tailscale/cmd/testwrapper/args.go

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// Copyright (c) Tailscale Inc & AUTHORS
// SPDX-License-Identifier: BSD-3-Clause
package main
import (
"flag"
"io"
"os"
"slices"
"strings"
"testing"
)
// defaultTestArgs contains the default values for all flags in the testing
// package. It is used to reset the flag values in testwrapper tests to allow
// parsing the flags again.
var defaultTestArgs map[string]string
// initDefaultTestArgs initializes defaultTestArgs.
func initDefaultTestArgs() {
if defaultTestArgs != nil {
return
}
defaultTestArgs = make(map[string]string)
flag.CommandLine.VisitAll(func(f *flag.Flag) {
defaultTestArgs[f.Name] = f.DefValue
})
}
// registerTestFlags registers all flags from the testing package with the
// provided flag set. It does so by calling testing.Init() and then iterating
// over all flags registered on flag.CommandLine.
func registerTestFlags(fs *flag.FlagSet) {
testing.Init()
type bv interface {
IsBoolFlag() bool
}
flag.CommandLine.VisitAll(func(f *flag.Flag) {
if b, ok := f.Value.(bv); ok && b.IsBoolFlag() {
fs.Bool(f.Name, f.DefValue == "true", f.Usage)
if name, ok := strings.CutPrefix(f.Name, "test."); ok {
fs.Bool(name, f.DefValue == "true", f.Usage)
}
return
}
// We don't actually care about the value of the flag, so we just
// register it as a string. The values will be passed to `go test` which
// will parse and validate them anyway.
fs.String(f.Name, f.DefValue, f.Usage)
if name, ok := strings.CutPrefix(f.Name, "test."); ok {
fs.String(name, f.DefValue, f.Usage)
}
})
}
// splitArgs splits args into three parts as consumed by go test.
//
// go test [build/test flags] [packages] [build/test flags & test binary flags]
//
// We return these as three slices of strings [pre] [pkgs] [post].
//
// It is used to split the arguments passed to testwrapper into the arguments
// passed to go test and the arguments passed to the tests.
func splitArgs(args []string) (pre, pkgs, post []string, _ error) {
if len(args) == 0 {
return nil, nil, nil, nil
}
fs := newTestFlagSet()
// Parse stops at the first non-flag argument, so this allows us
// to parse those as values and then reconstruct them as args.
if err := fs.Parse(args); err != nil {
return nil, nil, nil, err
}
fs.Visit(func(f *flag.Flag) {
if f.Value.String() != f.DefValue && f.DefValue != "false" {
pre = append(pre, "-"+f.Name, f.Value.String())
} else {
pre = append(pre, "-"+f.Name)
}
})
// fs.Args() now contains [packages]+[build/test flags & test binary flags],
// to split it we need to find the first non-flag argument.
rem := fs.Args()
ix := slices.IndexFunc(rem, func(s string) bool { return strings.HasPrefix(s, "-") })
if ix == -1 {
return pre, rem, nil, nil
}
pkgs = rem[:ix]
post = rem[ix:]
return pre, pkgs, post, nil
}
func newTestFlagSet() *flag.FlagSet {
fs := flag.NewFlagSet("testwrapper", flag.ContinueOnError)
fs.SetOutput(io.Discard)
// Register all flags from the testing package.
registerTestFlags(fs)
// Also register the -exec flag, which is not part of the testing package.
// TODO(maisem): figure out what other flags we need to register explicitly.
fs.String("exec", "", "Command to run tests with")
fs.Bool("race", false, "build with race detector")
return fs
}
// testingVerbose reports whether the test is being run with verbose logging.
var testingVerbose = func() bool {
verbose := false
// Likely doesn't matter, but to be correct follow the go flag parsing logic
// of overriding previous values.
for _, arg := range os.Args[1:] {
switch arg {
case "-test.v", "--test.v",
"-test.v=true", "--test.v=true",
"-v", "--v",
"-v=true", "--v=true":
verbose = true
case "-test.v=false", "--test.v=false",
"-v=false", "--v=false":
verbose = false
}
}
return verbose
}()