/* * Copyright (C) 2012 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package android.view; import android.graphics.Point; import android.graphics.Rect; import android.graphics.Region; import android.os.Binder; import android.os.Bundle; import android.os.Handler; import android.os.Looper; import android.os.Message; import android.os.Process; import android.os.RemoteException; import android.util.LongSparseArray; import android.view.View.AttachInfo; import android.view.accessibility.AccessibilityInteractionClient; import android.view.accessibility.AccessibilityNodeInfo; import android.view.accessibility.AccessibilityNodeProvider; import android.view.accessibility.IAccessibilityInteractionConnectionCallback; import com.android.internal.os.SomeArgs; import com.android.internal.util.Predicate; import java.util.ArrayList; import java.util.HashMap; import java.util.HashSet; import java.util.LinkedList; import java.util.List; import java.util.Map; import java.util.Queue; /** * Class for managing accessibility interactions initiated from the system * and targeting the view hierarchy. A *ClientThread method is to be * called from the interaction connection ViewAncestor gives the system to * talk to it and a corresponding *UiThread method that is executed on the * UI thread. */ final class AccessibilityInteractionController { private static final boolean ENFORCE_NODE_TREE_CONSISTENT = false; private final ArrayList mTempAccessibilityNodeInfoList = new ArrayList(); private final Handler mHandler; private final ViewRootImpl mViewRootImpl; private final AccessibilityNodePrefetcher mPrefetcher; private final long mMyLooperThreadId; private final int mMyProcessId; private final ArrayList mTempArrayList = new ArrayList(); private final Point mTempPoint = new Point(); private final Rect mTempRect = new Rect(); private final Rect mTempRect1 = new Rect(); private final Rect mTempRect2 = new Rect(); private AddNodeInfosForViewId mAddNodeInfosForViewId; public AccessibilityInteractionController(ViewRootImpl viewRootImpl) { Looper looper = viewRootImpl.mHandler.getLooper(); mMyLooperThreadId = looper.getThread().getId(); mMyProcessId = Process.myPid(); mHandler = new PrivateHandler(looper); mViewRootImpl = viewRootImpl; mPrefetcher = new AccessibilityNodePrefetcher(); } private boolean isShown(View view) { // The first two checks are made also made by isShown() which // however traverses the tree up to the parent to catch that. // Therefore, we do some fail fast check to minimize the up // tree traversal. return (view.mAttachInfo != null && view.mAttachInfo.mWindowVisibility == View.VISIBLE && view.isShown()); } public void findAccessibilityNodeInfoByAccessibilityIdClientThread( long accessibilityNodeId, Region interactiveRegion, int interactionId, IAccessibilityInteractionConnectionCallback callback, int flags, int interrogatingPid, long interrogatingTid, MagnificationSpec spec) { Message message = mHandler.obtainMessage(); message.what = PrivateHandler.MSG_FIND_ACCESSIBILITY_NODE_INFO_BY_ACCESSIBILITY_ID; message.arg1 = flags; SomeArgs args = SomeArgs.obtain(); args.argi1 = AccessibilityNodeInfo.getAccessibilityViewId(accessibilityNodeId); args.argi2 = AccessibilityNodeInfo.getVirtualDescendantId(accessibilityNodeId); args.argi3 = interactionId; args.arg1 = callback; args.arg2 = spec; args.arg3 = interactiveRegion; message.obj = args; // If the interrogation is performed by the same thread as the main UI // thread in this process, set the message as a static reference so // after this call completes the same thread but in the interrogating // client can handle the message to generate the result. if (interrogatingPid == mMyProcessId && interrogatingTid == mMyLooperThreadId) { AccessibilityInteractionClient.getInstanceForThread( interrogatingTid).setSameThreadMessage(message); } else { mHandler.sendMessage(message); } } private void findAccessibilityNodeInfoByAccessibilityIdUiThread(Message message) { final int flags = message.arg1; SomeArgs args = (SomeArgs) message.obj; final int accessibilityViewId = args.argi1; final int virtualDescendantId = args.argi2; final int interactionId = args.argi3; final IAccessibilityInteractionConnectionCallback callback = (IAccessibilityInteractionConnectionCallback) args.arg1; final MagnificationSpec spec = (MagnificationSpec) args.arg2; final Region interactiveRegion = (Region) args.arg3; args.recycle(); List infos = mTempAccessibilityNodeInfoList; infos.clear(); try { if (mViewRootImpl.mView == null || mViewRootImpl.mAttachInfo == null) { return; } mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = flags; View root = null; if (accessibilityViewId == AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { root = mViewRootImpl.mView; } else { root = findViewByAccessibilityId(accessibilityViewId); } if (root != null && isShown(root)) { mPrefetcher.prefetchAccessibilityNodeInfos(root, virtualDescendantId, flags, infos); } } finally { try { mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = 0; applyAppScaleAndMagnificationSpecIfNeeded(infos, spec); // Recycle if called from another process. Specs are cached in the // system process and obtained from a pool when read from parcel. if (spec != null && android.os.Process.myPid() != Binder.getCallingPid()) { spec.recycle(); } adjustIsVisibleToUserIfNeeded(infos, interactiveRegion); callback.setFindAccessibilityNodeInfosResult(infos, interactionId); infos.clear(); } catch (RemoteException re) { /* ignore - the other side will time out */ } // Recycle if called from the same process. Regions are obtained in // the system process and instantiated when read from parcel. if (interactiveRegion != null && android.os.Process.myPid() == Binder.getCallingPid()) { interactiveRegion.recycle(); } } } public void findAccessibilityNodeInfosByViewIdClientThread(long accessibilityNodeId, String viewId, Region interactiveRegion, int interactionId, IAccessibilityInteractionConnectionCallback callback, int flags, int interrogatingPid, long interrogatingTid, MagnificationSpec spec) { Message message = mHandler.obtainMessage(); message.what = PrivateHandler.MSG_FIND_ACCESSIBILITY_NODE_INFOS_BY_VIEW_ID; message.arg1 = flags; message.arg2 = AccessibilityNodeInfo.getAccessibilityViewId(accessibilityNodeId); SomeArgs args = SomeArgs.obtain(); args.argi1 = interactionId; args.arg1 = callback; args.arg2 = spec; args.arg3 = viewId; args.arg4 = interactiveRegion; message.obj = args; // If the interrogation is performed by the same thread as the main UI // thread in this process, set the message as a static reference so // after this call completes the same thread but in the interrogating // client can handle the message to generate the result. if (interrogatingPid == mMyProcessId && interrogatingTid == mMyLooperThreadId) { AccessibilityInteractionClient.getInstanceForThread( interrogatingTid).setSameThreadMessage(message); } else { mHandler.sendMessage(message); } } private void findAccessibilityNodeInfosByViewIdUiThread(Message message) { final int flags = message.arg1; final int accessibilityViewId = message.arg2; SomeArgs args = (SomeArgs) message.obj; final int interactionId = args.argi1; final IAccessibilityInteractionConnectionCallback callback = (IAccessibilityInteractionConnectionCallback) args.arg1; final MagnificationSpec spec = (MagnificationSpec) args.arg2; final String viewId = (String) args.arg3; final Region interactiveRegion = (Region) args.arg4; args.recycle(); final List infos = mTempAccessibilityNodeInfoList; infos.clear(); try { if (mViewRootImpl.mView == null || mViewRootImpl.mAttachInfo == null) { return; } mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = flags; View root = null; if (accessibilityViewId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { root = findViewByAccessibilityId(accessibilityViewId); } else { root = mViewRootImpl.mView; } if (root != null) { final int resolvedViewId = root.getContext().getResources() .getIdentifier(viewId, null, null); if (resolvedViewId <= 0) { return; } if (mAddNodeInfosForViewId == null) { mAddNodeInfosForViewId = new AddNodeInfosForViewId(); } mAddNodeInfosForViewId.init(resolvedViewId, infos); root.findViewByPredicate(mAddNodeInfosForViewId); mAddNodeInfosForViewId.reset(); } } finally { try { mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = 0; applyAppScaleAndMagnificationSpecIfNeeded(infos, spec); // Recycle if called from another process. Specs are cached in the // system process and obtained from a pool when read from parcel. if (spec != null && android.os.Process.myPid() != Binder.getCallingPid()) { spec.recycle(); } adjustIsVisibleToUserIfNeeded(infos, interactiveRegion); callback.setFindAccessibilityNodeInfosResult(infos, interactionId); } catch (RemoteException re) { /* ignore - the other side will time out */ } // Recycle if called from the same process. Regions are obtained in // the system process and instantiated when read from parcel. if (interactiveRegion != null && android.os.Process.myPid() == Binder.getCallingPid()) { interactiveRegion.recycle(); } } } public void findAccessibilityNodeInfosByTextClientThread(long accessibilityNodeId, String text, Region interactiveRegion, int interactionId, IAccessibilityInteractionConnectionCallback callback, int flags, int interrogatingPid, long interrogatingTid, MagnificationSpec spec) { Message message = mHandler.obtainMessage(); message.what = PrivateHandler.MSG_FIND_ACCESSIBILITY_NODE_INFO_BY_TEXT; message.arg1 = flags; SomeArgs args = SomeArgs.obtain(); args.arg1 = text; args.arg2 = callback; args.arg3 = spec; args.argi1 = AccessibilityNodeInfo.getAccessibilityViewId(accessibilityNodeId); args.argi2 = AccessibilityNodeInfo.getVirtualDescendantId(accessibilityNodeId); args.argi3 = interactionId; args.arg4 = interactiveRegion; message.obj = args; // If the interrogation is performed by the same thread as the main UI // thread in this process, set the message as a static reference so // after this call completes the same thread but in the interrogating // client can handle the message to generate the result. if (interrogatingPid == mMyProcessId && interrogatingTid == mMyLooperThreadId) { AccessibilityInteractionClient.getInstanceForThread( interrogatingTid).setSameThreadMessage(message); } else { mHandler.sendMessage(message); } } private void findAccessibilityNodeInfosByTextUiThread(Message message) { final int flags = message.arg1; SomeArgs args = (SomeArgs) message.obj; final String text = (String) args.arg1; final IAccessibilityInteractionConnectionCallback callback = (IAccessibilityInteractionConnectionCallback) args.arg2; final MagnificationSpec spec = (MagnificationSpec) args.arg3; final int accessibilityViewId = args.argi1; final int virtualDescendantId = args.argi2; final int interactionId = args.argi3; final Region interactiveRegion = (Region) args.arg4; args.recycle(); List infos = null; try { if (mViewRootImpl.mView == null || mViewRootImpl.mAttachInfo == null) { return; } mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = flags; View root = null; if (accessibilityViewId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { root = findViewByAccessibilityId(accessibilityViewId); } else { root = mViewRootImpl.mView; } if (root != null && isShown(root)) { AccessibilityNodeProvider provider = root.getAccessibilityNodeProvider(); if (provider != null) { if (virtualDescendantId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { infos = provider.findAccessibilityNodeInfosByText(text, virtualDescendantId); } else { infos = provider.findAccessibilityNodeInfosByText(text, AccessibilityNodeProvider.HOST_VIEW_ID); } } else if (virtualDescendantId == AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { ArrayList foundViews = mTempArrayList; foundViews.clear(); root.findViewsWithText(foundViews, text, View.FIND_VIEWS_WITH_TEXT | View.FIND_VIEWS_WITH_CONTENT_DESCRIPTION | View.FIND_VIEWS_WITH_ACCESSIBILITY_NODE_PROVIDERS); if (!foundViews.isEmpty()) { infos = mTempAccessibilityNodeInfoList; infos.clear(); final int viewCount = foundViews.size(); for (int i = 0; i < viewCount; i++) { View foundView = foundViews.get(i); if (isShown(foundView)) { provider = foundView.getAccessibilityNodeProvider(); if (provider != null) { List infosFromProvider = provider.findAccessibilityNodeInfosByText(text, AccessibilityNodeProvider.HOST_VIEW_ID); if (infosFromProvider != null) { infos.addAll(infosFromProvider); } } else { infos.add(foundView.createAccessibilityNodeInfo()); } } } } } } } finally { try { mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = 0; applyAppScaleAndMagnificationSpecIfNeeded(infos, spec); // Recycle if called from another process. Specs are cached in the // system process and obtained from a pool when read from parcel. if (spec != null && android.os.Process.myPid() != Binder.getCallingPid()) { spec.recycle(); } adjustIsVisibleToUserIfNeeded(infos, interactiveRegion); callback.setFindAccessibilityNodeInfosResult(infos, interactionId); } catch (RemoteException re) { /* ignore - the other side will time out */ } // Recycle if called from the same process. Regions are obtained in // the system process and instantiated when read from parcel. if (interactiveRegion != null && android.os.Process.myPid() == Binder.getCallingPid()) { interactiveRegion.recycle(); } } } public void findFocusClientThread(long accessibilityNodeId, int focusType, Region interactiveRegion, int interactionId, IAccessibilityInteractionConnectionCallback callback, int flags, int interogatingPid, long interrogatingTid, MagnificationSpec spec) { Message message = mHandler.obtainMessage(); message.what = PrivateHandler.MSG_FIND_FOCUS; message.arg1 = flags; message.arg2 = focusType; SomeArgs args = SomeArgs.obtain(); args.argi1 = interactionId; args.argi2 = AccessibilityNodeInfo.getAccessibilityViewId(accessibilityNodeId); args.argi3 = AccessibilityNodeInfo.getVirtualDescendantId(accessibilityNodeId); args.arg1 = callback; args.arg2 = spec; args.arg3 = interactiveRegion; message.obj = args; // If the interrogation is performed by the same thread as the main UI // thread in this process, set the message as a static reference so // after this call completes the same thread but in the interrogating // client can handle the message to generate the result. if (interogatingPid == mMyProcessId && interrogatingTid == mMyLooperThreadId) { AccessibilityInteractionClient.getInstanceForThread( interrogatingTid).setSameThreadMessage(message); } else { mHandler.sendMessage(message); } } private void findFocusUiThread(Message message) { final int flags = message.arg1; final int focusType = message.arg2; SomeArgs args = (SomeArgs) message.obj; final int interactionId = args.argi1; final int accessibilityViewId = args.argi2; final int virtualDescendantId = args.argi3; final IAccessibilityInteractionConnectionCallback callback = (IAccessibilityInteractionConnectionCallback) args.arg1; final MagnificationSpec spec = (MagnificationSpec) args.arg2; final Region interactiveRegion = (Region) args.arg3; args.recycle(); AccessibilityNodeInfo focused = null; try { if (mViewRootImpl.mView == null || mViewRootImpl.mAttachInfo == null) { return; } mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = flags; View root = null; if (accessibilityViewId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { root = findViewByAccessibilityId(accessibilityViewId); } else { root = mViewRootImpl.mView; } if (root != null && isShown(root)) { switch (focusType) { case AccessibilityNodeInfo.FOCUS_ACCESSIBILITY: { View host = mViewRootImpl.mAccessibilityFocusedHost; // If there is no accessibility focus host or it is not a descendant // of the root from which to start the search, then the search failed. if (host == null || !ViewRootImpl.isViewDescendantOf(host, root)) { break; } // The focused view not shown, we failed. if (!isShown(host)) { break; } // If the host has a provider ask this provider to search for the // focus instead fetching all provider nodes to do the search here. AccessibilityNodeProvider provider = host.getAccessibilityNodeProvider(); if (provider != null) { if (mViewRootImpl.mAccessibilityFocusedVirtualView != null) { focused = AccessibilityNodeInfo.obtain( mViewRootImpl.mAccessibilityFocusedVirtualView); } } else if (virtualDescendantId == AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { focused = host.createAccessibilityNodeInfo(); } } break; case AccessibilityNodeInfo.FOCUS_INPUT: { View target = root.findFocus(); if (target == null || !isShown(target)) { break; } AccessibilityNodeProvider provider = target.getAccessibilityNodeProvider(); if (provider != null) { focused = provider.findFocus(focusType); } if (focused == null) { focused = target.createAccessibilityNodeInfo(); } } break; default: throw new IllegalArgumentException("Unknown focus type: " + focusType); } } } finally { try { mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = 0; applyAppScaleAndMagnificationSpecIfNeeded(focused, spec); // Recycle if called from another process. Specs are cached in the // system process and obtained from a pool when read from parcel. if (spec != null && android.os.Process.myPid() != Binder.getCallingPid()) { spec.recycle(); } adjustIsVisibleToUserIfNeeded(focused, interactiveRegion); callback.setFindAccessibilityNodeInfoResult(focused, interactionId); } catch (RemoteException re) { /* ignore - the other side will time out */ } // Recycle if called from the same process. Regions are obtained in // the system process and instantiated when read from parcel. if (interactiveRegion != null && android.os.Process.myPid() == Binder.getCallingPid()) { interactiveRegion.recycle(); } } } public void focusSearchClientThread(long accessibilityNodeId, int direction, Region interactiveRegion, int interactionId, IAccessibilityInteractionConnectionCallback callback, int flags, int interogatingPid, long interrogatingTid, MagnificationSpec spec) { Message message = mHandler.obtainMessage(); message.what = PrivateHandler.MSG_FOCUS_SEARCH; message.arg1 = flags; message.arg2 = AccessibilityNodeInfo.getAccessibilityViewId(accessibilityNodeId); SomeArgs args = SomeArgs.obtain(); args.argi2 = direction; args.argi3 = interactionId; args.arg1 = callback; args.arg2 = spec; args.arg3 = interactiveRegion; message.obj = args; // If the interrogation is performed by the same thread as the main UI // thread in this process, set the message as a static reference so // after this call completes the same thread but in the interrogating // client can handle the message to generate the result. if (interogatingPid == mMyProcessId && interrogatingTid == mMyLooperThreadId) { AccessibilityInteractionClient.getInstanceForThread( interrogatingTid).setSameThreadMessage(message); } else { mHandler.sendMessage(message); } } private void focusSearchUiThread(Message message) { final int flags = message.arg1; final int accessibilityViewId = message.arg2; SomeArgs args = (SomeArgs) message.obj; final int direction = args.argi2; final int interactionId = args.argi3; final IAccessibilityInteractionConnectionCallback callback = (IAccessibilityInteractionConnectionCallback) args.arg1; final MagnificationSpec spec = (MagnificationSpec) args.arg2; final Region interactiveRegion = (Region) args.arg3; args.recycle(); AccessibilityNodeInfo next = null; try { if (mViewRootImpl.mView == null || mViewRootImpl.mAttachInfo == null) { return; } mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = flags; View root = null; if (accessibilityViewId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { root = findViewByAccessibilityId(accessibilityViewId); } else { root = mViewRootImpl.mView; } if (root != null && isShown(root)) { View nextView = root.focusSearch(direction); if (nextView != null) { next = nextView.createAccessibilityNodeInfo(); } } } finally { try { mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = 0; applyAppScaleAndMagnificationSpecIfNeeded(next, spec); // Recycle if called from another process. Specs are cached in the // system process and obtained from a pool when read from parcel. if (spec != null && android.os.Process.myPid() != Binder.getCallingPid()) { spec.recycle(); } adjustIsVisibleToUserIfNeeded(next, interactiveRegion); callback.setFindAccessibilityNodeInfoResult(next, interactionId); } catch (RemoteException re) { /* ignore - the other side will time out */ } // Recycle if called from the same process. Regions are obtained in // the system process and instantiated when read from parcel. if (interactiveRegion != null && android.os.Process.myPid() == Binder.getCallingPid()) { interactiveRegion.recycle(); } } } public void performAccessibilityActionClientThread(long accessibilityNodeId, int action, Bundle arguments, int interactionId, IAccessibilityInteractionConnectionCallback callback, int flags, int interogatingPid, long interrogatingTid) { Message message = mHandler.obtainMessage(); message.what = PrivateHandler.MSG_PERFORM_ACCESSIBILITY_ACTION; message.arg1 = flags; message.arg2 = AccessibilityNodeInfo.getAccessibilityViewId(accessibilityNodeId); SomeArgs args = SomeArgs.obtain(); args.argi1 = AccessibilityNodeInfo.getVirtualDescendantId(accessibilityNodeId); args.argi2 = action; args.argi3 = interactionId; args.arg1 = callback; args.arg2 = arguments; message.obj = args; // If the interrogation is performed by the same thread as the main UI // thread in this process, set the message as a static reference so // after this call completes the same thread but in the interrogating // client can handle the message to generate the result. if (interogatingPid == mMyProcessId && interrogatingTid == mMyLooperThreadId) { AccessibilityInteractionClient.getInstanceForThread( interrogatingTid).setSameThreadMessage(message); } else { mHandler.sendMessage(message); } } private void performAccessibilityActionUiThread(Message message) { final int flags = message.arg1; final int accessibilityViewId = message.arg2; SomeArgs args = (SomeArgs) message.obj; final int virtualDescendantId = args.argi1; final int action = args.argi2; final int interactionId = args.argi3; final IAccessibilityInteractionConnectionCallback callback = (IAccessibilityInteractionConnectionCallback) args.arg1; Bundle arguments = (Bundle) args.arg2; args.recycle(); boolean succeeded = false; try { if (mViewRootImpl.mView == null || mViewRootImpl.mAttachInfo == null || mViewRootImpl.mStopped || mViewRootImpl.mPausedForTransition) { return; } mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = flags; View target = null; if (accessibilityViewId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { target = findViewByAccessibilityId(accessibilityViewId); } else { target = mViewRootImpl.mView; } if (target != null && isShown(target)) { AccessibilityNodeProvider provider = target.getAccessibilityNodeProvider(); if (provider != null) { if (virtualDescendantId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { succeeded = provider.performAction(virtualDescendantId, action, arguments); } else { succeeded = provider.performAction(AccessibilityNodeProvider.HOST_VIEW_ID, action, arguments); } } else if (virtualDescendantId == AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { succeeded = target.performAccessibilityAction(action, arguments); } } } finally { try { mViewRootImpl.mAttachInfo.mAccessibilityFetchFlags = 0; callback.setPerformAccessibilityActionResult(succeeded, interactionId); } catch (RemoteException re) { /* ignore - the other side will time out */ } } } private View findViewByAccessibilityId(int accessibilityId) { View root = mViewRootImpl.mView; if (root == null) { return null; } View foundView = root.findViewByAccessibilityId(accessibilityId); if (foundView != null && !isShown(foundView)) { return null; } return foundView; } private void applyAppScaleAndMagnificationSpecIfNeeded(List infos, MagnificationSpec spec) { if (infos == null) { return; } final float applicationScale = mViewRootImpl.mAttachInfo.mApplicationScale; if (shouldApplyAppScaleAndMagnificationSpec(applicationScale, spec)) { final int infoCount = infos.size(); for (int i = 0; i < infoCount; i++) { AccessibilityNodeInfo info = infos.get(i); applyAppScaleAndMagnificationSpecIfNeeded(info, spec); } } } private void adjustIsVisibleToUserIfNeeded(List infos, Region interactiveRegion) { if (interactiveRegion == null || infos == null) { return; } final int infoCount = infos.size(); for (int i = 0; i < infoCount; i++) { AccessibilityNodeInfo info = infos.get(i); adjustIsVisibleToUserIfNeeded(info, interactiveRegion); } } private void adjustIsVisibleToUserIfNeeded(AccessibilityNodeInfo info, Region interactiveRegion) { if (interactiveRegion == null || info == null) { return; } Rect boundsInScreen = mTempRect; info.getBoundsInScreen(boundsInScreen); if (interactiveRegion.quickReject(boundsInScreen)) { info.setVisibleToUser(false); } } private void applyAppScaleAndMagnificationSpecIfNeeded(Point point, MagnificationSpec spec) { final float applicationScale = mViewRootImpl.mAttachInfo.mApplicationScale; if (!shouldApplyAppScaleAndMagnificationSpec(applicationScale, spec)) { return; } if (applicationScale != 1.0f) { point.x *= applicationScale; point.y *= applicationScale; } if (spec != null) { point.x *= spec.scale; point.y *= spec.scale; point.x += (int) spec.offsetX; point.y += (int) spec.offsetY; } } private void applyAppScaleAndMagnificationSpecIfNeeded(AccessibilityNodeInfo info, MagnificationSpec spec) { if (info == null) { return; } final float applicationScale = mViewRootImpl.mAttachInfo.mApplicationScale; if (!shouldApplyAppScaleAndMagnificationSpec(applicationScale, spec)) { return; } Rect boundsInParent = mTempRect; Rect boundsInScreen = mTempRect1; info.getBoundsInParent(boundsInParent); info.getBoundsInScreen(boundsInScreen); if (applicationScale != 1.0f) { boundsInParent.scale(applicationScale); boundsInScreen.scale(applicationScale); } if (spec != null) { boundsInParent.scale(spec.scale); // boundsInParent must not be offset. boundsInScreen.scale(spec.scale); boundsInScreen.offset((int) spec.offsetX, (int) spec.offsetY); } info.setBoundsInParent(boundsInParent); info.setBoundsInScreen(boundsInScreen); if (spec != null) { AttachInfo attachInfo = mViewRootImpl.mAttachInfo; if (attachInfo.mDisplay == null) { return; } final float scale = attachInfo.mApplicationScale * spec.scale; Rect visibleWinFrame = mTempRect1; visibleWinFrame.left = (int) (attachInfo.mWindowLeft * scale + spec.offsetX); visibleWinFrame.top = (int) (attachInfo.mWindowTop * scale + spec.offsetY); visibleWinFrame.right = (int) (visibleWinFrame.left + mViewRootImpl.mWidth * scale); visibleWinFrame.bottom = (int) (visibleWinFrame.top + mViewRootImpl.mHeight * scale); attachInfo.mDisplay.getRealSize(mTempPoint); final int displayWidth = mTempPoint.x; final int displayHeight = mTempPoint.y; Rect visibleDisplayFrame = mTempRect2; visibleDisplayFrame.set(0, 0, displayWidth, displayHeight); if (!visibleWinFrame.intersect(visibleDisplayFrame)) { // If there's no intersection with display, set visibleWinFrame empty. visibleDisplayFrame.setEmpty(); } if (!visibleWinFrame.intersects(boundsInScreen.left, boundsInScreen.top, boundsInScreen.right, boundsInScreen.bottom)) { info.setVisibleToUser(false); } } } private boolean shouldApplyAppScaleAndMagnificationSpec(float appScale, MagnificationSpec spec) { return (appScale != 1.0f || (spec != null && !spec.isNop())); } /** * This class encapsulates a prefetching strategy for the accessibility APIs for * querying window content. It is responsible to prefetch a batch of * AccessibilityNodeInfos in addition to the one for a requested node. */ private class AccessibilityNodePrefetcher { private static final int MAX_ACCESSIBILITY_NODE_INFO_BATCH_SIZE = 50; private final ArrayList mTempViewList = new ArrayList(); public void prefetchAccessibilityNodeInfos(View view, int virtualViewId, int fetchFlags, List outInfos) { AccessibilityNodeProvider provider = view.getAccessibilityNodeProvider(); if (provider == null) { AccessibilityNodeInfo root = view.createAccessibilityNodeInfo(); if (root != null) { outInfos.add(root); if ((fetchFlags & AccessibilityNodeInfo.FLAG_PREFETCH_PREDECESSORS) != 0) { prefetchPredecessorsOfRealNode(view, outInfos); } if ((fetchFlags & AccessibilityNodeInfo.FLAG_PREFETCH_SIBLINGS) != 0) { prefetchSiblingsOfRealNode(view, outInfos); } if ((fetchFlags & AccessibilityNodeInfo.FLAG_PREFETCH_DESCENDANTS) != 0) { prefetchDescendantsOfRealNode(view, outInfos); } } } else { final AccessibilityNodeInfo root; if (virtualViewId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { root = provider.createAccessibilityNodeInfo(virtualViewId); } else { root = provider.createAccessibilityNodeInfo( AccessibilityNodeProvider.HOST_VIEW_ID); } if (root != null) { outInfos.add(root); if ((fetchFlags & AccessibilityNodeInfo.FLAG_PREFETCH_PREDECESSORS) != 0) { prefetchPredecessorsOfVirtualNode(root, view, provider, outInfos); } if ((fetchFlags & AccessibilityNodeInfo.FLAG_PREFETCH_SIBLINGS) != 0) { prefetchSiblingsOfVirtualNode(root, view, provider, outInfos); } if ((fetchFlags & AccessibilityNodeInfo.FLAG_PREFETCH_DESCENDANTS) != 0) { prefetchDescendantsOfVirtualNode(root, provider, outInfos); } } } if (ENFORCE_NODE_TREE_CONSISTENT) { enforceNodeTreeConsistent(outInfos); } } private void enforceNodeTreeConsistent(List nodes) { LongSparseArray nodeMap = new LongSparseArray(); final int nodeCount = nodes.size(); for (int i = 0; i < nodeCount; i++) { AccessibilityNodeInfo node = nodes.get(i); nodeMap.put(node.getSourceNodeId(), node); } // If the nodes are a tree it does not matter from // which node we start to search for the root. AccessibilityNodeInfo root = nodeMap.valueAt(0); AccessibilityNodeInfo parent = root; while (parent != null) { root = parent; parent = nodeMap.get(parent.getParentNodeId()); } // Traverse the tree and do some checks. AccessibilityNodeInfo accessFocus = null; AccessibilityNodeInfo inputFocus = null; HashSet seen = new HashSet(); Queue fringe = new LinkedList(); fringe.add(root); while (!fringe.isEmpty()) { AccessibilityNodeInfo current = fringe.poll(); // Check for duplicates if (!seen.add(current)) { throw new IllegalStateException("Duplicate node: " + current + " in window:" + mViewRootImpl.mAttachInfo.mAccessibilityWindowId); } // Check for one accessibility focus. if (current.isAccessibilityFocused()) { if (accessFocus != null) { throw new IllegalStateException("Duplicate accessibility focus:" + current + " in window:" + mViewRootImpl.mAttachInfo.mAccessibilityWindowId); } else { accessFocus = current; } } // Check for one input focus. if (current.isFocused()) { if (inputFocus != null) { throw new IllegalStateException("Duplicate input focus: " + current + " in window:" + mViewRootImpl.mAttachInfo.mAccessibilityWindowId); } else { inputFocus = current; } } final int childCount = current.getChildCount(); for (int j = 0; j < childCount; j++) { final long childId = current.getChildId(j); final AccessibilityNodeInfo child = nodeMap.get(childId); if (child != null) { fringe.add(child); } } } // Check for disconnected nodes. for (int j = nodeMap.size() - 1; j >= 0; j--) { AccessibilityNodeInfo info = nodeMap.valueAt(j); if (!seen.contains(info)) { throw new IllegalStateException("Disconnected node: " + info); } } } private void prefetchPredecessorsOfRealNode(View view, List outInfos) { ViewParent parent = view.getParentForAccessibility(); while (parent instanceof View && outInfos.size() < MAX_ACCESSIBILITY_NODE_INFO_BATCH_SIZE) { View parentView = (View) parent; AccessibilityNodeInfo info = parentView.createAccessibilityNodeInfo(); if (info != null) { outInfos.add(info); } parent = parent.getParentForAccessibility(); } } private void prefetchSiblingsOfRealNode(View current, List outInfos) { ViewParent parent = current.getParentForAccessibility(); if (parent instanceof ViewGroup) { ViewGroup parentGroup = (ViewGroup) parent; ArrayList children = mTempViewList; children.clear(); try { parentGroup.addChildrenForAccessibility(children); final int childCount = children.size(); for (int i = 0; i < childCount; i++) { if (outInfos.size() >= MAX_ACCESSIBILITY_NODE_INFO_BATCH_SIZE) { return; } View child = children.get(i); if (child.getAccessibilityViewId() != current.getAccessibilityViewId() && isShown(child)) { AccessibilityNodeInfo info = null; AccessibilityNodeProvider provider = child.getAccessibilityNodeProvider(); if (provider == null) { info = child.createAccessibilityNodeInfo(); } else { info = provider.createAccessibilityNodeInfo( AccessibilityNodeProvider.HOST_VIEW_ID); } if (info != null) { outInfos.add(info); } } } } finally { children.clear(); } } } private void prefetchDescendantsOfRealNode(View root, List outInfos) { if (!(root instanceof ViewGroup)) { return; } HashMap addedChildren = new HashMap(); ArrayList children = mTempViewList; children.clear(); try { root.addChildrenForAccessibility(children); final int childCount = children.size(); for (int i = 0; i < childCount; i++) { if (outInfos.size() >= MAX_ACCESSIBILITY_NODE_INFO_BATCH_SIZE) { return; } View child = children.get(i); if (isShown(child)) { AccessibilityNodeProvider provider = child.getAccessibilityNodeProvider(); if (provider == null) { AccessibilityNodeInfo info = child.createAccessibilityNodeInfo(); if (info != null) { outInfos.add(info); addedChildren.put(child, null); } } else { AccessibilityNodeInfo info = provider.createAccessibilityNodeInfo( AccessibilityNodeProvider.HOST_VIEW_ID); if (info != null) { outInfos.add(info); addedChildren.put(child, info); } } } } } finally { children.clear(); } if (outInfos.size() < MAX_ACCESSIBILITY_NODE_INFO_BATCH_SIZE) { for (Map.Entry entry : addedChildren.entrySet()) { View addedChild = entry.getKey(); AccessibilityNodeInfo virtualRoot = entry.getValue(); if (virtualRoot == null) { prefetchDescendantsOfRealNode(addedChild, outInfos); } else { AccessibilityNodeProvider provider = addedChild.getAccessibilityNodeProvider(); prefetchDescendantsOfVirtualNode(virtualRoot, provider, outInfos); } } } } private void prefetchPredecessorsOfVirtualNode(AccessibilityNodeInfo root, View providerHost, AccessibilityNodeProvider provider, List outInfos) { final int initialResultSize = outInfos.size(); long parentNodeId = root.getParentNodeId(); int accessibilityViewId = AccessibilityNodeInfo.getAccessibilityViewId(parentNodeId); while (accessibilityViewId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { if (outInfos.size() >= MAX_ACCESSIBILITY_NODE_INFO_BATCH_SIZE) { return; } final int virtualDescendantId = AccessibilityNodeInfo.getVirtualDescendantId(parentNodeId); if (virtualDescendantId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID || accessibilityViewId == providerHost.getAccessibilityViewId()) { final AccessibilityNodeInfo parent; if (virtualDescendantId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { parent = provider.createAccessibilityNodeInfo(virtualDescendantId); } else { parent = provider.createAccessibilityNodeInfo( AccessibilityNodeProvider.HOST_VIEW_ID); } if (parent == null) { // Going up the parent relation we found a null predecessor, // so remove these disconnected nodes form the result. final int currentResultSize = outInfos.size(); for (int i = currentResultSize - 1; i >= initialResultSize; i--) { outInfos.remove(i); } // Couldn't obtain the parent, which means we have a // disconnected sub-tree. Abort prefetch immediately. return; } outInfos.add(parent); parentNodeId = parent.getParentNodeId(); accessibilityViewId = AccessibilityNodeInfo.getAccessibilityViewId( parentNodeId); } else { prefetchPredecessorsOfRealNode(providerHost, outInfos); return; } } } private void prefetchSiblingsOfVirtualNode(AccessibilityNodeInfo current, View providerHost, AccessibilityNodeProvider provider, List outInfos) { final long parentNodeId = current.getParentNodeId(); final int parentAccessibilityViewId = AccessibilityNodeInfo.getAccessibilityViewId(parentNodeId); final int parentVirtualDescendantId = AccessibilityNodeInfo.getVirtualDescendantId(parentNodeId); if (parentVirtualDescendantId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID || parentAccessibilityViewId == providerHost.getAccessibilityViewId()) { final AccessibilityNodeInfo parent; if (parentVirtualDescendantId != AccessibilityNodeInfo.UNDEFINED_ITEM_ID) { parent = provider.createAccessibilityNodeInfo(parentVirtualDescendantId); } else { parent = provider.createAccessibilityNodeInfo( AccessibilityNodeProvider.HOST_VIEW_ID); } if (parent != null) { final int childCount = parent.getChildCount(); for (int i = 0; i < childCount; i++) { if (outInfos.size() >= MAX_ACCESSIBILITY_NODE_INFO_BATCH_SIZE) { return; } final long childNodeId = parent.getChildId(i); if (childNodeId != current.getSourceNodeId()) { final int childVirtualDescendantId = AccessibilityNodeInfo.getVirtualDescendantId(childNodeId); AccessibilityNodeInfo child = provider.createAccessibilityNodeInfo( childVirtualDescendantId); if (child != null) { outInfos.add(child); } } } } } else { prefetchSiblingsOfRealNode(providerHost, outInfos); } } private void prefetchDescendantsOfVirtualNode(AccessibilityNodeInfo root, AccessibilityNodeProvider provider, List outInfos) { final int initialOutInfosSize = outInfos.size(); final int childCount = root.getChildCount(); for (int i = 0; i < childCount; i++) { if (outInfos.size() >= MAX_ACCESSIBILITY_NODE_INFO_BATCH_SIZE) { return; } final long childNodeId = root.getChildId(i); AccessibilityNodeInfo child = provider.createAccessibilityNodeInfo( AccessibilityNodeInfo.getVirtualDescendantId(childNodeId)); if (child != null) { outInfos.add(child); } } if (outInfos.size() < MAX_ACCESSIBILITY_NODE_INFO_BATCH_SIZE) { final int addedChildCount = outInfos.size() - initialOutInfosSize; for (int i = 0; i < addedChildCount; i++) { AccessibilityNodeInfo child = outInfos.get(initialOutInfosSize + i); prefetchDescendantsOfVirtualNode(child, provider, outInfos); } } } } private class PrivateHandler extends Handler { private final static int MSG_PERFORM_ACCESSIBILITY_ACTION = 1; private final static int MSG_FIND_ACCESSIBILITY_NODE_INFO_BY_ACCESSIBILITY_ID = 2; private final static int MSG_FIND_ACCESSIBILITY_NODE_INFOS_BY_VIEW_ID = 3; private final static int MSG_FIND_ACCESSIBILITY_NODE_INFO_BY_TEXT = 4; private final static int MSG_FIND_FOCUS = 5; private final static int MSG_FOCUS_SEARCH = 6; public PrivateHandler(Looper looper) { super(looper); } @Override public String getMessageName(Message message) { final int type = message.what; switch (type) { case MSG_PERFORM_ACCESSIBILITY_ACTION: return "MSG_PERFORM_ACCESSIBILITY_ACTION"; case MSG_FIND_ACCESSIBILITY_NODE_INFO_BY_ACCESSIBILITY_ID: return "MSG_FIND_ACCESSIBILITY_NODE_INFO_BY_ACCESSIBILITY_ID"; case MSG_FIND_ACCESSIBILITY_NODE_INFOS_BY_VIEW_ID: return "MSG_FIND_ACCESSIBILITY_NODE_INFOS_BY_VIEW_ID"; case MSG_FIND_ACCESSIBILITY_NODE_INFO_BY_TEXT: return "MSG_FIND_ACCESSIBILITY_NODE_INFO_BY_TEXT"; case MSG_FIND_FOCUS: return "MSG_FIND_FOCUS"; case MSG_FOCUS_SEARCH: return "MSG_FOCUS_SEARCH"; default: throw new IllegalArgumentException("Unknown message type: " + type); } } @Override public void handleMessage(Message message) { final int type = message.what; switch (type) { case MSG_FIND_ACCESSIBILITY_NODE_INFO_BY_ACCESSIBILITY_ID: { findAccessibilityNodeInfoByAccessibilityIdUiThread(message); } break; case MSG_PERFORM_ACCESSIBILITY_ACTION: { performAccessibilityActionUiThread(message); } break; case MSG_FIND_ACCESSIBILITY_NODE_INFOS_BY_VIEW_ID: { findAccessibilityNodeInfosByViewIdUiThread(message); } break; case MSG_FIND_ACCESSIBILITY_NODE_INFO_BY_TEXT: { findAccessibilityNodeInfosByTextUiThread(message); } break; case MSG_FIND_FOCUS: { findFocusUiThread(message); } break; case MSG_FOCUS_SEARCH: { focusSearchUiThread(message); } break; default: throw new IllegalArgumentException("Unknown message type: " + type); } } } private final class AddNodeInfosForViewId implements Predicate { private int mViewId = View.NO_ID; private List mInfos; public void init(int viewId, List infos) { mViewId = viewId; mInfos = infos; } public void reset() { mViewId = View.NO_ID; mInfos = null; } @Override public boolean apply(View view) { if (view.getId() == mViewId && isShown(view)) { mInfos.add(view.createAccessibilityNodeInfo()); } return false; } } }