package proc_test import ( "errors" "fmt" "go/constant" "os" "reflect" "regexp" "runtime" "sort" "strconv" "strings" "testing" "github.com/go-delve/delve/pkg/goversion" "github.com/go-delve/delve/pkg/proc" "github.com/go-delve/delve/service/api" protest "github.com/go-delve/delve/pkg/proc/test" ) var pnormalLoadConfig = proc.LoadConfig{ FollowPointers: true, MaxVariableRecurse: 1, MaxStringLen: 64, MaxArrayValues: 64, MaxStructFields: -1, } var pshortLoadConfig = proc.LoadConfig{ MaxStringLen: 64, MaxStructFields: 3, } type varTest struct { name string preserveName bool value string alternate string varType string err error } func matchStringOrPrefix(output, target string) bool { if strings.HasSuffix(target, "…") { prefix := target[:len(target)-len("…")] b := strings.HasPrefix(output, prefix) return b } if strings.HasPrefix(target, "/") && strings.HasSuffix(target, "/") { rx := regexp.MustCompile(target[1 : len(target)-1]) return rx.MatchString(output) } return output == target } func assertVariable(t testing.TB, variable *proc.Variable, expected varTest) { if expected.preserveName { if variable.Name != expected.name { t.Fatalf("Expected %s got %s\n", expected.name, variable.Name) } } cv := api.ConvertVar(variable) if cv.Type != expected.varType { t.Fatalf("Expected %s got %s (for variable %s)\n", expected.varType, cv.Type, expected.name) } if ss := cv.SinglelineString(); !matchStringOrPrefix(ss, expected.value) { t.Fatalf("Expected %#v got %#v (for variable %s)\n", expected.value, ss, expected.name) } } func evalScope(p *proc.Target) (*proc.EvalScope, error) { if testBackend != "rr" { return proc.GoroutineScope(p, p.CurrentThread()) } frame, err := findFirstNonRuntimeFrame(p) if err != nil { return nil, err } return proc.FrameToScope(p, p.Memory(), nil, p.CurrentThread().ThreadID(), frame), nil } func evalVariableWithCfg(p *proc.Target, symbol string, cfg proc.LoadConfig) (*proc.Variable, error) { scope, err := evalScope(p) if err != nil { return nil, err } return scope.EvalExpression(symbol, cfg) } func (tc *varTest) alternateVarTest() varTest { r := *tc r.value = r.alternate return r } func setVariable(p *proc.Target, symbol, value string) error { scope, err := proc.GoroutineScope(p, p.CurrentThread()) if err != nil { return err } return scope.SetVariable(symbol, value) } func TestVariableEvaluation(t *testing.T) { protest.AllowRecording(t) testcases := []struct { name string st reflect.Kind value interface{} length, cap int64 childrenlen int }{ {"a1", reflect.String, "foofoofoofoofoofoo", 18, 0, 0}, {"a11", reflect.Array, nil, 3, 3, 3}, {"a12", reflect.Slice, nil, 2, 2, 2}, {"a13", reflect.Slice, nil, 3, 3, 3}, {"a2", reflect.Int, int64(6), 0, 0, 0}, {"a3", reflect.Float64, float64(7.23), 0, 0, 0}, {"a4", reflect.Array, nil, 2, 2, 2}, {"a5", reflect.Slice, nil, 5, 5, 5}, {"a6", reflect.Struct, nil, 2, 0, 2}, {"a7", reflect.Ptr, nil, 1, 0, 1}, {"a8", reflect.Struct, nil, 2, 0, 2}, {"a9", reflect.Ptr, nil, 1, 0, 1}, {"baz", reflect.String, "bazburzum", 9, 0, 0}, {"neg", reflect.Int, int64(-1), 0, 0, 0}, {"f32", reflect.Float32, float64(float32(1.2)), 0, 0, 0}, {"c64", reflect.Complex64, complex128(complex64(1 + 2i)), 0, 0, 0}, {"c128", reflect.Complex128, complex128(2 + 3i), 0, 0, 0}, {"a6.Baz", reflect.Int, int64(8), 0, 0, 0}, {"a7.Baz", reflect.Int, int64(5), 0, 0, 0}, {"a8.Baz", reflect.String, "feh", 3, 0, 0}, {"a8", reflect.Struct, nil, 2, 0, 2}, {"i32", reflect.Array, nil, 2, 2, 2}, {"b1", reflect.Bool, true, 0, 0, 0}, {"b2", reflect.Bool, false, 0, 0, 0}, {"f", reflect.Func, "main.barfoo", 0, 0, 0}, {"ba", reflect.Slice, nil, 200, 200, 64}, } withTestProcess("testvariables", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue() returned an error") for _, tc := range testcases { v := evalVariable(p, t, tc.name) if v.Kind != tc.st { t.Fatalf("%s simple type: expected: %s got: %s", tc.name, tc.st, v.Kind.String()) } if v.Value == nil && tc.value != nil { t.Fatalf("%s value: expected: %v got: %v", tc.name, tc.value, v.Value) } else { switch v.Kind { case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64: x, _ := constant.Int64Val(v.Value) if y, ok := tc.value.(int64); !ok || x != y { t.Fatalf("%s value: expected: %v got: %v", tc.name, tc.value, v.Value) } case reflect.Float32, reflect.Float64: x, _ := constant.Float64Val(v.Value) if y, ok := tc.value.(float64); !ok || x != y { t.Fatalf("%s value: expected: %v got: %v", tc.name, tc.value, v.Value) } case reflect.Complex64, reflect.Complex128: xr, _ := constant.Float64Val(constant.Real(v.Value)) xi, _ := constant.Float64Val(constant.Imag(v.Value)) if y, ok := tc.value.(complex128); !ok || complex(xr, xi) != y { t.Fatalf("%s value: expected: %v got: %v", tc.name, tc.value, v.Value) } case reflect.String: if y, ok := tc.value.(string); !ok || constant.StringVal(v.Value) != y { t.Fatalf("%s value: expected: %v got: %v", tc.name, tc.value, v.Value) } } } if v.Len != tc.length { t.Fatalf("%s len: expected: %d got: %d", tc.name, tc.length, v.Len) } if v.Cap != tc.cap { t.Fatalf("%s cap: expected: %d got: %d", tc.name, tc.cap, v.Cap) } if len(v.Children) != tc.childrenlen { t.Fatalf("%s children len: expected %d got: %d", tc.name, tc.childrenlen, len(v.Children)) } } }) } func TestVariableEvaluation2(t *testing.T) { testcases := []varTest{ {"a1", true, "\"foofoofoofoofoofoo\"", "", "string", nil}, {"a11", true, "[3]main.FooBar [{Baz: 1, Bur: \"a\"},{Baz: 2, Bur: \"b\"},{Baz: 3, Bur: \"c\"}]", "", "[3]main.FooBar", nil}, {"a12", true, "[]main.FooBar len: 2, cap: 2, [{Baz: 4, Bur: \"d\"},{Baz: 5, Bur: \"e\"}]", "", "[]main.FooBar", nil}, {"a13", true, "[]*main.FooBar len: 3, cap: 3, [*{Baz: 6, Bur: \"f\"},*{Baz: 7, Bur: \"g\"},*{Baz: 8, Bur: \"h\"}]", "", "[]*main.FooBar", nil}, {"a2", true, "6", "10", "int", nil}, {"a3", true, "7.23", "3.1", "float64", nil}, {"a4", true, "[2]int [1,2]", "", "[2]int", nil}, {"a5", true, "[]int len: 5, cap: 5, [1,2,3,4,5]", "", "[]int", nil}, {"a6", true, "main.FooBar {Baz: 8, Bur: \"word\"}", "", "main.FooBar", nil}, {"a7", true, "*main.FooBar {Baz: 5, Bur: \"strum\"}", "", "*main.FooBar", nil}, {"a8", true, "main.FooBar2 {Bur: 10, Baz: \"feh\"}", "", "main.FooBar2", nil}, {"a9", true, "*main.FooBar nil", "", "*main.FooBar", nil}, {"baz", true, "\"bazburzum\"", "", "string", nil}, {"neg", true, "-1", "-20", "int", nil}, {"f32", true, "1.2", "1.1", "float32", nil}, {"c64", true, "(1 + 2i)", "(4 + 5i)", "complex64", nil}, {"c128", true, "(2 + 3i)", "(6.3 + 7i)", "complex128", nil}, {"a6.Baz", true, "8", "20", "int", nil}, {"a7.Baz", true, "5", "25", "int", nil}, {"a8.Baz", true, "\"feh\"", "", "string", nil}, {"a9.Baz", true, "nil", "", "int", errors.New("a9 is nil")}, {"a9.NonExistent", true, "nil", "", "int", errors.New("a9 has no member NonExistent")}, {"a8", true, "main.FooBar2 {Bur: 10, Baz: \"feh\"}", "", "main.FooBar2", nil}, // reread variable after member {"i32", true, "[2]int32 [1,2]", "", "[2]int32", nil}, {"b1", true, "true", "false", "bool", nil}, {"b2", true, "false", "true", "bool", nil}, {"i8", true, "1", "2", "int8", nil}, {"u16", true, "65535", "0", "uint16", nil}, {"u32", true, "4294967295", "1", "uint32", nil}, {"u64", true, "18446744073709551615", "2", "uint64", nil}, {"u8", true, "255", "3", "uint8", nil}, {"up", true, "5", "4", "uintptr", nil}, {"f", true, "main.barfoo", "", "func()", nil}, {"ba", true, "[]int len: 200, cap: 200, [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,...+136 more]", "", "[]int", nil}, {"ms", true, "main.Nest {Level: 0, Nest: *main.Nest {Level: 1, Nest: *(*main.Nest)(…", "", "main.Nest", nil}, {"ms.Nest.Nest", true, "*main.Nest {Level: 2, Nest: *main.Nest {Level: 3, Nest: *(*main.Nest)(…", "", "*main.Nest", nil}, {"ms.Nest.Nest.Nest.Nest.Nest", true, "*main.Nest nil", "", "*main.Nest", nil}, {"ms.Nest.Nest.Nest.Nest.Nest.Nest", true, "", "", "*main.Nest", errors.New("ms.Nest.Nest.Nest.Nest.Nest is nil")}, {"main.p1", true, "10", "12", "int", nil}, {"p1", true, "10", "13", "int", nil}, {"NonExistent", true, "", "", "", errors.New("could not find symbol value for NonExistent")}, } protest.AllowRecording(t) withTestProcess("testvariables", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { err := grp.Continue() assertNoError(err, t, "Continue() returned an error") for _, tc := range testcases { variable, err := evalVariableWithCfg(p, tc.name, pnormalLoadConfig) if tc.err == nil { assertNoError(err, t, "EvalVariable() returned an error") assertVariable(t, variable, tc) } else { if err == nil { t.Fatalf("Expected error %s, got no error: %s\n", tc.err.Error(), api.ConvertVar(variable).SinglelineString()) } if tc.err.Error() != err.Error() { t.Fatalf("Unexpected error. Expected %s got %s", tc.err.Error(), err.Error()) } } if tc.alternate != "" && testBackend != "rr" { assertNoError(setVariable(p, tc.name, tc.alternate), t, "SetVariable()") variable, err = evalVariableWithCfg(p, tc.name, pnormalLoadConfig) assertNoError(err, t, "EvalVariable()") assertVariable(t, variable, tc.alternateVarTest()) assertNoError(setVariable(p, tc.name, tc.value), t, "SetVariable()") variable, err := evalVariableWithCfg(p, tc.name, pnormalLoadConfig) assertNoError(err, t, "EvalVariable()") assertVariable(t, variable, tc) } } }) } func TestSetVariable(t *testing.T) { const errorPrefix = "ERROR:" var testcases = []struct { name string typ string // type of startVal string // original value of expr string finalVal string // new value of after executing = }{ {"b.ptr", "*main.A", "*main.A {val: 1337}", "nil", "*main.A nil"}, {"m2", "map[int]*main.astruct", "map[int]*main.astruct [1: *{A: 10, B: 11}, ]", "nil", "map[int]*main.astruct nil"}, {"fn1", "main.functype", "main.afunc", "nil", "nil"}, {"ch1", "chan int", "chan int 4/11", "nil", "chan int nil"}, {"s2", "[]main.astruct", "[]main.astruct len: 8, cap: 8, [{A: 1, B: 2},{A: 3, B: 4},{A: 5, B: 6},{A: 7, B: 8},{A: 9, B: 10},{A: 11, B: 12},{A: 13, B: 14},{A: 15, B: 16}]", "nil", "[]main.astruct len: 0, cap: 0, nil"}, {"err1", "error", "error(*main.astruct) *{A: 1, B: 2}", "nil", "error nil"}, {"s1[0]", "string", `"one"`, `""`, `""`}, {"as1", "main.astruct", "main.astruct {A: 1, B: 1}", `m1["Malone"]`, "main.astruct {A: 2, B: 3}"}, {"iface1", "interface {}", "interface {}(*main.astruct) *{A: 1, B: 2}", "nil", "interface {} nil"}, {"iface1", "interface {}", "interface {} nil", "iface2", "interface {}(string) \"test\""}, {"iface1", "interface {}", "interface {}(string) \"test\"", "parr", "interface {}(*[4]int) *[0,1,2,3]"}, {"s3", "[]int", `[]int len: 0, cap: 6, []`, "s4[2:5]", "[]int len: 3, cap: 8, [3,4,5]"}, {"s3", "[]int", "[]int len: 3, cap: 8, [3,4,5]", "arr1[:]", "[]int len: 4, cap: 4, [0,1,2,3]"}, {"str1", "string", `"01234567890"`, `"new value"`, errorPrefix + "literal string can not be allocated because function calls are not allowed without using 'call'"}, } withTestProcess("testvariables2", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue()") for _, tc := range testcases { if tc.name == "iface1" && tc.expr == "parr" { if !goversion.VersionAfterOrEqual(runtime.Version(), 1, 11) { // conversion pointer -> eface not supported prior to Go 1.11 continue } } variable, err := evalVariableWithCfg(p, tc.name, pnormalLoadConfig) assertNoError(err, t, "EvalVariable()") assertVariable(t, variable, varTest{tc.name, true, tc.startVal, "", tc.typ, nil}) err = setVariable(p, tc.name, tc.expr) if strings.HasPrefix(tc.finalVal, errorPrefix) { experr := tc.finalVal[len(errorPrefix):] if err == nil { t.Fatalf("expected error %q but didn't get an error", experr) } if err.Error() != experr { t.Fatalf("expected error %q got %v", experr, err) } } else { assertNoError(err, t, fmt.Sprintf("SetVariable(%q, %q)", tc.name, tc.expr)) variable, err = evalVariableWithCfg(p, tc.name, pnormalLoadConfig) assertNoError(err, t, "EvalVariable()") assertVariable(t, variable, varTest{tc.name, true, tc.finalVal, "", tc.typ, nil}) } } }) } func TestVariableEvaluationShort(t *testing.T) { testcases := []varTest{ {"a1", true, "\"foofoofoofoofoofoo\"", "", "string", nil}, {"a11", true, "[3]main.FooBar [...]", "", "[3]main.FooBar", nil}, {"a12", true, "[]main.FooBar len: 2, cap: 2, [...]", "", "[]main.FooBar", nil}, {"a13", true, "[]*main.FooBar len: 3, cap: 3, [...]", "", "[]*main.FooBar", nil}, {"a2", true, "6", "", "int", nil}, {"a3", true, "7.23", "", "float64", nil}, {"a4", true, "[2]int [...]", "", "[2]int", nil}, {"a5", true, "[]int len: 5, cap: 5, [...]", "", "[]int", nil}, {"a6", true, "main.FooBar {Baz: 8, Bur: \"word\"}", "", "main.FooBar", nil}, {"a7", true, "(*main.FooBar)(0x…", "", "*main.FooBar", nil}, {"a8", true, "main.FooBar2 {Bur: 10, Baz: \"feh\"}", "", "main.FooBar2", nil}, {"a9", true, "*main.FooBar nil", "", "*main.FooBar", nil}, {"baz", true, "\"bazburzum\"", "", "string", nil}, {"neg", true, "-1", "", "int", nil}, {"f32", true, "1.2", "", "float32", nil}, {"c64", true, "(1 + 2i)", "", "complex64", nil}, {"c128", true, "(2 + 3i)", "", "complex128", nil}, {"a6.Baz", true, "8", "", "int", nil}, {"a7.Baz", true, "5", "", "int", nil}, {"a8.Baz", true, "\"feh\"", "", "string", nil}, {"a9.Baz", true, "nil", "", "int", errors.New("a9 is nil")}, {"a9.NonExistent", true, "nil", "", "int", errors.New("a9 has no member NonExistent")}, {"a8", true, "main.FooBar2 {Bur: 10, Baz: \"feh\"}", "", "main.FooBar2", nil}, // reread variable after member {"i32", true, "[2]int32 [...]", "", "[2]int32", nil}, {"b1", true, "true", "false", "bool", nil}, {"b2", true, "false", "true", "bool", nil}, {"i8", true, "1", "2", "int8", nil}, {"u16", true, "65535", "0", "uint16", nil}, {"u32", true, "4294967295", "1", "uint32", nil}, {"u64", true, "18446744073709551615", "2", "uint64", nil}, {"u8", true, "255", "3", "uint8", nil}, {"up", true, "5", "4", "uintptr", nil}, {"f", true, "main.barfoo", "", "func()", nil}, {"ba", true, "[]int len: 200, cap: 200, [...]", "", "[]int", nil}, {"ms", true, "main.Nest {Level: 0, Nest: (*main.Nest)(0x…", "", "main.Nest", nil}, {"ms.Nest.Nest", true, "(*main.Nest)(0x…", "", "*main.Nest", nil}, {"ms.Nest.Nest.Nest.Nest.Nest", true, "*main.Nest nil", "", "*main.Nest", nil}, {"ms.Nest.Nest.Nest.Nest.Nest.Nest", true, "", "", "*main.Nest", errors.New("ms.Nest.Nest.Nest.Nest.Nest is nil")}, {"main.p1", true, "10", "", "int", nil}, {"p1", true, "10", "", "int", nil}, {"NonExistent", true, "", "", "", errors.New("could not find symbol value for NonExistent")}, } protest.AllowRecording(t) withTestProcess("testvariables", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { err := grp.Continue() assertNoError(err, t, "Continue() returned an error") for _, tc := range testcases { variable, err := evalVariableWithCfg(p, tc.name, pshortLoadConfig) if tc.err == nil { assertNoError(err, t, "EvalVariable() returned an error") assertVariable(t, variable, tc) } else { if err == nil { t.Fatalf("Expected error %s, got no error: %s\n", tc.err.Error(), api.ConvertVar(variable).SinglelineString()) } if tc.err.Error() != err.Error() { t.Fatalf("Unexpected error. Expected %s got %s", tc.err.Error(), err.Error()) } } } }) } func TestMultilineVariableEvaluation(t *testing.T) { testcases := []varTest{ {"a1", true, "\"foofoofoofoofoofoo\"", "", "string", nil}, {"a11", true, `[3]main.FooBar [ {Baz: 1, Bur: "a"}, {Baz: 2, Bur: "b"}, {Baz: 3, Bur: "c"}, ]`, "", "[3]main.FooBar", nil}, {"a12", true, `[]main.FooBar len: 2, cap: 2, [ {Baz: 4, Bur: "d"}, {Baz: 5, Bur: "e"}, ]`, "", "[]main.FooBar", nil}, {"a13", true, `[]*main.FooBar len: 3, cap: 3, [ *{Baz: 6, Bur: "f"}, *{Baz: 7, Bur: "g"}, *{Baz: 8, Bur: "h"}, ]`, "", "[]*main.FooBar", nil}, {"a2", true, "6", "10", "int", nil}, {"a4", true, "[2]int [1,2]", "", "[2]int", nil}, {"a5", true, "[]int len: 5, cap: 5, [1,2,3,4,5]", "", "[]int", nil}, {"a6", true, "main.FooBar {Baz: 8, Bur: \"word\"}", "", "main.FooBar", nil}, {"a7", true, `/^\(\*main\.FooBar\)\(.*?\)\n\*main\.FooBar \{Baz: 5, Bur: "strum"\}$/`, "", "*main.FooBar", nil}, {"a8", true, "main.FooBar2 {Bur: 10, Baz: \"feh\"}", "", "main.FooBar2", nil}, {"a9", true, "*main.FooBar nil", "", "*main.FooBar", nil}, {"a8", true, "main.FooBar2 {Bur: 10, Baz: \"feh\"}", "", "main.FooBar2", nil}, // reread variable after member {"i32", true, "[2]int32 [1,2]", "", "[2]int32", nil}, {"ba", true, "[]int len: 200, cap: 200, [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,...+136 more]", "", "[]int", nil}, {"ms", true, `main.Nest { Level: 0, Nest: *main.Nest { Level: 1, Nest: *(*main.Nest)(…`, "", "main.Nest", nil}, } protest.AllowRecording(t) withTestProcess("testvariables", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { err := grp.Continue() assertNoError(err, t, "Continue() returned an error") for _, tc := range testcases { variable, err := evalVariableWithCfg(p, tc.name, pnormalLoadConfig) assertNoError(err, t, "EvalVariable() returned an error") if ms := api.ConvertVar(variable).MultilineString("", ""); !matchStringOrPrefix(ms, tc.value) { t.Fatalf("Expected %s got %q (variable %s)\n", tc.value, ms, variable.Name) } } }) } type varArray []*proc.Variable // Len is part of sort.Interface. func (s varArray) Len() int { return len(s) } // Swap is part of sort.Interface. func (s varArray) Swap(i, j int) { s[i], s[j] = s[j], s[i] } // Less is part of sort.Interface. It is implemented by calling the "by" closure in the sorter. func (s varArray) Less(i, j int) bool { return s[i].Name < s[j].Name } func TestLocalVariables(t *testing.T) { testcases := []struct { fn func(*proc.EvalScope, proc.LoadConfig) ([]*proc.Variable, error) output []varTest }{ {(*proc.EvalScope).LocalVariables, []varTest{ {"a1", true, "\"foofoofoofoofoofoo\"", "", "string", nil}, {"a10", true, "\"ofo\"", "", "string", nil}, {"a11", true, "[3]main.FooBar [{Baz: 1, Bur: \"a\"},{Baz: 2, Bur: \"b\"},{Baz: 3, Bur: \"c\"}]", "", "[3]main.FooBar", nil}, {"a12", true, "[]main.FooBar len: 2, cap: 2, [{Baz: 4, Bur: \"d\"},{Baz: 5, Bur: \"e\"}]", "", "[]main.FooBar", nil}, {"a13", true, "[]*main.FooBar len: 3, cap: 3, [*{Baz: 6, Bur: \"f\"},*{Baz: 7, Bur: \"g\"},*{Baz: 8, Bur: \"h\"}]", "", "[]*main.FooBar", nil}, {"a2", true, "6", "", "int", nil}, {"a3", true, "7.23", "", "float64", nil}, {"a4", true, "[2]int [1,2]", "", "[2]int", nil}, {"a5", true, "[]int len: 5, cap: 5, [1,2,3,4,5]", "", "[]int", nil}, {"a6", true, "main.FooBar {Baz: 8, Bur: \"word\"}", "", "main.FooBar", nil}, {"a7", true, "*main.FooBar {Baz: 5, Bur: \"strum\"}", "", "*main.FooBar", nil}, {"a8", true, "main.FooBar2 {Bur: 10, Baz: \"feh\"}", "", "main.FooBar2", nil}, {"a9", true, "*main.FooBar nil", "", "*main.FooBar", nil}, {"b1", true, "true", "", "bool", nil}, {"b2", true, "false", "", "bool", nil}, {"ba", true, "[]int len: 200, cap: 200, [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,...+136 more]", "", "[]int", nil}, {"c128", true, "(2 + 3i)", "", "complex128", nil}, {"c64", true, "(1 + 2i)", "", "complex64", nil}, {"f", true, "main.barfoo", "", "func()", nil}, {"f32", true, "1.2", "", "float32", nil}, {"i32", true, "[2]int32 [1,2]", "", "[2]int32", nil}, {"i8", true, "1", "", "int8", nil}, {"mp", true, "map[int]interface {} [1: 42, 2: 43, ]", "", "map[int]interface {}", nil}, {"ms", true, "main.Nest {Level: 0, Nest: *main.Nest {Level: 1, Nest: *(*main.Nest)…", "", "main.Nest", nil}, {"neg", true, "-1", "", "int", nil}, {"ni", true, "[]interface {} len: 1, cap: 1, [[]interface {} len: 1, cap: 1, [*(*interface {})…", "", "[]interface {}", nil}, {"u16", true, "65535", "", "uint16", nil}, {"u32", true, "4294967295", "", "uint32", nil}, {"u64", true, "18446744073709551615", "", "uint64", nil}, {"u8", true, "255", "", "uint8", nil}, {"up", true, "5", "", "uintptr", nil}}}, {(*proc.EvalScope).FunctionArguments, []varTest{ {"bar", true, "main.FooBar {Baz: 10, Bur: \"lorem\"}", "", "main.FooBar", nil}, {"baz", true, "\"bazburzum\"", "", "string", nil}}}, } protest.AllowRecording(t) withTestProcess("testvariables", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { err := grp.Continue() assertNoError(err, t, "Continue() returned an error") for _, tc := range testcases { var scope *proc.EvalScope var err error if testBackend == "rr" { var frame proc.Stackframe frame, err = findFirstNonRuntimeFrame(p) if err == nil { scope = proc.FrameToScope(p, p.Memory(), nil, p.CurrentThread().ThreadID(), frame) } } else { scope, err = proc.GoroutineScope(p, p.CurrentThread()) } assertNoError(err, t, "scope") vars, err := tc.fn(scope, pnormalLoadConfig) assertNoError(err, t, "LocalVariables() returned an error") sort.Sort(varArray(vars)) if len(tc.output) != len(vars) { t.Fatalf("Invalid variable count. Expected %d got %d.", len(tc.output), len(vars)) } for i, variable := range vars { assertVariable(t, variable, tc.output[i]) } } }) } func TestEmbeddedStruct(t *testing.T) { protest.AllowRecording(t) withTestProcess("testvariables2", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { testcases := []varTest{ {"b.val", true, "-314", "-314", "int", nil}, {"b.A.val", true, "-314", "-314", "int", nil}, {"b.a.val", true, "42", "42", "int", nil}, {"b.ptr.val", true, "1337", "1337", "int", nil}, {"b.C.s", true, "\"hello\"", "\"hello\"", "string", nil}, {"b.s", true, "\"hello\"", "\"hello\"", "string", nil}, {"b2", true, "main.B {A: main.A {val: 42}, C: *main.C nil, a: main.A {val: 47}, ptr: *main.A nil}", "main.B {A: (*main.A)(0x…", "main.B", nil}, // Issue 2316: field promotion is breadth first and embedded interfaces never get promoted {"w2.W1.T.F", true, `"T-inside-W1"`, `"T-inside-W1"`, "string", nil}, {"w2.W1.F", true, `"T-inside-W1"`, `"T-inside-W1"`, "string", nil}, {"w2.T.F", true, `"T-inside-W2"`, `"T-inside-W2"`, "string", nil}, {"w2.F", true, `"T-inside-W2"`, `"T-inside-W2"`, "string", nil}, {"w3.I.T.F", false, `"T-inside-W1"`, `"T-inside-W1"`, "string", nil}, {"w3.I.F", false, `"T-inside-W1"`, `"T-inside-W1"`, "string", nil}, {"w3.T.F", true, `"T-inside-W3"`, `"T-inside-W3"`, "string", nil}, {"w3.F", true, `"T-inside-W3"`, `"T-inside-W3"`, "string", nil}, {"w4.I.T.F", false, `"T-inside-W1"`, `"T-inside-W1"`, "string", nil}, {"w4.I.F", false, `"T-inside-W1"`, `"T-inside-W1"`, "string", nil}, {"w4.F", false, ``, ``, "", errors.New("w4 has no member F")}, {"w5.F", false, ``, ``, "", errors.New("w5 has no member F")}, } assertNoError(grp.Continue(), t, "Continue()") ver, _ := goversion.Parse(runtime.Version()) if ver.Major >= 0 && !ver.AfterOrEqual(goversion.GoVersion{Major: 1, Minor: 9, Rev: -1}) { // on go < 1.9 embedded fields had different names for i := range testcases { if testcases[i].name == "b2" { testcases[i].value = "main.B {main.A: main.A {val: 42}, *main.C: *main.C nil, a: main.A {val: 47}, ptr: *main.A nil}" testcases[i].alternate = "main.B {main.A: (*main.A)(0x…" } } } for _, tc := range testcases { variable, err := evalVariableWithCfg(p, tc.name, pnormalLoadConfig) if tc.err == nil { assertNoError(err, t, fmt.Sprintf("EvalVariable(%s) returned an error", tc.name)) assertVariable(t, variable, tc) variable, err = evalVariableWithCfg(p, tc.name, pshortLoadConfig) assertNoError(err, t, fmt.Sprintf("EvalVariable(%s, pshortLoadConfig) returned an error", tc.name)) assertVariable(t, variable, tc.alternateVarTest()) } else { if tc.err.Error() != err.Error() { t.Fatalf("Unexpected error. Expected %s got %s", tc.err.Error(), err.Error()) } } } }) } func TestComplexSetting(t *testing.T) { withTestProcess("testvariables", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { err := grp.Continue() assertNoError(err, t, "Continue() returned an error") h := func(setExpr, value string) { assertNoError(setVariable(p, "c128", setExpr), t, "SetVariable()") variable, err := evalVariableWithCfg(p, "c128", pnormalLoadConfig) assertNoError(err, t, "EvalVariable()") if s := api.ConvertVar(variable).SinglelineString(); s != value { t.Fatalf("Wrong value of c128: %q, expected %q after setting it to %q", s, value, setExpr) } } h("3.2i", "(0 + 3.2i)") h("1.1", "(1.1 + 0i)") h("1 + 3.3i", "(1 + 3.3i)") h("complex(1.2, 3.4)", "(1.2 + 3.4i)") }) } func getEvalExpressionTestCases() []varTest { testcases := []varTest{ // slice/array/string subscript {"s1[0]", false, "\"one\"", "\"one\"", "string", nil}, {"s1[1]", false, "\"two\"", "\"two\"", "string", nil}, {"s1[2]", false, "\"three\"", "\"three\"", "string", nil}, {"s1[3]", false, "\"four\"", "\"four\"", "string", nil}, {"s1[4]", false, "\"five\"", "\"five\"", "string", nil}, {"s1[5]", false, "", "", "string", errors.New("index out of bounds")}, {"a1[0]", false, "\"one\"", "\"one\"", "string", nil}, {"a1[1]", false, "\"two\"", "\"two\"", "string", nil}, {"a1[2]", false, "\"three\"", "\"three\"", "string", nil}, {"a1[3]", false, "\"four\"", "\"four\"", "string", nil}, {"a1[4]", false, "\"five\"", "\"five\"", "string", nil}, {"a1[5]", false, "", "", "string", errors.New("index out of bounds")}, {"str1[0]", false, "48", "48", "byte", nil}, {"str1[1]", false, "49", "49", "byte", nil}, {"str1[2]", false, "50", "50", "byte", nil}, {"str1[10]", false, "48", "48", "byte", nil}, {"str1[11]", false, "", "", "byte", errors.New("index out of bounds")}, // slice/array/string reslicing {"a1[2:4]", false, "[]string len: 2, cap: 3, [\"three\",\"four\"]", "[]string len: 2, cap: 3, [\"three\",\"four\"]", "[]string", nil}, {"s1[2:4]", false, "[]string len: 2, cap: 3, [\"three\",\"four\"]", "[]string len: 2, cap: 3, [\"three\",\"four\"]", "[]string", nil}, {"str1[2:4]", false, "\"23\"", "\"23\"", "string", nil}, {"str1[0:11]", false, "\"01234567890\"", "\"01234567890\"", "string", nil}, {"str1[:3]", false, "\"012\"", "\"012\"", "string", nil}, {"str1[3:]", false, "\"34567890\"", "\"34567890\"", "string", nil}, {"str1[0:12]", false, "", "", "string", errors.New("index out of bounds")}, {"str1[5:3]", false, "", "", "string", errors.New("index out of bounds")}, {"str1[11:]", false, "\"\"", "\"\"", "string", nil}, {"longbyteslice[:70]", false, "[]uint8 len: 70, cap: 144, [118,101,114,121,32,108,111,110,103,32,115,116,114,105,110,103,32,48,49,50,51,52,53,54,55,56,57,97,48,49,50,51,52,53,54,55,56,57,98,48,49,50,51,52,53,54,55,56,57,99,48,49,50,51,52,53,54,55,56,57,100,48,49,50,51,52,53,54,55,56]", "[]uint8 len: 70, cap: 144, [118,101,114,121,32,108,111,110,103,32,115,116,114,105,110,103,32,48,49,50,51,52,53,54,55,56,57,97,48,49,50,51,52,53,54,55,56,57,98,48,49,50,51,52,53,54,55,56,57,99,48,49,50,51,52,53,54,55,56,57,100,48,49,50,51,52,53,54,55,56]", "[]uint8", nil}, {"longbyteslice[:3][:5]", false, "[]uint8 len: 5, cap: 144, [118,101,114,121,32]", "[]uint8 len: 5, cap: 144, [118,101,114,121,32]", "[]uint8", nil}, // NaN and Inf floats {"pinf", false, "+Inf", "+Inf", "float64", nil}, {"ninf", false, "-Inf", "-Inf", "float64", nil}, {"nan", false, "NaN", "NaN", "float64", nil}, // pointers {"*p2", false, "5", "5", "int", nil}, {"p2", true, "*5", "(*int)(0x…", "*int", nil}, {"p3", true, "*int nil", "*int nil", "*int", nil}, {"*p3", false, "", "", "int", errors.New("nil pointer dereference")}, // channels {"ch1", true, "chan int 4/11", "chan int 4/11", "chan int", nil}, {"chnil", true, "chan int nil", "chan int nil", "chan int", nil}, {"ch1+1", false, "", "", "", errors.New("can not convert 1 constant to chan int")}, {"int3chan.buf", false, "*[5]main.ThreeInts [{a: 1, b: 0, c: 0},{a: 2, b: 0, c: 0},{a: 3, b: 0, c: 0},{a: 0, b: 0, c: 0},{a: 0, b: 0, c: 0}]", "(*[5]main.ThreeInts)(…", "*[5]main.ThreeInts", nil}, // maps {"m1[\"Malone\"]", false, "main.astruct {A: 2, B: 3}", "main.astruct {A: 2, B: 3}", "main.astruct", nil}, {"m2[1].B", false, "11", "11", "int", nil}, {"m2[c1.sa[2].B-4].A", false, "10", "10", "int", nil}, {"m2[*p1].B", false, "11", "11", "int", nil}, {"m3[as1]", false, "42", "42", "int", nil}, {"mnil[\"Malone\"]", false, "", "", "", errors.New("key not found")}, {"m1[80:]", false, "", "", "", errors.New("map index out of bounds")}, {"mlarge", false, "map[main.largestruct]main.largestruct [{name: \"one\", v: [256]uint8 [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,...+192 more]}: {name: \"oneval\", v: [256]uint8 [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,...+192 more]}, ]", "map[main.largestruct]main.largestruct [...]", "map[main.largestruct]main.largestruct", nil}, // interfaces {"err1", true, "error(*main.astruct) *{A: 1, B: 2}", "error(*main.astruct) 0x…", "error", nil}, {"err2", true, "error(*main.bstruct) *{a: main.astruct {A: 1, B: 2}}", "error(*main.bstruct) 0x…", "error", nil}, {"errnil", true, "error nil", "error nil", "error", nil}, {"iface1", true, "interface {}(*main.astruct) *{A: 1, B: 2}", "interface {}(*main.astruct) 0x…", "interface {}", nil}, {"iface1.A", false, "1", "1", "int", nil}, {"iface1.B", false, "2", "2", "int", nil}, {"iface2", true, "interface {}(string) \"test\"", "interface {}(string) \"test\"", "interface {}", nil}, {"iface3", true, "interface {}(map[string]go/constant.Value) []", "interface {}(map[string]go/constant.Value) []", "interface {}", nil}, {"iface4", true, "interface {}([]go/constant.Value) [4]", "interface {}([]go/constant.Value) [...]", "interface {}", nil}, {"ifacenil", true, "interface {} nil", "interface {} nil", "interface {}", nil}, {"err1 == err2", false, "false", "false", "", nil}, {"err1 == iface1", false, "", "", "", errors.New("mismatched types \"error\" and \"interface {}\"")}, {"errnil == nil", false, "true", "true", "", nil}, {"errtypednil == nil", false, "false", "false", "", nil}, {"nil == errnil", false, "true", "true", "", nil}, {"err1.(*main.astruct)", false, "*main.astruct {A: 1, B: 2}", "(*main.astruct)(0x…", "*main.astruct", nil}, {"err1.(*main.bstruct)", false, "", "", "", errors.New("interface conversion: error is *main.astruct, not *main.bstruct")}, {"errnil.(*main.astruct)", false, "", "", "", errors.New("interface conversion: error is nil, not *main.astruct")}, {"const1", true, "go/constant.Value(go/constant.int64Val) 3", "go/constant.Value(go/constant.int64Val) 3", "go/constant.Value", nil}, // combined expressions {"c1.pb.a.A", true, "1", "1", "int", nil}, {"c1.sa[1].B", false, "3", "3", "int", nil}, {"s2[5].B", false, "12", "12", "int", nil}, {"s2[c1.sa[2].B].A", false, "11", "11", "int", nil}, {"s2[*p2].B", false, "12", "12", "int", nil}, // constants {"1.1", false, "1.1", "1.1", "", nil}, {"10", false, "10", "10", "", nil}, {"1 + 2i", false, "(1 + 2i)", "(1 + 2i)", "", nil}, {"true", false, "true", "true", "", nil}, {"\"test\"", false, "\"test\"", "\"test\"", "", nil}, {"1/2", false, "0", "0", "", nil}, {"zeropoint4 > 1/2", false, "true", "true", "", nil}, // binary operators {"i2 + i3", false, "5", "5", "int", nil}, {"i2 - i3", false, "-1", "-1", "int", nil}, {"i3 - i2", false, "1", "1", "int", nil}, {"i2 * i3", false, "6", "6", "int", nil}, {"i2/i3", false, "0", "0", "int", nil}, {"f1/2.0", false, "1.5", "1.5", "float64", nil}, {"i2 << 2", false, "8", "8", "int", nil}, // unary operators {"-i2", false, "-2", "-2", "int", nil}, {"+i2", false, "2", "2", "int", nil}, {"^i2", false, "-3", "-3", "int", nil}, // comparison operators {"i2 == i3", false, "false", "false", "", nil}, {"i2 == 2", false, "true", "true", "", nil}, {"i2 == 2", false, "true", "true", "", nil}, {"i2 == 3", false, "false", "false", "", nil}, {"i2 != i3", false, "true", "true", "", nil}, {"i2 < i3", false, "true", "true", "", nil}, {"i2 <= i3", false, "true", "true", "", nil}, {"i2 > i3", false, "false", "false", "", nil}, {"i2 >= i3", false, "false", "false", "", nil}, {"i2 >= 2", false, "true", "true", "", nil}, {"str1 == \"01234567890\"", false, "true", "true", "", nil}, {"str1 < \"01234567890\"", false, "false", "false", "", nil}, {"str1 < \"11234567890\"", false, "true", "true", "", nil}, {"str1 > \"00234567890\"", false, "true", "true", "", nil}, {"str1 == str1", false, "true", "true", "", nil}, {"c1.pb.a == *(c1.sa[0])", false, "true", "true", "", nil}, {"c1.pb.a != *(c1.sa[0])", false, "false", "false", "", nil}, {"c1.pb.a == *(c1.sa[1])", false, "false", "false", "", nil}, {"c1.pb.a != *(c1.sa[1])", false, "true", "true", "", nil}, {`longstr == "not this"`, false, "false", "false", "", nil}, // builtins {"cap(parr)", false, "4", "4", "", nil}, {"len(parr)", false, "4", "4", "", nil}, {"cap(p1)", false, "", "", "", errors.New("invalid argument p1 (type *int) for cap")}, {"len(p1)", false, "", "", "", errors.New("invalid argument p1 (type *int) for len")}, {"cap(a1)", false, "5", "5", "", nil}, {"len(a1)", false, "5", "5", "", nil}, {"cap(s3)", false, "6", "6", "", nil}, {"len(s3)", false, "0", "0", "", nil}, {"cap(nilslice)", false, "0", "0", "", nil}, {"len(nilslice)", false, "0", "0", "", nil}, {"cap(ch1)", false, "11", "11", "", nil}, {"len(ch1)", false, "4", "4", "", nil}, {"cap(chnil)", false, "0", "0", "", nil}, {"len(chnil)", false, "0", "0", "", nil}, {"len(m1)", false, "66", "66", "", nil}, {"len(mnil)", false, "0", "0", "", nil}, {"imag(cpx1)", false, "2", "2", "", nil}, {"real(cpx1)", false, "1", "1", "", nil}, {"imag(3i)", false, "3", "3", "", nil}, {"real(4)", false, "4", "4", "", nil}, {"max(1, 2, 3)", false, "3", "3", "", nil}, {`max("one", "two", "three")`, false, `"two"`, `"two"`, "", nil}, {`min("one", "two", "three")`, false, `"one"`, `"one"`, "", nil}, {"max(s1[0], s1[1], s1[2])", false, `"two"`, `"two"`, "string", nil}, {"min(s1[0], s1[1], s1[2])", false, `"one"`, `"one"`, "string", nil}, {`max(s1[0], "two", s1[2])`, false, `"two"`, `"two"`, "", nil}, {`min(s1[0], "two", s1[2])`, false, `"one"`, `"one"`, "string", nil}, // nil {"nil", false, "nil", "nil", "", nil}, {"nil+1", false, "", "", "", errors.New("operator + can not be applied to \"nil\"")}, {"fn1", false, "main.afunc", "main.afunc", "main.functype", nil}, {"fn2", false, "nil", "nil", "main.functype", nil}, {"nilslice", false, "[]int len: 0, cap: 0, nil", "[]int len: 0, cap: 0, nil", "[]int", nil}, {"fn1 == fn2", false, "", "", "", errors.New("can not compare func variables")}, {"fn1 == nil", false, "false", "false", "", nil}, {"fn1 != nil", false, "true", "true", "", nil}, {"fn2 == nil", false, "true", "true", "", nil}, {"fn2 != nil", false, "false", "false", "", nil}, {"c1.sa == nil", false, "false", "false", "", nil}, {"c1.sa != nil", false, "true", "true", "", nil}, {"c1.sa[0] == nil", false, "false", "false", "", nil}, {"c1.sa[0] != nil", false, "true", "true", "", nil}, {"nilslice == nil", false, "true", "true", "", nil}, {"nil == nilslice", false, "true", "true", "", nil}, {"nilslice != nil", false, "false", "false", "", nil}, {"nilptr == nil", false, "true", "true", "", nil}, {"nilptr != nil", false, "false", "false", "", nil}, {"p1 == nil", false, "false", "false", "", nil}, {"p1 != nil", false, "true", "true", "", nil}, {"ch1 == nil", false, "false", "false", "", nil}, {"chnil == nil", false, "true", "true", "", nil}, {"ch1 == chnil", false, "", "", "", errors.New("can not compare chan variables")}, {"m1 == nil", false, "false", "false", "", nil}, {"mnil == m1", false, "", "", "", errors.New("can not compare map variables")}, {"mnil == nil", false, "true", "true", "", nil}, {"nil == 2", false, "", "", "", errors.New("can not compare int to nil")}, {"2 == nil", false, "", "", "", errors.New("can not compare int to nil")}, // errors {"&3", false, "", "", "", errors.New("can not take address of \"3\"")}, {"*3", false, "", "", "", errors.New("expression \"3\" (int) can not be dereferenced")}, {"&(i2 + i3)", false, "", "", "", errors.New("can not take address of \"(i2 + i3)\"")}, {"i2 + p1", false, "", "", "", errors.New("mismatched types \"int\" and \"*int\"")}, {"i2 + f1", false, "", "", "", errors.New("mismatched types \"int\" and \"float64\"")}, {"i2 << f1", false, "", "", "", errors.New("shift count type float64, must be unsigned integer")}, {"i2 << -1", false, "", "", "", errors.New("shift count must not be negative")}, {"*(i2 + i3)", false, "", "", "", errors.New("expression \"(i2 + i3)\" (int) can not be dereferenced")}, {"i2.member", false, "", "", "", errors.New("i2 (type int) is not a struct")}, {"fmt.Println(\"hello\")", false, "", "", "", errors.New("function calls not allowed without using 'call'")}, {"*nil", false, "", "", "", errors.New("nil can not be dereferenced")}, {"!nil", false, "", "", "", errors.New("operator ! can not be applied to \"nil\"")}, {"&nil", false, "", "", "", errors.New("can not take address of \"nil\"")}, {"nil[0]", false, "", "", "", errors.New("expression \"nil\" (nil) does not support indexing")}, {"nil[2:10]", false, "", "", "", errors.New("can not slice \"nil\" (type nil)")}, {"nil.member", false, "", "", "", errors.New("nil (type nil) is not a struct")}, {"(map[string]main.astruct)(0x4000)", false, "", "", "", errors.New("can not convert \"0x4000\" to map[string]main.astruct")}, // typecasts {"uint(i2)", false, "2", "2", "uint", nil}, {"int8(i2)", false, "2", "2", "int8", nil}, {"int(f1)", false, "3", "3", "int", nil}, {"complex128(f1)", false, "(3 + 0i)", "(3 + 0i)", "complex128", nil}, {"uint8(i4)", false, "32", "32", "uint8", nil}, {"uint8(i5)", false, "253", "253", "uint8", nil}, {"int8(i5)", false, "-3", "-3", "int8", nil}, {"int8(i6)", false, "12", "12", "int8", nil}, {"string(byteslice[0])", false, `"t"`, `"t"`, "string", nil}, {"string(runeslice[0])", false, `"t"`, `"t"`, "string", nil}, // misc {"i1", true, "1", "1", "int", nil}, {"mainMenu", true, `main.Menu len: 3, cap: 3, [{Name: "home", Route: "/", Active: 1},{Name: "About", Route: "/about", Active: 1},{Name: "Login", Route: "/login", Active: 1}]`, `main.Menu len: 3, cap: 3, [...]`, "main.Menu", nil}, {"mainMenu[0]", false, `main.Item {Name: "home", Route: "/", Active: 1}`, `main.Item {Name: "home", Route: "/", Active: 1}`, "main.Item", nil}, {"sd", false, "main.D {u1: 0, u2: 0, u3: 0, u4: 0, u5: 0, u6: 0}", "main.D {u1: 0, u2: 0, u3: 0,...+3 more}", "main.D", nil}, {"ifacearr", false, "[]error len: 2, cap: 2, [*main.astruct {A: 0, B: 0},nil]", "[]error len: 2, cap: 2, [...]", "[]error", nil}, {"efacearr", false, `[]interface {} len: 3, cap: 3, [*main.astruct {A: 0, B: 0},"test",nil]`, "[]interface {} len: 3, cap: 3, [...]", "[]interface {}", nil}, {"zsslice", false, `[]struct {} len: 3, cap: 3, [{},{},{}]`, `[]struct {} len: 3, cap: 3, [...]`, "[]struct {}", nil}, {"zsvmap", false, `map[string]struct {} ["testkey": {}, ]`, `map[string]struct {} [...]`, "map[string]struct {}", nil}, {"tm", false, "main.truncatedMap {v: []map[string]main.astruct len: 1, cap: 1, [[...]]}", "main.truncatedMap {v: []map[string]main.astruct len: 1, cap: 1, [...]}", "main.truncatedMap", nil}, {"emptyslice", false, `[]string len: 0, cap: 0, []`, `[]string len: 0, cap: 0, []`, "[]string", nil}, {"emptymap", false, `map[string]string []`, `map[string]string []`, "map[string]string", nil}, {"mnil", false, `map[string]main.astruct nil`, `map[string]main.astruct nil`, "map[string]main.astruct", nil}, {"ptrinf2", false, `**(main.pptr)(…`, `(main.pptr)(…`, "main.pptr", nil}, // conversions between string/[]byte/[]rune (issue #548, #3595, #3539) {"runeslice", true, `[]int32 len: 4, cap: 4, [116,232,115,116]`, `[]int32 len: 4, cap: 4, [...]`, "[]int32", nil}, {"byteslice", true, `[]uint8 len: 5, cap: 5, [116,195,168,115,116]`, `[]uint8 len: 5, cap: 5, [...]`, "[]uint8", nil}, {"[]byte(str1)", false, `[]uint8 len: 11, cap: 11, [48,49,50,51,52,53,54,55,56,57,48]`, `[]uint8 len: 11, cap: 11, nil`, "[]uint8", nil}, {"[]uint8(str1)", false, `[]uint8 len: 11, cap: 11, [48,49,50,51,52,53,54,55,56,57,48]`, `[]uint8 len: 11, cap: 11, nil`, "[]uint8", nil}, {"[]rune(str1)", false, `[]int32 len: 11, cap: 11, [48,49,50,51,52,53,54,55,56,57,48]`, `[]int32 len: 11, cap: 11, [48,49,50,51,52,53,54,55,56,57,48]`, "[]int32", nil}, {"[]int32(str1)", false, `[]int32 len: 11, cap: 11, [48,49,50,51,52,53,54,55,56,57,48]`, `[]int32 len: 11, cap: 11, [48,49,50,51,52,53,54,55,56,57,48]`, "[]int32", nil}, {"string(byteslice)", false, `"tèst"`, `"tèst"`, "string", nil}, {"[]int32(string(byteslice))", false, `[]int32 len: 4, cap: 4, [116,232,115,116]`, `[]int32 len: 4, cap: 4, [116,232,115,116]`, "[]int32", nil}, {"string(runeslice)", false, `"tèst"`, `"tèst"`, "string", nil}, {"[]byte(string(runeslice))", false, `[]uint8 len: 5, cap: 5, [116,195,168,115,116]`, `[]uint8 len: 5, cap: 5, [116,195,168,115,116]`, "[]uint8", nil}, {"*(*[5]byte)(uintptr(&byteslice[0]))", false, `[5]uint8 [116,195,168,115,116]`, `[5]uint8 [...]`, "[5]uint8", nil}, {"string(bytearray)", false, `"tèst"`, `"tèst"`, "string", nil}, {"string(runearray)", false, `"tèst"`, `"tèst"`, "string", nil}, {"string(str1)", false, `"01234567890"`, `"01234567890"`, "string", nil}, {"len([]byte(longstr))", false, `137`, `137`, "", nil}, {"len(string(longbyteslice))", false, `137`, `137`, "", nil}, // access to channel field members {"ch1.qcount", false, "4", "4", "uint", nil}, {"ch1.dataqsiz", false, "11", "11", "uint", nil}, {"ch1.buf", false, `*[11]int [1,4,3,2,0,0,0,0,0,0,0]`, `(*[11]int)(…`, "*[11]int", nil}, {"ch1.buf[0]", false, "1", "1", "int", nil}, // shortcircuited logical operators {"nilstruct != nil && nilstruct.A == 1", false, "false", "false", "", nil}, {"nilstruct == nil || nilstruct.A == 1", false, "true", "true", "", nil}, {"afunc", true, `main.afunc`, `main.afunc`, `func()`, nil}, {"main.afunc2", true, `main.afunc2`, `main.afunc2`, `func()`, nil}, {"s2[0].Error", false, "main.(*astruct).Error", "main.(*astruct).Error", "func() string", nil}, {"s2[0].NonPointerReceiverMethod", false, "main.astruct.NonPointerReceiverMethod", "main.astruct.NonPointerReceiverMethod", "func()", nil}, {"as2.Error", false, "main.(*astruct).Error", "main.(*astruct).Error", "func() string", nil}, {"as2.NonPointerReceiverMethod", false, "main.astruct.NonPointerReceiverMethod", "main.astruct.NonPointerReceiverMethod", "func()", nil}, {`iface2map.(data)`, false, "…", "…", "map[string]interface {}", nil}, {"issue1578", false, "main.Block {cache: *main.Cache nil}", "main.Block {cache: *main.Cache nil}", "main.Block", nil}, {"ni8 << 2", false, "-20", "-20", "int8", nil}, {"ni8 << 8", false, "0", "0", "int8", nil}, {"ni8 >> 1", false, "-3", "-3", "int8", nil}, {"bytearray[0] * bytearray[0]", false, "144", "144", "uint8", nil}, // function call / typecast errors {"unknownthing(1, 2)", false, "", "", "", altErrors("function calls not allowed without using 'call'", "could not find symbol value for unknownthing")}, {"(unknownthing)(1, 2)", false, "", "", "", altErrors("function calls not allowed without using 'call'", "could not find symbol value for unknownthing")}, {"afunc(2)", false, "", "", "", errors.New("function calls not allowed without using 'call'")}, {"(afunc)(2)", false, "", "", "", errors.New("function calls not allowed without using 'call'")}, {"(*afunc)(2)", false, "", "", "", errors.New("*")}, {"unknownthing(2)", false, "", "", "", altErrors("function calls not allowed without using 'call'", "could not find symbol value for unknownthing")}, {"(*unknownthing)(2)", false, "", "", "", altErrors("function calls not allowed without using 'call'", "could not find symbol value for unknownthing")}, {"(*strings.Split)(2)", false, "", "", "", altErrors("function calls not allowed without using 'call'", "could not find symbol value for strings")}, // pretty printing special types {"tim1", false, `time.Time(1977-05-25T18:00:00Z)…`, `time.Time(1977-05-25T18:00:00Z)…`, "time.Time", nil}, {"tim2", false, `time.Time(2022-06-07T02:03:04-06:00)…`, `time.Time(2022-06-07T02:03:04-06:00)…`, "time.Time", nil}, {"tim3", false, `time.Time {…`, `time.Time {…`, "time.Time", nil}, // issue #3034 - map access with long string key {`m6["very long string 0123456789a0123456789b0123456789c0123456789d0123456789e0123456789f0123456789g012345678h90123456789i0123456789j0123456789"]`, false, `123`, `123`, "int", nil}, // issue #1423 - special typecasts everywhere {`string(byteslice) == "tèst"`, false, `true`, `true`, "", nil}, // issue #3138 - typecast to *interface{} breaking {`*(*interface {})(uintptr(&iface1))`, false, `interface {}(*main.astruct) *{A: 1, B: 2}`, `interface {}(*main.astruct)…`, "interface {}", nil}, {`*(*struct {})(uintptr(&zsvar))`, false, `struct {} {}`, `struct {} {}`, "struct {}", nil}, // issue #3130 - typecasts that are only valid because of underlying type compatibility {`main.Byte(bytearray[0])`, false, `116`, `116`, "main.Byte", nil}, {`uint8(bytetypearray[0])`, false, `116`, `116`, "uint8", nil}, {`main.Byte(2)`, false, `2`, `2`, "main.Byte", nil}, {`main.String(s1[0])`, false, `"one"`, `"one"`, "main.String", nil}, {`string(typedstringvar)`, false, `"blah"`, `"blah"`, "string", nil}, {`main.String("test")`, false, `"test"`, `"test"`, "main.String", nil}, {`main.astruct(namedA1)`, false, `main.astruct {A: 12, B: 45}`, `main.astruct {A: 12, B: 45}`, "main.astruct", nil}, {`main.astructName2(namedA1)`, false, `main.astructName2 {A: 12, B: 45}`, `main.astructName2 {A: 12, B: 45}`, "main.astructName2", nil}, {`(*main.Byte)(&bytearray[0])`, false, `(*main.Byte)(…`, `(*main.Byte)(…`, "*main.Byte", nil}, {`(*main.String)(&s1[0])`, false, `(*main.String)(…`, `(*main.String)(…`, "*main.String", nil}, {`(*string)(&typedstringvar)`, false, `(*string)(…`, `(*string)(…`, "*string", nil}, {`(*main.astruct)(&namedA1)`, false, `(*main.astruct)(…`, `(*main.astruct)(…`, "*main.astruct", nil}, {`(*main.astructName2)(&namedA1)`, false, `(*main.astructName2)(…`, `(*main.astructName2)(…`, "*main.astructName2", nil}, // Conversions to and from uintptr/unsafe.Pointer {`*(*uint)(uintptr(p1))`, false, `1`, `1`, "uint", nil}, {`*(*uint)(uintptr(&i1))`, false, `1`, `1`, "uint", nil}, {`*(*uint)(unsafe.Pointer(p1))`, false, `1`, `1`, "uint", nil}, {`*(*uint)(unsafe.Pointer(&i1))`, false, `1`, `1`, "uint", nil}, // Malformed values {`badslice`, false, `(unreadable non-zero length array with nil base)`, `(unreadable non-zero length array with nil base)`, "[]int", nil}, } // Conversions to ptr-to-ptr types if goversion.VersionAfterOrEqual(runtime.Version(), 1, 24) { testcases = append(testcases, varTest{`**(**maps.Map)(uintptr(&m1))`, false, `…`, `…`, "internal/runtime/maps.Map", nil}) } else { testcases = append(testcases, varTest{`**(**runtime.hmap)(uintptr(&m1))`, false, `…`, `…`, "runtime.hmap", nil}) } return testcases } func altErrors(errs ...string) *altError { return &altError{errs} } type altError struct { errs []string } func (err *altError) Error() string { return "[multiple alternatives]" } func TestEvalExpression(t *testing.T) { testcases := getEvalExpressionTestCases() protest.AllowRecording(t) withTestProcess("testvariables2", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue() returned an error") for i, tc := range testcases { t.Run(strconv.Itoa(i), func(t *testing.T) { t.Logf("%q", tc.name) variable, err := evalVariableWithCfg(p, tc.name, pnormalLoadConfig) if err != nil && err.Error() == "evaluating methods not supported on this version of Go" { // this type of eval is unsupported with the current version of Go. return } if tc.err == nil { assertNoError(err, t, fmt.Sprintf("EvalExpression(%s) returned an error", tc.name)) assertVariable(t, variable, tc) variable, err := evalVariableWithCfg(p, tc.name, pshortLoadConfig) assertNoError(err, t, fmt.Sprintf("EvalExpression(%s, pshortLoadConfig) returned an error", tc.name)) assertVariable(t, variable, tc.alternateVarTest()) } else { if err == nil { t.Fatalf("Expected error %s, got no error (%s)", tc.err.Error(), tc.name) } switch e := tc.err.(type) { case *altError: ok := false for _, tgtErr := range e.errs { if tgtErr == err.Error() { ok = true break } } if !ok { t.Fatalf("Unexpected error. Expected %s got %s", tc.err.Error(), err.Error()) } default: if tc.err.Error() != "*" && tc.err.Error() != err.Error() { t.Fatalf("Unexpected error. Expected %s got %s", tc.err.Error(), err.Error()) } } } }) } }) } func TestEvalAddrAndCast(t *testing.T) { protest.AllowRecording(t) withTestProcess("testvariables2", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue() returned an error") c1addr, err := evalVariableWithCfg(p, "&c1", pnormalLoadConfig) assertNoError(err, t, "EvalExpression(&c1)") c1addrstr := api.ConvertVar(c1addr).SinglelineString() t.Logf("&c1 → %s", c1addrstr) if !strings.HasPrefix(c1addrstr, "(*main.cstruct)(0x") { t.Fatalf("Invalid value of EvalExpression(&c1) %q", c1addrstr) } aaddr, err := evalVariableWithCfg(p, "&(c1.pb.a)", pnormalLoadConfig) assertNoError(err, t, "EvalExpression(&(c1.pb.a))") aaddrstr := api.ConvertVar(aaddr).SinglelineString() t.Logf("&(c1.pb.a) → %s", aaddrstr) if !strings.HasPrefix(aaddrstr, "(*main.astruct)(0x") { t.Fatalf("invalid value of EvalExpression(&(c1.pb.a)) %q", aaddrstr) } a, err := evalVariableWithCfg(p, "*"+aaddrstr, pnormalLoadConfig) assertNoError(err, t, fmt.Sprintf("EvalExpression(*%s)", aaddrstr)) t.Logf("*%s → %s", aaddrstr, api.ConvertVar(a).SinglelineString()) assertVariable(t, a, varTest{aaddrstr, false, "main.astruct {A: 1, B: 2}", "", "main.astruct", nil}) }) } func TestMapEvaluation(t *testing.T) { protest.AllowRecording(t) withTestProcess("testvariables2", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue() returned an error") m1v, err := evalVariableWithCfg(p, "m1", pnormalLoadConfig) assertNoError(err, t, "EvalVariable()") m1 := api.ConvertVar(m1v) t.Logf("m1 = %v", m1.MultilineString("", "")) if m1.Type != "map[string]main.astruct" { t.Fatalf("Wrong type: %s", m1.Type) } if len(m1.Children)/2 != 64 { t.Fatalf("Wrong number of children: %d", len(m1.Children)/2) } m1sliced, err := evalVariableWithCfg(p, "m1[64:]", pnormalLoadConfig) assertNoError(err, t, "EvalVariable(m1[64:])") if len(m1sliced.Children)/2 != int(m1.Len-64) { t.Fatalf("Wrong number of children (after slicing): %d", len(m1sliced.Children)/2) } countMalone := func(m *api.Variable) int { found := 0 for i := range m.Children { if i%2 == 0 && m.Children[i].Value == "Malone" { found++ } } return found } found := countMalone(m1) found += countMalone(api.ConvertVar(m1sliced)) if found != 1 { t.Fatalf("Could not find Malone exactly 1 time: found %d", found) } }) } func TestUnsafePointer(t *testing.T) { protest.AllowRecording(t) withTestProcess("testvariables2", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue() returned an error") up1v, err := evalVariableWithCfg(p, "up1", pnormalLoadConfig) assertNoError(err, t, "EvalVariable(up1)") up1 := api.ConvertVar(up1v) if ss := up1.SinglelineString(); !strings.HasPrefix(ss, "unsafe.Pointer(") { t.Fatalf("wrong value for up1: %s", ss) } }) } type issue426TestCase struct { name string typ string } func TestIssue426(t *testing.T) { // type casts using quoted type names testcases := []issue426TestCase{ {"iface1", `interface {}`}, {"mapanonstruct1", `map[string]struct {}`}, {"anonstruct1", `struct { val go/constant.Value }`}, {"anonfunc", `func(struct { i int }, interface {}, struct { val go/constant.Value })`}, {"anonstruct2", `struct { i int; j int }`}, {"anoniface1", `interface { OtherFunction(int, int); SomeFunction(struct { val go/constant.Value }) }`}, } ver, _ := goversion.Parse(runtime.Version()) if ver.Major < 0 || ver.AfterOrEqual(goversion.GoVersion{Major: 1, Minor: 8, Rev: -1}) { testcases[2].typ = `struct { main.val go/constant.Value }` testcases[3].typ = `func(struct { main.i int }, interface {}, struct { main.val go/constant.Value })` testcases[4].typ = `struct { main.i int; main.j int }` testcases[5].typ = `interface { OtherFunction(int, int); SomeFunction(struct { main.val go/constant.Value }) }` } // Serialization of type expressions (go/ast.Expr) containing anonymous structs or interfaces // differs from the serialization used by the linker to produce DWARF type information protest.AllowRecording(t) withTestProcess("testvariables2", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue() returned an error") for _, testcase := range testcases { v, err := evalVariableWithCfg(p, testcase.name, pnormalLoadConfig) assertNoError(err, t, fmt.Sprintf("EvalVariable(%s)", testcase.name)) t.Logf("%s → %s", testcase.name, v.RealType.String()) expr := fmt.Sprintf("(*%q)(%d)", testcase.typ, v.Addr) _, err = evalVariableWithCfg(p, expr, pnormalLoadConfig) assertNoError(err, t, fmt.Sprintf("EvalVariable(%s)", expr)) } }) } func testPackageRenamesHelper(t *testing.T, p *proc.Target, testcases []varTest) { for _, tc := range testcases { variable, err := evalVariableWithCfg(p, tc.name, pnormalLoadConfig) if tc.err == nil { assertNoError(err, t, fmt.Sprintf("EvalExpression(%s) returned an error", tc.name)) assertVariable(t, variable, tc) } else { if err == nil { t.Fatalf("Expected error %s, got no error (%s)", tc.err.Error(), tc.name) } if tc.err.Error() != err.Error() { t.Fatalf("Unexpected error. Expected %s got %s", tc.err.Error(), err.Error()) } } } } func TestPackageRenames(t *testing.T) { // Tests that the concrete type of an interface variable is resolved // correctly in a few edge cases, in particular: // - in the presence of renamed imports // - when two packages with the same name are imported // - when a package has a canonical name that's different from its // path (for example the last element of the path contains a '.' or a // '-' or because the package name is different) // all of those edge cases are tested within composite types testcases := []varTest{ // Renamed imports {"badexpr", true, `interface {}(*go/ast.BadExpr) *{From: 1, To: 2}`, "", "interface {}", nil}, {"req", true, `interface {}(*net/http.Request) *{Method: "amethod", …`, "", "interface {}", nil}, // Package name that doesn't match import path {"iface3", true, `interface {}(*github.com/go-delve/delve/_fixtures/internal/dir0/renamedpackage.SomeType) *{A: true}`, "", "interface {}", nil}, // Interfaces to anonymous types {"dir0someType", true, "interface {}(*github.com/go-delve/delve/_fixtures/internal/dir0/pkg.SomeType) *{X: 3}", "", "interface {}", nil}, {"dir1someType", true, "interface {}(github.com/go-delve/delve/_fixtures/internal/dir1/pkg.SomeType) {X: 1, Y: 2}", "", "interface {}", nil}, {"amap3", true, "interface {}(map[github.com/go-delve/delve/_fixtures/internal/dir0/pkg.SomeType]github.com/go-delve/delve/_fixtures/internal/dir1/pkg.SomeType) [{X: 4}: {X: 5, Y: 6}, ]", "", "interface {}", nil}, {"anarray", true, `interface {}([2]github.com/go-delve/delve/_fixtures/internal/dir0/pkg.SomeType) [{X: 1},{X: 2}]`, "", "interface {}", nil}, {"achan", true, `interface {}(chan github.com/go-delve/delve/_fixtures/internal/dir0/pkg.SomeType) chan github.com/go-delve/delve/_fixtures/internal/dir0/pkg.SomeType 0/0`, "", "interface {}", nil}, {"aslice", true, `interface {}([]github.com/go-delve/delve/_fixtures/internal/dir0/pkg.SomeType) [{X: 3},{X: 4}]`, "", "interface {}", nil}, {"afunc", true, `interface {}(func(github.com/go-delve/delve/_fixtures/internal/dir0/pkg.SomeType, github.com/go-delve/delve/_fixtures/internal/dir1/pkg.SomeType)) main.main.func1`, "", "interface {}", nil}, {"astruct", true, `interface {}(*struct { A github.com/go-delve/delve/_fixtures/internal/dir1/pkg.SomeType; B github.com/go-delve/delve/_fixtures/internal/dir0/pkg.SomeType }) *{A: github.com/go-delve/delve/_fixtures/internal/dir1/pkg.SomeType {X: 1, Y: 2}, B: github.com/go-delve/delve/_fixtures/internal/dir0/pkg.SomeType {X: 3}}`, "", "interface {}", nil}, {"iface2iface", true, `interface {}(*interface { AMethod(int) int; AnotherMethod(int) int }) **github.com/go-delve/delve/_fixtures/internal/dir0/pkg.SomeType {X: 4}`, "", "interface {}", nil}, {`"dir0/pkg".A`, false, "0", "", "int", nil}, {`"dir1/pkg".A`, false, "1", "", "int", nil}, {"amap", true, "interface {}(map[go/ast.BadExpr]net/http.Request) [{From: 2, To: 3}: {Method: \"othermethod\", …", "", "interface {}", nil}, {"amap2", true, "interface {}(*map[go/ast.BadExpr]net/http.Request) *[{From: 2, To: 3}: {Method: \"othermethod\", …", "", "interface {}", nil}, } testcases1_9 := []varTest{ {"astruct2", true, `interface {}(*struct { github.com/go-delve/delve/_fixtures/internal/dir1/pkg.SomeType; X int }) *{SomeType: github.com/go-delve/delve/_fixtures/internal/dir1/pkg.SomeType {X: 1, Y: 2}, X: 10}`, "", "interface {}", nil}, } testcases1_13 := []varTest{ // needs DW_AT_go_package_name attribute added to Go1.13 {`dirio.A`, false, `"something"`, "", "string", nil}, } if !goversion.VersionAfterOrEqual(runtime.Version(), 1, 7) { return } protest.AllowRecording(t) withTestProcess("pkgrenames", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue() returned an error") testPackageRenamesHelper(t, p, testcases) testPackageRenamesHelper(t, p, testcases1_9) if goversion.VersionAfterOrEqual(runtime.Version(), 1, 13) { testPackageRenamesHelper(t, p, testcases1_13) } }) } func TestConstants(t *testing.T) { testcases := []varTest{ {"a", true, "constTwo (2)", "0x2", "main.ConstType", nil}, {"b", true, "constThree (3)", "0x3", "main.ConstType", nil}, {"c", true, "bitZero|bitOne (3)", "0x3", "main.BitFieldType", nil}, {"d", true, "33", "0x21", "main.BitFieldType", nil}, {"e", true, "10", "0xa", "main.ConstType", nil}, {"f", true, "0", "0x0", "main.BitFieldType", nil}, {"bitZero", true, "1", "0x1", "main.BitFieldType", nil}, {"bitOne", true, "2", "0x2", "main.BitFieldType", nil}, {"constTwo", true, "2", "0x2", "main.ConstType", nil}, {"pkg.SomeConst", false, "2", "0x2", "int", nil}, } ver, _ := goversion.Parse(runtime.Version()) if ver.Major > 0 && !ver.AfterOrEqual(goversion.GoVersion{Major: 1, Minor: 10, Rev: -1}) { // Not supported on 1.9 or earlier t.Skip("constants added in go 1.10") } withTestProcess("consts", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue") for _, testcase := range testcases { variable, err := evalVariableWithCfg(p, testcase.name, pnormalLoadConfig) assertNoError(err, t, fmt.Sprintf("EvalVariable(%s)", testcase.name)) assertVariable(t, variable, testcase) cv := api.ConvertVar(variable) str := cv.SinglelineStringFormatted("%#x") if str != testcase.alternate { t.Errorf("for %s expected %q got %q when formatting in hexadecimal", testcase.name, testcase.alternate, str) } } }) } func TestIssue1075(t *testing.T) { withTestProcess("clientdo", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { setFunctionBreakpoint(p, t, "net/http.(*Client).Do") assertNoError(grp.Continue(), t, "Continue()") for i := 0; i < 10; i++ { scope, err := proc.GoroutineScope(p, p.CurrentThread()) assertNoError(err, t, fmt.Sprintf("GoroutineScope (%d)", i)) vars, err := scope.LocalVariables(pnormalLoadConfig) assertNoError(err, t, fmt.Sprintf("LocalVariables (%d)", i)) for _, v := range vars { api.ConvertVar(v).SinglelineString() } } }) } type testCaseCallFunction struct { expr string // call expression to evaluate outs []string // list of return parameters in this format: :: err error // if not nil should return an error pinCount int // where debugPinner is supported this is the number of pins created during the function call injection } func TestCallFunction(t *testing.T) { skipOn(t, "broken - pie mode", "linux", "ppc64le", "native", "pie") protest.MustSupportFunctionCalls(t, testBackend) protest.AllowRecording(t) var testcases = []testCaseCallFunction{ // Basic function call injection tests {"call1(one, two)", []string{":int:3"}, nil, 0}, {"call1(one+two, 4)", []string{":int:7"}, nil, 0}, {"callpanic()", []string{`~panic:interface {}:interface {}(string) "callpanic panicked"`}, nil, 0}, {`stringsJoin(nil, "")`, []string{`:string:""`}, nil, 0}, {`stringsJoin(stringslice, comma)`, []string{`:string:"one,two,three"`}, nil, 1}, {`stringsJoin(stringslice, "~~")`, []string{`:string:"one~~two~~three"`}, nil, 2}, {`stringsJoin(s1, comma)`, nil, errors.New(`could not find symbol value for s1`), 1}, {`stringsJoin(intslice, comma)`, nil, errors.New("can not convert value of type []int to []string"), 1}, {`noreturncall(2)`, nil, nil, 0}, // Expression tests {`square(2) + 1`, []string{":int:5"}, nil, 0}, {`intcallpanic(1) + 1`, []string{":int:2"}, nil, 0}, {`intcallpanic(0) + 1`, []string{`~panic:interface {}:interface {}(string) "panic requested"`}, nil, 0}, {`onetwothree(5)[1] + 2`, []string{":int:9"}, nil, 1}, // Call types tests (methods, function pointers, etc.) // The following set of calls was constructed using https://docs.google.com/document/d/1bMwCey-gmqZVTpRax-ESeVuZGmjwbocYs1iHplK-cjo/pub as a reference {`a.VRcvr(1)`, []string{`:string:"1 + 3 = 4"`}, nil, 1}, // direct call of a method with value receiver / on a value {`a.PRcvr(2)`, []string{`:string:"2 - 3 = -1"`}, nil, 1}, // direct call of a method with pointer receiver / on a value {`pa.VRcvr(3)`, []string{`:string:"3 + 6 = 9"`}, nil, 1}, // direct call of a method with value receiver / on a pointer {`pa.PRcvr(4)`, []string{`:string:"4 - 6 = -2"`}, nil, 1}, // direct call of a method with pointer receiver / on a pointer {`vable_pa.VRcvr(6)`, []string{`:string:"6 + 6 = 12"`}, nil, 1}, // indirect call of method on interface / containing value with value method {`pable_pa.PRcvr(7)`, []string{`:string:"7 - 6 = 1"`}, nil, 1}, // indirect call of method on interface / containing pointer with value method {`vable_a.VRcvr(5)`, []string{`:string:"5 + 3 = 8"`}, nil, 1}, // indirect call of method on interface / containing pointer with pointer method {`pa.nonexistent()`, nil, errors.New("pa has no member nonexistent"), 0}, {`a.nonexistent()`, nil, errors.New("a has no member nonexistent"), 0}, {`vable_pa.nonexistent()`, nil, errors.New("vable_pa has no member nonexistent"), 0}, {`vable_a.nonexistent()`, nil, errors.New("vable_a has no member nonexistent"), 0}, {`pable_pa.nonexistent()`, nil, errors.New("pable_pa has no member nonexistent"), 0}, {`fn2glob(10, 20)`, []string{":int:30"}, nil, 0}, // indirect call of func value / set to top-level func {`fn2clos(11)`, []string{`:string:"1 + 6 + 11 = 18"`}, nil, 1}, // indirect call of func value / set to func literal {`fn2clos(12)`, []string{`:string:"2 + 6 + 12 = 20"`}, nil, 1}, {`fn2valmeth(13)`, []string{`:string:"13 + 6 = 19"`}, nil, 1}, // indirect call of func value / set to value method {`fn2ptrmeth(14)`, []string{`:string:"14 - 6 = 8"`}, nil, 1}, // indirect call of func value / set to pointer method {"fn2nil()", nil, errors.New("nil pointer dereference"), 0}, {"ga.PRcvr(2)", []string{`:string:"2 - 0 = 2"`}, nil, 1}, {"x.CallMe()", nil, nil, 0}, {"x2.CallMe(5)", []string{":int:25"}, nil, 0}, {"\"delve\".CallMe()", nil, errors.New("\"delve\" (type string) is not a struct"), 0}, // Nested function calls tests {`onetwothree(intcallpanic(2))`, []string{`:[]int:[]int len: 3, cap: 3, [3,4,5]`}, nil, 1}, {`onetwothree(intcallpanic(0))`, []string{`~panic:interface {}:interface {}(string) "panic requested"`}, nil, 0}, {`onetwothree(intcallpanic(2)+1)`, []string{`:[]int:[]int len: 3, cap: 3, [4,5,6]`}, nil, 1}, {`onetwothree(intcallpanic("not a number"))`, nil, errors.New("can not convert \"not a number\" constant to int"), 1}, // Variable setting tests {`pa2 = getAStructPtr(8); pa2`, []string{`pa2:*main.astruct:*main.astruct {X: 8}`}, nil, 1}, // Escape tests {"escapeArg(&a2)", nil, errors.New("cannot use &a2 as argument pa2 in function main.escapeArg: stack object passed to escaping pointer: pa2"), 0}, // Issue 1577 {"1+2", []string{`::3`}, nil, 0}, {`"de"+"mo"`, []string{`::"demo"`}, nil, 0}, // Issue 3176 {`ref.String()[0]`, []string{`:byte:98`}, nil, 1}, {`ref.String()[20]`, nil, errors.New("index out of bounds"), 1}, } var testcases112 = []testCaseCallFunction{ // string allocation requires trusted argument order, which we don't have in Go 1.11 {`stringsJoin(stringslice, ",")`, []string{`:string:"one,two,three"`}, nil, 2}, {`str = "a new string"; str`, []string{`str:string:"a new string"`}, nil, 1}, // support calling optimized functions {`strings.Join(nil, "")`, []string{`:string:""`}, nil, 0}, {`strings.Join(stringslice, comma)`, []string{`:string:"one,two,three"`}, nil, 1}, {`strings.Join(intslice, comma)`, nil, errors.New("can not convert value of type []int to []string"), 1}, {`strings.Join(stringslice, ",")`, []string{`:string:"one,two,three"`}, nil, 2}, {`strings.LastIndexByte(stringslice[1], 'w')`, []string{":int:1"}, nil, 0}, {`strings.LastIndexByte(stringslice[1], 'o')`, []string{":int:2"}, nil, 0}, {`d.Base.Method()`, []string{`:int:4`}, nil, 0}, {`d.Method()`, []string{`:int:4`}, nil, 0}, } var testcases113 = []testCaseCallFunction{ {`curriedAdd(2)(3)`, []string{`:int:5`}, nil, 1}, // Method calls on a value returned by a function {`getAStruct(3).VRcvr(1)`, []string{`:string:"1 + 3 = 4"`}, nil, 1}, // direct call of a method with value receiver / on a value {`getAStruct(3).PRcvr(2)`, nil, errors.New("could not set call receiver: cannot use getAStruct(3).PRcvr as argument pa in function main.(*astruct).PRcvr: stack object passed to escaping pointer: pa"), 0}, // direct call of a method with pointer receiver / on a value {`getAStructPtr(6).VRcvr(3)`, []string{`:string:"3 + 6 = 9"`}, nil, 2}, // direct call of a method with value receiver / on a pointer {`getAStructPtr(6).PRcvr(4)`, []string{`:string:"4 - 6 = -2"`}, nil, 2}, // direct call of a method with pointer receiver / on a pointer {`getVRcvrableFromAStruct(3).VRcvr(6)`, []string{`:string:"6 + 3 = 9"`}, nil, 3}, // indirect call of method on interface / containing value with value method {`getPRcvrableFromAStructPtr(6).PRcvr(7)`, []string{`:string:"7 - 6 = 1"`}, nil, 3}, // indirect call of method on interface / containing pointer with value method {`getVRcvrableFromAStructPtr(6).VRcvr(5)`, []string{`:string:"5 + 6 = 11"`}, nil, 3}, // indirect call of method on interface / containing pointer with pointer method } var testcasesBefore114After112 = []testCaseCallFunction{ {`strings.Join(s1, comma)`, nil, errors.New(`could not find symbol value for s1`), 1}, } var testcases114 = []testCaseCallFunction{ {`strings.Join(s1, comma)`, nil, errors.New(`could not find symbol value for s1`), 1}, } var testcases117 = []testCaseCallFunction{ {`regabistacktest("one", "two", "three", "four", "five", 4)`, []string{`:string:"onetwo"`, `:string:"twothree"`, `:string:"threefour"`, `:string:"fourfive"`, `:string:"fiveone"`, ":uint8:8"}, nil, 10}, {`regabistacktest2(1, 2, 3, 4, 5, 6, 7, 8, 9, 10)`, []string{":int:3", ":int:5", ":int:7", ":int:9", ":int:11", ":int:13", ":int:15", ":int:17", ":int:19", ":int:11"}, nil, 0}, {`issue2698.String()`, []string{`:string:"1 2 3 4"`}, nil, 1}, {`issue3364.String()`, []string{`:string:"1 2"`}, nil, 1}, {`regabistacktest3(rast3, 5)`, []string{`:[10]string:[10]string ["onetwo","twothree","threefour","fourfive","fivesix","sixseven","sevenheight","heightnine","nineten","tenone"]`, ":uint8:15"}, nil, 10}, {`floatsum(1, 2)`, []string{":float64:3"}, nil, 0}, } withTestProcessArgs("fncall", t, ".", nil, protest.AllNonOptimized, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { testCallFunctionSetBreakpoint(t, p, grp, fixture) assertNoError(grp.Continue(), t, "Continue()") for _, tc := range testcases { testCallFunction(t, grp, p, tc) } if goversion.VersionAfterOrEqual(runtime.Version(), 1, 12) { for _, tc := range testcases112 { testCallFunction(t, grp, p, tc) } if !goversion.VersionAfterOrEqual(runtime.Version(), 1, 14) { for _, tc := range testcasesBefore114After112 { testCallFunction(t, grp, p, tc) } } } if goversion.VersionAfterOrEqual(runtime.Version(), 1, 13) { for _, tc := range testcases113 { testCallFunction(t, grp, p, tc) } } if goversion.VersionAfterOrEqual(runtime.Version(), 1, 14) { for _, tc := range testcases114 { testCallFunction(t, grp, p, tc) } } if goversion.VersionAfterOrEqual(runtime.Version(), 1, 17) { for _, tc := range testcases117 { testCallFunction(t, grp, p, tc) } } // LEAVE THIS AS THE LAST ITEM, IT BREAKS THE TARGET PROCESS!!! testCallFunction(t, grp, p, testCaseCallFunction{"-unsafe escapeArg(&a2)", nil, nil, 0}) }) } func testCallFunctionSetBreakpoint(t *testing.T, p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { buf, err := os.ReadFile(fixture.Source) assertNoError(err, t, "ReadFile") for i, line := range strings.Split(string(buf), "\n") { if strings.Contains(line, "// breakpoint here") { setFileBreakpoint(p, t, fixture.Source, i+1) return } } } func testCallFunction(t *testing.T, grp *proc.TargetGroup, p *proc.Target, tc testCaseCallFunction) { t.Run(tc.expr, func(t *testing.T) { testCallFunctionIntl(t, grp, p, tc) }) } func testCallFunctionIntl(t *testing.T, grp *proc.TargetGroup, p *proc.Target, tc testCaseCallFunction) { const unsafePrefix = "-unsafe " var callExpr, varExpr string if semicolon := strings.Index(tc.expr, ";"); semicolon >= 0 { callExpr = tc.expr[:semicolon] varExpr = tc.expr[semicolon+1:] } else { callExpr = tc.expr } checkEscape := true if strings.HasPrefix(callExpr, unsafePrefix) { callExpr = callExpr[len(unsafePrefix):] checkEscape = false } t.Logf("call %q", tc.expr) err := proc.EvalExpressionWithCalls(grp, p.SelectedGoroutine(), callExpr, pnormalLoadConfig, checkEscape) if tc.err != nil { t.Logf("\terr = %v\n", err) if err == nil { t.Fatalf("call %q: expected error %q, got no error", tc.expr, tc.err.Error()) } if tc.err.Error() != err.Error() { t.Fatalf("call %q: expected error %q, got %q", tc.expr, tc.err.Error(), err.Error()) } return } if err != nil { if strings.HasPrefix(err.Error(), "internal debugger error") { t.Fatalf("call %q: error %s", tc.expr, err.Error()) } else { t.Fatalf("call %q: error %q", tc.expr, err.Error()) } } retvalsVar := p.CurrentThread().Common().ReturnValues(pnormalLoadConfig) retvals := make([]*api.Variable, len(retvalsVar)) for i := range retvals { retvals[i] = api.ConvertVar(retvalsVar[i]) } if varExpr != "" { scope, err := proc.GoroutineScope(p, p.CurrentThread()) assertNoError(err, t, "GoroutineScope") v, err := scope.EvalExpression(varExpr, pnormalLoadConfig) assertNoError(err, t, fmt.Sprintf("EvalExpression(%s)", varExpr)) retvals = append(retvals, api.ConvertVar(v)) } for i := range retvals { t.Logf("\t%s = %s", retvals[i].Name, retvals[i].SinglelineString()) } if len(retvals) != len(tc.outs) { t.Logf("call %q: wrong number of return parameters (%#v)", tc.expr, retvals) for i := range retvals { t.Logf("%d: %#v", i, retvals[i]) } t.Fatal("previous errors") } for i := range retvals { outfields := strings.SplitN(tc.outs[i], ":", 3) tgtName, tgtType, tgtValue := outfields[0], outfields[1], outfields[2] if tgtName != "" && tgtName != retvals[i].Name { t.Fatalf("call %q output parameter %d: expected name %q, got %q", tc.expr, i, tgtName, retvals[i].Name) } if retvals[i].Type != tgtType { t.Fatalf("call %q, output parameter %d: expected type %q, got %q", tc.expr, i, tgtType, retvals[i].Type) } if cvs := retvals[i].SinglelineString(); cvs != tgtValue { t.Fatalf("call %q, output parameter %d: expected value %q, got %q", tc.expr, i, tgtValue, cvs) } } if p.BinInfo().HasDebugPinner() { t.Logf("\t(pins = %d)", proc.DebugPinCount()) if proc.DebugPinCount() != tc.pinCount { t.Fatalf("call %q, expected pin count %d, got %d", tc.expr, tc.pinCount, proc.DebugPinCount()) } } } func TestIssue1531(t *testing.T) { // Go 1.12 introduced a change to the map representation where empty cells can be marked with 1 instead of just 0. withTestProcess("issue1531", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue()") hasKeys := func(mv *proc.Variable, keys ...string) { n := 0 for i := 0; i < len(mv.Children); i += 2 { cv := &mv.Children[i] s := constant.StringVal(cv.Value) found := false for j := range keys { if keys[j] == s { found = true break } } if !found { t.Errorf("key %q not allowed", s) return } n++ } if n != len(keys) { t.Fatalf("wrong number of keys found") } } mv, err := evalVariableWithCfg(p, "m", pnormalLoadConfig) assertNoError(err, t, "EvalVariable(m)") cmv := api.ConvertVar(mv) t.Logf("m = %s", cmv.SinglelineString()) hasKeys(mv, "s", "r", "v") mmv, err := evalVariableWithCfg(p, "mm", pnormalLoadConfig) assertNoError(err, t, "EvalVariable(mm)") cmmv := api.ConvertVar(mmv) t.Logf("mm = %s", cmmv.SinglelineString()) hasKeys(mmv, "r", "t", "v") }) } func currentLocation(p *proc.Target, t *testing.T) (pc uint64, f string, ln int, fn *proc.Function) { regs, err := p.CurrentThread().Registers() if err != nil { t.Fatalf("Registers error: %v", err) } f, l, fn := p.BinInfo().PCToLine(regs.PC()) t.Logf("at %#x %s:%d %v", regs.PC(), f, l, fn) return regs.PC(), f, l, fn } func assertCurrentLocationFunction(p *proc.Target, t *testing.T, fnname string) { _, _, _, fn := currentLocation(p, t) if fn == nil { t.Fatalf("Not in a function") } if fn.Name != fnname { t.Fatalf("Wrong function %s %s", fn.Name, fnname) } } func TestPluginVariables(t *testing.T) { skipOn(t, "broken", "ppc64le") pluginFixtures := protest.WithPlugins(t, protest.AllNonOptimized, "plugin1/", "plugin2/") withTestProcessArgs("plugintest2", t, ".", []string{pluginFixtures[0].Path, pluginFixtures[1].Path}, protest.AllNonOptimized, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { setFileBreakpoint(p, t, fixture.Source, 41) assertNoError(grp.Continue(), t, "Continue 1") bp := setFunctionBreakpoint(p, t, "github.com/go-delve/delve/_fixtures/plugin2.TypesTest") t.Logf("bp.Addr = %#x", bp.Addr) setFunctionBreakpoint(p, t, "github.com/go-delve/delve/_fixtures/plugin2.aIsNotNil") for _, image := range p.BinInfo().Images { t.Logf("%#x %s\n", image.StaticBase, image.Path) } assertNoError(grp.Continue(), t, "Continue 2") // test that PackageVariables returns variables from the executable and plugins scope, err := evalScope(p) assertNoError(err, t, "evalScope") allvars, err := scope.PackageVariables(pnormalLoadConfig) assertNoError(err, t, "PackageVariables") var plugin2AFound, mainExeGlobalFound bool for _, v := range allvars { switch v.Name { case "github.com/go-delve/delve/_fixtures/plugin2.A": plugin2AFound = true case "main.ExeGlobal": mainExeGlobalFound = true } } if !plugin2AFound { t.Fatalf("variable plugin2.A not found in the output of PackageVariables") } if !mainExeGlobalFound { t.Fatalf("variable main.ExeGlobal not found in the output of PackageVariables") } // read interface variable, inside plugin code, with a concrete type defined in the executable vs, err := evalVariableWithCfg(p, "s", pnormalLoadConfig) assertNoError(err, t, "Eval(s)") assertVariable(t, vs, varTest{"s", true, `github.com/go-delve/delve/_fixtures/internal/pluginsupport.Something(*main.asomething) *{n: 2}`, ``, `github.com/go-delve/delve/_fixtures/internal/pluginsupport.Something`, nil}) // test that the concrete type -> interface{} conversion works across plugins (mostly tests proc.dwarfToRuntimeType) assertNoError(setVariable(p, "plugin2.A", "main.ExeGlobal"), t, "setVariable(plugin2.A = main.ExeGlobal)") assertNoError(grp.Continue(), t, "Continue 3") assertCurrentLocationFunction(p, t, "github.com/go-delve/delve/_fixtures/plugin2.aIsNotNil") vstr, err := evalVariableWithCfg(p, "str", pnormalLoadConfig) assertNoError(err, t, "Eval(str)") assertVariable(t, vstr, varTest{"str", true, `"success"`, ``, `string`, nil}) assertNoError(grp.StepOut(), t, "StepOut") assertNoError(grp.StepOut(), t, "StepOut") assertNoError(grp.Next(), t, "Next") // read interface variable, inside executable code, with a concrete type defined in a plugin vb, err := evalVariableWithCfg(p, "b", pnormalLoadConfig) assertNoError(err, t, "Eval(b)") assertVariable(t, vb, varTest{"b", true, `github.com/go-delve/delve/_fixtures/internal/pluginsupport.SomethingElse(*github.com/go-delve/delve/_fixtures/plugin2.asomethingelse) *{x: 1, y: 4}`, ``, `github.com/go-delve/delve/_fixtures/internal/pluginsupport.SomethingElse`, nil}) }) } func TestCgoEval(t *testing.T) { protest.MustHaveCgo(t) testcases := []varTest{ {"s", true, `"a string"`, `"a string"`, "*char", nil}, {"longstring", true, `"averylongstring0123456789a0123456789b0123456789c0123456789d01234...+1 more"`, `"averylongstring0123456789a0123456789b0123456789c0123456789d01234...+1 more"`, "*const char", nil}, {"longstring[64:]", false, `"56789e0123456789f0123456789g0123456789h0123456789"`, `"56789e0123456789f0123456789g0123456789h0123456789"`, "*const char", nil}, {"s[3]", false, "116", "116", "char", nil}, {"v", true, "*0", "(*int)(…", "*int", nil}, {"v[1]", false, "1", "1", "int", nil}, {"v[90]", false, "90", "90", "int", nil}, {"v[:5]", false, "[]int len: 5, cap: 5, [0,1,2,3,4]", "[]int len: 5, cap: 5, [0,1,2,3,4]", "[]int", nil}, {"v_align_check", true, "*align_check {a: 0, b: 0}", "(*struct align_check)(…", "*struct align_check", nil}, {"v_align_check[1]", false, "align_check {a: 1, b: 1}", "align_check {a: 1, b: 1}", "align_check", nil}, {"v_align_check[90]", false, "align_check {a: 90, b: 90}", "align_check {a: 90, b: 90}", "align_check", nil}, } if runtime.GOOS == "darwin" && runtime.GOARCH == "arm64" { t.Skip("cgo doesn't work on darwin/arm64") } if runtime.GOARCH == "ppc64le" { t.Skip("skipped on ppc64le: broken") } protest.AllowRecording(t) withTestProcess("testvariablescgo/", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue() returned an error") for _, tc := range testcases { variable, err := evalVariableWithCfg(p, tc.name, pnormalLoadConfig) if err != nil && err.Error() == "evaluating methods not supported on this version of Go" { // this type of eval is unsupported with the current version of Go. continue } if tc.err == nil { assertNoError(err, t, fmt.Sprintf("EvalExpression(%s) returned an error", tc.name)) assertVariable(t, variable, tc) variable, err := evalVariableWithCfg(p, tc.name, pshortLoadConfig) assertNoError(err, t, fmt.Sprintf("EvalExpression(%s, pshortLoadConfig) returned an error", tc.name)) assertVariable(t, variable, tc.alternateVarTest()) } else { if err == nil { t.Fatalf("Expected error %s, got no error (%s)", tc.err.Error(), tc.name) } if tc.err.Error() != err.Error() { t.Fatalf("Unexpected error. Expected %s got %s", tc.err.Error(), err.Error()) } } } }) } func TestEvalExpressionGenerics(t *testing.T) { if !goversion.VersionAfterOrEqual(runtime.Version(), 1, 18) { t.Skip("generics not supported") } testcases := [][]varTest{ // testfn[int, float32] { {"arg1", true, "3", "", "int", nil}, {"arg2", true, "2.1", "", "float32", nil}, {"m", true, "map[float32]int [2.1: 3, ]", "", "map[float32]int", nil}, }, // testfn[*astruct, astruct] { {"arg1", true, "*main.astruct {x: 0, y: 1}", "", "*main.astruct", nil}, {"arg2", true, "main.astruct {x: 2, y: 3}", "", "main.astruct", nil}, {"m", true, "map[main.astruct]*main.astruct [{x: 2, y: 3}: *{x: 0, y: 1}, ]", "", "map[main.astruct]*main.astruct", nil}, }, } withTestProcess("testvariables_generic", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { for i, tcs := range testcases { assertNoError(grp.Continue(), t, fmt.Sprintf("Continue() returned an error (%d)", i)) for _, tc := range tcs { variable, err := evalVariableWithCfg(p, tc.name, pnormalLoadConfig) if tc.err == nil { assertNoError(err, t, fmt.Sprintf("EvalExpression(%s) returned an error", tc.name)) assertVariable(t, variable, tc) } else { if err == nil { t.Fatalf("Expected error %s, got no error (%s)", tc.err.Error(), tc.name) } if tc.err.Error() != err.Error() { t.Fatalf("Unexpected error. Expected %s got %s", tc.err.Error(), err.Error()) } } } } }) } // Test the behavior when reading dangling pointers produced by unsafe code. func TestBadUnsafePtr(t *testing.T) { withTestProcess("testunsafepointers", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue()") // danglingPtrPtr is a pointer with value 0x42, which is an unreadable // address. danglingPtrPtr, err := evalVariableWithCfg(p, "danglingPtrPtr", pnormalLoadConfig) assertNoError(err, t, "eval returned an error") t.Logf("danglingPtrPtr (%s): unreadable: %v. addr: 0x%x, value: %v", danglingPtrPtr.TypeString(), danglingPtrPtr.Unreadable, danglingPtrPtr.Addr, danglingPtrPtr.Value) assertNoError(danglingPtrPtr.Unreadable, t, "danglingPtrPtr is unreadable") if val := danglingPtrPtr.Value; val == nil { t.Fatal("Value not set danglingPtrPtr") } val, ok := constant.Uint64Val(danglingPtrPtr.Value) if !ok { t.Fatalf("Value not uint64: %v", danglingPtrPtr.Value) } if val != 0x42 { t.Fatalf("expected value to be 0x42, got 0x%x", val) } if len(danglingPtrPtr.Children) != 1 { t.Fatalf("expected 1 child, got: %d", len(danglingPtrPtr.Children)) } badPtr, err := evalVariableWithCfg(p, "*danglingPtrPtr", pnormalLoadConfig) assertNoError(err, t, "error evaluating *danglingPtrPtr") t.Logf("badPtr: (%s): unreadable: %v. addr: 0x%x, value: %v", badPtr.TypeString(), badPtr.Unreadable, badPtr.Addr, badPtr.Value) if badPtr.Unreadable == nil { t.Fatalf("badPtr should be unreadable") } if badPtr.Addr != 0x42 { t.Fatalf("expected danglingPtr to point to 0x42, got 0x%x", badPtr.Addr) } if len(badPtr.Children) != 1 { t.Fatalf("expected 1 child, got: %d", len(badPtr.Children)) } badPtrChild := badPtr.Children[0] t.Logf("badPtr.Child (%s): unreadable: %v. addr: 0x%x, value: %v", badPtrChild.TypeString(), badPtrChild.Unreadable, badPtrChild.Addr, badPtrChild.Value) // We expect the dummy child variable to be marked as unreadable. if badPtrChild.Unreadable == nil { t.Fatalf("expected x to be unreadable, but got value: %v", badPtrChild.Value) } // Evaluating **danglingPtrPtr fails. _, err = evalVariableWithCfg(p, "**danglingPtrPtr", pnormalLoadConfig) if err == nil { t.Fatalf("expected error doing **danglingPtrPtr") } expErr := "couldn't read pointer" if !strings.Contains(err.Error(), expErr) { t.Fatalf("expected %q, got: %q", expErr, err) } nexpErr := "nil pointer dereference" if strings.Contains(err.Error(), nexpErr) { t.Fatalf("shouldn't have gotten %q, but got: %q", nexpErr, err) } }) } func TestCapturedVariable(t *testing.T) { // Checks that variables captured by a closure (that are not pointers) are // readable. See issue #3548. // This was broken in Go 1.21 due to a compiler bug. if goversion.VersionAfterOrEqual(runtime.Version(), 1, 21) && !goversion.VersionAfterOrEqual(runtime.Version(), 1, 22) { t.Skip("broken") } withTestProcess("issue3548", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { setFileBreakpoint(p, t, fixture.Source, 32) assertNoError(grp.Continue(), t, "Continue()") v := evalVariable(p, t, "c") assertVariable(t, v, varTest{ name: "c", preserveName: true, value: "struct { main.name string; main.thing main.Thing } {name: \"Success\", thing: main.Thing {str: \"hello\"}}", varType: "struct { main.name string; main.thing main.Thing }", }) }) } func TestSetupRangeFramesCrash(t *testing.T) { // See issue #3806 if !goversion.VersionAfterOrEqual(runtime.Version(), 1, 23) { t.Skip("N/A") } for _, options := range []protest.BuildFlags{0, protest.EnableInlining | protest.EnableOptimization} { withTestProcessArgs("setiterator", t, ".", []string{}, options, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { setFileBreakpoint(p, t, fixture.Source, 48) assertNoError(grp.Continue(), t, "Continue") scope, err := evalScope(p) assertNoError(err, t, "EvalScope") v, err := scope.LocalVariables(normalLoadConfig) assertNoError(err, t, "LocalVariables") t.Logf("%#v", v) if len(v) != 1 { t.Fatalf("wrong number of variables") } }) } } func TestClassicMap(t *testing.T) { // This test replicates some of the tests in TestEvalExpression to check // that we still support non-swiss maps on versions of Go where the default // map backend is swisstables. protest.AllowRecording(t) if !goversion.VersionAfterOrEqual(runtime.Version(), 1, 24) { t.Skip("N/A") } if goversion.VersionAfterOrEqual(runtime.Version(), 1, 27) { panic("test expired, please remove") } t.Setenv("GOEXPERIMENT", "noswissmap") testcases := []varTest{ {"m1[\"Malone\"]", false, "main.astruct {A: 2, B: 3}", "main.astruct {A: 2, B: 3}", "main.astruct", nil}, {"m2[1].B", false, "11", "11", "int", nil}, {"m2[c1.sa[2].B-4].A", false, "10", "10", "int", nil}, {"m2[*p1].B", false, "11", "11", "int", nil}, {"m3[as1]", false, "42", "42", "int", nil}, {"mlarge", false, "map[main.largestruct]main.largestruct [{name: \"one\", v: [256]uint8 [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,...+192 more]}: {name: \"oneval\", v: [256]uint8 [0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,...+192 more]}, ]", "map[main.largestruct]main.largestruct [...]", "map[main.largestruct]main.largestruct", nil}, {"mnil[\"Malone\"]", false, "", "", "", errors.New("key not found")}, {"m1[80:]", false, "", "", "", errors.New("map index out of bounds")}, {"mnil", true, "map[string]main.astruct nil", "map[string]main.astruct nil", "map[string]main.astruct", nil}, {"m1 == nil", false, "false", "false", "", nil}, {"mnil == m1", false, "", "", "", errors.New("can not compare map variables")}, {"mnil == nil", false, "true", "true", "", nil}, {"m2", true, "map[int]*main.astruct [1: *{A: 10, B: 11}, ]", "map[int]*main.astruct [...]", "map[int]*main.astruct", nil}, } withTestProcess("testvariables2", t, func(p *proc.Target, grp *proc.TargetGroup, fixture protest.Fixture) { assertNoError(grp.Continue(), t, "Continue() returned an error") for _, tc := range testcases { t.Run(tc.name, func(t *testing.T) { t.Logf("%q", tc.name) variable, err := evalVariableWithCfg(p, tc.name, pnormalLoadConfig) if tc.err == nil { assertNoError(err, t, fmt.Sprintf("EvalExpression(%s) returned an error", tc.name)) assertVariable(t, variable, tc) variable, err := evalVariableWithCfg(p, tc.name, pshortLoadConfig) assertNoError(err, t, fmt.Sprintf("EvalExpression(%s, pshortLoadConfig) returned an error", tc.name)) assertVariable(t, variable, tc.alternateVarTest()) } else { if err == nil { t.Fatalf("Expected error %s, got no error (%s)", tc.err.Error(), tc.name) } switch e := tc.err.(type) { case *altError: ok := false for _, tgtErr := range e.errs { if tgtErr == err.Error() { ok = true break } } if !ok { t.Fatalf("Unexpected error. Expected %s got %s", tc.err.Error(), err.Error()) } default: if tc.err.Error() != "*" && tc.err.Error() != err.Error() { t.Fatalf("Unexpected error. Expected %s got %s", tc.err.Error(), err.Error()) } } } }) } }) }