1 /*
2 _* Copyright (C) 2013-2019 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 #define LOG_TAG "HWLUtils"
18 #include "HWLUtils.h"
19 #include <log/log.h>
20 #include "utils.h"
21
22 #include <map>
23
24 namespace android {
25
26 using google_camera_hal::utils::HasCapability;
27
GetSensorCharacteristics(const HalCameraMetadata * metadata,SensorCharacteristics * sensor_chars)28 status_t GetSensorCharacteristics(const HalCameraMetadata* metadata,
29 SensorCharacteristics* sensor_chars /*out*/) {
30 if ((metadata == nullptr) || (sensor_chars == nullptr)) {
31 return BAD_VALUE;
32 }
33
34 status_t ret = OK;
35 camera_metadata_ro_entry_t entry;
36 ret = metadata->Get(ANDROID_SENSOR_INFO_PIXEL_ARRAY_SIZE, &entry);
37 if ((ret != OK) || (entry.count != 2)) {
38 ALOGE("%s: Invalid ANDROID_SENSOR_INFO_PIXEL_ARRAY_SIZE!", __FUNCTION__);
39 return BAD_VALUE;
40 }
41 sensor_chars->width = entry.data.i32[0];
42 sensor_chars->height = entry.data.i32[1];
43 sensor_chars->full_res_width = sensor_chars->width;
44 sensor_chars->full_res_height = sensor_chars->height;
45
46 ret = metadata->Get(ANDROID_SENSOR_INFO_PIXEL_ARRAY_SIZE_MAXIMUM_RESOLUTION,
47 &entry);
48 if ((ret == OK) && (entry.count == 2)) {
49 sensor_chars->full_res_width = entry.data.i32[0];
50 sensor_chars->full_res_height = entry.data.i32[1];
51 sensor_chars->quad_bayer_sensor = true;
52 }
53
54 ret = metadata->Get(ANDROID_REQUEST_MAX_NUM_OUTPUT_STREAMS, &entry);
55 if ((ret != OK) || (entry.count != 3)) {
56 ALOGE("%s: Invalid ANDROID_REQUEST_MAX_NUM_OUTPUT_STREAMS!", __FUNCTION__);
57 return BAD_VALUE;
58 }
59
60 sensor_chars->max_raw_streams = entry.data.i32[0];
61 sensor_chars->max_processed_streams = entry.data.i32[1];
62 sensor_chars->max_stalling_streams = entry.data.i32[2];
63
64 if (HasCapability(metadata,
65 ANDROID_REQUEST_AVAILABLE_CAPABILITIES_MANUAL_SENSOR)) {
66 ret = metadata->Get(ANDROID_SENSOR_INFO_EXPOSURE_TIME_RANGE, &entry);
67 if ((ret != OK) ||
68 (entry.count != ARRAY_SIZE(sensor_chars->exposure_time_range))) {
69 ALOGE("%s: Invalid ANDROID_SENSOR_INFO_EXPOSURE_TIME_RANGE!",
70 __FUNCTION__);
71 return BAD_VALUE;
72 }
73 memcpy(sensor_chars->exposure_time_range, entry.data.i64,
74 sizeof(sensor_chars->exposure_time_range));
75
76 ret = metadata->Get(ANDROID_SENSOR_INFO_MAX_FRAME_DURATION, &entry);
77 if ((ret != OK) || (entry.count != 1)) {
78 ALOGE("%s: Invalid ANDROID_SENSOR_INFO_MAX_FRAME_DURATION!", __FUNCTION__);
79 return BAD_VALUE;
80 }
81 sensor_chars->frame_duration_range[1] = entry.data.i64[0];
82 sensor_chars->frame_duration_range[0] =
83 EmulatedSensor::kSupportedFrameDurationRange[0];
84
85 ret = metadata->Get(ANDROID_SENSOR_INFO_SENSITIVITY_RANGE, &entry);
86 if ((ret != OK) ||
87 (entry.count != ARRAY_SIZE(sensor_chars->sensitivity_range))) {
88 ALOGE("%s: Invalid ANDROID_SENSOR_INFO_SENSITIVITY_RANGE!", __FUNCTION__);
89 return BAD_VALUE;
90 }
91 memcpy(sensor_chars->sensitivity_range, entry.data.i64,
92 sizeof(sensor_chars->sensitivity_range));
93 } else {
94 memcpy(sensor_chars->exposure_time_range,
95 EmulatedSensor::kSupportedExposureTimeRange,
96 sizeof(sensor_chars->exposure_time_range));
97 memcpy(sensor_chars->frame_duration_range,
98 EmulatedSensor::kSupportedFrameDurationRange,
99 sizeof(sensor_chars->frame_duration_range));
100 memcpy(sensor_chars->sensitivity_range,
101 EmulatedSensor::kSupportedSensitivityRange,
102 sizeof(sensor_chars->sensitivity_range));
103 }
104
105 if (HasCapability(metadata, ANDROID_REQUEST_AVAILABLE_CAPABILITIES_RAW)) {
106 ret = metadata->Get(ANDROID_SENSOR_INFO_COLOR_FILTER_ARRANGEMENT, &entry);
107 if ((ret != OK) || (entry.count != 1)) {
108 ALOGE("%s: Invalid ANDROID_SENSOR_INFO_COLOR_FILTER_ARRANGEMENT!",
109 __FUNCTION__);
110 return BAD_VALUE;
111 }
112
113 sensor_chars->color_arangement = static_cast<
114 camera_metadata_enum_android_sensor_info_color_filter_arrangement>(
115 entry.data.u8[0]);
116
117 ret = metadata->Get(ANDROID_SENSOR_INFO_WHITE_LEVEL, &entry);
118 if ((ret != OK) || (entry.count != 1)) {
119 ALOGE("%s: Invalid ANDROID_SENSOR_INFO_WHITE_LEVEL!", __FUNCTION__);
120 return BAD_VALUE;
121 }
122 sensor_chars->max_raw_value = entry.data.i32[0];
123
124 ret = metadata->Get(ANDROID_SENSOR_BLACK_LEVEL_PATTERN, &entry);
125 if ((ret != OK) ||
126 (entry.count != ARRAY_SIZE(sensor_chars->black_level_pattern))) {
127 ALOGE("%s: Invalid ANDROID_SENSOR_BLACK_LEVEL_PATTERN!", __FUNCTION__);
128 return BAD_VALUE;
129 }
130
131 memcpy(sensor_chars->black_level_pattern, entry.data.i32,
132 sizeof(sensor_chars->black_level_pattern));
133
134 ret = metadata->Get(ANDROID_LENS_INFO_SHADING_MAP_SIZE, &entry);
135 if ((ret == OK) && (entry.count == 2)) {
136 sensor_chars->lens_shading_map_size[0] = entry.data.i32[0];
137 sensor_chars->lens_shading_map_size[1] = entry.data.i32[1];
138 } else {
139 ALOGE("%s: No available shading map size!", __FUNCTION__);
140 return BAD_VALUE;
141 }
142
143 ret = metadata->Get(ANDROID_SENSOR_COLOR_TRANSFORM1, &entry);
144 if ((ret != OK) || (entry.count != (3 * 3))) { // 3x3 rational matrix
145 ALOGE("%s: Invalid ANDROID_SENSOR_COLOR_TRANSFORM1!", __FUNCTION__);
146 return BAD_VALUE;
147 }
148
149 sensor_chars->color_filter.rX = RAT_TO_FLOAT(entry.data.r[0]);
150 sensor_chars->color_filter.rY = RAT_TO_FLOAT(entry.data.r[1]);
151 sensor_chars->color_filter.rZ = RAT_TO_FLOAT(entry.data.r[2]);
152 sensor_chars->color_filter.grX = RAT_TO_FLOAT(entry.data.r[3]);
153 sensor_chars->color_filter.grY = RAT_TO_FLOAT(entry.data.r[4]);
154 sensor_chars->color_filter.grZ = RAT_TO_FLOAT(entry.data.r[5]);
155 sensor_chars->color_filter.gbX = RAT_TO_FLOAT(entry.data.r[3]);
156 sensor_chars->color_filter.gbY = RAT_TO_FLOAT(entry.data.r[4]);
157 sensor_chars->color_filter.gbZ = RAT_TO_FLOAT(entry.data.r[5]);
158 sensor_chars->color_filter.bX = RAT_TO_FLOAT(entry.data.r[6]);
159 sensor_chars->color_filter.bY = RAT_TO_FLOAT(entry.data.r[7]);
160 sensor_chars->color_filter.bZ = RAT_TO_FLOAT(entry.data.r[8]);
161 } else {
162 sensor_chars->color_arangement = static_cast<
163 camera_metadata_enum_android_sensor_info_color_filter_arrangement>(
164 EmulatedSensor::kSupportedColorFilterArrangement);
165 sensor_chars->max_raw_value = EmulatedSensor::kDefaultMaxRawValue;
166 memcpy(sensor_chars->black_level_pattern,
167 EmulatedSensor::kDefaultBlackLevelPattern,
168 sizeof(sensor_chars->black_level_pattern));
169 }
170
171 if (HasCapability(
172 metadata,
173 ANDROID_REQUEST_AVAILABLE_CAPABILITIES_PRIVATE_REPROCESSING) ||
174 HasCapability(metadata,
175 ANDROID_REQUEST_AVAILABLE_CAPABILITIES_YUV_REPROCESSING)) {
176 ret = metadata->Get(ANDROID_REQUEST_MAX_NUM_INPUT_STREAMS, &entry);
177 if ((ret != OK) || (entry.count != 1)) {
178 ALOGE("%s: Invalid ANDROID_REQUEST_MAX_NUM_INPUT_STREAMS!", __FUNCTION__);
179 return BAD_VALUE;
180 }
181
182 sensor_chars->max_input_streams = entry.data.i32[0];
183 }
184
185 ret = metadata->Get(ANDROID_REQUEST_PIPELINE_MAX_DEPTH, &entry);
186 if ((ret == OK) && (entry.count == 1)) {
187 if (entry.data.u8[0] == 0) {
188 ALOGE("%s: Maximum request pipeline must have a non zero value!",
189 __FUNCTION__);
190 return BAD_VALUE;
191 }
192 sensor_chars->max_pipeline_depth = entry.data.u8[0];
193 } else {
194 ALOGE("%s: Maximum request pipeline depth absent!", __FUNCTION__);
195 return BAD_VALUE;
196 }
197
198 ret = metadata->Get(ANDROID_SENSOR_ORIENTATION, &entry);
199 if ((ret == OK) && (entry.count == 1)) {
200 sensor_chars->orientation = entry.data.i32[0];
201 } else {
202 ALOGE("%s: Sensor orientation absent!", __FUNCTION__);
203 return BAD_VALUE;
204 }
205
206 ret = metadata->Get(ANDROID_LENS_FACING, &entry);
207 if ((ret == OK) && (entry.count == 1)) {
208 sensor_chars->is_front_facing = false;
209 if (ANDROID_LENS_FACING_FRONT == entry.data.u8[0]) {
210 sensor_chars->is_front_facing = true;
211 }
212 } else {
213 ALOGE("%s: Lens facing absent!", __FUNCTION__);
214 return BAD_VALUE;
215 }
216 return ret;
217 }
218
ClonePhysicalDeviceMap(const PhysicalDeviceMapPtr & src)219 PhysicalDeviceMapPtr ClonePhysicalDeviceMap(const PhysicalDeviceMapPtr& src) {
220 auto ret = std::make_unique<PhysicalDeviceMap>();
221 for (const auto& it : *src) {
222 ret->emplace(it.first, std::make_pair(it.second.first,
223 HalCameraMetadata::Clone(it.second.second.get())));
224 }
225 return ret;
226 }
227
228 } // namespace android
229