorf("PCToLine: no line table")
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}
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i := sort.Search(len(c), func(i int) bool { return c[i].pc > pc }) - 1
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// c[i] is now the entry in pcToLineEntries with the largest pc that is not
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// larger than the query pc.
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// The search has failed if:
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// - All pcs in c were larger than the query pc (i == -1).
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// - c[i] marked the end of a sequence of instructions (c[i].file == 0).
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// - c[i] is the last element of c, and isn't the end of a sequence of
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// instructions, and the search pc is much larger than c[i].pc. In this
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// case, we don't know the range of the last instruction, but the search
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// pc is probably past it.
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if i == -1 || c[i].file == 0 || (i+1 == len(c) && pc-c[i].pc > 1024) {
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return "", 0, fmt.Errorf("no source line defined for PC %#x", pc)
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}
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if c[i].file >= uint64(len(d.sourceFiles)) {
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return "", 0, fmt.Errorf("invalid file number in DWARF data")
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}
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return d.sourceFiles[c[i].file], c[i].line, nil
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}
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// LineToBreakpointPCs returns the PCs that should be used as breakpoints
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// corresponding to the given file and line number.
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// It returns an empty slice if no PCs were found.
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func (d *Data) LineToBreakpointPCs(file string, line uint64) ([]uint64, error) {
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compDir := d.compilationDirectory()
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// Find the closest match in the executable for the specified file.
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// We choose the file with the largest number of path components matching
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// at the end of the name. If there is a tie, we prefer files that are
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// under the compilation directory. If there is still a tie, we choose
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// the file with the shortest name.
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// TODO: handle duplicate file names in the DWARF?
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var bestFile struct {
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fileNum uint64 // Index of the file in the DWARF data.
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components int // Number of matching path components.
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length int // Length of the filename.
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underComp bool // File is under the compilation directory.
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}
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for filenum, filename := range d.sourceFiles {
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c := matchingPathComponentSuffixSize(filename, file)
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underComp := strings.HasPrefix(filename, compDir)
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better := false
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if c != bestFile.components {
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better = c > bestFile.components
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} else if underComp != bestFile.underComp {
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better = underComp
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} else {
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better = len(filename) < bestFile.length
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}
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if better {
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bestFile.fileNum = uint64(filenum)
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bestFile.components = c
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bestFile.length = len(filename)
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bestFile.underComp = underComp
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}
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}
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if bestFile.components == 0 {
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return nil, fmt.Errorf("couldn't find file %q", file)
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}
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c := d.lineToPCEntries[bestFile.fileNum]
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// c contains all (pc, line) pairs for the appropriate file.
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start := sort.Search(len(c), func(i int) bool { return c[i].line >= line })
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end := sort.Search(len(c), func(i int) bool { return c[i].line > line })
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// c[i].line == line for all i in the range [start, end).
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pcs := make([]uint64, 0, end-start)
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for i := start; i < end; i++ {
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pcs = append(pcs, c[i].pc)
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}
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return pcs, nil
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}
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// compilationDirectory finds the first compilation unit entry in d and returns
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// the compilation directory contained in it.
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// If it fails, it returns the empty string.
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func (d *Data) compilationDirectory() string {
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r := d.Reader()
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for {
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entry, err := r.Next()
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if entry == nil || err != nil {
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return ""
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}
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if entry.Tag == TagCompileUnit {
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name, _ := entry.Val(AttrCompDir).(string)
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return name
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}
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}
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}
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// matchingPathComponentSuffixSize returns the largest n such that the last n
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// components of the paths p1 and p2 are equal.
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// e.g. matchingPathComponentSuffixSize("a/b/x/y.go", "b/a/x/y.go") returns 2.
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func matchingPathComponentSuffixSize(p1, p2 string) int {
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// TODO: deal with other path separators.
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c1 := strings.Split(p1, "/")
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c2 := strings.Split(p2, "/")
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min := len(c1)
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if len(c2) < min {
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min = len(c2)
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}
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var n int
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for n = 0; n < min; n++ {
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if c1[len(c1)-1-n] != c2[len(c2)-1-n] {
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break
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}
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}
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return n
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}
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// Standard opcodes. Figure 37, page 178.
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// If an opcode >= lineMachine.prologue.opcodeBase, it is a special
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// opcode rather than the opcode defined in this table.
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const (
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lineStdCopy = 0x01
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lineStdAdvancePC = 0x02
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lineStdAdvanceLine = 0x03
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lineStdSetFile = 0x04
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lineStdSetColumn = 0x05
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lineStdNegateStmt = 0x06
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lineStdSetBasicBlock = 0x07
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lineStdConstAddPC = 0x08
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lineStdFixedAdvancePC = 0x09
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lineStdSetPrologueEnd = 0x0a
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lineStdSetEpilogueBegin = 0x0b
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lineStdSetISA = 0x0c
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)
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// Extended opcodes. Figure 38, page 179.
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const (
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lineStartExtendedOpcode = 0x00 // Not defined as a named constant in the spec.
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lineExtEndSequence = 0x01
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lineExtSetAddress = 0x02
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lineExtDefineFile = 0x03
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lineExtSetDiscriminator = 0x04 // New in version 4.
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lineExtLoUser = 0x80
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lineExtHiUser = 0xff
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)
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// lineHeader holds the information stored in the header of the line table for a
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// single compilation unit.
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// Section 6.2.4, page 112.
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type lineHeader struct {
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unitLength int
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version int
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headerLength int
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minInstructionLength int
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maxOpsPerInstruction int
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defaultIsStmt bool
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lineBase int
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lineRange int
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opcodeBase byte
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stdOpcodeLengths []byte
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include []string // entry 0 is empty; means current directory
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file []lineFile // entry 0 is empty.
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}
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// lineFile represents a file name stored in the PC/line table, usually in the header.
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type lineFile struct {
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name string
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index int // index into include directories
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time int // implementation-defined time of last modification
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length int // length in bytes, 0 if not available.
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}
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// lineMachine holds the registers evaluated during executing of the PC/line mapping engine.
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// Section 6.2.2, page 109.
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type lineMachine struct {
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// The program-counter value corresponding to a machine instruction generated by the compiler.
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address uint64
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// An unsigned integer representing the index of an operation within a VLIW
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// instruction. The index of the first operation is 0. For non-VLIW
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// architectures, this register will always be 0.
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// The address and op_index registers, taken together, form an operation
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// pointer that can reference any individual operation with the instruction
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// stream.
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opIndex uint64
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// An unsigned integer indicating the identity of the source file corresponding to a machine instruction.
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file uint64
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// An unsigned integer indicating a source line number. Lines are numbered
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// beginning at 1. The compiler may emit the value 0 in cases where an
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// instruction cannot be attributed to any source line.
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line uint64
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// An unsigned integer indicating a column number within a source line.
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// Columns are numbered beginning at 1. The value 0 is reserved to indicate
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// that a statement begins at the “left edge” of the line.
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column uint64
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// A boolean indicating that the current instruction is a recommended
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// breakpoint location. A recommended breakpoint location is intended to
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// “represent” a line, a statement and/or a semantically distinct subpart of a
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// statement.
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isStmt bool
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// A boolean indicating that the current instruction is the beginning of a basic
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// block.
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basicBlock bool
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// A boolean indicating that the current address is that of the first byte after
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// the end of a sequence of target machine instructions. end_sequence
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// terminates a sequence of lines; therefore other information in the same
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// row is not meaningful.
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endSequence bool
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// A boolean indicating that the current address is one (of possibly many)
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// where execution should be suspended for an entry breakpoint of a
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// function.
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prologueEnd bool
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// A boolean indicating that the current address is one (of possibly many)
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// where execution should be suspended for an exit breakpoint of a function.
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epilogueBegin bool
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// An unsigned integer whose value encodes the applicable instruction set
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// architecture for the current instruction.
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// The encoding of instruction sets should be shared by all users of a given
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// architecture. It is recommended that this encoding be defined by the ABI
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// authoring committee for each architecture.
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isa uint64
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// An unsigned integer identifying the block to which the current instruction
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// belongs. Discriminator values are assigned arbitrarily by the DWARF
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// producer and serve to distinguish among multiple blocks that may all be
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// associated with the same source file, line, and column. Where only one
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// block exists for a given source position, the discriminator value should be
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// zero.
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discriminator uint64
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// The header for the current compilation unit.
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// Not an actual register, but stored here for cleanliness.
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header lineHeader
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}
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// parseHeader parses the header describing the compilation unit in the line
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// table starting at the specified offset.
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func (m *lineMachine) parseHeader(b *buf) error {
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m.header = lineHeader{}
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m.header.unitLength = int(b.uint32()) // Note: We are assuming 32-bit DWARF format.
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if m.header.unitLength > len(b.data) {
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return fmt.Errorf("DWARF: bad PC/line header length")
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}
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m.header.version = int(b.uint16())
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m.header.headerLength = int(b.uint32())
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m.header.minInstructionLength = int(b.uint8())
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if m.header.version >= 4 {
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m.header.maxOpsPerInstruction = int(b.uint8())
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} else {
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m.header.maxOpsPerInstruction = 1
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}
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m.header.defaultIsStmt = b.uint8() != 0
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m.header.lineBase = int(int8(b.uint8()))
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m.header.lineRange = int(b.uint8())
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m.header.opcodeBase = b.uint8()
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m.header.stdOpcodeLengths = make([]byte, m.header.opcodeBase-1)
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copy(m.header.stdOpcodeLengths, b.bytes(int(m.header.opcodeBase-1)))
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m.header.include = make([]string, 1) // First entry is empty; file index entries are 1-indexed.
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// Includes
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for {
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name := b.string()
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if name == "" {
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break
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}
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m.header.include = append(m.header.include, name)
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}
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// Files
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m.header.file = make([]lineFile, 1, 10) // entries are 1-indexed in line number program.
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for {
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name := b.string()
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if name == "" {
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break
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}
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index := b.uint()
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time := b.uint()
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length := b.uint()
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f := lineFile{
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name: name,
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index: int(index),
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time: int(time),
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length: int(length),
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}
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m.header.file = append(m.header.file, f)
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}
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return nil
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}
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// Special opcodes, page 117.
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// There are seven steps to processing special opcodes. We break them up here
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// because the caller needs to output a row between steps 2 and 4, and because
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// we need to perform just step 2 for the opcode DW_LNS_const_add_pc.
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func (m *lineMachine) specialOpcodeStep1(opcode byte) {
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adjustedOpcode := int(opcode - m.header.opcodeBase)
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lineAdvance := m.header.lineBase + (adjustedOpcode % m.header.lineRange)
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m.line += uint64(lineAdvance)
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}
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func (m *lineMachine) specialOpcodeStep2(opcode byte) {
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adjustedOpcode := int(opcode - m.header.opcodeBase)
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advance := adjustedOpcode / m.header.lineRange
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delta := (int(m.opIndex) + advance) / m.header.maxOpsPerInstruction
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m.address += uint64(m.header.minInstructionLength * delta)
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m.opIndex = (m.opIndex + uint64(advance)) % uint64(m.header.maxOpsPerInstruction)
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}
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func (m *lineMachine) specialOpcodeSteps4To7() {
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m.basicBlock = false
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m.prologueEnd = false
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m.epilogueBegin = false
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m.discriminator = 0
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}
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// evalCompilationUnit reads the next compilation unit and calls f at each output row.
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// Line machine execution continues while f returns true.
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func (m *lineMachine) evalCompilationUnit(b *buf, f func(m *lineMachine) (cont bool)) error {
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m.reset()
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for len(b.data) > 0 {
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op := b.uint8()
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if op >= m.header.opcodeBase {
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m.specialOpcodeStep1(op)
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m.specialOpcodeStep2(op)
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// Step 3 is to output a row, so we call f here.
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if !f(m) {
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return nil
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}
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m.specialOpcodeSteps4To7()
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continue
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}
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switch op {
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case lineStartExtendedOpcode:
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if len(b.data) == 0 {
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return fmt.Errorf("DWARF: short extended opcode (1)")
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}
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size := b.uint()
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if uint64(len(b.data)) < size {
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return fmt.Errorf("DWARF: short extended opcode (2)")
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}
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op = b.uint8()
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switch op {
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case lineExtEndSequence:
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m.endSequence = true
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if !f(m) {
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return nil
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}
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if len(b.data) == 0 {
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return nil
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}
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m.reset()
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case lineExtSetAddress:
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m.address = b.addr()
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m.opIndex = 0
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case lineExtDefineFile:
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return fmt.Errorf("DWARF: unimplemented define_file op")
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case lineExtSetDiscriminator:
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discriminator := b.uint()
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m.discriminator = discriminator
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default:
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return fmt.Errorf("DWARF: unknown extended opcode %#x", op)
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}
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case lineStdCopy:
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if !f(m) {
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return nil
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}
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m.discriminator = 0
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m.basicBlock = false
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m.prologueEnd = false
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m.epilogueBegin = false
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case lineStdAdvancePC:
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advance := b.uint()
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delta := (int(m.opIndex) + int(advance)) / m.header.maxOpsPerInstruction
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m.address += uint64(m.header.minInstructionLength * delta)
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m.opIndex = (m.opIndex + uint64(advance)) % uint64(m.header.maxOpsPerInstruction)
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m.basicBlock = false
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m.prologueEnd = false
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m.epilogueBegin = false
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m.discriminator = 0
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case lineStdAdvanceLine:
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advance := b.int()
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m.line = uint64(int64(m.line) + advance)
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case lineStdSetFile:
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index := b.uint()
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m.file = index
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case lineStdSetColumn:
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column := b.uint()
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m.column = column
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case lineStdNegateStmt:
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m.isStmt = !m.isStmt
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case lineStdSetBasicBlock:
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m.basicBlock = true
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case lineStdFixedAdvancePC:
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m.address += uint64(b.uint16())
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m.opIndex = 0
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case lineStdSetPrologueEnd:
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m.prologueEnd = true
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case lineStdSetEpilogueBegin:
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m.epilogueBegin = true
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case lineStdSetISA:
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m.isa = b.uint()
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case lineStdConstAddPC:
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// Update the the address and op_index registers.
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m.specialOpcodeStep2(255)
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default:
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panic("not reached")
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}
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}
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return fmt.Errorf("DWARF: unexpected end of line number information")
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}
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// reset sets the machine's registers to the initial state. Page 111.
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func (m *lineMachine) reset() {
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m.address = 0
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m.opIndex = 0
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m.file = 1
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m.line = 1
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m.column = 0
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m.isStmt = m.header.defaultIsStmt
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m.basicBlock = false
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m.endSequence = false
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m.prologueEnd = false
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m.epilogueBegin = false
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m.isa = 0
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m.discriminator = 0
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}
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