Commit d70139c2 authored by Florian Kaltenberger's avatar Florian Kaltenberger
Browse files

moving project SYMPA to extras

git-svn-id: http://svn.eurecom.fr/openair4G/trunk@7403 818b1a75-f10b-46b9-bf7c-635c3b92a50f
parent a56366cd
#!/usr/bin/python
import os, sys, warnings
import serial
def sendToTTY(lineP):
sys.stdout.write("\nSend:\n" + lineP+"\n")
g_ser.write(lineP)
g_ser.flush()
g_ser = serial.Serial('/dev/ttyUSB0', 9600, timeout=1)
buffer = ''
while True:
buffer += g_ser.read(1)
#sys.stdout.write("buffer is now:\n" + buffer+"\n")
buffer = buffer.lstrip('\r')
if '\r' in buffer:
at_received, buffer = buffer.split('\r')[-2:]
at_received = at_received.strip('\n')
at_received = at_received.strip('\r')
if at_received == '\n' or at_received == '' or at_received == '\r':
break
else:
sys.stdout.write("Receive stripped:\n" + at_received+"\n")
# Q0 = enable codes
# Q1 = disable codes
if at_received == 'ATE0Q0V1':
sendToTTY('\rOK\r')
# ATS0, Automatic Answer
# This S-parameter controls the automatic answering feature of the modem
# 0 automatic answering is disabled
# 1 - 255 enable automatic answering on the ring number specified
# here value received is 0
elif at_received.startswith('ATS0='):
sendToTTY('\rOK\r')
# AT+CMEEReport mobile equipment error
#0 Disable +CME ERROR result code. Use ERROR instead.
#1 Enable +CME ERROR result code and use numeric<err> values
#2 Enable +CME ERROR result code and use verbose<err> values
# here value received is 1
elif at_received.startswith('AT+CMEE='):
sendToTTY('\rOK\r')
# Network registration events
# AT+CREGNetwork registration (ver. 2)
# Description:
# Controls the presentation of an unsolicited result code +CREG : <stat>
# when <n>=1 and there is a change in the ME network registration status or
# code +CREG: <stat>[,<lac>,<ci>] when <n>=2 and there is a change of thenetwork cell.
# Read command returns the status of result code presentation and an integer <stat>,
# which shows whether the network has currently indicated the registration of the ME.
# Location information elements <lac> and <ci> are returned only when <n>=2 and ME
# is registered in the network.
# <n>:
# 0 Disable network registration unsolicited result code. Default value
# 1 Enable network registration unsolicited result code,+CREG: <stat>
# 2 Enable network registration and location information unsolicited result code, +CREG:<stat>[,<lac>,<ci>]
# <stat>:
# 0 not registered new operator to registered and not searching
# 1 registered, home network
# 2 not registered, currently searching a new operator to register with
# 3 registration denied
# 4 unknown
# 5 registered, roaming
elif at_received == 'AT+CREG=2':
sendToTTY('\rOK\r')
sendToTTY('+CREG: 1,00C3,01021A02 \r')
elif at_received == 'AT+CREG=1':
sendToTTY('\rOK\r')
sendToTTY('+CREG: 1\r')
elif at_received == 'AT+CREG?':
sendToTTY('+CREG: 1,00C3,01021A02\r\nOK\r')
# GPRS registration events
# +CGREGNetwork registration reporting
# Packet domain network registration status AT+CGPADDRShow PDP address
# Description:
# Controls the presentation of the unsolicited result code +CGREG: <stat>
# when <n>='1' and there is a change in the ME GPRS network registration status or
# +CGREG: <stat>[,<lac>,<ci>] when <n>='2' and there is achange of the network cell.
# ---
# Note: If the GPRS MT also supports circuit mode services,
# AT+CREG and the +CREG result code apply to the registration status and location
# information for those services. The read command returns the status of result
# code presentation and an integer <stat> which shows whether the network has
# currently indicated the registration of the ME.
# Location information elements <lac> and <ci> are returned only when <n>=2
# and ME is registered in the network.
elif at_received == 'AT+CGREG=1':
sendToTTY('\rOK\r')
sendToTTY('+CGREG: 1\r')
elif at_received == 'AT+CGREG?':
sendToTTY('+CGREG: 0,1\r\nOK\r')
# Call Waiting notifications
elif at_received == 'AT+CCWA=1':
sendToTTY('\rOK\r')
# Alternating voice/data off
elif at_received == 'AT+CMOD=0':
sendToTTY('\rOK\r')
# +CSSU unsolicited supp service notifications
elif at_received == 'AT+CSSN=0,1':
sendToTTY('\rOK\r')
# no connected at_received identification
elif at_received == 'AT+COLP=0':
sendToTTY('+COLP:0\r\nOK\r')
# HEX character set
# AT+CSCSSelect TE character set (ver. 3)
elif at_received == 'AT+CSCS=\"HEX\"':
sendToTTY('\rOK\r')
# USSD unsolicited
# AT+CUSD Unstructured supplementary service data (ver. 2)
# <n>
# 0 Disable result code presentation in the TA.Defaultvalue
# 1 Enable result code presentation in the TA
# 2 Terminate (abort) USSD dialogue. This value is not applicable to the read command response. Notsupported
elif at_received == 'AT+CUSD=1':
sendToTTY('\rOK\r')
# Enable +CGEV GPRS event notifications, but don't buffer
# AT+CGEREPPacket domain event reporting (ver. 1)
elif at_received == 'AT+CGEREP=1,0':
sendToTTY('\rOK\r')
# SMS PDU mode
# AT+CMGF Message format (ver. 1)
elif at_received == 'AT+CMGF=0':
sendToTTY('\rOK\r')
elif at_received == 'AT+CPIN?':
sendToTTY('\r+CPIN: READY\r\nOK\r')
#sendToTTY('\rOK\r')
# AT+CFUNSet phone functionality (ver. 2)
# 0 Minimum functionality, that is, the phone is turnedoff. Default value
# 1 Full functionality, that is, the phone is turned on
# 2 Disable phone transmit RF circuits only. Notsupported
# 3 Disable phone receive RF circuits only. Notsupported
# 4 Disable phone transmit and receive RF circuits.Note: This is often referred to as "flight mode"
# 5 GSM only (WCDMA radio off)
# 6 WCDMA only (GSM radio off)
elif at_received == 'AT+CFUN?':
sendToTTY('+CFUN: 1\r\nOK\r')
elif at_received == 'AT+CFUN=1':
sendToTTY('\rOK\r')
# AT+CLCCList current calls
# Description:
# Returns the list of current calls. If command succeeds but no calls areavailable, no information response is sent to TE
elif at_received == 'AT+CLCC':
sendToTTY('+CLCC: \r\nOK\r')
# AT+COPSOperator selection (ver. 2)
# AT+COPS=[<mode>[,<format>[,<oper>[,AcT]]]]
#
# <mode> Description
# 0 Automatic (<oper> field is ignored.) Default value
# 1 Manual (<oper> field will be present)
# 2 Deregister from network. Not supported
# 3 Set only <format> (for read command +COPS?), donot attempt registration/deregistration (<oper> field is ignored).
# This value is not applicable in readcommand response
# 4 Manual/automatic (<oper> field will be present). Ifmanual selection fails, automatic mode (<mode>=0)is entered
elif at_received == 'AT+COPS=3,0;+COPS?;+COPS=3,1;+COPS?;+COPS=3,2;+COPS?':
sendToTTY('+COPS: 0,0, \"Free - Mobile\"\r\n+COPS: 0,1, \"Free\"\r\n+COPS: 0,2, \"310170\"\r\nOK\r')
elif at_received == 'AT+COPS?':
#sendToTTY('+COPS: 0,0, \"Free - Mobile\"\r\n+COPS: 0,1, \"Free\"\r\n+COPS: 0,2, \"310170\"\r\nOK\r')
sendToTTY('+COPS: 0,0, \"Free - Mobile\"\r\nOK\r')
elif at_received == 'AT+COPS=0':
#sendToTTY('+COPS: 0,0, \"Free - Mobile\"\r\n+COPS: 0,1, \"Free\"\r\n+COPS: 0,2, \"310170\"\r\nOK\r')
sendToTTY('+COPS: 0,0, \"Free - Mobile\"\r\nOK\r')
# IMEI
elif at_received == 'AT+CGSN':
sendToTTY('+CGSN:534500314160207\r\nOK\r')
# Signal quality (ver.1)
# Returns received signal strength indication <rssi> and channel bit errorrate <ber> from the phone.
elif at_received == 'AT+CSQ':
#31,7
sendToTTY('+CSQ:8,7\r\nOK\r')
else:
sendToTTY('\rOK\r')
all: oaisim naslite_netlink_ether remserial
oaisim:
(cd $(OPENAIR_TARGETS)/SIMU/USER && make NAS=1 OAI_NW_DRIVER_TYPE_ETHERNET=1 -j4)
naslite_netlink_ether:
(cd $(OPENAIR2_DIR) && make naslite_netlink_ether.ko)
(cd $(OPENAIR2_DIR)/NAS/DRIVER/LITE/RB_TOOL/ && make)
remserial:
(cd $(OPENAIR3_DIR)/UTILS/REMSERIAL-1.4.UDP && make all)
(cp -upv $(OPENAIR3_DIR)/UTILS/REMSERIAL-1.4.UDP/remserial /usr/bin/remserial.udp)
one_eNB_one_UE: oaisim naslite_netlink_ether
userclean: clean oaisim naslite_netlink_ether
clean:
(cd $(OPENAIR_TARGETS)/SIMU/USER && make clean)
(cd $(OPENAIR2_DIR)/NAS/DRIVER/LITE && make clean)
(cd $(OPENAIR2_DIR) && make clean)
#!/bin/bash
#
#------------------------------------------------
MAKE_IP_DRIVER_TARGET="naslite_netlink_ether"
MAKE_LTE_ACCESS_STRATUM_TARGET="oaisim"
IP_DRIVER_NAME=oai_nw_drv
###########################################################
# CONFIGURE OPTIONS
EMULIF="eth1"
LTEIF="oai0"
EXTIF="eth0"
INTIF=$LTEIF
#----------------------------------------------------------
LTE_NETWORK_CIDR="10.0.1.0/24"
ENB_IPv4="10.0.1.1"
ENB_IPv6="2001:1::1"
ENB_IPv6_CIDR=$ENB_IPv6"/64"
ENB_IPv4_CIDR=$ENB_IPv4"/24"
ENB_IF_ID="3,9,1,8,3,6,6,2,0,0,0,0,0,0"
#----------------------------------------------------------
UE_IPv4="10.0.1.2"
UE_IPv6="2001:1::2"
UE_IPv6_CIDR=$UE_IPv6"/64"
UE_IPv4_CIDR=$UE_IPv4"/24"
#----------------------------------------------------------
# +-------+ +-------+
# | eNB | EMULIF | UE |
# | +---------------------+ |
# | | | |
# | | | |
# | | | |
# | | | |
# | | | |
# | | | |
# | | LTEIF | |
# | +.................... + |
# | |ENB_IPv4 UE_IPv4_CIDR| |
# +-------+ LTE link over +-------+
# UDP over ethernet
###########################################################
IPTABLES=/sbin/iptables
THIS_SCRIPT_PATH=$(dirname $(readlink -f $0))
declare -x OPENAIR_DIR=""
declare -x OPENAIR1_DIR=""
declare -x OPENAIR2_DIR=""
declare -x OPENAIR3_DIR=""
declare -x OPENAIR_TARGETS=""
###########################################################
black='\E[30m'
red='\E[31m'
green='\E[32m'
yellow='\E[33m'
blue='\E[34m'
magenta='\E[35m'
cyan='\E[36m'
white='\E[37m'
ROOT_UID=0
E_NOTROOT=67
cecho() # Color-echo
# arg1 = message
# arg2 = color
{
local default_msg="No Message."
message=${1:-$default_msg}
color=${2:-$black}
echo -e "$color"
echo -n "$message"
tput sgr0
echo
return
}
echo_error() {
local my_string=""
until [ -z "$1" ]
do
my_string="$my_string$1"
shift
done
cecho "$my_string" $red
}
echo_warning() {
local my_string=""
until [ -z "$1" ]
do
my_string="$my_string$1"
shift
done
cecho "$my_string" $yellow
}
echo_success() {
local my_string=""
until [ -z "$1" ]
do
my_string="$my_string$1"
shift
done
cecho "$my_string" $green
}
set_openair() {
path=`pwd`
declare -i length_path
declare -i index
length_path=${#path}
index=`echo $path | grep -b -o 'targets' | cut -d: -f1`
#echo ${path%$token*}
if [[ $index -lt $length_path && index -gt 0 ]]
then
declare -x OPENAIR_DIR
index=`expr $index - 1`
openair_path=`echo $path | cut -c1-$index`
#openair_path=`echo ${path:0:$index}`
export OPENAIR_DIR=$openair_path
export OPENAIR1_DIR=$openair_path/openair1
export OPENAIR2_DIR=$openair_path/openair2
export OPENAIR3_DIR=$openair_path/openair3
export OPENAIR_TARGETS=$openair_path/targets
return 0
fi
return -1
}
bash_exec() {
output=$($1 2>&1)
result=$?
if [ $result -eq 0 ]
then
echo_success "$1"
else
echo_error "$1: $output"
fi
}
wait_process_started () {
if [ -z "$1" ]
then
echo_error "WAITING FOR PROCESS START: NO PROCESS"
return 1
fi
ps -C $1 > /dev/null 2>&1
while [ $? -ne 0 ]; do
echo_warning "WAITING FOR $1 START"
sleep 2
ps -C $1 > /dev/null 2>&1
done
echo_success "PROCESS $1 STARTED"
return 0
}
wait_process_ended () {
if [ -z "$1" ]
then
echo_error "WAITING FOR PROCESS START: NO PROCESS"
return 1
fi
pkill $1
ps -C $1 > /dev/null 2>&1
while [ $? -eq 0 ]; do
echo_warning "WAITING FOR $1 END"
pkill $1
sleep 2
ps -C $1 > /dev/null 2>&1
done
echo_success "PROCESS $1 ENDED"
return 0
}
assert() {
# If condition false
# exit from script with error message
E_PARAM_ERR=98
E_PARAM_FAILED=99
if [ -z "$2" ] # Not enought parameters passed.
then
return $E_PARAM_ERR
fi
lineno=$2
if [ ! $1 ]
then
echo "Assertion failed: \"$1\""
echo "File \"$0\", line $lineno"
exit $E_ASSERT_FAILED
fi
}
control_c()
# run if user hits control-c
{
echo -en "\n*** Exiting ***\n"
pkill oaisim
wait_process_ended oaisim
sleep 2
ip link set oai0 down
/sbin/rmmod $IP_DRIVER_NAME
exit $?
bash_exec "$IPTABLES -P INPUT ACCEPT"
bash_exec "$IPTABLES -F INPUT"
bash_exec "$IPTABLES -P OUTPUT ACCEPT"
bash_exec "$IPTABLES -F OUTPUT"
bash_exec "$IPTABLES -P FORWARD DROP"
bash_exec "$IPTABLES -F FORWARD"
bash_exec "$IPTABLES -t nat -F"
bash_exec "$IPTABLES -t mangle -F"
bash_exec "$IPTABLES -t filter -F"
}
set_openair
cecho "OPENAIR_DIR = $OPENAIR_DIR" $green
cecho "OPENAIR1_DIR = $OPENAIR1_DIR" $green
cecho "OPENAIR2_DIR = $OPENAIR2_DIR" $green
cecho "OPENAIR3_DIR = $OPENAIR3_DIR" $green
cecho "OPENAIR_TARGETS = $OPENAIR_TARGETS" $green
trap ctrl_c INT
echo "Bringup UE interface"
bash_exec "rmmod $IP_DRIVER_NAME"
cecho "make $MAKE_IP_DRIVER_TARGET $MAKE_LTE_ACCESS_STRATUM_TARGET....." $green
bash_exec "make $MAKE_IP_DRIVER_TARGET $MAKE_LTE_ACCESS_STRATUM_TARGET"
bash_exec "insmod $OPENAIR2_DIR/NAS/DRIVER/LITE/$IP_DRIVER_NAME.ko oai_nw_drv_IMEI=$ENB_IF_ID"
echo " Enabling proxy ARP.."
bash_exec "sysctl -w net.ipv4.conf.all.proxy_arp=1"
assert "`sysctl -n net.ipv4.conf.all.proxy_arp` -eq 1" $LINENO
echo " Enabling ipv4 forwarding.."
bash_exec "sysctl -w net.ipv4.ip_forward=1"
assert "`sysctl -n net.ipv4.ip_forward` -eq 1" $LINENO
bash_exec "sysctl -w net.ipv4.conf.all.forwarding=1"
assert "`sysctl -n net.ipv4.conf.all.forwarding` -eq 1" $LINENO
echo " Enabling ipv6 forwarding.."
bash_exec "sysctl -w net.ipv6.conf.all.forwarding=1"
assert "`sysctl -n net.ipv6.conf.all.forwarding` -eq 1" $LINENO
echo " Enabling DynamicAddr.."
bash_exec "sysctl -w net.ipv4.ip_dynaddr=1"
assert " `sysctl -n net.ipv4.ip_dynaddr` -eq 1" $LINENO
bash_exec "ip route flush cache"
bash_exec "ip route add 239.0.0.160/28 dev $EMULIF"
bash_exec "ip link set $LTEIF broadcast ff:ff:ff:ff:ff:ff"
bash_exec "ip link set $LTEIF up"
sleep 1
assert " -x $IPTABLES " $LINENO
bash_exec "$IPTABLES -P INPUT ACCEPT"
bash_exec "$IPTABLES -F INPUT"
bash_exec "$IPTABLES -P OUTPUT ACCEPT"
bash_exec "$IPTABLES -F OUTPUT"
bash_exec "$IPTABLES -P FORWARD DROP"
bash_exec "$IPTABLES -F FORWARD"
bash_exec "$IPTABLES -t nat -F"
bash_exec "$IPTABLES -t mangle -F"
bash_exec "$IPTABLES -t filter -F"
echo " External Interface: $EXTIF"
echo " Internal Interface: $INTIF"
bash_exec "modprobe ip_tables"
bash_exec "modprobe ip_conntrack"
bash_exec "modprobe ip_conntrack_ftp"
bash_exec "modprobe nf_conntrack_h323"
bash_exec "modprobe nf_conntrack_irc"
bash_exec "modprobe nf_conntrack_pptp"
bash_exec "modprobe nf_conntrack_proto_gre"
bash_exec "modprobe nf_conntrack_proto_sctp"
bash_exec "modprobe nf_conntrack_tftp"
bash_exec "modprobe nf_conntrack_sip"
bash_exec "modprobe iptable_nat"
bash_exec "modprobe x_tables"
bash_exec "sysctl -w net.ipv4.conf.all.log_martians=1"
assert " `sysctl -n net.ipv4.conf.all.log_martians` -eq 1" $LINENO
bash_exec "sysctl -w net.ipv4.conf.$LTEIF.log_martians=1"
assert " `sysctl -n net.ipv4.conf.$LTEIF.log_martians` -eq 1" $LINENO
bash_exec "sysctl -w net.ipv4.conf.$EXTIF.log_martians=1"
assert " `sysctl -n net.ipv4.conf.$EXTIF.log_martians` -eq 1" $LINENO
bash_exec "sysctl -w net.ipv4.conf.$INTIF.log_martians=1"
assert " `sysctl -n net.ipv4.conf.$INTIF.log_martians` -eq 1" $LINENO
echo " Disabling reverse path filtering"
bash_exec "sysctl -w net.ipv4.conf.all.rp_filter=0"
assert " `sysctl -n net.ipv4.conf.all.rp_filter` -eq 0" $LINENO
bash_exec "sysctl -w net.ipv4.conf.$LTEIF.rp_filter=0"
assert " `sysctl -n net.ipv4.conf.$LTEIF.rp_filter` -eq 0" $LINENO
bash_exec "sysctl -w net.ipv4.conf.$EXTIF.rp_filter=0"
assert " `sysctl -n net.ipv4.conf.$EXTIF.rp_filter` -eq 0" $LINENO
bash_exec "sysctl -w net.ipv4.conf.$INTIF.rp_filter=0"
assert " `sysctl -n net.ipv4.conf.$INTIF.rp_filter` -eq 0" $LINENO
bash_exec "$IPTABLES -A FORWARD -i $EXTIF -o $INTIF -m state --state ESTABLISHED,RELATED -j ACCEPT"
bash_exec "$IPTABLES -A FORWARD -i $INTIF -o $EXTIF -j ACCEPT"
bash_exec "$IPTABLES -t nat -A POSTROUTING -o $EXTIF -j MASQUERADE"
bash_exec "ip route flush cache"
bash_exec "ip addr add dev $LTEIF $ENB_IPv4_CIDR"
sleep 1
bash_exec "ip addr add dev $LTEIF $ENB_IPv6_CIDR"
sleep 1
# -a -> Add RB
# -d -> Delete RB
# -cxx -> lcr
# -ixx -> instance
# -zxx -> dscp
# -fxxx -> classref (uid of a classifier entry) if fn is used , fn is used for send classifier and n+1 for receive classifier
# -sxxx -> source ipv4 address
# -txxx -> destination ipv4 address
# -x -> source ipv6 address
# -y -> destination ipv6 address
# -r -> radio bearer id
bash_exec "$OPENAIR2_DIR/NAS/DRIVER/LITE/RB_TOOL/rb_tool -a -c0 -f0 -i0 -z0 -x $ENB_IPv6 -y $UE_IPv6 -r 3"
bash_exec "$OPENAIR2_DIR/NAS/DRIVER/LITE/RB_TOOL/rb_tool -a -c0 -f2 -i0 -z0 -s $ENB_IPv4/32 -t $UE_IPv4/32 -r 3"
bash_exec "$OPENAIR2_DIR/NAS/DRIVER/LITE/RB_TOOL/rb_tool -a -c0 -f4 -i0 -z64 -s 0.0.0.0/32 -t 0.0.0.0/32 -r 3"
bash_exec "$OPENAIR2_DIR/NAS/DRIVER/LITE/RB_TOOL/rb_tool -a -c0 -f6 -i0 -z64 -x 0::0/128 -y 0::0/128 -r 3"
sleep 1
echo "#####################################################################"
echo "iptables -t nat -nvL"
echo "---------------------------------------------------------------------"
iptables -t nat -nvL
echo "#####################################################################"
echo "ip route show table main"
echo "---------------------------------------------------------------------"
ip route show table main
nice --adjustment=-10 $OPENAIR_TARGETS/SIMU/USER/oaisim -u0 -M0 -p2 -g3 -l3 -D $EMULIF > /dev/null 2>&1
#gdb --args $OPENAIR_TARGETS/SIMU/USER/oaisim -u0 -M0 -p2 -g3 -l3 -D $EMULIF
control_c
#!/bin/bash
#
#------------------------------------------------
MAKE_IP_DRIVER_TARGET="naslite_netlink_ether"
MAKE_LTE_ACCESS_STRATUM_TARGET="oaisim"
IP_DRIVER_NAME=oai_nw_drv
###########################################################
# CONFIGURE OPTIONS
EMULIF="eth0"