Gledopto Mini5In1 TLSR8258F512ET32 support

main
MartB 2022-04-01 19:00:18 +02:00
parent 1945589d60
commit edff6aef13
18 changed files with 272 additions and 1563 deletions

View File

@ -44,23 +44,15 @@ extern "C" {
/* HCI interface */ /* HCI interface */
#define ZBHCI_UART 0 #define ZBHCI_UART 0
/* RGB or CCT */ /* RGB + CCT always */
#define COLOR_RGB_SUPPORT 0 #define COLOR_RGB_SUPPORT 1
#define COLOR_CCT_SUPPORT 1
/* BDB */ /* BDB */
#define TOUCHLINK_SUPPORT 1 #define TOUCHLINK_SUPPORT 1
#define FIND_AND_BIND_SUPPORT 0 #define FIND_AND_BIND_SUPPORT 0
/* Board ID */ /* Board ID */
#define BOARD_826x_EVK 0 #define BOARD_GLC002P 0
#define BOARD_826x_DONGLE 1
#define BOARD_8258_EVK 2
#define BOARD_8258_DONGLE 3
#define BOARD_8278_EVK 4
#define BOARD_8278_DONGLE 5
#define BOARD_9518_EVK 6
#define BOARD_9518_DONGLE 7
/* Board define */ /* Board define */
#if defined(MCU_CORE_826x) #if defined(MCU_CORE_826x)
@ -70,7 +62,7 @@ extern "C" {
#if (CHIP_TYPE == TLSR_8258_1M) #if (CHIP_TYPE == TLSR_8258_1M)
#define FLASH_CAP_SIZE_1M 1 #define FLASH_CAP_SIZE_1M 1
#endif #endif
#define BOARD BOARD_8258_DONGLE//BOARD_8258_EVK #define BOARD BOARD_GLC002P
#define CLOCK_SYS_CLOCK_HZ 48000000 #define CLOCK_SYS_CLOCK_HZ 48000000
#elif defined(MCU_CORE_8278) #elif defined(MCU_CORE_8278)
#define FLASH_CAP_SIZE_1M 1 #define FLASH_CAP_SIZE_1M 1
@ -85,22 +77,8 @@ extern "C" {
#endif #endif
/* Board include */ /* Board include */
#if (BOARD == BOARD_826x_EVK) #if(BOARD == BOARD_GLC002P)
#include "board_826x_evk.h" #include "board_glc002p.h"
#elif(BOARD == BOARD_826x_DONGLE)
#include "board_826x_dongle.h"
#elif(BOARD == BOARD_8258_DONGLE)
#include "board_8258_dongle.h"
#elif(BOARD == BOARD_8258_EVK)
#include "board_8258_evk.h"
#elif(BOARD == BOARD_8278_EVK)
#include "board_8278_evk.h"
#elif(BOARD == BOARD_8278_DONGLE)
#include "board_8278_dongle.h"
#elif (BOARD == BOARD_9518_EVK)
#include "board_9518_evk.h"
#elif (BOARD == BOARD_9518_DONGLE)
#include "board_9518_dongle.h"
#endif #endif
@ -129,7 +107,7 @@ extern "C" {
*/ */
#define ZCL_ON_OFF_SUPPORT 1 #define ZCL_ON_OFF_SUPPORT 1
#define ZCL_LEVEL_CTRL_SUPPORT 1 #define ZCL_LEVEL_CTRL_SUPPORT 1
#if (COLOR_RGB_SUPPORT || COLOR_CCT_SUPPORT) #if (COLOR_RGB_SUPPORT)
#define ZCL_LIGHT_COLOR_CONTROL_SUPPORT 1 #define ZCL_LIGHT_COLOR_CONTROL_SUPPORT 1
#endif #endif
#define ZCL_GROUP_SUPPORT 1 #define ZCL_GROUP_SUPPORT 1

View File

@ -59,8 +59,9 @@ void led_off(u32 pin){
} }
void led_init(void){ void led_init(void){
led_off(LED_POWER); led_off(LED_STATUS_R);
led_off(LED_PERMIT); led_off(LED_STATUS_G);
led_off(LED_STATUS_B);
} }
void localPermitJoinState(void){ void localPermitJoinState(void){
@ -68,9 +69,9 @@ void localPermitJoinState(void){
if(assocPermit != zb_getMacAssocPermit()){ if(assocPermit != zb_getMacAssocPermit()){
assocPermit = zb_getMacAssocPermit(); assocPermit = zb_getMacAssocPermit();
if(assocPermit){ if(assocPermit){
led_on(LED_PERMIT); led_on(LED_STATUS_R);
}else{ }else{
led_off(LED_PERMIT); led_off(LED_STATUS_R);
} }
} }
} }
@ -78,6 +79,10 @@ void localPermitJoinState(void){
void buttonKeepPressed(u8 btNum){ void buttonKeepPressed(u8 btNum){
if(btNum == VK_SW1){ if(btNum == VK_SW1){
gLightCtx.state = APP_FACTORY_NEW_DOING; gLightCtx.state = APP_FACTORY_NEW_DOING;
led_on(LED_STATUS_R);
led_on(LED_STATUS_G);
led_on(LED_STATUS_B);
zb_factoryReset(); zb_factoryReset();
}else if(btNum == VK_SW2){ }else if(btNum == VK_SW2){

View File

@ -1,295 +0,0 @@
/********************************************************************************************************
* @file board_8258_dongle.h
*
* @brief This is the header file for board_8258_dongle
*
* @author Zigbee Group
* @date 2021
*
* @par Copyright (c) 2021, Telink Semiconductor (Shanghai) Co., Ltd. ("TELINK")
*
* 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.
*******************************************************************************************************/
#pragma once
/* Enable C linkage for C++ Compilers: */
#if defined(__cplusplus)
extern "C" {
#endif
#define DONGLE_8258_32 0
#define DONGLE_8258_48 1
#if defined DONGLE_8258_32 && (DONGLE_8258_32 == 1)
/*******************************************************************************************************
*********************8258Dongle with 32 Pins: Start*****************************************************
*******************************************************************************************************/
//KEY
#define BUTTON1 GPIO_PD7
#define PD7_FUNC AS_GPIO
#define PD7_OUTPUT_ENABLE 0
#define PD7_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PD7 PM_PIN_PULLUP_10K
#define BUTTON2 GPIO_PA1
#define PA1_FUNC AS_GPIO
#define PA1_OUTPUT_ENABLE 0
#define PA1_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PA1 PM_PIN_PULLUP_10K
//LED
/***************************************************************
* LED_R GPIO_PD4 //D1 -- red PWM2_N
* LED_G GPIO_PA0 //D2 -- green PWM0_N
* LED_B GPIO_PD3 //D3 -- blue PWM1_N
* LED_W GPIO_PD2 //D4 -- yellow PWM3
****************************************************************/
#if defined COLOR_RGB_SUPPORT && (COLOR_RGB_SUPPORT == 1)
#define LED_R GPIO_PD4 //D1 -- red PWM2_N
#define LED_G GPIO_PA0 //D2 -- green PWM0_N
#define LED_B GPIO_PD3 //D3 -- blue PWM1_N
#define PWM_R_CHANNEL 2//PWM2_N
#define PWM_R_CHANNEL_SET() do{ \
gpio_set_func(LED_R, AS_PWM2_N); \
drv_pwm_n_invert(PWM_R_CHANNEL); \
}while(0)
#define PWM_G_CHANNEL 0//PWM0_N
#define PWM_G_CHANNEL_SET() do{ \
gpio_set_func(LED_G, AS_PWM0_N); \
drv_pwm_n_invert(PWM_G_CHANNEL); \
}while(0)
#define PWM_B_CHANNEL 1//PWM1_N
#define PWM_B_CHANNEL_SET() do{ \
gpio_set_func(LED_B, AS_PWM1_N); \
drv_pwm_n_invert(PWM_B_CHANNEL); \
}while(0)
#define R_LIGHT_PWM_CHANNEL PWM_R_CHANNEL
#define G_LIGHT_PWM_CHANNEL PWM_G_CHANNEL
#define B_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define R_LIGHT_PWM_SET() PWM_R_CHANNEL_SET()
#define G_LIGHT_PWM_SET() PWM_G_CHANNEL_SET()
#define B_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
#define LED_W GPIO_PD2
#define PD2_FUNC AS_GPIO
#define PD2_OUTPUT_ENABLE 1
#define PD2_INPUT_ENABLE 0
#define LED_POWER NULL
#define LED_PERMIT LED_W
#else
//PWM configuration, LED_B as warm light, LED_W as cool light.
#define LED_B GPIO_PD3 //D3 -- blue PWM1_N
#define LED_W GPIO_PD2 //D4 -- yellow PWM3
#define PWM_B_CHANNEL 1//PWM1_N
#define PWM_B_CHANNEL_SET() do{ \
gpio_set_func(LED_B, AS_PWM1_N); \
drv_pwm_n_invert(PWM_B_CHANNEL); \
}while(0)
#define PWM_W_CHANNEL 3//PWM3
#define PWM_W_CHANNEL_SET() do{ \
gpio_set_func(LED_W, AS_PWM3); \
}while(0)
#define WARM_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define COOL_LIGHT_PWM_CHANNEL PWM_W_CHANNEL
#define WARM_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
#define COOL_LIGHT_PWM_SET() PWM_W_CHANNEL_SET()
//LED_R and LED_G as GPIO.
#define LED_R GPIO_PD4
#define LED_G GPIO_PA0
#define PD4_FUNC AS_GPIO
#define PD4_OUTPUT_ENABLE 1
#define PD4_INPUT_ENABLE 0
#define PA0_FUNC AS_GPIO
#define PA0_OUTPUT_ENABLE 1
#define PA0_INPUT_ENABLE 0
#define LED_POWER LED_R
#define LED_PERMIT LED_G
#endif
// UART
#if ZBHCI_UART
#error please configurate uart PIN!!!!!!
#endif
// DEBUG
#if UART_PRINTF_MODE
#define DEBUG_INFO_TX_PIN GPIO_PC4//print
#endif
/*******************************************************************************************************
*********************8258Dongle with 32 Pins: End*****************************************************
*******************************************************************************************************/
#elif defined DONGLE_8258_48 && (DONGLE_8258_48 == 1)
/*******************************************************************************************************
*********************8258Dongle with 48 Pins: Start*****************************************************
*******************************************************************************************************/
//KEY
#define BUTTON1 GPIO_PD6
#define PD6_FUNC AS_GPIO
#define PD6_OUTPUT_ENABLE 0
#define PD6_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PD6 PM_PIN_PULLUP_10K
#define BUTTON2 GPIO_PD5
#define PD5_FUNC AS_GPIO
#define PD5_OUTPUT_ENABLE 0
#define PD5_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PD5 PM_PIN_PULLUP_10K
//LED
/***************************************************************
* LED_R GPIO_PA3 //D2 -- red PWM1
* LED_G GPIO_PA2 //D1 -- green PWM0
* LED_B GPIO_PB0 //D4 -- blue PWM3
* LED_W GPIO_PB1 //D5 -- white PWM4
* LED_Y GPIO_PA4 //D3 -- yellow PWM2
****************************************************************/
#if defined COLOR_RGB_SUPPORT && (COLOR_RGB_SUPPORT == 1)
#define LED_R GPIO_PA3 //D2 -- red PWM1
#define LED_G GPIO_PA2 //D1 -- green PWM0
#define LED_B GPIO_PB0 //D4 -- blue PWM3
#define PWM_R_CHANNEL 1//PWM1
#define PWM_R_CHANNEL_SET() do{ \
gpio_set_func(LED_R, AS_PWM1); \
}while(0)
#define PWM_G_CHANNEL 0//PWM0
#define PWM_G_CHANNEL_SET() do{ \
gpio_set_func(LED_G, AS_PWM0); \
}while(0)
#define PWM_B_CHANNEL 3//PWM3
#define PWM_B_CHANNEL_SET() do{ \
gpio_set_func(LED_B, AS_PWM3); \
}while(0)
#define R_LIGHT_PWM_CHANNEL PWM_R_CHANNEL
#define G_LIGHT_PWM_CHANNEL PWM_G_CHANNEL
#define B_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define R_LIGHT_PWM_SET() PWM_R_CHANNEL_SET()
#define G_LIGHT_PWM_SET() PWM_G_CHANNEL_SET()
#define B_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
//LED_Y and LED_W as GPIO.
#define LED_Y GPIO_PA4
#define LED_W GPIO_PB1
#define PA4_FUNC AS_GPIO
#define PA4_OUTPUT_ENABLE 1
#define PA4_INPUT_ENABLE 0
#define PB1_FUNC AS_GPIO
#define PB1_OUTPUT_ENABLE 1
#define PB1_INPUT_ENABLE 0
#define LED_POWER LED_W
#define LED_PERMIT LED_Y
#else
//PWM configuration, LED_Y as warm light, LED_W as cool light.
#define LED_Y GPIO_PA4 //D3 -- yellow PWM2
#define LED_W GPIO_PB1 //D5 -- white PWM4
#define PWM_Y_CHANNEL 2//PWM2
#define PWM_Y_CHANNEL_SET() do{ \
gpio_set_func(LED_Y, AS_PWM2); \
}while(0)
#define PWM_W_CHANNEL 4//PWM4
#define PWM_W_CHANNEL_SET() do{ \
gpio_set_func(LED_W, AS_PWM4); \
}while(0)
#define WARM_LIGHT_PWM_CHANNEL PWM_Y_CHANNEL
#define COOL_LIGHT_PWM_CHANNEL PWM_W_CHANNEL
#define WARM_LIGHT_PWM_SET() PWM_Y_CHANNEL_SET()
#define COOL_LIGHT_PWM_SET() PWM_W_CHANNEL_SET()
//LED_R and LED_G as GPIO.
#define LED_R GPIO_PA3
#define LED_G GPIO_PA2
#define PA3_FUNC AS_GPIO
#define PA3_OUTPUT_ENABLE 1
#define PA3_INPUT_ENABLE 0
#define PA2_FUNC AS_GPIO
#define PA2_OUTPUT_ENABLE 1
#define PA2_INPUT_ENABLE 0
#define LED_POWER LED_R
#define LED_PERMIT LED_G
#endif
// UART
#if ZBHCI_UART
#define UART_TX_PIN UART_TX_PD7
#define UART_RX_PIN UART_RX_PA0
#define UART_PIN_CFG() uart_gpio_set(UART_TX_PIN, UART_RX_PIN);// uart tx/rx pin set
#endif
// DEBUG
#if UART_PRINTF_MODE
#define DEBUG_INFO_TX_PIN GPIO_PC6//print
#endif
/*******************************************************************************************************
*********************8258Dongle with 48 Pins: End*****************************************************
*******************************************************************************************************/
#else
#error "Board defined error!"
#endif
enum{
VK_SW1 = 0x01,
VK_SW2 = 0x02
};
#define KB_MAP_NORMAL {\
{VK_SW1,}, \
{VK_SW2,}, }
#define KB_MAP_NUM KB_MAP_NORMAL
#define KB_MAP_FN KB_MAP_NORMAL
#define KB_DRIVE_PINS {NULL }
#define KB_SCAN_PINS {BUTTON1, BUTTON2}
/* Disable C linkage for C++ Compilers: */
#if defined(__cplusplus)
}
#endif

View File

@ -1,123 +0,0 @@
/********************************************************************************************************
* @file board_8258_evk.h
*
* @brief This is the header file for board_8258_evk
*
* @author Zigbee Group
* @date 2021
*
* @par Copyright (c) 2021, Telink Semiconductor (Shanghai) Co., Ltd. ("TELINK")
*
* 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.
*******************************************************************************************************/
#pragma once
/* Enable C linkage for C++ Compilers: */
#if defined(__cplusplus)
extern "C" {
#endif
// BUTTON
#define BUTTON1 GPIO_PD1
#define PD1_FUNC AS_GPIO
#define PD1_OUTPUT_ENABLE 0
#define PD1_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PD1 PM_PIN_PULLUP_10K
#define BUTTON2 GPIO_PD2
#define PD2_FUNC AS_GPIO
#define PD2_OUTPUT_ENABLE 0
#define PD2_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PD2 PM_PIN_PULLUP_10K
// LED
/***************************************************************
* LED_R GPIO_PD0 //D5 -- red
* LED_G GPIO_PD4 //D3 -- green
* LED_B GPIO_PD5 //D2 -- blue
* LED_W GPIO_PD3 //D4 -- yellow
****************************************************************/
#if defined COLOR_RGB_SUPPORT && (COLOR_RGB_SUPPORT == 1)
#error "GPIO_PD0 can't be configured as PWM!"
#else
//PWM configuration, LED_B as warm light, LED_W as cool light.
#define LED_B GPIO_PD5 //D2 -- blue PWM0
#define LED_W GPIO_PD3 //D4 -- yellow PWM1_N
#define PWM_W_CHANNEL 1 //PWM1_N
#define PWM_W_CHANNEL_SET() do{ \
gpio_set_func(LED_W, AS_PWM1_N); \
drv_pwm_n_invert(PWM_W_CHANNEL); \
}while(0)
#define PWM_B_CHANNEL 0 //PWM0
#define PWM_B_CHANNEL_SET() do{ \
gpio_set_func(LED_B, AS_PWM0); \
}while(0)
#define WARM_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define COOL_LIGHT_PWM_CHANNEL PWM_W_CHANNEL
#define WARM_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
#define COOL_LIGHT_PWM_SET() PWM_W_CHANNEL_SET()
//LED_R and LED_G as GPIO.
#define LED_R GPIO_PD0
#define LED_G GPIO_PD4
#define PD4_FUNC AS_GPIO
#define PD4_OUTPUT_ENABLE 1
#define PD4_INPUT_ENABLE 0
#define PD0_FUNC AS_GPIO
#define PD0_OUTPUT_ENABLE 1
#define PD0_INPUT_ENABLE 0
#define LED_POWER LED_R
#define LED_PERMIT LED_G
#endif
// UART
#if ZBHCI_UART
#error please configurate uart PIN!!!!!!
#endif
// DEBUG
#if UART_PRINTF_MODE
#define DEBUG_INFO_TX_PIN GPIO_PC7//print
#endif
enum{
VK_SW1 = 0x01,
VK_SW2 = 0x02
};
#define KB_MAP_NORMAL {\
{VK_SW1,}, \
{VK_SW2,}, }
#define KB_MAP_NUM KB_MAP_NORMAL
#define KB_MAP_FN KB_MAP_NORMAL
#define KB_DRIVE_PINS {NULL }
#define KB_SCAN_PINS {BUTTON1, BUTTON2}
/* Disable C linkage for C++ Compilers: */
#if defined(__cplusplus)
}
#endif

View File

@ -1,158 +0,0 @@
/********************************************************************************************************
* @file board_826x_dongle.h
*
* @brief This is the header file for board_826x_dongle
*
* @author Zigbee Group
* @date 2021
*
* @par Copyright (c) 2021, Telink Semiconductor (Shanghai) Co., Ltd. ("TELINK")
*
* 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.
*******************************************************************************************************/
#pragma once
/* Enable C linkage for C++ Compilers: */
#if defined(__cplusplus)
extern "C" {
#endif
//KEY
#define BUTTON1 GPIO_PD2
#define PD2_FUNC AS_GPIO
#define PD2_OUTPUT_ENABLE 0
#define PD2_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PD2 PM_PIN_PULLUP_10K
#define BUTTON2 GPIO_PC5
#define PC5_FUNC AS_GPIO
#define PC5_OUTPUT_ENABLE 0
#define PC5_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PC5 PM_PIN_PULLUP_10K
//LED
/***************************************************************
* LED_R GPIO_PC2 //D3 -- red PWM2
* LED_G GPIO_PC3 //D1 -- green PWM3
* LED_B GPIO_PB6 //D2 -- blue PWM5
* LED_W GPIO_PB4 //D4 -- white PWM4
****************************************************************/
#if defined COLOR_RGB_SUPPORT && (COLOR_RGB_SUPPORT == 1)
#define PC2_FUNC AS_PWM
#define PC2_OUTPUT_ENABLE 1
#define PC2_INPUT_ENABLE 0
#define PC3_FUNC AS_PWM
#define PC3_OUTPUT_ENABLE 1
#define PC3_INPUT_ENABLE 0
#define PB6_FUNC AS_PWM
#define PB6_OUTPUT_ENABLE 1
#define PB6_INPUT_ENABLE 0
#define PWM_R_CHANNEL_SET() PWM2_CFG_GPIO_C2()
#define PWM_R_CHANNEL 2//PWM2
#define PWM_G_CHANNEL_SET() PWM3_CFG_GPIO_C3()
#define PWM_G_CHANNEL 3//PWM3
#define PWM_B_CHANNEL_SET() PWM5_CFG_GPIO_B6()
#define PWM_B_CHANNEL 5//PWM5
#define R_LIGHT_PWM_CHANNEL PWM_R_CHANNEL
#define G_LIGHT_PWM_CHANNEL PWM_G_CHANNEL
#define B_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define R_LIGHT_PWM_SET() PWM_R_CHANNEL_SET()
#define G_LIGHT_PWM_SET() PWM_G_CHANNEL_SET()
#define B_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
#define LED_W GPIO_PB4
#define PB4_FUNC AS_GPIO
#define PB4_OUTPUT_ENABLE 1
#define PB4_INPUT_ENABLE 0
#define LED_POWER NULL
#define LED_PERMIT LED_W
#else
//PWM configuration, LED_B as warm light, LED_W as cool light.
#define PB6_FUNC AS_PWM
#define PB6_OUTPUT_ENABLE 1
#define PB6_INPUT_ENABLE 0
#define PB4_FUNC AS_PWM
#define PB4_OUTPUT_ENABLE 1
#define PB4_INPUT_ENABLE 0
#define PWM_B_CHANNEL_SET() PWM5_CFG_GPIO_B6()
#define PWM_B_CHANNEL 5//PWM5
#define PWM_W_CHANNEL_SET() PWM4_CFG_GPIO_B4()
#define PWM_W_CHANNEL 4//PWM4
#define WARM_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define COOL_LIGHT_PWM_CHANNEL PWM_W_CHANNEL
#define WARM_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
#define COOL_LIGHT_PWM_SET() PWM_W_CHANNEL_SET()
#define LED_R GPIO_PC2
#define LED_G GPIO_PC3
#define PC2_FUNC AS_GPIO
#define PC2_OUTPUT_ENABLE 1
#define PC2_INPUT_ENABLE 0
#define PC3_FUNC AS_GPIO
#define PC3_OUTPUT_ENABLE 1
#define PC3_INPUT_ENABLE 0
#define LED_POWER LED_R
#define LED_PERMIT LED_G
#endif
//UART
#if ZBHCI_UART
PC2 & PC3 are configured as LED pins
#endif
//DEBUG
#if UART_PRINTF_MODE
#define DEBUG_INFO_TX_PIN GPIO_PB5//print
#endif
enum{
VK_SW1 = 0x01,
VK_SW2 = 0x02
};
#define KB_MAP_NORMAL {\
{VK_SW1,}, \
{VK_SW2,}, }
#define KB_MAP_NUM KB_MAP_NORMAL
#define KB_MAP_FN KB_MAP_NORMAL
#define KB_DRIVE_PINS {NULL }
#define KB_SCAN_PINS {BUTTON1, BUTTON2}
/* Disable C linkage for C++ Compilers: */
#if defined(__cplusplus)
}
#endif

View File

@ -1,158 +0,0 @@
/********************************************************************************************************
* @file board_826x_evk.h
*
* @brief This is the header file for board_826x_evk
*
* @author Zigbee Group
* @date 2021
*
* @par Copyright (c) 2021, Telink Semiconductor (Shanghai) Co., Ltd. ("TELINK")
*
* 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.
*******************************************************************************************************/
#pragma once
/* Enable C linkage for C++ Compilers: */
#if defined(__cplusplus)
extern "C" {
#endif
//KEY
#define BUTTON1 GPIO_PD2
#define PD2_FUNC AS_GPIO
#define PD2_OUTPUT_ENABLE 0
#define PD2_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PD2 PM_PIN_PULLUP_10K
#define BUTTON2 GPIO_PC7
#define PC7_FUNC AS_GPIO
#define PC7_OUTPUT_ENABLE 0
#define PC7_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PC7 PM_PIN_PULLUP_10K
//LED
/***************************************************************
* LED_R GPIO_PD5 //D4 -- red PWM0
* LED_G GPIO_PD6 //D2 -- green PWM1
* LED_B GPIO_PB4 //D1 -- blue PWM4
* LED_W GPIO_PD7 //D3 -- white PWM2
****************************************************************/
#if defined COLOR_RGB_SUPPORT && (COLOR_RGB_SUPPORT == 1)
#define PD5_FUNC AS_PWM
#define PD5_OUTPUT_ENABLE 1
#define PD5_INPUT_ENABLE 0
#define PD6_FUNC AS_PWM
#define PD6_OUTPUT_ENABLE 1
#define PD6_INPUT_ENABLE 0
#define PB4_FUNC AS_PWM
#define PB4_OUTPUT_ENABLE 1
#define PB4_INPUT_ENABLE 0
#define PWM_R_CHANNEL_SET() PWM0_CFG_GPIO_D5()
#define PWM_R_CHANNEL 0//PWM0
#define PWM_G_CHANNEL_SET() PWM1_CFG_GPIO_D6()
#define PWM_G_CHANNEL 1//PWM1
#define PWM_B_CHANNEL_SET() PWM4_CFG_GPIO_B4()
#define PWM_B_CHANNEL 4//PWM4
#define R_LIGHT_PWM_CHANNEL PWM_R_CHANNEL
#define G_LIGHT_PWM_CHANNEL PWM_G_CHANNEL
#define B_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define R_LIGHT_PWM_SET() PWM_R_CHANNEL_SET()
#define G_LIGHT_PWM_SET() PWM_G_CHANNEL_SET()
#define B_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
#define LED_W GPIO_PD7
#define PD7_FUNC AS_GPIO
#define PD7_OUTPUT_ENABLE 1
#define PD7_INPUT_ENABLE 0
#define LED_POWER NULL
#define LED_PERMIT LED_W
#else
//PWM configuration, LED_B as warm light, LED_W as cool light.
#define PB4_FUNC AS_PWM
#define PB4_OUTPUT_ENABLE 1
#define PB4_INPUT_ENABLE 0
#define PD7_FUNC AS_PWM
#define PD7_OUTPUT_ENABLE 1
#define PD7_INPUT_ENABLE 0
#define PWM_B_CHANNEL_SET() PWM4_CFG_GPIO_B4()
#define PWM_B_CHANNEL 4//PWM4
#define PWM_W_CHANNEL_SET() PWM2_CFG_GPIO_D7()
#define PWM_W_CHANNEL 2//PWM2
#define WARM_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define COOL_LIGHT_PWM_CHANNEL PWM_W_CHANNEL
#define WARM_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
#define COOL_LIGHT_PWM_SET() PWM_W_CHANNEL_SET()
#define LED_R GPIO_PD5
#define LED_G GPIO_PD6
#define PD5_FUNC AS_GPIO
#define PD5_OUTPUT_ENABLE 1
#define PD5_INPUT_ENABLE 0
#define PD6_FUNC AS_GPIO
#define PD6_OUTPUT_ENABLE 1
#define PD6_INPUT_ENABLE 0
#define LED_POWER LED_R
#define LED_PERMIT LED_G
#endif
//UART
#if ZBHCI_UART
#error please configurate uart PIN!!!!!!
#endif
//DEBUG
#if UART_PRINTF_MODE
#define DEBUG_INFO_TX_PIN GPIO_PC5//print
#endif
enum{
VK_SW1 = 0x01,
VK_SW2 = 0x02
};
#define KB_MAP_NORMAL {\
{VK_SW1,}, \
{VK_SW2,}, }
#define KB_MAP_NUM KB_MAP_NORMAL
#define KB_MAP_FN KB_MAP_NORMAL
#define KB_DRIVE_PINS {NULL }
#define KB_SCAN_PINS {BUTTON1, BUTTON2}
/* Disable C linkage for C++ Compilers: */
#if defined(__cplusplus)
}
#endif

View File

@ -1,170 +0,0 @@
/********************************************************************************************************
* @file board_8278_dongle.h
*
* @brief This is the header file for board_8278_dongle
*
* @author Zigbee Group
* @date 2021
*
* @par Copyright (c) 2021, Telink Semiconductor (Shanghai) Co., Ltd. ("TELINK")
*
* 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.
*******************************************************************************************************/
#pragma once
/* Enable C linkage for C++ Compilers: */
#if defined(__cplusplus)
extern "C" {
#endif
/*******************************************************************************************************
*********************8278Dongle with 48 Pins: Start*****************************************************
*******************************************************************************************************/
//KEY
#define BUTTON1 GPIO_PD6
#define PD6_FUNC AS_GPIO
#define PD6_OUTPUT_ENABLE 0
#define PD6_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PD6 PM_PIN_PULLUP_10K
#define BUTTON2 GPIO_PD5
#define PD5_FUNC AS_GPIO
#define PD5_OUTPUT_ENABLE 0
#define PD5_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PD5 PM_PIN_PULLUP_10K
//LED
/***************************************************************
* LED_R GPIO_PA3 //D2 -- red PWM1
* LED_G GPIO_PA2 //D1 -- green PWM0
* LED_B GPIO_PB0 //D4 -- blue PWM3
* LED_W GPIO_PB1 //D5 -- white PWM4
* LED_Y GPIO_PA4 //D3 -- yellow PWM2
****************************************************************/
#if defined COLOR_RGB_SUPPORT && (COLOR_RGB_SUPPORT == 1)
#define LED_R GPIO_PA3 //D2 -- red PWM1
#define LED_G GPIO_PA2 //D1 -- green PWM0
#define LED_B GPIO_PB0 //D4 -- blue PWM3
#define PWM_R_CHANNEL 1//PWM1
#define PWM_R_CHANNEL_SET() do{ \
gpio_set_func(LED_R, AS_PWM1); \
}while(0)
#define PWM_G_CHANNEL 0//PWM0
#define PWM_G_CHANNEL_SET() do{ \
gpio_set_func(LED_G, AS_PWM0); \
}while(0)
#define PWM_B_CHANNEL 3//PWM3
#define PWM_B_CHANNEL_SET() do{ \
gpio_set_func(LED_B, AS_PWM3); \
}while(0)
#define R_LIGHT_PWM_CHANNEL PWM_R_CHANNEL
#define G_LIGHT_PWM_CHANNEL PWM_G_CHANNEL
#define B_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define R_LIGHT_PWM_SET() PWM_R_CHANNEL_SET()
#define G_LIGHT_PWM_SET() PWM_G_CHANNEL_SET()
#define B_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
//LED_Y and LED_W as GPIO.
#define LED_Y GPIO_PA4
#define LED_W GPIO_PB1
#define PA4_FUNC AS_GPIO
#define PA4_OUTPUT_ENABLE 1
#define PA4_INPUT_ENABLE 0
#define PB1_FUNC AS_GPIO
#define PB1_OUTPUT_ENABLE 1
#define PB1_INPUT_ENABLE 0
#define LED_POWER LED_W
#define LED_PERMIT LED_Y
#else
//PWM configuration, LED_Y as warm light, LED_W as cool light.
#define LED_Y GPIO_PA4 //D3 -- yellow PWM2
#define LED_W GPIO_PB1 //D5 -- white PWM4
#define PWM_Y_CHANNEL 2//PWM2
#define PWM_Y_CHANNEL_SET() do{ \
gpio_set_func(LED_Y, AS_PWM2); \
}while(0)
#define PWM_W_CHANNEL 4//PWM4
#define PWM_W_CHANNEL_SET() do{ \
gpio_set_func(LED_W, AS_PWM4); \
}while(0)
#define WARM_LIGHT_PWM_CHANNEL PWM_Y_CHANNEL
#define COOL_LIGHT_PWM_CHANNEL PWM_W_CHANNEL
#define WARM_LIGHT_PWM_SET() PWM_Y_CHANNEL_SET()
#define COOL_LIGHT_PWM_SET() PWM_W_CHANNEL_SET()
//LED_R and LED_G as GPIO.
#define LED_R GPIO_PA3
#define LED_G GPIO_PA2
#define PA3_FUNC AS_GPIO
#define PA3_OUTPUT_ENABLE 1
#define PA3_INPUT_ENABLE 0
#define PA2_FUNC AS_GPIO
#define PA2_OUTPUT_ENABLE 1
#define PA2_INPUT_ENABLE 0
#define LED_POWER LED_R
#define LED_PERMIT LED_G
#endif
// UART
#if ZBHCI_UART
#define UART_TX_PIN UART_TX_PD7
#define UART_RX_PIN UART_RX_PA0
#define UART_PIN_CFG() uart_gpio_set(UART_TX_PIN, UART_RX_PIN);// uart tx/rx pin set
#endif
// DEBUG
#if UART_PRINTF_MODE
#define DEBUG_INFO_TX_PIN GPIO_PC6//print
#endif
enum{
VK_SW1 = 0x01,
VK_SW2 = 0x02
};
#define KB_MAP_NORMAL {\
{VK_SW1,}, \
{VK_SW2,}, }
#define KB_MAP_NUM KB_MAP_NORMAL
#define KB_MAP_FN KB_MAP_NORMAL
#define KB_DRIVE_PINS {NULL }
#define KB_SCAN_PINS {BUTTON1, BUTTON2}
/* Disable C linkage for C++ Compilers: */
#if defined(__cplusplus)
}
#endif

View File

@ -1,124 +0,0 @@
/********************************************************************************************************
* @file board_8278_evk.h
*
* @brief This is the header file for board_8278_evk
*
* @author Zigbee Group
* @date 2021
*
* @par Copyright (c) 2021, Telink Semiconductor (Shanghai) Co., Ltd. ("TELINK")
*
* 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.
*******************************************************************************************************/
#pragma once
/* Enable C linkage for C++ Compilers: */
#if defined(__cplusplus)
extern "C" {
#endif
// BUTTON
#define BUTTON1 GPIO_PB2
#define PB2_FUNC AS_GPIO
#define PB2_OUTPUT_ENABLE 0
#define PB2_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PB2 PM_PIN_PULLUP_10K
#define BUTTON2 GPIO_PB3
#define PB3_FUNC AS_GPIO
#define PB3_OUTPUT_ENABLE 0
#define PB3_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PB3 PM_PIN_PULLUP_10K
//LED
/***************************************************************
* LED_R GPIO_PD0 //D5 -- red
* LED_G GPIO_PD4 //D3 -- green
* LED_B GPIO_PD5 //D2 -- blue
* LED_W GPIO_PD3 //D4 -- yellow
****************************************************************/
#if defined COLOR_RGB_SUPPORT && (COLOR_RGB_SUPPORT == 1)
#error "GPIO_PD0 can't be configured as PWM!"
#else
//PWM configuration, LED_B as warm light, LED_W as cool light.
#define LED_B GPIO_PD2 //D2 -- blue PWM3
#define LED_W GPIO_PD4 //D4 -- white PWM2_N
#define PWM_W_CHANNEL 2 //PWM1_N
#define PWM_W_CHANNEL_SET() do{ \
gpio_set_func(LED_W, AS_PWM2_N); \
drv_pwm_n_invert(PWM_W_CHANNEL); \
}while(0)
#define PWM_B_CHANNEL 3 //PWM0
#define PWM_B_CHANNEL_SET() do{ \
gpio_set_func(LED_B, AS_PWM3); \
}while(0)
#define WARM_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define COOL_LIGHT_PWM_CHANNEL PWM_W_CHANNEL
#define WARM_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
#define COOL_LIGHT_PWM_SET() PWM_W_CHANNEL_SET()
//LED_R and LED_G as GPIO.
#define LED_R GPIO_PD5
#define LED_G GPIO_PD3
#define PD3_FUNC AS_GPIO
#define PD3_OUTPUT_ENABLE 1
#define PD3_INPUT_ENABLE 0
#define PD5_FUNC AS_GPIO
#define PD5_OUTPUT_ENABLE 1
#define PD5_INPUT_ENABLE 0
#define LED_POWER LED_R
#define LED_PERMIT LED_G
#endif
// UART
#if ZBHCI_UART
#error please configurate uart PIN!!!!!!
#endif
// DEBUG
#if UART_PRINTF_MODE
#define DEBUG_INFO_TX_PIN GPIO_PA2//print
#endif
enum{
VK_SW1 = 0x01,
VK_SW2 = 0x02
};
#define KB_MAP_NORMAL {\
{VK_SW1,}, \
{VK_SW2,}, }
#define KB_MAP_NUM KB_MAP_NORMAL
#define KB_MAP_FN KB_MAP_NORMAL
#define KB_DRIVE_PINS {NULL }
#define KB_SCAN_PINS {BUTTON1, BUTTON2}
/* Disable C linkage for C++ Compilers: */
#if defined(__cplusplus)
}
#endif

View File

@ -1,134 +0,0 @@
/********************************************************************************************************
* @file board_9518_dongle.h
*
* @brief This is the header file for board_9518_dongle
*
* @author Zigbee Group
* @date 2021
*
* @par Copyright (c) 2021, Telink Semiconductor (Shanghai) Co., Ltd. ("TELINK")
*
* 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.
*******************************************************************************************************/
#pragma once
/* Enable C linkage for C++ Compilers: */
#if defined(__cplusplus)
extern "C" {
#endif
// BUTTON
#define BUTTON1 GPIO_PB2//SW2
#define PB2_FUNC AS_GPIO
#define PB2_OUTPUT_ENABLE 0
#define PB2_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PB2 GPIO_PIN_PULLUP_10K
#define BUTTON2 GPIO_PB3//SW7
#define PB3_FUNC AS_GPIO
#define PB3_OUTPUT_ENABLE 0
#define PB3_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PB3 GPIO_PIN_PULLUP_10K
// LED
/***************************************************************
* LED_R GPIO_PB4 //D9 -- red PWM0
* LED_G GPIO_PB0 //D6 -- green PWM5
* LED_B GPIO_PB7 //D8 -- blue PWM2
* LED_Y GPIO_PB5 //D7 -- yellow PWM1
*
* LED_B2 GPIO_PB1 //D10 -- blue PWM3
* LED_B3 GPIO_PE3 //D11 -- blue PWM0
****************************************************************/
#if defined COLOR_RGB_SUPPORT && (COLOR_RGB_SUPPORT == 1)
#error "To do!"
#else
//PWM configuration, LED_R as warm light, LED_B1 as cool light.
#define LED_R GPIO_PB4
#define LED_B GPIO_PB7
#define PWM_R_CHANNEL 0 //PWM0
#define PWM_R_CHANNEL_SET() do{\
pwm_set_pin(LED_R); \
}while(0)
#define PWM_B_CHANNEL 2 //PWM2
#define PWM_B_CHANNEL_SET() do{\
pwm_set_pin(LED_B); \
}while(0)
#define WARM_LIGHT_PWM_CHANNEL PWM_R_CHANNEL
#define COOL_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define WARM_LIGHT_PWM_SET() PWM_R_CHANNEL_SET()
#define COOL_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
//Others as GPIO.
#define LED_Y GPIO_PB5
#define LED_G GPIO_PB0
#define LED_B2 GPIO_PB1
#define LED_B3 GPIO_PE3
#define PB5_FUNC AS_GPIO
#define PB5_OUTPUT_ENABLE 1
#define PB5_INPUT_ENABLE 0
#define PB0_FUNC AS_GPIO
#define PB0_OUTPUT_ENABLE 1
#define PB0_INPUT_ENABLE 0
#define PB1_FUNC AS_GPIO
#define PB1_OUTPUT_ENABLE 1
#define PB1_INPUT_ENABLE 0
#define PE3_FUNC AS_GPIO
#define PE3_OUTPUT_ENABLE 1
#define PE3_INPUT_ENABLE 0
#define LED_POWER LED_Y
#define LED_PERMIT LED_G
#endif
// UART
#if ZBHCI_UART
#error please configurate uart PIN!!!!!!
#endif
// DEBUG
#if UART_PRINTF_MODE
#define DEBUG_INFO_TX_PIN GPIO_PC1//print
#endif
enum{
VK_SW1 = 0x01,
VK_SW2 = 0x02,
};
#define KB_MAP_NORMAL {\
{VK_SW1,}, \
{VK_SW2,}, }
#define KB_MAP_NUM KB_MAP_NORMAL
#define KB_MAP_FN KB_MAP_NORMAL
#define KB_DRIVE_PINS {NULL}
#define KB_SCAN_PINS {BUTTON1, BUTTON2}
/* Disable C linkage for C++ Compilers: */
#if defined(__cplusplus)
}
#endif

View File

@ -1,136 +0,0 @@
/********************************************************************************************************
* @file board_9518_evk.h
*
* @brief This is the header file for board_9518_evk
*
* @author Zigbee Group
* @date 2021
*
* @par Copyright (c) 2021, Telink Semiconductor (Shanghai) Co., Ltd. ("TELINK")
*
* 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.
*******************************************************************************************************/
#pragma once
/* Enable C linkage for C++ Compilers: */
#if defined(__cplusplus)
extern "C" {
#endif
// BUTTON
#define BUTTON1 GPIO_PC2
#define PC2_FUNC AS_GPIO
#define PC2_OUTPUT_ENABLE 0
#define PC2_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PC2 GPIO_PIN_PULLDOWN_100K
#define BUTTON2 GPIO_PC0
#define PC0_FUNC AS_GPIO
#define PC0_OUTPUT_ENABLE 0
#define PC0_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PC0 GPIO_PIN_PULLDOWN_100K
#define BUTTON3 GPIO_PC3
#define PC3_FUNC AS_GPIO
#define PC3_OUTPUT_ENABLE 0
#define PC3_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PC3 GPIO_PIN_PULLUP_10K
#define BUTTON4 GPIO_PC1
#define PC1_FUNC AS_GPIO
#define PC1_OUTPUT_ENABLE 0
#define PC1_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PC1 GPIO_PIN_PULLUP_10K
// LED
/***************************************************************
* LED_R GPIO_PB7 //D4 -- red
* LED_G GPIO_PB5 //D2 -- green
* LED_B GPIO_PB4 //D1 -- blue
* LED_W GPIO_PB6 //D3 -- white
****************************************************************/
#if defined COLOR_RGB_SUPPORT && (COLOR_RGB_SUPPORT == 1)
#error "To do!"
#else
//PWM configuration, LED_R as warm light, LED_B as cool light.
#define LED_R GPIO_PB7
#define LED_B GPIO_PB4
#define PWM_R_CHANNEL 2 //PWM2
#define PWM_R_CHANNEL_SET() do{\
pwm_set_pin(LED_R); \
}while(0)
#define PWM_B_CHANNEL 0 //PWM0
#define PWM_B_CHANNEL_SET() do{\
pwm_set_pin(LED_B); \
}while(0)
#define WARM_LIGHT_PWM_CHANNEL PWM_R_CHANNEL
#define COOL_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define WARM_LIGHT_PWM_SET() PWM_R_CHANNEL_SET()
#define COOL_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
//LED_W and LED_G as GPIO.
#define LED_W GPIO_PB6
#define LED_G GPIO_PB5
#define PB6_FUNC AS_GPIO
#define PB6_OUTPUT_ENABLE 1
#define PB6_INPUT_ENABLE 0
#define PB5_FUNC AS_GPIO
#define PB5_OUTPUT_ENABLE 1
#define PB5_INPUT_ENABLE 0
#define LED_POWER LED_W
#define LED_PERMIT LED_G
#endif
// UART
#if ZBHCI_UART
#error please configurate uart PIN!!!!!!
#endif
// DEBUG
#if UART_PRINTF_MODE
#define DEBUG_INFO_TX_PIN GPIO_PC7//print
#endif
enum{
VK_SW1 = 0x01,
VK_SW2 = 0x02,
VK_SW3 = 0x03,
VK_SW4 = 0x04
};
#define KB_MAP_NORMAL {\
{VK_SW1, VK_SW3}, \
{VK_SW2, VK_SW4}, }
#define KB_MAP_NUM KB_MAP_NORMAL
#define KB_MAP_FN KB_MAP_NORMAL
#define KB_DRIVE_PINS {GPIO_PC2, GPIO_PC0}
#define KB_SCAN_PINS {GPIO_PC3, GPIO_PC1}
#define KB_LINE_MODE 0
#define KB_LINE_HIGH_VALID 0
/* Disable C linkage for C++ Compilers: */
#if defined(__cplusplus)
}
#endif

142
board_glc002p.h Normal file
View File

@ -0,0 +1,142 @@
/********************************************************************************************************
* @file board_glc002p.h
*
* @brief This is the header file for mini5in1 glc002p
*
* @author Zigbee Group
* @date 2021
*
* @par Copyright (c) 2021, Telink Semiconductor (Shanghai) Co., Ltd. ("TELINK")
*
* 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.
*******************************************************************************************************/
#pragma once
/* Enable C linkage for C++ Compilers: */
#if defined(__cplusplus)
extern "C" {
#endif
/*******************************************************************************************************
*********************TLSR8258F512ET32 32 Pins: Start*****************************************************
*******************************************************************************************************/
// Option Button
#define BUTTON_OPT GPIO_PB7
#define PB7_FUNC AS_GPIO
#define PB7_OUTPUT_ENABLE 0
#define PB7_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PB7 PM_PIN_PULLUP_10K
// Factory reset button
#define BUTTON_RESET GPIO_PC0
#define PC0_FUNC AS_GPIO
#define PC0_OUTPUT_ENABLE 0
#define PC0_INPUT_ENABLE 1
#define PULL_WAKEUP_SRC_PC0 PM_PIN_PULLUP_10K
// LED load Output Mapping
#define LED_B GPIO_PC2 // PWM0
#define LED_G GPIO_PC3 // PWM1
#define LED_R GPIO_PC4 // PWM2
#define LED_C GPIO_PD2 // PWM3
#define LED_W GPIO_PB4 // PWM4
#define PWM_B_CHANNEL 0//PWM0
#define PWM_B_CHANNEL_SET() do{ \
gpio_set_func(LED_B, AS_PWM0); \
}while(0)
#define PWM_G_CHANNEL 1//PWM1
#define PWM_G_CHANNEL_SET() do{ \
gpio_set_func(LED_G, AS_PWM1); \
}while(0)
#define PWM_R_CHANNEL 2//PWM2
#define PWM_R_CHANNEL_SET() do{ \
gpio_set_func(LED_R, AS_PWM2); \
}while(0)
#define PWM_C_CHANNEL 3//PWM3
#define PWM_C_CHANNEL_SET() do{ \
gpio_set_func(LED_C, AS_PWM3); \
}while(0)
#define PWM_W_CHANNEL 4//PWM4
#define PWM_W_CHANNEL_SET() do{ \
gpio_set_func(LED_W, AS_PWM4); \
}while(0)
#define R_LIGHT_PWM_CHANNEL PWM_R_CHANNEL
#define G_LIGHT_PWM_CHANNEL PWM_G_CHANNEL
#define B_LIGHT_PWM_CHANNEL PWM_B_CHANNEL
#define COOL_LIGHT_PWM_CHANNEL PWM_C_CHANNEL
#define WARM_LIGHT_PWM_CHANNEL PWM_W_CHANNEL
#define R_LIGHT_PWM_SET() PWM_R_CHANNEL_SET()
#define G_LIGHT_PWM_SET() PWM_G_CHANNEL_SET()
#define B_LIGHT_PWM_SET() PWM_B_CHANNEL_SET()
#define COOL_LIGHT_PWM_SET() PWM_C_CHANNEL_SET()
#define WARM_LIGHT_PWM_SET() PWM_W_CHANNEL_SET()
// On-Board LED Definitions for Mini 5in1
#define OB_LED_R GPIO_PA0
#define PA0_FUNC AS_GPIO
#define PA0_OUTPUT_ENABLE 1
#define PA0_INPUT_ENABLE 0
#define OB_LED_G GPIO_PA1
#define PA1_FUNC AS_GPIO
#define PA1_OUTPUT_ENABLE 1
#define PA1_INPUT_ENABLE 0
#define OB_LED_B GPIO_PB1
#define PB1_FUNC AS_GPIO
#define PB1_OUTPUT_ENABLE 1
#define PB1_INPUT_ENABLE 0
#define LED_STATUS_R OB_LED_R
#define LED_STATUS_G OB_LED_G
#define LED_STATUS_B OB_LED_B
// UART
#if ZBHCI_UART
#error please configure the uart PIN!!!!!!
#endif
// DEBUG
#if UART_PRINTF_MODE
#define DEBUG_INFO_TX_PIN GPIO_PC4//print
#endif
enum{
VK_SW1 = 0x01,
VK_SW2 = 0x02
};
#define KB_MAP_NORMAL {\
{VK_SW1,}, \
{VK_SW2,}, }
#define KB_MAP_NUM KB_MAP_NORMAL
#define KB_MAP_FN KB_MAP_NORMAL
#define KB_DRIVE_PINS {NULL }
#define KB_SCAN_PINS {BUTTON_OPT, BUTTON_RESET}
/* Disable C linkage for C++ Compilers: */
#if defined(__cplusplus)
}
#endif

View File

@ -127,20 +127,20 @@ typedef struct{
u8 enhancedColorMode; u8 enhancedColorMode;
u8 numOfPrimaries; u8 numOfPrimaries;
u16 colorCapabilities; u16 colorCapabilities;
#if COLOR_RGB_SUPPORT
u8 currentHue; u8 currentHue;
u8 currentSaturation; u8 currentSaturation;
u16 currentX;
u16 currentY;
u16 enhancedCurrentHue;
u8 colorLoopActive; u8 colorLoopActive;
u8 colorLoopDirection; u8 colorLoopDirection;
u16 colorLoopTime; u16 colorLoopTime;
u16 colorLoopStartEnhancedHue; u16 colorLoopStartEnhancedHue;
u16 colorLoopStoredEnhancedHue; u16 colorLoopStoredEnhancedHue;
#elif COLOR_CCT_SUPPORT
u16 colorTemperatureMireds; u16 colorTemperatureMireds;
u16 colorTempPhysicalMinMireds; u16 colorTempPhysicalMinMireds;
u16 colorTempPhysicalMaxMireds; u16 colorTempPhysicalMaxMireds;
u16 startUpColorTemperatureMireds; u16 startUpColorTemperatureMireds;
#endif
}zcl_lightColorCtrlAttr_t; }zcl_lightColorCtrlAttr_t;
/** /**
@ -163,13 +163,10 @@ typedef struct {
* @brief Defined for saving color control attributes * @brief Defined for saving color control attributes
*/ */
typedef struct { typedef struct {
#if COLOR_RGB_SUPPORT
u8 currentHue; u8 currentHue;
u8 currentSaturation; u8 currentSaturation;
#elif COLOR_CCT_SUPPORT
u16 colorTemperatureMireds; u16 colorTemperatureMireds;
u16 startUpColorTemperatureMireds; u16 startUpColorTemperatureMireds;
#endif
}zcl_nv_colorCtrl_t; }zcl_nv_colorCtrl_t;
/********************************************************************** /**********************************************************************

View File

@ -30,7 +30,7 @@
#include "zcl_include.h" #include "zcl_include.h"
#include "sampleLight.h" #include "sampleLight.h"
#include "sampleLightCtrl.h" #include "sampleLightCtrl.h"
#include<math.h>
/********************************************************************** /**********************************************************************
* LOCAL CONSTANTS * LOCAL CONSTANTS
@ -107,21 +107,18 @@ void hwLight_init(void)
{ {
drv_pwm_init(); drv_pwm_init();
#if COLOR_RGB_SUPPORT
R_LIGHT_PWM_SET(); R_LIGHT_PWM_SET();
G_LIGHT_PWM_SET(); G_LIGHT_PWM_SET();
B_LIGHT_PWM_SET(); B_LIGHT_PWM_SET();
COOL_LIGHT_PWM_SET();
WARM_LIGHT_PWM_SET();
pwmInit(R_LIGHT_PWM_CHANNEL, 0); pwmInit(R_LIGHT_PWM_CHANNEL, 0);
pwmInit(G_LIGHT_PWM_CHANNEL, 0); pwmInit(G_LIGHT_PWM_CHANNEL, 0);
pwmInit(B_LIGHT_PWM_CHANNEL, 0); pwmInit(B_LIGHT_PWM_CHANNEL, 0);
#else
COOL_LIGHT_PWM_SET();
pwmInit(COOL_LIGHT_PWM_CHANNEL, 0); pwmInit(COOL_LIGHT_PWM_CHANNEL, 0);
#if COLOR_CCT_SUPPORT
WARM_LIGHT_PWM_SET();
pwmInit(WARM_LIGHT_PWM_CHANNEL, 0); pwmInit(WARM_LIGHT_PWM_CHANNEL, 0);
#endif
#endif
} }
/********************************************************************* /*********************************************************************
@ -136,30 +133,21 @@ void hwLight_init(void)
void hwLight_onOffUpdate(u8 onOff) void hwLight_onOffUpdate(u8 onOff)
{ {
if(onOff){ if(onOff){
#if COLOR_RGB_SUPPORT
drv_pwm_start(R_LIGHT_PWM_CHANNEL); drv_pwm_start(R_LIGHT_PWM_CHANNEL);
drv_pwm_start(G_LIGHT_PWM_CHANNEL); drv_pwm_start(G_LIGHT_PWM_CHANNEL);
drv_pwm_start(B_LIGHT_PWM_CHANNEL); drv_pwm_start(B_LIGHT_PWM_CHANNEL);
#else
#if COLOR_CCT_SUPPORT
drv_pwm_start(WARM_LIGHT_PWM_CHANNEL);
#endif
drv_pwm_start(COOL_LIGHT_PWM_CHANNEL); drv_pwm_start(COOL_LIGHT_PWM_CHANNEL);
#endif drv_pwm_start(WARM_LIGHT_PWM_CHANNEL);
}else{ }else{
#if COLOR_RGB_SUPPORT
drv_pwm_stop(R_LIGHT_PWM_CHANNEL); drv_pwm_stop(R_LIGHT_PWM_CHANNEL);
drv_pwm_stop(G_LIGHT_PWM_CHANNEL); drv_pwm_stop(G_LIGHT_PWM_CHANNEL);
drv_pwm_stop(B_LIGHT_PWM_CHANNEL); drv_pwm_stop(B_LIGHT_PWM_CHANNEL);
#else
#if COLOR_CCT_SUPPORT
drv_pwm_stop(WARM_LIGHT_PWM_CHANNEL);
#endif
drv_pwm_stop(COOL_LIGHT_PWM_CHANNEL); drv_pwm_stop(COOL_LIGHT_PWM_CHANNEL);
#endif drv_pwm_stop(WARM_LIGHT_PWM_CHANNEL);
} }
} }
/********************************************************************* /*********************************************************************
* @fn hwLight_levelUpdate * @fn hwLight_levelUpdate
* *
@ -171,13 +159,14 @@ void hwLight_onOffUpdate(u8 onOff)
*/ */
void hwLight_levelUpdate(u8 level) void hwLight_levelUpdate(u8 level)
{ {
/* Use this if no rgb support
#if !defined COLOR_RGB_SUPPORT || (COLOR_RGB_SUPPORT == 0) #if !defined COLOR_RGB_SUPPORT || (COLOR_RGB_SUPPORT == 0)
level = (level < 0x10) ? 0x10 : level; level = (level < 0x10) ? 0x10 : level;
u16 gammaCorrectLevel = ((u16)level * level) / ZCL_LEVEL_ATTR_MAX_LEVEL; u16 gammaCorrectLevel = ((u16)level * level) / ZCL_LEVEL_ATTR_MAX_LEVEL;
pwmSetDuty(COOL_LIGHT_PWM_CHANNEL, gammaCorrectLevel * PWM_FULL_DUTYCYCLE); pwmSetDuty(COOL_LIGHT_PWM_CHANNEL, gammaCorrectLevel * PWM_FULL_DUTYCYCLE);
#endif #endif*/
} }
/********************************************************************* /*********************************************************************
@ -194,12 +183,10 @@ void hwLight_levelUpdate(u8 level)
*/ */
void temperatureToCW(u16 temperatureMireds, u8 level, u8 *C, u8 *W) void temperatureToCW(u16 temperatureMireds, u8 level, u8 *C, u8 *W)
{ {
#if COLOR_CCT_SUPPORT
zcl_lightColorCtrlAttr_t *pColor = zcl_colorAttrGet(); zcl_lightColorCtrlAttr_t *pColor = zcl_colorAttrGet();
*W = (u8)(((temperatureMireds - pColor->colorTempPhysicalMinMireds) * level) / (pColor->colorTempPhysicalMaxMireds - pColor->colorTempPhysicalMinMireds)); *W = (u8)(((temperatureMireds - pColor->colorTempPhysicalMinMireds) * level) / (pColor->colorTempPhysicalMaxMireds - pColor->colorTempPhysicalMinMireds));
*C = level - (*W); *C = level - (*W);
#endif
} }
/********************************************************************* /*********************************************************************
@ -214,7 +201,6 @@ void temperatureToCW(u16 temperatureMireds, u8 level, u8 *C, u8 *W)
*/ */
void hwLight_colorUpdate_colorTemperature(u16 colorTemperatureMireds, u8 level) void hwLight_colorUpdate_colorTemperature(u16 colorTemperatureMireds, u8 level)
{ {
#if COLOR_CCT_SUPPORT
u8 C = 0; u8 C = 0;
u8 W = 0; u8 W = 0;
@ -227,7 +213,9 @@ void hwLight_colorUpdate_colorTemperature(u16 colorTemperatureMireds, u8 level)
pwmSetDuty(COOL_LIGHT_PWM_CHANNEL, gammaCorrectC * PWM_FULL_DUTYCYCLE); pwmSetDuty(COOL_LIGHT_PWM_CHANNEL, gammaCorrectC * PWM_FULL_DUTYCYCLE);
pwmSetDuty(WARM_LIGHT_PWM_CHANNEL, gammaCorrectW * PWM_FULL_DUTYCYCLE); pwmSetDuty(WARM_LIGHT_PWM_CHANNEL, gammaCorrectW * PWM_FULL_DUTYCYCLE);
#endif pwmSetDuty(R_LIGHT_PWM_CHANNEL, 0);
pwmSetDuty(G_LIGHT_PWM_CHANNEL, 0);
pwmSetDuty(B_LIGHT_PWM_CHANNEL, 0);
} }
/********************************************************************* /*********************************************************************
@ -246,7 +234,6 @@ void hwLight_colorUpdate_colorTemperature(u16 colorTemperatureMireds, u8 level)
*/ */
void hsvToRGB(u8 hue, u8 saturation, u8 level, u8 *R, u8 *G, u8 *B) void hsvToRGB(u8 hue, u8 saturation, u8 level, u8 *R, u8 *G, u8 *B)
{ {
#if COLOR_RGB_SUPPORT
u8 region; u8 region;
u8 remainder; u8 remainder;
u8 p, q, t; u8 p, q, t;
@ -299,7 +286,6 @@ void hsvToRGB(u8 hue, u8 saturation, u8 level, u8 *R, u8 *G, u8 *B)
*G = p; *G = p;
*B = q; *B = q;
} }
#endif
} }
/********************************************************************* /*********************************************************************
@ -315,7 +301,6 @@ void hsvToRGB(u8 hue, u8 saturation, u8 level, u8 *R, u8 *G, u8 *B)
*/ */
void hwLight_colorUpdate_HSV2RGB(u8 hue, u8 saturation, u8 level) void hwLight_colorUpdate_HSV2RGB(u8 hue, u8 saturation, u8 level)
{ {
#if COLOR_RGB_SUPPORT
u8 R = 0; u8 R = 0;
u8 G = 0; u8 G = 0;
u8 B = 0; u8 B = 0;
@ -324,6 +309,10 @@ void hwLight_colorUpdate_HSV2RGB(u8 hue, u8 saturation, u8 level)
hsvToRGB(hue, saturation, level, &R, &G, &B); hsvToRGB(hue, saturation, level, &R, &G, &B);
hwLight_colorUpdate_RGB(R,G,B);
}
void hwLight_colorUpdate_RGB(u8 R, u8 G, u8 B) {
u16 gammaCorrectR = ((u16)R * R) / ZCL_LEVEL_ATTR_MAX_LEVEL; u16 gammaCorrectR = ((u16)R * R) / ZCL_LEVEL_ATTR_MAX_LEVEL;
u16 gammaCorrectG = ((u16)G * G) / ZCL_LEVEL_ATTR_MAX_LEVEL; u16 gammaCorrectG = ((u16)G * G) / ZCL_LEVEL_ATTR_MAX_LEVEL;
u16 gammaCorrectB = ((u16)B * B) / ZCL_LEVEL_ATTR_MAX_LEVEL; u16 gammaCorrectB = ((u16)B * B) / ZCL_LEVEL_ATTR_MAX_LEVEL;
@ -331,7 +320,40 @@ void hwLight_colorUpdate_HSV2RGB(u8 hue, u8 saturation, u8 level)
pwmSetDuty(PWM_R_CHANNEL, gammaCorrectR * PWM_FULL_DUTYCYCLE); pwmSetDuty(PWM_R_CHANNEL, gammaCorrectR * PWM_FULL_DUTYCYCLE);
pwmSetDuty(PWM_G_CHANNEL, gammaCorrectG * PWM_FULL_DUTYCYCLE); pwmSetDuty(PWM_G_CHANNEL, gammaCorrectG * PWM_FULL_DUTYCYCLE);
pwmSetDuty(PWM_B_CHANNEL, gammaCorrectB * PWM_FULL_DUTYCYCLE); pwmSetDuty(PWM_B_CHANNEL, gammaCorrectB * PWM_FULL_DUTYCYCLE);
#endif pwmSetDuty(COOL_LIGHT_PWM_CHANNEL, 0);
pwmSetDuty(WARM_LIGHT_PWM_CHANNEL, 0);
}
static float ENFORCE_BOUNDS_FLOAT(float lowerBound, float num, float upperBound) {
return num < lowerBound ? lowerBound : num > upperBound ? upperBound : num;
}
float LINEAR_TO_SRGB_GAMMA_CORRECTION(const float part) {
return part <= 0.0031308 ? 12.92 * part : 1.055 * pow(part, 1.0 / 2.4) - 0.055;
}
void hwLight_colorUpdate_XY2RGB(u16 xI, u16 yI, u8 level) {
float x = xI / 65536.f;
float y = yI / 65536.f;
// This does not locate the closest point in the gamma spectrum of the lamps. possible #todo
const float z = 1 - x - y;
const float Y = level / ZCL_LEVEL_ATTR_MAX_LEVEL; // This is luminance, but used as brightness
const float X = ((Y) / y) * x;
const float Z = ((Y) / y) * z;
// D65 BT.709 conversion https://en.wikipedia.org/wiki/SRGB
float r = X * 1.656492 - Y * 0.354851 - Z * 0.255038;
float g = -X * 0.707196 + Y * 1.655397 + Z * 0.036152;
float b = X * 0.051713 - Y * 0.121364 + Z * 1.011530;
// Enforce the lower and upper bounds
r = ENFORCE_BOUNDS_FLOAT(0.0, r * 255, 255.0);
g = ENFORCE_BOUNDS_FLOAT(0.0, g * 255, 255.0);
b = ENFORCE_BOUNDS_FLOAT(0.0, b * 255, 255.0);
hwLight_colorUpdate_RGB((u8)r,(u8)g,(u8)b);
} }
/********************************************************************* /*********************************************************************

View File

@ -38,6 +38,8 @@ void hwLight_onOffUpdate(u8 onOff);
void hwLight_levelUpdate(u8 level); void hwLight_levelUpdate(u8 level);
void hwLight_colorUpdate_colorTemperature(u16 colorTemperatureMireds, u8 level); void hwLight_colorUpdate_colorTemperature(u16 colorTemperatureMireds, u8 level);
void hwLight_colorUpdate_HSV2RGB(u8 hue, u8 saturation, u8 level); void hwLight_colorUpdate_HSV2RGB(u8 hue, u8 saturation, u8 level);
void hwLight_colorUpdate_RGB(u8 R, u8 G, u8 B);
void hwLight_colorUpdate_XY2RGB(u16 x, u16 y, u8 level);
void light_adjust(void); void light_adjust(void);
void light_fresh(void); void light_fresh(void);

View File

@ -35,20 +35,18 @@
* LOCAL CONSTANTS * LOCAL CONSTANTS
*/ */
#ifndef ZCL_BASIC_MFG_NAME #ifndef ZCL_BASIC_MFG_NAME
#define ZCL_BASIC_MFG_NAME {6,'T','E','L','I','N','K'} #define ZCL_BASIC_MFG_NAME {8,'G','L','E','D','O','P','T','O'}
#endif #endif
#ifndef ZCL_BASIC_MODEL_ID #ifndef ZCL_BASIC_MODEL_ID
#define ZCL_BASIC_MODEL_ID {8,'T','L','S','R','8','2','x','x'} #define ZCL_BASIC_MODEL_ID {9,'G','L','-','C','-','0','0','8','P'}
#endif #endif
#ifndef ZCL_BASIC_SW_BUILD_ID #ifndef ZCL_BASIC_SW_BUILD_ID
#define ZCL_BASIC_SW_BUILD_ID {10,'0','1','2','2','0','5','2','0','1','7'} #define ZCL_BASIC_SW_BUILD_ID {8,'2','0','2','2','0','4','0','1'}
#endif #endif
#define COLOR_TEMPERATURE_PHYSICAL_MIN 0x009A//6500K
#if COLOR_CCT_SUPPORT
#define COLOR_TEMPERATURE_PHYSICAL_MIN 0x00FA//4000K
#define COLOR_TEMPERATURE_PHYSICAL_MAX 0x01C6//2200K #define COLOR_TEMPERATURE_PHYSICAL_MAX 0x01C6//2200K
#endif #define COLOR_TEMPERATURE_DEFAULT 0x00FA//4000K
/********************************************************************** /**********************************************************************
* TYPEDEFS * TYPEDEFS
@ -110,15 +108,7 @@ const u16 sampleLight_outClusterList[] =
const af_simple_descriptor_t sampleLight_simpleDesc = const af_simple_descriptor_t sampleLight_simpleDesc =
{ {
HA_PROFILE_ID, /* Application profile identifier */ HA_PROFILE_ID, /* Application profile identifier */
#ifdef ZCL_LIGHT_COLOR_CONTROL
HA_DEV_COLOR_DIMMABLE_LIGHT, HA_DEV_COLOR_DIMMABLE_LIGHT,
#else
#ifdef ZCL_LEVEL_CTRL
HA_DEV_DIMMABLE_LIGHT, /* Application device identifier */
#else
HA_DEV_ONOFF_LIGHT, /* Application device identifier */
#endif
#endif
SAMPLE_LIGHT_ENDPOINT, /* Endpoint */ SAMPLE_LIGHT_ENDPOINT, /* Endpoint */
1, /* Application device version */ 1, /* Application device version */
0, /* Reserved */ 0, /* Reserved */
@ -128,61 +118,13 @@ const af_simple_descriptor_t sampleLight_simpleDesc =
(u16 *)sampleLight_outClusterList, /* Application output cluster list */ (u16 *)sampleLight_outClusterList, /* Application output cluster list */
}; };
#if AF_TEST_ENABLE
/**
* @brief Definition for Incoming cluster / Sever Cluster
*/
const u16 sampleTest_inClusterList[] =
{
ZCL_CLUSTER_TELINK_SDK_TEST_REQ,
ZCL_CLUSTER_TELINK_SDK_TEST_RSP,
ZCL_CLUSTER_TELINK_SDK_TEST_CLEAR_REQ,
ZCL_CLUSTER_TELINK_SDK_TEST_CLEAR_RSP,
};
/**
* @brief Definition for Outgoing cluster / Client Cluster
*/
const u16 sampleTest_outClusterList[] =
{
ZCL_CLUSTER_TELINK_SDK_TEST_REQ,
ZCL_CLUSTER_TELINK_SDK_TEST_RSP,
ZCL_CLUSTER_TELINK_SDK_TEST_CLEAR_REQ,
ZCL_CLUSTER_TELINK_SDK_TEST_CLEAR_RSP,
};
/**
* @brief Definition for Server cluster number and Client cluster number
*/
#define SAMPLE_TEST_IN_CLUSTER_NUM (sizeof(sampleTest_inClusterList)/sizeof(sampleTest_inClusterList[0]))
#define SAMPLE_TEST_OUT_CLUSTER_NUM (sizeof(sampleTest_outClusterList)/sizeof(sampleTest_outClusterList[0]))
/**
* @brief Definition for simple description for HA profile
*/
const af_simple_descriptor_t sampleTestDesc =
{
HA_PROFILE_ID, /* Application profile identifier */
HA_DEV_DIMMABLE_LIGHT, /* Application device identifier */
SAMPLE_TEST_ENDPOINT, /* Endpoint */
0, /* Application device version */
0, /* Reserved */
SAMPLE_TEST_IN_CLUSTER_NUM, /* Application input cluster count */
SAMPLE_TEST_OUT_CLUSTER_NUM, /* Application output cluster count */
(u16 *)sampleTest_inClusterList, /* Application input cluster list */
(u16 *)sampleTest_outClusterList, /* Application output cluster list */
};
#endif /* AF_TEST_ENABLE */
/* Basic */ /* Basic */
zcl_basicAttr_t g_zcl_basicAttrs = zcl_basicAttr_t g_zcl_basicAttrs =
{ {
.zclVersion = 0x03, .zclVersion = 0x03,
.appVersion = 0x00, .appVersion = 0x00,
.stackVersion = 0x02, .stackVersion = 0x00,
.hwVersion = 0x00, .hwVersion = 0x02,
.manuName = ZCL_BASIC_MFG_NAME, .manuName = ZCL_BASIC_MFG_NAME,
.modelId = ZCL_BASIC_MODEL_ID, .modelId = ZCL_BASIC_MODEL_ID,
.powerSource = POWER_SOURCE_MAINS_1_PHASE, .powerSource = POWER_SOURCE_MAINS_1_PHASE,
@ -311,29 +253,28 @@ const zclAttrInfo_t level_attrTbl[] =
#define ZCL_LEVEL_ATTR_NUM sizeof(level_attrTbl) / sizeof(zclAttrInfo_t) #define ZCL_LEVEL_ATTR_NUM sizeof(level_attrTbl) / sizeof(zclAttrInfo_t)
#endif #endif
#ifdef ZCL_LIGHT_COLOR_CONTROL
/* Color Control */ /* Color Control */
zcl_lightColorCtrlAttr_t g_zcl_colorCtrlAttrs = zcl_lightColorCtrlAttr_t g_zcl_colorCtrlAttrs =
{ {
.colorMode = ZCL_COLOR_MODE_COLOR_TEMPERATURE_MIREDS, .colorMode = ZCL_COLOR_MODE_COLOR_TEMPERATURE_MIREDS,
.options = 0, .options = 0,
.enhancedColorMode = ZCL_COLOR_MODE_COLOR_TEMPERATURE_MIREDS, .enhancedColorMode = ZCL_COLOR_MODE_COLOR_TEMPERATURE_MIREDS,
.colorCapabilities = ZCL_COLOR_CAPABILITIES_BIT_COLOR_TEMPERATURE, .colorCapabilities = ZCL_COLOR_CAPABILITIES_BIT_COLOR_TEMPERATURE | ZCL_COLOR_CAPABILITIES_BIT_X_Y_ATTRIBUTES | ZCL_COLOR_CAPABILITIES_BIT_HUE_SATURATION,
.numOfPrimaries = 0, .numOfPrimaries = 0,
#if COLOR_RGB_SUPPORT
.currentHue = 0x00, .currentHue = 0x00,
.currentSaturation = 0x00, .currentSaturation = 0x00,
.currentX = 0x616b,
.currentY = 0x607d,
.enhancedCurrentHue = 0x0000,
.colorLoopActive = 0x00, .colorLoopActive = 0x00,
.colorLoopDirection = 0x00, .colorLoopDirection = 0x00,
.colorLoopTime = 0x0019, .colorLoopTime = 0x0019,
.colorLoopStartEnhancedHue = 0x2300, .colorLoopStartEnhancedHue = 0x2300,
.colorLoopStoredEnhancedHue = 0x0000, .colorLoopStoredEnhancedHue = 0x0000,
#elif COLOR_CCT_SUPPORT .colorTemperatureMireds = COLOR_TEMPERATURE_DEFAULT,
.colorTemperatureMireds = COLOR_TEMPERATURE_PHYSICAL_MAX,
.colorTempPhysicalMinMireds = COLOR_TEMPERATURE_PHYSICAL_MIN, .colorTempPhysicalMinMireds = COLOR_TEMPERATURE_PHYSICAL_MIN,
.colorTempPhysicalMaxMireds = COLOR_TEMPERATURE_PHYSICAL_MAX, .colorTempPhysicalMaxMireds = COLOR_TEMPERATURE_PHYSICAL_MAX,
.startUpColorTemperatureMireds = ZCL_START_UP_COLOR_TEMPERATURE_MIREDS_TO_PREVIOUS, .startUpColorTemperatureMireds = ZCL_START_UP_COLOR_TEMPERATURE_MIREDS_TO_PREVIOUS,
#endif
}; };
const zclAttrInfo_t lightColorCtrl_attrTbl[] = const zclAttrInfo_t lightColorCtrl_attrTbl[] =
@ -343,27 +284,25 @@ const zclAttrInfo_t lightColorCtrl_attrTbl[] =
{ ZCL_ATTRID_ENHANCED_COLOR_MODE, ZCL_DATA_TYPE_ENUM8, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.enhancedColorMode }, { ZCL_ATTRID_ENHANCED_COLOR_MODE, ZCL_DATA_TYPE_ENUM8, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.enhancedColorMode },
{ ZCL_ATTRID_COLOR_CAPABILITIES, ZCL_DATA_TYPE_BITMAP16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.colorCapabilities }, { ZCL_ATTRID_COLOR_CAPABILITIES, ZCL_DATA_TYPE_BITMAP16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.colorCapabilities },
{ ZCL_ATTRID_NUMBER_OF_PRIMARIES, ZCL_DATA_TYPE_UINT8, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.numOfPrimaries }, { ZCL_ATTRID_NUMBER_OF_PRIMARIES, ZCL_DATA_TYPE_UINT8, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.numOfPrimaries },
{ ZCL_ATTRID_CURRENT_X, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.currentX },
#if COLOR_RGB_SUPPORT { ZCL_ATTRID_CURRENT_Y, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.currentY },
{ ZCL_ATTRID_CURRENT_HUE, ZCL_DATA_TYPE_UINT8, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.currentHue }, { ZCL_ATTRID_CURRENT_HUE, ZCL_DATA_TYPE_UINT8, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.currentHue },
{ ZCL_ATTRID_ENHANCED_CURRENT_HUE, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.currentHue },
{ ZCL_ATTRID_CURRENT_SATURATION, ZCL_DATA_TYPE_UINT8, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.currentSaturation }, { ZCL_ATTRID_CURRENT_SATURATION, ZCL_DATA_TYPE_UINT8, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.currentSaturation },
{ ZCL_ATTRID_COLOR_LOOP_ACTIVE, ZCL_DATA_TYPE_UINT8, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.colorLoopActive }, { ZCL_ATTRID_COLOR_LOOP_ACTIVE, ZCL_DATA_TYPE_UINT8, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.colorLoopActive },
{ ZCL_ATTRID_COLOR_LOOP_DIRECTION, ZCL_DATA_TYPE_UINT8, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.colorLoopDirection }, { ZCL_ATTRID_COLOR_LOOP_DIRECTION, ZCL_DATA_TYPE_UINT8, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.colorLoopDirection },
{ ZCL_ATTRID_COLOR_LOOP_TIME, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.colorLoopTime }, { ZCL_ATTRID_COLOR_LOOP_TIME, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.colorLoopTime },
{ ZCL_ATTRID_COLOR_LOOP_START_ENHANCED_HUE, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.colorLoopStartEnhancedHue }, { ZCL_ATTRID_COLOR_LOOP_START_ENHANCED_HUE, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.colorLoopStartEnhancedHue },
{ ZCL_ATTRID_COLOR_LOOP_STORED_ENHANCED_HUE, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.colorLoopStoredEnhancedHue }, { ZCL_ATTRID_COLOR_LOOP_STORED_ENHANCED_HUE, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.colorLoopStoredEnhancedHue },
#elif COLOR_CCT_SUPPORT
{ ZCL_ATTRID_COLOR_TEMPERATURE_MIREDS, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.colorTemperatureMireds }, { ZCL_ATTRID_COLOR_TEMPERATURE_MIREDS, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ | ACCESS_CONTROL_REPORTABLE, (u8*)&g_zcl_colorCtrlAttrs.colorTemperatureMireds },
{ ZCL_ATTRID_COLOR_TEMP_PHYSICAL_MIN_MIREDS, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.colorTempPhysicalMinMireds }, { ZCL_ATTRID_COLOR_TEMP_PHYSICAL_MIN_MIREDS, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.colorTempPhysicalMinMireds },
{ ZCL_ATTRID_COLOR_TEMP_PHYSICAL_MAX_MIREDS, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.colorTempPhysicalMaxMireds }, { ZCL_ATTRID_COLOR_TEMP_PHYSICAL_MAX_MIREDS, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&g_zcl_colorCtrlAttrs.colorTempPhysicalMaxMireds },
{ ZCL_ATTRID_START_UP_COLOR_TEMPERATURE_MIREDS, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ | ACCESS_CONTROL_WRITE, (u8*)&g_zcl_colorCtrlAttrs.startUpColorTemperatureMireds }, { ZCL_ATTRID_START_UP_COLOR_TEMPERATURE_MIREDS, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ | ACCESS_CONTROL_WRITE, (u8*)&g_zcl_colorCtrlAttrs.startUpColorTemperatureMireds },
#endif
{ ZCL_ATTRID_GLOBAL_CLUSTER_REVISION, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&zcl_attr_global_clusterRevision}, { ZCL_ATTRID_GLOBAL_CLUSTER_REVISION, ZCL_DATA_TYPE_UINT16, ACCESS_CONTROL_READ, (u8*)&zcl_attr_global_clusterRevision},
}; };
#define ZCL_COLOR_ATTR_NUM sizeof(lightColorCtrl_attrTbl) / sizeof(zclAttrInfo_t) #define ZCL_COLOR_ATTR_NUM sizeof(lightColorCtrl_attrTbl) / sizeof(zclAttrInfo_t)
#endif
/** /**
* @brief Definition for simple light ZCL specific cluster * @brief Definition for simple light ZCL specific cluster
@ -372,21 +311,11 @@ const zcl_specClusterInfo_t g_sampleLightClusterList[] =
{ {
{ZCL_CLUSTER_GEN_BASIC, MANUFACTURER_CODE_NONE, ZCL_BASIC_ATTR_NUM, basic_attrTbl, zcl_basic_register, sampleLight_basicCb}, {ZCL_CLUSTER_GEN_BASIC, MANUFACTURER_CODE_NONE, ZCL_BASIC_ATTR_NUM, basic_attrTbl, zcl_basic_register, sampleLight_basicCb},
{ZCL_CLUSTER_GEN_IDENTIFY, MANUFACTURER_CODE_NONE, ZCL_IDENTIFY_ATTR_NUM, identify_attrTbl, zcl_identify_register, sampleLight_identifyCb}, {ZCL_CLUSTER_GEN_IDENTIFY, MANUFACTURER_CODE_NONE, ZCL_IDENTIFY_ATTR_NUM, identify_attrTbl, zcl_identify_register, sampleLight_identifyCb},
#ifdef ZCL_GROUP
{ZCL_CLUSTER_GEN_GROUPS, MANUFACTURER_CODE_NONE, ZCL_GROUP_ATTR_NUM, group_attrTbl, zcl_group_register, NULL}, {ZCL_CLUSTER_GEN_GROUPS, MANUFACTURER_CODE_NONE, ZCL_GROUP_ATTR_NUM, group_attrTbl, zcl_group_register, NULL},
#endif
#ifdef ZCL_SCENE
{ZCL_CLUSTER_GEN_SCENES, MANUFACTURER_CODE_NONE, ZCL_SCENE_ATTR_NUM, scene_attrTbl, zcl_scene_register, sampleLight_sceneCb}, {ZCL_CLUSTER_GEN_SCENES, MANUFACTURER_CODE_NONE, ZCL_SCENE_ATTR_NUM, scene_attrTbl, zcl_scene_register, sampleLight_sceneCb},
#endif
#ifdef ZCL_ON_OFF
{ZCL_CLUSTER_GEN_ON_OFF, MANUFACTURER_CODE_NONE, ZCL_ONOFF_ATTR_NUM, onOff_attrTbl, zcl_onOff_register, sampleLight_onOffCb}, {ZCL_CLUSTER_GEN_ON_OFF, MANUFACTURER_CODE_NONE, ZCL_ONOFF_ATTR_NUM, onOff_attrTbl, zcl_onOff_register, sampleLight_onOffCb},
#endif
#ifdef ZCL_LEVEL_CTRL
{ZCL_CLUSTER_GEN_LEVEL_CONTROL, MANUFACTURER_CODE_NONE, ZCL_LEVEL_ATTR_NUM, level_attrTbl, zcl_level_register, sampleLight_levelCb}, {ZCL_CLUSTER_GEN_LEVEL_CONTROL, MANUFACTURER_CODE_NONE, ZCL_LEVEL_ATTR_NUM, level_attrTbl, zcl_level_register, sampleLight_levelCb},
#endif
#ifdef ZCL_LIGHT_COLOR_CONTROL
{ZCL_CLUSTER_LIGHTING_COLOR_CONTROL, MANUFACTURER_CODE_NONE, ZCL_COLOR_ATTR_NUM, lightColorCtrl_attrTbl, zcl_lightColorCtrl_register, sampleLight_colorCtrlCb}, {ZCL_CLUSTER_LIGHTING_COLOR_CONTROL, MANUFACTURER_CODE_NONE, ZCL_COLOR_ATTR_NUM, lightColorCtrl_attrTbl, zcl_lightColorCtrl_register, sampleLight_colorCtrlCb},
#endif
}; };
u8 SAMPLELIGHT_CB_CLUSTER_NUM = (sizeof(g_sampleLightClusterList)/sizeof(g_sampleLightClusterList[0])); u8 SAMPLELIGHT_CB_CLUSTER_NUM = (sizeof(g_sampleLightClusterList)/sizeof(g_sampleLightClusterList[0]));
@ -410,7 +339,6 @@ nv_sts_t zcl_onOffAttr_save(void)
{ {
nv_sts_t st = NV_SUCC; nv_sts_t st = NV_SUCC;
#ifdef ZCL_ON_OFF
#if NV_ENABLE #if NV_ENABLE
zcl_nv_onOff_t zcl_nv_onOff; zcl_nv_onOff_t zcl_nv_onOff;
@ -431,7 +359,6 @@ nv_sts_t zcl_onOffAttr_save(void)
} }
#else #else
st = NV_ENABLE_PROTECT_ERROR; st = NV_ENABLE_PROTECT_ERROR;
#endif
#endif #endif
return st; return st;
@ -450,7 +377,6 @@ nv_sts_t zcl_onOffAttr_restore(void)
{ {
nv_sts_t st = NV_SUCC; nv_sts_t st = NV_SUCC;
#ifdef ZCL_ON_OFF
#if NV_ENABLE #if NV_ENABLE
zcl_nv_onOff_t zcl_nv_onOff; zcl_nv_onOff_t zcl_nv_onOff;
@ -462,7 +388,6 @@ nv_sts_t zcl_onOffAttr_restore(void)
} }
#else #else
st = NV_ENABLE_PROTECT_ERROR; st = NV_ENABLE_PROTECT_ERROR;
#endif
#endif #endif
return st; return st;
@ -481,7 +406,6 @@ nv_sts_t zcl_levelAttr_save(void)
{ {
nv_sts_t st = NV_SUCC; nv_sts_t st = NV_SUCC;
#ifdef ZCL_LEVEL_CTRL
#if NV_ENABLE #if NV_ENABLE
zcl_nv_level_t zcl_nv_level; zcl_nv_level_t zcl_nv_level;
@ -502,7 +426,6 @@ nv_sts_t zcl_levelAttr_save(void)
} }
#else #else
st = NV_ENABLE_PROTECT_ERROR; st = NV_ENABLE_PROTECT_ERROR;
#endif
#endif #endif
return st; return st;
@ -521,7 +444,6 @@ nv_sts_t zcl_levelAttr_restore(void)
{ {
nv_sts_t st = NV_SUCC; nv_sts_t st = NV_SUCC;
#ifdef ZCL_LEVEL_CTRL
#if NV_ENABLE #if NV_ENABLE
zcl_nv_level_t zcl_nv_level; zcl_nv_level_t zcl_nv_level;
@ -533,7 +455,6 @@ nv_sts_t zcl_levelAttr_restore(void)
} }
#else #else
st = NV_ENABLE_PROTECT_ERROR; st = NV_ENABLE_PROTECT_ERROR;
#endif
#endif #endif
return st; return st;
@ -552,50 +473,37 @@ nv_sts_t zcl_colorCtrlAttr_save(void)
{ {
nv_sts_t st = NV_SUCC; nv_sts_t st = NV_SUCC;
#ifdef ZCL_LIGHT_COLOR_CONTROL
#if NV_ENABLE #if NV_ENABLE
bool needSave = FALSE; bool needSave = FALSE;
zcl_nv_colorCtrl_t zcl_nv_colorCtrl; zcl_nv_colorCtrl_t zcl_nv_colorCtrl;
st = nv_flashReadNew(1, NV_MODULE_ZCL, NV_ITEM_ZCL_COLOR_CTRL, sizeof(zcl_nv_colorCtrl_t), (u8*)&zcl_nv_colorCtrl); st = nv_flashReadNew(1, NV_MODULE_ZCL, NV_ITEM_ZCL_COLOR_CTRL, sizeof(zcl_nv_colorCtrl_t), (u8*)&zcl_nv_colorCtrl);
#if COLOR_RGB_SUPPORT
if(st == NV_SUCC){ if(st == NV_SUCC){
if((zcl_nv_colorCtrl.currentHue != g_zcl_colorCtrlAttrs.currentHue) || (zcl_nv_colorCtrl.currentSaturation != g_zcl_colorCtrlAttrs.currentSaturation)){ if((zcl_nv_colorCtrl.currentHue != g_zcl_colorCtrlAttrs.currentHue) || (zcl_nv_colorCtrl.currentSaturation != g_zcl_colorCtrlAttrs.currentSaturation)
|| (zcl_nv_colorCtrl.colorTemperatureMireds != g_zcl_colorCtrlAttrs.colorTemperatureMireds)
|| (zcl_nv_colorCtrl.startUpColorTemperatureMireds != g_zcl_colorCtrlAttrs.startUpColorTemperatureMireds)){
zcl_nv_colorCtrl.currentHue = g_zcl_colorCtrlAttrs.currentHue; zcl_nv_colorCtrl.currentHue = g_zcl_colorCtrlAttrs.currentHue;
zcl_nv_colorCtrl.currentSaturation = g_zcl_colorCtrlAttrs.currentSaturation; zcl_nv_colorCtrl.currentSaturation = g_zcl_colorCtrlAttrs.currentSaturation;
needSave = TRUE;
}
}else if(st == NV_ITEM_NOT_FOUND){
zcl_nv_colorCtrl.currentHue = g_zcl_colorCtrlAttrs.currentHue;
zcl_nv_colorCtrl.currentSaturation = g_zcl_colorCtrlAttrs.currentSaturation;
needSave = TRUE;
}
#elif COLOR_CCT_SUPPORT
if(st == NV_SUCC){
if((zcl_nv_colorCtrl.colorTemperatureMireds != g_zcl_colorCtrlAttrs.colorTemperatureMireds) || (zcl_nv_colorCtrl.startUpColorTemperatureMireds != g_zcl_colorCtrlAttrs.startUpColorTemperatureMireds)){
zcl_nv_colorCtrl.colorTemperatureMireds = g_zcl_colorCtrlAttrs.colorTemperatureMireds; zcl_nv_colorCtrl.colorTemperatureMireds = g_zcl_colorCtrlAttrs.colorTemperatureMireds;
zcl_nv_colorCtrl.startUpColorTemperatureMireds = g_zcl_colorCtrlAttrs.startUpColorTemperatureMireds; zcl_nv_colorCtrl.startUpColorTemperatureMireds = g_zcl_colorCtrlAttrs.startUpColorTemperatureMireds;
needSave = TRUE; needSave = TRUE;
} }
}else if(st == NV_ITEM_NOT_FOUND){ }else if(st == NV_ITEM_NOT_FOUND){
zcl_nv_colorCtrl.currentHue = g_zcl_colorCtrlAttrs.currentHue;
zcl_nv_colorCtrl.currentSaturation = g_zcl_colorCtrlAttrs.currentSaturation;
zcl_nv_colorCtrl.colorTemperatureMireds = g_zcl_colorCtrlAttrs.colorTemperatureMireds; zcl_nv_colorCtrl.colorTemperatureMireds = g_zcl_colorCtrlAttrs.colorTemperatureMireds;
zcl_nv_colorCtrl.startUpColorTemperatureMireds = g_zcl_colorCtrlAttrs.startUpColorTemperatureMireds; zcl_nv_colorCtrl.startUpColorTemperatureMireds = g_zcl_colorCtrlAttrs.startUpColorTemperatureMireds;
needSave = TRUE; needSave = TRUE;
} }
#endif
if(needSave){ if(needSave){
st = nv_flashWriteNew(1, NV_MODULE_ZCL, NV_ITEM_ZCL_COLOR_CTRL, sizeof(zcl_nv_colorCtrl_t), (u8*)&zcl_nv_colorCtrl); st = nv_flashWriteNew(1, NV_MODULE_ZCL, NV_ITEM_ZCL_COLOR_CTRL, sizeof(zcl_nv_colorCtrl_t), (u8*)&zcl_nv_colorCtrl);
} }
#else
st = NV_ENABLE_PROTECT_ERROR;
#endif
#endif #endif
return st; return st;
@ -614,27 +522,19 @@ nv_sts_t zcl_colorCtrlAttr_restore(void)
{ {
nv_sts_t st = NV_SUCC; nv_sts_t st = NV_SUCC;
#ifdef ZCL_LIGHT_COLOR_CONTROL
#if NV_ENABLE #if NV_ENABLE
zcl_nv_colorCtrl_t zcl_nv_colorCtrl; zcl_nv_colorCtrl_t zcl_nv_colorCtrl;
st = nv_flashReadNew(1, NV_MODULE_ZCL, NV_ITEM_ZCL_COLOR_CTRL, sizeof(zcl_nv_colorCtrl_t), (u8*)&zcl_nv_colorCtrl); st = nv_flashReadNew(1, NV_MODULE_ZCL, NV_ITEM_ZCL_COLOR_CTRL, sizeof(zcl_nv_colorCtrl_t), (u8*)&zcl_nv_colorCtrl);
#if COLOR_RGB_SUPPORT
if(st == NV_SUCC){ if(st == NV_SUCC){
g_zcl_colorCtrlAttrs.currentHue = zcl_nv_colorCtrl.currentHue; g_zcl_colorCtrlAttrs.currentHue = zcl_nv_colorCtrl.currentHue;
g_zcl_colorCtrlAttrs.currentSaturation = zcl_nv_colorCtrl.currentSaturation; g_zcl_colorCtrlAttrs.currentSaturation = zcl_nv_colorCtrl.currentSaturation;
}
#elif COLOR_CCT_SUPPORT
if(st == NV_SUCC){
g_zcl_colorCtrlAttrs.colorTemperatureMireds = zcl_nv_colorCtrl.colorTemperatureMireds; g_zcl_colorCtrlAttrs.colorTemperatureMireds = zcl_nv_colorCtrl.colorTemperatureMireds;
g_zcl_colorCtrlAttrs.startUpColorTemperatureMireds = zcl_nv_colorCtrl.startUpColorTemperatureMireds; g_zcl_colorCtrlAttrs.startUpColorTemperatureMireds = zcl_nv_colorCtrl.startUpColorTemperatureMireds;
} }
#endif
#else #else
st = NV_ENABLE_PROTECT_ERROR; st = NV_ENABLE_PROTECT_ERROR;
#endif
#endif #endif
return st; return st;

View File

@ -48,7 +48,7 @@
* During OTA upgrade, the upgraded device will check the rules of the following three fields. * During OTA upgrade, the upgraded device will check the rules of the following three fields.
* Refer to ZCL OTA specification for details. * Refer to ZCL OTA specification for details.
*/ */
#define MANUFACTURER_CODE_TELINK 0x1141//Telink ID #define MANUFACTURER_CODE_TELINK 0x124f //Gledopto ID
#define IMAGE_TYPE ((CHIP_TYPE << 8) | IMAGE_TYPE_LIGHT) #define IMAGE_TYPE ((CHIP_TYPE << 8) | IMAGE_TYPE_LIGHT)
#define FILE_VERSION ((APP_RELEASE << 24) | (APP_BUILD << 16) | (STACK_RELEASE << 8) | STACK_BUILD) #define FILE_VERSION ((APP_RELEASE << 24) | (APP_BUILD << 16) | (STACK_RELEASE << 8) | STACK_BUILD)

View File

@ -44,7 +44,6 @@
* TYPEDEFS * TYPEDEFS
*/ */
typedef struct{ typedef struct{
#if COLOR_RGB_SUPPORT
s32 stepHue256; s32 stepHue256;
u16 currentHue256; u16 currentHue256;
u16 hueRemainingTime; u16 hueRemainingTime;
@ -53,20 +52,17 @@ typedef struct{
u16 currentSaturation256; u16 currentSaturation256;
u16 saturationRemainingTime; u16 saturationRemainingTime;
#elif COLOR_CCT_SUPPORT
s32 stepColorTemp256; s32 stepColorTemp256;
u32 currentColorTemp256; u32 currentColorTemp256;
u16 colorTempRemainingTime; u16 colorTempRemainingTime;
u16 colorTempMinMireds; u16 colorTempMinMireds;
u16 colorTempMaxMireds; u16 colorTempMaxMireds;
#endif
}zcl_colorInfo_t; }zcl_colorInfo_t;
/********************************************************************** /**********************************************************************
* LOCAL VARIABLES * LOCAL VARIABLES
*/ */
static zcl_colorInfo_t colorInfo = { static zcl_colorInfo_t colorInfo = {
#if COLOR_RGB_SUPPORT
.stepHue256 = 0, .stepHue256 = 0,
.currentHue256 = 0, .currentHue256 = 0,
.hueRemainingTime = 0, .hueRemainingTime = 0,
@ -75,19 +71,15 @@ static zcl_colorInfo_t colorInfo = {
.currentSaturation256 = 0, .currentSaturation256 = 0,
.saturationRemainingTime = 0, .saturationRemainingTime = 0,
#elif COLOR_CCT_SUPPORT
.stepColorTemp256 = 0, .stepColorTemp256 = 0,
.currentColorTemp256 = 0, .currentColorTemp256 = 0,
.colorTempRemainingTime = 0, .colorTempRemainingTime = 0,
.colorTempMinMireds = 0, .colorTempMinMireds = 0,
.colorTempMaxMireds = 0, .colorTempMaxMireds = 0,
#endif
}; };
static ev_timer_event_t *colorTimerEvt = NULL; static ev_timer_event_t *colorTimerEvt = NULL;
#if COLOR_RGB_SUPPORT
static ev_timer_event_t *colorLoopTimerEvt = NULL; static ev_timer_event_t *colorLoopTimerEvt = NULL;
#endif
/********************************************************************** /**********************************************************************
@ -109,33 +101,23 @@ void sampleLight_colorInit(void)
{ {
zcl_lightColorCtrlAttr_t *pColor = zcl_colorAttrGet(); zcl_lightColorCtrlAttr_t *pColor = zcl_colorAttrGet();
#if COLOR_RGB_SUPPORT pColor->colorCapabilities = ZCL_COLOR_CAPABILITIES_BIT_HUE_SATURATION | ZCL_COLOR_CAPABILITIES_BIT_COLOR_TEMPERATURE | ZCL_COLOR_CAPABILITIES_BIT_X_Y_ATTRIBUTES;
pColor->colorCapabilities = ZCL_COLOR_CAPABILITIES_BIT_HUE_SATURATION;
pColor->colorMode = ZCL_COLOR_MODE_CURRENT_HUE_SATURATION;
pColor->enhancedColorMode = ZCL_COLOR_MODE_CURRENT_HUE_SATURATION;
colorInfo.currentHue256 = (u16)(pColor->currentHue) << 8; colorInfo.currentHue256 = (u16)(pColor->currentHue) << 8;
colorInfo.currentSaturation256 = (u16)(pColor->currentSaturation) << 8; colorInfo.currentSaturation256 = (u16)(pColor->currentSaturation) << 8;
colorInfo.currentColorTemp256 = (u32)(pColor->colorTemperatureMireds) << 8;
colorInfo.hueRemainingTime = 0; colorInfo.hueRemainingTime = 0;
colorInfo.saturationRemainingTime = 0; colorInfo.saturationRemainingTime = 0;
colorInfo.colorTempRemainingTime = 0;
light_applyUpdate(&pColor->currentHue, &colorInfo.currentHue256, &colorInfo.stepHue256, &colorInfo.hueRemainingTime, // Startup is only defined for color temperature, so why would we load any colors here ...
ZCL_COLOR_ATTR_HUE_MIN, ZCL_COLOR_ATTR_HUE_MAX, TRUE);
light_applyUpdate(&pColor->currentSaturation, &colorInfo.currentSaturation256, &colorInfo.stepSaturation256, &colorInfo.saturationRemainingTime,
ZCL_COLOR_ATTR_SATURATION_MIN, ZCL_COLOR_ATTR_SATURATION_MAX, FALSE);
#elif COLOR_CCT_SUPPORT
pColor->colorCapabilities = ZCL_COLOR_CAPABILITIES_BIT_COLOR_TEMPERATURE;
pColor->colorMode = ZCL_COLOR_MODE_COLOR_TEMPERATURE_MIREDS; pColor->colorMode = ZCL_COLOR_MODE_COLOR_TEMPERATURE_MIREDS;
pColor->enhancedColorMode = ZCL_COLOR_MODE_COLOR_TEMPERATURE_MIREDS; pColor->enhancedColorMode = ZCL_COLOR_MODE_COLOR_TEMPERATURE_MIREDS;
colorInfo.currentColorTemp256 = (u32)(pColor->colorTemperatureMireds) << 8;
colorInfo.colorTempRemainingTime = 0;
light_applyUpdate_16(&pColor->colorTemperatureMireds, &colorInfo.currentColorTemp256, &colorInfo.stepColorTemp256, &colorInfo.colorTempRemainingTime, light_applyUpdate_16(&pColor->colorTemperatureMireds, &colorInfo.currentColorTemp256, &colorInfo.stepColorTemp256, &colorInfo.colorTempRemainingTime,
pColor->colorTempPhysicalMinMireds, pColor->colorTempPhysicalMaxMireds, FALSE); pColor->colorTempPhysicalMinMireds, pColor->colorTempPhysicalMaxMireds, FALSE);
#endif
} }
/********************************************************************* /*********************************************************************
@ -179,11 +161,13 @@ void sampleLight_updateColor(void)
zcl_lightColorCtrlAttr_t *pColor = zcl_colorAttrGet(); zcl_lightColorCtrlAttr_t *pColor = zcl_colorAttrGet();
zcl_levelAttr_t *pLevel = zcl_levelAttrGet(); zcl_levelAttr_t *pLevel = zcl_levelAttrGet();
#if COLOR_RGB_SUPPORT if(pColor->colorMode == ZCL_COLOR_MODE_CURRENT_X_Y) {
hwLight_colorUpdate_XY2RGB(pColor->currentX, pColor->currentY, pLevel->curLevel);
} else if(pColor->colorMode == ZCL_COLOR_MODE_CURRENT_HUE_SATURATION || pColor->enhancedColorMode == ZCL_ENHANCED_COLOR_MODE_CURRENT_HUE_SATURATION){
hwLight_colorUpdate_HSV2RGB(pColor->currentHue, pColor->currentSaturation, pLevel->curLevel); hwLight_colorUpdate_HSV2RGB(pColor->currentHue, pColor->currentSaturation, pLevel->curLevel);
#elif COLOR_CCT_SUPPORT } else if(pColor->colorMode == ZCL_COLOR_MODE_COLOR_TEMPERATURE_MIREDS){
hwLight_colorUpdate_colorTemperature(pColor->colorTemperatureMireds, pLevel->curLevel); hwLight_colorUpdate_colorTemperature(pColor->colorTemperatureMireds, pLevel->curLevel);
#endif }
} }
/********************************************************************* /*********************************************************************
@ -199,7 +183,6 @@ static s32 sampleLight_colorTimerEvtCb(void *arg)
{ {
zcl_lightColorCtrlAttr_t *pColor = zcl_colorAttrGet(); zcl_lightColorCtrlAttr_t *pColor = zcl_colorAttrGet();
#if COLOR_RGB_SUPPORT
if( (pColor->enhancedColorMode == ZCL_COLOR_MODE_CURRENT_HUE_SATURATION) || if( (pColor->enhancedColorMode == ZCL_COLOR_MODE_CURRENT_HUE_SATURATION) ||
(pColor->enhancedColorMode == ZCL_ENHANCED_COLOR_MODE_CURRENT_HUE_SATURATION) ){ (pColor->enhancedColorMode == ZCL_ENHANCED_COLOR_MODE_CURRENT_HUE_SATURATION) ){
if(colorInfo.saturationRemainingTime){ if(colorInfo.saturationRemainingTime){
@ -212,20 +195,14 @@ static s32 sampleLight_colorTimerEvtCb(void *arg)
ZCL_COLOR_ATTR_HUE_MIN, ZCL_COLOR_ATTR_HUE_MAX, TRUE); ZCL_COLOR_ATTR_HUE_MIN, ZCL_COLOR_ATTR_HUE_MAX, TRUE);
} }
} }
#elif COLOR_CCT_SUPPORT else if(pColor->enhancedColorMode == ZCL_COLOR_MODE_COLOR_TEMPERATURE_MIREDS){
if(pColor->enhancedColorMode == ZCL_COLOR_MODE_COLOR_TEMPERATURE_MIREDS){
if(colorInfo.colorTempRemainingTime){ if(colorInfo.colorTempRemainingTime){
light_applyUpdate_16(&pColor->colorTemperatureMireds, &colorInfo.currentColorTemp256, &colorInfo.stepColorTemp256, &colorInfo.colorTempRemainingTime, light_applyUpdate_16(&pColor->colorTemperatureMireds, &colorInfo.currentColorTemp256, &colorInfo.stepColorTemp256, &colorInfo.colorTempRemainingTime,
colorInfo.colorTempMinMireds, colorInfo.colorTempMaxMireds, FALSE); colorInfo.colorTempMinMireds, colorInfo.colorTempMaxMireds, FALSE);
} }
} }
#endif
#if COLOR_RGB_SUPPORT if(colorInfo.saturationRemainingTime || colorInfo.hueRemainingTime || colorInfo.colorTempRemainingTime){
if(colorInfo.saturationRemainingTime || colorInfo.hueRemainingTime){
#elif COLOR_CCT_SUPPORT
if(colorInfo.colorTempRemainingTime){
#endif
return 0; return 0;
}else{ }else{
colorTimerEvt = NULL; colorTimerEvt = NULL;
@ -249,7 +226,6 @@ static void sampleLight_colorTimerStop(void)
} }
} }
#if COLOR_RGB_SUPPORT
/********************************************************************* /*********************************************************************
* @fn sampleLight_colorLoopTimerEvtCb * @fn sampleLight_colorLoopTimerEvtCb
* *
@ -826,8 +802,6 @@ static void sampleLight_colorLoopSetProcess(zcl_colorCtrlColorLoopSetCmd_t *cmd)
} }
} }
#elif COLOR_CCT_SUPPORT
/********************************************************************* /*********************************************************************
* @fn sampleLight_moveToColorTemperatureProcess * @fn sampleLight_moveToColorTemperatureProcess
* *
@ -988,7 +962,6 @@ static void sampleLight_stepColorTemperatureProcess(zcl_colorCtrlStepColorTemper
} }
} }
#endif
/********************************************************************* /*********************************************************************
* @fn sampleLight_stopMoveStepProcess * @fn sampleLight_stopMoveStepProcess
@ -1003,12 +976,9 @@ static void sampleLight_stopMoveStepProcess(void)
{ {
//zcl_lightColorCtrlAttr_t *pColor = zcl_colorAttrGet(); //zcl_lightColorCtrlAttr_t *pColor = zcl_colorAttrGet();
#if COLOR_RGB_SUPPORT
colorInfo.hueRemainingTime = 0; colorInfo.hueRemainingTime = 0;
colorInfo.saturationRemainingTime = 0; colorInfo.saturationRemainingTime = 0;
#elif COLOR_CCT_SUPPORT
colorInfo.colorTempRemainingTime = 0; colorInfo.colorTempRemainingTime = 0;
#endif
sampleLight_colorTimerStop(); sampleLight_colorTimerStop();
} }
@ -1028,7 +998,6 @@ status_t sampleLight_colorCtrlCb(zclIncomingAddrInfo_t *pAddrInfo, u8 cmdId, voi
{ {
if(pAddrInfo->dstEp == SAMPLE_LIGHT_ENDPOINT){ if(pAddrInfo->dstEp == SAMPLE_LIGHT_ENDPOINT){
switch(cmdId){ switch(cmdId){
#if COLOR_RGB_SUPPORT
case ZCL_CMD_LIGHT_COLOR_CONTROL_MOVE_TO_HUE: case ZCL_CMD_LIGHT_COLOR_CONTROL_MOVE_TO_HUE:
sampleLight_moveToHueProcess((zcl_colorCtrlMoveToHueCmd_t *)cmdPayload); sampleLight_moveToHueProcess((zcl_colorCtrlMoveToHueCmd_t *)cmdPayload);
break; break;
@ -1074,7 +1043,6 @@ status_t sampleLight_colorCtrlCb(zclIncomingAddrInfo_t *pAddrInfo, u8 cmdId, voi
case ZCL_CMD_LIGHT_COLOR_CONTROL_COLOR_LOOP_SET: case ZCL_CMD_LIGHT_COLOR_CONTROL_COLOR_LOOP_SET:
sampleLight_colorLoopSetProcess((zcl_colorCtrlColorLoopSetCmd_t *)cmdPayload); sampleLight_colorLoopSetProcess((zcl_colorCtrlColorLoopSetCmd_t *)cmdPayload);
break; break;
#elif COLOR_CCT_SUPPORT
case ZCL_CMD_LIGHT_COLOR_CONTROL_MOVE_TO_COLOR_TEMPERATURE: case ZCL_CMD_LIGHT_COLOR_CONTROL_MOVE_TO_COLOR_TEMPERATURE:
sampleLight_moveToColorTemperatureProcess((zcl_colorCtrlMoveToColorTemperatureCmd_t *)cmdPayload); sampleLight_moveToColorTemperatureProcess((zcl_colorCtrlMoveToColorTemperatureCmd_t *)cmdPayload);
break; break;
@ -1084,7 +1052,6 @@ status_t sampleLight_colorCtrlCb(zclIncomingAddrInfo_t *pAddrInfo, u8 cmdId, voi
case ZCL_CMD_LIGHT_COLOR_CONTROL_STEP_COLOR_TEMPERATURE: case ZCL_CMD_LIGHT_COLOR_CONTROL_STEP_COLOR_TEMPERATURE:
sampleLight_stepColorTemperatureProcess((zcl_colorCtrlStepColorTemperatureCmd_t *)cmdPayload); sampleLight_stepColorTemperatureProcess((zcl_colorCtrlStepColorTemperatureCmd_t *)cmdPayload);
break; break;
#endif
case ZCL_CMD_LIGHT_COLOR_CONTROL_STOP_MOVE_STEP: case ZCL_CMD_LIGHT_COLOR_CONTROL_STOP_MOVE_STEP:
sampleLight_stopMoveStepProcess(); sampleLight_stopMoveStepProcess();
break; break;

View File

@ -60,14 +60,11 @@ static void sampleLight_sceneRecallReqHandler(zclIncomingAddrInfo_t *pAddrInfo,
#endif #endif
#ifdef ZCL_LIGHT_COLOR_CONTROL #ifdef ZCL_LIGHT_COLOR_CONTROL
#if COLOR_RGB_SUPPORT u8 colorMode = pScene->extField[extLen+3];
u8 hue = pScene->extField[extLen+3]; u8 hue = pScene->extField[extLen+4];
u8 saturation = pScene->extField[extLen+4]; u8 saturation = pScene->extField[extLen+5];
extLen += 5; u16 colorTemperatureMireds = BUILD_U16(pScene->extField[extLen+6], pScene->extField[extLen+7]);
#elif COLOR_CCT_SUPPORT extLen += 8;
u16 colorTemperatureMireds = BUILD_U16(pScene->extField[extLen+3], pScene->extField[extLen+4]);
extLen += 5;
#endif
#endif #endif
#ifdef ZCL_LEVEL_CTRL #ifdef ZCL_LEVEL_CTRL
@ -80,7 +77,14 @@ static void sampleLight_sceneRecallReqHandler(zclIncomingAddrInfo_t *pAddrInfo,
#endif #endif
#ifdef ZCL_LIGHT_COLOR_CONTROL #ifdef ZCL_LIGHT_COLOR_CONTROL
#if COLOR_RGB_SUPPORT if (colorMode == ZCL_COLOR_MODE_CURRENT_HUE_SATURATION) {
zcl_colorCtrlMoveToColorTemperatureCmd_t move2ColorTemp;
move2ColorTemp.colorTemperature = colorTemperatureMireds;
move2ColorTemp.transitionTime = pScene->transTime;
move2ColorTemp.optPresent = 0;
sampleLight_colorCtrlCb(pAddrInfo, ZCL_CMD_LIGHT_COLOR_CONTROL_MOVE_TO_COLOR_TEMPERATURE, &move2ColorTemp);
} else {
zcl_colorCtrlMoveToHueAndSaturationCmd_t move2HueAndSat; zcl_colorCtrlMoveToHueAndSaturationCmd_t move2HueAndSat;
move2HueAndSat.hue = hue; move2HueAndSat.hue = hue;
move2HueAndSat.saturation = saturation; move2HueAndSat.saturation = saturation;
@ -88,14 +92,7 @@ static void sampleLight_sceneRecallReqHandler(zclIncomingAddrInfo_t *pAddrInfo,
move2HueAndSat.optPresent = 0; move2HueAndSat.optPresent = 0;
sampleLight_colorCtrlCb(pAddrInfo, ZCL_CMD_LIGHT_COLOR_CONTROL_MOVE_TO_HUE_AND_SATURATION, &move2HueAndSat); sampleLight_colorCtrlCb(pAddrInfo, ZCL_CMD_LIGHT_COLOR_CONTROL_MOVE_TO_HUE_AND_SATURATION, &move2HueAndSat);
#elif COLOR_CCT_SUPPORT }
zcl_colorCtrlMoveToColorTemperatureCmd_t move2ColorTemp;
move2ColorTemp.colorTemperature = colorTemperatureMireds;
move2ColorTemp.transitionTime = pScene->transTime;
move2ColorTemp.optPresent = 0;
sampleLight_colorCtrlCb(pAddrInfo, ZCL_CMD_LIGHT_COLOR_CONTROL_MOVE_TO_COLOR_TEMPERATURE, &move2ColorTemp);
#endif
#endif #endif
} }
@ -137,15 +134,12 @@ static void sampleLight_sceneStoreReqHandler(zcl_sceneEntry_t *pScene)
pScene->extField[extLen++] = LO_UINT16(ZCL_CLUSTER_LIGHTING_COLOR_CONTROL); pScene->extField[extLen++] = LO_UINT16(ZCL_CLUSTER_LIGHTING_COLOR_CONTROL);
pScene->extField[extLen++] = HI_UINT16(ZCL_CLUSTER_LIGHTING_COLOR_CONTROL); pScene->extField[extLen++] = HI_UINT16(ZCL_CLUSTER_LIGHTING_COLOR_CONTROL);
#if COLOR_RGB_SUPPORT pScene->extField[extLen++] = 5;
pScene->extField[extLen++] = 2; pScene->extField[extLen++] = pColor->colorMode;
pScene->extField[extLen++] = pColor->currentHue; pScene->extField[extLen++] = pColor->currentHue;
pScene->extField[extLen++] = pColor->currentSaturation; pScene->extField[extLen++] = pColor->currentSaturation;
#elif COLOR_CCT_SUPPORT
pScene->extField[extLen++] = 2;
pScene->extField[extLen++] = LO_UINT16(pColor->colorTemperatureMireds); pScene->extField[extLen++] = LO_UINT16(pColor->colorTemperatureMireds);
pScene->extField[extLen++] = HI_UINT16(pColor->colorTemperatureMireds); pScene->extField[extLen++] = HI_UINT16(pColor->colorTemperatureMireds);
#endif
#endif #endif
pScene->extFieldLen = extLen; pScene->extFieldLen = extLen;