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fq/internal/script/script.go

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Go
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package script
import (
"bytes"
"encoding/hex"
"errors"
"fmt"
"io"
"io/fs"
"os"
"path/filepath"
"regexp"
"strconv"
"strings"
"github.com/wader/fq/internal/shquote"
"github.com/wader/fq/pkg/bitio"
"github.com/wader/fq/pkg/interp"
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"golang.org/x/exp/slices"
)
var unescapeRe = regexp.MustCompile(`\\(?:t|b|n|r|0(?:b[01]{8}|x[0-f]{2}))`)
func Unescape(s string) string {
return unescapeRe.ReplaceAllStringFunc(s, func(r string) string {
switch {
case r == `\n`:
return "\n"
case r == `\r`:
return "\r"
case r == `\t`:
return "\t"
case r == `\b`:
return "\b"
case strings.HasPrefix(r, `\0b`):
b, _ := bitio.BytesFromBitString(r[3:])
return string(b)
case strings.HasPrefix(r, `\0x`):
b, _ := hex.DecodeString(r[3:])
return string(b)
default:
return r
}
})
}
var escapeRe = regexp.MustCompile(`[^[:print:][:space:]]`)
func Escape(s string) string {
return string(escapeRe.ReplaceAllFunc([]byte(s), func(r []byte) []byte {
return []byte(fmt.Sprintf(`\0x%.2x`, r[0]))
}))
}
type CaseReadline struct {
expr string
env []string
input string
expectedPrompt string
expectedStdout string
}
type CaseRunInput struct {
interp.FileReader
isTerminal bool
width int
height int
}
func (i CaseRunInput) Size() (int, int) { return i.width, i.height }
func (i CaseRunInput) IsTerminal() bool { return i.isTerminal }
type CaseRunOutput struct {
io.Writer
Terminal bool
Width int
Height int
}
func (o CaseRunOutput) Size() (int, int) { return o.Width, o.Height }
func (o CaseRunOutput) IsTerminal() bool { return o.Terminal }
type CaseRun struct {
LineNr int
Case *Case
Command string
Env []string
args []string
StdinInitial string
ExpectedStdout string
ExpectedStderr string
ExpectedExitCode int
ActualStdoutBuf *bytes.Buffer
ActualStderrBuf *bytes.Buffer
ActualExitCode int
Readlines []CaseReadline
ReadlinesPos int
ReadlineEnv []string
WasRun bool
}
func (cr *CaseRun) Line() int { return cr.LineNr }
func (cr *CaseRun) getEnv(name string) string {
for _, kv := range cr.Environ() {
if strings.HasPrefix(kv, name+"=") {
return kv[len(name)+1:]
}
}
return ""
}
func (cr *CaseRun) getEnvInt(name string) int {
n, _ := strconv.Atoi(cr.getEnv(name))
return n
}
func (cr *CaseRun) Platform() interp.Platform {
return interp.Platform{
OS: "testos",
Arch: "testarch",
}
}
func (cr *CaseRun) Stdin() interp.Input {
return CaseRunInput{
FileReader: interp.FileReader{
R: bytes.NewBufferString(cr.StdinInitial),
},
isTerminal: cr.StdinInitial == "" || cr.getEnvInt("_STDIN_IS_TERMINAL") != 0,
width: cr.getEnvInt("_STDIN_WIDTH"),
height: cr.getEnvInt("_STDIN_HEIGHT"),
}
}
func (cr *CaseRun) Stdout() interp.Output {
var w io.Writer = cr.ActualStdoutBuf
if cr.getEnvInt("_STDOUT_HEX") != 0 {
w = hex.NewEncoder(cr.ActualStdoutBuf)
}
return CaseRunOutput{
Writer: w,
Terminal: cr.getEnvInt("_STDOUT_IS_TERMINAL") != 0,
Width: cr.getEnvInt("_STDOUT_WIDTH"),
Height: cr.getEnvInt("_STDOUT_HEIGHT"),
}
}
func (cr *CaseRun) Stderr() interp.Output {
return CaseRunOutput{Writer: cr.ActualStderrBuf}
}
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func (cr *CaseRun) InterruptChan() chan struct{} { return nil }
func (cr *CaseRun) Environ() []string {
env := []string{
"_STDIN_WIDTH=135",
"_STDIN_HEIGHT=25",
"_STDOUT_WIDTH=135",
"_STDOUT_HEIGHT=25",
"_STDOUT_IS_TERMINAL=1",
"_STDIN_IS_TERMINAL=0",
"NO_COLOR=1",
"NO_DECODE_PROGRESS=1",
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"COMPLETION_TIMEOUT=10", // increase to make -race work better
}
env = append(env, cr.Env...)
env = append(env, cr.ReadlineEnv...)
envm := make(map[string]string)
for _, kv := range env {
if i := strings.IndexByte(kv, '='); i > 0 {
envm[kv[:i]] = kv[i+1:]
}
}
env = []string{}
for k, v := range envm {
env = append(env, k+"="+v)
}
return env
}
func (cr *CaseRun) Args() []string { return cr.args }
func (cr *CaseRun) ConfigDir() (string, error) { return "/config", nil }
func (cr *CaseRun) FS() fs.FS { return cr.Case }
func (cr *CaseRun) Readline(opts interp.ReadlineOpts) (string, error) {
cr.ActualStdoutBuf.WriteString(opts.Prompt)
if cr.ReadlinesPos >= len(cr.Readlines) {
return "", io.EOF
}
expr := cr.Readlines[cr.ReadlinesPos].expr
lineRaw := cr.Readlines[cr.ReadlinesPos].input
line := Unescape(lineRaw)
cr.ReadlineEnv = cr.Readlines[cr.ReadlinesPos].env
cr.ReadlinesPos++
if strings.HasSuffix(line, "\t") {
cr.ActualStdoutBuf.WriteString(lineRaw + "\n")
l := len(line) - 1
newLine, shared := opts.CompleteFn(line[0:l], l)
// TODO: shared
_ = shared
for _, nl := range newLine {
cr.ActualStdoutBuf.WriteString(nl + "\n")
}
return "", nil
}
cr.ActualStdoutBuf.WriteString(expr + "\n")
if line == "^D" {
return "", io.EOF
}
return line, nil
}
func (cr *CaseRun) History() ([]string, error) { return nil, nil }
func (cr *CaseRun) ToExpectedStdout() string {
sb := &strings.Builder{}
if len(cr.Readlines) == 0 {
fmt.Fprint(sb, cr.ExpectedStdout)
} else {
for _, rl := range cr.Readlines {
fmt.Fprintf(sb, "%s%s\n", rl.expectedPrompt, rl.expr)
if rl.expectedStdout != "" {
fmt.Fprint(sb, rl.expectedStdout)
}
}
}
return sb.String()
}
func (cr *CaseRun) ToExpectedStderr() string {
return cr.ExpectedStderr
}
type part interface {
Line() int
}
type caseFile struct {
lineNr int
name string
data []byte
}
func (cf *caseFile) Line() int { return cf.lineNr }
type caseComment struct {
lineNr int
comment string
}
func (cc *caseComment) Line() int { return cc.lineNr }
type Case struct {
Path string
Parts []part
WasRun bool
}
func (c *Case) ToActual() string {
var partsLineSorted []part
partsLineSorted = append(partsLineSorted, c.Parts...)
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slices.SortFunc(partsLineSorted, func(a, b part) bool { return a.Line() < b.Line() })
sb := &strings.Builder{}
for _, p := range partsLineSorted {
switch p := p.(type) {
case *caseComment:
fmt.Fprintf(sb, "#%s\n", p.comment)
case *CaseRun:
fmt.Fprintf(sb, "$%s\n", p.Command)
var s string
if p.WasRun {
s = p.ActualStdoutBuf.String()
} else {
s = p.ToExpectedStdout()
}
if s != "" {
fmt.Fprint(sb, s)
if !strings.HasSuffix(s, "\n") {
fmt.Fprint(sb, "\\\n")
}
}
if p.WasRun {
if p.ActualExitCode != 0 {
fmt.Fprintf(sb, "exitcode: %d\n", p.ActualExitCode)
}
} else {
if p.ExpectedExitCode != 0 {
fmt.Fprintf(sb, "exitcode: %d\n", p.ExpectedExitCode)
}
}
if p.StdinInitial != "" {
fmt.Fprint(sb, "stdin:\n")
fmt.Fprint(sb, p.StdinInitial)
}
if p.WasRun {
if p.ActualStderrBuf.Len() > 0 {
fmt.Fprint(sb, "stderr:\n")
fmt.Fprint(sb, p.ActualStderrBuf.String())
}
} else {
if p.ExpectedStderr != "" {
fmt.Fprint(sb, "stderr:\n")
fmt.Fprint(sb, p.ExpectedStderr)
}
}
case *caseFile:
fmt.Fprintf(sb, "%s:\n", p.name)
sb.Write(p.data)
default:
panic("unreachable")
}
}
return sb.String()
}
func normalizeOSError(err error) error {
var pe *os.PathError
if errors.As(err, &pe) {
pe.Err = errors.New("no such file or directory")
pe.Path = filepath.ToSlash(pe.Path)
}
return err
}
func (c *Case) Open(name string) (fs.File, error) {
const testData = "testdata"
testDataIndex := strings.Index(c.Path, testData)
// cwd is directory where current script file is
testRoot := c.Path[0 : testDataIndex+len(testData)]
testCwd := filepath.Dir(c.Path[testDataIndex+len(testData):])
testAbsPath := filepath.Join(testCwd, name)
fsPath := filepath.Join(testRoot, testAbsPath)
for _, p := range c.Parts {
f, ok := p.(*caseFile)
if !ok {
continue
}
if f.name == filepath.ToSlash(testAbsPath) {
return interp.FileReader{
R: io.NewSectionReader(bytes.NewReader(f.data), 0, int64(len(f.data))),
FileInfo: interp.FixedFileInfo{
FName: filepath.Base(name),
FSize: int64(len(f.data)),
},
}, nil
}
}
f, err := os.Open(fsPath)
// normalizeOSError is used to normalize OS specific path and messages into the ones unix uses
// this needed to make difftest work
return f, normalizeOSError(err)
}
type Section struct {
LineNr int
Name string
Value string
valueSB strings.Builder
}
func SectionParser(re *regexp.Regexp, s string) []Section {
var sections []Section
firstMatch := func(ss []string, fn func(s string) bool) string {
for _, s := range ss {
if fn(s) {
return s
}
}
return ""
}
const lineDelim = "\n"
var cs *Section
lineNr := 0
lines := strings.Split(s, lineDelim)
// skip last if empty because of how split works "a\n" -> ["a", ""]
if lines[len(lines)-1] == "" {
lines = lines[:len(lines)-1]
}
for _, l := range lines {
lineNr++
sm := re.FindStringSubmatch(l)
if cs == nil || len(sm) > 0 {
sections = append(sections, Section{})
cs = &sections[len(sections)-1]
cs.LineNr = lineNr
cs.Name = firstMatch(sm, func(s string) bool { return len(s) != 0 })
} else {
cs.valueSB.WriteString(l)
cs.valueSB.WriteString(lineDelim)
}
}
for i := range sections {
cs := &sections[i]
cs.Value = cs.valueSB.String()
}
return sections
}
var kvRe = regexp.MustCompile(`^[A-Z_]+=`)
func ParseCommand(s string) (env []string, args []string) {
parts := shquote.Split(s)
for i, p := range parts {
if kvRe.MatchString(p) {
env = append(env, p)
continue
}
args = parts[i:]
break
}
return env, args
}
func ParseInput(s string) (env []string, input string) {
tokens := shquote.Parse(s)
l := 0
for _, t := range tokens {
if t.Separator {
continue
}
if kvRe.MatchString(t.Str) {
env = append(env, t.Str)
l = t.End
continue
}
break
}
return env, s[l:]
}
func ParseCases(s string) *Case {
te := &Case{}
te.Parts = []part{}
var currentRun *CaseRun
const promptEnd = ">"
replDepth := 0
// TODO: better section splitter, too much heuristics now
for _, section := range SectionParser(regexp.MustCompile(
`^\$ .*$|^stdin:$|^stderr:$|^exitcode:.*$|^#.*$|^/.*:|^[^<|"]+>.*$`,
), s) {
n, v := section.Name, section.Value
switch {
case strings.HasPrefix(n, "#"):
comment := n[1:]
te.Parts = append(te.Parts, &caseComment{lineNr: section.LineNr, comment: comment})
case strings.HasPrefix(n, "/"):
name := n[0 : len(n)-1]
te.Parts = append(te.Parts, &caseFile{lineNr: section.LineNr, name: name, data: []byte(v)})
case strings.HasPrefix(n, "$"):
replDepth++
if currentRun != nil {
te.Parts = append(te.Parts, currentRun)
}
// escaped newline
v = strings.TrimSuffix(v, "\\\n")
command := strings.TrimPrefix(n, "$")
env, args := ParseCommand(command)
currentRun = &CaseRun{
LineNr: section.LineNr,
Case: te,
Command: command,
Env: env,
args: args,
ExpectedStdout: v,
ActualStdoutBuf: &bytes.Buffer{},
ActualStderrBuf: &bytes.Buffer{},
}
case strings.HasPrefix(n, "exitcode:"):
currentRun.ExpectedExitCode, _ = strconv.Atoi(strings.TrimSpace(strings.TrimPrefix(n, "exitcode:")))
case strings.HasPrefix(n, "stdin"):
currentRun.StdinInitial = v
case strings.HasPrefix(n, "stderr"):
currentRun.ExpectedStderr = v
case strings.Contains(n, promptEnd+" ") || strings.HasSuffix(n, promptEnd): // TODO: better
i := strings.LastIndex(n, promptEnd+" ")
if strings.HasSuffix(n, promptEnd) {
i = len(n) - 1
}
prompt := n[0:i] + promptEnd + " "
expr := strings.TrimSpace(n[i+1:])
env, input := ParseInput(expr)
currentRun.Readlines = append(currentRun.Readlines, CaseReadline{
expr: expr,
env: env,
input: input,
expectedPrompt: prompt,
expectedStdout: v,
})
// TODO: hack
if strings.Contains(expr, "| repl") {
replDepth++
}
if expr == "^D" {
replDepth--
}
default:
panic(fmt.Sprintf("%d: unexpected section %q %q", section.LineNr, n, v))
}
}
if currentRun != nil {
te.Parts = append(te.Parts, currentRun)
}
return te
}