1 /*
2 * Copyright (c) 2021-2023 Huawei Device Co., Ltd.
3 * Licensed under the Apache License, Version 2.0 (the "License");
4 * you may not use this file except in compliance with the License.
5 * You may obtain a copy of the License at
6 *
7 * http://www.apache.org/licenses/LICENSE-2.0
8 *
9 * Unless required by applicable law or agreed to in writing, software
10 * distributed under the License is distributed on an "AS IS" BASIS,
11 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
12 * See the License for the specific language governing permissions and
13 * limitations under the License.
14 */
15
16 #include "pipeline/rs_render_node_map.h"
17 #include "common/rs_common_def.h"
18 #include "pipeline/rs_canvas_drawing_render_node.h"
19 #include "pipeline/rs_render_node.h"
20 #include "pipeline/rs_display_render_node.h"
21 #include "pipeline/rs_render_node_gc.h"
22 #include "pipeline/rs_surface_render_node.h"
23 #include "platform/common/rs_log.h"
24
25 namespace OHOS {
26 namespace Rosen {
27 namespace {
28 constexpr const char* ENTRY_VIEW = "SCBDesktop";
29 constexpr const char* WALLPAPER_VIEW = "SCBWallpaper";
30 constexpr const char* SCREENLOCK_WINDOW = "SCBScreenLock";
31 constexpr const char* SYSUI_DROPDOWN = "SCBDropdownPanel";
32 constexpr const char* NEGATIVE_SCREEN = "SCBNegativeScreen";
33 };
34
35 using ResidentSurfaceNodeMap = std::unordered_map<NodeId, std::shared_ptr<RSSurfaceRenderNode>>;
36
RSRenderNodeMap()37 RSRenderNodeMap::RSRenderNodeMap()
38 {
39 // add animation fallback node, NOTE: this is different from RSContext::globalRootRenderNode_
40 renderNodeMap_.emplace(0, new RSRenderNode(0));
41 }
42
Initialize(const std::weak_ptr<RSContext> & context)43 void RSRenderNodeMap::Initialize(const std::weak_ptr<RSContext>& context)
44 {
45 context_ = context;
46 }
47
ObtainLauncherNodeId(const std::shared_ptr<RSSurfaceRenderNode> surfaceNode)48 void RSRenderNodeMap::ObtainLauncherNodeId(const std::shared_ptr<RSSurfaceRenderNode> surfaceNode)
49 {
50 if (surfaceNode == nullptr) {
51 return;
52 }
53 if (surfaceNode->GetName().find(ENTRY_VIEW) != std::string::npos) {
54 entryViewNodeId_ = surfaceNode->GetId();
55 }
56 if (surfaceNode->GetName().find(WALLPAPER_VIEW) != std::string::npos) {
57 wallpaperViewNodeId_ = surfaceNode->GetId();
58 }
59 if (surfaceNode->GetName().find(NEGATIVE_SCREEN) != std::string::npos) {
60 negativeScreenNodeId_ = surfaceNode->GetId();
61 }
62 }
63
ObtainScreenLockWindowNodeId(const std::shared_ptr<RSSurfaceRenderNode> surfaceNode)64 void RSRenderNodeMap::ObtainScreenLockWindowNodeId(const std::shared_ptr<RSSurfaceRenderNode> surfaceNode)
65 {
66 if (surfaceNode == nullptr) {
67 return;
68 }
69 if (surfaceNode->GetName().find(SCREENLOCK_WINDOW) != std::string::npos) {
70 screenLockWindowNodeId_ = surfaceNode->GetId();
71 }
72 }
73
GetEntryViewNodeId() const74 NodeId RSRenderNodeMap::GetEntryViewNodeId() const
75 {
76 return entryViewNodeId_;
77 }
78
GetWallPaperViewNodeId() const79 NodeId RSRenderNodeMap::GetWallPaperViewNodeId() const
80 {
81 return wallpaperViewNodeId_;
82 }
83
GetScreenLockWindowNodeId() const84 NodeId RSRenderNodeMap::GetScreenLockWindowNodeId() const
85 {
86 return screenLockWindowNodeId_;
87 }
88
GetNegativeScreenNodeId() const89 NodeId RSRenderNodeMap::GetNegativeScreenNodeId() const
90 {
91 return negativeScreenNodeId_;
92 }
93
IsResidentProcess(const std::shared_ptr<RSSurfaceRenderNode> surfaceNode)94 static bool IsResidentProcess(const std::shared_ptr<RSSurfaceRenderNode> surfaceNode)
95 {
96 return surfaceNode->GetName().find(ENTRY_VIEW) != std::string::npos ||
97 surfaceNode->GetName().find(SYSUI_DROPDOWN) != std::string::npos ||
98 surfaceNode->GetName().find(SCREENLOCK_WINDOW) != std::string::npos ||
99 surfaceNode->GetName().find(WALLPAPER_VIEW) != std::string::npos;
100 }
101
GetVisibleLeashWindowCount() const102 uint32_t RSRenderNodeMap::GetVisibleLeashWindowCount() const
103 {
104 if (surfaceNodeMap_.empty()) {
105 return 0;
106 }
107
108 return std::count_if(surfaceNodeMap_.begin(), surfaceNodeMap_.end(),
109 [](const auto& pair) -> bool {
110 return pair.second && pair.second->IsLeashWindowSurfaceNodeVisible();
111 });
112 }
113
IsResidentProcessNode(NodeId id) const114 bool RSRenderNodeMap::IsResidentProcessNode(NodeId id) const
115 {
116 auto nodePid = ExtractPid(id);
117 return std::any_of(residentSurfaceNodeMap_.begin(), residentSurfaceNodeMap_.end(),
118 [nodePid](const auto& pair) -> bool { return ExtractPid(pair.first) == nodePid; });
119 }
120
IsUIExtensionSurfaceNode(NodeId id) const121 bool RSRenderNodeMap::IsUIExtensionSurfaceNode(NodeId id) const
122 {
123 std::lock_guard<std::mutex> lock(uiExtensionSurfaceNodesMutex_);
124 return uiExtensionSurfaceNodes_.find(id) != uiExtensionSurfaceNodes_.end();
125 }
126
AddUIExtensionSurfaceNode(const std::shared_ptr<RSSurfaceRenderNode> surfaceNode)127 void RSRenderNodeMap::AddUIExtensionSurfaceNode(const std::shared_ptr<RSSurfaceRenderNode> surfaceNode)
128 {
129 if (surfaceNode && surfaceNode->IsUIExtension()) {
130 std::lock_guard<std::mutex> lock(uiExtensionSurfaceNodesMutex_);
131 uiExtensionSurfaceNodes_.insert(surfaceNode->GetId());
132 }
133 }
134
RemoveUIExtensionSurfaceNode(const std::shared_ptr<RSSurfaceRenderNode> surfaceNode)135 void RSRenderNodeMap::RemoveUIExtensionSurfaceNode(const std::shared_ptr<RSSurfaceRenderNode> surfaceNode)
136 {
137 if (surfaceNode && surfaceNode->IsUIExtension()) {
138 std::lock_guard<std::mutex> lock(uiExtensionSurfaceNodesMutex_);
139 uiExtensionSurfaceNodes_.erase(surfaceNode->GetId());
140 }
141 }
142
RegisterRenderNode(const std::shared_ptr<RSBaseRenderNode> & nodePtr)143 bool RSRenderNodeMap::RegisterRenderNode(const std::shared_ptr<RSBaseRenderNode>& nodePtr)
144 {
145 NodeId id = nodePtr->GetId();
146 if (renderNodeMap_.count(id)) {
147 return false;
148 }
149 renderNodeMap_.emplace(id, nodePtr);
150 nodePtr->OnRegister(context_);
151 if (nodePtr->GetType() == RSRenderNodeType::SURFACE_NODE) {
152 auto surfaceNode = nodePtr->ReinterpretCastTo<RSSurfaceRenderNode>();
153 surfaceNodeMap_.emplace(id, surfaceNode);
154 if (IsResidentProcess(surfaceNode)) {
155 residentSurfaceNodeMap_.emplace(id, surfaceNode);
156 }
157 AddUIExtensionSurfaceNode(surfaceNode);
158 ObtainLauncherNodeId(surfaceNode);
159 ObtainScreenLockWindowNodeId(surfaceNode);
160 } else if (nodePtr->GetType() == RSRenderNodeType::CANVAS_DRAWING_NODE) {
161 auto canvasDrawingNode = nodePtr->ReinterpretCastTo<RSCanvasDrawingRenderNode>();
162 canvasDrawingNodeMap_.emplace(id, canvasDrawingNode);
163 }
164 return true;
165 }
166
RegisterDisplayRenderNode(const std::shared_ptr<RSDisplayRenderNode> & nodePtr)167 bool RSRenderNodeMap::RegisterDisplayRenderNode(const std::shared_ptr<RSDisplayRenderNode>& nodePtr)
168 {
169 NodeId id = nodePtr->GetId();
170 if (renderNodeMap_.count(id)) {
171 return false;
172 }
173 renderNodeMap_.emplace(id, nodePtr);
174 displayNodeMap_.emplace(id, nodePtr);
175 nodePtr->OnRegister(context_);
176 return true;
177 }
178
UnregisterRenderNode(NodeId id)179 void RSRenderNodeMap::UnregisterRenderNode(NodeId id)
180 {
181 // temp solution to address the dma leak
182 auto it = surfaceNodeMap_.find(id);
183 if (it != surfaceNodeMap_.end()) {
184 if (it->second->GetName().find("ShellAssistantAnco") == std::string::npos) {
185 renderNodeMap_.erase(id);
186 }
187 RemoveUIExtensionSurfaceNode(it->second);
188 } else {
189 renderNodeMap_.erase(id);
190 }
191 renderNodeMap_.erase(id);
192 surfaceNodeMap_.erase(id);
193 residentSurfaceNodeMap_.erase(id);
194 displayNodeMap_.erase(id);
195 canvasDrawingNodeMap_.erase(id);
196 purgeableNodeMap_.erase(id);
197 }
198
MoveRenderNodeMap(std::shared_ptr<std::unordered_map<NodeId,std::shared_ptr<RSBaseRenderNode>>> subRenderNodeMap,pid_t pid)199 void RSRenderNodeMap::MoveRenderNodeMap(
200 std::shared_ptr<std::unordered_map<NodeId, std::shared_ptr<RSBaseRenderNode>>> subRenderNodeMap, pid_t pid)
201 {
202 std::unordered_map<NodeId, std::shared_ptr<RSBaseRenderNode>>::iterator iter = renderNodeMap_.begin();
203 for (; iter != renderNodeMap_.end();) {
204 if (ExtractPid(iter->first) != pid) {
205 ++iter;
206 continue;
207 }
208 // remove node from tree
209 iter->second->RemoveFromTree(false);
210 subRenderNodeMap->emplace(iter->first, iter->second);
211 iter = renderNodeMap_.erase(iter);
212 }
213 }
214
FilterNodeByPid(pid_t pid)215 void RSRenderNodeMap::FilterNodeByPid(pid_t pid)
216 {
217 ROSEN_LOGD("RSRenderNodeMap::FilterNodeByPid removing all nodes belong to pid %{public}llu",
218 (unsigned long long)pid);
219 bool useBatchRemoving =
220 RSUniRenderJudgement::IsUniRender() && RSSystemProperties::GetBatchRemovingOnRemoteDiedEnabled();
221 // remove all nodes belong to given pid (by matching higher 32 bits of node id)
222 EraseIf(renderNodeMap_, [pid, useBatchRemoving](const auto& pair) -> bool {
223 if (ExtractPid(pair.first) != pid) {
224 return false;
225 }
226 if (pair.second == nullptr) {
227 return true;
228 }
229 if (useBatchRemoving) {
230 RSRenderNodeGC::Instance().AddToOffTreeNodeBucket(pair.second);
231 } else {
232 if (auto parent = pair.second->GetParent().lock()) {
233 parent->RemoveChildFromFulllist(pair.second->GetId());
234 }
235 pair.second->RemoveFromTree(false);
236 }
237 pair.second->GetAnimationManager().FilterAnimationByPid(pid);
238 return true;
239 });
240
241 EraseIf(surfaceNodeMap_, [pid, useBatchRemoving, this](const auto& pair) -> bool {
242 bool shouldErase = (ExtractPid(pair.first) == pid);
243 if (shouldErase) {
244 RemoveUIExtensionSurfaceNode(pair.second);
245 }
246 if (shouldErase && pair.second && useBatchRemoving) {
247 if (auto parent = pair.second->GetParent().lock()) {
248 parent->RemoveChildFromFulllist(pair.second->GetId());
249 }
250 pair.second->RemoveFromTree(false);
251 }
252 return shouldErase;
253 });
254
255 EraseIf(residentSurfaceNodeMap_, [pid](const auto& pair) -> bool {
256 return ExtractPid(pair.first) == pid;
257 });
258
259 EraseIf(canvasDrawingNodeMap_, [pid](const auto& pair) -> bool {
260 return ExtractPid(pair.first) == pid;
261 });
262
263 EraseIf(displayNodeMap_, [pid](const auto& pair) -> bool {
264 if (ExtractPid(pair.first) != pid && pair.second) {
265 ROSEN_LOGD("RSRenderNodeMap::FilterNodeByPid removing all nodes belong to pid %{public}llu",
266 (unsigned long long)pid);
267 pair.second->FilterModifiersByPid(pid);
268 }
269 return ExtractPid(pair.first) == pid;
270 });
271
272 if (auto fallbackNode = GetAnimationFallbackNode()) {
273 // remove all fallback animations belong to given pid
274 fallbackNode->GetAnimationManager().FilterAnimationByPid(pid);
275 }
276 }
277
TraversalNodes(std::function<void (const std::shared_ptr<RSBaseRenderNode> &)> func) const278 void RSRenderNodeMap::TraversalNodes(std::function<void (const std::shared_ptr<RSBaseRenderNode>&)> func) const
279 {
280 for (const auto& [_, node] : renderNodeMap_) {
281 func(node);
282 }
283 }
284
TraverseCanvasDrawingNodes(std::function<void (const std::shared_ptr<RSCanvasDrawingRenderNode> &)> func) const285 void RSRenderNodeMap::TraverseCanvasDrawingNodes(
286 std::function<void(const std::shared_ptr<RSCanvasDrawingRenderNode>&)> func) const
287 {
288 for (const auto& [_, node] : canvasDrawingNodeMap_) {
289 func(node);
290 }
291 }
292
TraverseSurfaceNodes(std::function<void (const std::shared_ptr<RSSurfaceRenderNode> &)> func) const293 void RSRenderNodeMap::TraverseSurfaceNodes(std::function<void (const std::shared_ptr<RSSurfaceRenderNode>&)> func) const
294 {
295 for (const auto& [_, node] : surfaceNodeMap_) {
296 func(node);
297 }
298 }
299
ContainPid(pid_t pid) const300 bool RSRenderNodeMap::ContainPid(pid_t pid) const
301 {
302 return std::any_of(surfaceNodeMap_.begin(), surfaceNodeMap_.end(),
303 [pid](const auto& pair) -> bool { return ExtractPid(pair.first) == pid; });
304 }
305
TraverseDisplayNodes(std::function<void (const std::shared_ptr<RSDisplayRenderNode> &)> func) const306 void RSRenderNodeMap::TraverseDisplayNodes(std::function<void (const std::shared_ptr<RSDisplayRenderNode>&)> func) const
307 {
308 for (const auto& [_, node] : displayNodeMap_) {
309 func(node);
310 }
311 }
312
GetResidentSurfaceNodeMap() const313 const ResidentSurfaceNodeMap& RSRenderNodeMap::GetResidentSurfaceNodeMap() const
314 {
315 return residentSurfaceNodeMap_;
316 }
317
318 template<>
GetRenderNode(NodeId id) const319 const std::shared_ptr<RSBaseRenderNode> RSRenderNodeMap::GetRenderNode(NodeId id) const
320 {
321 auto itr = renderNodeMap_.find(id);
322 if (itr == renderNodeMap_.end()) {
323 return nullptr;
324 }
325 return itr->second;
326 }
327
GetAnimationFallbackNode() const328 const std::shared_ptr<RSRenderNode> RSRenderNodeMap::GetAnimationFallbackNode() const
329 {
330 auto itr = renderNodeMap_.find(0);
331 if (itr == renderNodeMap_.end()) {
332 return nullptr;
333 }
334 return itr->second;
335 }
336
AddOffTreeNode(NodeId nodeId)337 void RSRenderNodeMap::AddOffTreeNode(NodeId nodeId)
338 {
339 purgeableNodeMap_.insert(std::pair(nodeId, true));
340 }
341
RemoveOffTreeNode(NodeId nodeId)342 void RSRenderNodeMap::RemoveOffTreeNode(NodeId nodeId)
343 {
344 purgeableNodeMap_.insert(std::pair(nodeId, false));
345 }
346
GetAndClearPurgeableNodeIds()347 std::unordered_map<NodeId, bool>&& RSRenderNodeMap::GetAndClearPurgeableNodeIds()
348 {
349 return std::move(purgeableNodeMap_);
350 }
351
GetSelfDrawSurfaceNameByPid(pid_t nodePid) const352 const std::string RSRenderNodeMap::GetSelfDrawSurfaceNameByPid(pid_t nodePid) const
353 {
354 for (auto &t : surfaceNodeMap_) {
355 if (ExtractPid(t.first) == nodePid && t.second->IsSelfDrawingType()) {
356 return t.second->GetName();
357 }
358 }
359 ROSEN_LOGD("RSRenderNodeMap::GetSurfaceNameByPid no self drawing nodes belong to pid %{public}d",
360 static_cast<int32_t>(nodePid));
361 return "";
362 }
363
364 } // namespace Rosen
365 } // namespace OHOS
366