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262 lines
7.4 KiB
Go
262 lines
7.4 KiB
Go
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package proc
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import (
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"errors"
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"fmt"
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"github.com/derekparker/delve/pkg/dwarf/frame"
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)
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// This code is partly adaped from runtime.gentraceback in
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// $GOROOT/src/runtime/traceback.go
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const runtimeStackBarrier = "runtime.stackBarrier"
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// NoReturnAddr is returned when return address
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// could not be found during stack trace.
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type NoReturnAddr struct {
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fn string
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}
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func (nra NoReturnAddr) Error() string {
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return fmt.Sprintf("could not find return address for %s", nra.fn)
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}
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// Stackframe represents a frame in a system stack.
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type Stackframe struct {
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// Address the function above this one on the call stack will return to.
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Current Location
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// Address of the call instruction for the function above on the call stack.
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Call Location
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// Start address of the stack frame.
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CFA int64
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// Description of the stack frame.
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FDE *frame.FrameDescriptionEntry
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// Return address for this stack frame (as read from the stack frame itself).
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Ret uint64
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// Address to the memory location containing the return address
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addrret uint64
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}
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// Scope returns a new EvalScope using this frame.
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func (frame *Stackframe) Scope(thread *Thread) *EvalScope {
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return &EvalScope{Thread: thread, PC: frame.Current.PC, CFA: frame.CFA}
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}
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// ReturnAddress returns the return address of the function
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// this thread is executing.
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func (t *Thread) ReturnAddress() (uint64, error) {
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locations, err := t.Stacktrace(2)
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if err != nil {
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return 0, err
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}
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if len(locations) < 2 {
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return 0, NoReturnAddr{locations[0].Current.Fn.BaseName()}
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}
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return locations[1].Current.PC, nil
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}
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func (t *Thread) stackIterator(stkbar []savedLR, stkbarPos int) (*stackIterator, error) {
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regs, err := t.Registers(false)
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if err != nil {
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return nil, err
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}
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return newStackIterator(t.dbp, regs.PC(), regs.SP(), regs.BP(), stkbar, stkbarPos), nil
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}
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// Stacktrace returns the stack trace for thread.
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// Note the locations in the array are return addresses not call addresses.
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func (t *Thread) Stacktrace(depth int) ([]Stackframe, error) {
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it, err := t.stackIterator(nil, -1)
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if err != nil {
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return nil, err
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}
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return it.stacktrace(depth)
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}
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func (g *G) stackIterator() (*stackIterator, error) {
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stkbar, err := g.stkbar()
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if err != nil {
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return nil, err
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}
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if g.thread != nil {
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return g.thread.stackIterator(stkbar, g.stkbarPos)
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}
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return newStackIterator(g.dbp, g.PC, g.SP, 0, stkbar, g.stkbarPos), nil
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}
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// Stacktrace returns the stack trace for a goroutine.
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// Note the locations in the array are return addresses not call addresses.
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func (g *G) Stacktrace(depth int) ([]Stackframe, error) {
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it, err := g.stackIterator()
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if err != nil {
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return nil, err
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}
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return it.stacktrace(depth)
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}
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// GoroutineLocation returns the location of the given
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// goroutine.
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func (dbp *Process) GoroutineLocation(g *G) *Location {
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f, l, fn := dbp.PCToLine(g.PC)
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return &Location{PC: g.PC, File: f, Line: l, Fn: fn}
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}
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// NullAddrError is an error for a null address.
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type NullAddrError struct{}
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func (n NullAddrError) Error() string {
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return "NULL address"
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}
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// stackIterator holds information
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// required to iterate and walk the program
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// stack.
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type stackIterator struct {
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pc, sp, bp uint64
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top bool
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atend bool
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frame Stackframe
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dbp *Process
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err error
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stackBarrierPC uint64
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stkbar []savedLR
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}
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type savedLR struct {
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ptr uint64
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val uint64
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}
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func newStackIterator(dbp *Process, pc, sp, bp uint64, stkbar []savedLR, stkbarPos int) *stackIterator {
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stackBarrierFunc := dbp.goSymTable.LookupFunc(runtimeStackBarrier) // stack barriers were removed in Go 1.9
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var stackBarrierPC uint64
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if stackBarrierFunc != nil && stkbar != nil {
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stackBarrierPC = stackBarrierFunc.Entry
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fn := dbp.goSymTable.PCToFunc(pc)
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if fn != nil && fn.Name == runtimeStackBarrier {
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// We caught the goroutine as it's executing the stack barrier, we must
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// determine whether or not g.stackPos has already been incremented or not.
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if len(stkbar) > 0 && stkbar[stkbarPos].ptr < sp {
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// runtime.stackBarrier has not incremented stkbarPos.
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} else if stkbarPos > 0 && stkbar[stkbarPos-1].ptr < sp {
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// runtime.stackBarrier has incremented stkbarPos.
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stkbarPos--
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} else {
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return &stackIterator{err: fmt.Errorf("failed to unwind through stackBarrier at SP %x", sp)}
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}
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}
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stkbar = stkbar[stkbarPos:]
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}
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return &stackIterator{pc: pc, sp: sp, bp: bp, top: true, dbp: dbp, err: nil, atend: false, stackBarrierPC: stackBarrierPC, stkbar: stkbar}
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}
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// Next points the iterator to the next stack frame.
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func (it *stackIterator) Next() bool {
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if it.err != nil || it.atend {
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return false
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}
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it.frame, it.err = it.dbp.frameInfo(it.pc, it.sp, it.bp, it.top)
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if it.err != nil {
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if _, nofde := it.err.(*frame.NoFDEForPCError); nofde && !it.top {
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it.frame = Stackframe{Current: Location{PC: it.pc, File: "?", Line: -1}, Call: Location{PC: it.pc, File: "?", Line: -1}, CFA: 0, Ret: 0}
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it.atend = true
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it.err = nil
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return true
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}
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return false
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}
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if it.frame.Ret <= 0 {
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it.atend = true
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return true
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}
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if it.stkbar != nil && it.frame.Ret == it.stackBarrierPC && it.frame.addrret == it.stkbar[0].ptr {
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// Skip stack barrier frames
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it.frame.Ret = it.stkbar[0].val
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it.stkbar = it.stkbar[1:]
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}
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// Look for "top of stack" functions.
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if it.frame.Current.Fn != nil && (it.frame.Current.Fn.Name == "runtime.goexit" || it.frame.Current.Fn.Name == "runtime.rt0_go" || it.frame.Current.Fn.Name == "runtime.mcall") {
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it.atend = true
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return true
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}
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it.top = false
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it.pc = it.frame.Ret
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it.sp = uint64(it.frame.CFA)
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it.bp, _ = readUintRaw(it.dbp.currentThread, uintptr(it.bp), int64(it.dbp.arch.PtrSize()))
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return true
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}
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// Frame returns the frame the iterator is pointing at.
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func (it *stackIterator) Frame() Stackframe {
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if it.err != nil {
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panic(it.err)
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}
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return it.frame
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}
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// Err returns the error encountered during stack iteration.
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func (it *stackIterator) Err() error {
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return it.err
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}
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func (dbp *Process) frameInfo(pc, sp, bp uint64, top bool) (Stackframe, error) {
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fde, err := dbp.frameEntries.FDEForPC(pc)
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if _, nofde := err.(*frame.NoFDEForPCError); nofde {
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if bp == 0 {
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return Stackframe{}, err
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}
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// When no FDE is available attempt to use BP instead
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retaddr := uintptr(int(bp) + dbp.arch.PtrSize())
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cfa := int64(retaddr) + int64(dbp.arch.PtrSize())
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return dbp.newStackframe(pc, cfa, retaddr, nil, top)
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}
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spoffset, retoffset := fde.ReturnAddressOffset(pc)
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cfa := int64(sp) + spoffset
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retaddr := uintptr(cfa + retoffset)
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return dbp.newStackframe(pc, cfa, retaddr, fde, top)
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}
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func (dbp *Process) newStackframe(pc uint64, cfa int64, retaddr uintptr, fde *frame.FrameDescriptionEntry, top bool) (Stackframe, error) {
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if retaddr == 0 {
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return Stackframe{}, NullAddrError{}
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}
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f, l, fn := dbp.PCToLine(pc)
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ret, err := readUintRaw(dbp.currentThread, retaddr, int64(dbp.arch.PtrSize()))
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if err != nil {
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return Stackframe{}, err
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}
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r := Stackframe{Current: Location{PC: pc, File: f, Line: l, Fn: fn}, CFA: cfa, FDE: fde, Ret: ret, addrret: uint64(retaddr)}
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if !top {
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r.Call.File, r.Call.Line, r.Call.Fn = dbp.PCToLine(pc - 1)
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r.Call.PC = r.Current.PC
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} else {
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r.Call = r.Current
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}
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return r, nil
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}
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func (it *stackIterator) stacktrace(depth int) ([]Stackframe, error) {
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if depth < 0 {
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return nil, errors.New("negative maximum stack depth")
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}
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frames := make([]Stackframe, 0, depth+1)
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for it.Next() {
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frames = append(frames, it.Frame())
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if len(frames) >= depth+1 {
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break
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}
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}
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if err := it.Err(); err != nil {
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return nil, err
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}
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return frames, nil
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}
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