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tailscale-android/cmd/tailscale/main.go

919 lines
22 KiB
Go

// Copyright (c) 2020 Tailscale Inc & 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 (
"crypto/sha1"
"fmt"
"log"
"sort"
"strings"
"time"
"unsafe"
"gioui.org/app"
"gioui.org/io/system"
"gioui.org/layout"
"gioui.org/op"
"golang.org/x/oauth2"
"inet.af/netaddr"
"github.com/tailscale/tailscale-android/jni"
"tailscale.com/ipn"
"tailscale.com/tailcfg"
"tailscale.com/types/netmap"
"tailscale.com/wgengine/router"
)
//go:generate go run github.com/go-bindata/go-bindata/go-bindata -nocompress -o logo.go tailscale.png google.png
type App struct {
jvm *jni.JVM
// appCtx is a global reference to the com.tailscale.ipn.App instance.
appCtx jni.Object
store *stateStore
// netStates receives the most recent network state.
netStates chan BackendState
// prefs receives new preferences from the backend.
prefs chan *ipn.Prefs
// browseURLs receives URLs when the backend wants to browse.
browseURLs chan string
// backend is the channel for events from the frontend to the
// backend.
backendEvents chan UIEvent
}
var (
// googleClass is a global reference to the com.tailscale.ipn.Google class.
googleClass jni.Class
)
type clientState struct {
browseURL string
backend BackendState
// query is the search query, in lowercase.
query string
Peers []UIPeer
}
type ExitStatus uint8
const (
// No exit node selected.
ExitNone ExitStatus = iota
// Exit node selected and exists, but is offline or missing.
ExitOffline
// Exit node selected and online.
ExitOnline
)
type ExitNode struct {
Label string
Online bool
ID tailcfg.StableNodeID
}
type BackendState struct {
Prefs *ipn.Prefs
State ipn.State
NetworkMap *netmap.NetworkMap
LostInternet bool
// Exits are the peers that can act as exit node.
Exits []ExitNode
// ExitState describes the state of our exit node.
ExitStatus ExitStatus
// Exit is our current exit node, if any.
Exit ExitNode
}
// UIEvent is an event flowing from the UI to the backend.
type UIEvent interface{}
type RouteAllEvent struct {
ID tailcfg.StableNodeID
}
type ConnectEvent struct {
Enable bool
}
type CopyEvent struct {
Text string
}
type SearchEvent struct {
Query string
}
type OAuth2Event struct {
Token *oauth2.Token
}
// UIEvent types.
type (
ToggleEvent struct{}
ReauthEvent struct{}
WebAuthEvent struct{}
GoogleAuthEvent struct{}
LogoutEvent struct{}
)
// serverOAuthID is the OAuth ID of the tailscale-android server, used
// by GoogleSignInOptions.Builder.requestIdToken.
const serverOAuthID = "744055068597-hv4opg0h7vskq1hv37nq3u26t8c15qk0.apps.googleusercontent.com"
const enabledKey = "ipn_enabled"
// releaseCertFingerprint is the SHA-1 fingerprint of the Google Play Store signing key.
// It is used to check whether the app is signed for release.
const releaseCertFingerprint = "86:9D:11:8B:63:1E:F8:35:C6:D9:C2:66:53:BC:28:22:2F:B8:C1:AE"
// backendEvents receives events from the UI (Activity, Tile etc.) to the backend.
var backendEvents = make(chan UIEvent)
func main() {
a := &App{
jvm: (*jni.JVM)(unsafe.Pointer(app.JavaVM())),
appCtx: jni.Object(app.AppContext()),
netStates: make(chan BackendState, 1),
browseURLs: make(chan string, 1),
prefs: make(chan *ipn.Prefs, 1),
}
err := jni.Do(a.jvm, func(env *jni.Env) error {
loader := jni.ClassLoaderFor(env, a.appCtx)
cl, err := jni.LoadClass(env, loader, "com.tailscale.ipn.Google")
if err != nil {
// Ignore load errors; the Google class is not included in F-Droid builds.
return nil
}
googleClass = jni.Class(jni.NewGlobalRef(env, jni.Object(cl)))
return nil
})
if err != nil {
fatalErr(err)
}
a.store = newStateStore(a.jvm, a.appCtx)
go func() {
if err := a.runBackend(); err != nil {
fatalErr(err)
}
}()
go func() {
if err := a.runUI(); err != nil {
fatalErr(err)
}
}()
app.Main()
}
func (a *App) runBackend() error {
appDir, err := app.DataDir()
if err != nil {
fatalErr(err)
}
configs := make(chan *router.Config)
configErrs := make(chan error)
b, err := newBackend(appDir, a.jvm, a.store, func(s *router.Config) error {
if s == nil {
return nil
}
configs <- s
return <-configErrs
})
if err != nil {
return err
}
defer b.CloseTUNs()
// Contrary to the documentation for VpnService.Builder.addDnsServer,
// ChromeOS doesn't fall back to the underlying network nameservers if
// we don't provide any.
b.avoidEmptyDNS = a.isChromeOS()
var timer *time.Timer
var alarmChan <-chan time.Time
alarm := func(t *time.Timer) {
if timer != nil {
timer.Stop()
}
timer = t
if timer != nil {
alarmChan = timer.C
}
}
notifications := make(chan ipn.Notify, 1)
startErr := make(chan error)
// Start from a goroutine to avoid deadlock when Start
// calls the callback.
go func() {
startErr <- b.Start(func(n ipn.Notify) {
notifications <- n
})
}()
var (
cfg *router.Config
state BackendState
service jni.Object
signingIn bool
)
for {
select {
case err := <-startErr:
if err != nil {
return err
}
case s := <-configs:
cfg = s
if b == nil || service == 0 || cfg == nil {
configErrs <- nil
break
}
configErrs <- b.updateTUN(service, cfg)
case n := <-notifications:
exitWasOnline := state.ExitStatus == ExitOnline
if p := n.Prefs; p != nil {
first := state.Prefs == nil
state.Prefs = p.Clone()
state.updateExitNodes()
if first {
state.Prefs.Hostname = a.hostname()
state.Prefs.OSVersion = a.osVersion()
state.Prefs.DeviceModel = a.modelName()
go b.backend.SetPrefs(state.Prefs)
}
a.setPrefs(state.Prefs)
}
if s := n.State; s != nil {
oldState := state.State
state.State = *s
if service != 0 {
a.updateNotification(service, state.State)
}
if service != 0 {
if cfg != nil && state.State >= ipn.Starting {
if err := b.updateTUN(service, cfg); err != nil {
log.Printf("VPN update failed: %v", err)
notifyVPNClosed()
}
} else {
b.CloseTUNs()
}
}
// Stop VPN if we logged out.
if oldState > ipn.Stopped && state.State <= ipn.Stopped {
if err := a.callVoidMethod(a.appCtx, "stopVPN", "()V"); err != nil {
fatalErr(err)
}
}
a.notify(state)
}
if u := n.BrowseToURL; u != nil {
signingIn = false
a.setURL(*u)
}
if m := n.NetMap; m != nil {
state.NetworkMap = m
state.updateExitNodes()
a.notify(state)
if service != 0 {
alarm(a.notifyExpiry(service, m.Expiry))
}
}
// Notify if a previously online exit is not longer online (or missing).
if service != 0 && exitWasOnline && state.ExitStatus == ExitOffline {
a.pushNotify(service, "Connection Lost", "Your exit node is offline. Disable your exit node or contact your network admin for help.")
}
case <-alarmChan:
if m := state.NetworkMap; m != nil && service != 0 {
alarm(a.notifyExpiry(service, m.Expiry))
}
case e := <-backendEvents:
switch e := e.(type) {
case OAuth2Event:
go b.backend.Login(e.Token)
case ToggleEvent:
state.Prefs.WantRunning = !state.Prefs.WantRunning
go b.backend.SetPrefs(state.Prefs)
case WebAuthEvent:
if !signingIn {
go b.backend.StartLoginInteractive()
signingIn = true
}
case LogoutEvent:
go b.backend.Logout()
case ConnectEvent:
state.Prefs.WantRunning = e.Enable
go b.backend.SetPrefs(state.Prefs)
case RouteAllEvent:
state.Prefs.ExitNodeID = e.ID
go b.backend.SetPrefs(state.Prefs)
}
case s := <-onConnect:
jni.Do(a.jvm, func(env *jni.Env) error {
if jni.IsSameObject(env, s, service) {
// We already have a reference.
jni.DeleteGlobalRef(env, s)
return nil
}
if service != 0 {
jni.DeleteGlobalRef(env, service)
}
service = s
return nil
})
a.updateNotification(service, state.State)
if m := state.NetworkMap; m != nil {
alarm(a.notifyExpiry(service, m.Expiry))
}
if cfg != nil && state.State >= ipn.Starting {
if err := b.updateTUN(service, cfg); err != nil {
log.Printf("VPN update failed: %v", err)
notifyVPNClosed()
}
}
case connected := <-onConnectivityChange:
state.LostInternet = !connected
if b != nil {
go b.LinkChange()
}
a.notify(state)
case s := <-onDisconnect:
b.CloseTUNs()
jni.Do(a.jvm, func(env *jni.Env) error {
defer jni.DeleteGlobalRef(env, s)
if jni.IsSameObject(env, service, s) {
jni.DeleteGlobalRef(env, service)
service = 0
}
return nil
})
if state.State >= ipn.Starting {
notifyVPNClosed()
}
}
}
}
func (a *App) isChromeOS() bool {
var chromeOS bool
err := jni.Do(a.jvm, func(env *jni.Env) error {
cls := jni.GetObjectClass(env, a.appCtx)
m := jni.GetMethodID(env, cls, "isChromeOS", "()Z")
b, err := jni.CallBooleanMethod(env, a.appCtx, m)
chromeOS = b
return err
})
if err != nil {
panic(err)
}
return chromeOS
}
func (s *BackendState) updateExitNodes() {
s.ExitStatus = ExitNone
var exitID tailcfg.StableNodeID
if p := s.Prefs; p != nil {
exitID = p.ExitNodeID
if exitID != "" {
s.ExitStatus = ExitOffline
}
}
hasMyExit := exitID == ""
s.Exits = nil
var peers []*tailcfg.Node
if s.NetworkMap != nil {
peers = s.NetworkMap.Peers
}
for _, p := range peers {
canRoute := false
for _, r := range p.AllowedIPs {
if r == netaddr.MustParseIPPrefix("0.0.0.0/0") || r == netaddr.MustParseIPPrefix("::/0") {
canRoute = true
break
}
}
myExit := p.StableID == exitID
hasMyExit = hasMyExit || myExit
exit := ExitNode{
Label: p.DisplayName(true),
Online: canRoute,
ID: p.StableID,
}
if myExit {
s.Exit = exit
if canRoute {
s.ExitStatus = ExitOnline
}
}
if canRoute || myExit {
s.Exits = append(s.Exits, exit)
}
}
sort.Slice(s.Exits, func(i, j int) bool {
return s.Exits[i].Label < s.Exits[j].Label
})
if !hasMyExit {
// Insert node missing from netmap.
s.Exit = ExitNode{Label: "Unknown device", ID: exitID}
s.Exits = append([]ExitNode{s.Exit}, s.Exits...)
}
}
// hostname builds a hostname from android.os.Build fields, in place of a
// useless os.Hostname().
func (a *App) hostname() string {
var hostname string
err := jni.Do(a.jvm, func(env *jni.Env) error {
cls := jni.GetObjectClass(env, a.appCtx)
getHostname := jni.GetMethodID(env, cls, "getHostname", "()Ljava/lang/String;")
n, err := jni.CallObjectMethod(env, a.appCtx, getHostname)
hostname = jni.GoString(env, jni.String(n))
return err
})
if err != nil {
panic(err)
}
return hostname
}
// osVersion returns android.os.Build.VERSION.RELEASE. " [nogoogle]" is appended
// if Google Play services are not compiled in.
func (a *App) osVersion() string {
var version string
err := jni.Do(a.jvm, func(env *jni.Env) error {
cls := jni.GetObjectClass(env, a.appCtx)
m := jni.GetMethodID(env, cls, "getOSVersion", "()Ljava/lang/String;")
n, err := jni.CallObjectMethod(env, a.appCtx, m)
version = jni.GoString(env, jni.String(n))
return err
})
if err != nil {
panic(err)
}
if !googleSignInEnabled() {
version += " [nogoogle]"
}
return version
}
// modelName return the MANUFACTURER + MODEL from
// android.os.Build.
func (a *App) modelName() string {
var model string
err := jni.Do(a.jvm, func(env *jni.Env) error {
cls := jni.GetObjectClass(env, a.appCtx)
m := jni.GetMethodID(env, cls, "getModelName", "()Ljava/lang/String;")
n, err := jni.CallObjectMethod(env, a.appCtx, m)
model = jni.GoString(env, jni.String(n))
return err
})
if err != nil {
panic(err)
}
return model
}
func googleSignInEnabled() bool {
return googleClass != 0
}
// updateNotification updates the foreground persistent status notification.
func (a *App) updateNotification(service jni.Object, state ipn.State) error {
var msg, title string
switch state {
case ipn.Starting:
title, msg = "Connecting...", ""
case ipn.Running:
title, msg = "Connected", ""
default:
return nil
}
return jni.Do(a.jvm, func(env *jni.Env) error {
cls := jni.GetObjectClass(env, service)
update := jni.GetMethodID(env, cls, "updateStatusNotification", "(Ljava/lang/String;Ljava/lang/String;)V")
jtitle := jni.JavaString(env, title)
jmessage := jni.JavaString(env, msg)
return jni.CallVoidMethod(env, service, update, jni.Value(jtitle), jni.Value(jmessage))
})
}
// notifyExpiry notifies the user of imminent session expiry and
// returns a new timer that triggers when the user should be notified
// again.
func (a *App) notifyExpiry(service jni.Object, expiry time.Time) *time.Timer {
if expiry.IsZero() {
return nil
}
d := time.Until(expiry)
var title string
const msg = "Reauthenticate to maintain the connection to your network."
var t *time.Timer
const (
aday = 24 * time.Hour
soon = 5 * time.Minute
)
switch {
case d <= 0:
title = "Your authentication has expired!"
case d <= soon:
title = "Your authentication expires soon!"
t = time.NewTimer(d)
case d <= aday:
title = "Your authentication expires in a day."
t = time.NewTimer(d - soon)
default:
return time.NewTimer(d - aday)
}
if err := a.pushNotify(service, title, msg); err != nil {
fatalErr(err)
}
return t
}
func (a *App) pushNotify(service jni.Object, title, msg string) error {
return jni.Do(a.jvm, func(env *jni.Env) error {
cls := jni.GetObjectClass(env, service)
notify := jni.GetMethodID(env, cls, "notify", "(Ljava/lang/String;Ljava/lang/String;)V")
jtitle := jni.JavaString(env, title)
jmessage := jni.JavaString(env, msg)
return jni.CallVoidMethod(env, service, notify, jni.Value(jtitle), jni.Value(jmessage))
})
}
func (a *App) notify(state BackendState) {
select {
case <-a.netStates:
default:
}
a.netStates <- state
ready := jni.Bool(state.State >= ipn.Stopped)
if err := a.callVoidMethod(a.appCtx, "setTileReady", "(Z)V", jni.Value(ready)); err != nil {
fatalErr(err)
}
}
func (a *App) setPrefs(prefs *ipn.Prefs) {
wantRunning := jni.Bool(prefs.WantRunning)
if err := a.callVoidMethod(a.appCtx, "setTileStatus", "(Z)V", jni.Value(wantRunning)); err != nil {
fatalErr(err)
}
select {
case <-a.prefs:
default:
}
a.prefs <- prefs
}
func (a *App) setURL(url string) {
select {
case <-a.browseURLs:
default:
}
a.browseURLs <- url
}
func (a *App) runUI() error {
w := app.NewWindow()
ui, err := newUI(a.store)
if err != nil {
return err
}
var ops op.Ops
state := new(clientState)
var (
// activity is the most recent Android Activity reference as reported
// by Gio ViewEvents.
activity jni.Object
)
deleteActivityRef := func() {
if activity == 0 {
return
}
jni.Do(a.jvm, func(env *jni.Env) error {
jni.DeleteGlobalRef(env, activity)
return nil
})
activity = 0
}
defer deleteActivityRef()
for {
select {
case <-onVPNClosed:
requestBackend(ConnectEvent{Enable: false})
case tok := <-onGoogleToken:
ui.signinType = noSignin
if tok != "" {
requestBackend(OAuth2Event{
Token: &oauth2.Token{
AccessToken: tok,
TokenType: ipn.GoogleIDTokenType,
},
})
} else {
// Warn about possible debug certificate.
if !a.isReleaseSigned() {
ui.ShowMessage("Google Sign-In failed because the app is not signed for Play Store")
w.Invalidate()
}
}
case p := <-a.prefs:
ui.enabled.Value = p.WantRunning
w.Invalidate()
case state.browseURL = <-a.browseURLs:
ui.signinType = noSignin
w.Invalidate()
a.updateState(activity, state)
case newState := <-a.netStates:
oldState := state.backend.State
state.backend = newState
a.updateState(activity, state)
w.Invalidate()
if activity != 0 {
newState := state.backend.State
// Start VPN if we just logged in.
if oldState <= ipn.Stopped && newState > ipn.Stopped {
if err := a.prepareVPN(activity); err != nil {
fatalErr(err)
}
}
}
case <-onVPNPrepared:
if state.backend.State > ipn.Stopped {
if err := a.callVoidMethod(a.appCtx, "startVPN", "()V"); err != nil {
return err
}
}
case <-onVPNRevoked:
ui.ShowMessage("VPN access denied or another VPN service is always-on")
w.Invalidate()
case e := <-w.Events():
switch e := e.(type) {
case app.ViewEvent:
deleteActivityRef()
view := jni.Object(e.View)
if view == 0 {
break
}
activity = a.contextForView(view)
w.Invalidate()
a.attachPeer(activity)
if state.backend.State > ipn.Stopped {
if err := a.prepareVPN(activity); err != nil {
return err
}
}
case system.DestroyEvent:
return e.Err
case *system.CommandEvent:
if e.Type == system.CommandBack {
if ui.onBack() {
e.Cancel = true
}
}
case system.FrameEvent:
ins := e.Insets
e.Insets = system.Insets{}
gtx := layout.NewContext(&ops, e)
events := ui.layout(gtx, ins, state)
e.Frame(gtx.Ops)
a.processUIEvents(w, events, activity, state)
}
}
}
}
// isReleaseSigned reports whether the app is signed with a release
// signature.
func (a *App) isReleaseSigned() bool {
var cert []byte
err := jni.Do(a.jvm, func(env *jni.Env) error {
cls := jni.GetObjectClass(env, a.appCtx)
m := jni.GetMethodID(env, cls, "getPackageCertificate", "()[B")
str, err := jni.CallObjectMethod(env, a.appCtx, m)
if err != nil {
return err
}
cert = jni.GetByteArrayElements(env, jni.ByteArray(str))
return nil
})
if err != nil {
fatalErr(err)
}
h := sha1.New()
h.Write(cert)
fingerprint := h.Sum(nil)
hex := fmt.Sprintf("%x", fingerprint)
// Strip colons and convert to lower case to ease comparing.
wantFingerprint := strings.ReplaceAll(strings.ToLower(releaseCertFingerprint), ":", "")
return hex == wantFingerprint
}
// attachPeer registers an Android Fragment instance for
// handling onActivityResult callbacks.
func (a *App) attachPeer(act jni.Object) {
err := a.callVoidMethod(a.appCtx, "attachPeer", "(Landroid/app/Activity;)V", jni.Value(act))
if err != nil {
fatalErr(err)
}
}
func (a *App) updateState(act jni.Object, state *clientState) {
if act != 0 && state.browseURL != "" {
a.browseToURL(act, state.browseURL)
state.browseURL = ""
}
netmap := state.backend.NetworkMap
var (
peers []*tailcfg.Node
myID tailcfg.UserID
)
if netmap != nil {
peers = netmap.Peers
myID = netmap.User
}
// Split into sections.
users := make(map[tailcfg.UserID]struct{})
var uiPeers []UIPeer
for _, p := range peers {
if q := state.query; q != "" {
// Filter peers according to search query.
host := strings.ToLower(p.Hostinfo.Hostname)
name := strings.ToLower(p.Name)
var addr string
if len(p.Addresses) > 0 {
addr = p.Addresses[0].IP.String()
}
if !strings.Contains(host, q) && !strings.Contains(name, q) && !strings.Contains(addr, q) {
continue
}
}
users[p.User] = struct{}{}
uiPeers = append(uiPeers, UIPeer{
Owner: p.User,
Peer: p,
})
}
// Add section (user) headers.
for u := range users {
name := netmap.UserProfiles[u].DisplayName
name = strings.ToUpper(name)
uiPeers = append(uiPeers, UIPeer{Owner: u, Name: name})
}
sort.Slice(uiPeers, func(i, j int) bool {
lhs, rhs := uiPeers[i], uiPeers[j]
if lu, ru := lhs.Owner, rhs.Owner; ru != lu {
// Sort own peers first.
if lu == myID {
return true
}
if ru == myID {
return false
}
return lu < ru
}
lp, rp := lhs.Peer, rhs.Peer
// Sort headers first.
if lp == nil {
return true
}
if rp == nil {
return false
}
lName := lp.DisplayName(lp.User == myID)
rName := rp.DisplayName(rp.User == myID)
return lName < rName || lName == rName && lp.ID < rp.ID
})
state.Peers = uiPeers
}
func (a *App) prepareVPN(act jni.Object) error {
return a.callVoidMethod(a.appCtx, "prepareVPN", "(Landroid/app/Activity;I)V",
jni.Value(act), jni.Value(requestPrepareVPN))
}
func requestBackend(e UIEvent) {
go func() {
backendEvents <- e
}()
}
func (a *App) processUIEvents(w *app.Window, events []UIEvent, act jni.Object, state *clientState) {
for _, e := range events {
switch e := e.(type) {
case ReauthEvent:
method, _ := a.store.ReadString(loginMethodPrefKey, loginMethodWeb)
switch method {
case loginMethodGoogle:
a.googleSignIn(act)
default:
requestBackend(WebAuthEvent{})
}
case WebAuthEvent:
a.store.WriteString(loginMethodPrefKey, loginMethodWeb)
requestBackend(e)
case LogoutEvent:
a.signOut()
requestBackend(e)
case ConnectEvent:
requestBackend(e)
case RouteAllEvent:
requestBackend(e)
case CopyEvent:
w.WriteClipboard(e.Text)
case GoogleAuthEvent:
a.store.WriteString(loginMethodPrefKey, loginMethodGoogle)
a.googleSignIn(act)
case SearchEvent:
state.query = strings.ToLower(e.Query)
a.updateState(act, state)
}
}
}
func (a *App) signOut() {
if googleClass == 0 {
return
}
err := jni.Do(a.jvm, func(env *jni.Env) error {
m := jni.GetStaticMethodID(env, googleClass,
"googleSignOut", "(Landroid/content/Context;)V")
return jni.CallStaticVoidMethod(env, googleClass, m, jni.Value(a.appCtx))
})
if err != nil {
fatalErr(err)
}
}
func (a *App) googleSignIn(act jni.Object) {
if act == 0 || googleClass == 0 {
return
}
err := jni.Do(a.jvm, func(env *jni.Env) error {
sid := jni.JavaString(env, serverOAuthID)
m := jni.GetStaticMethodID(env, googleClass,
"googleSignIn", "(Landroid/app/Activity;Ljava/lang/String;I)V")
return jni.CallStaticVoidMethod(env, googleClass, m,
jni.Value(act), jni.Value(sid), jni.Value(requestSignin))
})
if err != nil {
fatalErr(err)
}
}
func (a *App) browseToURL(act jni.Object, url string) {
if act == 0 {
return
}
err := jni.Do(a.jvm, func(env *jni.Env) error {
jurl := jni.JavaString(env, url)
return a.callVoidMethod(a.appCtx, "showURL", "(Landroid/app/Activity;Ljava/lang/String;)V", jni.Value(act), jni.Value(jurl))
})
if err != nil {
fatalErr(err)
}
}
func (a *App) callVoidMethod(obj jni.Object, name, sig string, args ...jni.Value) error {
if obj == 0 {
panic("invalid object")
}
return jni.Do(a.jvm, func(env *jni.Env) error {
cls := jni.GetObjectClass(env, obj)
m := jni.GetMethodID(env, cls, name, sig)
return jni.CallVoidMethod(env, obj, m, args...)
})
}
// activityForView calls View.getContext and returns a global
// reference to the result.
func (a *App) contextForView(view jni.Object) jni.Object {
if view == 0 {
panic("invalid object")
}
var ctx jni.Object
err := jni.Do(a.jvm, func(env *jni.Env) error {
cls := jni.GetObjectClass(env, view)
m := jni.GetMethodID(env, cls, "getContext", "()Landroid/content/Context;")
var err error
ctx, err = jni.CallObjectMethod(env, view, m)
ctx = jni.NewGlobalRef(env, ctx)
return err
})
if err != nil {
panic(err)
}
return ctx
}
func fatalErr(err error) {
// TODO: expose in UI.
log.Printf("fatal error: %v", err)
}