blob: 9841a5d137e296066166a7a667ff1ad69cc706a3 [file] [log] [blame]
/*
**
** Copyright 2013, Samsung Electronics Co. LTD
**
** Licensed under the Apache License, Version 2.0 (the "License");
** you may not use this file except in compliance with the License.
** You may obtain a copy of the License at
**
** http://www.apache.org/licenses/LICENSE-2.0
**
** Unless required by applicable law or agreed to in writing, software
** distributed under the License is distributed on an "AS IS" BASIS,
** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
** See the License for the specific language governing permissions and
** limitations under the License.
*/
/* #define LOG_NDEBUG 0 */
#define LOG_TAG "ExynosCameraDualInterface"
#include <cutils/log.h>
#include "ExynosCameraDualInterface.h"
#include "ExynosCameraAutoTimer.h"
namespace android {
static int HAL_camera_device_open(
const struct hw_module_t* module,
const char *id,
struct hw_device_t** device)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
int cameraId = atoi(id);
#ifdef BOARD_BACK_CAMERA_USES_EXTERNAL_CAMERA
if (cameraId == 0) {
return HAL_ext_camera_device_open_wrapper(module, id, device);
}
#endif
#ifdef BOARD_FRONT_CAMERA_USES_EXTERNAL_CAMERA
if (cameraId == 1) {
return HAL_ext_camera_device_open_wrapper(module, id, device);
}
#endif
#if (defined BOARD_BACK_CAMERA_USES_EXTERNAL_CAMERA) && (defined BOARD_FRONT_CAMERA_USES_EXTERNAL_CAMERA)
#else
enum CAMERA_STATE state;
ALOGI("INFO(%s[%d]):camera(%d) in", __FUNCTION__, __LINE__, cameraId);
if (cameraId < 0 || cameraId >= EXYNOS_CAMERA_INTERNAL_NUM) {
ALOGE("ERR(%s):Invalid camera ID %s", __FUNCTION__, id);
return -EINVAL;
}
state = CAMERA_OPENED;
if (check_camera_state(state, cameraId) == false) {
ALOGE("ERR(%s):camera(%d) state(%d) is INVALID", __FUNCTION__, cameraId, state);
return -1;
}
if (g_cam_device[cameraId]) {
ALOGE("DEBUG(%s):returning existing camera ID %s", __FUNCTION__, id);
*device = (hw_device_t *)g_cam_device[cameraId];
goto done;
}
g_cam_device[cameraId] = (camera_device_t *)malloc(sizeof(camera_device_t));
if (!g_cam_device[cameraId])
return -ENOMEM;
g_cam_openLock[cameraId].lock();
g_cam_device[cameraId]->common.tag = HARDWARE_DEVICE_TAG;
g_cam_device[cameraId]->common.version = 1;
g_cam_device[cameraId]->common.module = const_cast<hw_module_t *>(module);
g_cam_device[cameraId]->ops = &camera_device_ops;
ALOGD("DEBUG(%s):open camera %s", __FUNCTION__, id);
g_cam_device[cameraId]->priv = new ExynosCamera(cameraId, g_cam_device[cameraId]);
*device = (hw_device_t *)g_cam_device[cameraId];
ALOGI("INFO(%s[%d]):camera(%d) out from new g_cam_device[%d]->priv()",
__FUNCTION__, __LINE__, cameraId, cameraId);
g_cam_device[cameraId]->common.close = HAL_camera_device_dual_close;
g_cam_openLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) unlocked..", __FUNCTION__, __LINE__, cameraId);
done:
cam_stateLock[cameraId].lock();
cam_state[cameraId] = state;
cam_stateLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) out", __FUNCTION__, __LINE__, cameraId);
#endif /* (defined BOARD_BACK_CAMERA_USES_EXTERNAL_CAMERA) && (defined BOARD_FRONT_CAMERA_USES_EXTERNAL_CAMERA) */
return 0;
}
static int HAL_camera_device_close(struct hw_device_t* device)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
uint32_t cameraId;
enum CAMERA_STATE state;
#if (defined BOARD_BACK_CAMERA_USES_EXTERNAL_CAMERA) && (defined BOARD_FRONT_CAMERA_USES_EXTERNAL_CAMERA)
#else
ALOGI("INFO(%s[%d]): in", __FUNCTION__, __LINE__);
if (device) {
camera_device_t *cam_device = (camera_device_t *)device;
cameraId = obj(cam_device)->getCameraId();
ALOGI("INFO(%s[%d]):camera(%d)", __FUNCTION__, __LINE__, cameraId);
state = CAMERA_CLOSED;
if (check_camera_state(state, cameraId) == false) {
ALOGE("ERR(%s):camera(%d) state(%d) is INVALID",
__FUNCTION__, cameraId, state);
return -1;
}
g_cam_openLock[cameraId].lock();
ALOGI("INFO(%s[%d]):camera(%d) locked..", __FUNCTION__, __LINE__, cameraId);
g_cam_device[cameraId] = NULL;
g_cam_openLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) unlocked..", __FUNCTION__, __LINE__, cameraId);
delete static_cast<ExynosCamera *>(cam_device->priv);
free(cam_device);
cam_stateLock[cameraId].lock();
cam_state[cameraId] = state;
cam_stateLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d)", __FUNCTION__, __LINE__, cameraId);
}
ALOGI("INFO(%s[%d]): out", __FUNCTION__, __LINE__);
#endif /* (defined BOARD_BACK_CAMERA_USES_EXTERNAL_CAMERA) && (defined BOARD_FRONT_CAMERA_USES_EXTERNAL_CAMERA) */
return 0;
}
static int HAL_camera_device_set_preview_window(
struct camera_device *dev,
struct preview_stream_ops *buf)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
static int ret;
uint32_t cameraId = obj(dev)->getCameraId();
ALOGI("INFO(%s[%d]):camera(%d) in", __FUNCTION__, __LINE__, cameraId);
ret = obj(dev)->setPreviewWindow(buf);
ALOGI("INFO(%s[%d]):camera(%d) out", __FUNCTION__, __LINE__, cameraId);
return ret;
}
static void HAL_camera_device_set_callbacks(struct camera_device *dev,
camera_notify_callback notify_cb,
camera_data_callback data_cb,
camera_data_timestamp_callback data_cb_timestamp,
camera_request_memory get_memory,
void* user)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
obj(dev)->setCallbacks(notify_cb, data_cb, data_cb_timestamp,
get_memory,
user);
}
static void HAL_camera_device_enable_msg_type(
struct camera_device *dev,
int32_t msg_type)
{
ALOGV("DEBUG(%s):", __FUNCTION__);
obj(dev)->enableMsgType(msg_type);
}
static void HAL_camera_device_disable_msg_type(
struct camera_device *dev,
int32_t msg_type)
{
ALOGV("DEBUG(%s):", __FUNCTION__);
obj(dev)->disableMsgType(msg_type);
}
static int HAL_camera_device_msg_type_enabled(
struct camera_device *dev,
int32_t msg_type)
{
ALOGV("DEBUG(%s):", __FUNCTION__);
return obj(dev)->msgTypeEnabled(msg_type);
}
static int HAL_camera_device_start_preview(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
static int ret;
uint32_t cameraId = obj(dev)->getCameraId();
enum CAMERA_STATE state;
ALOGI("INFO(%s[%d]):camera(%d) in", __FUNCTION__, __LINE__, cameraId);
state = CAMERA_PREVIEW;
if (check_camera_state(state, cameraId) == false) {
ALOGE("ERR(%s):camera(%d) state(%d) is INVALID",
__FUNCTION__, cameraId, state);
return -1;
}
g_cam_previewLock[cameraId].lock();
ret = obj(dev)->startPreview();
ALOGI("INFO(%s[%d]):camera(%d) out from startPreview()",
__FUNCTION__, __LINE__, cameraId);
g_cam_previewLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) unlocked..", __FUNCTION__, __LINE__, cameraId);
if (ret == OK) {
cam_stateLock[cameraId].lock();
cam_state[cameraId] = state;
cam_stateLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) out (startPreview succeeded)",
__FUNCTION__, __LINE__, cameraId);
} else {
ALOGI("INFO(%s[%d]):camera(%d) out (startPreview FAILED)",
__FUNCTION__, __LINE__, cameraId);
}
return ret;
}
static void HAL_camera_device_stop_preview(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
uint32_t cameraId = obj(dev)->getCameraId();
enum CAMERA_STATE state;
ALOGI("INFO(%s[%d]):camera(%d) in", __FUNCTION__, __LINE__, cameraId);
/* HACK : If camera in recording state, */
/* CameraService have to call the stop_recording before the stop_preview */
#if 1
if (cam_state[cameraId] == CAMERA_RECORDING) {
ALOGE("ERR(%s[%d]):camera(%d) in RECORDING RUNNING state ---- INVALID ----",
__FUNCTION__, __LINE__, cameraId);
ALOGE("ERR(%s[%d]):camera(%d) The stop_recording must be called "
"before the stop_preview ---- INVALID ----",
__FUNCTION__, __LINE__, cameraId);
HAL_camera_device_stop_recording(dev);
ALOGE("ERR(%s[%d]):cameraId=%d out from stop_recording ---- INVALID ----",
__FUNCTION__, __LINE__, cameraId);
for (int i=0; i<30; i++) {
ALOGE("ERR(%s[%d]):camera(%d) The stop_recording must be called "
"before the stop_preview ---- INVALID ----",
__FUNCTION__, __LINE__, cameraId);
}
ALOGE("ERR(%s[%d]):camera(%d) sleep 500ms for ---- INVALID ---- state",
__FUNCTION__, __LINE__, cameraId);
usleep(500000); /* to notify, sleep 500ms */
}
#endif
state = CAMERA_PREVIEWSTOPPED;
if (check_camera_state(state, cameraId) == false) {
ALOGE("ERR(%s):camera(%d) state(%d) is INVALID", __FUNCTION__, cameraId, state);
return;
}
g_cam_previewLock[cameraId].lock();
obj(dev)->stopPreview();
ALOGI("INFO(%s[%d]):camera(%d) out from stopPreview()",
__FUNCTION__, __LINE__, cameraId);
g_cam_previewLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) unlocked..", __FUNCTION__, __LINE__, cameraId);
cam_stateLock[cameraId].lock();
cam_state[cameraId] = state;
cam_stateLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) out", __FUNCTION__, __LINE__, cameraId);
}
static int HAL_camera_device_preview_enabled(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
return obj(dev)->previewEnabled();
}
static int HAL_camera_device_store_meta_data_in_buffers(
struct camera_device *dev,
int enable)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
return obj(dev)->storeMetaDataInBuffers(enable);
}
static int HAL_camera_device_start_recording(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
static int ret;
uint32_t cameraId = obj(dev)->getCameraId();
enum CAMERA_STATE state;
ALOGI("INFO(%s[%d]):camera(%d) in", __FUNCTION__, __LINE__, cameraId);
state = CAMERA_RECORDING;
if (check_camera_state(state, cameraId) == false) {
ALOGE("ERR(%s):camera(%d) state(%d) is INVALID",
__FUNCTION__, cameraId, state);
return -1;
}
g_cam_recordingLock[cameraId].lock();
ret = obj(dev)->startRecording();
ALOGI("INFO(%s[%d]):camera(%d) out from startRecording()",
__FUNCTION__, __LINE__, cameraId);
g_cam_recordingLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) unlocked..", __FUNCTION__, __LINE__, cameraId);
if (ret == OK) {
cam_stateLock[cameraId].lock();
cam_state[cameraId] = state;
cam_stateLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) out (startRecording succeeded)",
__FUNCTION__, __LINE__, cameraId);
} else {
ALOGI("INFO(%s[%d]):camera(%d) out (startRecording FAILED)",
__FUNCTION__, __LINE__, cameraId);
}
return ret;
}
static void HAL_camera_device_stop_recording(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
uint32_t cameraId = obj(dev)->getCameraId();
enum CAMERA_STATE state;
ALOGI("INFO(%s[%d]):camera(%d) in", __FUNCTION__, __LINE__, cameraId);
state = CAMERA_RECORDINGSTOPPED;
if (check_camera_state(state, cameraId) == false) {
ALOGE("ERR(%s):camera(%d) state(%d) is INVALID", __FUNCTION__, cameraId, state);
return;
}
g_cam_recordingLock[cameraId].lock();
obj(dev)->stopRecording();
ALOGI("INFO(%s[%d]):camera(%d) out from stopRecording()",
__FUNCTION__, __LINE__, cameraId);
g_cam_recordingLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) unlocked..", __FUNCTION__, __LINE__, cameraId);
cam_stateLock[cameraId].lock();
cam_state[cameraId] = state;
cam_stateLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) out", __FUNCTION__, __LINE__, cameraId);
}
static int HAL_camera_device_recording_enabled(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
return obj(dev)->recordingEnabled();
}
static void HAL_camera_device_release_recording_frame(struct camera_device *dev,
const void *opaque)
{
/* ExynosCameraAutoTimer autoTimer(__FUNCTION__); */
ALOGV("DEBUG(%s):", __FUNCTION__);
obj(dev)->releaseRecordingFrame(opaque);
}
static int HAL_camera_device_auto_focus(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
return obj(dev)->autoFocus();
}
static int HAL_camera_device_cancel_auto_focus(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
return obj(dev)->cancelAutoFocus();
}
static int HAL_camera_device_take_picture(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
return obj(dev)->takePicture();
}
static int HAL_camera_device_cancel_picture(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
return obj(dev)->cancelPicture();
}
static int HAL_camera_device_set_parameters(
struct camera_device *dev,
const char *parms)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
String8 str(parms);
CameraParameters p(str);
return obj(dev)->setParameters(p);
}
char *HAL_camera_device_get_parameters(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
String8 str;
/* HACK : to avoid compile error */
#if (defined BOARD_BACK_CAMERA_USES_EXTERNAL_CAMERA) && (defined BOARD_FRONT_CAMERA_USES_EXTERNAL_CAMERA)
ALOGE("ERR(%s[%d]):invalid opertion on external camera", __FUNCTION__, __LINE__);
#else
CameraParameters parms = obj(dev)->getParameters();
str = parms.flatten();
#endif
return strdup(str.string());
}
static void HAL_camera_device_put_parameters(
__unused struct camera_device *dev,
char *parms)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
free(parms);
}
static int HAL_camera_device_send_command(
struct camera_device *dev,
int32_t cmd,
int32_t arg1,
int32_t arg2)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
return obj(dev)->sendCommand(cmd, arg1, arg2);
}
static void HAL_camera_device_release(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
uint32_t cameraId = obj(dev)->getCameraId();
enum CAMERA_STATE state;
ALOGI("INFO(%s[%d]):camera(%d) in", __FUNCTION__, __LINE__, cameraId);
state = CAMERA_RELEASED;
if (check_camera_state(state, cameraId) == false) {
ALOGE("ERR(%s):camera(%d) state(%d) is INVALID",
__FUNCTION__, cameraId, state);
return;
}
g_cam_openLock[cameraId].lock();
obj(dev)->release();
ALOGI("INFO(%s[%d]):camera(%d) out from release()",
__FUNCTION__, __LINE__, cameraId);
g_cam_openLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) unlocked..", __FUNCTION__, __LINE__, cameraId);
cam_stateLock[cameraId].lock();
cam_state[cameraId] = state;
cam_stateLock[cameraId].unlock();
ALOGI("INFO(%s[%d]):camera(%d) out", __FUNCTION__, __LINE__, cameraId);
}
static int HAL_camera_device_dump(struct camera_device *dev, int fd)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
return obj(dev)->dump(fd);
}
static int HAL_getNumberOfCameras()
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
return sizeof(sCameraInfo) / sizeof(sCameraInfo[0]);
}
static int HAL_set_callbacks(__unused const camera_module_callbacks_t *callbacks)
{
ALOGW("WRN(%s): not supported API level 1.0", __FUNCTION__);
return 0;
}
static int HAL_getCameraInfo(int cameraId, struct camera_info *info)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
ALOGV("DEBUG(%s):", __FUNCTION__);
if (cameraId < 0 || cameraId >= HAL_getNumberOfCameras()) {
ALOGE("ERR(%s):Invalid camera ID %d", __FUNCTION__, cameraId);
return -EINVAL;
}
memcpy(info, &sCameraInfo[cameraId], sizeof(CameraInfo));
info->device_version = HARDWARE_DEVICE_API_VERSION(1, 0);
return NO_ERROR;
}
static int HAL_open_legacy(__unused const struct hw_module_t* module, __unused const char* id, __unused uint32_t halVersion, __unused struct hw_device_t** device)
{
ALOGV("DEBUG(%s):", __FUNCTION__);
return NO_ERROR;
}
static void HAL_get_vendor_tag_ops(__unused vendor_tag_ops_t* ops)
{
ALOGV("INFO(%s):", __FUNCTION__);
}
/*
* from here
* Dual Camera Interface
*/
static int HAL_camera_device_dual_open(
const struct hw_module_t* module,
const char *id,
struct hw_device_t** device)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
int funcRet = 0;
int cameraId = atoi(id);
/* for dual camera. it open 2 HAL object on open time.
* if app want PIP, app will open another HAL.
* then, the HAL(opened for dual camera) will crush with HAL(open for PIP).
*
* so, if the opened camera HAL object is bigger than 1.
* this code close the HAL(opened for dual camera)
*/
ALOGD("DEBUG(%s[%d]):cameraId(%d):getOpenedCameraHalCnt() : %d",
__FUNCTION__, __LINE__, cameraId, getOpenedCameraHalCnt());
/*
* case1 : back camera opened (check)
* opened cnt : 2 (camera0, camera2)
* case2 : front camera opened (not check)
* opened cnt : 1 (camera1)
* case3 : nothing camera opened (not check)
* opened cnt : 0 (-)
*/
if (2 <= getOpenedCameraHalCnt()) {
int mainCameraId = -1;
int subCameraId = -1;
getDualCameraId(&mainCameraId, &subCameraId);
/* If it's PIP scenario, forcely close the slave camera */
if (mainCameraId != cameraId) {
int teleCameraId = subCameraId;
if (g_threadInterface[teleCameraId] != NULL) {
ret = g_threadInterface[teleCameraId]->checkApiDone();
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->checkApiDone() fail", __FUNCTION__, __LINE__, teleCameraId);
}
}
ALOGD("DEBUG(%s[%d]):cameraId(%d):try to close teleCameraId : %d for PIP",
__FUNCTION__, __LINE__, cameraId, teleCameraId);
enum CAMERA_STATE state = CAMERA_PREVIEW;
if (check_camera_state(state, teleCameraId) == true) {
HAL_camera_device_stop_preview(g_cam_device[teleCameraId]);
}
ret = HAL_camera_device_close(g_threadInterface[teleCameraId]->m_hw_device);
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):HAL_camera_device_close(%d) fail", __FUNCTION__, __LINE__, teleCameraId);
}
delete g_threadInterface[teleCameraId];
g_threadInterface[teleCameraId] = NULL;
delete g_callbackHooker[teleCameraId];
g_callbackHooker[teleCameraId] = NULL;
setPipMode(true);
} else {
setPipMode(false);
}
}
// wide
if (g_threadInterface[cameraId] != NULL) {
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):g_callbackHooker[%d] != NULL, assert!!!!",
__FUNCTION__, __LINE__, cameraId);
}
g_threadInterface[cameraId] = new ExynosCameraThreadInterface(module, cameraId);
g_threadInterface[cameraId]->setRunMode(ExynosCameraThreadInterface::RUN_MODE_IMMEDIATE);
if (g_callbackHooker[cameraId] != NULL) {
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):g_callbackHooker[%d] != NULL, assert!!!!",
__FUNCTION__, __LINE__, cameraId);
}
// no callback hooking
g_callbackHooker[cameraId] = new ExynosCameraCallbackHooker(cameraId);
g_callbackHooker[cameraId]->setHooking(false);
ret = g_threadInterface[cameraId]->open();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->open() fail", __FUNCTION__, __LINE__, cameraId);
goto done;
}
// tele
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
if (g_threadInterface[teleCameraId] != NULL) {
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):g_threadInterface[%d] != NULL, assert!!!!",
__FUNCTION__, __LINE__, teleCameraId);
}
g_threadInterface[teleCameraId] = new ExynosCameraThreadInterface(module, teleCameraId);
g_threadInterface[teleCameraId]->setRunMode(ExynosCameraThreadInterface::RUN_MODE_IMMEDIATE);
if (g_callbackHooker[teleCameraId] != NULL) {
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):g_callbackHooker[%d] != NULL, assert!!!!",
__FUNCTION__, __LINE__, teleCameraId);
}
// callback hooking on tele camera.
g_callbackHooker[teleCameraId] = new ExynosCameraCallbackHooker(teleCameraId);
g_callbackHooker[teleCameraId]->setHooking(true);
ret = g_threadInterface[teleCameraId]->open();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->open() fail", __FUNCTION__, __LINE__, teleCameraId);
goto done;
}
}
done:
for (int i = 0; i < MAX_NUM_OF_CAMERA; i++) {
if (g_threadInterface[i] != NULL) {
ret = g_threadInterface[i]->checkApiDone();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->checkApiDone() fail", __FUNCTION__, __LINE__, i);
}
}
}
if (funcRet == NO_ERROR) {
if (g_threadInterface[cameraId] != NULL)
*device = g_threadInterface[cameraId]->m_hw_device;
} else {
for (int i = 0; i < MAX_NUM_OF_CAMERA; i++) {
if (g_threadInterface[i] != NULL) {
HAL_camera_device_close(g_threadInterface[i]->m_hw_device);
delete g_threadInterface[i];
g_threadInterface[i] = NULL;
}
if (g_callbackHooker[i] != NULL) {
delete g_callbackHooker[i];
g_callbackHooker[i] = NULL;
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return funcRet;
};
static int HAL_camera_device_dual_close(struct hw_device_t* device)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
int funcRet = 0;
if (device) {
camera_device_t *cam_device = (camera_device_t *)device;
// wide
int cameraId = obj(cam_device)->getCameraId();
ret = g_threadInterface[cameraId]->close();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface(%d).close() fail", __FUNCTION__, __LINE__, cameraId);
}
// tele
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = g_threadInterface[teleCameraId]->close();
funcRet = ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface(%d).close() fail", __FUNCTION__, __LINE__, teleCameraId);
}
}
/*
* reset pip / dual camera mode status.
* it will check open on next time.
*/
if (getOpenedCameraHalCnt() == 0) {
setPipMode(false);
}
}
done:
for (int i = 0; i < MAX_NUM_OF_CAMERA; i++) {
if (g_threadInterface[i] != NULL) {
ret = g_threadInterface[i]->checkApiDone();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->checkApiDone() fail", __FUNCTION__, __LINE__, i);
}
delete g_threadInterface[i];
g_threadInterface[i] = NULL;
}
if (g_callbackHooker[i] != NULL) {
delete g_callbackHooker[i];
g_callbackHooker[i] = NULL;
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return funcRet;
}
static int HAL_camera_device_dual_set_preview_window(
struct camera_device *dev,
struct preview_stream_ops *buf)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = HAL_camera_device_set_preview_window(dev, buf);
if (ret != 0) {
ALOGW("WARN(%s[%d]):HAL_camera_device_set_preview_window(%d) fail", __FUNCTION__, __LINE__, cameraId);
/* return ret; */
}
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
/* this is set with NULL*/
ret = HAL_camera_device_set_preview_window(g_cam_device[teleCameraId], NULL);
if (ret != 0) {
ALOGW("WARN(%s[%d]):HAL_camera_device_set_preview_window(%d) fail", __FUNCTION__, __LINE__, teleCameraId);
/* return ret; */
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
static void HAL_camera_device_dual_set_callbacks(
struct camera_device *dev,
camera_notify_callback notify_cb,
camera_data_callback data_cb,
camera_data_timestamp_callback data_cb_timestamp,
camera_request_memory get_memory,
void* user)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
if (dev) {
int cameraId = obj(dev)->getCameraId();
if (isDualCamera(cameraId) == true) {
// wide
if (g_callbackHooker[cameraId] == NULL) {
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):g_callbackHooker[%d] == NULL, assert!!!!",
__FUNCTION__, __LINE__, cameraId);
}
g_callbackHooker[cameraId]->setCallbacks(g_cam_device[cameraId], notify_cb, data_cb, data_cb_timestamp, get_memory, user);
// tele
int teleCameraId = getTeleCameraId(cameraId);
if (g_callbackHooker[teleCameraId] == NULL) {
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):g_callbackHooker[%d] == NULL, assert!!!!",
__FUNCTION__, __LINE__, teleCameraId);
}
g_callbackHooker[teleCameraId]->setCallbacks(g_cam_device[teleCameraId], notify_cb, data_cb, data_cb_timestamp, get_memory, user);
} else {
HAL_camera_device_set_callbacks(dev, notify_cb, data_cb, data_cb_timestamp, get_memory, user);
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
}
static void HAL_camera_device_dual_enable_msg_type(
struct camera_device *dev,
int32_t msg_type)
{
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
if (dev) {
int cameraId = obj(dev)->getCameraId();
HAL_camera_device_enable_msg_type(dev, msg_type);
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
HAL_camera_device_enable_msg_type(g_cam_device[teleCameraId], msg_type);
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
}
static void HAL_camera_device_dual_disable_msg_type(
struct camera_device *dev,
int32_t msg_type)
{
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
if (dev) {
int cameraId = obj(dev)->getCameraId();
HAL_camera_device_disable_msg_type(dev, msg_type);
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
HAL_camera_device_disable_msg_type(g_cam_device[teleCameraId], msg_type);
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
}
static int HAL_camera_device_dual_msg_type_enabled(
struct camera_device *dev,
int32_t msg_type)
{
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = HAL_camera_device_msg_type_enabled(dev, msg_type);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_msg_type_enabled(%d) fail", __FUNCTION__, __LINE__, cameraId);
return ret;
}
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
/* this is set with NULL*/
ret = HAL_camera_device_msg_type_enabled(g_cam_device[teleCameraId], msg_type);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_msg_type_enabled(%d) fail", __FUNCTION__, __LINE__, teleCameraId);
return ret;
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
static int HAL_camera_device_dual_start_preview(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
int funcRet = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = g_threadInterface[cameraId]->startPreview();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->startPreview()", __FUNCTION__, __LINE__, cameraId);
goto done;
}
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = g_threadInterface[teleCameraId]->startPreview();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->startPreview()", __FUNCTION__, __LINE__, teleCameraId);
goto done;
}
}
}
done:
for (int i = 0; i < MAX_NUM_OF_CAMERA; i++) {
if (g_threadInterface[i] != NULL) {
ret = g_threadInterface[i]->checkApiDone();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->checkApiDone() fail", __FUNCTION__, __LINE__, i);
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return funcRet;
}
static void HAL_camera_device_dual_stop_preview(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = g_threadInterface[cameraId]->stopPreview();
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->stopPreview() fail", __FUNCTION__, __LINE__, cameraId);
}
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = g_threadInterface[teleCameraId]->stopPreview();
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->stopPreview() fail", __FUNCTION__, __LINE__, teleCameraId);
}
}
}
done:
for (int i = 0; i < MAX_NUM_OF_CAMERA; i++) {
if (g_threadInterface[i] != NULL) {
ret = g_threadInterface[i]->checkApiDone();
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->checkApiDone() fail", __FUNCTION__, __LINE__, i);
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
}
static int HAL_camera_device_dual_preview_enabled(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = HAL_camera_device_preview_enabled(dev);
/* tele camera follow wide camera */
/*
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = HAL_camera_device_preview_enabled(g_cam_device[teleCameraId]);
}
*/
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
static int HAL_camera_device_dual_store_meta_data_in_buffers(
struct camera_device *dev,
int enable)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = HAL_camera_device_store_meta_data_in_buffers(dev, enable);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_store_meta_data_in_buffers(%d) fail", __FUNCTION__, __LINE__, cameraId);
return ret;
}
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = HAL_camera_device_store_meta_data_in_buffers(g_cam_device[teleCameraId], enable);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_store_meta_data_in_buffers(%d) fail", __FUNCTION__, __LINE__, teleCameraId);
return ret;
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
static int HAL_camera_device_dual_start_recording(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = HAL_camera_device_start_recording(dev);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_start_recording(%d) fail", __FUNCTION__, __LINE__, cameraId);
return ret;
}
/* recording is happen only in wide camera */
/*
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = HAL_camera_device_start_recording(g_cam_device[teleCameraId]);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_start_recording(%d) fail", __FUNCTION__, __LINE__, teleCameraId);
return ret;
}
}
*/
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
static void HAL_camera_device_dual_stop_recording(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
if (dev) {
int cameraId = obj(dev)->getCameraId();
HAL_camera_device_stop_recording(dev);
/* recording is happen only in wide camera */
/*
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
HAL_camera_device_stop_recording(g_cam_device[teleCameraId]);
}
*/
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
}
static int HAL_camera_device_dual_recording_enabled(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = HAL_camera_device_recording_enabled(dev);
/* recording is happen only in wide camera */
/*
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = HAL_camera_device_recording_enabled(g_cam_device[teleCameraId]);
}
*/
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
static void HAL_camera_device_dual_release_recording_frame(
struct camera_device *dev,
const void *opaque)
{
/* ExynosCameraAutoTimer autoTimer(__FUNCTION__); */
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
if (dev) {
int cameraId = obj(dev)->getCameraId();
HAL_camera_device_release_recording_frame(dev, opaque);
/* recording is happen only in wide camera */
/*
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
HAL_camera_device_release_recording_frame(g_cam_device[teleCameraId], opaque);
}
*/
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
}
static int HAL_camera_device_dual_auto_focus(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = HAL_camera_device_auto_focus(dev);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_auto_focus(%d) fail", __FUNCTION__, __LINE__, cameraId);
return ret;
}
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = HAL_camera_device_auto_focus(g_cam_device[teleCameraId]);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_auto_focus(%d) fail", __FUNCTION__, __LINE__, teleCameraId);
return ret;
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
static int HAL_camera_device_dual_cancel_auto_focus(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = HAL_camera_device_cancel_auto_focus(dev);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_cancel_auto_focus(%d) fail", __FUNCTION__, __LINE__, cameraId);
return ret;
}
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = HAL_camera_device_cancel_auto_focus(g_cam_device[teleCameraId]);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_cancel_auto_focus(%d) fail", __FUNCTION__, __LINE__, teleCameraId);
return ret;
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
static int HAL_camera_device_dual_take_picture(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
int funcRet = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
/*
* take_picture is happen only in wide camera
* callback will block in ExynosCameraCallbackHooker
* And slave camera's takepicture should be called first.
* The msg_type can be changed as soon as master camera's callback was finished.
* So slave camera's pictureThread can be affected by this.
*/
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = g_threadInterface[teleCameraId]->takePicture();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->takePicture()", __FUNCTION__, __LINE__, teleCameraId);
goto done;
}
}
ret = g_threadInterface[cameraId]->takePicture();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->takePicture()", __FUNCTION__, __LINE__, cameraId);
goto done;
}
}
done:
for (int i = 0; i < MAX_NUM_OF_CAMERA; i++) {
if (g_threadInterface[i] != NULL) {
ret = g_threadInterface[i]->checkApiDone();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->checkApiDone() fail", __FUNCTION__, __LINE__, i);
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return funcRet;
}
static int HAL_camera_device_dual_cancel_picture(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
/*
* cancel_picture is happen only in wide camera
* callback will block in ExynosCameraCallbackHooker
*/
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = HAL_camera_device_cancel_picture(g_cam_device[teleCameraId]);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_cancel_picture(%d) fail", __FUNCTION__, __LINE__, teleCameraId);
return ret;
}
}
ret = HAL_camera_device_cancel_picture(dev);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_cancel_picture(%d) fail", __FUNCTION__, __LINE__, cameraId);
return ret;
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
static int HAL_camera_device_dual_set_parameters(
struct camera_device *dev,
const char *parms)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
int funcRet = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
{
String8 str(parms);
CameraParameters newWideParams(str);
if (isDualCamera(cameraId) == true) {
/*
* if dual_mode(PIP), disable dual camera,
* else enable dual camera (but it need to check inside isDualCamera())
*/
int newPipMode = newWideParams.getInt("dual_mode");
if (newPipMode == 1) {
setPipMode(true);
newWideParams.set("dual_camera_mode", 0);
} else {
setPipMode(false);
newWideParams.set("dual_camera_mode", 1);
}
}
ret = g_threadInterface[cameraId]->setParameters(newWideParams.flatten());
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->setParameters()", __FUNCTION__, __LINE__, cameraId);
goto done;
}
}
if (isDualCamera(cameraId) == true) {
/* we must put same ratio's preview and picture size, according to wide camera */
int teleCameraId = getTeleCameraId(cameraId);
CameraParameters wideParams = obj(dev)->getParameters();
CameraParameters teleParams = obj(g_cam_device[teleCameraId])->getParameters();
int widePreviewW, widePreviewH = 0;
int telePreviewW, telePreviewH = 0;
int widePictureW, widePictureH = 0;
int telePictureW, telePictureH = 0;
/* for zoom */
int wideZoom = wideParams.getInt(CameraParameters::KEY_ZOOM);
teleParams.set(CameraParameters::KEY_ZOOM, wideZoom);
/* for recordingHint */
const char *wideRecordingHintStr = wideParams.get(CameraParameters::KEY_RECORDING_HINT);
if (wideRecordingHintStr != NULL) {
teleParams.set(CameraParameters::KEY_RECORDING_HINT, wideRecordingHintStr);
}
wideParams.getPreviewSize(&widePreviewW, &widePreviewH);
teleParams.getPreviewSize(&telePreviewW, &telePreviewH);
wideParams.getPictureSize(&widePictureW, &widePictureH);
teleParams.getPictureSize(&telePictureW, &telePictureH);
float widePreviewRatio = (float)widePreviewW / (float)widePreviewH;
float telePreviewRatio = (float)telePreviewW / (float)telePreviewH;
float widePictureRatio = (float)widePictureW / (float)widePictureH;
float telePictureRatio = (float)telePictureW / (float)telePictureH;
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): widePreviewRatio(%f) = widePreviewW(%d) / widePreviewH(%d)", __FUNCTION__, __LINE__, widePreviewRatio, widePreviewW, widePreviewH);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): telePreviewRatio(%f) = telePreviewW(%d) / telePreviewH(%d)", __FUNCTION__, __LINE__, telePreviewRatio, telePreviewW, telePreviewH);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): widePictureRatio(%f) = widePictureW(%d) / widePictureH(%d)", __FUNCTION__, __LINE__, widePictureRatio, widePictureW, widePictureH);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): telePictureRatio(%f) = telePictureW(%d) / telePictureH(%d)", __FUNCTION__, __LINE__, telePictureRatio, telePictureW, telePictureH);
bool flagFound = false;
if(widePreviewRatio != telePreviewRatio) {
Vector<Size> sizes;
teleParams.getSupportedPreviewSizes(sizes);
int w, h = 0;
flagFound = false;
for (unsigned i = 0; i < sizes.size(); i++) {
if (((float)sizes[i].width / (float)sizes[i].height) == widePreviewRatio) {
w = sizes[i].width;
h = sizes[i].height;
flagFound = true;
break;
}
}
if (flagFound == false) {
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):cannot find wide(%f-ratio) preview size on tele(%f-ratio), assert!!!!",
__FUNCTION__, __LINE__, widePreviewRatio, telePreviewRatio);
}
teleParams.setPreviewSize(w, h);
}
if(widePictureRatio != telePictureRatio) {
Vector<Size> sizes;
teleParams.getSupportedPictureSizes(sizes);
int w, h = 0;
flagFound = false;
for (unsigned i = 0; i < sizes.size(); i++) {
if (((float)sizes[i].width / (float)sizes[i].height) == widePictureRatio) {
w = sizes[i].width;
h = sizes[i].height;
flagFound = true;
break;
}
}
if (flagFound == false) {
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):cannot find wide(%f-ratio) picture size on tele(%f-ratio), assert!!!!",
__FUNCTION__, __LINE__, widePreviewRatio, telePreviewRatio);
}
teleParams.setPictureSize(w, h);
}
{
teleParams.set("dual_camera_mode", 1);
ret = g_threadInterface[teleCameraId]->setParameters(teleParams.flatten());
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->setParameters()", __FUNCTION__, __LINE__, teleCameraId);
goto done;
}
}
}
}
done:
for (int i = 0; i < MAX_NUM_OF_CAMERA; i++) {
if (g_threadInterface[i] != NULL) {
ret = g_threadInterface[i]->checkApiDone();
funcRet |= ret;
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->checkApiDone() fail", __FUNCTION__, __LINE__, i);
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return funcRet;
}
char *HAL_camera_device_dual_get_parameters(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
char *ret = NULL;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = HAL_camera_device_get_parameters(dev);
/* return only wide camera's parameters */
/*
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = HAL_camera_device_get_parameters(g_cam_device[teleCameraId]);
}
*/
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
static void HAL_camera_device_dual_put_parameters(
struct camera_device *dev,
char *parms)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
if (dev) {
int cameraId = obj(dev)->getCameraId();
HAL_camera_device_put_parameters(dev, parms);
/* put_paramters only on wide */
/*
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
HAL_camera_device_put_parameters(g_cam_device[teleCameraId], parms);
}
*/
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
}
static int HAL_camera_device_dual_send_command(
struct camera_device *dev,
int32_t cmd,
int32_t arg1,
int32_t arg2)
{
/* ExynosCameraAutoTimer autoTimer(__FUNCTION__); */
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = HAL_camera_device_send_command(dev, cmd, arg1, arg2);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_send_command(%d) fail", __FUNCTION__, __LINE__, cameraId);
return ret;
}
if (isDualCamera(cameraId) == true) {
/* we must put same ratio's preview and picture size, according to wide camera */
int teleCameraId = getTeleCameraId(cameraId);
ret = HAL_camera_device_send_command(g_cam_device[teleCameraId], cmd, arg1, arg2);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_send_command(%d) fail", __FUNCTION__, __LINE__, teleCameraId);
return ret;
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
static void HAL_camera_device_dual_release(struct camera_device *dev)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = g_threadInterface[cameraId]->release();
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->release() fail", __FUNCTION__, __LINE__, cameraId);
}
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = g_threadInterface[teleCameraId]->release();
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->release() fail", __FUNCTION__, __LINE__, teleCameraId);
}
}
}
done:
for (int i = 0; i < MAX_NUM_OF_CAMERA; i++) {
if (g_threadInterface[i] != NULL) {
ret = g_threadInterface[i]->checkApiDone();
if (ret != NO_ERROR) {
ALOGE("ERR(%s[%d]):g_threadInterface[%d]->checkApiDone() fail", __FUNCTION__, __LINE__, i);
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
}
static int HAL_camera_device_dual_dump(struct camera_device *dev, int fd)
{
ExynosCameraAutoTimer autoTimer(__FUNCTION__);
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -IN-", __FUNCTION__, __LINE__);
int ret = 0;
if (dev) {
int cameraId = obj(dev)->getCameraId();
ret = HAL_camera_device_dump(dev, fd);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_dump(%d) fail", __FUNCTION__, __LINE__, cameraId);
return ret;
}
if (isDualCamera(cameraId) == true) {
int teleCameraId = getTeleCameraId(cameraId);
ret = HAL_camera_device_dump(g_cam_device[teleCameraId], fd);
if (ret != 0) {
ALOGE("ERR(%s[%d]):HAL_camera_device_dump(%d) fail", __FUNCTION__, __LINE__, teleCameraId);
return ret;
}
}
}
EXYNOS_CAMERA_DUAL_CAMERA_IF_DEBUG_LOG("INFO(%s[%d]): -OUT-", __FUNCTION__, __LINE__);
return ret;
}
#ifdef DEBUG_USE_THREAD_ON_DUAL_CAMERA
#define DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG CLOGD
#else
#define DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG CLOGV
#endif
ExynosCameraThreadInterface::ExynosCameraThreadInterface()
{
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):invalid call, assert!!!!",
__FUNCTION__, __LINE__);
}
ExynosCameraThreadInterface::ExynosCameraThreadInterface(const struct hw_module_t* module, int cameraId)
{
ALOGD("DEBUG(%s[%d]):ExynosCameraThreadInterface(%d) constructor", __FUNCTION__, __LINE__, cameraId);
m_hw_device = NULL;
m_module = module;
m_cameraId = cameraId;
snprintf(m_name, sizeof(m_name), "ExynosCameraThreadInterface_%d", m_cameraId);
m_cameraDevice = NULL;
#ifdef USE_THREAD_ON_DUAL_CAMERA_INTERFACE
m_runMode = RUN_MODE_IMMEDIATE;
#else
m_runMode = RUN_MODE_NO_THREAD;
#endif
m_apiThread = new cameraThreadInterface(this,
&ExynosCameraThreadInterface::m_mainThreadFunc,
"ExynosCameraThreadInterface",
PRIORITY_URGENT_DISPLAY);
m_lastApiType = API_TYPE_BASE;
m_lastApiRet = NO_ERROR;
}
ExynosCameraThreadInterface::~ExynosCameraThreadInterface()
{
CLOGD("DEBUG(%s[%d]):ExynosCameraThreadInterface() destructor", __FUNCTION__, __LINE__);
m_clearApiQ();
}
void ExynosCameraThreadInterface::setRunMode(enum RUM_MODE runMode)
{
Mutex::Autolock lock(m_apiQLock);
CLOGD("DEBUG(%s[%d]):m_runMode is changed(%s -> %s)",
__FUNCTION__, __LINE__, m_runMode2Str(m_runMode), m_runMode2Str(runMode));
m_runMode = runMode;
}
ExynosCameraThreadInterface::RUM_MODE ExynosCameraThreadInterface::getRunMode(void)
{
Mutex::Autolock lock(m_apiQLock);
return m_runMode;
}
status_t ExynosCameraThreadInterface::open(void)
{
enum API_TYPE apiType = API_TYPE_OPEN;
status_t ret = m_waitThread(apiType);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):m_waitThread(%s) fail", __FUNCTION__, __LINE__, m_apiType2Str(apiType));
return ret;
}
#ifdef USE_THREAD_ON_DUAL_CAMERA_OPEN
ret = m_runThread(apiType);
#else
char strCameraId[3];
snprintf(strCameraId, sizeof(strCameraId), "%d", m_cameraId);
ret = HAL_camera_device_open(m_module, strCameraId, &m_hw_device);
if (ret != 0) {
CLOGE("ERR(%s[%d]):HAL_camera_device_open(%d) fail", __FUNCTION__, __LINE__, m_cameraId);
} else {
// g_cam_device is alloced in HAL_camera_device_open
m_cameraDevice = g_cam_device[m_cameraId];
}
#endif
return ret;
}
status_t ExynosCameraThreadInterface::setParameters(const char *params)
{
enum API_TYPE apiType = API_TYPE_SET_PARAMETERS;
status_t ret = m_waitThread(apiType);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):m_waitThread(%s) fail", __FUNCTION__, __LINE__, m_apiType2Str(apiType));
return ret;
}
#ifdef USE_THREAD_ON_DUAL_CAMERA_SET_PARAMETERS
ret = m_runThread(apiType, params);
#else
ret = HAL_camera_device_set_parameters(m_cameraDevice, params);
if (ret != 0) {
CLOGE("ERR(%s[%d]):HAL_camera_device_set_parameters() fail", __FUNCTION__, __LINE__);
}
#endif
return ret;
}
status_t ExynosCameraThreadInterface::startPreview(void)
{
enum API_TYPE apiType = API_TYPE_START_PREVIEW;
status_t ret = m_waitThread(apiType);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):m_waitThread(%s) fail", __FUNCTION__, __LINE__, m_apiType2Str(apiType));
return ret;
}
ret = m_runThread(API_TYPE_START_PREVIEW);
return ret;
}
status_t ExynosCameraThreadInterface::stopPreview(void)
{
enum API_TYPE apiType = API_TYPE_STOP_PREVIEW;
status_t ret = m_waitThread(apiType);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):m_waitThread(%s) fail", __FUNCTION__, __LINE__, m_apiType2Str(apiType));
return ret;
}
#ifdef USE_THREAD_ON_DUAL_CAMERA_STOP_PREVIEW
ret = m_runThread(apiType);
#else
HAL_camera_device_stop_preview(m_cameraDevice);
#endif
return ret;
}
status_t ExynosCameraThreadInterface::takePicture(void)
{
enum API_TYPE apiType = API_TYPE_TAKE_PICTURE;
status_t ret = m_waitThread(apiType);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):m_waitThread(%s) fail", __FUNCTION__, __LINE__, m_apiType2Str(apiType));
return ret;
}
#ifdef USE_THREAD_ON_DUAL_CAMERA_TAKE_PICTURE
ret = m_runThread(apiType);
#else
ret = HAL_camera_device_take_picture(m_cameraDevice);
if (ret != 0) {
CLOGE("ERR(%s[%d]):HAL_camera_device_take_picture() fail", __FUNCTION__, __LINE__);
}
#endif
return ret;
}
status_t ExynosCameraThreadInterface::release(void)
{
enum API_TYPE apiType = API_TYPE_RELEASE;
status_t ret = m_waitThread(apiType);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):m_waitThread(%s) fail", __FUNCTION__, __LINE__, m_apiType2Str(apiType));
return ret;
}
#ifdef USE_THREAD_ON_DUAL_CAMERA_API_TYPE_RELEASE
ret = m_runThread(apiType);
#else
HAL_camera_device_release(m_cameraDevice);
#endif
return ret;
}
status_t ExynosCameraThreadInterface::close(void)
{
enum API_TYPE apiType = API_TYPE_CLOSE;
status_t ret = m_waitThread(apiType);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):m_waitThread(%s) fail", __FUNCTION__, __LINE__, m_apiType2Str(apiType));
return ret;
}
#ifdef USE_THREAD_ON_DUAL_CAMERA_CLOSE
ret = m_runThread(apiType);
#else
ret = HAL_camera_device_close(m_hw_device);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):HAL_camera_device_close() fail", __FUNCTION__, __LINE__);
} else {
m_hw_device = NULL;
// g_cam_device is free in HAL_camera_device_close
m_cameraDevice = g_cam_device[m_cameraId];
}
#endif
return ret;
}
status_t ExynosCameraThreadInterface::checkApiDone(void)
{
status_t ret = NO_ERROR;
enum API_TYPE apiType = API_TYPE_CHECK_API_DONE;
bool flagRealCheck = false;
switch (m_runMode) {
case RUN_MODE_IMMEDIATE:
flagRealCheck = true;
break;
case RUN_MODE_BATCH:
#if 1
// we must wait, when release and close
if (m_lastApiType == API_TYPE_RELEASE ||
m_lastApiType == API_TYPE_CLOSE) {
flagRealCheck = true;
}
#else
flagRealCheck = true;
#endif
break;
case RUN_MODE_NO_THREAD:
flagRealCheck = true;
break;
default:
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):invalid m_runMode(%s), assert!!!!",
__FUNCTION__, __LINE__, m_runMode2Str(m_runMode));
break;
}
if (flagRealCheck == true) {
ret = m_waitThread(apiType);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):m_waitThread(%s) fail", __FUNCTION__, __LINE__, m_apiType2Str(apiType));
}
ret |= m_lastApiRet;
}
return ret;
}
status_t ExynosCameraThreadInterface::m_runThread(enum API_TYPE apiType, const char *params)
{
status_t ret = NO_ERROR;
if (params != NULL)
m_params.setTo(params);
// push on every time
m_pushApiQ(apiType);
switch (m_runMode) {
case RUN_MODE_IMMEDIATE:
ret = m_apiThread->run();
break;
case RUN_MODE_BATCH:
if (apiType == API_TYPE_OPEN ||
apiType == API_TYPE_START_PREVIEW ||
apiType == API_TYPE_STOP_PREVIEW ||
apiType == API_TYPE_TAKE_PICTURE) {
// it start to trigger.
ret = m_apiThread->run();
} else if (apiType == API_TYPE_RELEASE ||
apiType == API_TYPE_CLOSE) {
// we flush except release and close
m_skipWithoutApiQ(apiType);
ret = m_apiThread->run();
} else {
DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG("just push(%s) on Q", m_apiType2Str(apiType));
}
break;
case RUN_MODE_NO_THREAD:
m_mainThreadFunc();
ret = m_lastApiRet;
break;
default:
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):invalid m_runMode(%s), assert!!!!",
__FUNCTION__, __LINE__, m_runMode2Str(m_runMode));
break;
}
return ret;
}
status_t ExynosCameraThreadInterface::m_waitThread(enum API_TYPE apiType)
{
DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG("DEBUG(%s[%d]):before m_waitThread(%s)",
__FUNCTION__, __LINE__, m_apiType2Str(apiType));
status_t ret = m_apiThread->join();
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):m_apiThread->join(%d) fail", __FUNCTION__, __LINE__, apiType);
}
DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG("DEBUG(%s[%d]):after m_waitThread(%s)",
__FUNCTION__, __LINE__, m_apiType2Str(apiType));
return ret;
}
bool ExynosCameraThreadInterface::m_mainThreadFunc(void)
{
status_t ret = NO_ERROR;
bool boolRet = false;
char strCameraId[3];
enum API_TYPE apiType = m_popApiQ();
if (apiType == API_TYPE_BASE) {
CLOGD("DEBUG(%s[%d]):cameraId(%d) apiType is API_TYPE_BASE. so, skip thread running",
__FUNCTION__, __LINE__, m_cameraId);
goto done;
}
DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG("DEBUG(%s[%d]):cameraId(%d) api(%s) start",
__FUNCTION__, __LINE__, m_cameraId, m_apiType2Str(apiType));
switch (apiType) {
case API_TYPE_OPEN:
snprintf(strCameraId, sizeof(strCameraId), "%d", m_cameraId);
ret = HAL_camera_device_open(m_module, strCameraId, &m_hw_device);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):HAL_camera_device_open(%d) fail", __FUNCTION__, __LINE__, m_cameraId);
} else {
// g_cam_device is alloced in HAL_camera_device_open
m_cameraDevice = g_cam_device[m_cameraId];
}
break;
case API_TYPE_SET_PARAMETERS:
ret = HAL_camera_device_set_parameters(m_cameraDevice, m_params);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):HAL_camera_device_set_parameters() fail", __FUNCTION__, __LINE__);
}
break;
case API_TYPE_START_PREVIEW:
ret = HAL_camera_device_start_preview(m_cameraDevice);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):HAL_camera_device_start_preview() fail", __FUNCTION__, __LINE__);
}
break;
case API_TYPE_STOP_PREVIEW:
HAL_camera_device_stop_preview(m_cameraDevice);
break;
case API_TYPE_TAKE_PICTURE:
ret = HAL_camera_device_take_picture(m_cameraDevice);
if (ret != 0) {
CLOGE("ERR(%s[%d]):HAL_camera_device_take_picture() fail", __FUNCTION__, __LINE__);
}
break;
case API_TYPE_RELEASE:
HAL_camera_device_release(m_cameraDevice);
break;
case API_TYPE_CLOSE:
ret = HAL_camera_device_close(m_hw_device);
if (ret != NO_ERROR) {
CLOGE("ERR(%s[%d]):HAL_camera_device_close() fail", __FUNCTION__, __LINE__);
} else {
m_hw_device = NULL;
// g_cam_device is free in HAL_camera_device_close
m_cameraDevice = g_cam_device[m_cameraId];
}
break;
default:
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):invalid apiType(%d), assert!!!!",
__FUNCTION__, __LINE__, apiType);
break;
}
m_lastApiType = apiType;
m_lastApiRet = ret;
DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG("DEBUG(%s[%d]):cameraId(%d) api(%s) end",
__FUNCTION__, __LINE__, m_cameraId, m_apiType2Str(apiType));
if (m_runMode == RUN_MODE_BATCH) {
if (/* m_lastApiRet == NO_ERROR && */
m_sizeOfApiQ() != 0) {
// repeat api operation.
boolRet = true;
} else {
// TODO : error callback
}
}
done:
/* run once */
return boolRet;
}
void ExynosCameraThreadInterface::m_pushApiQ(enum API_TYPE apiType)
{
Mutex::Autolock lock(m_apiQLock);
int qSize = m_apiQ.size();
if (qSize < EXYNOS_CAMERA_THREAD_API_Q_SIZE) {
DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG("DEBUG(%s[%d]):m_apiQ.size is (%d). so, push apiType(%s)",
__FUNCTION__, __LINE__, qSize, m_apiType2Str(apiType));
} else {
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):im_apiQ.size(%d) is too big, when puth apiType(%s). EXYNOS_CAMERA_THREAD_API_Q_SIZE(%d), assert!!!!",
__FUNCTION__, __LINE__, qSize, m_apiType2Str(apiType), EXYNOS_CAMERA_THREAD_API_Q_SIZE);
}
m_apiQ.push_back(apiType);
}
ExynosCameraThreadInterface::API_TYPE ExynosCameraThreadInterface::m_popApiQ(void)
{
Mutex::Autolock lock(m_apiQLock);
enum API_TYPE apiType = API_TYPE_BASE;
if (m_apiQ.empty()) {
CLOGD("m_apiQ is empty");
return apiType;
}
List<enum API_TYPE>::iterator r;
r = m_apiQ.begin()++;
apiType = *r;
m_apiQ.erase(r);
return apiType;
}
void ExynosCameraThreadInterface::m_skipApiQ(enum API_TYPE apiType)
{
Mutex::Autolock lock(m_apiQLock);
enum API_TYPE curApiType = API_TYPE_BASE;
if (m_apiQ.empty()) {
CLOGD("m_apiQ is empty");
return;
}
List<enum API_TYPE>::iterator r;
r = m_apiQ.begin()++;
do {
curApiType = *r;
if (curApiType == apiType) {
DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG("curApiType(%s) == apiType(%s). so, skip",
m_apiType2Str(curApiType), m_apiType2Str(apiType));
m_apiQ.erase(r);
}
r++;
} while (r != m_apiQ.end());
}
void ExynosCameraThreadInterface::m_skipApiQ(enum API_TYPE apiType1, enum API_TYPE apiType2)
{
Mutex::Autolock lock(m_apiQLock);
enum API_TYPE curApiType = API_TYPE_BASE;
if (m_apiQ.empty()) {
CLOGD("m_apiQ is empty");
return;
}
List<enum API_TYPE>::iterator r;
r = m_apiQ.begin()++;
do {
curApiType = *r;
if (curApiType == apiType1) {
DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG("curApiType(%s) == apiType1(%s). so, skip",
m_apiType2Str(curApiType), m_apiType2Str(apiType1));
m_apiQ.erase(r);
}
if (curApiType == apiType2) {
DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG("curApiType(%s) == apiType2(%s). so, skip",
m_apiType2Str(curApiType), m_apiType2Str(apiType2));
m_apiQ.erase(r);
}
r++;
} while (r != m_apiQ.end());
}
void ExynosCameraThreadInterface::m_skipWithoutApiQ(enum API_TYPE apiType)
{
Mutex::Autolock lock(m_apiQLock);
enum API_TYPE curApiType = API_TYPE_BASE;
if (m_apiQ.empty()) {
CLOGD("m_apiQ is empty");
return;
}
List<enum API_TYPE>::iterator r;
r = m_apiQ.begin()++;
do {
curApiType = *r;
if (curApiType != apiType) {
DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG("curApiType(%s) != apiType(%s). so, erase",
m_apiType2Str(curApiType), m_apiType2Str(apiType));
m_apiQ.erase(r);
}
r++;
} while (r != m_apiQ.end());
}
int ExynosCameraThreadInterface::m_sizeOfApiQ(void)
{
Mutex::Autolock lock(m_apiQLock);
return m_apiQ.size();
}
void ExynosCameraThreadInterface::m_clearApiQ(void)
{
Mutex::Autolock lock(m_apiQLock);
DEBUG_USE_THREAD_ON_DUAL_CAMERA_LOG("m_clearApiQ");
m_apiQ.clear();
}
char *ExynosCameraThreadInterface::m_apiType2Str(enum API_TYPE apiType)
{
char *str = NULL;
switch (apiType) {
case API_TYPE_BASE:
str = "API_TYPE_BASE";
break;
case API_TYPE_OPEN:
str = "API_TYPE_OPEN";
break;
case API_TYPE_SET_PARAMETERS:
str = "API_TYPE_SET_PARAMETERS";
break;
case API_TYPE_START_PREVIEW:
str = "API_TYPE_START_PREVIEW";
break;
case API_TYPE_STOP_PREVIEW:
str = "API_TYPE_STOP_PREVIEW";
break;
case API_TYPE_TAKE_PICTURE:
str = "API_TYPE_TAKE_PICTURE";
break;
case API_TYPE_RELEASE:
str = "API_TYPE_RELEASE";
break;
case API_TYPE_CLOSE:
str = "API_TYPE_CLOSE";
break;
case API_TYPE_CHECK_API_DONE:
str = "API_TYPE_CHECK_API_DONE";
break;
case API_TYPE_MAX:
str = "API_TYPE_MAX";
break;
default:
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):Invalid apiType(%d), assert!!!!",
__FUNCTION__, __LINE__, apiType);
break;
}
return str;
}
char *ExynosCameraThreadInterface::m_runMode2Str(enum RUM_MODE runMode)
{
char *str = NULL;
switch (runMode) {
case RUN_MODE_BASE:
str = "RUN_MODE_BASE";
break;
case RUN_MODE_IMMEDIATE:
str = "RUN_MODE_IMMEDIATE";
break;
case RUN_MODE_BATCH:
str = "RUN_MODE_BATCH";
break;
case RUN_MODE_NO_THREAD:
str = "RUN_MODE_NO_THREAD";
break;
case RUN_MODE_MAX:
str = "RUN_MODE_MAX";
break;
default:
android_printAssert(NULL, LOG_TAG, "ASSERT(%s[%d]):Invalid runMode(%d), assert!!!!",
__FUNCTION__, __LINE__, runMode);
break;
}
return str;
}
}; /* namespace android */