// +build !nacl,!js,!aix,!gcflags_noopt,gc // run // Copyright 2014 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 main import ( "bytes" "fmt" "io/ioutil" "log" "os" "os/exec" "path/filepath" "regexp" "runtime" "strconv" "strings" ) var tests = ` # These are test cases for the linker analysis that detects chains of # nosplit functions that would cause a stack overflow. # # Lines beginning with # are comments. # # Each test case describes a sequence of functions, one per line. # Each function definition is the function name, then the frame size, # then optionally the keyword 'nosplit', then the body of the function. # The body is assembly code, with some shorthands. # The shorthand 'call x' stands for CALL x(SB). # The shorthand 'callind' stands for 'CALL R0', where R0 is a register. # Each test case must define a function named main, and it must be first. # That is, a line beginning "main " indicates the start of a new test case. # Within a stanza, ; can be used instead of \n to separate lines. # # After the function definition, the test case ends with an optional # REJECT line, specifying the architectures on which the case should # be rejected. "REJECT" without any architectures means reject on all architectures. # The linker should accept the test case on systems not explicitly rejected. # # 64-bit systems do not attempt to execute test cases with frame sizes # that are only 32-bit aligned. # Ordinary function should work main 0 # Large frame marked nosplit is always wrong. main 10000 nosplit REJECT # Calling a large frame is okay. main 0 call big big 10000 # But not if the frame is nosplit. main 0 call big big 10000 nosplit REJECT # Recursion is okay. main 0 call main # Recursive nosplit runs out of space. main 0 nosplit call main REJECT # Chains of ordinary functions okay. main 0 call f1 f1 80 call f2 f2 80 # Chains of nosplit must fit in the stack limit, 128 bytes. main 0 call f1 f1 80 nosplit call f2 f2 80 nosplit REJECT # Larger chains. main 0 call f1 f1 16 call f2 f2 16 call f3 f3 16 call f4 f4 16 call f5 f5 16 call f6 f6 16 call f7 f7 16 call f8 f8 16 call end end 1000 main 0 call f1 f1 16 nosplit call f2 f2 16 nosplit call f3 f3 16 nosplit call f4 f4 16 nosplit call f5 f5 16 nosplit call f6 f6 16 nosplit call f7 f7 16 nosplit call f8 f8 16 nosplit call end end 1000 REJECT # Test cases near the 128-byte limit. # Ordinary stack split frame is always okay. main 112 main 116 main 120 main 124 main 128 main 132 main 136 # A nosplit leaf can use the whole 128-CallSize bytes available on entry. # (CallSize is 32 on ppc64, 8 on amd64 for frame pointer.) main 96 nosplit main 100 nosplit; REJECT ppc64 ppc64le main 104 nosplit; REJECT ppc64 ppc64le arm64 main 108 nosplit; REJECT ppc64 ppc64le main 112 nosplit; REJECT ppc64 ppc64le arm64 main 116 nosplit; REJECT ppc64 ppc64le main 120 nosplit; REJECT ppc64 ppc64le amd64 arm64 main 124 nosplit; REJECT ppc64 ppc64le amd64 main 128 nosplit; REJECT main 132 nosplit; REJECT main 136 nosplit; REJECT # Calling a nosplit function from a nosplit function requires # having room for the saved caller PC and the called frame. # Because ARM doesn't save LR in the leaf, it gets an extra 4 bytes. # Because arm64 doesn't save LR in the leaf, it gets an extra 8 bytes. # ppc64 doesn't save LR in the leaf, but CallSize is 32, so it gets 24 bytes. # Because AMD64 uses frame pointer, it has 8 fewer bytes. main 96 nosplit call f; f 0 nosplit main 100 nosplit call f; f 0 nosplit; REJECT ppc64 ppc64le main 104 nosplit call f; f 0 nosplit; REJECT ppc64 ppc64le arm64 main 108 nosplit call f; f 0 nosplit; REJECT ppc64 ppc64le main 112 nosplit call f; f 0 nosplit; REJECT ppc64 ppc64le amd64 arm64 main 116 nosplit call f; f 0 nosplit; REJECT ppc64 ppc64le amd64 main 120 nosplit call f; f 0 nosplit; REJECT ppc64 ppc64le amd64 arm64 main 124 nosplit call f; f 0 nosplit; REJECT ppc64 ppc64le amd64 386 main 128 nosplit call f; f 0 nosplit; REJECT main 132 nosplit call f; f 0 nosplit; REJECT main 136 nosplit call f; f 0 nosplit; REJECT # Calling a splitting function from a nosplit function requires # having room for the saved caller PC of the call but also the # saved caller PC for the call to morestack. # Architectures differ in the same way as before. main 96 nosplit call f; f 0 call f main 100 nosplit call f; f 0 call f; REJECT ppc64 ppc64le main 104 nosplit call f; f 0 call f; REJECT ppc64 ppc64le amd64 arm64 main 108 nosplit call f; f 0 call f; REJECT ppc64 ppc64le amd64 main 112 nosplit call f; f 0 call f; REJECT ppc64 ppc64le amd64 arm64 main 116 nosplit call f; f 0 call f; REJECT ppc64 ppc64le amd64 main 120 nosplit call f; f 0 call f; REJECT ppc64 ppc64le amd64 386 arm64 main 124 nosplit call f; f 0 call f; REJECT ppc64 ppc64le amd64 386 main 128 nosplit call f; f 0 call f; REJECT main 132 nosplit call f; f 0 call f; REJECT main 136 nosplit call f; f 0 call f; REJECT # Indirect calls are assumed to be splitting functions. main 96 nosplit callind main 100 nosplit callind; REJECT ppc64 ppc64le main 104 nosplit callind; REJECT ppc64 ppc64le amd64 arm64 main 108 nosplit callind; REJECT ppc64 ppc64le amd64 main 112 nosplit callind; REJECT ppc64 ppc64le amd64 arm64 main 116 nosplit callind; REJECT ppc64 ppc64le amd64 main 120 nosplit callind; REJECT ppc64 ppc64le amd64 386 arm64 main 124 nosplit callind; REJECT ppc64 ppc64le amd64 386 main 128 nosplit callind; REJECT main 132 nosplit callind; REJECT main 136 nosplit callind; REJECT # Issue 7623 main 0 call f; f 112 main 0 call f; f 116 main 0 call f; f 120 main 0 call f; f 124 main 0 call f; f 128 main 0 call f; f 132 main 0 call f; f 136 ` var ( commentRE = regexp.MustCompile(`(?m)^#.*`) rejectRE = regexp.MustCompile(`(?s)\A(.+?)((\n|; *)REJECT(.*))?\z`) lineRE = regexp.MustCompile(`(\w+) (\d+)( nosplit)?(.*)`) callRE = regexp.MustCompile(`\bcall (\w+)\b`) callindRE = regexp.MustCompile(`\bcallind\b`) ) func main() { goarch := os.Getenv("GOARCH") if goarch == "" { goarch = runtime.GOARCH } version, err := exec.Command("go", "tool", "compile", "-V").Output() if err != nil { bug() fmt.Printf("running go tool compile -V: %v\n", err) return } if s := string(version); goarch == "amd64" && strings.Contains(s, "X:") && !strings.Contains(s, "framepointer") { // Skip this test if framepointer is NOT enabled on AMD64 return } dir, err := ioutil.TempDir("", "go-test-nosplit") if err != nil { bug() fmt.Printf("creating temp dir: %v\n", err) return } defer os.RemoveAll(dir) os.Setenv("GOPATH", filepath.Join(dir, "_gopath")) if err := ioutil.WriteFile(filepath.Join(dir, "go.mod"), []byte("module go-test-nosplit\n"), 0666); err != nil { log.Panic(err) } tests = strings.Replace(tests, "\t", " ", -1) tests = commentRE.ReplaceAllString(tests, "") nok := 0 nfail := 0 TestCases: for len(tests) > 0 { var stanza string i := strings.Index(tests, "\nmain ") if i < 0 { stanza, tests = tests, "" } else { stanza, tests = tests[:i], tests[i+1:] } m := rejectRE.FindStringSubmatch(stanza) if m == nil { bug() fmt.Printf("invalid stanza:\n\t%s\n", indent(stanza)) continue } lines := strings.TrimSpace(m[1]) reject := false if m[2] != "" { if strings.TrimSpace(m[4]) == "" { reject = true } else { for _, rej := range strings.Fields(m[4]) { if rej == goarch { reject = true } } } } if lines == "" && !reject { continue } var gobuf bytes.Buffer fmt.Fprintf(&gobuf, "package main\n") var buf bytes.Buffer ptrSize := 4 switch goarch { case "mips", "mipsle": fmt.Fprintf(&buf, "#define REGISTER (R0)\n") case "mips64", "mips64le": ptrSize = 8 fmt.Fprintf(&buf, "#define REGISTER (R0)\n") case "ppc64", "ppc64le": ptrSize = 8 fmt.Fprintf(&buf, "#define REGISTER (CTR)\n") case "arm": fmt.Fprintf(&buf, "#define REGISTER (R0)\n") case "arm64": ptrSize = 8 fmt.Fprintf(&buf, "#define REGISTER (R0)\n") case "amd64": ptrSize = 8 fmt.Fprintf(&buf, "#define REGISTER AX\n") case "riscv64": ptrSize = 8 fmt.Fprintf(&buf, "#define REGISTER A0\n") case "s390x": ptrSize = 8 fmt.Fprintf(&buf, "#define REGISTER R10\n") default: fmt.Fprintf(&buf, "#define REGISTER AX\n") } for _, line := range strings.Split(lines, "\n") { line = strings.TrimSpace(line) if line == "" { continue } for i, subline := range strings.Split(line, ";") { subline = strings.TrimSpace(subline) if subline == "" { continue } m := lineRE.FindStringSubmatch(subline) if m == nil { bug() fmt.Printf("invalid function line: %s\n", subline) continue TestCases } name := m[1] size, _ := strconv.Atoi(m[2]) // The limit was originally 128 but is now 800 (928-128). // Instead of rewriting the test cases above, adjust // the first stack frame to use up the extra bytes. if i == 0 { size += (928 - 128) - 128 // Noopt builds have a larger stackguard. // See ../src/cmd/dist/buildruntime.go:stackGuardMultiplier // This increase is included in objabi.StackGuard for _, s := range strings.Split(os.Getenv("GO_GCFLAGS"), " ") { if s == "-N" { size += 928 } } } if size%ptrSize == 4 { continue TestCases } nosplit := m[3] body := m[4] if nosplit != "" { nosplit = ",7" } else { nosplit = ",0" } body = callRE.ReplaceAllString(body, "CALL ·$1(SB);") body = callindRE.ReplaceAllString(body, "CALL REGISTER;") fmt.Fprintf(&gobuf, "func %s()\n", name) fmt.Fprintf(&buf, "TEXT ·%s(SB)%s,$%d-0\n\t%s\n\tRET\n\n", name, nosplit, size, body) } } if err := ioutil.WriteFile(filepath.Join(dir, "asm.s"), buf.Bytes(), 0666); err != nil { log.Fatal(err) } if err := ioutil.WriteFile(filepath.Join(dir, "main.go"), gobuf.Bytes(), 0666); err != nil { log.Fatal(err) } cmd := exec.Command("go", "build") cmd.Dir = dir output, err := cmd.CombinedOutput() if err == nil { nok++ if reject { bug() fmt.Printf("accepted incorrectly:\n\t%s\n", indent(strings.TrimSpace(stanza))) } } else { nfail++ if !reject { bug() fmt.Printf("rejected incorrectly:\n\t%s\n", indent(strings.TrimSpace(stanza))) fmt.Printf("\n\tlinker output:\n\t%s\n", indent(string(output))) } } } if !bugged && (nok == 0 || nfail == 0) { bug() fmt.Printf("not enough test cases run\n") } } func indent(s string) string { return strings.Replace(s, "\n", "\n\t", -1) } var bugged = false func bug() { if !bugged { bugged = true fmt.Printf("BUG\n") } }