sensors: added device data to provide driver & minor bug fixed.

- added null terminated string at the end of message parsing
- light message type is fixed

Change-Id: Ieec61e42272024b12b2453052c6757b9748062c3
Signed-off-by: Jinhyung Choi <jinhyung2.choi@samsung.com>

diff --git a/tizen/src/ecs/ecs_sensor.c b/tizen/src/ecs/ecs_sensor.c
index e524c3111586fbc8f640f8a0adb0b33257824efb..4d82e7c1d9770e8a01f35e50cb2ccc5e9569f319 100644 (file)
--- a/tizen/src/ecs/ecs_sensor.c
+++ b/tizen/src/ecs/ecs_sensor.c
@@ -75,6 +75,7 @@ static int get_parse_val (const char* buf, char* tmp)
     memset(tmp, 0, sizeof(TEMP_BUF_SIZE));
 
     index = parse_val(buf, 0x0a, tmp);
+    tmp[index - 1] = 0;
 
     return index;
 }

diff --git a/tizen/src/hw/maru_virtio_sensor.c b/tizen/src/hw/maru_virtio_sensor.c
index 9dd2d4dacdcbe18691386240d4e96ac973a36f19..94fda1efb3fd8155483ee7cd3b2b2d7f0243836b 100644 (file)
--- a/tizen/src/hw/maru_virtio_sensor.c
+++ b/tizen/src/hw/maru_virtio_sensor.c
@@ -42,19 +42,35 @@ MULTI_DEBUG_CHANNEL(qemu, virtio-sensor);
 #define _MAX_BUF            1024
 #define __MAX_BUF_SENSOR    32
 
+static pthread_mutex_t accel_mutex = PTHREAD_MUTEX_INITIALIZER;
+static pthread_mutex_t geo_mutex = PTHREAD_MUTEX_INITIALIZER;
+static pthread_mutex_t gyro_mutex = PTHREAD_MUTEX_INITIALIZER;
+static pthread_mutex_t light_mutex = PTHREAD_MUTEX_INITIALIZER;
+static pthread_mutex_t proxi_mutex = PTHREAD_MUTEX_INITIALIZER;
+
 static char accel_xyz [__MAX_BUF_SENSOR] = {'0',',','9','8','0','6','6','5',',','0'};
+static int accel_enable = 0;
+static int accel_delay = 200000000;
 
 static char geo_raw [__MAX_BUF_SENSOR] = {'0',' ','-','9','0',' ','0',' ','3'};
 static char geo_tesla [__MAX_BUF_SENSOR] = {'1',' ','0',' ','-','1','0'};
+static int geo_enable = 0;
+static int geo_delay = 200000000;
 
 static int gyro_x_raw = 0;
 static int gyro_y_raw = 0;
 static int gyro_z_raw = 0;
+static int gyro_enable = 0;
+static int gyro_delay = 200000000;
 
 static int light_adc = 65535;
 static int light_level = 10;
+static int light_enable = 0;
+static int light_delay = 200000000;
 
 static int proxi_vo = 8;
+static int proxi_enable = 0;
+static int proxi_delay = 200000000;
 
 VirtIOSENSOR* vsensor;
 static int sensor_capability = 0;
@@ -136,37 +152,109 @@ static void __set_sensor_data (enum sensor_types type, char* data, int len)
         return;
     }
 
+    TRACE("set_sensor_data with type '%d' with data '%s'", type, data);
+
     switch (type) {
         case sensor_type_accel:
+            pthread_mutex_lock(&accel_mutex);
             strcpy(accel_xyz, data);
+            pthread_mutex_unlock(&accel_mutex);
+            break;
+        case sensor_type_accel_enable:
+            pthread_mutex_lock(&accel_mutex);
+            sscanf(data, "%d", &accel_enable);
+            pthread_mutex_unlock(&accel_mutex);
+            break;
+        case sensor_type_accel_delay:
+            pthread_mutex_lock(&accel_mutex);
+            sscanf(data, "%d", &accel_delay);
+            pthread_mutex_unlock(&accel_mutex);
+            break;
+        case sensor_type_gyro_enable:
+            pthread_mutex_lock(&gyro_mutex);
+            sscanf(data, "%d", &gyro_enable);
+            pthread_mutex_unlock(&gyro_mutex);
+            break;
+        case sensor_type_gyro_delay:
+            pthread_mutex_lock(&gyro_mutex);
+            sscanf(data, "%d", &gyro_delay);
+            pthread_mutex_unlock(&gyro_mutex);
             break;
         case sensor_type_gyro_x:
+            pthread_mutex_lock(&gyro_mutex);
             sscanf(data, "%d", &gyro_x_raw);
+            pthread_mutex_unlock(&gyro_mutex);
             break;
         case sensor_type_gyro_y:
+            pthread_mutex_lock(&gyro_mutex);
             sscanf(data, "%d", &gyro_y_raw);
+            pthread_mutex_unlock(&gyro_mutex);
             break;
         case sensor_type_gyro_z:
+            pthread_mutex_lock(&gyro_mutex);
             sscanf(data, "%d", &gyro_z_raw);
+            pthread_mutex_unlock(&gyro_mutex);
             break;
         case sensor_type_gyro:
+            pthread_mutex_lock(&gyro_mutex);
             sscanf(data, "%d %d %d", &gyro_x_raw, &gyro_y_raw, &gyro_z_raw);
+            pthread_mutex_unlock(&gyro_mutex);
             break;
         case sensor_type_light_adc:
+            pthread_mutex_lock(&light_mutex);
             sscanf(data, "%d", &light_adc);
             light_level = (light_adc / 6554) % 10 + 1;
+            pthread_mutex_unlock(&light_mutex);
             break;
         case sensor_type_light_level:
+            pthread_mutex_lock(&light_mutex);
             sscanf(data, "%d", &light_level);
+            pthread_mutex_unlock(&light_mutex);
+            break;
+        case sensor_type_light_enable:
+            pthread_mutex_lock(&light_mutex);
+            sscanf(data, "%d", &light_enable);
+            pthread_mutex_unlock(&light_mutex);
+            break;
+        case sensor_type_light_delay:
+            pthread_mutex_lock(&light_mutex);
+            sscanf(data, "%d", &light_delay);
+            pthread_mutex_unlock(&light_mutex);
             break;
         case sensor_type_proxi:
+            pthread_mutex_lock(&proxi_mutex);
             sscanf(data, "%d", &proxi_vo);
+            pthread_mutex_unlock(&proxi_mutex);
+            break;
+        case sensor_type_proxi_enable:
+            pthread_mutex_lock(&proxi_mutex);
+            sscanf(data, "%d", &proxi_enable);
+            pthread_mutex_unlock(&proxi_mutex);
+            break;
+        case sensor_type_proxi_delay:
+            pthread_mutex_lock(&proxi_mutex);
+            sscanf(data, "%d", &proxi_delay);
+            pthread_mutex_unlock(&proxi_mutex);
             break;
         case sensor_type_mag:
+            pthread_mutex_lock(&geo_mutex);
             strcpy(geo_tesla, data);
+            pthread_mutex_unlock(&geo_mutex);
             break;
         case sensor_type_tilt:
+            pthread_mutex_lock(&geo_mutex);
             strcpy(geo_raw, data);
+            pthread_mutex_unlock(&geo_mutex);
+            break;
+        case sensor_type_geo_enable:
+            pthread_mutex_lock(&geo_mutex);
+            sscanf(data, "%d", &geo_enable);
+            pthread_mutex_unlock(&geo_mutex);
+            break;
+        case sensor_type_geo_delay:
+            pthread_mutex_lock(&geo_mutex);
+            sscanf(data, "%d", &geo_delay);
+            pthread_mutex_unlock(&geo_mutex);
             break;
         default:
             return;
@@ -184,35 +272,105 @@ static void __get_sensor_data(enum sensor_types type, char* msg_info)
             sprintf(msg_info, "%d", sensor_capability);
             break;
         case sensor_type_accel:
+            pthread_mutex_lock(&accel_mutex);
             strcpy(msg_info, accel_xyz);
+            pthread_mutex_unlock(&accel_mutex);
+            break;
+        case sensor_type_accel_enable:
+            pthread_mutex_lock(&accel_mutex);
+            sprintf(msg_info, "%d", accel_enable);
+            pthread_mutex_unlock(&accel_mutex);
+            break;
+        case sensor_type_accel_delay:
+            pthread_mutex_lock(&accel_mutex);
+            sprintf(msg_info, "%d", accel_delay);
+            pthread_mutex_unlock(&accel_mutex);
             break;
         case sensor_type_mag:
+            pthread_mutex_lock(&geo_mutex);
             strcpy(msg_info, geo_tesla);
+            pthread_mutex_unlock(&geo_mutex);
             break;
         case sensor_type_tilt:
+            pthread_mutex_lock(&geo_mutex);
             strcpy(msg_info, geo_raw);
+            pthread_mutex_unlock(&geo_mutex);
+            break;
+        case sensor_type_geo_enable:
+            pthread_mutex_lock(&geo_mutex);
+            sprintf(msg_info, "%d", geo_enable);
+            pthread_mutex_unlock(&geo_mutex);
+            break;
+        case sensor_type_geo_delay:
+            pthread_mutex_lock(&geo_mutex);
+            sprintf(msg_info, "%d", geo_delay);
+            pthread_mutex_unlock(&geo_mutex);
             break;
         case sensor_type_gyro:
-            sprintf(msg_info, "%d, %d, %d", gyro_x_raw, gyro_y_raw, gyro_z_raw);
+            pthread_mutex_lock(&gyro_mutex);
+            sprintf(msg_info, "%d,%d,%d", gyro_x_raw, gyro_y_raw, gyro_z_raw);
+            pthread_mutex_unlock(&gyro_mutex);
+            break;
+        case sensor_type_gyro_enable:
+            pthread_mutex_lock(&gyro_mutex);
+            sprintf(msg_info, "%d", gyro_enable);
+            pthread_mutex_unlock(&gyro_mutex);
+            break;
+        case sensor_type_gyro_delay:
+            pthread_mutex_lock(&gyro_mutex);
+            sprintf(msg_info, "%d", gyro_delay);
+            pthread_mutex_unlock(&gyro_mutex);
             break;
         case sensor_type_gyro_x:
+            pthread_mutex_lock(&gyro_mutex);
             sprintf(msg_info, "%d", gyro_x_raw);
+            pthread_mutex_unlock(&gyro_mutex);
             break;
         case sensor_type_gyro_y:
+            pthread_mutex_lock(&gyro_mutex);
             sprintf(msg_info, "%d", gyro_y_raw);
+            pthread_mutex_unlock(&gyro_mutex);
             break;
         case sensor_type_gyro_z:
+            pthread_mutex_lock(&gyro_mutex);
             sprintf(msg_info, "%d", gyro_z_raw);
+            pthread_mutex_unlock(&gyro_mutex);
             break;
         case sensor_type_light:
         case sensor_type_light_adc:
+            pthread_mutex_lock(&light_mutex);
             sprintf(msg_info, "%d", light_adc);
+            pthread_mutex_unlock(&light_mutex);
             break;
         case sensor_type_light_level:
+            pthread_mutex_lock(&light_mutex);
             sprintf(msg_info, "%d", light_level);
+            pthread_mutex_unlock(&light_mutex);
+            break;
+        case sensor_type_light_enable:
+            pthread_mutex_lock(&light_mutex);
+            sprintf(msg_info, "%d", light_enable);
+            pthread_mutex_unlock(&light_mutex);
+            break;
+        case sensor_type_light_delay:
+            pthread_mutex_lock(&light_mutex);
+            sprintf(msg_info, "%d", light_delay);
+            pthread_mutex_unlock(&light_mutex);
             break;
         case sensor_type_proxi:
+            pthread_mutex_lock(&proxi_mutex);
             sprintf(msg_info, "%d", proxi_vo);
+            pthread_mutex_unlock(&proxi_mutex);
+            break;
+        case sensor_type_proxi_enable:
+            pthread_mutex_lock(&proxi_mutex);
+            sprintf(msg_info, "%d", proxi_enable);
+            pthread_mutex_unlock(&proxi_mutex);
+            break;
+        case sensor_type_proxi_delay:
+            pthread_mutex_lock(&proxi_mutex);
+            sprintf(msg_info, "%d", proxi_delay);
+            pthread_mutex_unlock(&proxi_mutex);
             break;
         default:
             return;

diff --git a/tizen/src/hw/maru_virtio_sensor.h b/tizen/src/hw/maru_virtio_sensor.h
index 2370c6e98c11ad74634ba767af99d9cdb7abde6b..a66cefefdbdd99670e11e7c9309666db194adc0b 100644 (file)
--- a/tizen/src/hw/maru_virtio_sensor.h
+++ b/tizen/src/hw/maru_virtio_sensor.h
@@ -45,15 +45,25 @@ enum request_cmd {
 enum sensor_types {
     sensor_type_list = 0,
     sensor_type_accel,
+    sensor_type_accel_enable,
+    sensor_type_accel_delay,
     sensor_type_geo,
+    sensor_type_geo_enable,
+    sensor_type_geo_delay,
     sensor_type_gyro,
+    sensor_type_gyro_enable,
+    sensor_type_gyro_delay,
     sensor_type_gyro_x,
     sensor_type_gyro_y,
     sensor_type_gyro_z,
     sensor_type_light,
+    sensor_type_light_enable,
+    sensor_type_light_delay,
     sensor_type_light_adc,
     sensor_type_light_level,
     sensor_type_proxi,
+    sensor_type_proxi_enable,
+    sensor_type_proxi_delay,
     sensor_type_mag,
     sensor_type_tilt,
     sensor_type_max
@@ -111,7 +121,7 @@ void req_sensor_data(enum sensor_types type, enum request_cmd req, char* data, i
     req_sensor_data(sensor_type_mag, request_get, NULL, 0);
 
 #define get_sensor_light()  \
-    req_sensor_data(sensor_type_light, request_get, NULL, 0);
+    req_sensor_data(sensor_type_light_adc, request_get, NULL, 0);
 
 #define get_sensor_proxi()  \
     req_sensor_data(sensor_type_proxi, request_get, NULL, 0);