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ESP8266 part of the f105-motor-demo project (see f105-motor-demo_stm32)
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f105-motor-demo_esp/esp_iot_sdk_v1.5.2/include/mesh.h

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/*
* ESPRSSIF MIT License
*
* Copyright (c) 2015 <ESPRESSIF SYSTEMS (SHANGHAI) PTE LTD>
*
* Permission is hereby granted for use on ESPRESSIF SYSTEMS ESP8266 only, in which case,
* it is free of charge, to any person obtaining a copy of this software and associated
* documentation files (the "Software"), to deal in the Software without restriction, including
* without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the Software is furnished
* to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all copies or
* substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS
* FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR
* COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER
* IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN
* CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
*/
#ifndef __LWIP_API_MESH_H__
#define __LWIP_API_MESH_H__
#include "ip_addr.h"
#include "user_interface.h"
#include "espconn.h"
#ifdef __cplusplus
extern "C" {
#endif
#define ESP_MESH_GROUP_ID_LEN (6)
typedef void (* espconn_mesh_callback)();
typedef void (* espconn_mesh_scan_callback)(void *arg, int8_t status);
enum mesh_type {
MESH_CLOSE = 0,
MESH_LOCAL,
MESH_ONLINE,
MESH_NONE = 0xFF
};
/** \defgroup Mesh_APIs Mesh APIs
* @brief Mesh APIs
*
*
*
*/
/** @addtogroup Mesh_APIs
* @{
*/
enum mesh_status {
MESH_DISABLE = 0,
MESH_WIFI_CONN,
MESH_NET_CONN,
MESH_LOCAL_AVAIL,
MESH_ONLINE_AVAIL
};
enum mesh_node_type {
MESH_NODE_PARENT = 0,
MESH_NODE_CHILD,
MESH_NODE_ALL
};
struct mesh_scan_para_type {
espconn_mesh_scan_callback usr_scan_cb; // scan done callback
uint8_t grp_id[ESP_MESH_GROUP_ID_LEN]; // group id
bool grp_set; // group set
};
/**
* @brief Check whether the IP address is mesh local IP address or not.
*
* @attention 1. The range of mesh local IP address is 2.255.255.* ~ max_hop.255.255.*.
* @attention 2. IP pointer should not be NULL. If the IP pointer is NULL, it will return false.
*
* @param struct ip_addr *ip : IP address
*
* @return true : the IP address is mesh local IP address
* @return false : the IP address is not mesh local IP address
*/
bool espconn_mesh_local_addr(struct ip_addr *ip);
/**
* @brief Get the information of router used by mesh network.
*
* @attention 1. The function should be called after mesh_enable_done
*
* @param struct station_config *router: router inforamtion
*
* @return true : succeed
* @return false : fail
*/
bool espconn_mesh_get_router(struct station_config *router);
/**
* @brief Set the information of router used by mesh network.
*
* @attention The function must be called before espconn_mesh_enable.
*
* @param struct station_config *router: router information.
* user should initialize the ssid and password.
*
* @return true : succeed
* @return false : fail
*/
bool espconn_mesh_set_router(struct station_config *router);
/**
* @brief Set server setup by user.
*
* @attention If users wants to use themself server, they use the function.
* but the function must be called before espconn_mesh_enable.
* at the same time, users need to implement the server.
*
* @param struct ip_addr *ip : ip address of server.
* @param uint16_t port : port used by server.
*
* @return true : succeed
* @return false : fail
*/
bool espconn_mesh_server_init(struct ip_addr *ip, uint16_t port);
/**
* @brief Get the information of mesh node.
*
* @param enum mesh_node_type typ : mesh node type.
* @param uint8_t **info : the information will be saved in *info.
* @param uint8_t *count : the node count in *info.
*
* @return true : succeed
* @return false : fail
*/
bool espconn_mesh_get_node_info(enum mesh_node_type type,
uint8_t **info, uint8_t *count);
/**
* @brief Set WiFi cryption algrithm and password for mesh node.
*
* @attention The function must be called before espconn_mesh_enable.
*
* @param AUTH_MODE mode : cryption algrithm (WPA/WAP2/WPA_WPA2).
* @param uint8_t *passwd : password of WiFi.
* @param uint8_t passwd_len : length of password (8 <= passwd_len <= 64).
*
* @return true : succeed
* @return false : fail
*/
bool espconn_mesh_encrypt_init(AUTH_MODE mode, uint8_t *passwd, uint8_t passwd_len);
/**
* @brief Set prefix of SSID for mesh node.
*
* @attention The function must be called before espconn_mesh_enable.
*
* @param uint8_t *prefix : prefix of SSID.
* @param uint8_t prefix_len : length of prefix (0 < passwd_len <= 22).
*
* @return true : succeed
* @return false : fail
*/
bool espconn_mesh_set_ssid_prefix(uint8_t *prefix, uint8_t prefix_len);
/**
* @brief Set max hop for mesh network.
*
* @attention The function must be called before espconn_mesh_enable.
*
* @param uint8_t max_hops : max hop of mesh network (1 <= max_hops < 10, 4 is recommended).
*
* @return true : succeed
* @return false : fail
*/
bool espconn_mesh_set_max_hops(uint8_t max_hops);
/**
* @brief Set group ID of mesh node.
*
* @attention The function must be called before espconn_mesh_enable.
*
* @param uint8_t *grp_id : group ID.
* @param uint16_t gid_len: length of group ID, now gid_len = 6.
*
* @return true : succeed
* @return false : fail
*/
bool espconn_mesh_group_id_init(uint8_t *grp_id, uint16_t gid_len);
/**
* @brief Set the curent device type.
*
* @param uint8_t dev_type : device type of mesh node
*
* @return true : succeed
* @return false : fail
*/
bool espconn_mesh_set_dev_type(uint8_t dev_type);
/**
* @brief Get the curent device type.
*
* @param none
*
* @return device type
*/
uint8_t espconn_mesh_get_dev_type();
/**
* @brief Try to establish mesh connection to server.
*
* @attention If espconn_mesh_connect fail, returns non-0 value, there is no connection, so it
* won't enter any espconn callback.
*
* @param struct espconn *usr_esp : the network connection structure, the usr_esp to
* listen to the connection
*
* @return 0 : succeed
* @return Non-0 : error code
* - ESPCONN_RTE - Routing Problem
* - ESPCONN_MEM - Out of memory
* - ESPCONN_ISCONN - Already connected
* - ESPCONN_ARG - Illegal argument, can't find the corresponding connection
* according to structure espconn
*/
int8_t espconn_mesh_connect(struct espconn *usr_esp);
/**
* @brief Disconnect a mesh connection.
*
* @attention Do not call this API in any espconn callback. If needed, please use system
* task to trigger espconn_mesh_disconnect.
*
* @param struct espconn *usr_esp : the network connection structure
*
* @return 0 : succeed
* @return Non-0 : error code
* - ESPCONN_ARG - illegal argument, can't find the corresponding TCP connection
* according to structure espconn
*/
int8_t espconn_mesh_disconnect(struct espconn *usr_esp);
/**
* @brief Get current mesh status.
*
* @param null
*
* @return the current mesh status, please refer to enum mesh_status.
*/
int8_t espconn_mesh_get_status();
/**
* @brief Send data through mesh network.
*
* @attention Please call espconn_mesh_sent after espconn_sent_callback of the pre-packet.
*
* @param struct espconn *usr_esp : the network connection structure
* @param uint8 *pdata : pointer of data
* @param uint16 len : data length
*
* @return 0 : succeed
* @return Non-0 : error code
* - ESPCONN_MEM - out of memory
* - ESPCONN_ARG - illegal argument, can't find the corresponding network transmission
* according to structure espconn
* - ESPCONN_MAXNUM - buffer of sending data is full
* - ESPCONN_IF - send UDP data fail
*/
int8_t espconn_mesh_sent(struct espconn *usr_esp, uint8 *pdata, uint16 len);
/**
* @brief Get max hop of mesh network.
*
* @param null.
*
* @return the current max hop of mesh
*/
uint8_t espconn_mesh_get_max_hops();
/**
* @brief To enable mesh network.
*
* @attention 1. the function should be called in user_init.
* @attention 2. if mesh node can not scan the mesh AP, it will be isolate node without trigger enable_cb.
* user can use espconn_mesh_get_status to get current status of node.
* @attention 3. if user try to enable online mesh, but node fails to establish mesh connection
* the node will work with local mesh.
*
* @param espconn_mesh_callback enable_cb : callback function of mesh-enable
* @param enum mesh_type type : type of mesh, local or online.
*
* @return null
*/
void espconn_mesh_enable(espconn_mesh_callback enable_cb, enum mesh_type type);
/**
* @brief To disable mesh network.
*
* @attention When mesh network is disabed, the system will trigger disable_cb.
*
* @param espconn_mesh_callback disable_cb : callback function of mesh-disable
* @param enum mesh_type type : type of mesh, local or online.
*
* @return null
*/
void espconn_mesh_disable(espconn_mesh_callback disable_cb);
/**
* @brief To print version of mesh.
*
* @param null
*
* @return null
*/
void espconn_mesh_print_ver();
/**
* @brief To get AP around node.
*
* @attention User can get normal AP or mesh AP using the function.
* If user plans to get normal AP, he/she needs to clear grp_set flag in para.
* If user plans to get mesh AP, he/she needs to set grp_set and grp_id;
*
* @param struct mesh_scan_para_type *para : callback function of mesh-disable
*
* @return null
*/
void espconn_mesh_scan(struct mesh_scan_para_type *para);
/**
* @}
*/
#ifdef __cplusplus
}
#endif
#endif