609 lines
19 KiB
Bash
Executable File
609 lines
19 KiB
Bash
Executable File
#!/bin/sh
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current_dir="$(dirname "$0")"
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#获取拨号模式
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# $1:AT串口
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get_fibocom_mode()
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{
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local at_port="$1"
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local at_command="AT+GTUSBMODE?"
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local mode_num=$(sh $current_dir/modem_at.sh $at_port $at_command | sed -n '2p' | sed 's/+GTUSBMODE: //g' | sed 's/\r//g')
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local mode
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case "$mode_num" in
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"17") mode="qmi" ;; #-
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"31") mode="qmi" ;; #-
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"32") mode="qmi" ;;
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# "32") mode="gobinet" ;;
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"18") mode="ecm" ;;
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"23") mode="ecm" ;; #-
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"33") mode="ecm" ;; #-
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"29") mode="mbim" ;; #-
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"30") mode="mbim" ;;
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"24") mode="rndis" ;;
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"18") mode='ncm' ;;
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*) mode="$mode_num" ;;
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esac
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echo "$mode"
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}
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#获取SIM卡状态
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get_fibocom_sim_status()
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{
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debug "检查SIM状态"
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local sim_status
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local at_command="AT+CPIN?"
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local response=$(sh $current_dir/modem_at.sh $at_port $at_command)
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local sim_error=$(echo "$response" | grep "ERROR")
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if [ -n "$sim_error" ]; then
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debug "未插入SIM卡"
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sim_status="miss"
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return
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fi
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local sim_ready=$(echo "$response" | grep "READY")
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if [ -n "$sim_ready" ]; then
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debug "SIM卡正常"
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sim_status="ready"
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else
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debug "SIM卡被锁定"
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sim_status="locked"
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return
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fi
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echo "$sim_status"
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}
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#基本信息
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fibocom_base_info()
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{
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debug "Fibocom base info"
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local at_command="ATI"
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local response=$(sh $current_dir/modem_at.sh $at_port $at_command)
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#名称
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name=$(echo "$response" | sed -n '3p' | sed 's/Model: //g' | sed 's/\r//g')
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#制造商
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manufacturer=$(echo "$response" | sed -n '2p' | sed 's/Manufacturer: //g' | sed 's/\r//g')
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#固件版本
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revision=$(echo "$response" | sed -n '4p' | sed 's/Revision: //g' | sed 's/\r//g')
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#拨号模式
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mode=$(get_fibocom_mode $at_port | tr 'a-z' 'A-Z')
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#温度
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at_command="AT+MTSM=1,6"
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response=$(sh $current_dir/modem_at.sh $at_port $at_command | sed -n '2p' | sed 's/+MTSM: //g' | sed 's/\r//g')
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if [ -n "$response" ]; then
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temperature="$response$(printf "\xc2\xb0")C"
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fi
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}
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#SIM卡信息
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fibocom_sim_info()
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{
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debug "Fibocom sim info"
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#ISP(互联网服务提供商)
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local at_command="AT+COPS?"
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isp=$(sh $current_dir/modem_at.sh $at_port $at_command | sed -n '2p' | awk -F'"' '{print $2}')
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# if [ "$isp" = "CHN-CMCC" ] || [ "$isp" = "CMCC" ]|| [ "$isp" = "46000" ]; then
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# isp="中国移动"
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# elif [ "$isp" = "CHN-UNICOM" ] || [ "$isp" = "UNICOM" ] || [ "$isp" = "46001" ]; then
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# isp="中国联通"
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# elif [ "$isp" = "CHN-CT" ] || [ "$isp" = "CT" ] || [ "$isp" = "46011" ]; then
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# isp="中国电信"
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# fi
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#IMEI
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at_command="AT+CGSN"
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imei=$(sh $current_dir/modem_at.sh $at_port $at_command | sed -n '2p' | sed 's/\r//g')
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#IMSI
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at_command="AT+CIMI"
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imsi=$(sh $current_dir/modem_at.sh $at_port $at_command | sed -n '2p' | sed 's/\r//g')
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#ICCID
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at_command="AT+ICCID"
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iccid=$(sh $current_dir/modem_at.sh $at_port $at_command | grep -o "+ICCID:[ ]*[-0-9]\+" | grep -o "[-0-9]\{1,4\}")
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#SIM卡号码(手机号)
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at_command="AT+CNUM?"
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sim_number=$(sh $current_dir/modem_at.sh $at_port $at_command | sed -n '2p' | awk -F'"' '{print $2}')
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}
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#网络信息
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fibocom_network_info()
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{
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debug "Fibocom network info"
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#Network Type(网络类型)
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local at_command="AT+PSRAT?"
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network_type=$(sh $current_dir/modem_at.sh $at_port $at_command | sed -n '2p' | sed 's/+PSRAT: //g' | sed 's/\r//g')
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# #CSQ
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# local at_command="AT+CSQ"
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# csq=$(sh $current_dir/modem_at.sh $at_port $at_command | sed -n '2p' | awk -F'[ ,]+' '{print $2}')
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# if [ $CSQ = "99" ]; then
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# csq=""
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# fi
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# #PER(信号强度)
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# if [ -n "$csq" ]; then
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# per=$(($csq * 100/31))"%"
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# fi
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# #RSSI(信号接收强度)
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# if [ -n "$csq" ]; then
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# rssi=$((2 * $csq - 113))" dBm"
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# fi
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}
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#获取上行带宽
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# $1:上行带宽数字
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get_ul_bandwidth()
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{
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local ul_bandwidth
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case $1 in
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"6") ul_bandwidth="1.4" ;;
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"15"|"25"|"50"|"75"|"100") ul_bandwidth=$(( $1 / 5 )) ;;
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esac
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echo "$ul_bandwidth"
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}
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#获取下行带宽
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# $1:下行带宽数字
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get_dl_bandwidth()
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{
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local dl_bandwidth
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case $1 in
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"6") ul_bandwidth="1.4" ;;
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"15"|"25"|"50"|"75"|"100") ul_bandwidth=$(( $1 / 5 )) ;;
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esac
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echo "$dl_bandwidth"
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}
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#获取NR下行带宽
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# $1:下行带宽数字
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get_nr_dl_bandwidth()
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{
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local nr_dl_bandwidth
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case $1 in
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"0") nr_dl_bandwidth="5" ;;
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"10"|"15"|"20"|"25"|"30"|"40"|"50"|"60"|"70"|"80"|"90"|"100"|"200"|"400") nr_dl_bandwidth="$1" ;;
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esac
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echo "$nr_dl_bandwidth"
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}
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#获取参考信号接收功率
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# $1:网络类型
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# $2:参考信号接收功率数字
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get_rsrp()
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{
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local rsrp
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case $1 in
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"LTE") rsrp=$(($2-141)) ;;
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"NR") rsrp=$(($2-157)) ;;
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esac
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echo "$rsrp"
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}
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#获取参考信号接收质量
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# $1:网络类型
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# $2:参考信号接收质量数字
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get_rsrq()
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{
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local rsrq
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case $1 in
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"LTE") rsrq=$(awk 'BEGIN{ printf "%.2f", $2 * 0.5 - 20 }' | sed 's/\.*0*$//') ;;
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"NR") rsrq=$(awk -v num="$2" 'BEGIN{ printf "%.2f", (num+1) * 0.5 - 44 }' | sed 's/\.*0*$//') ;;
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esac
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echo "$rsrq"
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}
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#获取信号干扰比
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# $1:信号干扰比数字
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get_rssnr()
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{
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#去掉小数点后的0
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local rssnr=$(awk 'BEGIN{ printf "%.2f", $1 / 2 }' | sed 's/\.*0*$//')
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echo "$rssnr"
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}
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#获取接收信号功率
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# $1:网络类型
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# $2:接收信号功率数字
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get_rxlev()
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{
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local rxlev
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case $1 in
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"WCDMA") rxlev=$(($2-121)) ;;
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"LTE") rxlev=$(($2-141)) ;;
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"NR") rxlev=$(($2-157)) ;;
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esac
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echo "$rxlev"
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}
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#网络信息
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fibocom_cell_info()
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{
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debug "Fibocom cell info"
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#RSRQ,RSRP,SINR
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at_command='AT+GTCCINFO?'
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local response=$(sh $current_dir/modem_at.sh $at_port $at_command)
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local rat=$(echo "$response" | grep "service" | awk -F' ' '{print $1}')
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response=$(echo "$response" | sed -n '4p')
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case $rat in
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"NR")
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network_mode="NR5G-SA Mode"
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nr_mcc=$(echo "$response" | awk -F',' '{print $3}')
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nr_mnc=$(echo "$response" | awk -F',' '{print $4}')
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nr_tac=$(echo "$response" | awk -F',' '{print $5}')
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nr_cell_id=$(echo "$response" | awk -F',' '{print $6}')
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nr_arfcn=$(echo "$response" | awk -F',' '{print $7}')
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nr_physical_cell_id=$(echo "$response" | awk -F',' '{print $8}')
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nr_band=$(echo "$response" | awk -F',' '{print $9}')
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nr_dl_bandwidth_num=$(echo "$response" | awk -F',' '{print $10}')
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nr_dl_bandwidth=$(get_nr_dl_bandwidth $nr_dl_bandwidth_num)
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nr_sinr=$(echo "$response" | awk -F',' '{print $11}')
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nr_rxlev_num=$(echo "$response" | awk -F',' '{print $12}')
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nr_rxlev=$(get_rxlev "NR" $nr_rxlev_num)
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nr_rsrp_num=$(echo "$response" | awk -F',' '{print $13}')
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nr_rsrp=$(get_rsrp "NR" $nr_rsrp_num)
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nr_rsrq_num=$(echo "$response" | awk -F',' '{print $14}' | sed 's/\r//g')
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nr_rsrq=$(get_rsrq "NR" $nr_rsrq_num)
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;;
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"LTE-NR")
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network_mode="EN-DC Mode"
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#LTE
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endc_lte_mcc=$(echo "$response" | awk -F',' '{print $3}')
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endc_lte_mnc=$(echo "$response" | awk -F',' '{print $4}')
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endc_lte_tac=$(echo "$response" | awk -F',' '{print $5}')
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endc_lte_cell_id=$(echo "$response" | awk -F',' '{print $6}')
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endc_lte_earfcn=$(echo "$response" | awk -F',' '{print $7}')
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endc_lte_physical_cell_id=$(echo "$response" | awk -F',' '{print $8}')
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endc_lte_band=$(echo "$response" | awk -F',' '{print $9}')
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ul_bandwidth_num=$(echo "$response" | awk -F',' '{print $10}')
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endc_lte_ul_bandwidth=$(get_ul_bandwidth $ul_bandwidth_num)
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endc_lte_dl_bandwidth="$endc_lte_ul_bandwidth"
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endc_lte_rssnr_num=$(echo "$response" | awk -F',' '{print $11}')
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endc_lte_rssnr=$(get_rssnr $endc_lte_rssnr_num)
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endc_lte_rxlev_num=$(echo "$response" | awk -F',' '{print $12}')
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endc_lte_rxlev=$(get_rxlev "LTE" $endc_lte_rxlev_num)
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endc_lte_rsrp_num=$(echo "$response" | awk -F',' '{print $13}')
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endc_lte_rsrp=$(get_rsrp "LTE" $endc_lte_rsrp_num)
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endc_lte_rsrq_num=$(echo "$response" | awk -F',' '{print $14}' | sed 's/\r//g')
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endc_lte_rsrq=$(get_rsrq "LTE" $endc_lte_rsrq_num)
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#NR5G-NSA
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endc_nr_mcc=$(echo "$response" | awk -F',' '{print $3}')
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endc_nr_mnc=$(echo "$response" | awk -F',' '{print $4}')
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endc_nr_tac=$(echo "$response" | awk -F',' '{print $5}')
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endc_nr_cell_id=$(echo "$response" | awk -F',' '{print $6}')
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endc_nr_arfcn=$(echo "$response" | awk -F',' '{print $7}')
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endc_nr_physical_cell_id=$(echo "$response" | awk -F',' '{print $8}')
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endc_nr_band=$(echo "$response" | awk -F',' '{print $9}')
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nr_dl_bandwidth_num=$(echo "$response" | awk -F',' '{print $10}')
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endc_nr_dl_bandwidth=$(get_nr_dl_bandwidth $nr_dl_bandwidth_num)
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endc_nr_sinr=$(echo "$response" | awk -F',' '{print $11}')
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endc_nr_rxlev_num=$(echo "$response" | awk -F',' '{print $12}')
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endc_nr_rxlev=$(get_rxlev "NR" $endc_nr_rxlev_num)
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endc_nr_rsrp_num=$(echo "$response" | awk -F',' '{print $13}')
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endc_nr_rsrp=$(get_rsrp "NR" $endc_nr_rsrp_num)
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endc_nr_rsrq_num=$(echo "$response" | awk -F',' '{print $14}' | sed 's/\r//g')
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endc_nr_rsrq=$(get_rsrq "NR" $endc_nr_rsrq_num)
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;;
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"LTE"|"eMTC"|"NB-IoT")
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network_mode="LTE Mode"
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lte_mcc=$(echo "$response" | awk -F',' '{print $3}')
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lte_mnc=$(echo "$response" | awk -F',' '{print $4}')
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lte_tac=$(echo "$response" | awk -F',' '{print $5}')
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lte_cell_id=$(echo "$response" | awk -F',' '{print $6}')
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lte_earfcn=$(echo "$response" | awk -F',' '{print $7}')
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lte_physical_cell_id=$(echo "$response" | awk -F',' '{print $8}')
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lte_band=$(echo "$response" | awk -F',' '{print $9}')
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ul_bandwidth_num=$(echo "$response" | awk -F',' '{print $10}')
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lte_ul_bandwidth=$(get_ul_bandwidth $ul_bandwidth_num)
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lte_dl_bandwidth="$lte_ul_bandwidth"
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lte_rssnr=$(echo "$response" | awk -F',' '{print $11}')
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lte_rxlev_num=$(echo "$response" | awk -F',' '{print $12}')
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lte_rxlev=$(get_rxlev "LTE" $lte_rxlev_num)
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lte_rsrp_num=$(echo "$response" | awk -F',' '{print $13}')
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lte_rsrp=$(get_rsrp "LTE" $lte_rsrp_num)
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lte_rsrq_num=$(echo "$response" | awk -F',' '{print $14}' | sed 's/\r//g')
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lte_rsrq=$(get_rsrq "LTE" $lte_rsrq_num)
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;;
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"WCDMA"|"UMTS")
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network_mode="WCDMA Mode"
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wcdma_mcc=$(echo "$response" | awk -F',' '{print $3}')
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wcdma_mnc=$(echo "$response" | awk -F',' '{print $4}')
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wcdma_lac=$(echo "$response" | awk -F',' '{print $5}')
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wcdma_cell_id=$(echo "$response" | awk -F',' '{print $6}')
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wcdma_uarfcn=$(echo "$response" | awk -F',' '{print $7}')
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wcdma_psc=$(echo "$response" | awk -F',' '{print $8}')
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wcdma_band=$(echo "$response" | awk -F',' '{print $9}')
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wcdma_ecno=$(echo "$response" | awk -F',' '{print $10}')
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wcdma_rscp=$(echo "$response" | awk -F',' '{print $11}')
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wcdma_rac=$(echo "$response" | awk -F',' '{print $12}')
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wcdma_rxlev_num=$(echo "$response" | awk -F',' '{print $13}')
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wcdma_rxlev=$(get_rxlev "WCDMA" $wcdma_rxlev_num)
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wcdma_reserved=$(echo "$response" | awk -F',' '{print $14}')
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wcdma_ecio=$(echo "$response" | awk -F',' '{print $15}' | sed 's/\r//g')
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;;
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esac
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}
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# fibocom获取基站信息
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Fibocom_Cellinfo()
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{
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#baseinfo.gcom
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OX=$( sh $current_dir/modem_at.sh $at_port "ATI")
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OX=$( sh $current_dir/modem_at.sh $at_port "AT+CGEQNEG=1")
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#cellinfo0.gcom
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# OX1=$( sh $current_dir/modem_at.sh $at_port "AT+COPS=3,0;+COPS?")
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# OX2=$( sh $current_dir/modem_at.sh $at_port "AT+COPS=3,2;+COPS?")
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OX=$OX1" "$OX2
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#cellinfo.gcom
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OY1=$( sh $current_dir/modem_at.sh $at_port "AT+CREG=2;+CREG?;+CREG=0")
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OY2=$( sh $current_dir/modem_at.sh $at_port "AT+CEREG=2;+CEREG?;+CEREG=0")
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OY3=$( sh $current_dir/modem_at.sh $at_port "AT+C5GREG=2;+C5GREG?;+C5GREG=0")
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OY=$OY1" "$OY2" "$OY3
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OXx=$OX
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OX=$(echo $OX | tr 'a-z' 'A-Z')
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OY=$(echo $OY | tr 'a-z' 'A-Z')
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OX=$OX" "$OY
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#debug "$OX"
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#debug "$OY"
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COPS="-"
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COPS_MCC="-"
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COPS_MNC="-"
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COPSX=$(echo $OXx | grep -o "+COPS: [01],0,.\+," | cut -d, -f3 | grep -o "[^\"]\+")
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if [ "x$COPSX" != "x" ]; then
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COPS=$COPSX
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fi
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COPSX=$(echo $OX | grep -o "+COPS: [01],2,.\+," | cut -d, -f3 | grep -o "[^\"]\+")
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if [ "x$COPSX" != "x" ]; then
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COPS_MCC=${COPSX:0:3}
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COPS_MNC=${COPSX:3:3}
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if [ "$COPS" = "-" ]; then
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COPS=$(awk -F[\;] '/'$COPS'/ {print $2}' $ROOTER/signal/mccmnc.data)
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[ "x$COPS" = "x" ] && COPS="-"
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fi
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fi
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if [ "$COPS" = "-" ]; then
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COPS=$(echo "$O" | awk -F[\"] '/^\+COPS: 0,0/ {print $2}')
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if [ "x$COPS" = "x" ]; then
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COPS="-"
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COPS_MCC="-"
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COPS_MNC="-"
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fi
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fi
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COPS_MNC=" "$COPS_MNC
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OX=$(echo "${OX//[ \"]/}")
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CID=""
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CID5=""
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RAT=""
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REGV=$(echo "$OX" | grep -o "+C5GREG:2,[0-9],[A-F0-9]\{2,6\},[A-F0-9]\{5,10\},[0-9]\{1,2\}")
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if [ -n "$REGV" ]; then
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LAC5=$(echo "$REGV" | cut -d, -f3)
|
||
LAC5=$LAC5" ($(printf "%d" 0x$LAC5))"
|
||
CID5=$(echo "$REGV" | cut -d, -f4)
|
||
CID5L=$(printf "%010X" 0x$CID5)
|
||
RNC5=${CID5L:1:6}
|
||
RNC5=$RNC5" ($(printf "%d" 0x$RNC5))"
|
||
CID5=${CID5L:7:3}
|
||
CID5="Short $(printf "%X" 0x$CID5) ($(printf "%d" 0x$CID5)), Long $(printf "%X" 0x$CID5L) ($(printf "%d" 0x$CID5L))"
|
||
RAT=$(echo "$REGV" | cut -d, -f5)
|
||
fi
|
||
REGV=$(echo "$OX" | grep -o "+CEREG:2,[0-9],[A-F0-9]\{2,4\},[A-F0-9]\{5,8\}")
|
||
REGFMT="3GPP"
|
||
if [ -z "$REGV" ]; then
|
||
REGV=$(echo "$OX" | grep -o "+CEREG:2,[0-9],[A-F0-9]\{2,4\},[A-F0-9]\{1,3\},[A-F0-9]\{5,8\}")
|
||
REGFMT="SW"
|
||
fi
|
||
if [ -n "$REGV" ]; then
|
||
LAC=$(echo "$REGV" | cut -d, -f3)
|
||
LAC=$(printf "%04X" 0x$LAC)" ($(printf "%d" 0x$LAC))"
|
||
if [ $REGFMT = "3GPP" ]; then
|
||
CID=$(echo "$REGV" | cut -d, -f4)
|
||
else
|
||
CID=$(echo "$REGV" | cut -d, -f5)
|
||
fi
|
||
CIDL=$(printf "%08X" 0x$CID)
|
||
RNC=${CIDL:1:5}
|
||
RNC=$RNC" ($(printf "%d" 0x$RNC))"
|
||
CID=${CIDL:6:2}
|
||
CID="Short $(printf "%X" 0x$CID) ($(printf "%d" 0x$CID)), Long $(printf "%X" 0x$CIDL) ($(printf "%d" 0x$CIDL))"
|
||
|
||
else
|
||
REGV=$(echo "$OX" | grep -o "+CREG:2,[0-9],[A-F0-9]\{2,4\},[A-F0-9]\{2,8\}")
|
||
if [ -n "$REGV" ]; then
|
||
LAC=$(echo "$REGV" | cut -d, -f3)
|
||
CID=$(echo "$REGV" | cut -d, -f4)
|
||
if [ ${#CID} -gt 4 ]; then
|
||
LAC=$(printf "%04X" 0x$LAC)" ($(printf "%d" 0x$LAC))"
|
||
CIDL=$(printf "%08X" 0x$CID)
|
||
RNC=${CIDL:1:3}
|
||
CID=${CIDL:4:4}
|
||
CID="Short $(printf "%X" 0x$CID) ($(printf "%d" 0x$CID)), Long $(printf "%X" 0x$CIDL) ($(printf "%d" 0x$CIDL))"
|
||
else
|
||
LAC=""
|
||
fi
|
||
else
|
||
LAC=""
|
||
fi
|
||
fi
|
||
REGSTAT=$(echo "$REGV" | cut -d, -f2)
|
||
if [ "$REGSTAT" == "5" -a "$COPS" != "-" ]; then
|
||
COPS_MNC=$COPS_MNC" (Roaming)"
|
||
fi
|
||
if [ -n "$CID" -a -n "$CID5" ] && [ "$RAT" == "13" -o "$RAT" == "10" ]; then
|
||
LAC="4G $LAC, 5G $LAC5"
|
||
CID="4G $CID<br />5G $CID5"
|
||
RNC="4G $RNC, 5G $RNC5"
|
||
elif [ -n "$CID5" ]; then
|
||
LAC=$LAC5
|
||
CID=$CID5
|
||
RNC=$RNC5
|
||
fi
|
||
if [ -z "$LAC" ]; then
|
||
LAC="-"
|
||
CID="-"
|
||
RNC="-"
|
||
fi
|
||
}
|
||
|
||
#获取Fibocom模块信息
|
||
# $1:AT串口
|
||
get_fibocom_info()
|
||
{
|
||
debug "get fibocom info"
|
||
#设置AT串口
|
||
at_port=$1
|
||
|
||
#基本信息
|
||
fibocom_base_info
|
||
|
||
#获取SIM状态
|
||
sim_status=$(get_fibocom_sim_status)
|
||
if [ "$sim_status" != "ready" ];then
|
||
return
|
||
fi
|
||
|
||
#SIM卡信息
|
||
fibocom_sim_info
|
||
#网络信息
|
||
fibocom_network_info
|
||
#小区信息
|
||
fibocom_cell_info
|
||
|
||
return
|
||
# Fibocom_Cellinfo
|
||
|
||
#基站信息
|
||
OX=$( sh $current_dir/modem_at.sh $at_port "AT+CPSI?")
|
||
rec=$(echo "$OX" | grep "+CPSI:")
|
||
w=$(echo $rec |grep "NO SERVICE"| wc -l)
|
||
if [ $w -ge 1 ];then
|
||
debug "NO SERVICE"
|
||
return
|
||
fi
|
||
w=$(echo $rec |grep "NR5G_"| wc -l)
|
||
if [ $w -ge 1 ];then
|
||
|
||
w=$(echo $rec |grep "32768"| wc -l)
|
||
if [ $w -ge 1 ];then
|
||
debug "-32768"
|
||
return
|
||
fi
|
||
|
||
debug "$rec"
|
||
rec1=${rec##*+CPSI:}
|
||
#echo "$rec1"
|
||
MODE="${rec1%%,*}" # MODE="NR5G"
|
||
rect1=${rec1#*,}
|
||
rect1s="${rect1%%,*}" #Online
|
||
rect2=${rect1#*,}
|
||
rect2s="${rect2%%,*}" #460-11
|
||
rect3=${rect2#*,}
|
||
rect3s="${rect3%%,*}" #0xCFA102
|
||
rect4=${rect3#*,}
|
||
rect4s="${rect4%%,*}" #55744245764
|
||
rect5=${rect4#*,}
|
||
rect5s="${rect5%%,*}" #196
|
||
rect6=${rect5#*,}
|
||
rect6s="${rect6%%,*}" #NR5G_BAND78
|
||
rect7=${rect6#*,}
|
||
rect7s="${rect7%%,*}" #627264
|
||
rect8=${rect7#*,}
|
||
rect8s="${rect8%%,*}" #-940
|
||
rect9=${rect8#*,}
|
||
rect9s="${rect9%%,*}" #-110
|
||
# "${rec1##*,}" #最后一位
|
||
rect10=${rect9#*,}
|
||
rect10s="${rect10%%,*}" #最后一位
|
||
PCI=$rect5s
|
||
LBAND="n"$(echo $rect6s | cut -d, -f0 | grep -o "BAND[0-9]\{1,3\}" | grep -o "[0-9]\+")
|
||
CHANNEL=$rect7s
|
||
RSCP=$(($(echo $rect8s | cut -d, -f0) / 10))
|
||
ECIO=$(($(echo $rect9s | cut -d, -f0) / 10))
|
||
if [ "$CSQ_PER" = "-" ]; then
|
||
CSQ_PER=$((100 - (($RSCP + 31) * 100/-125)))"%"
|
||
fi
|
||
SINR=$(($(echo $rect10s | cut -d, -f0) / 10))" dB"
|
||
fi
|
||
w=$(echo $rec |grep "LTE"|grep "EUTRAN"| wc -l)
|
||
if [ $w -ge 1 ];then
|
||
rec1=${rec#*EUTRAN-}
|
||
lte_band=${rec1%%,*} #EUTRAN-BAND
|
||
rec1=${rec1#*,}
|
||
rec1=${rec1#*,}
|
||
rec1=${rec1#*,}
|
||
rec1=${rec1#*,}
|
||
#rec1=${rec1#*,}
|
||
rec1=${rec1#*,}
|
||
lte_rssi=${rec1%%,*} #LTE_RSSI
|
||
lte_rssi=`expr $lte_rssi / 10` #LTE_RSSI
|
||
debug "LTE_BAND=$lte_band LTE_RSSI=$lte_rssi"
|
||
if [ $rssi == 0 ];then
|
||
rssi=$lte_rssi
|
||
fi
|
||
fi
|
||
w=$(echo $rec |grep "WCDMA"| wc -l)
|
||
if [ $w -ge 1 ];then
|
||
w=$(echo $rec |grep "UNKNOWN"|wc -l)
|
||
if [ $w -ge 1 ];then
|
||
debug "UNKNOWN BAND"
|
||
return
|
||
fi
|
||
fi
|
||
|
||
#CNMP
|
||
OX=$( sh $current_dir/modem_at.sh $at_port "AT+CNMP?")
|
||
CNMP=$(echo "$OX" | grep -o "+CNMP:[ ]*[0-9]\{1,3\}" | grep -o "[0-9]\{1,3\}")
|
||
if [ -n "$CNMP" ]; then
|
||
case $CNMP in
|
||
"2"|"55" )
|
||
NETMODE="1" ;;
|
||
"13" )
|
||
NETMODE="3" ;;
|
||
"14" )
|
||
NETMODE="5" ;;
|
||
"38" )
|
||
NETMODE="7" ;;
|
||
"71" )
|
||
NETMODE="9" ;;
|
||
"109" )
|
||
NETMODE="8" ;;
|
||
* )
|
||
NETMODE="0" ;;
|
||
esac
|
||
fi
|
||
|
||
# CMGRMI 信息
|
||
OX=$( sh $current_dir/modem_at.sh $at_port "AT+CMGRMI=4")
|
||
CAINFO=$(echo "$OX" | grep -o "$REGXz" | tr ' ' ':')
|
||
if [ -n "$CAINFO" ]; then
|
||
for CASV in $(echo "$CAINFO"); do
|
||
LBAND=$LBAND"<br />B"$(echo "$CASV" | cut -d, -f4)
|
||
BW=$(echo "$CASV" | cut -d, -f5)
|
||
decode_bw
|
||
LBAND=$LBAND" (CA, Bandwidth $BW MHz)"
|
||
CHANNEL="$CHANNEL, "$(echo "$CASV" | cut -d, -f2)
|
||
PCI="$PCI, "$(echo "$CASV" | cut -d, -f7)
|
||
done
|
||
fi
|
||
} |