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192.168.1.100 / T106_DC / 9ed821d7e5d875a3395740a9cc2545671fa429b7 / . / ap / lib / libvsim / zte_vsim_api.h
blob: 155244913efd2afd826bbeea9ebe2f49539ffdac [file] [log] [blame]
#ifndef __ZTE_VSIM_API_H_
#define __ZTE_VSIM_API_H_
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <sys/socket.h>
//********2023-01-13***********//
#define SIM_IMSI_LEN_MAX 16 /** Maximum length of IMSI data. */
#define SIM_ICCID_LEN_MAX 21 /** Maximum length of ICCID data. */
#define DATA_MAX_APN_LEN 57 /** Maximum length of the APN. */
#define DATA_MAX_USERNAME_LEN 127 /** Maximum length of the profile user name. */
#define DATA_MAX_PASSWORD_LEN 127 /** Maximum length of the profile password. */
#define DATA_INTERFACE_NAME_LEN 16 /** Interface name length. */
#define DATA_MAX_ADDR_COUNT 2 /** Maximum number of IP addresses. */
//**************GHT VSIM Struct*********************//
typedef enum {
E_SIM_TYPE_USIM, //ʵÌ忨
E_SIM_TYPE_VSIM, //ÔÆ¿¨
E_SIM_TYPE_SSIM, //Soft SIM
}SimTypeInSlot_t;
typedef enum {
E_NW_RADIO_IF_NO_SRV = 0,
E_NW_RADIO_IF_GSM = 1,
E_NW_RADIO_IF_WCDMA = 2,
E_NW_RADIO_IF_LTE = 3,
E_NW_RADIO_IF_TDSCDMA = 4,
E_NW_RADIO_IF_CDMA = 5,
E_NW_RADIO_IF_CDMA2000 = 6,
}e_nw_rat_type_t; //RAT value
typedef enum {
E_NW_STATUS_SRV_NONE = 0,
E_NW_STATUS_CURRENT_SERVING = 1,
E_NW_STATUS_SRV_LIMITED = 2,
E_NW_STATUS_SRV_AVAILABLE = 3,
E_NW_STATUS_SRV_FORBIDDEN = 4,
}e_nw_srv_status_t;
typedef struct
{
uint32_t tac;
uint32_t cell_id;
}lte_scell_info_t;
typedef struct
{
uint32_t lac;
uint32_t cell_id;
}gsm_w_scell_info_t;
typedef struct
{
e_nw_rat_type_t curr_rat;
e_nw_srv_status_t nStatus;
lte_scell_info_t lte_scell_info; //¸³Öµ¿ÉÑ¡£¬Óû§¸ù¾ÝratָʾÍøÂçÀàÐÍÈ¡Öµ
gsm_w_scell_info_t gsm_w_scell_info; //¸³Öµ¿ÉÑ¡£¬Óû§¸ù¾ÝratָʾÍøÂçÀàÐÍÈ¡Öµ
}RegInfo_t;
typedef struct{
uint16_t mcc;
uint16_t mnc;
uint32_t tac;
uint32_t cell_id;
uint16_t bandwidth;
int16_t rxlev;
uint32_t arfcn;
uint16_t pcid;
}base_cell_info_t;//Hex format
typedef struct
{
uint8_t roamingFlag; ///< 1:roaming,0:non roaming
int16_t rsrp;
int16_t rsrq;
uint16_t SINR;
uint16_t netMode; //0--tdd 1--fdd
uint16_t band;
base_cell_info_t base_Scell_info;
} lte_Scell_t;
typedef struct
{
int16_t rsrp;
int16_t rsrq;
uint16_t netMode; //0--tdd 1--fdd
base_cell_info_t base_Ncell_info;
}lte_Ncell_t;
typedef struct
{
uint16_t bsic; //only in GSM
uint16_t band;
uint16_t rscp; //only in W
base_cell_info_t base_Ncell_info;
}gsm_W_Scell_t;
typedef struct
{
uint16_t bsic; //only GSM
uint16_t band;
uint16_t rscp; //only in W
base_cell_info_t base_Ncell_info;
}gsm_W_Ncell_t;
typedef struct
{
lte_Scell_t lteScell;
uint16_t lteNcellNum;
lte_Ncell_t lteNcell[6];
}lte_cellinfo_t;
typedef struct{
gsm_W_Scell_t scell_info;
uint16_t gsm_W_NcellNum;
gsm_W_Ncell_t gsm_W_ncell[6];
}gsm_W_cellifo_t;
typedef struct{
e_nw_rat_type_t curr_rat;
e_nw_srv_status_t service_status; //0x00: in service; 0x01: not in
lte_cellinfo_t lte_cellinfo;
gsm_W_cellifo_t gsm_cellinfo;
}CellInfo_t;
typedef struct{
uint32_t lwip_ul;
uint32_t lwip_dl;
uint32_t ppp_ul;
uint32_t ppp_dl;
uint32_t rndis_ul;
uint32_t rndis_dl;
}NetInfo_t; /**< µ¥Î»: bit*/
typedef enum
{
E_DATA_IP_FAMILY_UNKNOWN = 0x00, /**< unknown */
E_DATA_IP_FAMILY_IPV4 = 0x04, /**< IPv4 */
E_DATA_IP_FAMILY_IPV6 = 0x06, /**< IPv6 */
E_DATA_IP_FAMILY_IPV4V6 = 0x0A /**< IPv4|IPv6 */
}e_data_ip_family_t;
typedef enum
{
E_DATA_TECH_PREF_UNKNOWN = 0x00, /**< unknown */
E_DATA_TECH_PREF_UMTS = 0x01, /**< UMTS */
E_DATA_TECH_PREF_CDMA = 0x02, /**< CDMA */
E_DATA_TECH_PREF_LTE = 0x03, /**< LTE */
E_DATA_TECH_PREF_AUTO = 0x04 /**< AUTO */
}e_data_tech_pref_t;
typedef enum
{
E_AUTH_PREF_PAP_CHAP_NOT_ALLOWED = 0x00,
E_AUTH_PREF_PAP_ONLY_ALLOWED = 0x01,
E_AUTH_PREF_CHAP_ONLY_ALLOWED = 0x02,
E_AUTH_PREF_PAP_CHAP_BOTH_ALLOWED = 0x03
}e_data_auth_pref_t;
typedef struct
{
uint8_t profile_valid; /**< Must be set to TRUE if umts_profile is being passed. */
uint8_t profile_id; /**< profile ID. as well as called cid*/
uint8_t ip_family_valid; /**< Must be set to TRUE if ip_family is being passed. */
e_data_ip_family_t ip_family; /**< Data IP Family */
uint8_t apn_name_valid; /**< Must be set to TRUE if apn_name is being passed. */
char apn_name[DATA_MAX_APN_LEN+1]; /**< Data APN Name. A character string that identifies a PDN*/
uint8_t user_name_valid; /**< Must be set to TRUE if user_name is being passed. */
char user_name[DATA_MAX_USERNAME_LEN+1]; /**< Username for the APN. */
uint8_t password_valid; /**< Must be set to TRUE if password is being passed. */
char password[DATA_MAX_PASSWORD_LEN+1]; /**< Password for the APN. */
uint8_t auth_pref_valid; /**< Must be set to TRUE if tech_pref is being passed. */
e_data_auth_pref_t auth_pref; /**< Data auth Preference */
uint8_t tech_pref_valid; /**< Must be set to TRUE if tech_pref is being passed. */
e_data_tech_pref_t tech_pref; /**< Data Tech Preference */
}Data_call_config_info_t;
typedef struct
{
char addr_valid; /**< Indicates whether a valid address is available. */
struct sockaddr_storage addr; /**< Stores the IP address. defined in kernel socket.h*/
}data_call_addr_t;
typedef struct
{
data_call_addr_t iface_addr_s; /**< Network interface address. */
uint32_t iface_mask; /**< Subnet mask. */
data_call_addr_t gtwy_addr_s; /**< Gateway server address. */
uint32_t gtwy_mask; /**< Gateway mask. */
data_call_addr_t dnsp_addr_s; /**< Primary DNS server address. */
data_call_addr_t dnss_addr_s; /**< Secondary DNS server address. */
}data_call_addr_info_t;
typedef struct
{
char iface_name[DATA_INTERFACE_NAME_LEN + 1]; /**< Network interface name. */
uint8_t addr_info_len; /**< Must be set to the number of elements in addr_info. */
data_call_addr_info_t addr_info[DATA_MAX_ADDR_COUNT]; /**< Data device address list. */
}Data_call_addr_info_list_t;
typedef enum{
E_RF_RESOURCE_CALLBACK_EVENT = 0x00, /**< ÉäƵ×ÊÔ´Çл». */
E_NW_ATTACH_COMMPLETE_EVENT = 0x32, /**< ×¢ÍøÍê³É. */
E_DATA_PDN_ACT_SUCC_EVENT = 0x64, /**< PDN¼¤»îÍê³É ,ind_dataÖÐЯ´øZGIPDNS:µØÖ·ÐÅÏ¢ */
}E_MODEM_EVENT_ID;
typedef enum
{
E_SIM_STAT_NOT_INSERTED = 0x00,
E_SIM_STAT_READY = 0x01,
E_SIM_STAT_PIN = 0x02,
E_SIM_STAT_PUK = 0x03,
E_SIM_STAT_BUSY = 0x04,
E_SIM_STAT_UNKNOWN = 0x05,
}E_SIM_STATUS;
/*********************************************************************
** Ãû³Æ£º VSIM_COMMAND
** ÃèÊö£º ModemºÍVSIMµÄAPDUͨÐŽӿں¯ÊýµÄ½á¹¹¶¨Ò壻
** ¸ÃÀàÐͶ¨ÒåµÄº¯ÊýÐèҪͨ¹ýzte_atVsimInit½Ó¿ÚÍê³É×¢²á
**
*********************************************************************/
typedef int (*VSIM_COMMAND)(uint8_t *apdu_req, uint16_t apdu_req_len,uint8_t *apdu_rsp, uint16_t *apdu_rsp_len, uint8_t slot);
/*********************************************************************
** Ãû³Æ£º zte_mdm_event_ind_callback
** ÃèÊö£º ÏûϢʼþ֪ͨº¯ÊýµÄ½á¹¹¶¨Òå
** ind_dataÖÐƽ̨×Ô¶¨ÒåÌí¼ÓÃèÊö
** ±ÈÈçRF×ÊÔ´»ØÊÕÔ­Òò£º1. For SIM1 TAU; 2. For SIM1 Regist Network;3. NULL;
**
*********************************************************************/
typedef int32_t (*zte_mdm_event_ind_callback)(E_MODEM_EVENT_ID event_id, void *ind_data, uint32_t ind_data_len);
/*********************************************************************
** Ãû³Æ£º zte_mdm_event_regist
** ÃèÊö£º
** ÏûϢʼþ֪ͨº¯Êý×¢²áÈë¿Ú£¬Ìṩ¸ø¿Í»§×¢²áÏûÏ¢º¯Êý;
** modem²à²úÉúʼþ£¬»áµ÷ÓÃind_cb֪ͨ¿Í»§£»
*********************************************************************/
extern int32_t zte_mdm_event_regist(zte_mdm_event_ind_callback ind_cb);
/*********************ZTE VSIM API***************************/
extern int32_t zte_atVsimInit(VSIM_COMMAND vsim_apdu_process_fn, uint8_t nSimID);
extern int32_t zte_atVsimClose(VSIM_COMMAND vsim_apdu_process_fn, uint8_t nSimID);
extern int32_t zte_atVsimReset(void);
//extern int16_t zte_SetSimWorkMode(SimTypeInSlot_t SimType, uint8_t nSoltID);
//extern int16_t zte_GetSimWorkMode(SimTypeInSlot_t *SimType, uint8_t nSoltID);
extern int32_t zte_SetGTDUALSIM(uint8_t nSimID);
extern int32_t zte_GetGTDUALSIM(uint8_t *nSimID);
extern int32_t zte_SetGTDATASIM(uint8_t nSimID);
extern int32_t zte_GetGTDATASIM(uint8_t *nSimID);
extern int32_t zte_SetCfunMode(uint8_t mode);
extern int32_t zte_GetCfunMode(uint8_t *mode);
extern int32_t zte_SetIMEIbySimId(uint8_t *imei, uint8_t imei_len, uint8_t nSimID);
extern int32_t zte_GetIMEIbySimId(uint8_t *imei, uint8_t imei_len, uint8_t nSimID);
extern int32_t zte_GetCCIDbySimId(uint8_t *ccid, uint8_t ccid_len, uint8_t nSimID);
extern int32_t zte_GetMCCMNCbySimId(char *mcc, char *mnc, uint8_t nSimID);
extern int32_t zte_SwitchSimHandle(uint8_t mode);
extern int32_t zte_GetCSQbySimId(int32_t *rssi, int32_t *ber, uint8_t nSimID);
extern int32_t zte_GetRegInfobySimid(RegInfo_t *reg_info, uint8_t nSimID);
extern int32_t zte_GetCellInfobySimId(CellInfo_t *pcellinfo, uint8_t nSimID);
extern int32_t zte_GetNetInfobySimId(NetInfo_t *pNetInfo, uint8_t nSimID);
extern int32_t zte_SetAPNbySimID(Data_call_config_info_t *data_call, uint8_t nSimID);
extern int32_t zte_StartDataCallbySimId(Data_call_config_info_t *data_call, uint8_t nSimID);
extern int32_t zte_StopDataCallbySimId(uint8_t profile_id, uint8_t nSimID);
extern int32_t zte_GetDataAddrbySimID(uint8_t profile_id, Data_call_addr_info_list_t *addr_list, uint8_t nSimID);
extern int32_t zte_GetSimStatusbySimId(E_SIM_STATUS *sim_status, uint8_t nSimID);
extern int32_t zte_SendATbySimId(char *req_at, char *info_fmt, void **pval, uint8_t nSimID);
/********************ZTE VSIM API END****************************/
#endif //#ifndef __ZTE_VSIM_API_H_