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// Copyright 2019 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package loader
import (
"bytes"
"cmd/internal/objabi"
"cmd/internal/sys"
"cmd/link/internal/sym"
"fmt"
"testing"
)
// dummyAddSym adds the named symbol to the loader as if it had been
// read from a Go object file. Note that it allocates a global
// index without creating an associated object reader, so one can't
// do anything interesting with this symbol (such as look at its
// data or relocations).
func addDummyObjSym(t *testing.T, ldr *Loader, or *oReader, name string) Sym {
idx := uint32(len(ldr.objSyms))
s, ok := ldr.AddSym(name, 0, or, idx, nonPkgDef, false, sym.SRODATA)
if !ok {
t.Errorf("AddrSym failed for '" + name + "'")
}
return s
}
func mkLoader() *Loader {
edummy := func(str string, off int) {}
er := ErrorReporter{}
ldr := NewLoader(0, edummy, &er)
er.ldr = ldr
return ldr
}
func TestAddMaterializedSymbol(t *testing.T) {
ldr := mkLoader()
dummyOreader := oReader{version: -1, syms: make([]Sym, 100)}
or := &dummyOreader
// Create some syms from a dummy object file symbol to get things going.
ts1 := addDummyObjSym(t, ldr, or, "type.uint8")
ts2 := addDummyObjSym(t, ldr, or, "mumble")
ts3 := addDummyObjSym(t, ldr, or, "type.string")
// Create some external symbols.
es1 := ldr.LookupOrCreateSym("extnew1", 0)
if es1 == 0 {
t.Fatalf("LookupOrCreateSym failed for extnew1")
}
es1x := ldr.LookupOrCreateSym("extnew1", 0)
if es1x != es1 {
t.Fatalf("LookupOrCreateSym lookup: expected %d got %d for second lookup", es1, es1x)
}
es2 := ldr.LookupOrCreateSym("go.info.type.uint8", 0)
if es2 == 0 {
t.Fatalf("LookupOrCreateSym failed for go.info.type.uint8")
}
// Create a nameless symbol
es3 := ldr.CreateStaticSym("")
if es3 == 0 {
t.Fatalf("CreateStaticSym failed for nameless sym")
}
// Grab symbol builder pointers
sb1 := ldr.MakeSymbolUpdater(es1)
sb2 := ldr.MakeSymbolUpdater(es2)
sb3 := ldr.MakeSymbolUpdater(es3)
// Suppose we create some more symbols, which triggers a grow.
// Make sure the symbol builder's payload pointer is valid,
// even across a grow.
for i := 0; i < 9999; i++ {
ldr.CreateStaticSym("dummy")
}
// Check get/set symbol type
es3typ := sb3.Type()
if es3typ != sym.Sxxx {
t.Errorf("SymType(es3): expected %v, got %v", sym.Sxxx, es3typ)
}
sb3.SetType(sym.SRODATA)
es3typ = sb3.Type()
if es3typ != sym.SRODATA {
t.Errorf("SymType(es3): expected %v, got %v", sym.SRODATA, es3typ)
}
es3typ = ldr.SymType(es3)
if es3typ != sym.SRODATA {
t.Errorf("SymType(es3): expected %v, got %v", sym.SRODATA, es3typ)
}
// New symbols should not initially be reachable.
if ldr.AttrReachable(es1) || ldr.AttrReachable(es2) || ldr.AttrReachable(es3) {
t.Errorf("newly materialized symbols should not be reachable")
}
// ... however it should be possible to set/unset their reachability.
ldr.SetAttrReachable(es3, true)
if !ldr.AttrReachable(es3) {
t.Errorf("expected reachable symbol after update")
}
ldr.SetAttrReachable(es3, false)
if ldr.AttrReachable(es3) {
t.Errorf("expected unreachable symbol after update")
}
// Test expansion of attr bitmaps
for idx := 0; idx < 36; idx++ {
es := ldr.LookupOrCreateSym(fmt.Sprintf("zext%d", idx), 0)
if ldr.AttrOnList(es) {
t.Errorf("expected OnList after creation")
}
ldr.SetAttrOnList(es, true)
if !ldr.AttrOnList(es) {
t.Errorf("expected !OnList after update")
}
if ldr.AttrDuplicateOK(es) {
t.Errorf("expected DupOK after creation")
}
ldr.SetAttrDuplicateOK(es, true)
if !ldr.AttrDuplicateOK(es) {
t.Errorf("expected !DupOK after update")
}
}
sb1 = ldr.MakeSymbolUpdater(es1)
sb2 = ldr.MakeSymbolUpdater(es2)
// Get/set a few other attributes
if ldr.AttrVisibilityHidden(es3) {
t.Errorf("expected initially not hidden")
}
ldr.SetAttrVisibilityHidden(es3, true)
if !ldr.AttrVisibilityHidden(es3) {
t.Errorf("expected hidden after update")
}
// Test get/set symbol value.
toTest := []Sym{ts2, es3}
for i, s := range toTest {
if v := ldr.SymValue(s); v != 0 {
t.Errorf("ldr.Value(%d): expected 0 got %d\n", s, v)
}
nv := int64(i + 101)
ldr.SetSymValue(s, nv)
if v := ldr.SymValue(s); v != nv {
t.Errorf("ldr.SetValue(%d,%d): expected %d got %d\n", s, nv, nv, v)
}
}
// Check/set alignment
es3al := ldr.SymAlign(es3)
if es3al != 0 {
t.Errorf("SymAlign(es3): expected 0, got %d", es3al)
}
ldr.SetSymAlign(es3, 128)
es3al = ldr.SymAlign(es3)
if es3al != 128 {
t.Errorf("SymAlign(es3): expected 128, got %d", es3al)
}
// Add some relocations to the new symbols.
r1 := Reloc{0, 1, objabi.R_ADDR, 0, ts1}
r2 := Reloc{3, 8, objabi.R_CALL, 0, ts2}
r3 := Reloc{7, 1, objabi.R_USETYPE, 0, ts3}
sb1.AddReloc(r1)
sb1.AddReloc(r2)
sb2.AddReloc(r3)
// Add some data to the symbols.
d1 := []byte{1, 2, 3}
d2 := []byte{4, 5, 6, 7}
sb1.AddBytes(d1)
sb2.AddBytes(d2)
// Now invoke the usual loader interfaces to make sure
// we're getting the right things back for these symbols.
// First relocations...
expRel := [][]Reloc{[]Reloc{r1, r2}, []Reloc{r3}}
for k, sb := range []*SymbolBuilder{sb1, sb2} {
rsl := sb.Relocs()
exp := expRel[k]
if !sameRelocSlice(&rsl, exp) {
t.Errorf("expected relocs %v, got %v", exp, rsl)
}
}
// ... then data.
dat := sb2.Data()
if bytes.Compare(dat, d2) != 0 {
t.Errorf("expected es2 data %v, got %v", d2, dat)
}
// Nameless symbol should still be nameless.
es3name := ldr.RawSymName(es3)
if "" != es3name {
t.Errorf("expected es3 name of '', got '%s'", es3name)
}
// Read value of materialized symbol.
es1val := sb1.Value()
if 0 != es1val {
t.Errorf("expected es1 value of 0, got %v", es1val)
}
// Test other misc methods
irm := ldr.IsReflectMethod(es1)
if 0 != es1val {
t.Errorf("expected IsReflectMethod(es1) value of 0, got %v", irm)
}
}
func sameRelocSlice(s1 *Relocs, s2 []Reloc) bool {
if s1.Count() != len(s2) {
return false
}
for i := 0; i < s1.Count(); i++ {
r1 := s1.At2(i)
r2 := &s2[i]
if r1.Sym() != r2.Sym ||
r1.Type() != r2.Type ||
r1.Off() != r2.Off ||
r1.Add() != r2.Add ||
r1.Siz() != r2.Size {
return false
}
}
return true
}
type addFunc func(l *Loader, s Sym, s2 Sym) Sym
func TestAddDataMethods(t *testing.T) {
ldr := mkLoader()
dummyOreader := oReader{version: -1, syms: make([]Sym, 100)}
or := &dummyOreader
// Populate loader with some symbols.
addDummyObjSym(t, ldr, or, "type.uint8")
ldr.LookupOrCreateSym("hello", 0)
arch := sys.ArchAMD64
var testpoints = []struct {
which string
addDataFunc addFunc
expData []byte
expKind sym.SymKind
expRel []Reloc
}{
{
which: "AddUint8",
addDataFunc: func(l *Loader, s Sym, _ Sym) Sym {
sb := l.MakeSymbolUpdater(s)
sb.AddUint8('a')
return s
},
expData: []byte{'a'},
expKind: sym.SDATA,
},
{
which: "AddUintXX",
addDataFunc: func(l *Loader, s Sym, _ Sym) Sym {
sb := l.MakeSymbolUpdater(s)
sb.AddUintXX(arch, 25185, 2)
return s
},
expData: []byte{'a', 'b'},
expKind: sym.SDATA,
},
{
which: "SetUint8",
addDataFunc: func(l *Loader, s Sym, _ Sym) Sym {
sb := l.MakeSymbolUpdater(s)
sb.AddUint8('a')
sb.AddUint8('b')
sb.SetUint8(arch, 1, 'c')
return s
},
expData: []byte{'a', 'c'},
expKind: sym.SDATA,
},
{
which: "AddString",
addDataFunc: func(l *Loader, s Sym, _ Sym) Sym {
sb := l.MakeSymbolUpdater(s)
sb.Addstring("hello")
return s
},
expData: []byte{'h', 'e', 'l', 'l', 'o', 0},
expKind: sym.SNOPTRDATA,
},
{
which: "AddAddrPlus",
addDataFunc: func(l *Loader, s Sym, s2 Sym) Sym {
sb := l.MakeSymbolUpdater(s)
sb.AddAddrPlus(arch, s2, 3)
return s
},
expData: []byte{0, 0, 0, 0, 0, 0, 0, 0},
expKind: sym.SDATA,
expRel: []Reloc{Reloc{Type: objabi.R_ADDR, Size: 8, Add: 3, Sym: 6}},
},
{
which: "AddAddrPlus4",
addDataFunc: func(l *Loader, s Sym, s2 Sym) Sym {
sb := l.MakeSymbolUpdater(s)
sb.AddAddrPlus4(arch, s2, 3)
return s
},
expData: []byte{0, 0, 0, 0},
expKind: sym.SDATA,
expRel: []Reloc{Reloc{Type: objabi.R_ADDR, Size: 4, Add: 3, Sym: 7}},
},
{
which: "AddCURelativeAddrPlus",
addDataFunc: func(l *Loader, s Sym, s2 Sym) Sym {
sb := l.MakeSymbolUpdater(s)
sb.AddCURelativeAddrPlus(arch, s2, 7)
return s
},
expData: []byte{0, 0, 0, 0, 0, 0, 0, 0},
expKind: sym.SDATA,
expRel: []Reloc{Reloc{Type: objabi.R_ADDRCUOFF, Size: 8, Add: 7, Sym: 8}},
},
}
var pmi Sym
for k, tp := range testpoints {
name := fmt.Sprintf("new%d", k+1)
mi := ldr.LookupOrCreateSym(name, 0)
if mi == 0 {
t.Fatalf("LookupOrCreateSym failed for '" + name + "'")
}
mi = tp.addDataFunc(ldr, mi, pmi)
if ldr.SymType(mi) != tp.expKind {
t.Errorf("testing Loader.%s: expected kind %s got %s",
tp.which, tp.expKind, ldr.SymType(mi))
}
if bytes.Compare(ldr.Data(mi), tp.expData) != 0 {
t.Errorf("testing Loader.%s: expected data %v got %v",
tp.which, tp.expData, ldr.Data(mi))
}
relocs := ldr.Relocs(mi)
if !sameRelocSlice(&relocs, tp.expRel) {
t.Fatalf("testing Loader.%s: got relocslice %+v wanted %+v",
tp.which, relocs, tp.expRel)
}
pmi = mi
}
}
func TestOuterSub(t *testing.T) {
ldr := mkLoader()
dummyOreader := oReader{version: -1, syms: make([]Sym, 100)}
or := &dummyOreader
// Populate loader with some symbols.
addDummyObjSym(t, ldr, or, "type.uint8")
es1 := ldr.LookupOrCreateSym("outer", 0)
es2 := ldr.LookupOrCreateSym("sub1", 0)
es3 := ldr.LookupOrCreateSym("sub2", 0)
es4 := ldr.LookupOrCreateSym("sub3", 0)
es5 := ldr.LookupOrCreateSym("sub4", 0)
es6 := ldr.LookupOrCreateSym("sub5", 0)
// Should not have an outer sym initially
if ldr.OuterSym(es1) != 0 {
t.Errorf("es1 outer sym set ")
}
if ldr.SubSym(es2) != 0 {
t.Errorf("es2 outer sym set ")
}
// Establish first outer/sub relationship
ldr.PrependSub(es1, es2)
if ldr.OuterSym(es1) != 0 {
t.Errorf("ldr.OuterSym(es1) got %d wanted %d", ldr.OuterSym(es1), 0)
}
if ldr.OuterSym(es2) != es1 {
t.Errorf("ldr.OuterSym(es2) got %d wanted %d", ldr.OuterSym(es2), es1)
}
if ldr.SubSym(es1) != es2 {
t.Errorf("ldr.SubSym(es1) got %d wanted %d", ldr.SubSym(es1), es2)
}
if ldr.SubSym(es2) != 0 {
t.Errorf("ldr.SubSym(es2) got %d wanted %d", ldr.SubSym(es2), 0)
}
// Establish second outer/sub relationship
ldr.PrependSub(es1, es3)
if ldr.OuterSym(es1) != 0 {
t.Errorf("ldr.OuterSym(es1) got %d wanted %d", ldr.OuterSym(es1), 0)
}
if ldr.OuterSym(es2) != es1 {
t.Errorf("ldr.OuterSym(es2) got %d wanted %d", ldr.OuterSym(es2), es1)
}
if ldr.OuterSym(es3) != es1 {
t.Errorf("ldr.OuterSym(es3) got %d wanted %d", ldr.OuterSym(es3), es1)
}
if ldr.SubSym(es1) != es3 {
t.Errorf("ldr.SubSym(es1) got %d wanted %d", ldr.SubSym(es1), es3)
}
if ldr.SubSym(es3) != es2 {
t.Errorf("ldr.SubSym(es3) got %d wanted %d", ldr.SubSym(es3), es2)
}
// Some more
ldr.PrependSub(es1, es4)
ldr.PrependSub(es1, es5)
ldr.PrependSub(es1, es6)
// Set values.
ldr.SetSymValue(es2, 7)
ldr.SetSymValue(es3, 1)
ldr.SetSymValue(es4, 13)
ldr.SetSymValue(es5, 101)
ldr.SetSymValue(es6, 3)
// Sort
news := ldr.SortSub(es1)
if news != es3 {
t.Errorf("ldr.SortSub leader got %d wanted %d", news, es3)
}
pv := int64(-1)
count := 0
for ss := ldr.SubSym(es1); ss != 0; ss = ldr.SubSym(ss) {
v := ldr.SymValue(ss)
if v <= pv {
t.Errorf("ldr.SortSub sortfail at %d: val %d >= prev val %d",
ss, v, pv)
}
pv = v
count++
}
if count != 5 {
t.Errorf("expected %d in sub list got %d", 5, count)
}
}