1 /*
2  * Copyright 2015 The Android Open Source Project
3  *
4  * Licensed under the Apache License, Version 2.0 (the "License");
5  * you may not use this file except in compliance with the License.
6  * You may obtain a copy of the License at
7  *
8  *      http://www.apache.org/licenses/LICENSE-2.0
9  *
10  * Unless required by applicable law or agreed to in writing, software
11  * distributed under the License is distributed on an "AS IS" BASIS,
12  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13  * See the License for the specific language governing permissions and
14  * limitations under the License.
15  */
16 
17 #ifndef ANDROID_HARDWARE_HWCOMPOSER2_H
18 #define ANDROID_HARDWARE_HWCOMPOSER2_H
19 
20 #include <sys/cdefs.h>
21 
22 #include <hardware/hardware.h>
23 
24 #include "hwcomposer_defs.h"
25 
26 __BEGIN_DECLS
27 
28 /*
29  * Enums
30  *
31  * For most of these enums, there is an invalid value defined to be 0. This is
32  * an attempt to catch uninitialized fields, and these values should not be
33  * used.
34  */
35 
36 /* Display attributes queryable through getDisplayAttribute */
37 typedef enum {
38     HWC2_ATTRIBUTE_INVALID = 0,
39 
40     /* Dimensions in pixels */
41     HWC2_ATTRIBUTE_WIDTH = 1,
42     HWC2_ATTRIBUTE_HEIGHT = 2,
43 
44     /* Vsync period in nanoseconds */
45     HWC2_ATTRIBUTE_VSYNC_PERIOD = 3,
46 
47     /* Dots per thousand inches (DPI * 1000). Scaling by 1000 allows these
48      * numbers to be stored in an int32_t without losing too much precision. If
49      * the DPI for a configuration is unavailable or is considered unreliable,
50      * the device may return -1 instead */
51     HWC2_ATTRIBUTE_DPI_X = 4,
52     HWC2_ATTRIBUTE_DPI_Y = 5,
53 } hwc2_attribute_t;
54 
55 /* Blend modes, settable per layer */
56 typedef enum {
57     HWC2_BLEND_MODE_INVALID = 0,
58 
59     /* colorOut = colorSrc */
60     HWC2_BLEND_MODE_NONE = 1,
61 
62     /* colorOut = colorSrc + colorDst * (1 - alphaSrc) */
63     HWC2_BLEND_MODE_PREMULTIPLIED = 2,
64 
65     /* colorOut = colorSrc * alphaSrc + colorDst * (1 - alphaSrc) */
66     HWC2_BLEND_MODE_COVERAGE = 3,
67 } hwc2_blend_mode_t;
68 
69 /* See the 'Callbacks' section for more detailed descriptions of what these
70  * functions do */
71 typedef enum {
72     HWC2_CALLBACK_INVALID = 0,
73     HWC2_CALLBACK_HOTPLUG = 1,
74     HWC2_CALLBACK_REFRESH = 2,
75     HWC2_CALLBACK_VSYNC = 3,
76 } hwc2_callback_descriptor_t;
77 
78 /* Optional capabilities which may be supported by some devices. The particular
79  * set of supported capabilities for a given device may be retrieved using
80  * getCapabilities. */
81 typedef enum {
82     HWC2_CAPABILITY_INVALID = 0,
83 
84     /* Specifies that the device supports sideband stream layers, for which
85      * buffer content updates and other synchronization will not be provided
86      * through the usual validate/present cycle and must be handled by an
87      * external implementation-defined mechanism. Only changes to layer state
88      * (such as position, size, etc.) need to be performed through the
89      * validate/present cycle. */
90     HWC2_CAPABILITY_SIDEBAND_STREAM = 1,
91 
92     /* Specifies that the device will apply a color transform even when either
93      * the client or the device has chosen that all layers should be composed by
94      * the client. This will prevent the client from applying the color
95      * transform during its composition step. */
96     HWC2_CAPABILITY_SKIP_CLIENT_COLOR_TRANSFORM = 2,
97 
98     /* Specifies that the present fence must not be used as an accurate
99      * representation of the actual present time of a frame.
100      * This capability must never be set by HWC2 devices.
101      * This capability may be set for HWC1 devices that use the
102      * HWC2On1Adapter where emulation of the present fence using the retire
103      * fence is not feasible.
104      * In the future, CTS tests will require present time to be reliable.
105      */
106     HWC2_CAPABILITY_PRESENT_FENCE_IS_NOT_RELIABLE = 3,
107 
108     /* Specifies that a device is able to skip the validateDisplay call before
109      * receiving a call to presentDisplay. The client will always skip
110      * validateDisplay and try to call presentDisplay regardless of the changes
111      * in the properties of the layers. If the device returns anything else than
112      * HWC2_ERROR_NONE, it will call validateDisplay then presentDisplay again.
113      * For this capability to be worthwhile the device implementation of
114      * presentDisplay should fail as fast as possible in the case a
115      * validateDisplay step is needed.
116      */
117     HWC2_CAPABILITY_SKIP_VALIDATE= 4,
118 } hwc2_capability_t;
119 
120 /* Possible composition types for a given layer */
121 typedef enum {
122     HWC2_COMPOSITION_INVALID = 0,
123 
124     /* The client will composite this layer into the client target buffer
125      * (provided to the device through setClientTarget).
126      *
127      * The device must not request any composition type changes for layers of
128      * this type. */
129     HWC2_COMPOSITION_CLIENT = 1,
130 
131     /* The device will handle the composition of this layer through a hardware
132      * overlay or other similar means.
133      *
134      * Upon validateDisplay, the device may request a change from this type to
135      * HWC2_COMPOSITION_CLIENT. */
136     HWC2_COMPOSITION_DEVICE = 2,
137 
138     /* The device will render this layer using the color set through
139      * setLayerColor. If this functionality is not supported on a layer that the
140      * client sets to HWC2_COMPOSITION_SOLID_COLOR, the device must request that
141      * the composition type of that layer is changed to HWC2_COMPOSITION_CLIENT
142      * upon the next call to validateDisplay.
143      *
144      * Upon validateDisplay, the device may request a change from this type to
145      * HWC2_COMPOSITION_CLIENT. */
146     HWC2_COMPOSITION_SOLID_COLOR = 3,
147 
148     /* Similar to DEVICE, but the position of this layer may also be set
149      * asynchronously through setCursorPosition. If this functionality is not
150      * supported on a layer that the client sets to HWC2_COMPOSITION_CURSOR, the
151      * device must request that the composition type of that layer is changed to
152      * HWC2_COMPOSITION_CLIENT upon the next call to validateDisplay.
153      *
154      * Upon validateDisplay, the device may request a change from this type to
155      * either HWC2_COMPOSITION_DEVICE or HWC2_COMPOSITION_CLIENT. Changing to
156      * HWC2_COMPOSITION_DEVICE will prevent the use of setCursorPosition but
157      * still permit the device to composite the layer. */
158     HWC2_COMPOSITION_CURSOR = 4,
159 
160     /* The device will handle the composition of this layer, as well as its
161      * buffer updates and content synchronization. Only supported on devices
162      * which provide HWC2_CAPABILITY_SIDEBAND_STREAM.
163      *
164      * Upon validateDisplay, the device may request a change from this type to
165      * either HWC2_COMPOSITION_DEVICE or HWC2_COMPOSITION_CLIENT, but it is
166      * unlikely that content will display correctly in these cases. */
167     HWC2_COMPOSITION_SIDEBAND = 5,
168 } hwc2_composition_t;
169 
170 /* Possible connection options from the hotplug callback */
171 typedef enum {
172     HWC2_CONNECTION_INVALID = 0,
173 
174     /* The display has been connected */
175     HWC2_CONNECTION_CONNECTED = 1,
176 
177     /* The display has been disconnected */
178     HWC2_CONNECTION_DISCONNECTED = 2,
179 } hwc2_connection_t;
180 
181 /* Display requests returned by getDisplayRequests */
182 typedef enum {
183     /* Instructs the client to provide a new client target buffer, even if no
184      * layers are marked for client composition. */
185     HWC2_DISPLAY_REQUEST_FLIP_CLIENT_TARGET = 1 << 0,
186 
187     /* Instructs the client to write the result of client composition directly
188      * into the virtual display output buffer. If any of the layers are not
189      * marked as HWC2_COMPOSITION_CLIENT or the given display is not a virtual
190      * display, this request has no effect. */
191     HWC2_DISPLAY_REQUEST_WRITE_CLIENT_TARGET_TO_OUTPUT = 1 << 1,
192 } hwc2_display_request_t;
193 
194 /* Display types returned by getDisplayType */
195 typedef enum {
196     HWC2_DISPLAY_TYPE_INVALID = 0,
197 
198     /* All physical displays, including both internal displays and hotpluggable
199      * external displays */
200     HWC2_DISPLAY_TYPE_PHYSICAL = 1,
201 
202     /* Virtual displays created by createVirtualDisplay */
203     HWC2_DISPLAY_TYPE_VIRTUAL = 2,
204 } hwc2_display_type_t;
205 
206 /* Return codes from all functions */
207 typedef enum {
208     HWC2_ERROR_NONE = 0,
209     HWC2_ERROR_BAD_CONFIG,
210     HWC2_ERROR_BAD_DISPLAY,
211     HWC2_ERROR_BAD_LAYER,
212     HWC2_ERROR_BAD_PARAMETER,
213     HWC2_ERROR_HAS_CHANGES,
214     HWC2_ERROR_NO_RESOURCES,
215     HWC2_ERROR_NOT_VALIDATED,
216     HWC2_ERROR_UNSUPPORTED,
217 } hwc2_error_t;
218 
219 /* Function descriptors for use with getFunction */
220 typedef enum {
221     HWC2_FUNCTION_INVALID = 0,
222     HWC2_FUNCTION_ACCEPT_DISPLAY_CHANGES,
223     HWC2_FUNCTION_CREATE_LAYER,
224     HWC2_FUNCTION_CREATE_VIRTUAL_DISPLAY,
225     HWC2_FUNCTION_DESTROY_LAYER,
226     HWC2_FUNCTION_DESTROY_VIRTUAL_DISPLAY,
227     HWC2_FUNCTION_DUMP,
228     HWC2_FUNCTION_GET_ACTIVE_CONFIG,
229     HWC2_FUNCTION_GET_CHANGED_COMPOSITION_TYPES,
230     HWC2_FUNCTION_GET_CLIENT_TARGET_SUPPORT,
231     HWC2_FUNCTION_GET_COLOR_MODES,
232     HWC2_FUNCTION_GET_DISPLAY_ATTRIBUTE,
233     HWC2_FUNCTION_GET_DISPLAY_CONFIGS,
234     HWC2_FUNCTION_GET_DISPLAY_NAME,
235     HWC2_FUNCTION_GET_DISPLAY_REQUESTS,
236     HWC2_FUNCTION_GET_DISPLAY_TYPE,
237     HWC2_FUNCTION_GET_DOZE_SUPPORT,
238     HWC2_FUNCTION_GET_HDR_CAPABILITIES,
239     HWC2_FUNCTION_GET_MAX_VIRTUAL_DISPLAY_COUNT,
240     HWC2_FUNCTION_GET_RELEASE_FENCES,
241     HWC2_FUNCTION_PRESENT_DISPLAY,
242     HWC2_FUNCTION_REGISTER_CALLBACK,
243     HWC2_FUNCTION_SET_ACTIVE_CONFIG,
244     HWC2_FUNCTION_SET_CLIENT_TARGET,
245     HWC2_FUNCTION_SET_COLOR_MODE,
246     HWC2_FUNCTION_SET_COLOR_TRANSFORM,
247     HWC2_FUNCTION_SET_CURSOR_POSITION,
248     HWC2_FUNCTION_SET_LAYER_BLEND_MODE,
249     HWC2_FUNCTION_SET_LAYER_BUFFER,
250     HWC2_FUNCTION_SET_LAYER_COLOR,
251     HWC2_FUNCTION_SET_LAYER_COMPOSITION_TYPE,
252     HWC2_FUNCTION_SET_LAYER_DATASPACE,
253     HWC2_FUNCTION_SET_LAYER_DISPLAY_FRAME,
254     HWC2_FUNCTION_SET_LAYER_PLANE_ALPHA,
255     HWC2_FUNCTION_SET_LAYER_SIDEBAND_STREAM,
256     HWC2_FUNCTION_SET_LAYER_SOURCE_CROP,
257     HWC2_FUNCTION_SET_LAYER_SURFACE_DAMAGE,
258     HWC2_FUNCTION_SET_LAYER_TRANSFORM,
259     HWC2_FUNCTION_SET_LAYER_VISIBLE_REGION,
260     HWC2_FUNCTION_SET_LAYER_Z_ORDER,
261     HWC2_FUNCTION_SET_OUTPUT_BUFFER,
262     HWC2_FUNCTION_SET_POWER_MODE,
263     HWC2_FUNCTION_SET_VSYNC_ENABLED,
264     HWC2_FUNCTION_VALIDATE_DISPLAY,
265 } hwc2_function_descriptor_t;
266 
267 /* Layer requests returned from getDisplayRequests */
268 typedef enum {
269     /* The client should clear its target with transparent pixels where this
270      * layer would be. The client may ignore this request if the layer must be
271      * blended. */
272     HWC2_LAYER_REQUEST_CLEAR_CLIENT_TARGET = 1 << 0,
273 } hwc2_layer_request_t;
274 
275 /* Power modes for use with setPowerMode */
276 typedef enum {
277     /* The display is fully off (blanked) */
278     HWC2_POWER_MODE_OFF = 0,
279 
280     /* These are optional low power modes. getDozeSupport may be called to
281      * determine whether a given display supports these modes. */
282 
283     /* The display is turned on and configured in a low power state that is
284      * suitable for presenting ambient information to the user, possibly with
285      * lower fidelity than HWC2_POWER_MODE_ON, but with greater efficiency. */
286     HWC2_POWER_MODE_DOZE = 1,
287 
288     /* The display is configured as in HWC2_POWER_MODE_DOZE but may stop
289      * applying display updates from the client. This is effectively a hint to
290      * the device that drawing to the display has been suspended and that the
291      * the device should remain on in a low power state and continue displaying
292      * its current contents indefinitely until the power mode changes.
293      *
294      * This mode may also be used as a signal to enable hardware-based doze
295      * functionality. In this case, the device is free to take over the display
296      * and manage it autonomously to implement a low power always-on display. */
297     HWC2_POWER_MODE_DOZE_SUSPEND = 3,
298 
299     /* The display is fully on */
300     HWC2_POWER_MODE_ON = 2,
301 } hwc2_power_mode_t;
302 
303 /* Vsync values passed to setVsyncEnabled */
304 typedef enum {
305     HWC2_VSYNC_INVALID = 0,
306 
307     /* Enable vsync */
308     HWC2_VSYNC_ENABLE = 1,
309 
310     /* Disable vsync */
311     HWC2_VSYNC_DISABLE = 2,
312 } hwc2_vsync_t;
313 
314 /*
315  * Stringification Functions
316  */
317 
318 #ifdef HWC2_INCLUDE_STRINGIFICATION
319 
getAttributeName(hwc2_attribute_t attribute)320 static inline const char* getAttributeName(hwc2_attribute_t attribute) {
321     switch (attribute) {
322         case HWC2_ATTRIBUTE_INVALID: return "Invalid";
323         case HWC2_ATTRIBUTE_WIDTH: return "Width";
324         case HWC2_ATTRIBUTE_HEIGHT: return "Height";
325         case HWC2_ATTRIBUTE_VSYNC_PERIOD: return "VsyncPeriod";
326         case HWC2_ATTRIBUTE_DPI_X: return "DpiX";
327         case HWC2_ATTRIBUTE_DPI_Y: return "DpiY";
328         default: return "Unknown";
329     }
330 }
331 
getBlendModeName(hwc2_blend_mode_t mode)332 static inline const char* getBlendModeName(hwc2_blend_mode_t mode) {
333     switch (mode) {
334         case HWC2_BLEND_MODE_INVALID: return "Invalid";
335         case HWC2_BLEND_MODE_NONE: return "None";
336         case HWC2_BLEND_MODE_PREMULTIPLIED: return "Premultiplied";
337         case HWC2_BLEND_MODE_COVERAGE: return "Coverage";
338         default: return "Unknown";
339     }
340 }
341 
getCallbackDescriptorName(hwc2_callback_descriptor_t desc)342 static inline const char* getCallbackDescriptorName(
343         hwc2_callback_descriptor_t desc) {
344     switch (desc) {
345         case HWC2_CALLBACK_INVALID: return "Invalid";
346         case HWC2_CALLBACK_HOTPLUG: return "Hotplug";
347         case HWC2_CALLBACK_REFRESH: return "Refresh";
348         case HWC2_CALLBACK_VSYNC: return "Vsync";
349         default: return "Unknown";
350     }
351 }
352 
getCapabilityName(hwc2_capability_t capability)353 static inline const char* getCapabilityName(hwc2_capability_t capability) {
354     switch (capability) {
355         case HWC2_CAPABILITY_INVALID: return "Invalid";
356         case HWC2_CAPABILITY_SIDEBAND_STREAM: return "SidebandStream";
357         case HWC2_CAPABILITY_SKIP_CLIENT_COLOR_TRANSFORM:
358                 return "SkipClientColorTransform";
359         case HWC2_CAPABILITY_PRESENT_FENCE_IS_NOT_RELIABLE:
360                 return "PresentFenceIsNotReliable";
361         default: return "Unknown";
362     }
363 }
364 
getCompositionName(hwc2_composition_t composition)365 static inline const char* getCompositionName(hwc2_composition_t composition) {
366     switch (composition) {
367         case HWC2_COMPOSITION_INVALID: return "Invalid";
368         case HWC2_COMPOSITION_CLIENT: return "Client";
369         case HWC2_COMPOSITION_DEVICE: return "Device";
370         case HWC2_COMPOSITION_SOLID_COLOR: return "SolidColor";
371         case HWC2_COMPOSITION_CURSOR: return "Cursor";
372         case HWC2_COMPOSITION_SIDEBAND: return "Sideband";
373         default: return "Unknown";
374     }
375 }
376 
getConnectionName(hwc2_connection_t connection)377 static inline const char* getConnectionName(hwc2_connection_t connection) {
378     switch (connection) {
379         case HWC2_CONNECTION_INVALID: return "Invalid";
380         case HWC2_CONNECTION_CONNECTED: return "Connected";
381         case HWC2_CONNECTION_DISCONNECTED: return "Disconnected";
382         default: return "Unknown";
383     }
384 }
385 
getDisplayRequestName(hwc2_display_request_t request)386 static inline const char* getDisplayRequestName(
387         hwc2_display_request_t request) {
388     switch (__BIONIC_CAST(static_cast, int, request)) {
389         case 0: return "None";
390         case HWC2_DISPLAY_REQUEST_FLIP_CLIENT_TARGET: return "FlipClientTarget";
391         case HWC2_DISPLAY_REQUEST_WRITE_CLIENT_TARGET_TO_OUTPUT:
392             return "WriteClientTargetToOutput";
393         case HWC2_DISPLAY_REQUEST_FLIP_CLIENT_TARGET |
394                 HWC2_DISPLAY_REQUEST_WRITE_CLIENT_TARGET_TO_OUTPUT:
395             return "FlipClientTarget|WriteClientTargetToOutput";
396         default: return "Unknown";
397     }
398 }
399 
getDisplayTypeName(hwc2_display_type_t type)400 static inline const char* getDisplayTypeName(hwc2_display_type_t type) {
401     switch (type) {
402         case HWC2_DISPLAY_TYPE_INVALID: return "Invalid";
403         case HWC2_DISPLAY_TYPE_PHYSICAL: return "Physical";
404         case HWC2_DISPLAY_TYPE_VIRTUAL: return "Virtual";
405         default: return "Unknown";
406     }
407 }
408 
getErrorName(hwc2_error_t error)409 static inline const char* getErrorName(hwc2_error_t error) {
410     switch (error) {
411         case HWC2_ERROR_NONE: return "None";
412         case HWC2_ERROR_BAD_CONFIG: return "BadConfig";
413         case HWC2_ERROR_BAD_DISPLAY: return "BadDisplay";
414         case HWC2_ERROR_BAD_LAYER: return "BadLayer";
415         case HWC2_ERROR_BAD_PARAMETER: return "BadParameter";
416         case HWC2_ERROR_HAS_CHANGES: return "HasChanges";
417         case HWC2_ERROR_NO_RESOURCES: return "NoResources";
418         case HWC2_ERROR_NOT_VALIDATED: return "NotValidated";
419         case HWC2_ERROR_UNSUPPORTED: return "Unsupported";
420         default: return "Unknown";
421     }
422 }
423 
getFunctionDescriptorName(hwc2_function_descriptor_t desc)424 static inline const char* getFunctionDescriptorName(
425         hwc2_function_descriptor_t desc) {
426     switch (desc) {
427         case HWC2_FUNCTION_INVALID: return "Invalid";
428         case HWC2_FUNCTION_ACCEPT_DISPLAY_CHANGES:
429             return "AcceptDisplayChanges";
430         case HWC2_FUNCTION_CREATE_LAYER: return "CreateLayer";
431         case HWC2_FUNCTION_CREATE_VIRTUAL_DISPLAY:
432             return "CreateVirtualDisplay";
433         case HWC2_FUNCTION_DESTROY_LAYER: return "DestroyLayer";
434         case HWC2_FUNCTION_DESTROY_VIRTUAL_DISPLAY:
435             return "DestroyVirtualDisplay";
436         case HWC2_FUNCTION_DUMP: return "Dump";
437         case HWC2_FUNCTION_GET_ACTIVE_CONFIG: return "GetActiveConfig";
438         case HWC2_FUNCTION_GET_CHANGED_COMPOSITION_TYPES:
439             return "GetChangedCompositionTypes";
440         case HWC2_FUNCTION_GET_CLIENT_TARGET_SUPPORT:
441             return "GetClientTargetSupport";
442         case HWC2_FUNCTION_GET_COLOR_MODES: return "GetColorModes";
443         case HWC2_FUNCTION_GET_DISPLAY_ATTRIBUTE: return "GetDisplayAttribute";
444         case HWC2_FUNCTION_GET_DISPLAY_CONFIGS: return "GetDisplayConfigs";
445         case HWC2_FUNCTION_GET_DISPLAY_NAME: return "GetDisplayName";
446         case HWC2_FUNCTION_GET_DISPLAY_REQUESTS: return "GetDisplayRequests";
447         case HWC2_FUNCTION_GET_DISPLAY_TYPE: return "GetDisplayType";
448         case HWC2_FUNCTION_GET_DOZE_SUPPORT: return "GetDozeSupport";
449         case HWC2_FUNCTION_GET_HDR_CAPABILITIES: return "GetHdrCapabilities";
450         case HWC2_FUNCTION_GET_MAX_VIRTUAL_DISPLAY_COUNT:
451             return "GetMaxVirtualDisplayCount";
452         case HWC2_FUNCTION_GET_RELEASE_FENCES: return "GetReleaseFences";
453         case HWC2_FUNCTION_PRESENT_DISPLAY: return "PresentDisplay";
454         case HWC2_FUNCTION_REGISTER_CALLBACK: return "RegisterCallback";
455         case HWC2_FUNCTION_SET_ACTIVE_CONFIG: return "SetActiveConfig";
456         case HWC2_FUNCTION_SET_CLIENT_TARGET: return "SetClientTarget";
457         case HWC2_FUNCTION_SET_COLOR_MODE: return "SetColorMode";
458         case HWC2_FUNCTION_SET_COLOR_TRANSFORM: return "SetColorTransform";
459         case HWC2_FUNCTION_SET_CURSOR_POSITION: return "SetCursorPosition";
460         case HWC2_FUNCTION_SET_LAYER_BLEND_MODE: return "SetLayerBlendMode";
461         case HWC2_FUNCTION_SET_LAYER_BUFFER: return "SetLayerBuffer";
462         case HWC2_FUNCTION_SET_LAYER_COLOR: return "SetLayerColor";
463         case HWC2_FUNCTION_SET_LAYER_COMPOSITION_TYPE:
464             return "SetLayerCompositionType";
465         case HWC2_FUNCTION_SET_LAYER_DATASPACE: return "SetLayerDataspace";
466         case HWC2_FUNCTION_SET_LAYER_DISPLAY_FRAME:
467             return "SetLayerDisplayFrame";
468         case HWC2_FUNCTION_SET_LAYER_PLANE_ALPHA: return "SetLayerPlaneAlpha";
469         case HWC2_FUNCTION_SET_LAYER_SIDEBAND_STREAM:
470             return "SetLayerSidebandStream";
471         case HWC2_FUNCTION_SET_LAYER_SOURCE_CROP: return "SetLayerSourceCrop";
472         case HWC2_FUNCTION_SET_LAYER_SURFACE_DAMAGE:
473             return "SetLayerSurfaceDamage";
474         case HWC2_FUNCTION_SET_LAYER_TRANSFORM: return "SetLayerTransform";
475         case HWC2_FUNCTION_SET_LAYER_VISIBLE_REGION:
476             return "SetLayerVisibleRegion";
477         case HWC2_FUNCTION_SET_LAYER_Z_ORDER: return "SetLayerZOrder";
478         case HWC2_FUNCTION_SET_OUTPUT_BUFFER: return "SetOutputBuffer";
479         case HWC2_FUNCTION_SET_POWER_MODE: return "SetPowerMode";
480         case HWC2_FUNCTION_SET_VSYNC_ENABLED: return "SetVsyncEnabled";
481         case HWC2_FUNCTION_VALIDATE_DISPLAY: return "ValidateDisplay";
482         default: return "Unknown";
483     }
484 }
485 
getLayerRequestName(hwc2_layer_request_t request)486 static inline const char* getLayerRequestName(hwc2_layer_request_t request) {
487     switch (__BIONIC_CAST(static_cast, int, request)) {
488         case 0: return "None";
489         case HWC2_LAYER_REQUEST_CLEAR_CLIENT_TARGET: return "ClearClientTarget";
490         default: return "Unknown";
491     }
492 }
493 
getPowerModeName(hwc2_power_mode_t mode)494 static inline const char* getPowerModeName(hwc2_power_mode_t mode) {
495     switch (mode) {
496         case HWC2_POWER_MODE_OFF: return "Off";
497         case HWC2_POWER_MODE_DOZE_SUSPEND: return "DozeSuspend";
498         case HWC2_POWER_MODE_DOZE: return "Doze";
499         case HWC2_POWER_MODE_ON: return "On";
500         default: return "Unknown";
501     }
502 }
503 
getTransformName(hwc_transform_t transform)504 static inline const char* getTransformName(hwc_transform_t transform) {
505     switch (__BIONIC_CAST(static_cast, int, transform)) {
506         case 0: return "None";
507         case HWC_TRANSFORM_FLIP_H: return "FlipH";
508         case HWC_TRANSFORM_FLIP_V: return "FlipV";
509         case HWC_TRANSFORM_ROT_90: return "Rotate90";
510         case HWC_TRANSFORM_ROT_180: return "Rotate180";
511         case HWC_TRANSFORM_ROT_270: return "Rotate270";
512         case HWC_TRANSFORM_FLIP_H_ROT_90: return "FlipHRotate90";
513         case HWC_TRANSFORM_FLIP_V_ROT_90: return "FlipVRotate90";
514         default: return "Unknown";
515     }
516 }
517 
getVsyncName(hwc2_vsync_t vsync)518 static inline const char* getVsyncName(hwc2_vsync_t vsync) {
519     switch (vsync) {
520         case HWC2_VSYNC_INVALID: return "Invalid";
521         case HWC2_VSYNC_ENABLE: return "Enable";
522         case HWC2_VSYNC_DISABLE: return "Disable";
523         default: return "Unknown";
524     }
525 }
526 
527 #define TO_STRING(E, T, printer) \
528     inline std::string to_string(E value) { return printer(value); } \
529     inline std::string to_string(T value) { return to_string(static_cast<E>(value)); }
530 #else // !HWC2_INCLUDE_STRINGIFICATION
531 #define TO_STRING(name, printer)
532 #endif // HWC2_INCLUDE_STRINGIFICATION
533 
534 /*
535  * C++11 features
536  */
537 
538 #ifdef HWC2_USE_CPP11
539 __END_DECLS
540 
541 #ifdef HWC2_INCLUDE_STRINGIFICATION
542 #include <string>
543 #endif
544 
545 namespace HWC2 {
546 
547 enum class Attribute : int32_t {
548     Invalid = HWC2_ATTRIBUTE_INVALID,
549     Width = HWC2_ATTRIBUTE_WIDTH,
550     Height = HWC2_ATTRIBUTE_HEIGHT,
551     VsyncPeriod = HWC2_ATTRIBUTE_VSYNC_PERIOD,
552     DpiX = HWC2_ATTRIBUTE_DPI_X,
553     DpiY = HWC2_ATTRIBUTE_DPI_Y,
554 };
555 TO_STRING(hwc2_attribute_t, Attribute, getAttributeName)
556 
557 enum class BlendMode : int32_t {
558     Invalid = HWC2_BLEND_MODE_INVALID,
559     None = HWC2_BLEND_MODE_NONE,
560     Premultiplied = HWC2_BLEND_MODE_PREMULTIPLIED,
561     Coverage = HWC2_BLEND_MODE_COVERAGE,
562 };
563 TO_STRING(hwc2_blend_mode_t, BlendMode, getBlendModeName)
564 
565 enum class Callback : int32_t {
566     Invalid = HWC2_CALLBACK_INVALID,
567     Hotplug = HWC2_CALLBACK_HOTPLUG,
568     Refresh = HWC2_CALLBACK_REFRESH,
569     Vsync = HWC2_CALLBACK_VSYNC,
570 };
571 TO_STRING(hwc2_callback_descriptor_t, Callback, getCallbackDescriptorName)
572 
573 enum class Capability : int32_t {
574     Invalid = HWC2_CAPABILITY_INVALID,
575     SidebandStream = HWC2_CAPABILITY_SIDEBAND_STREAM,
576     SkipClientColorTransform = HWC2_CAPABILITY_SKIP_CLIENT_COLOR_TRANSFORM,
577     PresentFenceIsNotReliable = HWC2_CAPABILITY_PRESENT_FENCE_IS_NOT_RELIABLE,
578     SkipValidate = HWC2_CAPABILITY_SKIP_VALIDATE,
579 };
580 TO_STRING(hwc2_capability_t, Capability, getCapabilityName)
581 
582 enum class Composition : int32_t {
583     Invalid = HWC2_COMPOSITION_INVALID,
584     Client = HWC2_COMPOSITION_CLIENT,
585     Device = HWC2_COMPOSITION_DEVICE,
586     SolidColor = HWC2_COMPOSITION_SOLID_COLOR,
587     Cursor = HWC2_COMPOSITION_CURSOR,
588     Sideband = HWC2_COMPOSITION_SIDEBAND,
589 };
590 TO_STRING(hwc2_composition_t, Composition, getCompositionName)
591 
592 enum class Connection : int32_t {
593     Invalid = HWC2_CONNECTION_INVALID,
594     Connected = HWC2_CONNECTION_CONNECTED,
595     Disconnected = HWC2_CONNECTION_DISCONNECTED,
596 };
597 TO_STRING(hwc2_connection_t, Connection, getConnectionName)
598 
599 enum class DisplayRequest : int32_t {
600     FlipClientTarget = HWC2_DISPLAY_REQUEST_FLIP_CLIENT_TARGET,
601     WriteClientTargetToOutput =
602         HWC2_DISPLAY_REQUEST_WRITE_CLIENT_TARGET_TO_OUTPUT,
603 };
604 TO_STRING(hwc2_display_request_t, DisplayRequest, getDisplayRequestName)
605 
606 enum class DisplayType : int32_t {
607     Invalid = HWC2_DISPLAY_TYPE_INVALID,
608     Physical = HWC2_DISPLAY_TYPE_PHYSICAL,
609     Virtual = HWC2_DISPLAY_TYPE_VIRTUAL,
610 };
611 TO_STRING(hwc2_display_type_t, DisplayType, getDisplayTypeName)
612 
613 enum class Error : int32_t {
614     None = HWC2_ERROR_NONE,
615     BadConfig = HWC2_ERROR_BAD_CONFIG,
616     BadDisplay = HWC2_ERROR_BAD_DISPLAY,
617     BadLayer = HWC2_ERROR_BAD_LAYER,
618     BadParameter = HWC2_ERROR_BAD_PARAMETER,
619     HasChanges = HWC2_ERROR_HAS_CHANGES,
620     NoResources = HWC2_ERROR_NO_RESOURCES,
621     NotValidated = HWC2_ERROR_NOT_VALIDATED,
622     Unsupported = HWC2_ERROR_UNSUPPORTED,
623 };
624 TO_STRING(hwc2_error_t, Error, getErrorName)
625 
626 enum class FunctionDescriptor : int32_t {
627     Invalid = HWC2_FUNCTION_INVALID,
628     AcceptDisplayChanges = HWC2_FUNCTION_ACCEPT_DISPLAY_CHANGES,
629     CreateLayer = HWC2_FUNCTION_CREATE_LAYER,
630     CreateVirtualDisplay = HWC2_FUNCTION_CREATE_VIRTUAL_DISPLAY,
631     DestroyLayer = HWC2_FUNCTION_DESTROY_LAYER,
632     DestroyVirtualDisplay = HWC2_FUNCTION_DESTROY_VIRTUAL_DISPLAY,
633     Dump = HWC2_FUNCTION_DUMP,
634     GetActiveConfig = HWC2_FUNCTION_GET_ACTIVE_CONFIG,
635     GetChangedCompositionTypes = HWC2_FUNCTION_GET_CHANGED_COMPOSITION_TYPES,
636     GetClientTargetSupport = HWC2_FUNCTION_GET_CLIENT_TARGET_SUPPORT,
637     GetColorModes = HWC2_FUNCTION_GET_COLOR_MODES,
638     GetDisplayAttribute = HWC2_FUNCTION_GET_DISPLAY_ATTRIBUTE,
639     GetDisplayConfigs = HWC2_FUNCTION_GET_DISPLAY_CONFIGS,
640     GetDisplayName = HWC2_FUNCTION_GET_DISPLAY_NAME,
641     GetDisplayRequests = HWC2_FUNCTION_GET_DISPLAY_REQUESTS,
642     GetDisplayType = HWC2_FUNCTION_GET_DISPLAY_TYPE,
643     GetDozeSupport = HWC2_FUNCTION_GET_DOZE_SUPPORT,
644     GetHdrCapabilities = HWC2_FUNCTION_GET_HDR_CAPABILITIES,
645     GetMaxVirtualDisplayCount = HWC2_FUNCTION_GET_MAX_VIRTUAL_DISPLAY_COUNT,
646     GetReleaseFences = HWC2_FUNCTION_GET_RELEASE_FENCES,
647     PresentDisplay = HWC2_FUNCTION_PRESENT_DISPLAY,
648     RegisterCallback = HWC2_FUNCTION_REGISTER_CALLBACK,
649     SetActiveConfig = HWC2_FUNCTION_SET_ACTIVE_CONFIG,
650     SetClientTarget = HWC2_FUNCTION_SET_CLIENT_TARGET,
651     SetColorMode = HWC2_FUNCTION_SET_COLOR_MODE,
652     SetColorTransform = HWC2_FUNCTION_SET_COLOR_TRANSFORM,
653     SetCursorPosition = HWC2_FUNCTION_SET_CURSOR_POSITION,
654     SetLayerBlendMode = HWC2_FUNCTION_SET_LAYER_BLEND_MODE,
655     SetLayerBuffer = HWC2_FUNCTION_SET_LAYER_BUFFER,
656     SetLayerColor = HWC2_FUNCTION_SET_LAYER_COLOR,
657     SetLayerCompositionType = HWC2_FUNCTION_SET_LAYER_COMPOSITION_TYPE,
658     SetLayerDataspace = HWC2_FUNCTION_SET_LAYER_DATASPACE,
659     SetLayerDisplayFrame = HWC2_FUNCTION_SET_LAYER_DISPLAY_FRAME,
660     SetLayerPlaneAlpha = HWC2_FUNCTION_SET_LAYER_PLANE_ALPHA,
661     SetLayerSidebandStream = HWC2_FUNCTION_SET_LAYER_SIDEBAND_STREAM,
662     SetLayerSourceCrop = HWC2_FUNCTION_SET_LAYER_SOURCE_CROP,
663     SetLayerSurfaceDamage = HWC2_FUNCTION_SET_LAYER_SURFACE_DAMAGE,
664     SetLayerTransform = HWC2_FUNCTION_SET_LAYER_TRANSFORM,
665     SetLayerVisibleRegion = HWC2_FUNCTION_SET_LAYER_VISIBLE_REGION,
666     SetLayerZOrder = HWC2_FUNCTION_SET_LAYER_Z_ORDER,
667     SetOutputBuffer = HWC2_FUNCTION_SET_OUTPUT_BUFFER,
668     SetPowerMode = HWC2_FUNCTION_SET_POWER_MODE,
669     SetVsyncEnabled = HWC2_FUNCTION_SET_VSYNC_ENABLED,
670     ValidateDisplay = HWC2_FUNCTION_VALIDATE_DISPLAY,
671 };
672 TO_STRING(hwc2_function_descriptor_t, FunctionDescriptor,
673         getFunctionDescriptorName)
674 
675 enum class LayerRequest : int32_t {
676     ClearClientTarget = HWC2_LAYER_REQUEST_CLEAR_CLIENT_TARGET,
677 };
678 TO_STRING(hwc2_layer_request_t, LayerRequest, getLayerRequestName)
679 
680 enum class PowerMode : int32_t {
681     Off = HWC2_POWER_MODE_OFF,
682     DozeSuspend = HWC2_POWER_MODE_DOZE_SUSPEND,
683     Doze = HWC2_POWER_MODE_DOZE,
684     On = HWC2_POWER_MODE_ON,
685 };
686 TO_STRING(hwc2_power_mode_t, PowerMode, getPowerModeName)
687 
688 enum class Transform : int32_t {
689     None = 0,
690     FlipH = HWC_TRANSFORM_FLIP_H,
691     FlipV = HWC_TRANSFORM_FLIP_V,
692     Rotate90 = HWC_TRANSFORM_ROT_90,
693     Rotate180 = HWC_TRANSFORM_ROT_180,
694     Rotate270 = HWC_TRANSFORM_ROT_270,
695     FlipHRotate90 = HWC_TRANSFORM_FLIP_H_ROT_90,
696     FlipVRotate90 = HWC_TRANSFORM_FLIP_V_ROT_90,
697 };
698 TO_STRING(hwc_transform_t, Transform, getTransformName)
699 
700 enum class Vsync : int32_t {
701     Invalid = HWC2_VSYNC_INVALID,
702     Enable = HWC2_VSYNC_ENABLE,
703     Disable = HWC2_VSYNC_DISABLE,
704 };
705 TO_STRING(hwc2_vsync_t, Vsync, getVsyncName)
706 
707 } // namespace HWC2
708 
709 __BEGIN_DECLS
710 #endif // HWC2_USE_CPP11
711 
712 /*
713  * Typedefs
714  */
715 
716 typedef void (*hwc2_function_pointer_t)();
717 
718 typedef void* hwc2_callback_data_t;
719 typedef uint32_t hwc2_config_t;
720 typedef uint64_t hwc2_display_t;
721 typedef uint64_t hwc2_layer_t;
722 
723 /*
724  * Device Struct
725  */
726 
727 typedef struct hwc2_device {
728     /* Must be the first member of this struct, since a pointer to this struct
729      * will be generated by casting from a hw_device_t* */
730     struct hw_device_t common;
731 
732     /* getCapabilities(..., outCount, outCapabilities)
733      *
734      * Provides a list of capabilities (described in the definition of
735      * hwc2_capability_t above) supported by this device. This list must
736      * not change after the device has been loaded.
737      *
738      * Parameters:
739      *   outCount - if outCapabilities was NULL, the number of capabilities
740      *       which would have been returned; if outCapabilities was not NULL,
741      *       the number of capabilities returned, which must not exceed the
742      *       value stored in outCount prior to the call
743      *   outCapabilities - a list of capabilities supported by this device; may
744      *       be NULL, in which case this function must write into outCount the
745      *       number of capabilities which would have been written into
746      *       outCapabilities
747      */
748     void (*getCapabilities)(struct hwc2_device* device, uint32_t* outCount,
749             int32_t* /*hwc2_capability_t*/ outCapabilities);
750 
751     /* getFunction(..., descriptor)
752      *
753      * Returns a function pointer which implements the requested description.
754      *
755      * Parameters:
756      *   descriptor - the function to return
757      *
758      * Returns either a function pointer implementing the requested descriptor
759      *   or NULL if the described function is not supported by this device.
760      */
761     hwc2_function_pointer_t (*getFunction)(struct hwc2_device* device,
762             int32_t /*hwc2_function_descriptor_t*/ descriptor);
763 } hwc2_device_t;
764 
hwc2_open(const struct hw_module_t * module,hwc2_device_t ** device)765 static inline int hwc2_open(const struct hw_module_t* module,
766         hwc2_device_t** device) {
767     return module->methods->open(module, HWC_HARDWARE_COMPOSER,
768             TO_HW_DEVICE_T_OPEN(device));
769 }
770 
hwc2_close(hwc2_device_t * device)771 static inline int hwc2_close(hwc2_device_t* device) {
772     return device->common.close(&device->common);
773 }
774 
775 /*
776  * Callbacks
777  *
778  * All of these callbacks take as their first parameter the callbackData which
779  * was provided at the time of callback registration, so this parameter is
780  * omitted from the described parameter lists.
781  */
782 
783 /* hotplug(..., display, connected)
784  * Descriptor: HWC2_CALLBACK_HOTPLUG
785  * Will be provided to all HWC2 devices
786  *
787  * Notifies the client that the given display has either been connected or
788  * disconnected. Every active display (even a built-in physical display) must
789  * trigger at least one hotplug notification, even if it only occurs immediately
790  * after callback registration.
791  *
792  * The client may call back into the device on the same thread to query display
793  * properties (such as width, height, and vsync period), and other threads may
794  * call into the device while the callback is in progress. The device must
795  * serialize calls to this callback such that only one thread is calling it at a
796  * time.
797  *
798  * Displays which have been connected are assumed to be in HWC2_POWER_MODE_OFF,
799  * and the vsync callback should not be called for a display until vsync has
800  * been enabled with setVsyncEnabled.
801  *
802  * Parameters:
803  *   display - the display which has been hotplugged
804  *   connected - whether the display has been connected or disconnected
805  */
806 typedef void (*HWC2_PFN_HOTPLUG)(hwc2_callback_data_t callbackData,
807         hwc2_display_t display, int32_t /*hwc2_connection_t*/ connected);
808 
809 /* refresh(..., display)
810  * Descriptor: HWC2_CALLBACK_REFRESH
811  * Will be provided to all HWC2 devices
812  *
813  * Notifies the client to trigger a screen refresh. This forces all layer state
814  * for this display to be resent, and the display to be validated and presented,
815  * even if there have been no changes.
816  *
817  * This refresh will occur some time after the callback is initiated, but not
818  * necessarily before it returns. This thread, however, is guaranteed not to
819  * call back into the device, thus it is safe to trigger this callback from
820  * other functions which call into the device.
821  *
822  * Parameters:
823  *   display - the display to refresh
824  */
825 typedef void (*HWC2_PFN_REFRESH)(hwc2_callback_data_t callbackData,
826         hwc2_display_t display);
827 
828 /* vsync(..., display, timestamp)
829  * Descriptor: HWC2_CALLBACK_VSYNC
830  * Will be provided to all HWC2 devices
831  *
832  * Notifies the client that a vsync event has occurred. This callback must
833  * only be triggered when vsync is enabled for this display (through
834  * setVsyncEnabled).
835  *
836  * This callback should be triggered from a thread of at least
837  * HAL_PRIORITY_URGENT_DISPLAY with as little latency as possible, typically
838  * less than 0.5 ms. This thread is guaranteed not to call back into the device.
839  *
840  * Parameters:
841  *   display - the display which has received a vsync event
842  *   timestamp - the CLOCK_MONOTONIC time at which the vsync event occurred, in
843  *       nanoseconds
844  */
845 typedef void (*HWC2_PFN_VSYNC)(hwc2_callback_data_t callbackData,
846         hwc2_display_t display, int64_t timestamp);
847 
848 /*
849  * Device Functions
850  *
851  * All of these functions take as their first parameter a device pointer, so
852  * this parameter is omitted from the described parameter lists.
853  */
854 
855 /* createVirtualDisplay(..., width, height, format, outDisplay)
856  * Descriptor: HWC2_FUNCTION_CREATE_VIRTUAL_DISPLAY
857  * Must be provided by all HWC2 devices
858  *
859  * Creates a new virtual display with the given width and height. The format
860  * passed into this function is the default format requested by the consumer of
861  * the virtual display output buffers. If a different format will be returned by
862  * the device, it should be returned in this parameter so it can be set properly
863  * when handing the buffers to the consumer.
864  *
865  * The display will be assumed to be on from the time the first frame is
866  * presented until the display is destroyed.
867  *
868  * Parameters:
869  *   width - width in pixels
870  *   height - height in pixels
871  *   format - prior to the call, the default output buffer format selected by
872  *       the consumer; after the call, the format the device will produce
873  *   outDisplay - the newly-created virtual display; pointer will be non-NULL
874  *
875  * Returns HWC2_ERROR_NONE or one of the following errors:
876  *   HWC2_ERROR_UNSUPPORTED - the width or height is too large for the device to
877  *       be able to create a virtual display
878  *   HWC2_ERROR_NO_RESOURCES - the device is unable to create a new virtual
879  *       display at this time
880  */
881 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_CREATE_VIRTUAL_DISPLAY)(
882         hwc2_device_t* device, uint32_t width, uint32_t height,
883         int32_t* /*android_pixel_format_t*/ format, hwc2_display_t* outDisplay);
884 
885 /* destroyVirtualDisplay(..., display)
886  * Descriptor: HWC2_FUNCTION_DESTROY_VIRTUAL_DISPLAY
887  * Must be provided by all HWC2 devices
888  *
889  * Destroys a virtual display. After this call all resources consumed by this
890  * display may be freed by the device and any operations performed on this
891  * display should fail.
892  *
893  * Parameters:
894  *   display - the virtual display to destroy
895  *
896  * Returns HWC2_ERROR_NONE or one of the following errors:
897  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
898  *   HWC2_ERROR_BAD_PARAMETER - the display handle which was passed in does not
899  *       refer to a virtual display
900  */
901 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_DESTROY_VIRTUAL_DISPLAY)(
902         hwc2_device_t* device, hwc2_display_t display);
903 
904 /* dump(..., outSize, outBuffer)
905  * Descriptor: HWC2_FUNCTION_DUMP
906  * Must be provided by all HWC2 devices
907  *
908  * Retrieves implementation-defined debug information, which will be displayed
909  * during, for example, `dumpsys SurfaceFlinger`.
910  *
911  * If called with outBuffer == NULL, the device should store a copy of the
912  * desired output and return its length in bytes in outSize. If the device
913  * already has a stored copy, that copy should be purged and replaced with a
914  * fresh copy.
915  *
916  * If called with outBuffer != NULL, the device should copy its stored version
917  * of the output into outBuffer and store how many bytes of data it copied into
918  * outSize. Prior to this call, the client will have populated outSize with the
919  * maximum number of bytes outBuffer can hold. The device must not write more
920  * than this amount into outBuffer. If the device does not currently have a
921  * stored copy, then it should return 0 in outSize.
922  *
923  * Any data written into outBuffer need not be null-terminated.
924  *
925  * Parameters:
926  *   outSize - if outBuffer was NULL, the number of bytes needed to copy the
927  *       device's stored output; if outBuffer was not NULL, the number of bytes
928  *       written into it, which must not exceed the value stored in outSize
929  *       prior to the call; pointer will be non-NULL
930  *   outBuffer - the buffer to write the dump output into; may be NULL as
931  *       described above; data written into this buffer need not be
932  *       null-terminated
933  */
934 typedef void (*HWC2_PFN_DUMP)(hwc2_device_t* device, uint32_t* outSize,
935         char* outBuffer);
936 
937 /* getMaxVirtualDisplayCount(...)
938  * Descriptor: HWC2_FUNCTION_GET_MAX_VIRTUAL_DISPLAY_COUNT
939  * Must be provided by all HWC2 devices
940  *
941  * Returns the maximum number of virtual displays supported by this device
942  * (which may be 0). The client will not attempt to create more than this many
943  * virtual displays on this device. This number must not change for the lifetime
944  * of the device.
945  */
946 typedef uint32_t (*HWC2_PFN_GET_MAX_VIRTUAL_DISPLAY_COUNT)(
947         hwc2_device_t* device);
948 
949 /* registerCallback(..., descriptor, callbackData, pointer)
950  * Descriptor: HWC2_FUNCTION_REGISTER_CALLBACK
951  * Must be provided by all HWC2 devices
952  *
953  * Provides a callback for the device to call. All callbacks take a callbackData
954  * item as the first parameter, so this value should be stored with the callback
955  * for later use. The callbackData may differ from one callback to another. If
956  * this function is called multiple times with the same descriptor, later
957  * callbacks replace earlier ones.
958  *
959  * Parameters:
960  *   descriptor - which callback should be set
961  *   callBackdata - opaque data which must be passed back through the callback
962  *   pointer - a non-NULL function pointer corresponding to the descriptor
963  *
964  * Returns HWC2_ERROR_NONE or one of the following errors:
965  *   HWC2_ERROR_BAD_PARAMETER - descriptor was invalid
966  */
967 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_REGISTER_CALLBACK)(
968         hwc2_device_t* device,
969         int32_t /*hwc2_callback_descriptor_t*/ descriptor,
970         hwc2_callback_data_t callbackData, hwc2_function_pointer_t pointer);
971 
972 /*
973  * Display Functions
974  *
975  * All of these functions take as their first two parameters a device pointer
976  * and a display handle, so these parameters are omitted from the described
977  * parameter lists.
978  */
979 
980 /* acceptDisplayChanges(...)
981  * Descriptor: HWC2_FUNCTION_ACCEPT_DISPLAY_CHANGES
982  * Must be provided by all HWC2 devices
983  *
984  * Accepts the changes required by the device from the previous validateDisplay
985  * call (which may be queried using getChangedCompositionTypes) and revalidates
986  * the display. This function is equivalent to requesting the changed types from
987  * getChangedCompositionTypes, setting those types on the corresponding layers,
988  * and then calling validateDisplay again.
989  *
990  * After this call it must be valid to present this display. Calling this after
991  * validateDisplay returns 0 changes must succeed with HWC2_ERROR_NONE, but
992  * should have no other effect.
993  *
994  * Returns HWC2_ERROR_NONE or one of the following errors:
995  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
996  *   HWC2_ERROR_NOT_VALIDATED - validateDisplay has not been called
997  */
998 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_ACCEPT_DISPLAY_CHANGES)(
999         hwc2_device_t* device, hwc2_display_t display);
1000 
1001 /* createLayer(..., outLayer)
1002  * Descriptor: HWC2_FUNCTION_CREATE_LAYER
1003  * Must be provided by all HWC2 devices
1004  *
1005  * Creates a new layer on the given display.
1006  *
1007  * Parameters:
1008  *   outLayer - the handle of the new layer; pointer will be non-NULL
1009  *
1010  * Returns HWC2_ERROR_NONE or one of the following errors:
1011  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1012  *   HWC2_ERROR_NO_RESOURCES - the device was unable to create this layer
1013  */
1014 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_CREATE_LAYER)(hwc2_device_t* device,
1015         hwc2_display_t display, hwc2_layer_t* outLayer);
1016 
1017 /* destroyLayer(..., layer)
1018  * Descriptor: HWC2_FUNCTION_DESTROY_LAYER
1019  * Must be provided by all HWC2 devices
1020  *
1021  * Destroys the given layer.
1022  *
1023  * Parameters:
1024  *   layer - the handle of the layer to destroy
1025  *
1026  * Returns HWC2_ERROR_NONE or one of the following errors:
1027  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1028  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1029  */
1030 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_DESTROY_LAYER)(
1031         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer);
1032 
1033 /* getActiveConfig(..., outConfig)
1034  * Descriptor: HWC2_FUNCTION_GET_ACTIVE_CONFIG
1035  * Must be provided by all HWC2 devices
1036  *
1037  * Retrieves which display configuration is currently active.
1038  *
1039  * If no display configuration is currently active, this function must return
1040  * HWC2_ERROR_BAD_CONFIG and place no configuration handle in outConfig. It is
1041  * the responsibility of the client to call setActiveConfig with a valid
1042  * configuration before attempting to present anything on the display.
1043  *
1044  * Parameters:
1045  *   outConfig - the currently active display configuration; pointer will be
1046  *       non-NULL
1047  *
1048  * Returns HWC2_ERROR_NONE or one of the following errors:
1049  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1050  *   HWC2_ERROR_BAD_CONFIG - no configuration is currently active
1051  */
1052 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_ACTIVE_CONFIG)(
1053         hwc2_device_t* device, hwc2_display_t display,
1054         hwc2_config_t* outConfig);
1055 
1056 /* getChangedCompositionTypes(..., outNumElements, outLayers, outTypes)
1057  * Descriptor: HWC2_FUNCTION_GET_CHANGED_COMPOSITION_TYPES
1058  * Must be provided by all HWC2 devices
1059  *
1060  * Retrieves the layers for which the device requires a different composition
1061  * type than had been set prior to the last call to validateDisplay. The client
1062  * will either update its state with these types and call acceptDisplayChanges,
1063  * or will set new types and attempt to validate the display again.
1064  *
1065  * outLayers and outTypes may be NULL to retrieve the number of elements which
1066  * will be returned. The number of elements returned must be the same as the
1067  * value returned in outNumTypes from the last call to validateDisplay.
1068  *
1069  * Parameters:
1070  *   outNumElements - if outLayers or outTypes were NULL, the number of layers
1071  *       and types which would have been returned; if both were non-NULL, the
1072  *       number of elements returned in outLayers and outTypes, which must not
1073  *       exceed the value stored in outNumElements prior to the call; pointer
1074  *       will be non-NULL
1075  *   outLayers - an array of layer handles
1076  *   outTypes - an array of composition types, each corresponding to an element
1077  *       of outLayers
1078  *
1079  * Returns HWC2_ERROR_NONE or one of the following errors:
1080  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1081  *   HWC2_ERROR_NOT_VALIDATED - validateDisplay has not been called for this
1082  *       display
1083  */
1084 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_CHANGED_COMPOSITION_TYPES)(
1085         hwc2_device_t* device, hwc2_display_t display,
1086         uint32_t* outNumElements, hwc2_layer_t* outLayers,
1087         int32_t* /*hwc2_composition_t*/ outTypes);
1088 
1089 /* getClientTargetSupport(..., width, height, format, dataspace)
1090  * Descriptor: HWC2_FUNCTION_GET_CLIENT_TARGET_SUPPORT
1091  * Must be provided by all HWC2 devices
1092  *
1093  * Returns whether a client target with the given properties can be handled by
1094  * the device.
1095  *
1096  * The valid formats can be found in android_pixel_format_t in
1097  * <system/graphics.h>.
1098  *
1099  * For more about dataspaces, see setLayerDataspace.
1100  *
1101  * This function must return true for a client target with width and height
1102  * equal to the active display configuration dimensions,
1103  * HAL_PIXEL_FORMAT_RGBA_8888, and HAL_DATASPACE_UNKNOWN. It is not required to
1104  * return true for any other configuration.
1105  *
1106  * Parameters:
1107  *   width - client target width in pixels
1108  *   height - client target height in pixels
1109  *   format - client target format
1110  *   dataspace - client target dataspace, as described in setLayerDataspace
1111  *
1112  * Returns HWC2_ERROR_NONE if the given configuration is supported or one of the
1113  * following errors:
1114  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1115  *   HWC2_ERROR_UNSUPPORTED - the given configuration is not supported
1116  */
1117 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_CLIENT_TARGET_SUPPORT)(
1118         hwc2_device_t* device, hwc2_display_t display, uint32_t width,
1119         uint32_t height, int32_t /*android_pixel_format_t*/ format,
1120         int32_t /*android_dataspace_t*/ dataspace);
1121 
1122 /* getColorModes(..., outNumModes, outModes)
1123  * Descriptor: HWC2_FUNCTION_GET_COLOR_MODES
1124  * Must be provided by all HWC2 devices
1125  *
1126  * Returns the color modes supported on this display.
1127  *
1128  * The valid color modes can be found in android_color_mode_t in
1129  * <system/graphics.h>. All HWC2 devices must support at least
1130  * HAL_COLOR_MODE_NATIVE.
1131  *
1132  * outNumModes may be NULL to retrieve the number of modes which will be
1133  * returned.
1134  *
1135  * Parameters:
1136  *   outNumModes - if outModes was NULL, the number of modes which would have
1137  *       been returned; if outModes was not NULL, the number of modes returned,
1138  *       which must not exceed the value stored in outNumModes prior to the
1139  *       call; pointer will be non-NULL
1140  *   outModes - an array of color modes
1141  *
1142  * Returns HWC2_ERROR_NONE or one of the following errors:
1143  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1144  */
1145 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_COLOR_MODES)(
1146         hwc2_device_t* device, hwc2_display_t display, uint32_t* outNumModes,
1147         int32_t* /*android_color_mode_t*/ outModes);
1148 
1149 /* getDisplayAttribute(..., config, attribute, outValue)
1150  * Descriptor: HWC2_FUNCTION_GET_DISPLAY_ATTRIBUTE
1151  * Must be provided by all HWC2 devices
1152  *
1153  * Returns a display attribute value for a particular display configuration.
1154  *
1155  * Any attribute which is not supported or for which the value is unknown by the
1156  * device must return a value of -1.
1157  *
1158  * Parameters:
1159  *   config - the display configuration for which to return attribute values
1160  *   attribute - the attribute to query
1161  *   outValue - the value of the attribute; the pointer will be non-NULL
1162  *
1163  * Returns HWC2_ERROR_NONE or one of the following errors:
1164  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1165  *   HWC2_ERROR_BAD_CONFIG - config does not name a valid configuration for this
1166  *       display
1167  */
1168 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_DISPLAY_ATTRIBUTE)(
1169         hwc2_device_t* device, hwc2_display_t display, hwc2_config_t config,
1170         int32_t /*hwc2_attribute_t*/ attribute, int32_t* outValue);
1171 
1172 /* getDisplayConfigs(..., outNumConfigs, outConfigs)
1173  * Descriptor: HWC2_FUNCTION_GET_DISPLAY_CONFIGS
1174  * Must be provided by all HWC2 devices
1175  *
1176  * Returns handles for all of the valid display configurations on this display.
1177  *
1178  * outConfigs may be NULL to retrieve the number of elements which will be
1179  * returned.
1180  *
1181  * Parameters:
1182  *   outNumConfigs - if outConfigs was NULL, the number of configurations which
1183  *       would have been returned; if outConfigs was not NULL, the number of
1184  *       configurations returned, which must not exceed the value stored in
1185  *       outNumConfigs prior to the call; pointer will be non-NULL
1186  *   outConfigs - an array of configuration handles
1187  *
1188  * Returns HWC2_ERROR_NONE or one of the following errors:
1189  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1190  */
1191 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_DISPLAY_CONFIGS)(
1192         hwc2_device_t* device, hwc2_display_t display, uint32_t* outNumConfigs,
1193         hwc2_config_t* outConfigs);
1194 
1195 /* getDisplayName(..., outSize, outName)
1196  * Descriptor: HWC2_FUNCTION_GET_DISPLAY_NAME
1197  * Must be provided by all HWC2 devices
1198  *
1199  * Returns a human-readable version of the display's name.
1200  *
1201  * outName may be NULL to retrieve the length of the name.
1202  *
1203  * Parameters:
1204  *   outSize - if outName was NULL, the number of bytes needed to return the
1205  *       name if outName was not NULL, the number of bytes written into it,
1206  *       which must not exceed the value stored in outSize prior to the call;
1207  *       pointer will be non-NULL
1208  *   outName - the display's name
1209  *
1210  * Returns HWC2_ERROR_NONE or one of the following errors:
1211  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1212  */
1213 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_DISPLAY_NAME)(
1214         hwc2_device_t* device, hwc2_display_t display, uint32_t* outSize,
1215         char* outName);
1216 
1217 /* getDisplayRequests(..., outDisplayRequests, outNumElements, outLayers,
1218  *     outLayerRequests)
1219  * Descriptor: HWC2_FUNCTION_GET_DISPLAY_REQUESTS
1220  * Must be provided by all HWC2 devices
1221  *
1222  * Returns the display requests and the layer requests required for the last
1223  * validated configuration.
1224  *
1225  * Display requests provide information about how the client should handle the
1226  * client target. Layer requests provide information about how the client
1227  * should handle an individual layer.
1228  *
1229  * If outLayers or outLayerRequests is NULL, the required number of layers and
1230  * requests must be returned in outNumElements, but this number may also be
1231  * obtained from validateDisplay as outNumRequests (outNumElements must be equal
1232  * to the value returned in outNumRequests from the last call to
1233  * validateDisplay).
1234  *
1235  * Parameters:
1236  *   outDisplayRequests - the display requests for the current validated state
1237  *   outNumElements - if outLayers or outLayerRequests were NULL, the number of
1238  *       elements which would have been returned, which must be equal to the
1239  *       value returned in outNumRequests from the last validateDisplay call on
1240  *       this display; if both were not NULL, the number of elements in
1241  *       outLayers and outLayerRequests, which must not exceed the value stored
1242  *       in outNumElements prior to the call; pointer will be non-NULL
1243  *   outLayers - an array of layers which all have at least one request
1244  *   outLayerRequests - the requests corresponding to each element of outLayers
1245  *
1246  * Returns HWC2_ERROR_NONE or one of the following errors:
1247  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1248  *   HWC2_ERROR_NOT_VALIDATED - validateDisplay has not been called for this
1249  *       display
1250  */
1251 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_DISPLAY_REQUESTS)(
1252         hwc2_device_t* device, hwc2_display_t display,
1253         int32_t* /*hwc2_display_request_t*/ outDisplayRequests,
1254         uint32_t* outNumElements, hwc2_layer_t* outLayers,
1255         int32_t* /*hwc2_layer_request_t*/ outLayerRequests);
1256 
1257 /* getDisplayType(..., outType)
1258  * Descriptor: HWC2_FUNCTION_GET_DISPLAY_TYPE
1259  * Must be provided by all HWC2 devices
1260  *
1261  * Returns whether the given display is a physical or virtual display.
1262  *
1263  * Parameters:
1264  *   outType - the type of the display; pointer will be non-NULL
1265  *
1266  * Returns HWC2_ERROR_NONE or one of the following errors:
1267  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1268  */
1269 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_DISPLAY_TYPE)(
1270         hwc2_device_t* device, hwc2_display_t display,
1271         int32_t* /*hwc2_display_type_t*/ outType);
1272 
1273 /* getDozeSupport(..., outSupport)
1274  * Descriptor: HWC2_FUNCTION_GET_DOZE_SUPPORT
1275  * Must be provided by all HWC2 devices
1276  *
1277  * Returns whether the given display supports HWC2_POWER_MODE_DOZE and
1278  * HWC2_POWER_MODE_DOZE_SUSPEND. DOZE_SUSPEND may not provide any benefit over
1279  * DOZE (see the definition of hwc2_power_mode_t for more information), but if
1280  * both DOZE and DOZE_SUSPEND are no different from HWC2_POWER_MODE_ON, the
1281  * device should not claim support.
1282  *
1283  * Parameters:
1284  *   outSupport - whether the display supports doze modes (1 for yes, 0 for no);
1285  *       pointer will be non-NULL
1286  *
1287  * Returns HWC2_ERROR_NONE or one of the following errors:
1288  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1289  */
1290 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_DOZE_SUPPORT)(
1291         hwc2_device_t* device, hwc2_display_t display, int32_t* outSupport);
1292 
1293 /* getHdrCapabilities(..., outNumTypes, outTypes, outMaxLuminance,
1294  *     outMaxAverageLuminance, outMinLuminance)
1295  * Descriptor: HWC2_FUNCTION_GET_HDR_CAPABILITIES
1296  * Must be provided by all HWC2 devices
1297  *
1298  * Returns the high dynamic range (HDR) capabilities of the given display, which
1299  * are invariant with regard to the active configuration.
1300  *
1301  * Displays which are not HDR-capable must return no types in outTypes and set
1302  * outNumTypes to 0.
1303  *
1304  * If outTypes is NULL, the required number of HDR types must be returned in
1305  * outNumTypes.
1306  *
1307  * Parameters:
1308  *   outNumTypes - if outTypes was NULL, the number of types which would have
1309  *       been returned; if it was not NULL, the number of types stored in
1310  *       outTypes, which must not exceed the value stored in outNumTypes prior
1311  *       to the call; pointer will be non-NULL
1312  *   outTypes - an array of HDR types, may have 0 elements if the display is not
1313  *       HDR-capable
1314  *   outMaxLuminance - the desired content maximum luminance for this display in
1315  *       cd/m^2; pointer will be non-NULL
1316  *   outMaxAverageLuminance - the desired content maximum frame-average
1317  *       luminance for this display in cd/m^2; pointer will be non-NULL
1318  *   outMinLuminance - the desired content minimum luminance for this display in
1319  *       cd/m^2; pointer will be non-NULL
1320  *
1321  * Returns HWC2_ERROR_NONE or one of the following errors:
1322  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1323  */
1324 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_HDR_CAPABILITIES)(
1325         hwc2_device_t* device, hwc2_display_t display, uint32_t* outNumTypes,
1326         int32_t* /*android_hdr_t*/ outTypes, float* outMaxLuminance,
1327         float* outMaxAverageLuminance, float* outMinLuminance);
1328 
1329 /* getReleaseFences(..., outNumElements, outLayers, outFences)
1330  * Descriptor: HWC2_FUNCTION_GET_RELEASE_FENCES
1331  * Must be provided by all HWC2 devices
1332  *
1333  * Retrieves the release fences for device layers on this display which will
1334  * receive new buffer contents this frame.
1335  *
1336  * A release fence is a file descriptor referring to a sync fence object which
1337  * will be signaled after the device has finished reading from the buffer
1338  * presented in the prior frame. This indicates that it is safe to start writing
1339  * to the buffer again. If a given layer's fence is not returned from this
1340  * function, it will be assumed that the buffer presented on the previous frame
1341  * is ready to be written.
1342  *
1343  * The fences returned by this function should be unique for each layer (even if
1344  * they point to the same underlying sync object), and ownership of the fences
1345  * is transferred to the client, which is responsible for closing them.
1346  *
1347  * If outLayers or outFences is NULL, the required number of layers and fences
1348  * must be returned in outNumElements.
1349  *
1350  * Parameters:
1351  *   outNumElements - if outLayers or outFences were NULL, the number of
1352  *       elements which would have been returned; if both were not NULL, the
1353  *       number of elements in outLayers and outFences, which must not exceed
1354  *       the value stored in outNumElements prior to the call; pointer will be
1355  *       non-NULL
1356  *   outLayers - an array of layer handles
1357  *   outFences - an array of sync fence file descriptors as described above,
1358  *       each corresponding to an element of outLayers
1359  *
1360  * Returns HWC2_ERROR_NONE or one of the following errors:
1361  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1362  */
1363 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_GET_RELEASE_FENCES)(
1364         hwc2_device_t* device, hwc2_display_t display, uint32_t* outNumElements,
1365         hwc2_layer_t* outLayers, int32_t* outFences);
1366 
1367 /* presentDisplay(..., outPresentFence)
1368  * Descriptor: HWC2_FUNCTION_PRESENT_DISPLAY
1369  * Must be provided by all HWC2 devices
1370  *
1371  * Presents the current display contents on the screen (or in the case of
1372  * virtual displays, into the output buffer).
1373  *
1374  * Prior to calling this function, the display must be successfully validated
1375  * with validateDisplay. Note that setLayerBuffer and setLayerSurfaceDamage
1376  * specifically do not count as layer state, so if there are no other changes
1377  * to the layer state (or to the buffer's properties as described in
1378  * setLayerBuffer), then it is safe to call this function without first
1379  * validating the display.
1380  *
1381  * If this call succeeds, outPresentFence will be populated with a file
1382  * descriptor referring to a present sync fence object. For physical displays,
1383  * this fence will be signaled at the vsync when the result of composition of
1384  * this frame starts to appear (for video-mode panels) or starts to transfer to
1385  * panel memory (for command-mode panels). For virtual displays, this fence will
1386  * be signaled when writes to the output buffer have completed and it is safe to
1387  * read from it.
1388  *
1389  * Parameters:
1390  *   outPresentFence - a sync fence file descriptor as described above; pointer
1391  *       will be non-NULL
1392  *
1393  * Returns HWC2_ERROR_NONE or one of the following errors:
1394  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1395  *   HWC2_ERROR_NO_RESOURCES - no valid output buffer has been set for a virtual
1396  *       display
1397  *   HWC2_ERROR_NOT_VALIDATED - validateDisplay has not successfully been called
1398  *       for this display
1399  */
1400 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_PRESENT_DISPLAY)(
1401         hwc2_device_t* device, hwc2_display_t display,
1402         int32_t* outPresentFence);
1403 
1404 /* setActiveConfig(..., config)
1405  * Descriptor: HWC2_FUNCTION_SET_ACTIVE_CONFIG
1406  * Must be provided by all HWC2 devices
1407  *
1408  * Sets the active configuration for this display. Upon returning, the given
1409  * display configuration should be active and remain so until either this
1410  * function is called again or the display is disconnected.
1411  *
1412  * Parameters:
1413  *   config - the new display configuration
1414  *
1415  * Returns HWC2_ERROR_NONE or one of the following errors:
1416  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1417  *   HWC2_ERROR_BAD_CONFIG - the configuration handle passed in is not valid for
1418  *       this display
1419  */
1420 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_ACTIVE_CONFIG)(
1421         hwc2_device_t* device, hwc2_display_t display, hwc2_config_t config);
1422 
1423 /* setClientTarget(..., target, acquireFence, dataspace, damage)
1424  * Descriptor: HWC2_FUNCTION_SET_CLIENT_TARGET
1425  * Must be provided by all HWC2 devices
1426  *
1427  * Sets the buffer handle which will receive the output of client composition.
1428  * Layers marked as HWC2_COMPOSITION_CLIENT will be composited into this buffer
1429  * prior to the call to presentDisplay, and layers not marked as
1430  * HWC2_COMPOSITION_CLIENT should be composited with this buffer by the device.
1431  *
1432  * The buffer handle provided may be null if no layers are being composited by
1433  * the client. This must not result in an error (unless an invalid display
1434  * handle is also provided).
1435  *
1436  * Also provides a file descriptor referring to an acquire sync fence object,
1437  * which will be signaled when it is safe to read from the client target buffer.
1438  * If it is already safe to read from this buffer, -1 may be passed instead.
1439  * The device must ensure that it is safe for the client to close this file
1440  * descriptor at any point after this function is called.
1441  *
1442  * For more about dataspaces, see setLayerDataspace.
1443  *
1444  * The damage parameter describes a surface damage region as defined in the
1445  * description of setLayerSurfaceDamage.
1446  *
1447  * Will be called before presentDisplay if any of the layers are marked as
1448  * HWC2_COMPOSITION_CLIENT. If no layers are so marked, then it is not
1449  * necessary to call this function. It is not necessary to call validateDisplay
1450  * after changing the target through this function.
1451  *
1452  * Parameters:
1453  *   target - the new target buffer
1454  *   acquireFence - a sync fence file descriptor as described above
1455  *   dataspace - the dataspace of the buffer, as described in setLayerDataspace
1456  *   damage - the surface damage region
1457  *
1458  * Returns HWC2_ERROR_NONE or one of the following errors:
1459  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1460  *   HWC2_ERROR_BAD_PARAMETER - the new target handle was invalid
1461  */
1462 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_CLIENT_TARGET)(
1463         hwc2_device_t* device, hwc2_display_t display, buffer_handle_t target,
1464         int32_t acquireFence, int32_t /*android_dataspace_t*/ dataspace,
1465         hwc_region_t damage);
1466 
1467 /* setColorMode(..., mode)
1468  * Descriptor: HWC2_FUNCTION_SET_COLOR_MODE
1469  * Must be provided by all HWC2 devices
1470  *
1471  * Sets the color mode of the given display.
1472  *
1473  * Upon returning from this function, the color mode change must have fully
1474  * taken effect.
1475  *
1476  * The valid color modes can be found in android_color_mode_t in
1477  * <system/graphics.h>. All HWC2 devices must support at least
1478  * HAL_COLOR_MODE_NATIVE, and displays are assumed to be in this mode upon
1479  * hotplug.
1480  *
1481  * Parameters:
1482  *   mode - the mode to set
1483  *
1484  * Returns HWC2_ERROR_NONE or one of the following errors:
1485  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1486  *   HWC2_ERROR_BAD_PARAMETER - mode is not a valid color mode
1487  *   HWC2_ERROR_UNSUPPORTED - mode is not supported on this display
1488  */
1489 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_COLOR_MODE)(
1490         hwc2_device_t* device, hwc2_display_t display,
1491         int32_t /*android_color_mode_t*/ mode);
1492 
1493 /* setColorTransform(..., matrix, hint)
1494  * Descriptor: HWC2_FUNCTION_SET_COLOR_TRANSFORM
1495  * Must be provided by all HWC2 devices
1496  *
1497  * Sets a color transform which will be applied after composition.
1498  *
1499  * If hint is not HAL_COLOR_TRANSFORM_ARBITRARY, then the device may use the
1500  * hint to apply the desired color transform instead of using the color matrix
1501  * directly.
1502  *
1503  * If the device is not capable of either using the hint or the matrix to apply
1504  * the desired color transform, it should force all layers to client composition
1505  * during validateDisplay.
1506  *
1507  * If HWC2_CAPABILITY_SKIP_CLIENT_COLOR_TRANSFORM is present, then the client
1508  * will never apply the color transform during client composition, even if all
1509  * layers are being composed by the client.
1510  *
1511  * The matrix provided is an affine color transformation of the following form:
1512  *
1513  * |r.r r.g r.b 0|
1514  * |g.r g.g g.b 0|
1515  * |b.r b.g b.b 0|
1516  * |Tr  Tg  Tb  1|
1517  *
1518  * This matrix will be provided in row-major form: {r.r, r.g, r.b, 0, g.r, ...}.
1519  *
1520  * Given a matrix of this form and an input color [R_in, G_in, B_in], the output
1521  * color [R_out, G_out, B_out] will be:
1522  *
1523  * R_out = R_in * r.r + G_in * g.r + B_in * b.r + Tr
1524  * G_out = R_in * r.g + G_in * g.g + B_in * b.g + Tg
1525  * B_out = R_in * r.b + G_in * g.b + B_in * b.b + Tb
1526  *
1527  * Parameters:
1528  *   matrix - a 4x4 transform matrix (16 floats) as described above
1529  *   hint - a hint value which may be used instead of the given matrix unless it
1530  *       is HAL_COLOR_TRANSFORM_ARBITRARY
1531  *
1532  * Returns HWC2_ERROR_NONE or one of the following errors:
1533  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1534  *   HWC2_ERROR_BAD_PARAMETER - hint is not a valid color transform hint
1535  */
1536 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_COLOR_TRANSFORM)(
1537         hwc2_device_t* device, hwc2_display_t display, const float* matrix,
1538         int32_t /*android_color_transform_t*/ hint);
1539 
1540 /* setOutputBuffer(..., buffer, releaseFence)
1541  * Descriptor: HWC2_FUNCTION_SET_OUTPUT_BUFFER
1542  * Must be provided by all HWC2 devices
1543  *
1544  * Sets the output buffer for a virtual display. That is, the buffer to which
1545  * the composition result will be written.
1546  *
1547  * Also provides a file descriptor referring to a release sync fence object,
1548  * which will be signaled when it is safe to write to the output buffer. If it
1549  * is already safe to write to the output buffer, -1 may be passed instead. The
1550  * device must ensure that it is safe for the client to close this file
1551  * descriptor at any point after this function is called.
1552  *
1553  * Must be called at least once before presentDisplay, but does not have any
1554  * interaction with layer state or display validation.
1555  *
1556  * Parameters:
1557  *   buffer - the new output buffer
1558  *   releaseFence - a sync fence file descriptor as described above
1559  *
1560  * Returns HWC2_ERROR_NONE or one of the following errors:
1561  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1562  *   HWC2_ERROR_BAD_PARAMETER - the new output buffer handle was invalid
1563  *   HWC2_ERROR_UNSUPPORTED - display does not refer to a virtual display
1564  */
1565 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_OUTPUT_BUFFER)(
1566         hwc2_device_t* device, hwc2_display_t display, buffer_handle_t buffer,
1567         int32_t releaseFence);
1568 
1569 /* setPowerMode(..., mode)
1570  * Descriptor: HWC2_FUNCTION_SET_POWER_MODE
1571  * Must be provided by all HWC2 devices
1572  *
1573  * Sets the power mode of the given display. The transition must be complete
1574  * when this function returns. It is valid to call this function multiple times
1575  * with the same power mode.
1576  *
1577  * All displays must support HWC2_POWER_MODE_ON and HWC2_POWER_MODE_OFF. Whether
1578  * a display supports HWC2_POWER_MODE_DOZE or HWC2_POWER_MODE_DOZE_SUSPEND may
1579  * be queried using getDozeSupport.
1580  *
1581  * Parameters:
1582  *   mode - the new power mode
1583  *
1584  * Returns HWC2_ERROR_NONE or one of the following errors:
1585  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1586  *   HWC2_ERROR_BAD_PARAMETER - mode was not a valid power mode
1587  *   HWC2_ERROR_UNSUPPORTED - mode was a valid power mode, but is not supported
1588  *       on this display
1589  */
1590 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_POWER_MODE)(
1591         hwc2_device_t* device, hwc2_display_t display,
1592         int32_t /*hwc2_power_mode_t*/ mode);
1593 
1594 /* setVsyncEnabled(..., enabled)
1595  * Descriptor: HWC2_FUNCTION_SET_VSYNC_ENABLED
1596  * Must be provided by all HWC2 devices
1597  *
1598  * Enables or disables the vsync signal for the given display. Virtual displays
1599  * never generate vsync callbacks, and any attempt to enable vsync for a virtual
1600  * display though this function must return HWC2_ERROR_NONE and have no other
1601  * effect.
1602  *
1603  * Parameters:
1604  *   enabled - whether to enable or disable vsync
1605  *
1606  * Returns HWC2_ERROR_NONE or one of the following errors:
1607  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1608  *   HWC2_ERROR_BAD_PARAMETER - enabled was an invalid value
1609  */
1610 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_VSYNC_ENABLED)(
1611         hwc2_device_t* device, hwc2_display_t display,
1612         int32_t /*hwc2_vsync_t*/ enabled);
1613 
1614 /* validateDisplay(..., outNumTypes, outNumRequests)
1615  * Descriptor: HWC2_FUNCTION_VALIDATE_DISPLAY
1616  * Must be provided by all HWC2 devices
1617  *
1618  * Instructs the device to inspect all of the layer state and determine if
1619  * there are any composition type changes necessary before presenting the
1620  * display. Permitted changes are described in the definition of
1621  * hwc2_composition_t above.
1622  *
1623  * Also returns the number of layer requests required
1624  * by the given layer configuration.
1625  *
1626  * Parameters:
1627  *   outNumTypes - the number of composition type changes required by the
1628  *       device; if greater than 0, the client must either set and validate new
1629  *       types, or call acceptDisplayChanges to accept the changes returned by
1630  *       getChangedCompositionTypes; must be the same as the number of changes
1631  *       returned by getChangedCompositionTypes (see the declaration of that
1632  *       function for more information); pointer will be non-NULL
1633  *   outNumRequests - the number of layer requests required by this layer
1634  *       configuration; must be equal to the number of layer requests returned
1635  *       by getDisplayRequests (see the declaration of that function for
1636  *       more information); pointer will be non-NULL
1637  *
1638  * Returns HWC2_ERROR_NONE if no changes are necessary and it is safe to present
1639  * the display using the current layer state. Otherwise returns one of the
1640  * following errors:
1641  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1642  *   HWC2_ERROR_HAS_CHANGES - outNumTypes was greater than 0 (see parameter list
1643  *       for more information)
1644  */
1645 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_VALIDATE_DISPLAY)(
1646         hwc2_device_t* device, hwc2_display_t display,
1647         uint32_t* outNumTypes, uint32_t* outNumRequests);
1648 
1649 /*
1650  * Layer Functions
1651  *
1652  * These are functions which operate on layers, but which do not modify state
1653  * that must be validated before use. See also 'Layer State Functions' below.
1654  *
1655  * All of these functions take as their first three parameters a device pointer,
1656  * a display handle for the display which contains the layer, and a layer
1657  * handle, so these parameters are omitted from the described parameter lists.
1658  */
1659 
1660 /* setCursorPosition(..., x, y)
1661  * Descriptor: HWC2_FUNCTION_SET_CURSOR_POSITION
1662  * Must be provided by all HWC2 devices
1663  *
1664  * Asynchonously sets the position of a cursor layer.
1665  *
1666  * Prior to validateDisplay, a layer may be marked as HWC2_COMPOSITION_CURSOR.
1667  * If validation succeeds (i.e., the device does not request a composition
1668  * change for that layer), then once a buffer has been set for the layer and it
1669  * has been presented, its position may be set by this function at any time
1670  * between presentDisplay and any subsequent validateDisplay calls for this
1671  * display.
1672  *
1673  * Once validateDisplay is called, this function will not be called again until
1674  * the validate/present sequence is completed.
1675  *
1676  * May be called from any thread so long as it is not interleaved with the
1677  * validate/present sequence as described above.
1678  *
1679  * Parameters:
1680  *   x - the new x coordinate (in pixels from the left of the screen)
1681  *   y - the new y coordinate (in pixels from the top of the screen)
1682  *
1683  * Returns HWC2_ERROR_NONE or one of the following errors:
1684  *   HWC2_ERROR_BAD_DISPLAY - an invalid display handle was passed in
1685  *   HWC2_ERROR_BAD_LAYER - the layer is invalid or is not currently marked as
1686  *       HWC2_COMPOSITION_CURSOR
1687  *   HWC2_ERROR_NOT_VALIDATED - the device is currently in the middle of the
1688  *       validate/present sequence
1689  */
1690 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_CURSOR_POSITION)(
1691         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1692         int32_t x, int32_t y);
1693 
1694 /* setLayerBuffer(..., buffer, acquireFence)
1695  * Descriptor: HWC2_FUNCTION_SET_LAYER_BUFFER
1696  * Must be provided by all HWC2 devices
1697  *
1698  * Sets the buffer handle to be displayed for this layer. If the buffer
1699  * properties set at allocation time (width, height, format, and usage) have not
1700  * changed since the previous frame, it is not necessary to call validateDisplay
1701  * before calling presentDisplay unless new state needs to be validated in the
1702  * interim.
1703  *
1704  * Also provides a file descriptor referring to an acquire sync fence object,
1705  * which will be signaled when it is safe to read from the given buffer. If it
1706  * is already safe to read from the buffer, -1 may be passed instead. The
1707  * device must ensure that it is safe for the client to close this file
1708  * descriptor at any point after this function is called.
1709  *
1710  * This function must return HWC2_ERROR_NONE and have no other effect if called
1711  * for a layer with a composition type of HWC2_COMPOSITION_SOLID_COLOR (because
1712  * it has no buffer) or HWC2_COMPOSITION_SIDEBAND or HWC2_COMPOSITION_CLIENT
1713  * (because synchronization and buffer updates for these layers are handled
1714  * elsewhere).
1715  *
1716  * Parameters:
1717  *   buffer - the buffer handle to set
1718  *   acquireFence - a sync fence file descriptor as described above
1719  *
1720  * Returns HWC2_ERROR_NONE or one of the following errors:
1721  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1722  *   HWC2_ERROR_BAD_PARAMETER - the buffer handle passed in was invalid
1723  */
1724 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_BUFFER)(
1725         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1726         buffer_handle_t buffer, int32_t acquireFence);
1727 
1728 /* setLayerSurfaceDamage(..., damage)
1729  * Descriptor: HWC2_FUNCTION_SET_LAYER_SURFACE_DAMAGE
1730  * Must be provided by all HWC2 devices
1731  *
1732  * Provides the region of the source buffer which has been modified since the
1733  * last frame. This region does not need to be validated before calling
1734  * presentDisplay.
1735  *
1736  * Once set through this function, the damage region remains the same until a
1737  * subsequent call to this function.
1738  *
1739  * If damage.numRects > 0, then it may be assumed that any portion of the source
1740  * buffer not covered by one of the rects has not been modified this frame. If
1741  * damage.numRects == 0, then the whole source buffer must be treated as if it
1742  * has been modified.
1743  *
1744  * If the layer's contents are not modified relative to the prior frame, damage
1745  * will contain exactly one empty rect([0, 0, 0, 0]).
1746  *
1747  * The damage rects are relative to the pre-transformed buffer, and their origin
1748  * is the top-left corner. They will not exceed the dimensions of the latched
1749  * buffer.
1750  *
1751  * Parameters:
1752  *   damage - the new surface damage region
1753  *
1754  * Returns HWC2_ERROR_NONE or one of the following errors:
1755  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1756  */
1757 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_SURFACE_DAMAGE)(
1758         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1759         hwc_region_t damage);
1760 
1761 /*
1762  * Layer State Functions
1763  *
1764  * These functions modify the state of a given layer. They do not take effect
1765  * until the display configuration is successfully validated with
1766  * validateDisplay and the display contents are presented with presentDisplay.
1767  *
1768  * All of these functions take as their first three parameters a device pointer,
1769  * a display handle for the display which contains the layer, and a layer
1770  * handle, so these parameters are omitted from the described parameter lists.
1771  */
1772 
1773 /* setLayerBlendMode(..., mode)
1774  * Descriptor: HWC2_FUNCTION_SET_LAYER_BLEND_MODE
1775  * Must be provided by all HWC2 devices
1776  *
1777  * Sets the blend mode of the given layer.
1778  *
1779  * Parameters:
1780  *   mode - the new blend mode
1781  *
1782  * Returns HWC2_ERROR_NONE or one of the following errors:
1783  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1784  *   HWC2_ERROR_BAD_PARAMETER - an invalid blend mode was passed in
1785  */
1786 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_BLEND_MODE)(
1787         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1788         int32_t /*hwc2_blend_mode_t*/ mode);
1789 
1790 /* setLayerColor(..., color)
1791  * Descriptor: HWC2_FUNCTION_SET_LAYER_COLOR
1792  * Must be provided by all HWC2 devices
1793  *
1794  * Sets the color of the given layer. If the composition type of the layer is
1795  * not HWC2_COMPOSITION_SOLID_COLOR, this call must return HWC2_ERROR_NONE and
1796  * have no other effect.
1797  *
1798  * Parameters:
1799  *   color - the new color
1800  *
1801  * Returns HWC2_ERROR_NONE or one of the following errors:
1802  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1803  */
1804 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_COLOR)(
1805         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1806         hwc_color_t color);
1807 
1808 /* setLayerCompositionType(..., type)
1809  * Descriptor: HWC2_FUNCTION_SET_LAYER_COMPOSITION_TYPE
1810  * Must be provided by all HWC2 devices
1811  *
1812  * Sets the desired composition type of the given layer. During validateDisplay,
1813  * the device may request changes to the composition types of any of the layers
1814  * as described in the definition of hwc2_composition_t above.
1815  *
1816  * Parameters:
1817  *   type - the new composition type
1818  *
1819  * Returns HWC2_ERROR_NONE or one of the following errors:
1820  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1821  *   HWC2_ERROR_BAD_PARAMETER - an invalid composition type was passed in
1822  *   HWC2_ERROR_UNSUPPORTED - a valid composition type was passed in, but it is
1823  *       not supported by this device
1824  */
1825 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_COMPOSITION_TYPE)(
1826         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1827         int32_t /*hwc2_composition_t*/ type);
1828 
1829 /* setLayerDataspace(..., dataspace)
1830  * Descriptor: HWC2_FUNCTION_SET_LAYER_DATASPACE
1831  * Must be provided by all HWC2 devices
1832  *
1833  * Sets the dataspace that the current buffer on this layer is in.
1834  *
1835  * The dataspace provides more information about how to interpret the buffer
1836  * contents, such as the encoding standard and color transform.
1837  *
1838  * See the values of android_dataspace_t in <system/graphics.h> for more
1839  * information.
1840  *
1841  * Parameters:
1842  *   dataspace - the new dataspace
1843  *
1844  * Returns HWC2_ERROR_NONE or one of the following errors:
1845  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1846  */
1847 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_DATASPACE)(
1848         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1849         int32_t /*android_dataspace_t*/ dataspace);
1850 
1851 /* setLayerDisplayFrame(..., frame)
1852  * Descriptor: HWC2_FUNCTION_SET_LAYER_DISPLAY_FRAME
1853  * Must be provided by all HWC2 devices
1854  *
1855  * Sets the display frame (the portion of the display covered by a layer) of the
1856  * given layer. This frame will not exceed the display dimensions.
1857  *
1858  * Parameters:
1859  *   frame - the new display frame
1860  *
1861  * Returns HWC2_ERROR_NONE or one of the following errors:
1862  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1863  */
1864 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_DISPLAY_FRAME)(
1865         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1866         hwc_rect_t frame);
1867 
1868 /* setLayerPlaneAlpha(..., alpha)
1869  * Descriptor: HWC2_FUNCTION_SET_LAYER_PLANE_ALPHA
1870  * Must be provided by all HWC2 devices
1871  *
1872  * Sets an alpha value (a floating point value in the range [0.0, 1.0]) which
1873  * will be applied to the whole layer. It can be conceptualized as a
1874  * preprocessing step which applies the following function:
1875  *   if (blendMode == HWC2_BLEND_MODE_PREMULTIPLIED)
1876  *       out.rgb = in.rgb * planeAlpha
1877  *   out.a = in.a * planeAlpha
1878  *
1879  * If the device does not support this operation on a layer which is marked
1880  * HWC2_COMPOSITION_DEVICE, it must request a composition type change to
1881  * HWC2_COMPOSITION_CLIENT upon the next validateDisplay call.
1882  *
1883  * Parameters:
1884  *   alpha - the plane alpha value to apply
1885  *
1886  * Returns HWC2_ERROR_NONE or one of the following errors:
1887  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1888  */
1889 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_PLANE_ALPHA)(
1890         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1891         float alpha);
1892 
1893 /* setLayerSidebandStream(..., stream)
1894  * Descriptor: HWC2_FUNCTION_SET_LAYER_SIDEBAND_STREAM
1895  * Provided by HWC2 devices which support HWC2_CAPABILITY_SIDEBAND_STREAM
1896  *
1897  * Sets the sideband stream for this layer. If the composition type of the given
1898  * layer is not HWC2_COMPOSITION_SIDEBAND, this call must return HWC2_ERROR_NONE
1899  * and have no other effect.
1900  *
1901  * Parameters:
1902  *   stream - the new sideband stream
1903  *
1904  * Returns HWC2_ERROR_NONE or one of the following errors:
1905  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1906  *   HWC2_ERROR_BAD_PARAMETER - an invalid sideband stream was passed in
1907  */
1908 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_SIDEBAND_STREAM)(
1909         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1910         const native_handle_t* stream);
1911 
1912 /* setLayerSourceCrop(..., crop)
1913  * Descriptor: HWC2_FUNCTION_SET_LAYER_SOURCE_CROP
1914  * Must be provided by all HWC2 devices
1915  *
1916  * Sets the source crop (the portion of the source buffer which will fill the
1917  * display frame) of the given layer. This crop rectangle will not exceed the
1918  * dimensions of the latched buffer.
1919  *
1920  * If the device is not capable of supporting a true float source crop (i.e., it
1921  * will truncate or round the floats to integers), it should set this layer to
1922  * HWC2_COMPOSITION_CLIENT when crop is non-integral for the most accurate
1923  * rendering.
1924  *
1925  * If the device cannot support float source crops, but still wants to handle
1926  * the layer, it should use the following code (or similar) to convert to
1927  * an integer crop:
1928  *   intCrop.left = (int) ceilf(crop.left);
1929  *   intCrop.top = (int) ceilf(crop.top);
1930  *   intCrop.right = (int) floorf(crop.right);
1931  *   intCrop.bottom = (int) floorf(crop.bottom);
1932  *
1933  * Parameters:
1934  *   crop - the new source crop
1935  *
1936  * Returns HWC2_ERROR_NONE or one of the following errors:
1937  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1938  */
1939 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_SOURCE_CROP)(
1940         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1941         hwc_frect_t crop);
1942 
1943 /* setLayerTransform(..., transform)
1944  * Descriptor: HWC2_FUNCTION_SET_LAYER_TRANSFORM
1945  * Must be provided by all HWC2 devices
1946  *
1947  * Sets the transform (rotation/flip) of the given layer.
1948  *
1949  * Parameters:
1950  *   transform - the new transform
1951  *
1952  * Returns HWC2_ERROR_NONE or one of the following errors:
1953  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1954  *   HWC2_ERROR_BAD_PARAMETER - an invalid transform was passed in
1955  */
1956 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_TRANSFORM)(
1957         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1958         int32_t /*hwc_transform_t*/ transform);
1959 
1960 /* setLayerVisibleRegion(..., visible)
1961  * Descriptor: HWC2_FUNCTION_SET_LAYER_VISIBLE_REGION
1962  * Must be provided by all HWC2 devices
1963  *
1964  * Specifies the portion of the layer that is visible, including portions under
1965  * translucent areas of other layers. The region is in screen space, and will
1966  * not exceed the dimensions of the screen.
1967  *
1968  * Parameters:
1969  *   visible - the new visible region, in screen space
1970  *
1971  * Returns HWC2_ERROR_NONE or one of the following errors:
1972  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1973  */
1974 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_VISIBLE_REGION)(
1975         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1976         hwc_region_t visible);
1977 
1978 /* setLayerZOrder(..., z)
1979  * Descriptor: HWC2_FUNCTION_SET_LAYER_Z_ORDER
1980  * Must be provided by all HWC2 devices
1981  *
1982  * Sets the desired Z order (height) of the given layer. A layer with a greater
1983  * Z value occludes a layer with a lesser Z value.
1984  *
1985  * Parameters:
1986  *   z - the new Z order
1987  *
1988  * Returns HWC2_ERROR_NONE or one of the following errors:
1989  *   HWC2_ERROR_BAD_LAYER - an invalid layer handle was passed in
1990  */
1991 typedef int32_t /*hwc2_error_t*/ (*HWC2_PFN_SET_LAYER_Z_ORDER)(
1992         hwc2_device_t* device, hwc2_display_t display, hwc2_layer_t layer,
1993         uint32_t z);
1994 
1995 __END_DECLS
1996 
1997 #endif
1998