Files
gio/cmd/gogio/e2e_test.go
T
Daniel Martí 49000ae4a3 cmd/gogio: add the first Windows e2e test via Wine
Since Wine is heavily tied to X11, we build its end-to-end test driver
on top of X11's. We use the same mechanism to start an X server, take
screenshots, and issue clicks.

Its only quirk is that it was difficult to get the screenshots to line
up with Gio's window. The comments cover what we ended up with. The
display dimensions are now part of driverBase, so that methods other
than Start can also use them - this is necessary for the wine driver to
crop screenshots.

We also use a sleep for now; a comment explains why, and a TODO is left
for future Dan to deal with. What we have now works, and I've spent
enough hours on this patch as it is.

Adding Wine to CI, and ensuring that the test passes there, is left for
a follow-up patch.

Signed-off-by: Daniel Martí <mvdan@mvdan.cc>
2020-03-05 09:49:02 +01:00

300 lines
7.9 KiB
Go

// SPDX-License-Identifier: Unlicense OR MIT
package main_test
import (
"errors"
"flag"
"fmt"
"image"
"image/color"
"io/ioutil"
"os"
"os/exec"
"strings"
"testing"
"time"
)
var raceEnabled = false
var headless = flag.Bool("headless", true, "run end-to-end tests in headless mode")
const appid = "localhost.gogio.endtoend"
// TestDriver is implemented by each of the platforms we can run end-to-end
// tests on. None of its methods return any errors, as the errors are directly
// reported to testing.T via methods like Fatal.
type TestDriver interface {
initBase(t *testing.T, width, height int)
// Start opens the Gio app found at path. The driver should attempt to
// run the app with the base driver's width and height, and the
// platform's background should be white.
//
// When the function returns, the gio app must be ready to use on the
// platform, with its initial frame fully drawn.
Start(path string)
// Screenshot takes a screenshot of the Gio app on the platform.
Screenshot() image.Image
// Click performs a pointer click at the specified coordinates,
// including both press and release. It returns when the next frame is
// fully drawn.
Click(x, y int)
}
type driverBase struct {
*testing.T
width, height int
// TODO(mvdan): Make this lower-level, so that each driver can simply
// send us each line of output from the app. That will let us
// deduplicate some code, and also show app output as test logs in a
// consistent way.
frameNotifs chan bool
}
func (d *driverBase) initBase(t *testing.T, width, height int) {
d.T = t
d.width, d.height = width, height
d.frameNotifs = make(chan bool, 1)
}
func TestEndToEnd(t *testing.T) {
if testing.Short() {
t.Skipf("end-to-end tests tend to be slow")
}
t.Parallel()
// Keep this list local, to not reuse TestDriver objects.
subtests := []struct {
name string
driver TestDriver
}{
{"X11", &X11TestDriver{}},
{"Wayland", &WaylandTestDriver{}},
{"JS", &JSTestDriver{}},
{"Android", &AndroidTestDriver{}},
{"Windows", &WineTestDriver{}},
}
for _, subtest := range subtests {
t.Run(subtest.name, func(t *testing.T) {
subtest := subtest // copy the changing loop variable
t.Parallel()
runEndToEndTest(t, subtest.driver)
})
}
}
func runEndToEndTest(t *testing.T, driver TestDriver) {
size := image.Point{X: 800, Y: 600}
driver.initBase(t, size.X, size.Y)
t.Log("starting driver and gio app")
driver.Start("testdata/red.go")
beef := color.RGBA{R: 0xde, G: 0xad, B: 0xbe}
white := color.RGBA{R: 0xff, G: 0xff, B: 0xff}
black := color.RGBA{R: 0x00, G: 0x00, B: 0x00}
gray := color.RGBA{R: 0xbb, G: 0xbb, B: 0xbb}
red := color.RGBA{R: 0xff, G: 0x00, B: 0x00}
// These are the four colors at the beginning.
t.Log("taking initial screenshot")
withRetries(t, 2*time.Second, func() error {
img := driver.Screenshot()
size = img.Bounds().Size() // override the default size
return checkImageCorners(img, beef, white, black, gray)
})
// TODO(mvdan): implement this properly in the Wayland driver; swaymsg
// almost works to automate clicks, but the button presses end up in the
// wrong coordinates.
if _, ok := driver.(*WaylandTestDriver); ok {
return
}
// Click the first and last sections to turn them red.
t.Log("clicking twice and taking another screenshot")
driver.Click(1*(size.X/4), 1*(size.Y/4))
driver.Click(3*(size.X/4), 3*(size.Y/4))
withRetries(t, 2*time.Second, func() error {
img := driver.Screenshot()
return checkImageCorners(img, red, white, black, red)
})
}
// withRetries keeps retrying fn until it succeeds, or until the timeout is hit.
// It uses a rudimentary kind of backoff, which starts with 100ms delays. As
// such, timeout should generally be in the order of seconds.
func withRetries(t *testing.T, timeout time.Duration, fn func() error) {
t.Helper()
timeoutTimer := time.NewTimer(timeout)
defer timeoutTimer.Stop()
backoff := 100 * time.Millisecond
tries := 0
var lastErr error
for {
if lastErr = fn(); lastErr == nil {
return
}
tries++
t.Logf("retrying after %s", backoff)
// Use a timer instead of a sleep, so that the timeout can stop
// the backoff early. Don't reuse this timer, since we're not in
// a hot loop, and we don't want tricky code.
backoffTimer := time.NewTimer(backoff)
defer backoffTimer.Stop()
select {
case <-timeoutTimer.C:
t.Errorf("last error: %v", lastErr)
t.Fatalf("hit timeout of %s after %d tries", timeout, tries)
case <-backoffTimer.C:
}
// Keep doubling it until a maximum. With the start at 100ms,
// we'll do: 100ms, 200ms, 400ms, 800ms, 1.6s, and 2s forever.
backoff *= 2
if max := 2 * time.Second; backoff > max {
backoff = max
}
}
}
type colorMismatch struct {
x, y int
wantRGB, gotRGB [3]uint32
}
func (m colorMismatch) String() string {
return fmt.Sprintf("%3d,%-3d got 0x%04x%04x%04x, want 0x%04x%04x%04x",
m.x, m.y,
m.gotRGB[0], m.gotRGB[1], m.gotRGB[2],
m.wantRGB[0], m.wantRGB[1], m.wantRGB[2],
)
}
func checkImageCorners(img image.Image, topLeft, topRight, botLeft, botRight color.RGBA) error {
// The colors are split in four rectangular sections. Check the corners
// of each of the sections. We check the corners left to right, top to
// bottom, like when reading left-to-right text.
size := img.Bounds().Size()
var mismatches []colorMismatch
checkColor := func(x, y int, want color.Color) {
r, g, b, _ := want.RGBA()
got := img.At(x, y)
r_, g_, b_, _ := got.RGBA()
if r_ != r || g_ != g || b_ != b {
mismatches = append(mismatches, colorMismatch{
x: x,
y: y,
wantRGB: [3]uint32{r, g, b},
gotRGB: [3]uint32{r_, g_, b_},
})
}
}
{
minX, minY := 5, 5
maxX, maxY := (size.X/2)-5, (size.Y/2)-5
checkColor(minX, minY, topLeft)
checkColor(maxX, minY, topLeft)
checkColor(minX, maxY, topLeft)
checkColor(maxX, maxY, topLeft)
}
{
minX, minY := (size.X/2)+5, 5
maxX, maxY := size.X-5, (size.Y/2)-5
checkColor(minX, minY, topRight)
checkColor(maxX, minY, topRight)
checkColor(minX, maxY, topRight)
checkColor(maxX, maxY, topRight)
}
{
minX, minY := 5, (size.Y/2)+5
maxX, maxY := (size.X/2)-5, size.Y-5
checkColor(minX, minY, botLeft)
checkColor(maxX, minY, botLeft)
checkColor(minX, maxY, botLeft)
checkColor(maxX, maxY, botLeft)
}
{
minX, minY := (size.X/2)+5, (size.Y/2)+5
maxX, maxY := size.X-5, size.Y-5
checkColor(minX, minY, botRight)
checkColor(maxX, minY, botRight)
checkColor(minX, maxY, botRight)
checkColor(maxX, maxY, botRight)
}
if n := len(mismatches); n > 0 {
b := new(strings.Builder)
fmt.Fprintf(b, "encountered %d color mismatches:\n", n)
for _, m := range mismatches {
fmt.Fprintf(b, "%s\n", m)
}
return errors.New(b.String())
}
return nil
}
func (d *driverBase) waitForFrame() {
d.Helper()
// Unfortunately, there isn't a way to select on a test failing, since
// testing.T doesn't have anything like a context or a "done" channel.
//
// We can't let selects block forever, since the default -test.timeout
// is ten minutes - far too long for tests that take seconds.
//
// For now, a static short timeout is better than nothing. 2s is plenty
// for our simple test app to render on any device.
select {
case <-d.frameNotifs:
case <-time.After(5 * time.Second):
d.Fatalf("timed out waiting for a frame to be ready")
}
}
func (d *driverBase) needPrograms(names ...string) {
d.Helper()
for _, name := range names {
if _, err := exec.LookPath(name); err != nil {
d.Skipf("%s needed to run", name)
}
}
}
func (d *driverBase) tempDir(name string) string {
d.Helper()
dir, err := ioutil.TempDir("", name)
if err != nil {
d.Fatal(err)
}
d.Cleanup(func() { os.RemoveAll(dir) })
return dir
}
func (d *driverBase) gogio(args ...string) {
d.Helper()
prog, err := os.Executable()
if err != nil {
d.Fatal(err)
}
cmd := exec.Command(prog, args...)
cmd.Env = append(os.Environ(), "RUN_GOGIO=1")
if out, err := cmd.CombinedOutput(); err != nil {
d.Fatalf("gogio error: %s:\n%s", err, out)
}
}