1 /*
2 * Copyright (c) 2021-2022 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 "hdi_device_impl.h"
17 #include "hdi_log.h"
18 #include <cstddef>
19 #include <cstdlib>
20 #include <mutex>
21 #include <scoped_bytrace.h>
22 #include <securec.h>
23 #include "v1_3/include/idisplay_composer_interface.h"
24
25 #define CHECK_FUNC(composerSptr) \
26 do { \
27 if ((composerSptr) == nullptr) { \
28 HLOGD("[%{public}s]composerSptr is nullptr.", __func__); \
29 return GRAPHIC_DISPLAY_NULL_PTR; \
30 } \
31 } while (0)
32
33 namespace OHOS {
34 namespace Rosen {
35 namespace {
36 using namespace OHOS::HDI::Display::Composer::V1_0;
37 using namespace OHOS::HDI::Display::Composer::V1_1;
38 using namespace OHOS::HDI::Display::Composer::V1_2;
39 using namespace OHOS::HDI::Display::Composer::V1_3;
40 using IDisplayComposerInterfaceSptr = sptr<Composer::V1_3::IDisplayComposerInterface>;
41 static IDisplayComposerInterfaceSptr g_composer;
42 }
43
44 class HwcDeathRecipient : public IRemoteObject::DeathRecipient {
45 public:
HwcDeathRecipient(OnHwcDeadCallback callback=nullptr,void * data=nullptr)46 explicit HwcDeathRecipient(OnHwcDeadCallback callback = nullptr, void *data = nullptr)
47 : deathCbFunc_(callback), data_(data) {}
OnRemoteDied(const wptr<IRemoteObject> & object)48 void OnRemoteDied(const wptr<IRemoteObject> &object) override
49 {
50 if (deathCbFunc_ != nullptr) {
51 HLOGI("%{public}s: notify the death event of composer to RS", __func__);
52 deathCbFunc_(data_);
53 }
54 }
55 private:
56 OnHwcDeadCallback deathCbFunc_;
57 void *data_;
58 };
59
HdiDeviceImpl()60 HdiDeviceImpl::HdiDeviceImpl()
61 {
62 }
63
~HdiDeviceImpl()64 HdiDeviceImpl::~HdiDeviceImpl()
65 {
66 Destroy();
67 }
68
Init()69 bool HdiDeviceImpl::Init()
70 {
71 if (g_composer == nullptr) {
72 g_composer = Composer::V1_3::IDisplayComposerInterface::Get();
73 if (g_composer == nullptr) {
74 HLOGE("IDisplayComposerInterface::Get return nullptr.");
75 return false;
76 }
77 }
78 return true;
79 }
80
Destroy()81 void HdiDeviceImpl::Destroy()
82 {
83 g_composer = nullptr;
84 }
85
86 /* set & get device screen info begin */
RegHotPlugCallback(HotPlugCallback callback,void * data)87 int32_t HdiDeviceImpl::RegHotPlugCallback(HotPlugCallback callback, void *data)
88 {
89 CHECK_FUNC(g_composer);
90 return g_composer->RegHotPlugCallback(callback, data);
91 }
92
RegRefreshCallback(RefreshCallback callback,void * data)93 int32_t HdiDeviceImpl::RegRefreshCallback(RefreshCallback callback, void *data)
94 {
95 CHECK_FUNC(g_composer);
96 return g_composer->RegRefreshCallback(callback, data);
97 }
98
RegHwcDeadCallback(OnHwcDeadCallback callback,void * data)99 bool HdiDeviceImpl::RegHwcDeadCallback(OnHwcDeadCallback callback, void *data)
100 {
101 CHECK_FUNC(g_composer);
102 return g_composer->AddDeathRecipient(new HwcDeathRecipient(callback, data));
103 }
104
RegScreenVBlankCallback(uint32_t screenId,VBlankCallback callback,void * data)105 int32_t HdiDeviceImpl::RegScreenVBlankCallback(uint32_t screenId, VBlankCallback callback, void *data)
106 {
107 CHECK_FUNC(g_composer);
108 return g_composer->RegDisplayVBlankCallback(screenId, callback, data);
109 }
110
RegScreenVBlankIdleCallback(OnVBlankIdleCallback callback,void * data)111 int32_t HdiDeviceImpl::RegScreenVBlankIdleCallback(OnVBlankIdleCallback callback, void *data)
112 {
113 CHECK_FUNC(g_composer);
114 return g_composer->RegDisplayVBlankIdleCallback(callback, data);
115 }
116
SetScreenConstraint(uint32_t screenId,uint64_t frameId,uint64_t timestamp,uint32_t type)117 int32_t HdiDeviceImpl::SetScreenConstraint(uint32_t screenId, uint64_t frameId, uint64_t timestamp, uint32_t type)
118 {
119 CHECK_FUNC(g_composer);
120 return g_composer->SetDisplayConstraint(screenId, frameId, timestamp, type);
121 }
122
GetDisplayProperty(uint32_t screenId,uint32_t propertyId,uint64_t & propertyValue)123 int32_t HdiDeviceImpl::GetDisplayProperty(uint32_t screenId, uint32_t propertyId, uint64_t& propertyValue)
124 {
125 CHECK_FUNC(g_composer);
126 return g_composer->GetDisplayProperty(screenId, propertyId, propertyValue);
127 }
128
SetScreenVsyncEnabled(uint32_t screenId,bool enabled)129 int32_t HdiDeviceImpl::SetScreenVsyncEnabled(uint32_t screenId, bool enabled)
130 {
131 HLOGD("SetScreenVsyncEnabled, screenId:%{public}u, enabled:%{public}d", screenId, enabled);
132 ScopedBytrace trace("SetScreenVsyncEnabled, screenId:" + std::to_string(screenId) +
133 ", enabled:" + std::to_string(enabled));
134 CHECK_FUNC(g_composer);
135 return g_composer->SetDisplayVsyncEnabled(screenId, enabled);
136 }
137
GetScreenCapability(uint32_t screenId,GraphicDisplayCapability & info)138 int32_t HdiDeviceImpl::GetScreenCapability(uint32_t screenId, GraphicDisplayCapability &info)
139 {
140 CHECK_FUNC(g_composer);
141 DisplayCapability hdiInfo;
142 uint32_t propertyId = DisplayPropertyID::DISPLAY_PROPERTY_ID_SKIP_VALIDATE;
143 uint64_t propertyValue;
144 int32_t ret = g_composer->GetDisplayCapability(screenId, hdiInfo);
145 if (ret == GRAPHIC_DISPLAY_SUCCESS) {
146 info.name = hdiInfo.name;
147 info.type = static_cast<GraphicInterfaceType>(hdiInfo.type);
148 info.phyWidth = hdiInfo.phyWidth;
149 info.phyHeight = hdiInfo.phyHeight;
150 info.supportLayers = hdiInfo.supportLayers;
151 info.virtualDispCount = hdiInfo.virtualDispCount;
152 info.supportWriteBack = hdiInfo.supportWriteBack;
153 info.propertyCount = hdiInfo.propertyCount;
154 info.props.clear();
155 info.props.reserve(hdiInfo.propertyCount);
156 for (uint32_t i = 0; i < hdiInfo.propertyCount; i++) {
157 GraphicPropertyObject graphicProperty = {
158 .name = hdiInfo.props[i].name,
159 .propId = hdiInfo.props[i].propId,
160 .value = hdiInfo.props[i].value,
161 };
162 info.props.emplace_back(graphicProperty);
163 }
164 }
165
166 (void)g_composer->GetDisplayProperty(screenId, propertyId, propertyValue);
167 return ret;
168 }
169
GetScreenSupportedModes(uint32_t screenId,std::vector<GraphicDisplayModeInfo> & modes)170 int32_t HdiDeviceImpl::GetScreenSupportedModes(uint32_t screenId, std::vector<GraphicDisplayModeInfo> &modes)
171 {
172 CHECK_FUNC(g_composer);
173 std::vector<DisplayModeInfo> hdiModes;
174 int32_t ret = g_composer->GetDisplaySupportedModes(screenId, hdiModes);
175 if (ret != GRAPHIC_DISPLAY_SUCCESS) {
176 HLOGE("Get screen supported modes failed, ret is %{public}d.", ret);
177 return ret;
178 }
179
180 modes.clear();
181 modes.reserve(hdiModes.size());
182 for (auto iter = hdiModes.begin(); iter != hdiModes.end(); iter++) {
183 GraphicDisplayModeInfo tempMode = {
184 .width = iter->width,
185 .height = iter->height,
186 .freshRate = iter->freshRate,
187 .id = iter->id,
188 };
189 modes.emplace_back(tempMode);
190 }
191 return ret;
192 }
193
GetScreenMode(uint32_t screenId,uint32_t & modeId)194 int32_t HdiDeviceImpl::GetScreenMode(uint32_t screenId, uint32_t &modeId)
195 {
196 CHECK_FUNC(g_composer);
197 return g_composer->GetDisplayMode(screenId, modeId);
198 }
199
SetScreenMode(uint32_t screenId,uint32_t modeId)200 int32_t HdiDeviceImpl::SetScreenMode(uint32_t screenId, uint32_t modeId)
201 {
202 CHECK_FUNC(g_composer);
203 return g_composer->SetDisplayMode(screenId, modeId);
204 }
205
SetScreenActiveRect(uint32_t screenId,const GraphicIRect & activeRect)206 int32_t HdiDeviceImpl::SetScreenActiveRect(uint32_t screenId, const GraphicIRect& activeRect)
207 {
208 if (activeRect.w <= 0 || activeRect.h <= 0) {
209 return GRAPHIC_DISPLAY_PARAM_ERR;
210 }
211 CHECK_FUNC(g_composer);
212 IRect hdiActiveRect {
213 .x = activeRect.x,
214 .y = activeRect.y,
215 .w = activeRect.w,
216 .h = activeRect.h,
217 };
218 return g_composer->SetDisplayActiveRegion(screenId, hdiActiveRect);
219 }
220
SetScreenOverlayResolution(uint32_t screenId,uint32_t width,uint32_t height)221 int32_t HdiDeviceImpl::SetScreenOverlayResolution(uint32_t screenId, uint32_t width, uint32_t height)
222 {
223 CHECK_FUNC(g_composer);
224 return g_composer->SetDisplayOverlayResolution(screenId, width, height);
225 }
226
GetScreenPowerStatus(uint32_t screenId,GraphicDispPowerStatus & status)227 int32_t HdiDeviceImpl::GetScreenPowerStatus(uint32_t screenId, GraphicDispPowerStatus &status)
228 {
229 CHECK_FUNC(g_composer);
230 HDI::Display::Composer::V1_0::DispPowerStatus hdiStatus;
231 int32_t ret = g_composer->GetDisplayPowerStatus(screenId, hdiStatus);
232 if (ret == GRAPHIC_DISPLAY_SUCCESS) {
233 status = static_cast<GraphicDispPowerStatus>(hdiStatus);
234 }
235 return ret;
236 }
237
SetScreenPowerStatus(uint32_t screenId,GraphicDispPowerStatus status)238 int32_t HdiDeviceImpl::SetScreenPowerStatus(uint32_t screenId, GraphicDispPowerStatus status)
239 {
240 CHECK_FUNC(g_composer);
241 return g_composer->SetDisplayPowerStatus(screenId,
242 static_cast<HDI::Display::Composer::V1_0::DispPowerStatus>(status));
243 }
244
GetScreenBacklight(uint32_t screenId,uint32_t & level)245 int32_t HdiDeviceImpl::GetScreenBacklight(uint32_t screenId, uint32_t &level)
246 {
247 CHECK_FUNC(g_composer);
248 return g_composer->GetDisplayBacklight(screenId, level);
249 }
250
SetScreenBacklight(uint32_t screenId,uint32_t level)251 int32_t HdiDeviceImpl::SetScreenBacklight(uint32_t screenId, uint32_t level)
252 {
253 CHECK_FUNC(g_composer);
254 return g_composer->SetDisplayBacklight(screenId, level);
255 }
256
PrepareScreenLayers(uint32_t screenId,bool & needFlush)257 int32_t HdiDeviceImpl::PrepareScreenLayers(uint32_t screenId, bool &needFlush)
258 {
259 CHECK_FUNC(g_composer);
260 return g_composer->PrepareDisplayLayers(screenId, needFlush);
261 }
262
GetScreenCompChange(uint32_t screenId,std::vector<uint32_t> & layersId,std::vector<int32_t> & types)263 int32_t HdiDeviceImpl::GetScreenCompChange(uint32_t screenId, std::vector<uint32_t> &layersId,
264 std::vector<int32_t> &types)
265 {
266 CHECK_FUNC(g_composer);
267 return g_composer->GetDisplayCompChange(screenId, layersId, types);
268 }
269
SetScreenClientBuffer(uint32_t screenId,const BufferHandle * buffer,uint32_t cacheIndex,const sptr<SyncFence> & fence)270 int32_t HdiDeviceImpl::SetScreenClientBuffer(uint32_t screenId, const BufferHandle *buffer, uint32_t cacheIndex,
271 const sptr<SyncFence> &fence)
272 {
273 CHECK_FUNC(g_composer);
274 if ((buffer == nullptr && cacheIndex == INVALID_BUFFER_CACHE_INDEX) || fence == nullptr) {
275 return GRAPHIC_DISPLAY_PARAM_ERR;
276 }
277
278 return g_composer->SetDisplayClientBuffer(screenId, buffer, cacheIndex, fence->Get());
279 }
280
SetScreenClientBufferCacheCount(uint32_t screen,uint32_t count)281 int32_t HdiDeviceImpl::SetScreenClientBufferCacheCount(uint32_t screen, uint32_t count)
282 {
283 CHECK_FUNC(g_composer);
284 if (count == 0 || count > SURFACE_MAX_QUEUE_SIZE) {
285 return GRAPHIC_DISPLAY_PARAM_ERR;
286 }
287 return g_composer->SetClientBufferCacheCount(screen, count);
288 }
289
SetScreenClientDamage(uint32_t screenId,const std::vector<GraphicIRect> & damageRect)290 int32_t HdiDeviceImpl::SetScreenClientDamage(uint32_t screenId, const std::vector<GraphicIRect> &damageRect)
291 {
292 CHECK_FUNC(g_composer);
293 std::vector<IRect> hdiDamageRect;
294 for (auto iter = damageRect.begin(); iter != damageRect.end(); iter++) {
295 IRect tempDamageRect = {
296 .x = iter->x,
297 .y = iter->y,
298 .w = iter->w,
299 .h = iter->h,
300 };
301 hdiDamageRect.emplace_back(tempDamageRect);
302 }
303 return g_composer->SetDisplayClientDamage(screenId, hdiDamageRect);
304 }
305
GetScreenSupportedColorGamuts(uint32_t screenId,std::vector<GraphicColorGamut> & gamuts)306 int32_t HdiDeviceImpl::GetScreenSupportedColorGamuts(uint32_t screenId, std::vector<GraphicColorGamut> &gamuts)
307 {
308 CHECK_FUNC(g_composer);
309 std::vector<ColorGamut> hdiGamuts;
310 int32_t ret = g_composer->GetDisplaySupportedColorGamuts(screenId, hdiGamuts);
311 if (ret != GRAPHIC_DISPLAY_SUCCESS) {
312 return ret;
313 }
314
315 gamuts.clear();
316 gamuts.reserve(hdiGamuts.size());
317 for (auto iter = hdiGamuts.begin(); iter != hdiGamuts.end(); iter++) {
318 GraphicColorGamut tempGamut = static_cast<GraphicColorGamut>(*iter);
319 gamuts.emplace_back(tempGamut);
320 }
321 return ret;
322 }
323
SetScreenColorGamut(uint32_t screenId,GraphicColorGamut gamut)324 int32_t HdiDeviceImpl::SetScreenColorGamut(uint32_t screenId, GraphicColorGamut gamut)
325 {
326 CHECK_FUNC(g_composer);
327 return g_composer->SetDisplayColorGamut(screenId, static_cast<ColorGamut>(gamut));
328 }
329
GetScreenColorGamut(uint32_t screenId,GraphicColorGamut & gamut)330 int32_t HdiDeviceImpl::GetScreenColorGamut(uint32_t screenId, GraphicColorGamut &gamut)
331 {
332 CHECK_FUNC(g_composer);
333 ColorGamut hdiGamut;
334 int32_t ret = g_composer->GetDisplayColorGamut(screenId, hdiGamut);
335 if (ret == GRAPHIC_DISPLAY_SUCCESS) {
336 gamut = static_cast<GraphicColorGamut>(hdiGamut);
337 }
338 return ret;
339 }
340
SetScreenGamutMap(uint32_t screenId,GraphicGamutMap gamutMap)341 int32_t HdiDeviceImpl::SetScreenGamutMap(uint32_t screenId, GraphicGamutMap gamutMap)
342 {
343 CHECK_FUNC(g_composer);
344 return g_composer->SetDisplayGamutMap(screenId, static_cast<GamutMap>(gamutMap));
345 }
346
GetScreenGamutMap(uint32_t screenId,GraphicGamutMap & gamutMap)347 int32_t HdiDeviceImpl::GetScreenGamutMap(uint32_t screenId, GraphicGamutMap &gamutMap)
348 {
349 CHECK_FUNC(g_composer);
350 GamutMap hdiGamutMap;
351 int32_t ret = g_composer->GetDisplayGamutMap(screenId, hdiGamutMap);
352 if (ret == GRAPHIC_DISPLAY_SUCCESS) {
353 gamutMap = static_cast<GraphicGamutMap>(hdiGamutMap);
354 }
355 return ret;
356 }
357
SetScreenColorTransform(uint32_t screenId,const std::vector<float> & matrix)358 int32_t HdiDeviceImpl::SetScreenColorTransform(uint32_t screenId, const std::vector<float> &matrix)
359 {
360 CHECK_FUNC(g_composer);
361 return g_composer->SetDisplayColorTransform(screenId, matrix);
362 }
363
GetHDRCapabilityInfos(uint32_t screenId,GraphicHDRCapability & info)364 int32_t HdiDeviceImpl::GetHDRCapabilityInfos(uint32_t screenId, GraphicHDRCapability &info)
365 {
366 CHECK_FUNC(g_composer);
367 HDRCapability hdiInfo;
368 int32_t ret = g_composer->GetHDRCapabilityInfos(screenId, hdiInfo);
369 if (ret != GRAPHIC_DISPLAY_SUCCESS) {
370 return ret;
371 }
372 uint32_t formatCount = hdiInfo.formatCount;
373 info.formats.clear();
374 info.formats.reserve(formatCount);
375 info.formatCount = formatCount;
376 for (uint32_t i = 0; i < formatCount; i++) {
377 info.formats.emplace_back(static_cast<GraphicHDRFormat>(hdiInfo.formats[i]));
378 }
379 info.maxLum = hdiInfo.maxLum;
380 info.maxAverageLum = hdiInfo.maxAverageLum;
381 info.minLum = hdiInfo.minLum;
382 return ret;
383 }
384
GetSupportedMetaDataKey(uint32_t screenId,std::vector<GraphicHDRMetadataKey> & keys)385 int32_t HdiDeviceImpl::GetSupportedMetaDataKey(uint32_t screenId, std::vector<GraphicHDRMetadataKey> &keys)
386 {
387 CHECK_FUNC(g_composer);
388 std::vector<HDRMetadataKey> hdiKeys;
389 int32_t ret = g_composer->GetSupportedMetadataKey(screenId, hdiKeys);
390 if (ret != GRAPHIC_DISPLAY_SUCCESS) {
391 return ret;
392 }
393 keys.clear();
394 keys.reserve(hdiKeys.size());
395 for (auto iter = hdiKeys.begin(); iter != hdiKeys.end(); iter++) {
396 keys.emplace_back(static_cast<GraphicHDRMetadataKey>(*iter));
397 }
398 return ret;
399 }
400
Commit(uint32_t screenId,sptr<SyncFence> & fence)401 int32_t HdiDeviceImpl::Commit(uint32_t screenId, sptr<SyncFence> &fence)
402 {
403 ScopedBytrace bytrace(__func__);
404 CHECK_FUNC(g_composer);
405 int32_t fenceFd = -1;
406 int32_t ret = g_composer->Commit(screenId, fenceFd);
407
408 if (fenceFd >= 0) {
409 fence = new SyncFence(fenceFd);
410 } else {
411 fence = new SyncFence(-1);
412 }
413
414 return ret;
415 }
416
CommitAndGetReleaseFence(uint32_t screenId,sptr<SyncFence> & fence,int32_t & skipState,bool & needFlush,std::vector<uint32_t> & layers,std::vector<sptr<SyncFence>> & fences,bool isValidated)417 int32_t HdiDeviceImpl::CommitAndGetReleaseFence(uint32_t screenId, sptr<SyncFence> &fence, int32_t &skipState,
418 bool &needFlush, std::vector<uint32_t> &layers, std::vector<sptr<SyncFence>> &fences, bool isValidated)
419 {
420 ScopedBytrace bytrace(__func__);
421 CHECK_FUNC(g_composer);
422 int32_t fenceFd = -1;
423 std::vector<int32_t> fenceFds;
424
425 int32_t ret = g_composer->CommitAndGetReleaseFence(
426 screenId, fenceFd, skipState, needFlush, layers, fenceFds, isValidated);
427
428 if (skipState == 0 || fenceFd >= 0) {
429 fence = new SyncFence(fenceFd);
430 } else {
431 fence = new SyncFence(-1);
432 }
433
434 size_t fencesNum = fenceFds.size();
435 fences.resize(fencesNum);
436 for (size_t i = 0; i < fencesNum; i++) {
437 if (fenceFds[i] >= 0) {
438 fences[i] = new SyncFence(fenceFds[i]);
439 } else {
440 fences[i] = new SyncFence(-1);
441 }
442 }
443 return ret;
444 }
445
GetDisplayIdentificationData(uint32_t screenId,uint8_t & outPort,std::vector<uint8_t> & edidData)446 int32_t HdiDeviceImpl::GetDisplayIdentificationData(uint32_t screenId, uint8_t& outPort, std::vector<uint8_t>& edidData)
447 {
448 CHECK_FUNC(g_composer);
449 return g_composer->GetDisplayIdentificationData(screenId, outPort, edidData);
450 }
451 /* set & get device screen info end */
452
453 /* set & get device layer info begin */
SetLayerAlpha(uint32_t screenId,uint32_t layerId,const GraphicLayerAlpha & alpha)454 int32_t HdiDeviceImpl::SetLayerAlpha(uint32_t screenId, uint32_t layerId, const GraphicLayerAlpha &alpha)
455 {
456 CHECK_FUNC(g_composer);
457 LayerAlpha hdiLayerAlpha = {
458 .enGlobalAlpha = alpha.enGlobalAlpha,
459 .enPixelAlpha = alpha.enPixelAlpha,
460 .alpha0 = alpha.alpha0,
461 .alpha1 = alpha.alpha1,
462 .gAlpha = alpha.gAlpha,
463 };
464 return g_composer->SetLayerAlpha(screenId, layerId, hdiLayerAlpha);
465 }
466
SetLayerSize(uint32_t screenId,uint32_t layerId,const GraphicIRect & layerRect)467 int32_t HdiDeviceImpl::SetLayerSize(uint32_t screenId, uint32_t layerId, const GraphicIRect &layerRect)
468 {
469 CHECK_FUNC(g_composer);
470 IRect hdiLayerRect = {
471 .x = layerRect.x,
472 .y = layerRect.y,
473 .w = layerRect.w,
474 .h = layerRect.h,
475 };
476 return g_composer->SetLayerRegion(screenId, layerId, hdiLayerRect);
477 }
478
SetTransformMode(uint32_t screenId,uint32_t layerId,GraphicTransformType type)479 int32_t HdiDeviceImpl::SetTransformMode(uint32_t screenId, uint32_t layerId, GraphicTransformType type)
480 {
481 CHECK_FUNC(g_composer);
482 TransformType hdiType = static_cast<TransformType>(type);
483 return g_composer->SetLayerTransformMode(screenId, layerId, hdiType);
484 }
485
SetLayerVisibleRegion(uint32_t screenId,uint32_t layerId,const std::vector<GraphicIRect> & visible)486 int32_t HdiDeviceImpl::SetLayerVisibleRegion(uint32_t screenId, uint32_t layerId,
487 const std::vector<GraphicIRect> &visible)
488 {
489 CHECK_FUNC(g_composer);
490 std::vector<IRect> hdiVisibleRects;
491 for (auto iter = visible.begin(); iter != visible.end(); iter++) {
492 IRect tempVisibleRect = {
493 .x = iter->x,
494 .y = iter->y,
495 .w = iter->w,
496 .h = iter->h,
497 };
498 hdiVisibleRects.emplace_back(tempVisibleRect);
499 }
500 return g_composer->SetLayerVisibleRegion(screenId, layerId, hdiVisibleRects);
501 }
502
SetLayerDirtyRegion(uint32_t screenId,uint32_t layerId,const std::vector<GraphicIRect> & dirtyRegions)503 int32_t HdiDeviceImpl::SetLayerDirtyRegion(uint32_t screenId, uint32_t layerId,
504 const std::vector<GraphicIRect> &dirtyRegions)
505 {
506 CHECK_FUNC(g_composer);
507 std::vector<IRect> hdiDirtyRegions;
508 for (auto iter = dirtyRegions.begin(); iter != dirtyRegions.end(); iter++) {
509 IRect hdiDirtyRect = {
510 .x = iter->x,
511 .y = iter->y,
512 .w = iter->w,
513 .h = iter->h,
514 };
515 hdiDirtyRegions.emplace_back(hdiDirtyRect);
516 }
517 return g_composer->SetLayerDirtyRegion(screenId, layerId, hdiDirtyRegions);
518 }
519
SetLayerBuffer(uint32_t screenId,uint32_t layerId,const GraphicLayerBuffer & layerBuffer)520 int32_t HdiDeviceImpl::SetLayerBuffer(uint32_t screenId, uint32_t layerId, const GraphicLayerBuffer &layerBuffer)
521 {
522 CHECK_FUNC(g_composer);
523 if ((layerBuffer.handle == nullptr && layerBuffer.cacheIndex == INVALID_BUFFER_CACHE_INDEX) ||
524 layerBuffer.acquireFence == nullptr) {
525 return GRAPHIC_DISPLAY_PARAM_ERR;
526 }
527 int32_t fenceFd = (layerBuffer.acquireFence)->Get();
528 return g_composer->SetLayerBuffer(screenId, layerId, layerBuffer.handle, layerBuffer.cacheIndex,
529 fenceFd, layerBuffer.deletingList);
530 }
531
SetLayerCompositionType(uint32_t screenId,uint32_t layerId,GraphicCompositionType type)532 int32_t HdiDeviceImpl::SetLayerCompositionType(uint32_t screenId, uint32_t layerId, GraphicCompositionType type)
533 {
534 CHECK_FUNC(g_composer);
535 HDI::Display::Composer::V1_0::CompositionType hdiType
536 = static_cast<HDI::Display::Composer::V1_0::CompositionType>(type);
537 return g_composer->SetLayerCompositionType(screenId, layerId, hdiType);
538 }
539
SetLayerBlendType(uint32_t screenId,uint32_t layerId,GraphicBlendType type)540 int32_t HdiDeviceImpl::SetLayerBlendType(uint32_t screenId, uint32_t layerId, GraphicBlendType type)
541 {
542 CHECK_FUNC(g_composer);
543 BlendType hdiBlendType = static_cast<BlendType>(type);
544 return g_composer->SetLayerBlendType(screenId, layerId, hdiBlendType);
545 }
546
SetLayerCrop(uint32_t screenId,uint32_t layerId,const GraphicIRect & crop)547 int32_t HdiDeviceImpl::SetLayerCrop(uint32_t screenId, uint32_t layerId, const GraphicIRect &crop)
548 {
549 CHECK_FUNC(g_composer);
550 IRect hdiCropRect = {
551 .x = crop.x,
552 .y = crop.y,
553 .w = crop.w,
554 .h = crop.h,
555 };
556 return g_composer->SetLayerCrop(screenId, layerId, hdiCropRect);
557 }
558
SetLayerZorder(uint32_t screenId,uint32_t layerId,uint32_t zorder)559 int32_t HdiDeviceImpl::SetLayerZorder(uint32_t screenId, uint32_t layerId, uint32_t zorder)
560 {
561 CHECK_FUNC(g_composer);
562 return g_composer->SetLayerZorder(screenId, layerId, zorder);
563 }
564
SetLayerPreMulti(uint32_t screenId,uint32_t layerId,bool isPreMulti)565 int32_t HdiDeviceImpl::SetLayerPreMulti(uint32_t screenId, uint32_t layerId, bool isPreMulti)
566 {
567 CHECK_FUNC(g_composer);
568 return g_composer->SetLayerPreMulti(screenId, layerId, isPreMulti);
569 }
570
SetLayerColor(uint32_t screenId,uint32_t layerId,GraphicLayerColor layerColor)571 int32_t HdiDeviceImpl::SetLayerColor(uint32_t screenId, uint32_t layerId, GraphicLayerColor layerColor)
572 {
573 CHECK_FUNC(g_composer);
574 LayerColor color = {
575 .r = layerColor.r,
576 .g = layerColor.g,
577 .b = layerColor.b,
578 .a = layerColor.a
579 };
580
581 HLOGD("SetLayerColor screenId:%{public}u, layerId:%{public}u", screenId, layerId);
582
583 return g_composer->SetLayerColor(screenId, layerId, color);
584 }
585
SetLayerColorTransform(uint32_t screenId,uint32_t layerId,const std::vector<float> & matrix)586 int32_t HdiDeviceImpl::SetLayerColorTransform(uint32_t screenId, uint32_t layerId, const std::vector<float> &matrix)
587 {
588 CHECK_FUNC(g_composer);
589 return g_composer->SetLayerColorTransform(screenId, layerId, matrix);
590 }
591
SetLayerColorDataSpace(uint32_t screenId,uint32_t layerId,GraphicColorDataSpace colorSpace)592 int32_t HdiDeviceImpl::SetLayerColorDataSpace(uint32_t screenId, uint32_t layerId, GraphicColorDataSpace colorSpace)
593 {
594 CHECK_FUNC(g_composer);
595 ColorDataSpace hdiColorDataSpace = static_cast<ColorDataSpace>(colorSpace);
596 return g_composer->SetLayerColorDataSpace(screenId, layerId, hdiColorDataSpace);
597 }
598
GetLayerColorDataSpace(uint32_t screenId,uint32_t layerId,GraphicColorDataSpace & colorSpace)599 int32_t HdiDeviceImpl::GetLayerColorDataSpace(uint32_t screenId, uint32_t layerId, GraphicColorDataSpace &colorSpace)
600 {
601 CHECK_FUNC(g_composer);
602 ColorDataSpace hdiColorDataSpace = COLOR_DATA_SPACE_UNKNOWN;
603 int32_t ret = g_composer->GetLayerColorDataSpace(screenId, layerId, hdiColorDataSpace);
604 if (ret == GRAPHIC_DISPLAY_SUCCESS) {
605 colorSpace = static_cast<GraphicColorDataSpace>(hdiColorDataSpace);
606 }
607 return ret;
608 }
609
SetLayerMetaData(uint32_t screenId,uint32_t layerId,const std::vector<GraphicHDRMetaData> & metaData)610 int32_t HdiDeviceImpl::SetLayerMetaData(uint32_t screenId, uint32_t layerId,
611 const std::vector<GraphicHDRMetaData> &metaData)
612 {
613 CHECK_FUNC(g_composer);
614 std::vector<HDRMetaData> hdiMetaDatas;
615 std::size_t metaDataSize = metaData.size();
616 for (std::size_t i = 0; i < metaDataSize; i++) {
617 HDRMetaData hdiMetaData = {
618 .key = static_cast<HDRMetadataKey>(metaData[i].key),
619 .value = metaData[i].value,
620 };
621 hdiMetaDatas.emplace_back(hdiMetaData);
622 }
623 return g_composer->SetLayerMetaData(screenId, layerId, hdiMetaDatas);
624 }
625
SetLayerMetaDataSet(uint32_t screenId,uint32_t layerId,GraphicHDRMetadataKey key,const std::vector<uint8_t> & metaData)626 int32_t HdiDeviceImpl::SetLayerMetaDataSet(uint32_t screenId, uint32_t layerId, GraphicHDRMetadataKey key,
627 const std::vector<uint8_t> &metaData)
628 {
629 CHECK_FUNC(g_composer);
630 HDRMetadataKey hdiKey = static_cast<HDRMetadataKey>(key);
631 return g_composer->SetLayerMetaDataSet(screenId, layerId, hdiKey, metaData);
632 }
633
GetSupportedLayerPerFrameParameterKey()634 std::vector<std::string>& HdiDeviceImpl::GetSupportedLayerPerFrameParameterKey()
635 {
636 std::call_once(layerPerFrameParameterKeyCreateFlag_, [this]() {
637 CHECK_FUNC(g_composer);
638 if (g_composer->GetSupportedLayerPerFrameParameterKey(layerPerFrameParameterKeys_) != 0) {
639 HLOGW("get supported layer perframe parameter key failed!");
640 }
641
642 return GRAPHIC_DISPLAY_SUCCESS;
643 });
644
645 return layerPerFrameParameterKeys_;
646 }
647
SetLayerPerFrameParameter(uint32_t devId,uint32_t layerId,const std::string & key,const std::vector<int8_t> & value)648 int32_t HdiDeviceImpl::SetLayerPerFrameParameter(uint32_t devId, uint32_t layerId, const std::string& key,
649 const std::vector<int8_t>& value)
650 {
651 CHECK_FUNC(g_composer);
652 return g_composer->SetLayerPerFrameParameter(devId, layerId, key, value);
653 }
654
SetLayerPerFrameParameterSmq(uint32_t devId,uint32_t layerId,const std::string & key,const std::vector<int8_t> & value)655 int32_t HdiDeviceImpl::SetLayerPerFrameParameterSmq(uint32_t devId, uint32_t layerId, const std::string& key,
656 const std::vector<int8_t>& value)
657 {
658 CHECK_FUNC(g_composer);
659 return g_composer->SetLayerPerFrameParameter(devId, layerId, key, value);
660 }
661
SetDisplayPerFrameParameterSmq(uint32_t devId,const std::string & key,const std::vector<int8_t> & value)662 int32_t HdiDeviceImpl::SetDisplayPerFrameParameterSmq(uint32_t devId, const std::string& key,
663 const std::vector<int8_t>& value)
664 {
665 CHECK_FUNC(g_composer);
666 return g_composer->SetDisplayPerFrameParameterSmq(devId, key, value);
667 }
668
SetLayerTunnelHandle(uint32_t screenId,uint32_t layerId,GraphicExtDataHandle * handle)669 int32_t HdiDeviceImpl::SetLayerTunnelHandle(uint32_t screenId, uint32_t layerId, GraphicExtDataHandle *handle)
670 {
671 CHECK_FUNC(g_composer);
672 return g_composer->SetLayerTunnelHandle(screenId, layerId, (*(reinterpret_cast<ExtDataHandle *>(handle))));
673 }
674
SetTunnelLayerId(uint32_t devId,uint32_t layerId,uint64_t tunnelId)675 int32_t HdiDeviceImpl::SetTunnelLayerId(uint32_t devId, uint32_t layerId, uint64_t tunnelId)
676 {
677 CHECK_FUNC(g_composer);
678 return GRAPHIC_DISPLAY_SUCCESS;
679 }
680
SetTunnelLayerProperty(uint32_t devId,uint32_t layerId,uint32_t property)681 int32_t HdiDeviceImpl::SetTunnelLayerProperty(uint32_t devId, uint32_t layerId, uint32_t property)
682 {
683 CHECK_FUNC(g_composer);
684 return GRAPHIC_DISPLAY_SUCCESS;
685 }
686
GetSupportedPresentTimestampType(uint32_t screenId,uint32_t layerId,GraphicPresentTimestampType & type)687 int32_t HdiDeviceImpl::GetSupportedPresentTimestampType(uint32_t screenId, uint32_t layerId,
688 GraphicPresentTimestampType &type)
689 {
690 CHECK_FUNC(g_composer);
691 PresentTimestampType hdiType = PresentTimestampType::HARDWARE_DISPLAY_PTS_UNSUPPORTED;
692 int32_t ret = g_composer->GetSupportedPresentTimestamp(screenId, layerId, hdiType);
693 if (ret == GRAPHIC_DISPLAY_SUCCESS) {
694 type = static_cast<GraphicPresentTimestampType>(hdiType);
695 }
696 return ret;
697 }
698
GetPresentTimestamp(uint32_t screenId,uint32_t layerId,GraphicPresentTimestamp & timestamp)699 int32_t HdiDeviceImpl::GetPresentTimestamp(uint32_t screenId, uint32_t layerId, GraphicPresentTimestamp ×tamp)
700 {
701 CHECK_FUNC(g_composer);
702 PresentTimestamp hdiTimestamp = {HARDWARE_DISPLAY_PTS_UNSUPPORTED, 0};
703 int32_t ret = g_composer->GetHwPresentTimestamp(screenId, layerId, hdiTimestamp);
704 if (ret == GRAPHIC_DISPLAY_SUCCESS) {
705 timestamp.time = hdiTimestamp.time;
706 timestamp.type = static_cast<GraphicPresentTimestampType>(hdiTimestamp.type);
707 }
708 return ret;
709 }
710
SetLayerMaskInfo(uint32_t screenId,uint32_t layerId,uint32_t maskInfo)711 int32_t HdiDeviceImpl::SetLayerMaskInfo(uint32_t screenId, uint32_t layerId, uint32_t maskInfo)
712 {
713 CHECK_FUNC(g_composer);
714 MaskInfo info = static_cast<MaskInfo>(maskInfo);
715 return g_composer->SetLayerMaskInfo(screenId, layerId, info);
716 }
717
718 /* set & get device layer info end */
CreateLayer(uint32_t screenId,const GraphicLayerInfo & layerInfo,uint32_t cacheCount,uint32_t & layerId)719 int32_t HdiDeviceImpl::CreateLayer(uint32_t screenId, const GraphicLayerInfo &layerInfo, uint32_t cacheCount,
720 uint32_t &layerId)
721 {
722 CHECK_FUNC(g_composer);
723 LayerInfo hdiLayerInfo = {
724 .width = layerInfo.width,
725 .height = layerInfo.height,
726 .type = static_cast<Composer::V1_0::LayerType>(layerInfo.type),
727 .pixFormat = static_cast<HDI::Display::Composer::V1_0::PixelFormat>(layerInfo.pixFormat),
728 };
729 return g_composer->CreateLayer(screenId, hdiLayerInfo, cacheCount, layerId);
730 }
731
CloseLayer(uint32_t screenId,uint32_t layerId)732 int32_t HdiDeviceImpl::CloseLayer(uint32_t screenId, uint32_t layerId)
733 {
734 CHECK_FUNC(g_composer);
735 return g_composer->DestroyLayer(screenId, layerId);
736 }
737
ClearLayerBuffer(uint32_t screenId,uint32_t layerId)738 int32_t HdiDeviceImpl::ClearLayerBuffer(uint32_t screenId, uint32_t layerId)
739 {
740 CHECK_FUNC(g_composer);
741 return g_composer->ClearLayerBuffer(screenId, layerId);
742 }
743
ClearClientBuffer(uint32_t screenId)744 int32_t HdiDeviceImpl::ClearClientBuffer(uint32_t screenId)
745 {
746 CHECK_FUNC(g_composer);
747 return g_composer->ClearClientBuffer(screenId);
748 }
749
RegHwcEventCallback(const RSHwcEventCallback & callback,void * data)750 int32_t HdiDeviceImpl::RegHwcEventCallback(const RSHwcEventCallback& callback, void* data)
751 {
752 CHECK_FUNC(g_composer);
753 return g_composer->RegHwcEventCallback(callback, data);
754 }
755
756 } // namespace Rosen
757 } // namespace OHOS
758