1 /*
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24 
25 /*! @file layer_buffer.h
26   @brief File for layer buffer structure.
27 
28 */
29 #ifndef __LAYER_BUFFER_H__
30 #define __LAYER_BUFFER_H__
31 
32 #include <stdint.h>
33 
34 #include "sdm_types.h"
35 
36 namespace sdm {
37 
38 /*! @brief This enum represents display layer color space conversion (CSC) matrix types.
39 
40   @sa Layer
41 */
42 enum LayerCSC {
43   kCSCLimitedRange601,    //!< 601 limited range color space.
44   kCSCFullRange601,       //!< 601 full range color space.
45   kCSCLimitedRange709,    //!< 709 limited range color space.
46 };
47 
48 /*! @brief This enum represents display layer inverse gamma correction (IGC) types.
49 
50   @sa Layer
51 */
52 enum LayerIGC {
53   kIGCNotSpecified,       //!< IGC is not specified.
54   kIGCsRGB,               //!< sRGB IGC type.
55 };
56 
57 /*! @brief This enum represents different buffer formats supported by display manager.
58 
59   @sa LayerBuffer
60 */
61 enum LayerBufferFormat {
62   /* All RGB formats, Any new format will be added towards end of this group to maintain backward
63      compatibility.
64   */
65   kFormatARGB8888,      //!< 8-bits Alpha, Red, Green, Blue interleaved in ARGB order.
66   kFormatRGBA8888,      //!< 8-bits Red, Green, Blue, Alpha interleaved in RGBA order.
67   kFormatBGRA8888,      //!< 8-bits Blue, Green, Red, Alpha interleaved in BGRA order.
68   kFormatXRGB8888,      //!< 8-bits Padding, Red, Green, Blue interleaved in XRGB order. No Alpha.
69   kFormatRGBX8888,      //!< 8-bits Red, Green, Blue, Padding interleaved in RGBX order. No Alpha.
70   kFormatBGRX8888,      //!< 8-bits Blue, Green, Red, Padding interleaved in BGRX order. No Alpha.
71   kFormatRGBA5551,      //!< 5-bits Red, Green, Blue, and 1 bit Alpha interleaved in RGBA order.
72   kFormatRGBA4444,      //!< 4-bits Red, Green, Blue, Alpha interleaved in RGBA order.
73   kFormatRGB888,        //!< 8-bits Red, Green, Blue interleaved in RGB order. No Alpha.
74   kFormatBGR888,        //!< 8-bits Blue, Green, Red interleaved in BGR order. No Alpha.
75   kFormatRGB565,        //!< 5-bit Red, 6-bit Green, 5-bit Blue interleaved in RGB order. No Alpha.
76   kFormatBGR565,        //!< 5-bit Blue, 6-bit Green, 5-bit Red interleaved in BGR order. No Alpha.
77   kFormatRGBA8888Ubwc,  //!< UBWC aligned RGBA8888 format
78   kFormatRGBX8888Ubwc,  //!< UBWC aligned RGBX8888 format
79   kFormatBGR565Ubwc,    //!< UBWC aligned BGR565 format
80   kFormatRGBA1010102,   //!< 10-bits Red, Green, Blue, Alpha interleaved in RGBA order.
81   kFormatARGB2101010,   //!< 10-bits Alpha, Red, Green, Blue interleaved in ARGB order.
82   kFormatRGBX1010102,   //!< 10-bits Red, Green, Blue, Padding interleaved in RGBX order. No Alpha.
83   kFormatXRGB2101010,   //!< 10-bits Padding, Red, Green, Blue interleaved in XRGB order. No Alpha.
84   kFormatBGRA1010102,   //!< 10-bits Blue, Green, Red, Alpha interleaved in BGRA order.
85   kFormatABGR2101010,   //!< 10-bits Alpha, Blue, Green, Red interleaved in ABGR order.
86   kFormatBGRX1010102,   //!< 10-bits Blue, Green, Red, Padding interleaved in BGRX order. No Alpha.
87   kFormatXBGR2101010,   //!< 10-bits Padding, Blue, Green, Red interleaved in XBGR order. No Alpha.
88   kFormatRGBA1010102Ubwc,  //!< UBWC aligned RGBA1010102 format
89   kFormatRGBX1010102Ubwc,  //!< UBWC aligned RGBX1010102 format
90   kFormatRGB101010,     // 10-bits Red, Green, Blue, interleaved in RGB order. No Alpha.
91 
92   /* All YUV-Planar formats, Any new format will be added towards end of this group to maintain
93      backward compatibility.
94   */
95   kFormatYCbCr420Planar = 0x100,  //!< Y-plane: y(0), y(1), y(2) ... y(n)
96                                   //!< 2x2 subsampled U-plane: u(0), u(2) ... u(n-1)
97                                   //!< 2x2 subsampled V-plane: v(0), v(2) ... v(n-1)
98 
99   kFormatYCrCb420Planar,          //!< Y-plane: y(0), y(1), y(2) ... y(n)
100                                   //!< 2x2 subsampled V-plane: v(0), v(2) ... v(n-1)
101                                   //!< 2x2 subsampled U-plane: u(0), u(2) ... u(n-1)
102 
103   kFormatYCrCb420PlanarStride16,  //!< kFormatYCrCb420Planar with stride aligned to 16 bytes
104 
105   /* All YUV-Semiplanar formats, Any new format will be added towards end of this group to
106      maintain backward compatibility.
107   */
108   kFormatYCbCr420SemiPlanar = 0x200,  //!< Y-plane: y(0), y(1), y(2) ... y(n)
109                                       //!< 2x2 subsampled interleaved UV-plane:
110                                       //!<    u(0), v(0), u(2), v(2) ... u(n-1), v(n-1)
111                                       //!< aka NV12.
112 
113   kFormatYCrCb420SemiPlanar,          //!< Y-plane: y(0), y(1), y(2) ... y(n)
114                                       //!< 2x2 subsampled interleaved VU-plane:
115                                       //!<    v(0), u(0), v(2), u(2) ... v(n-1), u(n-1)
116                                       //!< aka NV21.
117 
118   kFormatYCbCr420SemiPlanarVenus,     //!< Y-plane: y(0), y(1), y(2) ... y(n)
119                                       //!< 2x2 subsampled interleaved UV-plane:
120                                       //!<    u(0), v(0), u(2), v(2) ... u(n-1), v(n-1)
121 
122   kFormatYCbCr422H1V2SemiPlanar,      //!< Y-plane: y(0), y(1), y(2) ... y(n)
123                                       //!< vertically subsampled interleaved UV-plane:
124                                       //!<    u(0), v(1), u(2), v(3) ... u(n-1), v(n)
125 
126   kFormatYCrCb422H1V2SemiPlanar,      //!< Y-plane: y(0), y(1), y(2) ... y(n)
127                                       //!< vertically subsampled interleaved VU-plane:
128                                       //!<    v(0), u(1), v(2), u(3) ... v(n-1), u(n)
129 
130   kFormatYCbCr422H2V1SemiPlanar,      //!< Y-plane: y(0), y(1), y(2) ... y(n)
131                                       //!< horizontally subsampled interleaved UV-plane:
132                                       //!<    u(0), v(1), u(2), v(3) ... u(n-1), v(n)
133 
134   kFormatYCrCb422H2V1SemiPlanar,      //!< Y-plane: y(0), y(1), y(2) ... y(n)
135                                       //!< horizontally subsampled interleaved VU-plane:
136                                       //!<    v(0), u(1), v(2), u(3) ... v(n-1), u(n)
137 
138   kFormatYCbCr420SPVenusUbwc,         //!< UBWC aligned YCbCr420SemiPlanarVenus format
139 
140   kFormatYCrCb420SemiPlanarVenus,     //!< Y-plane: y(0), y(1), y(2) ... y(n)
141                                       //!< 2x2 subsampled interleaved UV-plane:
142                                       //!<    v(0), u(0), v(2), u(2) ... v(n-1), u(n-1)
143 
144   kFormatYCbCr420P010,                //!< 16 bit Y-plane with 5 MSB bits set to 0:
145                                       //!< y(0), y(1), y(2) ... y(n)
146                                       //!< 2x2 subsampled interleaved 10 bit UV-plane with
147                                       //!< 5 MSB bits set to 0:
148                                       //!<    u(0), v(0), u(2), v(2) ... u(n-1), v(n-1)
149                                       //!< aka P010.
150 
151   kFormatYCbCr420TP10Ubwc,            //!< UBWC aligned YCbCr420TP10 format.
152 
153   /* All YUV-Packed formats, Any new format will be added towards end of this group to maintain
154      backward compatibility.
155   */
156   kFormatYCbCr422H2V1Packed = 0x300,  //!< Y-plane interleaved with horizontally subsampled U/V by
157                                       //!< factor of 2
158                                       //!<    y(0), u(0), y(1), v(0), y(2), u(2), y(3), v(2)
159                                       //!<    y(n-1), u(n-1), y(n), v(n-1)
160 
161   kFormatInvalid = 0xFFFFFFFF,
162 };
163 
164 
165 /*! @brief This enum represents different types of 3D formats supported.
166 
167   @sa LayerBufferS3DFormat
168 */
169 enum LayerBufferS3DFormat {
170   kS3dFormatNone,            //!< Layer buffer content is not 3D content.
171   kS3dFormatLeftRight,       //!< Left and Right view of a 3D content stitched left and right.
172   kS3dFormatRightLeft,       //!< Right and Left view of a 3D content stitched left and right.
173   kS3dFormatTopBottom,       //!< Left and RightView of a 3D content stitched top and bottom.
174   kS3dFormatFramePacking     //!< Left and right view of 3D content coded in consecutive frames.
175 };
176 
177 /*! @brief This structure defines a color sample plane belonging to a buffer format. RGB buffer
178   formats have 1 plane whereas YUV buffer formats may have upto 4 planes.
179 
180   @sa LayerBuffer
181 */
182 struct LayerBufferPlane {
183   int fd = -1;           //!< File descriptor referring to the buffer associated with this plane.
184   uint32_t offset = 0;   //!< Offset of the plane in bytes from beginning of the buffer.
185   uint32_t stride = 0;   //!< Stride in bytes i.e. length of a scanline including padding.
186 };
187 
188 /*! @brief This structure defines flags associated with a layer buffer. The 1-bit flag can be set
189   to ON(1) or OFF(0).
190 
191   @sa LayerBuffer
192 */
193 struct LayerBufferFlags {
194   union {
195     struct {
196       uint32_t secure : 1;          //!< This flag shall be set by client to indicate that the
197                                     //!< buffer need to be handled securely.
198 
199       uint32_t video  : 1;          //!< This flag shall be set by client to indicate that the
200                                     //!< buffer is video/ui buffer.
201 
202       uint32_t macro_tile : 1;      //!< This flag shall be set by client to indicate that the
203                                     //!< buffer format is macro tiled.
204 
205       uint32_t interlace : 1;       //!< This flag shall be set by the client to indicate that
206                                     //!< the buffer has interlaced content.
207 
208       uint32_t secure_display : 1;  //!< This flag shall be set by the client to indicate that the
209                                     //!< secure display session is in progress. Secure display
210                                     //!< session can not coexist with non-secure session.
211     };
212 
213     uint32_t flags = 0;             //!< For initialization purpose only.
214                                     //!< Client shall not refer to it directly.
215   };
216 };
217 
218 /*! @brief This structure defines a layer buffer handle which contains raw buffer and its associated
219   properties.
220 
221   @sa LayerBuffer
222   @sa LayerStack
223 */
224 struct LayerBuffer {
225   uint32_t width = 0;           //!< Actual width of the Layer that this buffer is for.
226   uint32_t height = 0;          //!< Actual height of the Layer that this buffer is for.
227   uint32_t size = 0;            //!< Size of a single buffer (even if multiple clubbed together)
228   LayerBufferFormat format = kFormatRGBA8888;     //!< Format of the buffer content.
229   LayerCSC csc = kCSCFullRange601;                //!< Color Space of the layer.
230   LayerIGC igc = kIGCNotSpecified;                //!< IGC that will be applied on this layer.
231   LayerBufferPlane planes[4] = {};
232                                 //!< Array of planes that this buffer contains. RGB buffer formats
233                                 //!< have 1 plane whereas YUV buffer formats may have upto 4 planes
234                                 //!< Total number of planes for the buffer will be interpreted based
235                                 //!< on the buffer format specified.
236 
237   int acquire_fence_fd = -1;    //!< File descriptor referring to a sync fence object which will be
238                                 //!< signaled when buffer can be read/write by display manager.
239                                 //!< This fence object is set by the client during Commit(). For
240                                 //!< input buffers client shall signal this fence when buffer
241                                 //!< content is available and can be read by display manager. For
242                                 //!< output buffers, client shall signal fence when buffer is ready
243                                 //!< to be written by display manager.
244 
245                                 //!< This field is used only during Commit() and shall be set to -1
246                                 //!< by the client when buffer is already available for read/write.
247 
248   int release_fence_fd = -1;    //!< File descriptor referring to a sync fence object which will be
249                                 //!< signaled when buffer has been read/written by display manager.
250                                 //!< This fence object is set by display manager during Commit().
251                                 //!< For input buffers display manager will signal this fence when
252                                 //!< buffer has been consumed. For output buffers, display manager
253                                 //!< will signal this fence when buffer is produced.
254 
255                                 //!< This field is used only during Commit() and will be set to -1
256                                 //!< by display manager when buffer is already available for
257                                 //!< read/write.
258 
259   LayerBufferFlags flags;       //!< Flags associated with this buffer.
260 
261   LayerBufferS3DFormat s3d_format = kS3dFormatNone;
262                                 //!< Represents the format of the buffer content in 3D.
263   uint64_t buffer_id __attribute__((aligned(8))) = 0;
264                                 //!< Specifies the buffer id.
265 };
266 
267 }  // namespace sdm
268 
269 #endif  // __LAYER_BUFFER_H__
270 
271