1 /*
2  * Copyright 2014 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_TV_INPUT_INTERFACE_H
18 #define ANDROID_TV_INPUT_INTERFACE_H
19 
20 #include <stdint.h>
21 #include <sys/cdefs.h>
22 #include <sys/types.h>
23 
24 #include <hardware/hardware.h>
25 #include <system/audio.h>
26 #include <cutils/native_handle.h>
27 
28 __BEGIN_DECLS
29 
30 /*
31  * Module versioning information for the TV input hardware module, based on
32  * tv_input_module_t.common.module_api_version.
33  *
34  * Version History:
35  *
36  * TV_INPUT_MODULE_API_VERSION_0_1:
37  * Initial TV input hardware module API.
38  *
39  */
40 
41 #define TV_INPUT_MODULE_API_VERSION_0_1  HARDWARE_MODULE_API_VERSION(0, 1)
42 
43 #define TV_INPUT_DEVICE_API_VERSION_0_1  HARDWARE_DEVICE_API_VERSION(0, 1)
44 
45 /*
46  * The id of this module
47  */
48 #define TV_INPUT_HARDWARE_MODULE_ID "tv_input"
49 
50 #define TV_INPUT_DEFAULT_DEVICE "default"
51 
52 /*****************************************************************************/
53 
54 /*
55  * Every hardware module must have a data structure named HAL_MODULE_INFO_SYM
56  * and the fields of this data structure must begin with hw_module_t
57  * followed by module specific information.
58  */
59 typedef struct tv_input_module {
60     struct hw_module_t common;
61 } tv_input_module_t;
62 
63 /*****************************************************************************/
64 
65 enum {
66     /* Generic hardware. */
67     TV_INPUT_TYPE_OTHER_HARDWARE = 1,
68     /* Tuner. (e.g. built-in terrestrial tuner) */
69     TV_INPUT_TYPE_TUNER = 2,
70     TV_INPUT_TYPE_COMPOSITE = 3,
71     TV_INPUT_TYPE_SVIDEO = 4,
72     TV_INPUT_TYPE_SCART = 5,
73     TV_INPUT_TYPE_COMPONENT = 6,
74     TV_INPUT_TYPE_VGA = 7,
75     TV_INPUT_TYPE_DVI = 8,
76     /* Physical HDMI port. (e.g. HDMI 1) */
77     TV_INPUT_TYPE_HDMI = 9,
78     TV_INPUT_TYPE_DISPLAY_PORT = 10,
79 };
80 typedef uint32_t tv_input_type_t;
81 
82 typedef struct tv_input_device_info {
83     /* Device ID */
84     int device_id;
85 
86     /* Type of physical TV input. */
87     tv_input_type_t type;
88 
89     union {
90         struct {
91             /* HDMI port ID number */
92             uint32_t port_id;
93         } hdmi;
94 
95         /* TODO: add other type specific information. */
96 
97         int32_t type_info_reserved[16];
98     };
99 
100     /* TODO: Add capability if necessary. */
101 
102     /*
103      * Audio info
104      *
105      * audio_type == AUDIO_DEVICE_NONE if this input has no audio.
106      */
107     audio_devices_t audio_type;
108     const char* audio_address;
109 
110     int32_t reserved[16];
111 } tv_input_device_info_t;
112 
113 /* See tv_input_event_t for more details. */
114 enum {
115     /*
116      * Hardware notifies the framework that a device is available.
117      *
118      * Note that DEVICE_AVAILABLE and DEVICE_UNAVAILABLE events do not represent
119      * hotplug events (i.e. plugging cable into or out of the physical port).
120      * These events notify the framework whether the port is available or not.
121      * For a concrete example, when a user plugs in or pulls out the HDMI cable
122      * from a HDMI port, it does not generate DEVICE_AVAILABLE and/or
123      * DEVICE_UNAVAILABLE events. However, if a user inserts a pluggable USB
124      * tuner into the Android device, it will generate a DEVICE_AVAILABLE event
125      * and when the port is removed, it should generate a DEVICE_UNAVAILABLE
126      * event.
127      *
128      * For hotplug events, please see STREAM_CONFIGURATION_CHANGED for more
129      * details.
130      *
131      * HAL implementation should register devices by using this event when the
132      * device boots up. The framework will recognize device reported via this
133      * event only. In addition, the implementation could use this event to
134      * notify the framework that a removable TV input device (such as USB tuner
135      * as stated in the example above) is attached.
136      */
137     TV_INPUT_EVENT_DEVICE_AVAILABLE = 1,
138     /*
139      * Hardware notifies the framework that a device is unavailable.
140      *
141      * HAL implementation should generate this event when a device registered
142      * by TV_INPUT_EVENT_DEVICE_AVAILABLE is no longer available. For example,
143      * the event can indicate that a USB tuner is plugged out from the Android
144      * device.
145      *
146      * Note that this event is not for indicating cable plugged out of the port;
147      * for that purpose, the implementation should use
148      * STREAM_CONFIGURATION_CHANGED event. This event represents the port itself
149      * being no longer available.
150      */
151     TV_INPUT_EVENT_DEVICE_UNAVAILABLE = 2,
152     /*
153      * Stream configurations are changed. Client should regard all open streams
154      * at the specific device are closed, and should call
155      * get_stream_configurations() again, opening some of them if necessary.
156      *
157      * HAL implementation should generate this event when the available stream
158      * configurations change for any reason. A typical use case of this event
159      * would be to notify the framework that the input signal has changed
160      * resolution, or that the cable is plugged out so that the number of
161      * available streams is 0.
162      *
163      * The implementation may use this event to indicate hotplug status of the
164      * port. the framework regards input devices with no available streams as
165      * disconnected, so the implementation can generate this event with no
166      * available streams to indicate that this device is disconnected, and vice
167      * versa.
168      */
169     TV_INPUT_EVENT_STREAM_CONFIGURATIONS_CHANGED = 3,
170     /*
171      * Hardware is done with capture request with the buffer. Client can assume
172      * ownership of the buffer again.
173      *
174      * HAL implementation should generate this event after request_capture() if
175      * it succeeded. The event shall have the buffer with the captured image.
176      */
177     TV_INPUT_EVENT_CAPTURE_SUCCEEDED = 4,
178     /*
179      * Hardware met a failure while processing a capture request or client
180      * canceled the request. Client can assume ownership of the buffer again.
181      *
182      * The event is similar to TV_INPUT_EVENT_CAPTURE_SUCCEEDED, but HAL
183      * implementation generates this event upon a failure to process
184      * request_capture(), or a request cancellation.
185      */
186     TV_INPUT_EVENT_CAPTURE_FAILED = 5,
187 };
188 typedef uint32_t tv_input_event_type_t;
189 
190 typedef struct tv_input_capture_result {
191     /* Device ID */
192     int device_id;
193 
194     /* Stream ID */
195     int stream_id;
196 
197     /* Sequence number of the request */
198     uint32_t seq;
199 
200     /*
201      * The buffer passed to hardware in request_capture(). The content of
202      * buffer is undefined (although buffer itself is valid) for
203      * TV_INPUT_CAPTURE_FAILED event.
204      */
205     buffer_handle_t buffer;
206 
207     /*
208      * Error code for the request. -ECANCELED if request is cancelled; other
209      * error codes are unknown errors.
210      */
211     int error_code;
212 } tv_input_capture_result_t;
213 
214 typedef struct tv_input_event {
215     tv_input_event_type_t type;
216 
217     union {
218         /*
219          * TV_INPUT_EVENT_DEVICE_AVAILABLE: all fields are relevant
220          * TV_INPUT_EVENT_DEVICE_UNAVAILABLE: only device_id is relevant
221          * TV_INPUT_EVENT_STREAM_CONFIGURATIONS_CHANGED: only device_id is
222          *    relevant
223          */
224         tv_input_device_info_t device_info;
225         /*
226          * TV_INPUT_EVENT_CAPTURE_SUCCEEDED: error_code is not relevant
227          * TV_INPUT_EVENT_CAPTURE_FAILED: all fields are relevant
228          */
229         tv_input_capture_result_t capture_result;
230     };
231 } tv_input_event_t;
232 
233 typedef struct tv_input_callback_ops {
234     /*
235      * event contains the type of the event and additional data if necessary.
236      * The event object is guaranteed to be valid only for the duration of the
237      * call.
238      *
239      * data is an object supplied at device initialization, opaque to the
240      * hardware.
241      */
242     void (*notify)(struct tv_input_device* dev,
243             tv_input_event_t* event, void* data);
244 } tv_input_callback_ops_t;
245 
246 enum {
247     TV_STREAM_TYPE_INDEPENDENT_VIDEO_SOURCE = 1,
248     TV_STREAM_TYPE_BUFFER_PRODUCER = 2,
249 };
250 typedef uint32_t tv_stream_type_t;
251 
252 typedef struct tv_stream_config {
253     /*
254      * ID number of the stream. This value is used to identify the whole stream
255      * configuration.
256      */
257     int stream_id;
258 
259     /* Type of the stream */
260     tv_stream_type_t type;
261 
262     /* Max width/height of the stream. */
263     uint32_t max_video_width;
264     uint32_t max_video_height;
265 } tv_stream_config_t;
266 
267 typedef struct buffer_producer_stream {
268     /*
269      * IN/OUT: Width / height of the stream. Client may request for specific
270      * size but hardware may change it. Client must allocate buffers with
271      * specified width and height.
272      */
273     uint32_t width;
274     uint32_t height;
275 
276     /* OUT: Client must set this usage when allocating buffer. */
277     uint32_t usage;
278 
279     /* OUT: Client must allocate a buffer with this format. */
280     uint32_t format;
281 } buffer_producer_stream_t;
282 
283 typedef struct tv_stream {
284     /* IN: ID in the stream configuration */
285     int stream_id;
286 
287     /* OUT: Type of the stream (for convenience) */
288     tv_stream_type_t type;
289 
290     /* Data associated with the stream for client's use */
291     union {
292         /* OUT: A native handle describing the sideband stream source */
293         native_handle_t* sideband_stream_source_handle;
294 
295         /* IN/OUT: Details are in buffer_producer_stream_t */
296         buffer_producer_stream_t buffer_producer;
297     };
298 } tv_stream_t;
299 
300 /*
301  * Every device data structure must begin with hw_device_t
302  * followed by module specific public methods and attributes.
303  */
304 typedef struct tv_input_device {
305     struct hw_device_t common;
306 
307     /*
308      * initialize:
309      *
310      * Provide callbacks to the device and start operation. At first, no device
311      * is available and after initialize() completes, currently available
312      * devices including static devices should notify via callback.
313      *
314      * Framework owns callbacks object.
315      *
316      * data is a framework-owned object which would be sent back to the
317      * framework for each callback notifications.
318      *
319      * Return 0 on success.
320      */
321     int (*initialize)(struct tv_input_device* dev,
322             const tv_input_callback_ops_t* callback, void* data);
323 
324     /*
325      * get_stream_configurations:
326      *
327      * Get stream configurations for a specific device. An input device may have
328      * multiple configurations.
329      *
330      * The configs object is guaranteed to be valid only until the next call to
331      * get_stream_configurations() or STREAM_CONFIGURATIONS_CHANGED event.
332      *
333      * Return 0 on success.
334      */
335     int (*get_stream_configurations)(const struct tv_input_device* dev,
336             int device_id, int* num_configurations,
337             const tv_stream_config_t** configs);
338 
339     /*
340      * open_stream:
341      *
342      * Open a stream with given stream ID. Caller owns stream object, and the
343      * populated data is only valid until the stream is closed.
344      *
345      * Return 0 on success; -EBUSY if the client should close other streams to
346      * open the stream; -EEXIST if the stream with the given ID is already open;
347      * -EINVAL if device_id and/or stream_id are invalid; other non-zero value
348      * denotes unknown error.
349      */
350     int (*open_stream)(struct tv_input_device* dev, int device_id,
351             tv_stream_t* stream);
352 
353     /*
354      * close_stream:
355      *
356      * Close a stream to a device. data in tv_stream_t* object associated with
357      * the stream_id is obsolete once this call finishes.
358      *
359      * Return 0 on success; -ENOENT if the stream is not open; -EINVAL if
360      * device_id and/or stream_id are invalid.
361      */
362     int (*close_stream)(struct tv_input_device* dev, int device_id,
363             int stream_id);
364 
365     /*
366      * request_capture:
367      *
368      * Request buffer capture for a stream. This is only valid for buffer
369      * producer streams. The buffer should be created with size, format and
370      * usage specified in the stream. Framework provides seq in an
371      * increasing sequence per each stream. Hardware should provide the picture
372      * in a chronological order according to seq. For example, if two
373      * requests are being processed at the same time, the request with the
374      * smaller seq should get an earlier frame.
375      *
376      * The framework releases the ownership of the buffer upon calling this
377      * function. When the buffer is filled, hardware notifies the framework
378      * via TV_INPUT_EVENT_CAPTURE_FINISHED callback, and the ownership is
379      * transferred back to framework at that time.
380      *
381      * Return 0 on success; -ENOENT if the stream is not open; -EINVAL if
382      * device_id and/or stream_id are invalid; -EWOULDBLOCK if HAL cannot take
383      * additional requests until it releases a buffer.
384      */
385     int (*request_capture)(struct tv_input_device* dev, int device_id,
386             int stream_id, buffer_handle_t buffer, uint32_t seq);
387 
388     /*
389      * cancel_capture:
390      *
391      * Cancel an ongoing capture. Hardware should release the buffer as soon as
392      * possible via TV_INPUT_EVENT_CAPTURE_FAILED callback.
393      *
394      * Return 0 on success; -ENOENT if the stream is not open; -EINVAL if
395      * device_id, stream_id, and/or seq are invalid.
396      */
397     int (*cancel_capture)(struct tv_input_device* dev, int device_id,
398             int stream_id, uint32_t seq);
399 
400     void* reserved[16];
401 } tv_input_device_t;
402 
403 __END_DECLS
404 
405 #endif  // ANDROID_TV_INPUT_INTERFACE_H
406