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Making arfcn<->freq conversions more robust and uptading apps depending on it

This commit is contained in:
Piotr Krysik 2017-09-06 17:48:38 +02:00
parent 08c0c7cfe5
commit 3dfa11b89e
5 changed files with 360 additions and 312 deletions
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94
apps/grgsm_livemon_headless
View File

@ -1,11 +1,31 @@
#!/usr/bin/env python2
# -*- coding: utf-8 -*-
# @file
# @author (C) 2017 by Piotr Krysik <ptrkrysik@gmail.com>
# @section LICENSE
#
# Gr-gsm is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 3, or (at your option)
# any later version.
#
# Gr-gsm is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with gr-gsm; see the file COPYING. If not, write to
# the Free Software Foundation, Inc., 51 Franklin Street,
# Boston, MA 02110-1301, USA.
#
#
##################################################
# GNU Radio Python Flow Graph
# Title: Gr-gsm Livemon
# Author: Piotr Krysik
# Description: Interactive monitor of a single C0 channel with analysis performed by Wireshark (command to run wireshark: sudo wireshark -k -f udp -Y gsmtap -i lo)
# Generated: Mon Aug 28 10:09:07 2017
# Generated: Wed Sep 6 16:27:23 2017
##################################################
from gnuradio import blocks
@ -13,6 +33,7 @@ from gnuradio import eng_notation
from gnuradio import gr
from gnuradio.eng_option import eng_option
from gnuradio.filter import firdes
from grgsm import arfcn
from math import pi
from optparse import OptionParser
import grgsm
@ -23,7 +44,7 @@ import time
class grgsm_livemon_headless(gr.top_block):
def __init__(self, args="", collector='localhost', collectorport='4729', fc=941.8e6, gain=30, osr=4, ppm=0, samp_rate=2000000.052982, serverport='4729', shiftoff=400e3):
def __init__(self, args="", collector="localhost", collectorport="4729", gain=30, osr=4, ppm=0, rec_len=1000000, samp_rate=2000000.052982, serverport="4729", shiftoff=400e3, fc=957e6):
gr.top_block.__init__(self, "Gr-gsm Livemon")
##################################################
@ -32,13 +53,14 @@ class grgsm_livemon_headless(gr.top_block):
self.args = args
self.collector = collector
self.collectorport = collectorport
self.fc = fc
self.gain = gain
self.osr = osr
self.ppm = ppm
self.rec_len = rec_len
self.samp_rate = samp_rate
self.serverport = serverport
self.shiftoff = shiftoff
self.fc = fc
##################################################
# Blocks
@ -53,13 +75,13 @@ class grgsm_livemon_headless(gr.top_block):
self.rtlsdr_source_0.set_gain(gain, 0)
self.rtlsdr_source_0.set_if_gain(20, 0)
self.rtlsdr_source_0.set_bb_gain(20, 0)
self.rtlsdr_source_0.set_antenna('', 0)
self.rtlsdr_source_0.set_antenna("", 0)
self.rtlsdr_source_0.set_bandwidth(250e3+abs(shiftoff), 0)
self.gsm_sdcch8_demapper_0 = grgsm.gsm_sdcch8_demapper(
timeslot_nr=1,
)
self.gsm_receiver_0 = grgsm.receiver(4, ([0]), ([]), False)
self.gsm_receiver_0 = grgsm.receiver(4, ([arfcn.downlink2arfcn(fc)]), ([]), False)
self.gsm_message_printer_1 = grgsm.message_printer(pmt.intern(""), False,
False, False)
self.gsm_input_0 = grgsm.gsm_input(
@ -76,8 +98,9 @@ class grgsm_livemon_headless(gr.top_block):
timeslot_nr=0,
)
self.blocks_socket_pdu_0_1 = blocks.socket_pdu("UDP_CLIENT", collector, collectorport, 1500, False)
self.blocks_socket_pdu_0_0 = blocks.socket_pdu("UDP_SERVER", '127.0.0.1', serverport, 10000, False)
self.blocks_socket_pdu_0_0 = blocks.socket_pdu("UDP_SERVER", "127.0.0.1", serverport, 10000, False)
self.blocks_rotator_cc_0 = blocks.rotator_cc(-2*pi*shiftoff/samp_rate)
self.blocks_head_0 = blocks.head(gr.sizeof_gr_complex*1, int(rec_len*samp_rate))
##################################################
# Connections
@ -92,9 +115,10 @@ class grgsm_livemon_headless(gr.top_block):
self.msg_connect((self.gsm_receiver_0, 'measurements'), (self.gsm_clock_offset_control_0, 'measurements'))
self.msg_connect((self.gsm_receiver_0, 'C0'), (self.gsm_sdcch8_demapper_0, 'bursts'))
self.msg_connect((self.gsm_sdcch8_demapper_0, 'bursts'), (self.gsm_decryption_0, 'bursts'))
self.connect((self.blocks_head_0, 0), (self.blocks_rotator_cc_0, 0))
self.connect((self.blocks_rotator_cc_0, 0), (self.gsm_input_0, 0))
self.connect((self.gsm_input_0, 0), (self.gsm_receiver_0, 0))
self.connect((self.rtlsdr_source_0, 0), (self.blocks_rotator_cc_0, 0))
self.connect((self.rtlsdr_source_0, 0), (self.blocks_head_0, 0))
def get_args(self):
return self.args
@ -114,14 +138,6 @@ class grgsm_livemon_headless(gr.top_block):
def set_collectorport(self, collectorport):
self.collectorport = collectorport
def get_fc(self):
return self.fc
def set_fc(self, fc):
self.fc = fc
self.rtlsdr_source_0.set_center_freq(self.fc-self.shiftoff, 0)
self.gsm_input_0.set_fc(self.fc)
def get_gain(self):
return self.gain
@ -140,17 +156,25 @@ class grgsm_livemon_headless(gr.top_block):
def set_ppm(self, ppm):
self.ppm = ppm
self.rtlsdr_source_0.set_freq_corr(self.ppm, 0)
self.gsm_input_0.set_ppm(self.ppm-int(self.ppm))
self.rtlsdr_source_0.set_freq_corr(self.ppm, 0)
def get_rec_len(self):
return self.rec_len
def set_rec_len(self, rec_len):
self.rec_len = rec_len
self.blocks_head_0.set_length(int(self.rec_len*self.samp_rate))
def get_samp_rate(self):
return self.samp_rate
def set_samp_rate(self, samp_rate):
self.samp_rate = samp_rate
self.rtlsdr_source_0.set_sample_rate(self.samp_rate)
self.gsm_input_0.set_samp_rate_in(self.samp_rate)
self.blocks_head_0.set_length(int(self.rec_len*self.samp_rate))
self.blocks_rotator_cc_0.set_phase_inc(-2*pi*self.shiftoff/self.samp_rate)
self.gsm_input_0.set_samp_rate_in(self.samp_rate)
self.rtlsdr_source_0.set_sample_rate(self.samp_rate)
def get_serverport(self):
return self.serverport
@ -163,44 +187,54 @@ class grgsm_livemon_headless(gr.top_block):
def set_shiftoff(self, shiftoff):
self.shiftoff = shiftoff
self.blocks_rotator_cc_0.set_phase_inc(-2*pi*self.shiftoff/self.samp_rate)
self.rtlsdr_source_0.set_center_freq(self.fc-self.shiftoff, 0)
self.rtlsdr_source_0.set_bandwidth(250e3+abs(self.shiftoff), 0)
self.blocks_rotator_cc_0.set_phase_inc(-2*pi*self.shiftoff/self.samp_rate)
def get_fc(self):
return self.fc
def set_fc(self, fc):
self.fc = fc
self.gsm_input_0.set_fc(self.fc)
self.rtlsdr_source_0.set_center_freq(self.fc-self.shiftoff, 0)
def argument_parser():
description = 'Interactive monitor of a single C0 channel with analysis performed by Wireshark (command to run wireshark: sudo wireshark -k -f udp -Y gsmtap -i lo)'
parser = OptionParser(usage="%prog: [options]", option_class=eng_option, description=description)
parser = OptionParser(option_class=eng_option, usage="%prog: [options]")
parser.add_option(
"", "--args", dest="args", type="string", default="",
help="Set Device Arguments [default=%default]")
parser.add_option(
"", "--collector", dest="collector", type="string", default='localhost',
"", "--collector", dest="collector", type="string", default="localhost",
help="Set IP or DNS name of collector point [default=%default]")
parser.add_option(
"", "--collectorport", dest="collectorport", type="string", default='4729',
"", "--collectorport", dest="collectorport", type="string", default="4729",
help="Set UDP port number of collector [default=%default]")
parser.add_option(
"-f", "--fc", dest="fc", type="eng_float", default=eng_notation.num_to_str(941.8e6),
help="Set GSM channel's central frequency [default=%default]")
parser.add_option(
"-g", "--gain", dest="gain", type="eng_float", default=eng_notation.num_to_str(30),
help="Set gain [default=%default]")
help="Set RF Gain [default=%default]")
parser.add_option(
"", "--osr", dest="osr", type="intx", default=4,
help="Set OverSampling Ratio [default=%default]")
parser.add_option(
"-p", "--ppm", dest="ppm", type="eng_float", default=eng_notation.num_to_str(0),
help="Set ppm [default=%default]")
help="Set Clock frequency offset in ppms (1/1e6 parts) [default=%default]")
parser.add_option(
"-T", "--rec-len", dest="rec_len", type="eng_float", default=eng_notation.num_to_str(1000000),
help="Set Recording length in seconds [default=%default]")
parser.add_option(
"-s", "--samp-rate", dest="samp_rate", type="eng_float", default=eng_notation.num_to_str(2000000.052982),
help="Set samp_rate [default=%default]")
parser.add_option(
"", "--serverport", dest="serverport", type="string", default='4729',
"", "--serverport", dest="serverport", type="string", default="4729",
help="Set UDP server listening port [default=%default]")
parser.add_option(
"-o", "--shiftoff", dest="shiftoff", type="eng_float", default=eng_notation.num_to_str(400e3),
help="Set Frequency Shiftoff [default=%default]")
parser.add_option(
"-f", "--fc", dest="fc", type="eng_float", default=eng_notation.num_to_str(957e6),
help="Set GSM channel's central frequency [default=%default]")
return parser
@ -208,7 +242,7 @@ def main(top_block_cls=grgsm_livemon_headless, options=None):
if options is None:
options, _ = argument_parser().parse_args()
tb = top_block_cls(args=options.args, collector=options.collector, collectorport=options.collectorport, fc=options.fc, gain=options.gain, osr=options.osr, ppm=options.ppm, samp_rate=options.samp_rate, serverport=options.serverport, shiftoff=options.shiftoff)
tb = top_block_cls(args=options.args, collector=options.collector, collectorport=options.collectorport, gain=options.gain, osr=options.osr, ppm=options.ppm, rec_len=options.rec_len, samp_rate=options.samp_rate, serverport=options.serverport, shiftoff=options.shiftoff, fc=options.fc)
tb.start()
tb.wait()

35
apps/grgsm_livemon_headless.grc
View File

@ -462,7 +462,7 @@
</param>
<param>
<key>value</key>
<value>941.8e6</value>
<value>957e6</value>
</param>
</block>
<block>
@ -837,7 +837,7 @@
</param>
<param>
<key>cell_allocation</key>
<value>[0]</value>
<value>[arfcn.downlink2arfcn(fc)]</value>
</param>
<param>
<key>comment</key>
@ -958,6 +958,37 @@
<value>from math import pi</value>
</param>
</block>
<block>
<key>import</key>
<param>
<key>alias</key>
<value></value>
</param>
<param>
<key>comment</key>
<value></value>
</param>
<param>
<key>_enabled</key>
<value>True</value>
</param>
<param>
<key>_coordinate</key>
<value>(200, 60)</value>
</param>
<param>
<key>_rotation</key>
<value>0</value>
</param>
<param>
<key>id</key>
<value>import_1</value>
</param>
<param>
<key>import</key>
<value>from grgsm import arfcn</value>
</param>
</block>
<block>
<key>parameter</key>
<param>

8
apps/grgsm_scanner
View File

@ -305,8 +305,8 @@ def do_scan(samp_rate, band, speed, ppm, gain, args, prn = None):
last_arfcn = arfcn_range[1]
last_center_arfcn = last_arfcn - int((channels_num / 2) - 1)
current_freq = grgsm.arfcn.arfcn2downlink(first_arfcn + int(channels_num / 2) - 1, band)
last_freq = grgsm.arfcn.arfcn2downlink(last_center_arfcn, band)
current_freq = grgsm.arfcn.arfcn2downlink(first_arfcn + int(channels_num / 2) - 1)
last_freq = grgsm.arfcn.arfcn2downlink(last_center_arfcn)
stop_freq = last_freq + 0.2e6 * channels_num
while current_freq < stop_freq:
@ -352,7 +352,7 @@ def do_scan(samp_rate, band, speed, ppm, gain, args, prn = None):
cell_arfcn_list = scanner.gsm_extract_system_info.get_cell_arfcns(chans[i])
neighbour_list = scanner.gsm_extract_system_info.get_neighbours(chans[i])
info = channel_info(grgsm.arfcn.downlink2arfcn(found_freqs[i], band), found_freqs[i],
info = channel_info(grgsm.arfcn.downlink2arfcn(found_freqs[i]), found_freqs[i],
cell_ids[i], lacs[i], mccs[i], mncs[i], ccch_confs[i], powers[i],
neighbour_list, cell_arfcn_list)
found_list.append(info)
@ -375,7 +375,7 @@ def do_scan(samp_rate, band, speed, ppm, gain, args, prn = None):
def argument_parser():
parser = OptionParser(option_class=eng_option, usage="%prog: [options]")
bands_list = ", ".join(grgsm.arfcn.get_bands())
parser.add_option("-b", "--band", dest="band", default="P-GSM",
parser.add_option("-b", "--band", dest="band", default="GSM900",
help="Specify the GSM band for the frequency.\nAvailable bands are: " + bands_list)
parser.add_option("-s", "--samp-rate", dest="samp_rate", type="float", default=2e6,
help="Set sample rate [default=%default] - allowed values even_number*0.2e6")

152
python/misc_utils/arfcn.py Normal file → Executable file
View File

@ -2,6 +2,7 @@
# -*- coding: utf-8 -*-
# @file
# @author (C) 2015 by Roman Khassraf <rkhassraf@gmail.com>
# (C) 2017 by Piotr Krysik <ptrkrysik@gmail.com>
# @section LICENSE
#
# Gr-gsm is free software; you can redistribute it and/or modify
@ -23,32 +24,66 @@
import collections
__chan_spacing = 2e5
__arfcn_pcs = 0x8000
# first uplink freq, distance between uplink/downlink frequency, list of range tuple
# each tuple in a range tuple contains: first arfcn of the range, last arfcn of the range, offset of the range
# entries are ordered by relevance
__band_conf = collections.OrderedDict([
('P-GSM', {'f_start': 890.0e6, 'distance': 45e6, 'ranges': [(1, 124, 0)]}),
('DCS1800', {'f_start': 1710.2e6, 'distance': 95e6, 'ranges': [(512, 885, 512)]}),
('PCS1900', {'f_start': 1850.2e6, 'distance': 80e6, 'ranges': [(512, 810, 512)]}),
('E-GSM', {'f_start': 890.0e6, 'distance': 45e6, 'ranges': [(0, 124, 0), (975, 1023, 1024)]}),
('R-GSM', {'f_start': 890.0e6, 'distance': 45e6, 'ranges': [(0, 124, 0), (955, 1023, 1024)]}),
('GSM450', {'f_start': 450.6e6, 'distance': 10e6, 'ranges': [(259, 293, 259)]}),
('GSM480', {'f_start': 479e6, 'distance': 10e6, 'ranges': [(306, 340, 306)]}),
('GSM850', {'f_start': 824.2e6, 'distance': 45e6, 'ranges': [(128, 251, 128)]}),
('GSM900', {'f_start': 880.2e6, 'distance': 45e6, 'ranges': [(975, 1023), (0, 124)]}),
('DCS1800', {'f_start': 1710.2e6, 'distance': 95e6, 'ranges': [(512, 885)]}),
('GSM850', {'f_start': 824.2e6, 'distance': 45e6, 'ranges': [(128, 251)]}),
('PCS1900', {'f_start': 1850.2e6, 'distance': 80e6, 'ranges': [(512+__arfcn_pcs, 810+__arfcn_pcs)]}), #PCS band is "special" as its channel number range overlap with DCS1800
('GSM450', {'f_start': 450.6e6, 'distance': 10e6, 'ranges': [(259, 293)]}),
('GSM480', {'f_start': 479e6, 'distance': 10e6, 'ranges': [(306, 340)]}),
('GSM-R', {'f_start': 876.2e6, 'distance': 45e6, 'ranges': [(955, 1023), (0, 124)]}),
])
__chan_spacing = 2e5
def get_bands():
return __band_conf.keys()
def arfcn2band(arfcn):
for band_name,band_desc in __band_conf.items():
for arfcns_range in band_desc["ranges"]:
arfcn_start = arfcns_range[0]
arfcn_stop = arfcns_range[1]
if arfcn_start <= arfcn <= arfcn_stop:
return band_name
return None
def freq2band(freq, downlink=False):
for band_name,band_desc in __band_conf.items():
chans_total = 0
#count total number of channels in the range
for arfcns_range in band_desc["ranges"]:
arfcn_start = arfcns_range[0]
arfcn_stop = arfcns_range[1]
chans_in_range = arfcn_stop - arfcn_start + 1
chans_total = chans_total + chans_in_range
def is_valid_arfcn(arfcn, band):
first_freq = band_desc["f_start"]
if downlink:
first_freq = first_freq + band_desc["distance"]
last_freq = first_freq + (chans_total - 1) * __chan_spacing
if first_freq <= freq <= last_freq:
return band_name
return None
def uplink2band(freq):
return freq2band(freq, False)
def downlink2band(freq):
return freq2band(freq, True)
def is_valid_arfcn(arfcn):
"""
Returns True if arfcn is valid in the given band, else False
"""
if band in __band_conf:
band = arfcn2band(arfcn)
if band is not None:
conf = __band_conf.get(band)
for arfcn_range in conf['ranges']:
arfcn_start = arfcn_range[0]
@ -58,92 +93,78 @@ def is_valid_arfcn(arfcn, band):
return False
def is_valid_uplink(freq, band):
def is_valid_uplink(freq):
"""
Returns True if the given frequency is a valid uplink frequency in the given band
"""
result = None
if band in __band_conf:
conf = __band_conf.get(band)
result = False
for arfcn_range in conf['ranges']:
arfcn_start = arfcn_range[0]
arfcn_end = arfcn_range[1]
first_freq = arfcn2uplink(arfcn_start, band)
last_freq = arfcn2uplink(arfcn_end, band)
if first_freq is None or last_freq is None:
result = False
elif first_freq <= freq <= last_freq:
result = True
result = False
band = uplink2band(freq)
if band is not None:
result = True
return result
def is_valid_downlink(freq, band):
def is_valid_downlink(freq):
"""
Returns True if the given frequency is a valid downlink frequency in the given band
"""
result = None
if band in __band_conf:
conf = __band_conf.get(band)
result = False
for arfcn_range in conf['ranges']:
arfcn_start = arfcn_range[0]
arfcn_end = arfcn_range[1]
first_freq = arfcn2downlink(arfcn_start, band)
last_freq = arfcn2downlink(arfcn_end, band)
if first_freq is None or last_freq is None:
result = False
elif first_freq <= freq <= last_freq:
result = True
result = False
band = downlink2band(freq)
if band is not None:
result = True
return result
def arfcn2uplink(arfcn, band):
if band in __band_conf and is_valid_arfcn(arfcn, band):
def arfcn2uplink(arfcn):
band = arfcn2band(arfcn)
if band is not None:
conf = __band_conf.get(band)
f_start = conf['f_start']
offset = None
arfcns_total = 0
for arfcn_range in conf['ranges']:
arfcn_start = arfcn_range[0]
arfcn_end = arfcn_range[1]
if arfcn_start <= arfcn <= arfcn_end:
offset = arfcn_range[2]
if offset is not None:
f = f_start + (__chan_spacing * (arfcn - offset))
return round(f, 1)
if arfcn_start <= arfcn <= arfcn_end:
f = f_start + (__chan_spacing * (arfcn - arfcn_start + arfcns_total))
return round(f, 1)
arfcns_total = arfcn_end - arfcn_start + 1
return -1
def arfcn2downlink(arfcn, band):
if band in __band_conf and is_valid_arfcn(arfcn, band):
def arfcn2downlink(arfcn):
band = arfcn2band(arfcn)
if band is not None:
conf = __band_conf.get(band)
distance = conf['distance']
return round(arfcn2uplink(arfcn, band) + distance, 1)
return round(arfcn2uplink(arfcn) + distance, 1)
return -1
def uplink2arfcn(freq, band):
if band in __band_conf and is_valid_uplink(freq, band):
def uplink2arfcn(freq):
band = uplink2band(freq)
if band is not None:
conf = __band_conf.get(band)
f_start = conf['f_start']
offset = None
arfcns_total = 0
for arfcn_range in conf['ranges']:
arfcn_start = arfcn_range[0]
arfcn_end = arfcn_range[1]
offset = arfcn_range[2]
arfcn = int(round(offset + ((freq - f_start) / __chan_spacing), 0))
if arfcn_start <= arfcn <= arfcn_end:
arfcns_in_range = arfcn_end - arfcn_start + 1
freq_start = conf['f_start'] + arfcns_total * __chan_spacing
freq_end = freq_start + (arfcns_in_range - 1) * __chan_spacing
if freq_start <= freq <= freq_end:
arfcn = int(round(arfcn_start + ((freq - freq_start) / __chan_spacing), 0))
return arfcn
arfcns_total = arfcns_total + arfcns_in_range
return -1
def downlink2arfcn(freq, band):
if band in __band_conf and is_valid_downlink(freq, band):
def downlink2arfcn(freq):
band = downlink2band(freq)
if band is not None:
conf = __band_conf.get(band)
distance = conf['distance']
freq_uplink = freq - distance
return int(round(uplink2arfcn(freq_uplink, band), 0))
return int(round(uplink2arfcn(freq_uplink), 0))
return -1
@ -158,3 +179,4 @@ def get_arfcn_ranges(band):
arfcn_tuple = (arfcn_range[0], arfcn_range[1])
result.append(arfcn_tuple)
return result

383
python/qa_arfcn.py
View File

@ -27,280 +27,241 @@ import arfcn
import os
import sys
class qa_arfcn(gr_unittest.TestCase):
def test_001_is_valid_arfcn(self):
self.assertTrue(arfcn.is_valid_arfcn(259, 'GSM450'))
self.assertTrue(arfcn.is_valid_arfcn(277, 'GSM450'))
self.assertTrue(arfcn.is_valid_arfcn(293, 'GSM450'))
self.assertFalse(arfcn.is_valid_arfcn(258, 'GSM450'))
self.assertFalse(arfcn.is_valid_arfcn(294, 'GSM450'))
self.assertTrue(arfcn.is_valid_arfcn(259))
self.assertTrue(arfcn.is_valid_arfcn(277))
self.assertTrue(arfcn.is_valid_arfcn(293))
self.assertFalse(arfcn.is_valid_arfcn(258))
self.assertFalse(arfcn.is_valid_arfcn(294))
self.assertTrue(arfcn.is_valid_arfcn(306, 'GSM480'))
self.assertTrue(arfcn.is_valid_arfcn(323, 'GSM480'))
self.assertTrue(arfcn.is_valid_arfcn(340, 'GSM480'))
self.assertFalse(arfcn.is_valid_arfcn(305, 'GSM480'))
self.assertFalse(arfcn.is_valid_arfcn(341, 'GSM480'))
self.assertTrue(arfcn.is_valid_arfcn(306))
self.assertTrue(arfcn.is_valid_arfcn(323))
self.assertTrue(arfcn.is_valid_arfcn(340))
self.assertFalse(arfcn.is_valid_arfcn(305))
self.assertFalse(arfcn.is_valid_arfcn(341))
self.assertTrue(arfcn.is_valid_arfcn(128, 'GSM850'))
self.assertTrue(arfcn.is_valid_arfcn(199, 'GSM850'))
self.assertTrue(arfcn.is_valid_arfcn(251, 'GSM850'))
self.assertFalse(arfcn.is_valid_arfcn(127, 'GSM480'))
self.assertFalse(arfcn.is_valid_arfcn(251, 'GSM480'))
self.assertTrue(arfcn.is_valid_arfcn(128))
self.assertTrue(arfcn.is_valid_arfcn(199))
self.assertTrue(arfcn.is_valid_arfcn(251))
self.assertFalse(arfcn.is_valid_arfcn(127))
self.assertFalse(arfcn.is_valid_arfcn(252))
self.assertTrue(arfcn.is_valid_arfcn(1, 'P-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(63, 'P-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(124, 'P-GSM'))
self.assertFalse(arfcn.is_valid_arfcn(0, 'P-GSM'))
self.assertFalse(arfcn.is_valid_arfcn(125, 'P-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(0, 'E-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(1, 'E-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(124, 'E-GSM'))
self.assertFalse(arfcn.is_valid_arfcn(125, 'E-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(0))
self.assertTrue(arfcn.is_valid_arfcn(1))
self.assertTrue(arfcn.is_valid_arfcn(124))
self.assertFalse(arfcn.is_valid_arfcn(125))
self.assertTrue(arfcn.is_valid_arfcn(975, 'E-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(999, 'E-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(1023, 'E-GSM'))
self.assertFalse(arfcn.is_valid_arfcn(974, 'E-GSM'))
self.assertFalse(arfcn.is_valid_arfcn(1024, 'E-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(0))
self.assertTrue(arfcn.is_valid_arfcn(1))
self.assertTrue(arfcn.is_valid_arfcn(124))
self.assertFalse(arfcn.is_valid_arfcn(125))
self.assertTrue(arfcn.is_valid_arfcn(0, 'R-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(1, 'R-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(124, 'R-GSM'))
self.assertFalse(arfcn.is_valid_arfcn(125, 'R-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(955))
self.assertTrue(arfcn.is_valid_arfcn(989))
self.assertTrue(arfcn.is_valid_arfcn(1023))
self.assertFalse(arfcn.is_valid_arfcn(954))
self.assertFalse(arfcn.is_valid_arfcn(1024))
self.assertTrue(arfcn.is_valid_arfcn(955, 'R-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(989, 'R-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(1023, 'R-GSM'))
self.assertFalse(arfcn.is_valid_arfcn(954, 'R-GSM'))
self.assertFalse(arfcn.is_valid_arfcn(1024, 'R-GSM'))
self.assertTrue(arfcn.is_valid_arfcn(512, 'DCS1800'))
self.assertTrue(arfcn.is_valid_arfcn(732, 'DCS1800'))
self.assertTrue(arfcn.is_valid_arfcn(885, 'DCS1800'))
self.assertFalse(arfcn.is_valid_arfcn(511, 'DCS1800'))
self.assertFalse(arfcn.is_valid_arfcn(886, 'DCS1800'))
self.assertTrue(arfcn.is_valid_arfcn(512, 'PCS1900'))
self.assertTrue(arfcn.is_valid_arfcn(691, 'PCS1900'))
self.assertTrue(arfcn.is_valid_arfcn(810, 'PCS1900'))
self.assertFalse(arfcn.is_valid_arfcn(511, 'PCS1900'))
self.assertFalse(arfcn.is_valid_arfcn(811, 'PCS1900'))
self.assertTrue(arfcn.is_valid_arfcn(512))
self.assertTrue(arfcn.is_valid_arfcn(732))
self.assertTrue(arfcn.is_valid_arfcn(885))
self.assertFalse(arfcn.is_valid_arfcn(511))
self.assertFalse(arfcn.is_valid_arfcn(886))
self.assertTrue(arfcn.is_valid_arfcn(512+2**15))
self.assertTrue(arfcn.is_valid_arfcn(691+2**15))
self.assertTrue(arfcn.is_valid_arfcn(810+2**15))
self.assertFalse(arfcn.is_valid_arfcn(511+2**15))
self.assertFalse(arfcn.is_valid_arfcn(811+2**15))
def test_002_is_valid_uplink(self):
self.assertTrue(arfcn.is_valid_uplink(450.6e6, 'GSM450'))
self.assertTrue(arfcn.is_valid_uplink(457.4e6, 'GSM450'))
self.assertFalse(arfcn.is_valid_uplink(450.4e6, 'GSM450'))
self.assertFalse(arfcn.is_valid_uplink(457.6e6, 'GSM450'))
self.assertTrue(arfcn.is_valid_uplink(450.6e6))
self.assertTrue(arfcn.is_valid_uplink(457.4e6))
self.assertFalse(arfcn.is_valid_uplink(450.4e6))
self.assertFalse(arfcn.is_valid_uplink(457.6e6))
self.assertTrue(arfcn.is_valid_uplink(479e6, 'GSM480'))
self.assertTrue(arfcn.is_valid_uplink(485.8e6, 'GSM480'))
self.assertFalse(arfcn.is_valid_uplink(478.8e6, 'GSM480'))
self.assertFalse(arfcn.is_valid_uplink(486e6, 'GSM480'))
self.assertTrue(arfcn.is_valid_uplink(479e6))
self.assertTrue(arfcn.is_valid_uplink(485.8e6))
self.assertFalse(arfcn.is_valid_uplink(478.8e6))
self.assertFalse(arfcn.is_valid_uplink(486e6))
self.assertTrue(arfcn.is_valid_uplink(824.2e6, 'GSM850'))
self.assertTrue(arfcn.is_valid_uplink(848.8e6, 'GSM850'))
self.assertFalse(arfcn.is_valid_uplink(824e6, 'GSM850'))
self.assertFalse(arfcn.is_valid_uplink(849e6, 'GSM850'))
self.assertTrue(arfcn.is_valid_uplink(824.2e6))
self.assertTrue(arfcn.is_valid_uplink(848.8e6))
self.assertFalse(arfcn.is_valid_uplink(824e6))
self.assertFalse(arfcn.is_valid_uplink(849e6))
self.assertTrue(arfcn.is_valid_uplink(890.2e6, 'P-GSM'))
self.assertTrue(arfcn.is_valid_uplink(914.8e6, 'P-GSM'))
self.assertFalse(arfcn.is_valid_uplink(890e6, 'P-GSM'))
self.assertFalse(arfcn.is_valid_uplink(915e6, 'P-GSM'))
self.assertTrue(arfcn.is_valid_uplink(876.2e6))
self.assertTrue(arfcn.is_valid_uplink(889.8e6))
self.assertTrue(arfcn.is_valid_uplink(890.0e6))
self.assertTrue(arfcn.is_valid_uplink(914.8e6))
self.assertFalse(arfcn.is_valid_uplink(876e6))
self.assertFalse(arfcn.is_valid_uplink(915e6))
self.assertTrue(arfcn.is_valid_uplink(880.2e6, 'E-GSM'))
self.assertTrue(arfcn.is_valid_uplink(889.8e6, 'E-GSM'))
self.assertTrue(arfcn.is_valid_uplink(890.0e6, 'E-GSM'))
self.assertTrue(arfcn.is_valid_uplink(914.8e6, 'E-GSM'))
self.assertFalse(arfcn.is_valid_uplink(880e6, 'E-GSM'))
self.assertFalse(arfcn.is_valid_uplink(915e6, 'E-GSM'))
self.assertTrue(arfcn.is_valid_uplink(1710.2e6))
self.assertTrue(arfcn.is_valid_uplink(1784.8e6))
self.assertFalse(arfcn.is_valid_uplink(1710e6))
self.assertFalse(arfcn.is_valid_uplink(1785e6))
self.assertTrue(arfcn.is_valid_uplink(876.2e6, 'R-GSM'))
self.assertTrue(arfcn.is_valid_uplink(889.8e6, 'R-GSM'))
self.assertTrue(arfcn.is_valid_uplink(890.0e6, 'R-GSM'))
self.assertTrue(arfcn.is_valid_uplink(914.8e6, 'R-GSM'))
self.assertFalse(arfcn.is_valid_uplink(876e6, 'R-GSM'))
self.assertFalse(arfcn.is_valid_uplink(915e6, 'R-GSM'))
self.assertTrue(arfcn.is_valid_uplink(1710.2e6, 'DCS1800'))
self.assertTrue(arfcn.is_valid_uplink(1784.8e6, 'DCS1800'))
self.assertFalse(arfcn.is_valid_uplink(1710e6, 'DCS1800'))
self.assertFalse(arfcn.is_valid_uplink(1785e6, 'DCS1800'))
self.assertTrue(arfcn.is_valid_uplink(1850.2e6, 'PCS1900'))
self.assertTrue(arfcn.is_valid_uplink(1909.8e6, 'PCS1900'))
self.assertFalse(arfcn.is_valid_uplink(1850e6, 'PCS1900'))
self.assertFalse(arfcn.is_valid_uplink(1910e6, 'PCS1900'))
self.assertTrue(arfcn.is_valid_uplink(1850.2e6))
self.assertTrue(arfcn.is_valid_uplink(1909.8e6))
self.assertFalse(arfcn.is_valid_uplink(1850e6))
self.assertFalse(arfcn.is_valid_uplink(1910e6))
def test_003_is_valid_downlink(self):
self.assertTrue(arfcn.is_valid_downlink(460.6e6, 'GSM450'))
self.assertTrue(arfcn.is_valid_downlink(467.4e6, 'GSM450'))
self.assertFalse(arfcn.is_valid_downlink(460.4e6, 'GSM450'))
self.assertFalse(arfcn.is_valid_downlink(467.6e6, 'GSM450'))
self.assertTrue(arfcn.is_valid_downlink(460.6e6))
self.assertTrue(arfcn.is_valid_downlink(467.4e6))
self.assertFalse(arfcn.is_valid_downlink(460.4e6))
self.assertFalse(arfcn.is_valid_downlink(467.6e6))
self.assertTrue(arfcn.is_valid_downlink(489e6, 'GSM480'))
self.assertTrue(arfcn.is_valid_downlink(495.8e6, 'GSM480'))
self.assertFalse(arfcn.is_valid_downlink(488.8e6, 'GSM480'))
self.assertFalse(arfcn.is_valid_downlink(496e6, 'GSM480'))
self.assertTrue(arfcn.is_valid_downlink(489e6))
self.assertTrue(arfcn.is_valid_downlink(495.8e6))
self.assertFalse(arfcn.is_valid_downlink(488.8e6))
self.assertFalse(arfcn.is_valid_downlink(496e6))
self.assertTrue(arfcn.is_valid_downlink(869.2e6, 'GSM850'))
self.assertTrue(arfcn.is_valid_downlink(893.8e6, 'GSM850'))
self.assertFalse(arfcn.is_valid_downlink(869e6, 'GSM850'))
self.assertFalse(arfcn.is_valid_downlink(894e6, 'GSM850'))
self.assertTrue(arfcn.is_valid_downlink(869.2e6))
self.assertTrue(arfcn.is_valid_downlink(893.8e6))
self.assertFalse(arfcn.is_valid_downlink(869e6))
self.assertFalse(arfcn.is_valid_downlink(894e6))
self.assertTrue(arfcn.is_valid_downlink(935.2e6, 'P-GSM'))
self.assertTrue(arfcn.is_valid_downlink(959.8e6, 'P-GSM'))
self.assertFalse(arfcn.is_valid_downlink(935e6, 'P-GSM'))
self.assertFalse(arfcn.is_valid_downlink(960e6, 'P-GSM'))
self.assertTrue(arfcn.is_valid_downlink(921.2e6))
self.assertTrue(arfcn.is_valid_downlink(934.8e6))
self.assertTrue(arfcn.is_valid_downlink(935.0e6))
self.assertTrue(arfcn.is_valid_downlink(959.8e6))
self.assertFalse(arfcn.is_valid_downlink(921e6))
self.assertFalse(arfcn.is_valid_downlink(960e6))
self.assertTrue(arfcn.is_valid_downlink(925.2e6, 'E-GSM'))
self.assertTrue(arfcn.is_valid_downlink(934.8e6, 'E-GSM'))
self.assertTrue(arfcn.is_valid_downlink(935.0e6, 'E-GSM'))
self.assertTrue(arfcn.is_valid_downlink(959.8e6, 'E-GSM'))
self.assertFalse(arfcn.is_valid_downlink(925e6, 'E-GSM'))
self.assertFalse(arfcn.is_valid_downlink(960e6, 'E-GSM'))
self.assertTrue(arfcn.is_valid_downlink(1805.2e6))
self.assertTrue(arfcn.is_valid_downlink(1879.8e6))
self.assertFalse(arfcn.is_valid_downlink(1805e6))
self.assertFalse(arfcn.is_valid_downlink(1880e6))
self.assertTrue(arfcn.is_valid_downlink(921.2e6, 'R-GSM'))
self.assertTrue(arfcn.is_valid_downlink(934.8e6, 'R-GSM'))
self.assertTrue(arfcn.is_valid_downlink(935.0e6, 'R-GSM'))
self.assertTrue(arfcn.is_valid_downlink(959.8e6, 'R-GSM'))
self.assertFalse(arfcn.is_valid_downlink(921e6, 'R-GSM'))
self.assertFalse(arfcn.is_valid_downlink(960e6, 'R-GSM'))
self.assertTrue(arfcn.is_valid_downlink(1805.2e6, 'DCS1800'))
self.assertTrue(arfcn.is_valid_downlink(1879.8e6, 'DCS1800'))
self.assertFalse(arfcn.is_valid_downlink(1805e6, 'DCS1800'))
self.assertFalse(arfcn.is_valid_downlink(1880e6, 'DCS1800'))
self.assertTrue(arfcn.is_valid_downlink(1930.2e6, 'PCS1900'))
self.assertTrue(arfcn.is_valid_downlink(1989.8e6, 'PCS1900'))
self.assertFalse(arfcn.is_valid_downlink(1930e6, 'PCS1900'))
self.assertFalse(arfcn.is_valid_downlink(1990e6, 'PCS1900'))
self.assertTrue(arfcn.is_valid_downlink(1930.2e6))
self.assertTrue(arfcn.is_valid_downlink(1989.8e6))
self.assertFalse(arfcn.is_valid_downlink(1930e6))
self.assertFalse(arfcn.is_valid_downlink(1990e6))
def test_004_arfcn2uplink(self):
self.assertEqual(450.6e6, arfcn.arfcn2uplink(259, 'GSM450'))
self.assertEqual(457.4e6, arfcn.arfcn2uplink(293, 'GSM450'))
self.assertEqual(450.6e6, arfcn.arfcn2uplink(259))
self.assertEqual(457.4e6, arfcn.arfcn2uplink(293))
self.assertEqual(479e6, arfcn.arfcn2uplink(306, 'GSM480'))
self.assertEqual(485.8e6, arfcn.arfcn2uplink(340, 'GSM480'))
self.assertEqual(479e6, arfcn.arfcn2uplink(306))
self.assertEqual(485.8e6, arfcn.arfcn2uplink(340))
self.assertEqual(824.2e6, arfcn.arfcn2uplink(128, 'GSM850'))
self.assertEqual(848.8e6, arfcn.arfcn2uplink(251, 'GSM850'))
self.assertEqual(824.2e6, arfcn.arfcn2uplink(128))
self.assertEqual(848.8e6, arfcn.arfcn2uplink(251))
self.assertEqual(890.2e6, arfcn.arfcn2uplink(1, 'P-GSM'))
self.assertEqual(914.8e6, arfcn.arfcn2uplink(124, 'P-GSM'))
self.assertEqual(890.2e6, arfcn.arfcn2uplink(1))
self.assertEqual(914.8e6, arfcn.arfcn2uplink(124))
self.assertEqual(890.0e6, arfcn.arfcn2uplink(0, 'E-GSM'))
self.assertEqual(914.8e6, arfcn.arfcn2uplink(124, 'E-GSM'))
self.assertEqual(880.2e6, arfcn.arfcn2uplink(975, 'E-GSM'))
self.assertEqual(889.8e6, arfcn.arfcn2uplink(1023, 'E-GSM'))
self.assertEqual(890.0e6, arfcn.arfcn2uplink(0))
self.assertEqual(914.8e6, arfcn.arfcn2uplink(124))
self.assertEqual(880.2e6, arfcn.arfcn2uplink(975))
self.assertEqual(889.8e6, arfcn.arfcn2uplink(1023))
self.assertEqual(890.0e6, arfcn.arfcn2uplink(0, 'R-GSM'))
self.assertEqual(914.8e6, arfcn.arfcn2uplink(124, 'R-GSM'))
self.assertEqual(876.2e6, arfcn.arfcn2uplink(955, 'R-GSM'))
self.assertEqual(889.8e6, arfcn.arfcn2uplink(1023, 'R-GSM'))
self.assertEqual(890.0e6, arfcn.arfcn2uplink(0))
self.assertEqual(914.8e6, arfcn.arfcn2uplink(124))
self.assertEqual(876.2e6, arfcn.arfcn2uplink(955))
self.assertEqual(889.8e6, arfcn.arfcn2uplink(1023))
self.assertEqual(1710.2e6, arfcn.arfcn2uplink(512, 'DCS1800'))
self.assertEqual(1784.8e6, arfcn.arfcn2uplink(885, 'DCS1800'))
self.assertEqual(1710.2e6, arfcn.arfcn2uplink(512))
self.assertEqual(1784.8e6, arfcn.arfcn2uplink(885))
self.assertEqual(1850.2e6, arfcn.arfcn2uplink(512, 'PCS1900'))
self.assertEqual(1909.8e6, arfcn.arfcn2uplink(810, 'PCS1900'))
self.assertEqual(1850.2e6, arfcn.arfcn2uplink(512+2**15))
self.assertEqual(1909.8e6, arfcn.arfcn2uplink(810+2**15))
def test_005_arfcn2downlink(self):
self.assertEqual(460.6e6, arfcn.arfcn2downlink(259, 'GSM450'))
self.assertEqual(467.4e6, arfcn.arfcn2downlink(293, 'GSM450'))
self.assertEqual(460.6e6, arfcn.arfcn2downlink(259))
self.assertEqual(467.4e6, arfcn.arfcn2downlink(293))
self.assertEqual(489e6, arfcn.arfcn2downlink(306, 'GSM480'))
self.assertEqual(495.8e6, arfcn.arfcn2downlink(340, 'GSM480'))
self.assertEqual(489e6, arfcn.arfcn2downlink(306))
self.assertEqual(495.8e6, arfcn.arfcn2downlink(340))
self.assertEqual(869.2e6, arfcn.arfcn2downlink(128, 'GSM850'))
self.assertEqual(893.8e6, arfcn.arfcn2downlink(251, 'GSM850'))
self.assertEqual(869.2e6, arfcn.arfcn2downlink(128))
self.assertEqual(893.8e6, arfcn.arfcn2downlink(251))
self.assertEqual(935.2e6, arfcn.arfcn2downlink(1, 'P-GSM'))
self.assertEqual(959.8e6, arfcn.arfcn2downlink(124, 'P-GSM'))
self.assertEqual(935.2e6, arfcn.arfcn2downlink(1))
self.assertEqual(959.8e6, arfcn.arfcn2downlink(124))
self.assertEqual(935.0e6, arfcn.arfcn2downlink(0, 'E-GSM'))
self.assertEqual(959.8e6, arfcn.arfcn2downlink(124, 'E-GSM'))
self.assertEqual(925.2e6, arfcn.arfcn2downlink(975, 'E-GSM'))
self.assertEqual(934.8e6, arfcn.arfcn2downlink(1023, 'E-GSM'))
self.assertEqual(935.0e6, arfcn.arfcn2downlink(0))
self.assertEqual(959.8e6, arfcn.arfcn2downlink(124))
self.assertEqual(925.2e6, arfcn.arfcn2downlink(975))
self.assertEqual(934.8e6, arfcn.arfcn2downlink(1023))
self.assertEqual(935.0e6, arfcn.arfcn2downlink(0, 'R-GSM'))
self.assertEqual(959.8e6, arfcn.arfcn2downlink(124, 'R-GSM'))
self.assertEqual(921.2e6, arfcn.arfcn2downlink(955, 'R-GSM'))
self.assertEqual(934.8e6, arfcn.arfcn2downlink(1023, 'R-GSM'))
self.assertEqual(935.0e6, arfcn.arfcn2downlink(0))
self.assertEqual(959.8e6, arfcn.arfcn2downlink(124))
self.assertEqual(921.2e6, arfcn.arfcn2downlink(955))
self.assertEqual(934.8e6, arfcn.arfcn2downlink(1023))
self.assertEqual(1805.2e6, arfcn.arfcn2downlink(512, 'DCS1800'))
self.assertEqual(1879.8e6, arfcn.arfcn2downlink(885, 'DCS1800'))
self.assertEqual(1930.2e6, arfcn.arfcn2downlink(512, 'PCS1900'))
self.assertEqual(1989.8e6, arfcn.arfcn2downlink(810, 'PCS1900'))
self.assertEqual(1805.2e6, arfcn.arfcn2downlink(512))
self.assertEqual(1879.8e6, arfcn.arfcn2downlink(885))
self.assertEqual(1930.2e6, arfcn.arfcn2downlink(512+2**15))
self.assertEqual(1989.8e6, arfcn.arfcn2downlink(810+2**15))
def test_006_uplink2arfcn(self):
self.assertEqual(259, arfcn.uplink2arfcn(450.6e6, 'GSM450'))
self.assertEqual(293, arfcn.uplink2arfcn(457.4e6, 'GSM450'))
self.assertEqual(259, arfcn.uplink2arfcn(450.6e6))
self.assertEqual(293, arfcn.uplink2arfcn(457.4e6))
self.assertEqual(306, arfcn.uplink2arfcn(479e6, 'GSM480'))
self.assertEqual(340, arfcn.uplink2arfcn(485.8e6, 'GSM480'))
self.assertEqual(306, arfcn.uplink2arfcn(479e6))
self.assertEqual(340, arfcn.uplink2arfcn(485.8e6))
self.assertEqual(128, arfcn.uplink2arfcn(824.2e6, 'GSM850'))
self.assertEqual(251, arfcn.uplink2arfcn(848.8e6, 'GSM850'))
self.assertEqual(128, arfcn.uplink2arfcn(824.2e6))
self.assertEqual(251, arfcn.uplink2arfcn(848.8e6))
self.assertEqual(1, arfcn.uplink2arfcn(890.2e6, 'P-GSM'))
self.assertEqual(124, arfcn.uplink2arfcn(914.8e6, 'P-GSM'))
self.assertEqual(1, arfcn.uplink2arfcn(890.2e6))
self.assertEqual(124, arfcn.uplink2arfcn(914.8e6))
self.assertEqual(0, arfcn.uplink2arfcn(890.0e6, 'E-GSM'))
self.assertEqual(124, arfcn.uplink2arfcn(914.8e6, 'E-GSM'))
self.assertEqual(975, arfcn.uplink2arfcn(880.2e6, 'E-GSM'))
self.assertEqual(1023, arfcn.uplink2arfcn(889.8e6, 'E-GSM'))
self.assertEqual(0, arfcn.uplink2arfcn(890.0e6))
self.assertEqual(124, arfcn.uplink2arfcn(914.8e6))
self.assertEqual(975, arfcn.uplink2arfcn(880.2e6))
self.assertEqual(1023, arfcn.uplink2arfcn(889.8e6))
self.assertEqual(0, arfcn.uplink2arfcn(890.0e6, 'R-GSM'))
self.assertEqual(124, arfcn.uplink2arfcn(914.8e6, 'R-GSM'))
self.assertEqual(955, arfcn.uplink2arfcn(876.2e6, 'R-GSM'))
self.assertEqual(1023, arfcn.uplink2arfcn(889.8e6, 'R-GSM'))
self.assertEqual(0, arfcn.uplink2arfcn(890.0e6))
self.assertEqual(124, arfcn.uplink2arfcn(914.8e6))
self.assertEqual(955, arfcn.uplink2arfcn(876.2e6))
self.assertEqual(1023, arfcn.uplink2arfcn(889.8e6))
self.assertEqual(512, arfcn.uplink2arfcn(1710.2e6, 'DCS1800'))
self.assertEqual(885, arfcn.uplink2arfcn(1784.8e6, 'DCS1800'))
self.assertEqual(512, arfcn.uplink2arfcn(1710.2e6))
self.assertEqual(885, arfcn.uplink2arfcn(1784.8e6))
self.assertEqual(512, arfcn.uplink2arfcn(1850.2e6, 'PCS1900'))
self.assertEqual(810, arfcn.uplink2arfcn(1909.8e6, 'PCS1900'))
self.assertEqual(512+2**15, arfcn.uplink2arfcn(1850.2e6))
self.assertEqual(810+2**15, arfcn.uplink2arfcn(1909.8e6))
def test_007_downlink2arfcn(self):
self.assertEqual(259, arfcn.downlink2arfcn(460.6e6, 'GSM450'))
self.assertEqual(293, arfcn.downlink2arfcn(467.4e6, 'GSM450'))
self.assertEqual(259, arfcn.downlink2arfcn(460.6e6))
self.assertEqual(293, arfcn.downlink2arfcn(467.4e6))
self.assertEqual(306, arfcn.downlink2arfcn(489e6, 'GSM480'))
self.assertEqual(340, arfcn.downlink2arfcn(495.8e6, 'GSM480'))
self.assertEqual(306, arfcn.downlink2arfcn(489e6,))
self.assertEqual(340, arfcn.downlink2arfcn(495.8e6))
self.assertEqual(128, arfcn.downlink2arfcn(869.2e6, 'GSM850'))
self.assertEqual(251, arfcn.downlink2arfcn(893.8e6, 'GSM850'))
self.assertEqual(128, arfcn.downlink2arfcn(869.2e6))
self.assertEqual(251, arfcn.downlink2arfcn(893.8e6))
self.assertEqual(1, arfcn.downlink2arfcn(935.2e6, 'P-GSM'))
self.assertEqual(124, arfcn.downlink2arfcn(959.8e6, 'P-GSM'))
self.assertEqual(1, arfcn.downlink2arfcn(935.2e6))
self.assertEqual(124, arfcn.downlink2arfcn(959.8e6))
self.assertEqual(0, arfcn.downlink2arfcn(935.0e6, 'E-GSM'))
self.assertEqual(124, arfcn.downlink2arfcn(959.8e6, 'E-GSM'))
self.assertEqual(975, arfcn.downlink2arfcn(925.2e6, 'E-GSM'))
self.assertEqual(1023, arfcn.downlink2arfcn(934.8e6, 'E-GSM'))
self.assertEqual(0, arfcn.downlink2arfcn(935.0e6))
self.assertEqual(124, arfcn.downlink2arfcn(959.8e6))
self.assertEqual(975, arfcn.downlink2arfcn(925.2e6))
self.assertEqual(1023, arfcn.downlink2arfcn(934.8e6))
self.assertEqual(0, arfcn.downlink2arfcn(935.0e6, 'R-GSM'))
self.assertEqual(124, arfcn.downlink2arfcn(959.8e6, 'R-GSM'))
self.assertEqual(955, arfcn.downlink2arfcn(921.2e6, 'R-GSM'))
self.assertEqual(1023, arfcn.downlink2arfcn(934.8e6, 'R-GSM'))
self.assertEqual(0, arfcn.downlink2arfcn(935.0e6))
self.assertEqual(124, arfcn.downlink2arfcn(959.8e6))
self.assertEqual(955, arfcn.downlink2arfcn(921.2e6))
self.assertEqual(1023, arfcn.downlink2arfcn(934.8e6))
self.assertEqual(512, arfcn.downlink2arfcn(1805.2e6, 'DCS1800'))
self.assertEqual(885, arfcn.downlink2arfcn(1879.8e6, 'DCS1800'))
self.assertEqual(512, arfcn.downlink2arfcn(1805.2e6))
self.assertEqual(885, arfcn.downlink2arfcn(1879.8e6))
self.assertEqual(512, arfcn.downlink2arfcn(1930.2e6, 'PCS1900'))
self.assertEqual(810, arfcn.downlink2arfcn(1989.8e6, 'PCS1900'))
self.assertEqual(512+2**15, arfcn.downlink2arfcn(1930.2e6))
self.assertEqual(810+2**15, arfcn.downlink2arfcn(1989.8e6))
def test_008_get_arfcn_ranges(self):
self.assertEqual(1, len(arfcn.get_arfcn_ranges('GSM450')))
self.assertEqual(1, len(arfcn.get_arfcn_ranges('GSM480')))
self.assertEqual(1, len(arfcn.get_arfcn_ranges('GSM850')))
self.assertEqual(1, len(arfcn.get_arfcn_ranges('P-GSM')))
self.assertEqual(2, len(arfcn.get_arfcn_ranges('E-GSM')))
self.assertEqual(2, len(arfcn.get_arfcn_ranges('R-GSM')))
self.assertEqual(2, len(arfcn.get_arfcn_ranges('GSM900')))
self.assertEqual(1, len(arfcn.get_arfcn_ranges('DCS1800')))
self.assertEqual(1, len(arfcn.get_arfcn_ranges('PCS1900')))