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192.168.1.100 / T106_DC / ef2f20156e1f3d0d3ee4ae4a6243754fc693521c / . / ap / lib / libatext / ext_normal_func.c
blob: 3c170facbb1d6f6639e5bbfe490b45a2ba3e572f [file] [log] [blame]
/*******************************************************************************
* ¹¦ÄÜ״̬µÈÏà¹ØÐÅÏ¢²éѯÓëÉèÖÃ,Ö÷ÒªÓÃÓÚ״̬²éѯ¡¢ÎÊÌâ·ÖÎö¡¢¼¯³É²âÊԵȣ¬½öÔÚAP²àLINUXʹÓÃ
* Ö§³ÖµÄ¹¦ÄÜÈçÏÂ:
* ²éѯ»òÉèÖÃÍø¿ÚÇл»
* ²éѯ»òÉèÖù¤×÷ģʽÇл»
* ²éѯ»òÉèÖÃTELNET״̬
* ²éѯ»òÉèÖÃSALESTAT״̬
* ºóÐøÈçÓй¦ÄÜ״̬²éѯ»ò¿ª¹ØÉèÖõÄÏà¹ØÐèÇ󣬿ÉÒÔÔÚ´ËÎļþÖÐÌí¼ÓATÃüÁî´¦Àí
**********************************************************************************/
#if (APP_OS_TYPE == APP_OS_LINUX)
#include "ext_regist.h"
#include "softap_api.h"
#include "at_utils.h"
#include "zxic_errno.h"
#include "nv_api.h"
#include "at_context.h"
#include "syncnv.h"
#include <fcntl.h>
#include <sys/ioctl.h>
#include "RONvParam_AMT.h"
#include "ref_nv_def.h"
#include <linux/input.h>
#include "NvParam_drv.h"
#include "libcpnv.h"
static int32_t cardSlotFlag = 0;
//========================================================================================================//
//º¯ÊýʵÏÖÇø
//========================================================================================================//
#define USB_HOTPLUG_FILE_NAME "/sys/dwc_usb/usbconfig/hotplug"
#define AP_WORK_LOCK "ap_work_lock"
int writefile(char*path, char*buf, unsigned len)
{
FILE *fp;
int rtv;
if((fp=fopen(path,"w"))==NULL)
{
return -1;
}
rtv = fwrite(buf,len,1, fp);
fclose(fp);
return rtv;
}
int zlanenableGet_req(int at_fd,char * at_paras,void * *res_msg,int * res_msglen)
{
char enable_flag[2] = {0};
sc_cfg_get("LanEnable", enable_flag, sizeof(enable_flag));
at_print(AT_DEBUG,"zlanenableGet_req:LanEnable = %s\n", enable_flag);
*res_msg = at_query_result_build("ZLANENABLE",enable_flag);
*res_msglen = strlen(*res_msg);
return AT_END;
}
static void sc_cfg_set_ufi_state(void)
{
sc_cfg_set("LanEnable","1");
sc_cfg_set("usblan", "usblan0");
sc_cfg_set("need_jilian", "0");
sc_cfg_set("need_init_modem","yes");
//sc_cfg_set("cid_reserved","12");
}
int zlanenableSet_req(int at_fd,char * at_paras,void * * res_msg,int * res_msglen)
{
char* at_str = NULL;
int32_t iLanEnable = 0;
int32_t iOldLanEnable = 0;
char strCfgGetItem[AT_CMD_MAX] = {0};
if(at_paras==NULL)
softap_assert("zlanenableSet_req:at_paras is null");
at_str = at_paras;
get_at_cmd_param_int(at_str, &iLanEnable, &at_str);
at_print(AT_DEBUG,"zlanenableSet_rsq:iLanEnable == %d\n", iLanEnable);
if(!(0 == iLanEnable || 1 == iLanEnable
|| 2 == iLanEnable|| 3 == iLanEnable)) // szLanEnableÖ»ÓÐ0ºÍ1Á½¸öÖµ
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
sc_cfg_get("LanEnable", strCfgGetItem, sizeof(strCfgGetItem));
if(0==strcmp(strCfgGetItem,""))
{
*res_msg = at_err_build(ATERR_PROC_FAILED);
*res_msglen = strlen(*res_msg);
return AT_END;
}
iOldLanEnable = atoi(strCfgGetItem);
if(iOldLanEnable != iLanEnable)
{
if(iLanEnable == 0)
{
sc_cfg_set("LanEnable","0");
sc_cfg_set("usblan", "");
sc_cfg_set("need_jilian", "1");
sc_cfg_set("need_init_modem","no");
sc_cfg_set("boot_prj","mdl");
//sc_cfg_set("cid_reserved","3");
}
else if(iLanEnable == 1)
{
sc_cfg_set_ufi_state();
sc_cfg_set("boot_prj","mifi");
}
else if(iLanEnable == 2)
{
sc_cfg_set_ufi_state();
sc_cfg_set("boot_prj","cpe");
}
else if(iLanEnable == 3)
{
sc_cfg_set_ufi_state();
sc_cfg_set("boot_prj","evb");
}
// sc_cfg_save();
}
*res_msg = at_query_result_build("ZLANENABLE",at_paras);
*res_msglen = strlen(*res_msg);
//ģʽÇл»ºó·¢ËÍÏûÏ¢¸øÖ÷¿ØÖØÆô
ipc_send_message(MODULE_ID_AT_CTL,MODULE_ID_MAIN_CTRL, MSG_CMD_RESTART_REQUEST, 0, NULL,0);
return AT_END;
}
int zmode_req_rcv_act(char *at_paras,int at_fd,struct at_context *context)
{
char* err_str = NULL;
int32_t iUsbMode = 0;
at_print(AT_DEBUG, "at_str = %s\n", at_paras);
get_at_cmd_param_int(at_paras, &iUsbMode, &at_paras);
at_print(AT_DEBUG, "iUsbMode == %d\n", iUsbMode);
switch(iUsbMode)
{
case 0:
{
nv_set_item(NV_RO,"usb_modetype", "user",1);
break;
}
case 1:
{
nv_set_item(NV_RO,"usb_modetype", "debug",1);
break;
}
case 2:
{
nv_set_item(NV_RO,"usb_modetype", "factory",1);
break;
}
case 3:
{
nv_set_item(NV_RO,"usb_modetype", "amt",1);
break;
}
default:
{
err_str = at_err_build(ATERR_PARAM_INVALID);
at_write(context->at_channel->at_fd, err_str, strlen(err_str));
free(err_str);
return AT_END;
}
}
nv_commit(NV_RO);
context->app_param = (void*)malloc(sizeof(iUsbMode)+1);
if(context->app_param == NULL){softap_assert("");return AT_END;}
memset(context->app_param, 0, sizeof(iUsbMode)+1);
sprintf(context->app_param, "%d", iUsbMode);
return AT_CONTINUE;
}
int zmodeGet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
int32_t setResult = 0;
char strCfgGetItem[AT_CMD_MAX] = {0};
int tmp = -1;
nv_get_item(NV_RO, "usb_modetype", strCfgGetItem, sizeof(strCfgGetItem));
at_print(AT_DEBUG,"zmodeGet_req:strCfgGetItem = %s\n", strCfgGetItem);
if(!strcmp(strCfgGetItem,"user"))
{
*res_msg = at_query_result_build("ZMODE","0");
}
else if(!strcmp(strCfgGetItem,"debug"))
{
*res_msg = at_query_result_build("ZMODE","1");
}
else if(!strcmp(strCfgGetItem,"factory"))
{
*res_msg = at_query_result_build("ZMODE","2");
}
else if(!strcmp(strCfgGetItem,"amt"))
{
*res_msg = at_query_result_build("ZMODE","3");
}
else
{
*res_msg = at_err_build(ATERR_PROC_FAILED);
}
*res_msglen = strlen(*res_msg);
return AT_END;
}
int plugoutSet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
int32_t iPlutout = 0;
char* at_str = NULL;
if(at_paras==NULL)
softap_assert("zmodeSet_req:at_paras is null");
at_str = at_paras;
get_at_cmd_param_int(at_str, &iPlutout, &at_str);
at_print(AT_DEBUG,"zmodeSet_rsq:iUsbMode == %d\n", iPlutout);
switch(iPlutout)
{
case 0:
{
writefile(USB_HOTPLUG_FILE_NAME,"0",1);
break;
}
case 1:
{
writefile(USB_HOTPLUG_FILE_NAME,"1",1);
break;
}
default:
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
}
*res_msg = at_ok_build();
*res_msglen = strlen(*res_msg);
return AT_END;
}
int znetcardtypeSet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
int32_t iNetcardType = 0;
int32_t iResult = 0;
char* at_str = NULL;
if(at_paras==NULL)
softap_assert("znetcardtypeSet_req:at_paras is null");
at_str = at_paras;
at_print(AT_DEBUG,"znetcardtypeSet_rsq: come in.\n");
get_at_cmd_param_int(at_str, &iNetcardType, &at_str);
at_print(AT_DEBUG,"znetcardtypeSet_rsq:iNetcardType == %d\n", iNetcardType);
switch(iNetcardType)
{
case 0:
{
nv_set_item(NV_RO,"forcenetcard_type", "force_ndis",1);
break;
}
case 1:
{
nv_set_item(NV_RO,"forcenetcard_type", "force_ecm",1);
break;
}
case 2:
{
nv_set_item(NV_RO,"forcenetcard_type", "force_mbim",1);
break;
}
case 3:
{
nv_set_item(NV_RO,"forcenetcard_type", "force_rndis",1);
break;
}
default:
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
}
nv_commit(NV_RO);
*res_msg = at_ok_build();
*res_msglen = strlen(*res_msg);
return AT_END;
}
int znetcardtypeGet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
int32_t setResult = 0;
char strCfgGetItem[AT_CMD_MAX] = {0};
int tmp = -1;
nv_get_item(NV_RO, "forcenetcard_type", strCfgGetItem, sizeof(strCfgGetItem));
at_print(AT_DEBUG,"znetcardtypeGet_req:strCfgGetItem = %s\n", strCfgGetItem);
if(!strcmp(strCfgGetItem,"force_ndis"))
{
*res_msg = at_query_result_build("CARDTYPE","force_ndis");
}
else if(!strcmp(strCfgGetItem,"force_ecm"))
{
*res_msg = at_query_result_build("CARDTYPE","force_ecm");
}
else if(!strcmp(strCfgGetItem,"force_mbim"))
{
*res_msg = at_query_result_build("CARDTYPE","force_mbim");
}
else if(!strcmp(strCfgGetItem,"force_rndis"))
{
*res_msg = at_query_result_build("CARDTYPE","force_rndis");
}
else
{
*res_msg = at_err_build(ATERR_PROC_FAILED);
}
*res_msglen = strlen(*res_msg);
return AT_END;
}
int zusbmodeSet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
int32_t iUsbMode = 0;
char* at_str = NULL;
if(at_paras==NULL)
softap_assert("zusbmodeSet_req:at_paras is null");
at_str = at_paras;
get_at_cmd_param_int(at_str, &iUsbMode, &at_str);
at_print(AT_DEBUG,"zusbmodeSet_req:iUsbMode == %d\n", iUsbMode);
switch(iUsbMode)
{
case 0:
{
nv_set_item(NV_RO,"usb_modetype", "user",1);
break;
}
case 1:
{
nv_set_item(NV_RO,"usb_modetype", "debug",1);
break;
}
case 2:
{
nv_set_item(NV_RO,"usb_modetype", "factory",1);
break;
}
case 3:
{
nv_set_item(NV_RO,"usb_modetype", "amt",1);
break;
}
default:
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
}
nv_commit(NV_RO);
*res_msg = at_ok_build();
*res_msglen = strlen(*res_msg);
return AT_END;
}
int znvset_req_func(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
char *strch = at_paras;
char *p[4] = {0};
char nv_name[NV_NAME_LEN] = {0};
char nv_value[1024] = {0};
int i = 0;
if(at_paras == NULL)
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
for(i=0; i < 4; i++)
{
strch = strchr(strch, '"');
p[i] = strch;
if(strch == NULL)
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
strch++;
}
memcpy(nv_name, p[0]+1, (int)(p[1]-p[0]-1));
memcpy(nv_value,p[2]+1, (int)(p[3]-p[2]-1));
sc_cfg_set(nv_name, nv_value);
sc_cfg_save();
at_print(AT_DEBUG,"znvset_req_func name=%s value=%s\n", nv_name, nv_value);
*res_msg = at_ok_build();
*res_msglen = strlen(*res_msg);
return AT_END;
}
int znvget_req_func(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
char *strch = at_paras;
char nv_name[NV_NAME_LEN] = {0};
char nv_value[1024] = {0};
char *p[2] = {0};
int i = 0;
if(at_paras == NULL)
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
for(i=0; i < 2; i++)
{
strch = strchr(strch, '"');
p[i] = strch;
if(strch == NULL)
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
strch++;
}
memcpy(nv_name, p[0]+1, (int)(p[1]-p[0]-1));
sc_cfg_get(nv_name, nv_value, sizeof(nv_value));
strch = malloc(strlen(nv_name)+strlen(nv_value)+32);
if(strch == NULL) {softap_assert("");return AT_END;}
sprintf(strch,"\"%s\",\"%s\"",nv_name, nv_value);
*res_msg = at_query_result_build("znvget",strch);
*res_msglen = strlen(*res_msg);
free(strch);
strch = NULL;
return AT_END;
}
/* ͨ¹ýAT ¿Ú½øÐÐshellÃüÁîµ÷ÊÔ*/
int ext_atshell_req(int at_fd,char * at_paras,void **res_msg,int * res_msglen)
{
char* cmd = NULL;
char *at_str = NULL;
int len = strlen(at_paras)+1;
cmd = malloc(len);
if(cmd == NULL){softap_assert("");return AT_END;}
memset(cmd,0,len);
memcpy(cmd, at_paras, len-1);
soft_system(cmd);
at_str = at_ok_build();
*res_msg = at_str;
*res_msglen = strlen(at_str);
free(cmd);
return AT_END;
}
int ext_pcfc_set_func(char *at_paras,int at_fd,struct at_context *context)
{
int flag = 0;
void *p[1] = {&flag};
int ret = 0;
char* rspStr = NULL;
char strCfgGetItem[AT_CMD_MAX] = {0};
int iOldLanEnable = 0;
int iLanEnable = 0;
UINT8 phoneModeStatus = 0;
UINT32 retCode = CPNV_ERROR;
ret = parse_param("%d", at_paras, p);
if (ret != AT_PARSE_OK) // cov M
{
return AT_END;
}
retCode = cpnv_NvItemRead(ZPS_REF_MSINFO_VERSIONMODE_BASE_ADDR,&phoneModeStatus,sizeof(UINT8));
if(retCode == CPNV_ERROR)
{
// todo: cov m
}
sc_cfg_get("LanEnable", strCfgGetItem, sizeof(strCfgGetItem));
if(0==strcmp(strCfgGetItem,""))
{
rspStr = at_err_build(ATERR_PROC_FAILED);
at_write(context->at_channel->at_fd, rspStr, strlen(rspStr));
free(rspStr);
return AT_END;
}
iOldLanEnable = atoi(strCfgGetItem);
if ((1 <= flag)&&(3 >= flag)){
phoneModeStatus = (0x1 | phoneModeStatus); // ºóһλ1±íʾÊÇ´¿modem°æ±¾
sc_cfg_set("version_mode","1"); //version_mode==1 phonemode==0 Ϊ´¿modem°æ±¾
ret = cpnv_NvItemWrite(ZPS_REF_MSINFO_VERSIONMODE_BASE_ADDR,&phoneModeStatus,sizeof(UINT8));
if(ret == CPNV_ERROR){softap_assert("");}
ret = cpnv_NvramFlush();
if(ret == CPNV_ERROR){softap_assert("");}
iLanEnable = 0;
//sc_cfg_set("cid_reserved","15");
sc_cfg_set("cid_reserved","255");
if(iOldLanEnable != iLanEnable)
{
sc_cfg_set("LanEnable","0");
sc_cfg_set("usblan", "");
sc_cfg_set("need_jilian", "1");
sc_cfg_set("need_init_modem","no");
sc_cfg_set("boot_prj","mdl");
//sc_cfg_save();
}
sc_cfg_save();
return AT_CONTINUE;
}
else
{
//rspStr = at_err_build(ATERR_PARAM_INVALID);
//at_write(context->at_channel->at_fd, rspStr, strlen(rspStr));
//free(rspStr);
//return AT_END;
return AT_CONTINUE;
}
}
int ext_is_usermode(void)
{
char strCfgGetItem[16] = {0};
nv_get_item(NV_RO, "usb_modetype", strCfgGetItem, sizeof(strCfgGetItem));
return !strcmp(strCfgGetItem,"user");
}
#ifndef CONFIG_MIN_8M_VERSION
int ztelnetSet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
char* at_str = NULL;
int32_t user_cmd = 0;
char enable_flag[AT_CMD_MAX] = {0};
sc_cfg_get("telnetd_enable", enable_flag, sizeof(enable_flag));
if(at_paras==NULL)
softap_assert("ztelnetSet_req:at_paras is null");
at_str = at_paras;
get_at_cmd_param_int(at_str, &user_cmd, &at_str);
at_print(AT_DEBUG,"zlanenableSet_rsq:user_cmd == %d\n", user_cmd);
switch(user_cmd)
{
case 0:
if (0 == strcmp(enable_flag, "y"))
{
system("killall -9 telnetd");
sc_cfg_set("telnetd_enable", "n");
//sc_cfg_save();
}
*res_msg = at_query_result_build("ZTELNET","0");
break;
case 1:
if (0 == strcmp(enable_flag, "n"))
{
system("/usr/sbin/telnetd -p 4719");
sc_cfg_set("telnetd_enable", "y");
//sc_cfg_save();
}
system("adbd &");
*res_msg = at_query_result_build("ZTELNET","1");
break;
default:
at_print(AT_DEBUG,"lnetSet_rsp:: invaild user_cmd == %d\n", user_cmd);
*res_msg = at_err_build(ATERR_PARAM_INVALID);
}
*res_msglen = strlen(*res_msg);
return AT_END;
}
int ztelnetGet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
char enable_flag[2] = {0};
sc_cfg_get("telnetd_enable", enable_flag, sizeof(enable_flag));
if (0 == strcmp(enable_flag, "y"))
{
*res_msg = at_query_result_build("ZTELNET","1");
}
else if (0 == strcmp(enable_flag, "n"))
{
*res_msg = at_query_result_build("ZTELNET","0");
}
else
{
*res_msg = at_err_build(ATERR_PROC_FAILED);
}
*res_msglen = strlen(*res_msg);
return AT_END;
}
int zppptatusGet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
int32_t state = 0;
char pdpState[AT_CMD_MAX] = {0};
sc_cfg_get("ppp_pdpstate", pdpState, sizeof(pdpState));
if(strcmp(pdpState, "working") == 0)
{
*res_msg = at_query_result_build("ZPPPSTATUS","1");
}
else
{
*res_msg = at_query_result_build("ZPPPSTATUS","0");
}
*res_msglen = strlen(*res_msg);
return AT_END;
}
int salestatSet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
int32_t iEnable = 0;
char *at_str = NULL;
if(at_paras==NULL)
softap_assert("salestatSet_req:at_paras is null");
at_str = at_paras;
get_at_cmd_param_int(at_str, &iEnable, &at_str);
at_print(AT_DEBUG,"salestatSet_rsq:str_saleType == %d\n", iEnable);
if(0 == iEnable)
{
sc_cfg_set("sale_stat_on","no");
}
else if(1 == iEnable)
{
sc_cfg_set("sale_stat_on","yes");
}
else
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
*res_msg = at_ok_build();
*res_msglen = strlen(*res_msg);
return AT_END;
}
int salestatGet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
char salestatState[AT_CMD_MAX] = {0};
sc_cfg_get("sale_stat_on", salestatState, sizeof(salestatState));
// at_print(AT_DEBUG,"salestatGet_req ret salestatState= %s.\n",salestatState);
if (0 == strcmp(salestatState, "yes"))
{
*res_msg = at_query_result_build("SALESTAT","1");
}
else if(0 == strcmp(salestatState, "no"))
{
*res_msg = at_query_result_build("SALESTAT","0");
}
else
{
*res_msg = at_err_build(ATERR_PROC_FAILED);
}
*res_msglen = strlen(*res_msg);
return AT_END;
}
int zerrSet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
int32_t err = 0;
int32_t iResult = 0;
char* at_str = NULL;
if(at_paras==NULL)
softap_assert("zerrSet_req:at_paras is null");
at_str = at_paras;
get_at_cmd_param_int(at_str, &err, &at_str);
//at_print(1,"[ERR]zerrSet_req:err = %d\n",err);
zxic_err_track(err);
*res_msg = at_ok_build();
*res_msglen = strlen(*res_msg);
return AT_END;
}
int zautorspSet_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
char channel_value[50] = {0};
if(at_paras==NULL){
softap_assert("zautorspSet_req:at_paras is null");
return AT_END;
}
if(strstr(at_paras, "all") != NULL)
{
sc_cfg_set("autorspchannel_list", "all");
}
else if(strstr(at_paras, "none") != NULL)
{
sc_cfg_set("autorspchannel_list", "none");
}
else
{
char *pchar = strchr(at_paras,'\0');
if(pchar == NULL)
softap_assert("");
memset(channel_value, 0, sizeof(channel_value));
if((pchar-at_paras) > 0 && (pchar-at_paras)< sizeof(channel_value))
memcpy(channel_value, at_paras, (int)(pchar-at_paras));
sc_cfg_set("autorspchannel_list",channel_value);
}
sc_cfg_save();
#ifdef MULTI_CPU
sync_appointed_nv(NEAR_PS, "autorspchannel_list");
#endif
*res_msg = at_ok_build();
*res_msglen = strlen(*res_msg);
return AT_END;
}
//AT+ZISSENDAUTO=1±íʾ¿ªat_fdͨµÀµÄÖ÷¶¯Éϱ¨£¬0±íʾ¹Ø±Õ
int modAutoInd_act_func(int at_fd,char * at_paras,void * *res_msg,int * res_msglen)
{
struct at_channel_info * at_channel = at_context_find_chn_by_fd(at_fd);
if(at_channel){
if('1' == at_paras[0])
{
at_channel->attribution &= 0xFE;
}
else if('0' == at_paras[0])
{
at_channel->attribution |= (1<<CH_AUTOIND);
}
}
*res_msg = at_ok_build();
*res_msglen = strlen(*res_msg);
return AT_END;
}
int ext_softap_info_req(int at_fd,char * at_paras,void **res_msg,int * res_msglen)
{
char *at_str = NULL;
char lan_enable[NV_NAME_LEN] = {0};
char need_init_modem[NV_NAME_LEN] = {0};
char cid_reserved[NV_NAME_LEN] = {0};
at_str = malloc(AT_CMD_MAX);
if(at_str == NULL)
{
softap_assert("");
return AT_END;
}
memset(at_str, 0, AT_CMD_MAX);
sc_cfg_get("LanEnable", lan_enable, sizeof(lan_enable));
sc_cfg_get("need_init_modem", need_init_modem, sizeof(need_init_modem));
sc_cfg_get("cid_reserved", cid_reserved, sizeof(cid_reserved));
sprintf(at_str+strlen(at_str), "\r\nLanEnable=%s\r\n", lan_enable);
sprintf(at_str+strlen(at_str), "\r\nneed_init_modem=%s\r\n", need_init_modem);
sprintf(at_str+strlen(at_str), "\r\cid_reserved=%s\r\n", cid_reserved);
sprintf(at_str+strlen(at_str), "\r\nOK\r\n");
*res_msg = at_str;
*res_msglen = strlen(at_str);
return AT_END;
}
/*
* Function: int redirect_console(int redirect)
* Param: int redirect
* 1: to redirect
* 0: reset to console
* Return value:
* 0: success; -1: error.
*/
int redirect_console(int redirect)
{
#if (APP_OS_TYPE == APP_OS_LINUX)
int fp = 0;
int ret = 0;
char rd_name[128] = {0};
if(redirect)
strcpy(rd_name, "/dev/ttyGS0");
else
strcpy(rd_name, "/dev/console");
fp = open(rd_name, O_RDWR);
if(fp < 0)
{
printf("Open %s(fp=%d) failed!\n", rd_name, fp);
return -1;
}
printf("tty_redirect:fd=%d\n", fp);
ret = ioctl(fp, TIOCCONS);
printf("tty_redirect:ret=%d\n", ret);
close(fp);
fp = open("/dev/console", O_RDWR);
if(fp < 0)
{
return -1;
}
dup2(fp, 1);
close(fp);
return 0;
#endif
}
/* ½«LOGÊä³öµ½ATͨµÀÉÏ */
int ext_log_stdout_req(int at_fd,char * at_paras,void **res_msg,int * res_msglen)
{
char *at_str = NULL;
int opt = 0;
void *p[1] = {&opt};
parse_param2("%d", at_paras, p);
if (1 != strlen(at_paras) || opt < 0 || opt > 1)
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
redirect_console(opt);
at_str = at_ok_build();
*res_msg = at_str;
*res_msglen = strlen(at_str);
return AT_END;
}
/* ͨ¹ýÀ©Õ¹ÃüÁîÉèÖÃÍⲿMCUÐèÒªµÄÖ÷¶¯Éϱ¨ÃüÁî*/
int zindcmd_set_func(int at_fd,char * at_paras,void * *res_msg,int * res_msglen)
{
if (strlen(at_paras)>= NV_MAX_VAL_LEN)
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
}
else
{
if(strlen(at_paras) == 0)
sc_cfg_set("customIndCmdList","");
else
sc_cfg_set("customIndCmdList",at_paras);
sc_cfg_save();
*res_msg = at_ok_build();
}
*res_msglen = strlen(*res_msg);
return AT_END;
}
int ext_worklock_set_func(char *at_paras, void ** res_msg)
{
int i = 0;
unsigned long result = 0; // cov M
//ÅжϲÎÊýÊÇ·ñÊÇÊ®Áù½øÖÆÊý
for(;i<strlen(at_paras);i++)
{
if(isxdigit(at_paras[i]) == 0)
{
goto ERROR_PROC;
}
}
errno = 0;
result = strtoul(at_paras,0,16);//½«16½øÖƵÄ×Ö·û´®×ª»»³É³¤ÕûÐÎÊý
if (errno == ERANGE)// kw ERRNO.NOT_CHECKED
{
at_print(AT_ERR, "strtoul errno %d: %s\n", errno, strerror(errno));
}
if(result == 0)//ÊÍ·ÅËø
{
if(set_wake_unlock(AP_WORK_LOCK) == 0)//ÊÍ·ÅËø²Ù×÷³É¹¦·µ»Øok
return AT_END;
else
{
*res_msg = at_err_build(ATERR_PROC_FAILED);
return AT_END;
}
}
else if(result>0 && result<0xFFFF)//ÉèÖó¬Ê±Ëø
{
//µ÷ÓÃÉèÖó¬Ê±ËøµÄ½Ó¿Ú
if(set_wake_lock_timeout(AP_WORK_LOCK,result) == 0)//ÉèÖó¬Ê±Ëø³É¹¦·µ»Øok
return AT_END;
else
{
*res_msg = at_err_build(ATERR_PROC_FAILED);
return AT_END;
}
}
else if(result == 0xFFFF)//ÉèÖÃÆÕͨËø
{
if(set_wake_lock(AP_WORK_LOCK) == 0)//ÉèÖÃËø²Ù×÷³É¹¦·µ»Øok
return AT_END;
else
{
*res_msg = at_err_build(ATERR_PROC_FAILED);
return AT_END;
}
}
ERROR_PROC:
//ÎÞЧµÄ²ÎÊýÖµ£¬·µ»Ø´íÎó
*res_msg = at_err_build(ATERR_PARAM_INVALID);
return AT_END;
}
//#ifdef _ENABLE_AUTOTEST
#define KPD_PATH "/dev/event0"
#define LED_WAN_RED_BRIGHTNESS "/sys/class/leds/modem_r_led/brightness"
#define LED_WAN_RED_BLINKTIMEON "/sys/class/leds/modem_r_led/delay_on"
#define LED_WAN_BLUE_BRIGHTNESS "/sys/class/leds/modem_b_led/brightness"
#define LED_WAN_BLUE_BLINKTIMEON "/sys/class/leds/modem_b_led/delay_on"
#define LED_WAN_GREEN_BRIGHTNESS "/sys/class/leds/modem_g_led/brightness"
#define LED_WAN_GREEN_BLINKTIMEON "/sys/class/leds/modem_g_led/delay_on"
#define LED_BATTERY_GREEN_BRIGHTNESS "/sys/class/leds/battery_g_led/brightness"
#define LED_BATTERY_GREEN_BLINKTIMEON "/sys/class/leds/battery_g_led/delay_on"
#define LED_BATTERY_RED_BRIGHTNESS "/sys/class/leds/battery_r_led/brightness"
#define LED_BATTERY_RED_BLINKTIMEON "/sys/class/leds/battery_r_led/delay_on"
#define LED_SMS_BLUE_BRIGHTNESS "/sys/class/leds/sms_led/brightness"
#define LED_SMS_BLUE_BLINKTIMEON "/sys/class/leds/sms_led/delay_on"
#define LED_LAN_BLUE_BRIGHTNESS "/sys/class/leds/wifi_led/brightness"
#define LED_LAN_BLUE_BLINKTIMEON "/sys/class/leds/wifi_led/delay_on"
static int readfile(const char *path, char * buf, int len)
{
FILE *fp = NULL;
int cnt = -1;;
if (NULL == path || NULL == buf)
return -1;
if ( (fp = fopen (path, "rb")) == NULL) {
at_print(AT_ERR, "%s can not be open\n", path);
cnt = -1;
goto err;
}
cnt = fread (buf, 1, len, fp);
if (cnt < 0) {
at_print(AT_ERR, "%s read failed \n", path);
cnt = -1;
goto err;
}
err:
if (fp != NULL)
fclose(fp);
return cnt;
}
static int autotest_led_get(char *fileled, char *fileact)
{
int ledstat_i = 0;
char ledstat_s[4] = {0};
if (access(fileact, F_OK) == 0){
ledstat_i = 2;
} else {
readfile(fileled, ledstat_s, sizeof(ledstat_s) - 1);
ledstat_i = atoi(ledstat_s);
}
return ledstat_i;
}
/*
AT+KEYEVENT=<code>,<value>
code: 116 POWER; 117 WPS; 118 RESET;
value: 0 up; 1 down; 2 long press;
AT+TKEYEVENT=116,1
OK
AT+TKEYEVENT=116,0
OK
AT+TKEYEVENT=117,1
OK
sleep:4
AT+TKEYEVENT=117,2
OK
+TKEYEVENT: WPS ACTIVED
AT+TKEYEVENT=117,0
OK
*/
int autotest_keyset_req(int at_fd, char *at_paras, void ** res_msg, int *res_msglen)
{
autotest_key_rspmsg param = {0};
CHAR *p[2] = {&param.code, &param.value};
int fd = -1;
struct input_event event = {0};
unsigned char *buf = NULL;
parse_param2("%d,%d", at_paras, p);
at_print(AT_NORMAL, "autotest_keyset_req key code:%d,value:%d\n",param.code,param.value);
buf = malloc(sizeof(struct input_event));
if(buf == NULL) {
*res_msg = at_err_build(ATERR_PROC_FAILED);
*res_msglen = strlen(*res_msg);
return AT_END;
}
fd = open(KPD_PATH, O_WRONLY|O_SYNC);
if (fd == -1) {
free(buf);
*res_msg = at_err_build(ATERR_PROC_FAILED);
*res_msglen = strlen(*res_msg);
return AT_END;
}
event.type = 1; //EV_KEY
event.code = (unsigned short)param.code;
event.value = param.value;
memcpy(buf, &event, sizeof(struct input_event));//klocwork
if (write(fd, /*&event*/buf, sizeof(struct input_event)) != sizeof(struct input_event)) {
close(fd);
free(buf);
*res_msg = at_err_build(ATERR_PROC_FAILED);
*res_msglen = strlen(*res_msg);
return AT_END;
}
event.type = 0; //EV_SYN
event.code = 0;
event.value = 0;
memcpy(buf, &event, sizeof(struct input_event));//klocwork
if (write(fd, /*&event*/buf, sizeof(struct input_event)) != sizeof(struct input_event)) {
close(fd);
free(buf);
*res_msg = at_err_build(ATERR_PROC_FAILED);
*res_msglen = strlen(*res_msg);
return AT_END;
}
close(fd);
free(buf);
*res_msg = at_ok_build();
*res_msglen = strlen(*res_msg);
return AT_END;
#if 0
autotest_key_rspmsg *param = malloc(sizeof(autotest_key_rspmsg));
assert(param);
CHAR *p[2] = {&param->code,&param->value};
memset(param, 0, sizeof(autotest_key_rspmsg));
parse_param2("%d,%d", at_paras, p);
at_print(AT_NORMAL, "autotest_keyset_req key code:%d,value:%d\n",param->code,param->value);
*res_msg = param;
*res_msglen = sizeof(autotest_key_rspmsg);
return AT_END_AND_MSG;
#endif
}
/*
AT+TCPUSTATUS?
+TCPUSTATUS: 0.0% USR 9.0% SYS 0.0% NIC 90.9% IDLE 0.0% IO 0.0% IRQ 0.0% SIRQ
OK
*/
int autotest_cpuget_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
char *tmp_str = NULL;
tmp_str = malloc(AT_CMD_MAX);
if (tmp_str != NULL) {
char *cpu_ptr = NULL;
char *cpu_end = NULL;
system("top -n 1 > /tmp/cputop");
memset(tmp_str, 0, AT_CMD_MAX);
readfile("/tmp/cputop", tmp_str, AT_CMD_MAX - 1);
tmp_str[AT_CMD_MAX - 1] = '\0';
if ((cpu_ptr = strstr(tmp_str, "CPU: ")) != NULL &&
(cpu_end = strstr(tmp_str, "\nLoad average:")) != NULL) {
cpu_ptr += strlen("CPU: ");
*cpu_end = 0;
*res_msg = at_query_result_build("TCPUSTATUS",cpu_ptr);
} else {
*res_msg = at_err_build(ATERR_PROC_FAILED);
}
free(tmp_str);
} else {
*res_msg = at_err_build(ATERR_MEM_LESS);
}
if(*res_msg)
*res_msglen = strlen(*res_msg);
return AT_END;
}
/*+TLEDSTATUS: <tpye>,<stat>,<color>;...
tpye: 0 battery; 1 network; 2 sms; 3 wifi
stat: 0 off; 1 on; 2 blink
color: 0 null/off; 1 red; 2 green; 3 blue;
AT+TLEDSTATUS?
+TLEDSTATUS: 0,1,2;1,0,0;2,0,0;3,0,0
OK
*/
int autotest_ledget_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
char led_str[36] = {0};
int ledstat = 0;
int ledcolor = 0;
int len = 0;
//char *net_led = LED_WAN_BLUE_BRIGHTNESS;
//char *net_act = LED_WAN_BLUE_BLINKTIMEON;
int net_color = 3;
char cus_type[20] = {0};
sc_cfg_get("customer_type",cus_type,sizeof(cus_type));
/*
if(0 == strcmp(cus_type, "sdk_min")) {
net_led = LED_WAN_GREEN_BRIGHTNESS;
net_act = LED_WAN_GREEN_BLINKTIMEON;
net_color = 2;
}
*/
//battery
ledstat = autotest_led_get(LED_BATTERY_GREEN_BRIGHTNESS, LED_BATTERY_GREEN_BLINKTIMEON);
if (ledstat) {
ledcolor = 2;
} else {
ledstat = autotest_led_get(LED_BATTERY_RED_BRIGHTNESS, LED_BATTERY_RED_BLINKTIMEON);
if (ledstat) {
ledcolor = 1;
}
}
len = strlen(led_str);
snprintf(led_str + len, sizeof(led_str) - len, "0,%d,%d;", ledstat, ledcolor);
//network
ledcolor = 0;
//ledstat = autotest_led_get(net_led, net_act);
if(0 == strcmp(cus_type, "sdk_min")) {
ledstat = autotest_led_get(LED_WAN_GREEN_BRIGHTNESS, LED_WAN_GREEN_BLINKTIMEON);
net_color = 2;
}// kw OVERWRITE_CONST_CHAR
else
{
ledstat = autotest_led_get(LED_WAN_BLUE_BRIGHTNESS, LED_WAN_BLUE_BLINKTIMEON);
}
if (ledstat) {
ledcolor = net_color;
} else {
ledstat = autotest_led_get(LED_WAN_RED_BRIGHTNESS, LED_WAN_RED_BLINKTIMEON);
if (ledstat) {
ledcolor = 1;
}
}
len = strlen(led_str);
snprintf(led_str + len, sizeof(led_str) - len, "1,%d,%d;", ledstat, ledcolor);
//sms
ledcolor = 0;
ledstat = autotest_led_get(LED_SMS_BLUE_BRIGHTNESS, LED_SMS_BLUE_BLINKTIMEON);
if (ledstat) {
ledcolor = net_color;
}
len = strlen(led_str);
snprintf(led_str + len, sizeof(led_str) - len, "2,%d,%d;", ledstat, ledcolor);
//wifi
ledcolor = 0;
ledstat = autotest_led_get(LED_LAN_BLUE_BRIGHTNESS, LED_LAN_BLUE_BLINKTIMEON);
if (ledstat) {
ledcolor = net_color;
}
len = strlen(led_str);
snprintf(led_str + len, sizeof(led_str) - len, "3,%d,%d", ledstat, ledcolor);
*res_msg = at_query_result_build("TLEDSTATUS",led_str);
//*res_msg = at_err_build(ATERR_PROC_FAILED);
*res_msglen = strlen(*res_msg);
return AT_END;
}
#define LED_SIGNAL1_BLUE_BRIGHTNESS "/sys/class/leds/4g_1_led/brightness"
#define LED_SIGNAL1_BLUE_BLINKTIMEON "/sys/class/leds/4g_1_led/delay_on"
#define LED_SIGNAL2_BLUE_BRIGHTNESS "/sys/class/leds/4g_2_led/brightness"
#define LED_SIGNAL2_BLUE_BLINKTIMEON "/sys/class/leds/4g_2_led/delay_on"
#define LED_SIGNAL3_BLUE_BRIGHTNESS "/sys/class/leds/4g_3_led/brightness"
#define LED_SIGNAL3_BLUE_BLINKTIMEON "/sys/class/leds/4g_3_led/delay_on"
#define LED_SIGNAL4_BLUE_BRIGHTNESS "/sys/class/leds/4g_4_led/brightness"
#define LED_SIGNAL4_BLUE_BLINKTIMEON "/sys/class/leds/4g_4_led/delay_on"
#define LED_SIGNAL5_BLUE_BRIGHTNESS "/sys/class/leds/4g_5_led/brightness"
#define LED_SIGNAL5_BLUE_BLINKTIMEON "/sys/class/leds/4g_5_led/delay_on"
#define LED_WPS_BLUE_BRIGHTNESS "/sys/class/leds/wps_led/brightness"
#define LED_WPS_BLUE_BLINKTIMEON "/sys/class/leds/wps_led/delay_on"
#define LED_RJ11_BLUE_BRIGHTNESS "/sys/class/leds/rj11_led/brightness"
#define LED_RJ11_BLUE_BLINKTIMEON "/sys/class/leds/rj11_led/delay_on"
/*
cpe switch
+TLEDSTATUS: <tpye>,<stat>,<color>;...
tpye: 0 signal; 1 network; 2 wps; 3 wifi; 4 rj11
stat: 0 off; 1 on; 2 blink (signal 1 1led, 2 2led, 3 3led, 4 4led, 5 5led, 12 1led blink)
color: 0 null/off; 1 red; 2 green; 3 blue;
AT+TLEDSTATUS?
+TLEDSTATUS: 0,1,2;1,0,0;2,0,0;3,0,0
OK
*/
int autotest_ledget_cpesw_req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
char led_str[36] = {0};
int ledstat = 0;
int ledcolor = 0;
int len = 0;
//signal
ledcolor = 0;
if ((ledstat = autotest_led_get(LED_SIGNAL5_BLUE_BRIGHTNESS, LED_SIGNAL5_BLUE_BLINKTIMEON)) > 0) {
ledstat = 5;
ledcolor = 3;
} else if ((ledstat = autotest_led_get(LED_SIGNAL4_BLUE_BRIGHTNESS, LED_SIGNAL4_BLUE_BLINKTIMEON)) > 0) {
ledstat = 4;
ledcolor = 3;
} else if ((ledstat = autotest_led_get(LED_SIGNAL3_BLUE_BRIGHTNESS, LED_SIGNAL3_BLUE_BLINKTIMEON)) > 0) {
ledstat = 3;
ledcolor = 3;
} else if ((ledstat = autotest_led_get(LED_SIGNAL2_BLUE_BRIGHTNESS, LED_SIGNAL2_BLUE_BLINKTIMEON)) > 0) {
ledstat = 2;
ledcolor = 3;
} else if ((ledstat = autotest_led_get(LED_SIGNAL1_BLUE_BRIGHTNESS, LED_SIGNAL1_BLUE_BLINKTIMEON)) > 0) {
if (ledstat == 2)
ledstat = 12;
else
ledstat = 1;
ledcolor = 3;
}
len = strlen(led_str);
snprintf(led_str + len, sizeof(led_str) - len, "0,%d,%d;", ledstat, ledcolor);
//network
ledcolor = 0;
ledstat = autotest_led_get(LED_WAN_BLUE_BRIGHTNESS, LED_WAN_BLUE_BLINKTIMEON);
if (ledstat) {
ledcolor = 3;
} else {
ledstat = autotest_led_get(LED_WAN_RED_BRIGHTNESS, LED_WAN_RED_BLINKTIMEON);
if (ledstat) {
ledcolor = 1;
}
}
len = strlen(led_str);
snprintf(led_str + len, sizeof(led_str) - len, "1,%d,%d;", ledstat, ledcolor);
//wps
ledcolor = 0;
ledstat = autotest_led_get(LED_WPS_BLUE_BRIGHTNESS, LED_WPS_BLUE_BLINKTIMEON);
if (ledstat) {
ledcolor = 3;
}
len = strlen(led_str);
snprintf(led_str + len, sizeof(led_str) - len, "2,%d,%d;", ledstat, ledcolor);
//wifi
ledcolor = 0;
ledstat = autotest_led_get(LED_LAN_BLUE_BRIGHTNESS, LED_LAN_BLUE_BLINKTIMEON);
if (ledstat) {
ledcolor = 3;
}
len = strlen(led_str);
snprintf(led_str + len, sizeof(led_str) - len, "3,%d,%d;", ledstat, ledcolor);
//rj11
ledcolor = 0;
ledstat = autotest_led_get(LED_RJ11_BLUE_BRIGHTNESS, LED_RJ11_BLUE_BLINKTIMEON);
if (ledstat) {
ledcolor = 3;
}
len = strlen(led_str);
snprintf(led_str + len, sizeof(led_str) - len, "4,%d,%d", ledstat, ledcolor);
*res_msg = at_query_result_build("TLEDSTATUS", led_str);
*res_msglen = strlen(*res_msg);
return AT_END;
}
#endif
extern UINT8 Sim_Inserted;
int zCardSwitch_Set_Req(int at_fd,char * at_paras,void * *res_msg,int * res_msglen)
{
int32_t simCardFlag = 0;
unsigned long retCode = CPNV_ERROR;
int32_t SimInserted = 0;
int ret = 0;
char *p[] = {
&simCardFlag,
&cardSlotFlag,
};
ret = parse_param("%d,%d", at_paras, p);
if (ret != AT_PARSE_OK) // cov M
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
at_print(AT_DEBUG,"zCardSwitch_Set_Req:simCardFlag == %d\n", simCardFlag);
if(simCardFlag < 0 || simCardFlag > 6) //0 = UICC_CARD, 1 = VSIM_CARD, 2 = UICC_VSIM_AUTO, 3 = UICC_ESIM_CARD,4 = CLOUD_CARD,5 =SOFTSIM_CARD
{
*res_msg = at_err_build(ATERR_PARAM_INVALID);
*res_msglen = strlen(*res_msg);
return AT_END;
}
#ifdef USE_DSDS_VSIM
if (simCardFlag == 0)
{
simCardFlag = 0;
}
else if (simCardFlag == 1)
{
simCardFlag = 4;
}
else if (simCardFlag == 2)
{
simCardFlag = 5;
}
else if (simCardFlag == 3)
{
simCardFlag = 1;
}
#endif
at_print(AT_DEBUG,"zCardSwitch_Set_Req:simCardFlag transform == %d\n", simCardFlag);
if(1 == cardSlotFlag)
{
retCode = cpnv_NvItemWrite(DRV_SYS_NV_ITEM_ADDR(uicc1PreSwitch), (unsigned char *)(&simCardFlag), DRV_SYS_NV_ITEM_SIZE(uicc1PreSwitch));
}
else
{
retCode = cpnv_NvItemWrite(DRV_SYS_NV_ITEM_ADDR(uiccPreSwitch), (unsigned char *)(&simCardFlag), DRV_SYS_NV_ITEM_SIZE(uiccPreSwitch));
}
if (CPNV_OK == retCode)
{
retCode= cpnv_NvramFlush();
}
if (retCode == CPNV_OK)
{
*res_msg = at_ok_build();
}
else
{
*res_msg = at_err_build(retCode);
}
*res_msglen = strlen(*res_msg);
return AT_END;
}
int zCardSwitch_Get_Req(int at_fd, char *at_paras,void ** res_msg, int *res_msglen)
{
int32_t simCard0Flag = 0;
int32_t simCard1Flag = 0;
int32_t simCard0PreFlag = 0;
int32_t simCard1PreFlag = 0;
unsigned long retCode = CPNV_ERROR;
char tmp[100];
if (cardSlotFlag == 1)
{
retCode = cpnv_NvItemRead(DRV_SYS_NV_ITEM_ADDR(uicc1modeSwitch), (unsigned char *)(&simCard1Flag), DRV_SYS_NV_ITEM_SIZE(uicc1modeSwitch));
retCode = cpnv_NvItemRead(DRV_SYS_NV_ITEM_ADDR(uicc1PreSwitch), (unsigned char *)(&simCard1PreFlag), DRV_SYS_NV_ITEM_SIZE(uicc1PreSwitch));
}
retCode = cpnv_NvItemRead(DRV_SYS_NV_ITEM_ADDR(uiccmodeSwitch), (unsigned char *)(&simCard0Flag), DRV_SYS_NV_ITEM_SIZE(uiccmodeSwitch));
retCode = cpnv_NvItemRead(DRV_SYS_NV_ITEM_ADDR(uiccPreSwitch), (unsigned char *)(&simCard0PreFlag), DRV_SYS_NV_ITEM_SIZE(uiccPreSwitch));
#ifdef USE_DSDS_VSIM
if (cardSlotFlag == 1)
{
if (simCard1Flag == 0)
{
simCard1Flag = 0;
}
else if (simCard1Flag == 4)
{
simCard1Flag = 1;
}
else if (simCard1Flag == 5)
{
simCard1Flag = 2;
}
else if (simCard1Flag == 1)
{
simCard1Flag = 3;
}
if (simCard1PreFlag == 0)
{
simCard1PreFlag = 0;
}
else if (simCard1PreFlag == 4)
{
simCard1PreFlag = 1;
}
else if (simCard1PreFlag == 5)
{
simCard1PreFlag = 2;
}
else if (simCard1PreFlag == 1)
{
simCard1PreFlag = 3;
}
}
if (simCard0Flag == 0)
{
simCard0Flag = 0;
}
else if (simCard0Flag == 4)
{
simCard0Flag = 1;
}
else if (simCard0Flag == 5)
{
simCard0Flag = 2;
}
else if (simCard0Flag == 1)
{
simCard0Flag = 3;
}
if (simCard0PreFlag == 0)
{
simCard0PreFlag = 0;
}
else if (simCard0PreFlag == 4)
{
simCard0PreFlag = 1;
}
else if (simCard0PreFlag == 5)
{
simCard0PreFlag = 2;
}
else if (simCard0PreFlag == 1)
{
simCard0PreFlag = 3;
}
#endif
if (CPNV_ERROR == retCode)
{
*res_msg = at_err_build(retCode);
}
else
{
if (cardSlotFlag == 1)
{
snprintf(tmp,sizeof(tmp),"%d,%d,%d,%d,%d",simCard0PreFlag, simCard0Flag, simCard1PreFlag, simCard1Flag, cardSlotFlag);
}
else
{
snprintf(tmp,sizeof(tmp),"%d,%d",simCard0PreFlag, simCard0Flag);
}
*res_msg = at_query_result_build("ZCARDSWITCH", tmp);
}
*res_msglen = strlen(*res_msg);
return AT_END;
}
int ext_normal_regist(void)
{
char mmi_nv_value[32] = {0};
//ÅжϿͻ§ÀàÐÍ
if(!ext_is_usermode())
{
char needInit[20] = {0};
sc_cfg_get("customer_type",needInit,sizeof(needInit));
if(0 != strcmp(needInit, "v3modem"))
{
register_serv_func2("znvset=",0,0,0,znvset_req_func,NULL);
register_serv_func2("znvget=",0,0,0,znvget_req_func,NULL);
}
//USBģʽÇл»ÃüÁî
register_serv_func2("ZUSBMODE=",0,0,0,zusbmodeSet_req,NULL);
//ÓÃatÃüÁîÖ´ÐÐshellÃüÁÊäÈëµÄ²ÎÊý²»ÐèÒª´øË«ÒýºÅ
register_serv_func2("shell=",0,0,0,ext_atshell_req,NULL);
}
//¹¤×÷ģʽÇл»
register_serv_func2("zlanenable?",0,0,0,zlanenableGet_req,NULL);
register_serv_func2("zlanenable=",0,0,0,zlanenableSet_req,NULL);
#ifndef CONFIG_MIN_8M_VERSION
if(!ext_is_usermode())
{
//¿ØÖÆtelnetÆô¶¯
register_serv_func2("ztelnet?",0,0,0,ztelnetGet_req,NULL);
register_serv_func2("ztelnet=",0,0,0,ztelnetSet_req,NULL);
}
register_serv_func2("zpppstatus?",0,0,0,zppptatusGet_req,NULL);
//SALESTAT
register_serv_func2("salestat=",0,0,0,salestatSet_req,NULL);
register_serv_func2("salestat?",0,0,0,salestatGet_req,NULL);
//CP֪ͨAP·¢Éú´íÎó
register_serv_func2("CPERR=",0,0,0, zerrSet_req,NULL);
register_serv_func2("zautorspset=",0,0,0,zautorspSet_req,NULL);
//ÉèÖýÓÊÕ¸ÃÀ©Õ¹ÃüÁîµÄͨµÀÖ÷¶¯Éϱ¨ÊôÐÔ
register_serv_func2("ZISSENDAUTO=",0,0,0,modAutoInd_act_func,NULL);
//»ñȡƽ̨ÐÅÏ¢
register_serv_func2("ZSOFTAPINFO",0,0,0,ext_softap_info_req,NULL);
//LOGÊä³öµ½AT¿Ú
register_serv_func2("ZSETOUT=",0,0,0,ext_log_stdout_req,NULL);
//ÉèÖÃÍⲿMCUÐèÒªµÄÖ÷¶¯Éϱ¨ÃüÁî ʾÀý£ºAT+ZNEEDIND=+CREG+CSQ
register_serv_func2("ZNEEDIND=",0,0,0,zindcmd_set_func,NULL);
//ÍⲿËø¿ªÆôÊÍ·ÅÃüÁî
register_serv_func("ZWORKLOCK=", 0, ext_worklock_set_func);
#endif
register_serv_func2("ZCARDSWITCH=",0,0,0,zCardSwitch_Set_Req,NULL);
register_serv_func2("ZCARDSWITCH?",0,0,0,zCardSwitch_Get_Req,NULL);
//register_fwd_func("zmode=",zmode_req_rcv_act,NULL,NULL);
register_serv_func2("zmode?",0,0,0,zmodeGet_req,NULL);
register_serv_func2("plugout=",0,0,0,plugoutSet_req,NULL);
//Íø¿ÚÇл»
register_serv_func2("znetcardtype=",0,0,0,znetcardtypeSet_req,NULL);
register_serv_func2("znetcardtype?",0,0,0,znetcardtypeGet_req,NULL);
register_fwd_func("PCFC=",ext_pcfc_set_func,NULL,NULL);
#ifndef CONFIG_MIN_8M_VERSION//def _ENABLE_AUTOTEST
//×Ô¶¯»¯²âÊÔ ---KEYEVENT=ºÍphoneÖØÃû
//register_serv_func2("TKEYEVENT=",MODULE_ID_MMI, MSG_CMD_AUTOTEST_KEY_REQ, 0, autotest_keyset_req, NULL);
register_serv_func2("TKEYEVENT=",0,0,0,autotest_keyset_req,NULL);
register_serv_func2("TCPUSTATUS?",0,0,0,autotest_cpuget_req,NULL);
sc_cfg_get("mmi_led_plan", mmi_nv_value, sizeof(mmi_nv_value));
if (0 == strcmp(mmi_nv_value, "yaoyuan")) {
register_serv_func2("TLEDSTATUS?",0,0,0,autotest_ledget_cpesw_req,NULL);
} else {
register_serv_func2("TLEDSTATUS?",0,0,0,autotest_ledget_req,NULL);
}
#endif
return 0;
}
#endif