Commit 6513d4d7 authored by Lu Xu's avatar Lu Xu 👀

software/ors-amarisoft: add FDD support

parent 0ad64e49
#define N_RB_DL {{ slapparameter_dict.get('n_rb_dl', slap_configuration['configuration.default_lte_n_rb_dl']) }}
#define N_ANTENNA_DL {{ slapparameter_dict.get('n_antenna_dl', slap_configuration['configuration.default_n_antenna_dl']) }}
#define N_ANTENNA_UL {{ slapparameter_dict.get('n_antenna_ul', slap_configuration['configuration.default_n_antenna_ul']) }}
{
{% if slapparameter_dict.get('log_phy_debug', False) %}
log_options: "all.level=error,all.max_size=0,nas.level=debug,nas.max_size=1,s1ap.level=debug,s1ap.max_size=1,x2ap.level=debug,x2ap.max_size=1,rrc.level=debug,rrc.max_size=1,phy.level=debug,file.rotate=1G,file.path=/dev/null",
{% else %}
log_options: "all.level=error,all.max_size=0,nas.level=debug,nas.max_size=1,s1ap.level=debug,s1ap.max_size=1,x2ap.level=debug,x2ap.max_size=1,rrc.level=debug,rrc.max_size=1,phy.level=info,file.rotate=1G,file.path=/dev/null",
{% endif %}
log_filename: "{{ directory['log'] }}/enb.log",
rf_driver: {
name: "sdr",
#if N_ANTENNA_DL >= 4
args: "dev0=/dev/sdr0,dev1=/dev/sdr1",
#else
args: "dev0=/dev/sdr0",
#endif
{% if slapparameter_dict.get('gps_sync', False) %}
sync: "gps",
{% endif %}
rx_antenna: "tx_rx",
tdd_tx_mod: 1,
},
tx_gain: {{ slapparameter_dict.get('tx_gain', slap_configuration['configuration.default_nr_tx_gain']) }},
rx_gain: {{ slapparameter_dict.get('rx_gain', slap_configuration['configuration.default_nr_rx_gain']) }},
com_addr: "127.0.1.2:9001",
mme_list: [
{% if slapparameter_dict.get('mme_list', '') %}
{%- for i, k in enumerate(slapparameter_dict['mme_list']) %}
{%- if i == 0 %}
{
{%- else -%}
, {
{%- endif %}
mme_addr: "{{ slapparameter_dict['mme_list'][k]['mme_addr'] }}",
}
{%- endfor -%}
{% else %}
{
mme_addr: "127.0.1.100",
},
{% endif %}
],
{% if slapparameter_dict.get('mme_list', '') %}
{% if slapparameter_dict.get('use_ipv4', False) %}
gtp_addr: "{{ gtp_addr_v4 }}",
{% else %}
gtp_addr: "{{ gtp_addr_v6 }}",
{% endif %}
{% else %}
gtp_addr: "127.0.1.1",
{% endif %}
enb_id: {{ slapparameter_dict.get('enb_id', '0x1A2D0') }},
cell_list: [
{
plmn_list: [
{%- if slapparameter_dict.get('plmn_list', '') %}
{%- for i, k in enumerate(slapparameter_dict['plmn_list']) %}
{%- if i == 0 -%}
{
{%- else -%}
, {
{%- endif %}
plmn: "{{ slapparameter_dict['plmn_list'][k]['plmn'] }}",
reserved: {{ str(slapparameter_dict['plmn_list'][k].get('reserved', false)).lower() }},
attach_without_pdn: {{ str(slapparameter_dict['plmn_list'][k].get('attach_without_pdn', false)).lower() }},
}
{%- endfor -%}
{% else %}
"00101",
{% endif %}
],
dl_earfcn: {{ slapparameter_dict.get('dl_earfcn', slap_configuration['configuration.default_dl_earfcn']) }},
n_id_cell: {{ slapparameter_dict.get('pci', 1) }},
cell_id: {{ slapparameter_dict.get('cell_id', '0x01') }},
tac: 0x0001,
root_sequence_index: 204,
},
],
cell_default: {
n_antenna_dl: N_ANTENNA_DL, /* number of DL antennas */
n_antenna_ul: N_ANTENNA_UL, /* number of UL antennas */
n_rb_dl: N_RB_DL,
cyclic_prefix: "normal",
phich_duration: "normal",
phich_resource: "1",
si_value_tag: 0,
cell_barred: false,
intra_freq_reselection: true,
q_rx_lev_min: -70,
p_max: 10,
si_window_length: 40,
sib_sched_list: [
{
filename: "{{ sib23 }}",
si_periodicity: 16,
},
],
#if N_RB_DL == 6
si_coderate: 0.30, /* maximum code rate for SI/RA/P-RNTI messages */
#else
si_coderate: 0.20, /* maximum code rate for SI/RA/P-RNTI messages */
#endif
si_pdcch_format: 2,
n_symb_cch: 0,
pdsch_dedicated: {
#if N_ANTENNA_DL == 4
p_a: -6,
#elif N_ANTENNA_DL == 2
p_a: -3,
#else
p_a: 0,
#endif
p_b: -1,
},
#if N_RB_DL == 6
pdcch_format: 1,
#else
pdcch_format: 2,
#endif
#if N_RB_DL == 6
prach_config_index: 15, /* subframe 9 every 20 ms */
#else
prach_config_index: 4, /* subframe 4 every 10 ms */
#endif
prach_freq_offset: -1,
pucch_dedicated: {
n1_pucch_sr_count: 11,
cqi_pucch_n_rb: 1,
},
pusch_dedicated: {
beta_offset_ack_index: 9,
beta_offset_ri_index: 6,
beta_offset_cqi_index: 6,
},
pusch_hopping_offset: -1,
pusch_msg3_mcs: 0,
#if N_RB_DL == 6
initial_cqi: 5,
#else
initial_cqi: 3,
#endif
dl_256qam: true,
ul_64qam: true,
sr_period: 20,
cqi_period: 40,
#if N_ANTENNA_DL >= 2
/* RI reporting is done with a period of m_ri * cqi_period.
m_ri = 0 (default) disables RI reporting. */
m_ri: 8,
/* transmission mode */
transmission_mode: 3,
#endif
transmission_mode: 3,
srs_dedicated: {
#if N_RB_DL == 6
srs_bandwidth_config: 7,
srs_bandwidth: 1,
#elif N_RB_DL == 15
srs_bandwidth_config: 6,
srs_bandwidth: 1,
#elif N_RB_DL == 25
srs_bandwidth_config: 3,
srs_bandwidth: 1,
#elif N_RB_DL == 50
srs_bandwidth_config: 2,
srs_bandwidth: 2,
#elif N_RB_DL == 75
srs_bandwidth_config: 2,
srs_bandwidth: 2,
#else
srs_bandwidth_config: 2,
srs_bandwidth: 3,
#endif
srs_subframe_config: 3,
srs_period: 40,
srs_hopping_bandwidth: 0,
},
mac_config: {
ul_max_harq_tx: 5,
dl_max_harq_tx: 5,
},
pusch_max_its: 6,
dpc: true,
dpc_pusch_snr_target: 25,
dpc_pucch_snr_target: 20,
cipher_algo_pref: [],
integ_algo_pref: [2, 1],
inactivity_timer: {{ slapparameter_dict.get('inactivity_timer', slap_configuration['configuration.default_lte_inactivity_timer']) }},
srb_config: [
{
id: 1,
maxRetxThreshold: 32,
t_Reordering: 45,
t_PollRetransmit: 60,
},
{
id: 2 ,
maxRetxThreshold: 32,
t_Reordering: 45,
t_PollRetransmit: 60,
}
],
drb_config: [
{
qci: 1,
ims_dedicated_bearer: true,
pdcp_config: {
discardTimer: 100,
pdcp_SN_Size: 7,
},
nr_pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 12,
pdcp_SN_SizeDL: 12,
statusReportRequired: false,
outOfOrderDelivery: false,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_um: {
sn_FieldLength: 5,
},
dl_um: {
sn_FieldLength: 5,
t_Reordering: 35,
},
},
logical_channel_config: {
priority: 7,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 1,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 2,
ims_dedicated_bearer: true,
pdcp_config: {
discardTimer: 150,
pdcp_SN_Size: 12,
},
nr_pdcp_config: {
discardTimer: 150,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_um: {
sn_FieldLength: 10,
},
dl_um: {
sn_FieldLength: 10,
t_Reordering: 35,
},
},
logical_channel_config: {
priority: 9,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 1,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 3,
pdcp_config: {
discardTimer: 100,
pdcp_SN_Size: 12,
},
nr_pdcp_config: {
discardTimer: 100,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_um: {
sn_FieldLength: 10,
},
dl_um: {
sn_FieldLength: 10,
t_Reordering: 35,
},
},
logical_channel_config: {
priority: 8,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 1,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 4,
pdcp_config: {
discardTimer: 0,
statusReportRequired: true,
},
nr_pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_am: {
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 32,
},
dl_am: {
t_Reordering: 35,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 10,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 1,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 65,
ims_dedicated_bearer: true,
pdcp_config: {
discardTimer: 100,
pdcp_SN_Size: 7,
},
nr_pdcp_config: {
discardTimer: 100,
pdcp_SN_SizeUL: 12,
pdcp_SN_SizeDL: 12,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_um: {
sn_FieldLength: 5,
},
dl_um: {
sn_FieldLength: 5,
t_Reordering: 35,
},
},
logical_channel_config: {
priority: 5,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 1,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 66,
ims_dedicated_bearer: true,
pdcp_config: {
discardTimer: 150,
pdcp_SN_Size: 12,
},
nr_pdcp_config: {
discardTimer: 150,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_um: {
sn_FieldLength: 10,
},
dl_um: {
sn_FieldLength: 10,
t_Reordering: 35,
},
},
logical_channel_config: {
priority: 7,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 1,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 67,
ims_dedicated_bearer: true,
pdcp_config: {
discardTimer: 100,
pdcp_SN_Size: 12,
},
nr_pdcp_config: {
discardTimer: 100,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_um: {
sn_FieldLength: 10,
},
dl_um: {
sn_FieldLength: 10,
t_Reordering: 35,
},
},
logical_channel_config: {
priority: 6,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 1,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 5,
pdcp_config: {
discardTimer: 0,
statusReportRequired: true,
},
nr_pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_am: {
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 32,
},
dl_am: {
t_Reordering: 35,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 6,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 1,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 6,
pdcp_config: {
discardTimer: 0,
statusReportRequired: true,
},
nr_pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_am: {
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 32,
},
dl_am: {
t_Reordering: 35,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 12,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 2,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 7,
pdcp_config: {
discardTimer: 100,
pdcp_SN_Size: 12,
},
nr_pdcp_config: {
discardTimer: 100,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_um: {
sn_FieldLength: 10,
},
dl_um: {
sn_FieldLength: 10,
t_Reordering: 35,
},
},
logical_channel_config: {
priority: 13,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 2,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 8,
pdcp_config: {
discardTimer: 0,
statusReportRequired: true,
},
nr_pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_am: {
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 32,
},
dl_am: {
t_Reordering: 35,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 14,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 2,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 9,
pdcp_config: {
discardTimer: 0,
statusReportRequired: true,
},
nr_pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
},
en_dc_split: {
type: "scg",
ul_data_threshold: 0
},
rlc_config: {
ul_am: {
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 32,
},
dl_am: {
t_Reordering: 35,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 15,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 3,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 69,
pdcp_config: {
discardTimer: 0,
statusReportRequired: true,
},
nr_pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_am: {
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 32,
},
dl_am: {
t_Reordering: 35,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 4,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 1,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
{
qci: 70,
pdcp_config: {
discardTimer: 0,
statusReportRequired: true,
},
nr_pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
restrict_to_ng_enb: true,
},
rlc_config: {
ul_am: {
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 32,
},
dl_am: {
t_Reordering: 35,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 11,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 2,
logicalChannelSR_Mask: false,
logicalChannelSR_Prohibit: false,
},
},
]
},
}
#define N_ANTENNA_DL {{ slapparameter_dict.get('n_antenna_dl', slap_configuration['configuration.default_n_antenna_dl']) }}
#define N_ANTENNA_UL {{ slapparameter_dict.get('n_antenna_ul', slap_configuration['configuration.default_n_antenna_ul']) }}
{
{% if slapparameter_dict.get('log_phy_debug', False) %}
log_options: "all.level=error,all.max_size=0,nas.level=debug,nas.max_size=1,ngap.level=debug,ngap.max_size=1,xnap.level=debug,xnap.max_size=1,rrc.level=debug,rrc.max_size=1,phy.level=debug,file.rotate=1G,file.path=/dev/null",
{% else %}
log_options: "all.level=error,all.max_size=0,nas.level=debug,nas.max_size=1,ngap.level=debug,ngap.max_size=1,xnap.level=debug,xnap.max_size=1,rrc.level=debug,rrc.max_size=1,phy.level=info,file.rotate=1G,file.path=/dev/null",
{% endif %}
log_filename: "{{ directory['log'] }}/gnb.log",
com_addr: "0.0.0.0:9001",
rf_driver: {
name: "sdr",
#if N_ANTENNA_DL >= 4
args: "dev0=/dev/sdr0,dev1=/dev/sdr1",
#else
args: "dev0=/dev/sdr0",
#endif
{% if slapparameter_dict.get('gps_sync', False) %}
sync: "gps",
{% endif %}
rx_antenna: "tx_rx",
tdd_tx_mod: 1,
},
tx_gain: {{ slapparameter_dict.get('tx_gain', slap_configuration['configuration.default_nr_tx_gain']) }},
rx_gain: {{ slapparameter_dict.get('rx_gain', slap_configuration['configuration.default_nr_rx_gain']) }},
com_addr: "127.0.1.2:9001",
amf_list: [
{% if slapparameter_dict.get('amf_list', '') %}
{%- for i, k in enumerate(slapparameter_dict['amf_list']) %}
{%- if i == 0 %}
{
{%- else -%}
, {
{%- endif %}
amf_addr: "{{ slapparameter_dict['amf_list'][k]['amf_addr'] }}",
}
{%- endfor -%}
{% else %}
{
amf_addr: "127.0.1.100",
},
{% endif %}
],
{% if slapparameter_dict.get('xn_peers', '') %}
xn_peers: [
{%- for k in slapparameter_dict['xn_peers'] -%}
"{{ slapparameter_dict['xn_peers'][k]['xn_addr'] }}",
{%- endfor -%}
],
{% endif %}
{% if slapparameter_dict.get('amf_list', '') %}
{% if slapparameter_dict.get('use_ipv4', False) %}
gtp_addr: "{{ gtp_addr_v4 }}",
{% else %}
gtp_addr: "{{ gtp_addr_v6 }}",
{% endif %}
{% else %}
gtp_addr: "127.0.1.1",
{% endif %}
gnb_id_bits: {{ slapparameter_dict.get('gnb_id_bits', 28) }},
gnb_id: {{ slapparameter_dict.get('gnb_id', '0x12345') }},
en_dc_support: true,
rf_ports: [
{
},
],
cell_list: [],
nr_cell_list: [
{
rf_port: 0,
cell_id: {{ slapparameter_dict.get('cell_id', '0x01') }},
band: {{ slapparameter_dict.get('nr_band', slap_configuration['configuration.default_nr_band']) }},
dl_nr_arfcn: {{ slapparameter_dict.get('dl_nr_arfcn', slap_configuration['configuration.default_dl_nr_arfcn']) }},
ssb_subcarrier_spacing: 15,
subcarrier_spacing: 30,
ssb_pos_bitmap: "{{ slapparameter_dict.get('ssb_pos_bitmap', slap_configuration['configuration.default_nr_ssb_pos_bitmap']) }}",
{%- if slapparameter_dict.get('ncell_list', '') %}
ncell_list: [
{%- for i, k in enumerate(slapparameter_dict['ncell_list']) %}
{%- if i == 0 -%}
{
{%- else -%}
, {
{%- endif %}
rat: "nr",
dl_nr_arfcn: {{ slapparameter_dict['ncell_list'][k].get('dl_nr_arfcn', '') }},
ssb_nr_arfcn: {{ slapparameter_dict['ncell_list'][k].get('ssb_nr_arfcn', '') }},
ul_nr_arfcn: {{ slapparameter_dict['ncell_list'][k].get('dl_nr_arfcn', '') }},
n_id_cell: {{ slapparameter_dict['ncell_list'][k].get('pci', '') }},
gnb_id_bits: {{ slapparameter_dict['ncell_list'][k].get('gnb_id_bits', '') }},
nr_cell_id: {{ slapparameter_dict['ncell_list'][k].get('nr_cell_id', '') }},
tac: {{ slapparameter_dict['ncell_list'][k].get('tac', 1) }},
band: {{ slapparameter_dict['ncell_list'][k].get('nr_band', '') }},
ssb_subcarrier_spacing: 30,
ssb_period: 20,
ssb_offset: 0,
ssb_duration: 1,
}
{%- endfor -%}
],
{% endif %}
},
],
nr_cell_default: {
bandwidth: {{ slapparameter_dict.get('nr_bandwidth', slap_configuration['configuration.default_nr_bandwidth']) }},
n_antenna_dl: N_ANTENNA_DL,
n_antenna_ul: N_ANTENNA_UL,
ssb_period: 20,
n_id_cell: {{ slapparameter_dict.get('pci', 500) }},
plmn_list: [
{%- if slapparameter_dict.get('plmn_list', '') %}
{%- for i, k in enumerate(slapparameter_dict['plmn_list']) %}
{%- if i == 0 -%}
{
{%- else -%}
, {
{%- endif %}
plmn: "{{ slapparameter_dict['plmn_list'][k]['plmn'] }}",
tac: {{ slapparameter_dict['plmn_list'][k].get('tac', 100) }},
{%- if slapparameter_dict['plmn_list'][k].get('ranac', '') %}
ranac: {{ slapparameter_dict['plmn_list'][k]['ranac'] }},
{%- endif %}
reserved: {{ str(slapparameter_dict['plmn_list'][k].get('reserved', false)).lower() }},
nssai: [
{%- if slapparameter_dict.get('nssai', '') %}
{%- for j, k in enumerate(slapparameter_dict['nssai']) %}
{%- if j == 0 %}
{
{%- else -%}
, {
{%- endif %}
sst: {{ slapparameter_dict['nssai'][k]['sst'] }},
{%- if slapparameter_dict['nssai'][k].get('sd', '') %}
sd: {{ slapparameter_dict['nssai'][k]['sd'] }},
{%- endif %}
}
{%- endfor -%}
{% else %}
{
sst: 1,
},
{% endif %}
],
}
{%- endfor -%}
{% else %}
{
plmn: "00101",
tac: 100,
reserved: false,
nssai: [
{%- if slapparameter_dict.get('nssai', '') %}
{%- for j, k in enumerate(slapparameter_dict['nssai']) %}
{%- if j == 0 %}
{
{%- else -%}
, {
{%- endif %}
sst: {{ slapparameter_dict['nssai'][k]['sst'] }},
{%- if slapparameter_dict['nssai'][k].get('sd', '') %}
sd: {{ slapparameter_dict['nssai'][k]['sd'] }},
{%- endif %}
}
{%- endfor -%}
{% else %}
{
sst: 1,
},
{% endif %}
],
},
{%- endif %}
],
si_window_length: 40,
cell_barred: false,
intra_freq_reselection: true,
q_rx_lev_min: -70,
q_qual_min: -20,
root_sequence_index: 1,
sr_period: 40,
dmrs_type_a_pos: 2,
prach: {
prach_config_index: 16,
msg1_fdm: 1,
msg1_frequency_start: -1,
zero_correlation_zone_config: 15,
preamble_received_target_power: -110,
preamble_trans_max: 7,
power_ramping_step: 4,
ra_response_window: 20,
restricted_set_config: "unrestricted_set",
ra_contention_resolution_timer: 64,
ssb_per_prach_occasion: 1,
cb_preambles_per_ssb: 8,
},
pdcch: {
search_space0_index: 0,
dedicated_coreset: {
rb_start: -1,
l_crb: -1,
duration: 0,
precoder_granularity: "sameAsREG_bundle",
},
css: {
n_candidates: [ 0, 0, 4, 0, 0 ],
},
rar_al_index: 2,
si_al_index: 2,
uss: {
n_candidates: [ 0, 2, 1, 0, 0 ],
dci_0_1_and_1_1: true,
},
al_index: 1,
},
pdsch: {
mapping_type: "typeA",
dmrs_add_pos: 1,
dmrs_type: 1,
dmrs_max_len: 1,
mcs_table: "qam256",
rar_mcs: 2,
si_mcs: 6,
},
csi_rs: {
nzp_csi_rs_resource: [
{
csi_rs_id: 0,
#if N_ANTENNA_DL == 1
n_ports: 1,
frequency_domain_allocation: "row2",
bitmap: "100000000000",
cdm_type: "no_cdm",
#elif N_ANTENNA_DL == 2
n_ports: 2,
frequency_domain_allocation: "other",
bitmap: "100000",
cdm_type: "fd_cdm2",
#elif N_ANTENNA_DL == 4
n_ports: 4,
frequency_domain_allocation: "row4",
bitmap: "100",
cdm_type: "fd_cdm2",
#elif N_ANTENNA_DL == 8
n_ports: 8,
frequency_domain_allocation: "other",
bitmap: "110011",
cdm_type: "fd_cdm2",
#else
#error unsupported number of DL antennas
#endif
density: 1,
first_symb: 4,
rb_start: 0,
l_crb: -1,
power_control_offset: 0,
power_control_offset_ss: 0,
period: 80,
offset: 1,
qcl_info_periodic_csi_rs: 0,
},
{
csi_rs_id: 1,
n_ports: 1,
frequency_domain_allocation: "row1",
bitmap: "0001",
cdm_type: "no_cdm",
density: 3,
first_symb: 4,
rb_start: 0,
l_crb: -1,
power_control_offset: 0,
power_control_offset_ss: 0,
period: 40,
offset: 11,
qcl_info_periodic_csi_rs: 0,
},
{
csi_rs_id: 2,
n_ports: 1,
frequency_domain_allocation: "row1",
bitmap: "0001",
cdm_type: "no_cdm",
density: 3,
first_symb: 8,
rb_start: 0,
l_crb: -1,
power_control_offset: 0,
power_control_offset_ss: 0,
period: 40,
offset: 11,
qcl_info_periodic_csi_rs: 0,
},
{
csi_rs_id: 3,
n_ports: 1,
frequency_domain_allocation: "row1",
bitmap: "0001",
cdm_type: "no_cdm",
density: 3,
first_symb: 4,
rb_start: 0,
l_crb: -1,
power_control_offset: 0,
power_control_offset_ss: 0,
period: 40,
offset: 12,
qcl_info_periodic_csi_rs: 0,
},
{
csi_rs_id: 4,
n_ports: 1,
frequency_domain_allocation: "row1",
bitmap: "0001",
cdm_type: "no_cdm",
density: 3,
first_symb: 8,
rb_start: 0,
l_crb: -1,
power_control_offset: 0,
power_control_offset_ss: 0,
period: 40,
offset: 12,
qcl_info_periodic_csi_rs: 0,
},
],
nzp_csi_rs_resource_set: [
{
csi_rs_set_id: 0,
nzp_csi_rs_resources: [ 0 ],
repetition: false,
},
{
csi_rs_set_id: 1,
nzp_csi_rs_resources: [ 1, 2, 3, 4 ],
repetition: false,
trs_info: true,
},
],
csi_im_resource: [
{
csi_im_id: 0,
pattern: 1,
subcarrier_location: 8,
symbol_location: 8,
rb_start: 0,
l_crb: -1,
period: 80,
offset: 1,
},
],
csi_im_resource_set: [
{
csi_im_set_id: 0,
csi_im_resources: [ 0 ],
}
],
zp_csi_rs_resource: [
{
csi_rs_id: 0,
frequency_domain_allocation: "row4",
bitmap: "100",
n_ports: 4,
cdm_type: "fd_cdm2",
first_symb: 8,
density: 1,
rb_start: 0,
l_crb: -1,
period: 80,
offset: 1,
},
],
p_zp_csi_rs_resource_set: [
{
zp_csi_rs_resources: [ 0 ],
},
],
csi_resource_config: [
{
csi_rsc_config_id: 0,
nzp_csi_rs_resource_set_list: [ 0 ],
resource_type: "periodic",
},
{
csi_rsc_config_id: 1,
csi_im_resource_set_list: [ 0 ],
resource_type: "periodic",
},
{
csi_rsc_config_id: 2,
nzp_csi_rs_resource_set_list: [ 1 ],
resource_type: "periodic",
},
],
csi_report_config: [
{
resources_for_channel_measurement: 0,
csi_im_resources_for_interference: 1,
report_config_type: "periodic",
period: 80,
report_quantity: "CRI_RI_PMI_CQI",
#if N_ANTENNA_DL > 1
codebook_config: {
codebook_type: "type1",
sub_type: "typeI_SinglePanel",
#if N_ANTENNA_DL == 2
#elif N_ANTENNA_DL == 4
n1: 2,
n2: 1,
codebook_mode: 1,
#elif N_ANTENNA_DL == 8
n1: 4,
n2: 1,
codebook_mode: 1,
#endif
},
#endif
cqi_table: 2,
subband_size: "value1",
},
],
},
pucch: {
pucch_group_hopping: "neither",
hopping_id: -1,
p0_nominal: -90,
pucch1: {
n_cs: 3,
n_occ: 3,
freq_hopping: true,
},
pucch2: {
n_symb: 2,
n_prb: 1,
freq_hopping: true,
simultaneous_harq_ack_csi: false,
max_code_rate: 0.25,
},
},
pusch: {
mapping_type: "typeA",
n_symb: 14,
dmrs_add_pos: 1,
dmrs_type: 1,
dmrs_max_len: 1,
tf_precoding: false,
mcs_table: "qam256",
mcs_table_tp: "qam256",
ldpc_max_its: 5,
p0_nominal_with_grant: -84,
msg3_mcs: 4,
msg3_delta_power: 0,
beta_offset_ack_index: 9,
},
mac_config: {
msg3_max_harq_tx: 5,
ul_max_harq_tx: 5,
dl_max_harq_tx: 5,
ul_max_consecutive_retx: 30,
dl_max_consecutive_retx: 30,
periodic_bsr_timer: 20,
retx_bsr_timer: 320,
periodic_phr_timer: 500,
prohibit_phr_timer: 200,
phr_tx_power_factor_change: "dB3",
sr_prohibit_timer: 0,
sr_trans_max: 64,
},
cipher_algo_pref: [],
integ_algo_pref: [2, 1],
inactivity_timer: {{ slapparameter_dict.get('inactivity_timer', slap_configuration['configuration.default_nr_inactivity_timer']) }},
drb_config: [
{
qci: 1,
use_for_mr_dc_scg: false,
ims_dedicated_bearer: true,
pdcp_config: {
discardTimer: 100,
pdcp_SN_SizeUL: 12,
pdcp_SN_SizeDL: 12,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
},
rlc_config: {
ul_um: {
sn_FieldLength: 6,
},
dl_um: {
sn_FieldLength: 6,
t_Reassembly: 50,
},
},
logical_channel_config: {
priority: 7,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 1,
},
},
{
qci: 2,
use_for_mr_dc_scg: false,
ims_dedicated_bearer: true,
pdcp_config: {
discardTimer: 150,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
},
rlc_config: {
ul_um: {
sn_FieldLength: 12,
},
dl_um: {
sn_FieldLength: 12,
t_Reassembly: 50,
},
},
logical_channel_config: {
priority: 8,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 1,
},
},
{
qci: 3,
pdcp_config: {
discardTimer: 100,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
},
rlc_config: {
ul_um: {
sn_FieldLength: 12,
},
dl_um: {
sn_FieldLength: 12,
t_Reassembly: 50,
},
},
logical_channel_config: {
priority: 7,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 2,
},
},
{
qci: 4,
pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
},
rlc_config: {
ul_am: {
sn_FieldLength: 18,
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 4,
},
dl_am: {
sn_FieldLength: 18,
t_Reassembly: 80,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 9,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 3,
},
},
{
qci: 65,
use_for_mr_dc_scg: false,
ims_dedicated_bearer: true,
pdcp_config: {
discardTimer: 100,
pdcp_SN_SizeUL: 12,
pdcp_SN_SizeDL: 12,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
},
rlc_config: {
ul_um: {
sn_FieldLength: 6,
},
dl_um: {
sn_FieldLength: 6,
t_Reassembly: 50,
},
},
logical_channel_config: {
priority: 5,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 4,
},
},
{
qci: 66,
use_for_mr_dc_scg: false,
ims_dedicated_bearer: true,
pdcp_config: {
discardTimer: 150,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
},
rlc_config: {
ul_um: {
sn_FieldLength: 12,
},
dl_um: {
sn_FieldLength: 12,
t_Reassembly: 50,
},
},
logical_channel_config: {
priority: 7,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 4,
},
},
{
qci: 67,
use_for_mr_dc_scg: false,
ims_dedicated_bearer: true,
pdcp_config: {
discardTimer: 100,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
},
rlc_config: {
ul_um: {
sn_FieldLength: 12,
},
dl_um: {
sn_FieldLength: 12,
t_Reassembly: 50,
},
},
logical_channel_config: {
priority: 6,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 5,
},
},
{
qci: 5,
use_for_mr_dc_scg: false,
pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
},
rlc_config: {
ul_am: {
sn_FieldLength: 18,
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 4,
},
dl_am: {
sn_FieldLength: 18,
t_Reassembly: 80,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 6,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 4,
},
},
{
qci: 6,
pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
},
rlc_config: {
ul_am: {
sn_FieldLength: 18,
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 4,
},
dl_am: {
sn_FieldLength: 18,
t_Reassembly: 80,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 10,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 5,
},
},
{
qci: 7,
pdcp_config: {
discardTimer: 100,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: false,
outOfOrderDelivery: false,
t_Reordering: 0,
},
rlc_config: {
ul_um: {
sn_FieldLength: 12,
},
dl_um: {
sn_FieldLength: 12,
t_Reassembly: 50,
},
},
logical_channel_config: {
priority: 11,
prioritisedBitRate: 0,
bucketSizeDuration: 100,
logicalChannelGroup: 6,
},
},
{
qci: 8,
pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
},
rlc_config: {
ul_am: {
sn_FieldLength: 18,
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 4,
},
dl_am: {
sn_FieldLength: 18,
t_Reassembly: 80,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 12,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 7,
},
},
{
qci: 9,
pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
},
rlc_config: {
ul_am: {
sn_FieldLength: 18,
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 4,
},
dl_am: {
sn_FieldLength: 18,
t_Reassembly: 80,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 13,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 7,
},
},
{
qci: 69,
use_for_mr_dc_scg: false,
pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
},
rlc_config: {
ul_am: {
sn_FieldLength: 18,
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 4,
},
dl_am: {
sn_FieldLength: 18,
t_Reassembly: 80,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 4,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 4,
},
},
{
qci: 70,
pdcp_config: {
discardTimer: 0,
pdcp_SN_SizeUL: 18,
pdcp_SN_SizeDL: 18,
statusReportRequired: true,
outOfOrderDelivery: false,
},
rlc_config: {
ul_am: {
sn_FieldLength: 18,
t_PollRetransmit: 80,
pollPDU: 64,
pollByte: 125,
maxRetxThreshold: 4,
},
dl_am: {
sn_FieldLength: 18,
t_Reassembly: 80,
t_StatusProhibit: 10,
},
},
logical_channel_config: {
priority: 11,
prioritisedBitRate: 8,
bucketSizeDuration: 100,
logicalChannelGroup: 5,
},
},
],
meas_config_desc: {
a1_report_type: "rsrp",
a1_rsrp: -60,
a1_hysteresis: 10,
a1_time_to_trigger: 100,
a2_report_type: "rsrp",
a2_rsrp: -70,
a2_hysteresis: 0,
a2_time_to_trigger: 100,
a3_report_type: "rsrp",
a3_offset: {{ slapparameter_dict.get('nr_handover_a3_offset', 6) }},
a3_hysteresis: 0,
a3_time_to_trigger: {{ slapparameter_dict.get('nr_handover_time_to_trigger', 100) }},
ssb_rsrq_filter_coeff: 3,
ssb_sinr_filter_coeff: 5
},
meas_gap_config: {
pattern_id: 0
},
},
}
{
"type": "object",
"$schema": "http://json-schema.org/draft-04/schema",
"title": "Input Parameters",
"properties": {
"rrh": {
"title": "RRH",
"description": "RRH",
"type": "string",
"default": "SDR",
"enum": [
"SDR",
"Lopcomm ORAN"
]
},
"cpri_mult": {
"title": "cpri_mult",
"description": "Select the CPRI line bit rate in terms of multiple of option 1 (614.4 Mbps). E.g set 4 for option 3, 8 for option 5 and 16 for option 7.",
"type": "number",
"default": 16
},
"cpri_rx_delay": {
"title": "cpri_rx_delay",
"description": "Delay between TX and RX position in CPRI frame. This should be set to the value of (T2a + T3a - Toffset) provided by the RRH specification.",
"type": "number",
"default": 0
},
"cpri_tx_delay": {
"title": "cpri_tx_delay",
"description": "Advance Start of Frame relative to PPS to compensate for delays in transmit line and RRH. This should be set to T12 + T2a.",
"type": "number",
"default": 0
},
"cpri_tx_dbm": {
"title": "cpri_tx_dbm",
"description": "Optional floating point value in dBm (default 0). Needed by ENB/GNB to have a notion of actual output power. Computed from maximum power output of the RRH for a 0dBFS input signal (full scale). ",
"type": "number",
"default": 0
},
"dnsmasq": {
"default": false,
"title": "dnsmasq",
"description": "dnsmasq",
"type": "boolean"
},
"rrh_mac_addr": {
"default": "00:0a:00:00:10:20",
"title": "RRH MAC address",
"description": "RRH MAC address used for DNSMASQ",
"type": "string"
},
"txa0cc00_active": {
"title": "Lopcomm ORAN TX array carriers (TXA0CC00)",
"description": "Activate or inactivate Lopcomm ORAN TX array carriers (TXA0CC00)",
"type": "string",
"default": "INACTIVE",
"enum": [
"ACTIVE",
"INACTIVE"
]
},
"rxa0cc00_active": {
"title": "Lopcomm ORAN RX array carriers (RXA0CC00)",
"description": "Activate or inactivate Lopcomm ORAN RX array carriers (RXA0CC00)",
"type": "string",
"default": "INACTIVE",
"enum": [
"ACTIVE",
"INACTIVE"
]
},
"txa0cc00_center_frequency_earfcn": {
"title": "Lopcomm ORAN Center Frequency EARFCN (TXA0CC00)",
"description": "Lopcomm ORAN Center Frequency EARFCN (TXA0CC00)",
"type": "number",
"default": 300
},
"txa0cc00_center_frequency": {
"title": "Lopcomm ORAN Center Frequency in Hz (TXA0CC00)",
"description": "Lopcomm ORAN Center Frequency in Hz (TXA0CC00)",
"type": "number",
"default": 2140000000
},
"txa0cc00_bandwidth": {
"title": "Lopcomm ORAN bandwidth in Hz (TXA0CC00)",
"description": "Lopcomm ORAN bandwidth in Hz (TXA0CC00)",
"type": "number",
"default": 20000000
},
"rxa0cc00_center_frequency_earfcn": {
"title": "Lopcomm ORAN Center Frequency EARFCN (RXA0CC00)",
"description": "Lopcomm ORAN Center Frequency EARFCN (RXA0CC00)",
"type": "number",
"default": 18300
},
"rxa0cc00_center_frequency": {
"title": "Lopcomm ORAN Center Frequency in Hz (RXA0CC00)",
"description": "Lopcomm ORAN Center Frequency in Hz (RXA0CC00)",
"type": "number",
"default": 1950000000
},
"rxa0cc00_bandwidth": {
"title": "Lopcomm ORAN bandwidth in Hz (RXA0CC00)",
"description": "Lopcomm ORAN bandwidth in Hz (RXA0CC00)",
"type": "number",
"default": 20000000
},
"log_phy_debug": {
"title": "Physical layer log debug",
"description": "Enable debug mode for physical layer logs",
"type": "boolean",
"default": false
},
"tx_gain": {
"title": "Tx gain",
"description": "Tx gain (in dB)",
"type": "number",
"default": 60
},
"rx_gain": {
"title": "Rx gain",
"description": "Rx gain (in dB)",
"type": "number",
"default": 45
},
"gps_sync": {
"default": false,
"title": "GPS synchronisation",
"description": "True if GPS should be used for synchronisation",
"type": "boolean"
},
"n_antenna_dl": {
"title": "Number of DL antennas",
"description": "Enumeration: 1, 2, 4 or 8. Number of DL antennas. It must be the same for all NB-IoT and LTE cells sharing the same RF port.",
"type": "number",
"default": 2
},
"n_antenna_ul": {
"title": "Number of UL antennas",
"description": "Enumeration: 1, 2, 4 or 8. Number of UL antennas. It must be the same for all NB-IoT and LTE cells sharing the same RF port.",
"type": "number",
"default": 2
},
"dl_earfcn": {
"title": "DL EARFCN",
"description": "Downlink E-UTRA Absolute Radio Frequency Channel Number of the cell",
"type": "number",
"default": 0
},
"n_rb_dl": {
"title": "DL RB",
"description": "number of DL resource blocks",
"type": "number",
"default": 100
},
"mme_list": {
"title": "MME list",
"description": "Optionnal. List of MME to which the gNodeB is connected",
"patternProperties": {
".*": {
"properties": {
"mme_addr": {
"title": "MME Address",
"description": "IP address (and optional port) of S1AP SCTP connection to the MME. The default port is 36412.",
"type": "string"
}
},
"type": "object"
}
},
"type": "object",
"default": {}
},
"enb_id": {
"title": "eNB ID",
"description": "eNB ID",
"type": "string",
"default": "0x1A2D0"
},
"pci": {
"title": "Physical Cell ID",
"description": "Physical Cell ID",
"type": "number",
"default": 1
},
"plmn_list": {
"title": "PLMN list",
"description": "List of PLMNs broadcasted by the eNodeB, at most 6 (default: 00101)",
"patternProperties": {
".*": {
"properties": {
"plmn": {
"default": "00101",
"title": "Public Land Mobile Network",
"description": "Public Land Mobile Network",
"type": "string"
},
"attach_without_pdn": {
"default": false,
"title": "Attach Without PDN",
"description": "Optional boolean. Indicates if PLMN supports attach without PDN connectivity.",
"type": "boolean"
},
"reserved": {
"default": false,
"title": "Reserved",
"description": "True if the cell is reserved for operator use.",
"type": "boolean"
}
},
"type": "object"
}
},
"type": "object",
"default": {}
},
"inactivity_timer": {
"title": "Inactivity Timer",
"description": "Send RRC connection release after this time (in ms) of network inactivity.",
"type": "number",
"default": 10000
},
"use_ipv4": {
"default": false,
"title": "Use IPv4",
"description": "Set to true to use IPv4 for AMF / MME addresses",
"type": "boolean"
},
"enb_stats_fetch_period": {
"title": "eNB statistics fetch period (seconds)",
"description": "Describes how often a call to Amarisoft remote API is made to get eNB statistics",
"type": "number",
"default": 60
},
"enb_drb_stats_enabled": {
"title": "Enable eNB drb statistics",
"description": "Enable eNB drb statistics through 100Hz polling, needed for E-UTRAN IP Throughput KPI",
"type": "boolean",
"default": true
},
"max_rx_sample_db": {
"title": "Maximum RX sample value (dB)",
"description": "Maximum RX sample threshold above which RX saturated promise will fail",
"type": "number",
"default": 0
},
"min_txrx_delay": {
"title": "Minimum available time for radio front end processing (ms)",
"description": "Baseband latency promise will fail if minimum TX/RX diff reaches threshold (higher than this value)",
"type": "number",
"default": 5
},
"avg_txrx_delay": {
"title": "Average available time for radio front end processing (ms)",
"description": "Baseband latency promise will fail if average TX/RX diff reaches threshold (higher than this value)",
"type": "number",
"default": 7
}
}
}
{
"type": "object",
"$schema": "http://json-schema.org/draft-04/schema",
"title": "Input Parameters",
"properties": {
"log_phy_debug": {
"title": "Physical layer log debug",
"description": "Enable debug mode for physical layer logs",
"type": "boolean",
"default": false
},
"nr_handover_a3_offset": {
"title": "A3 offset for NR handover",
"description": "RSRP gain offset between gNBs which will trigger handover",
"type": "number",
"default": 6
},
"nr_handover_time_to_trigger": {
"title": "Time to Trigger for NR handover",
"description": "Time to triger after which NR handover will be triggerd if A3 offset is reached",
"type": "number",
"enum": [
0,
40,
64,
80,
100,
128,
160,
256,
320,
480,
512,
640,
1024,
1280,
2560,
5120
],
"default": 100
},
"tdd_ul_dl_config": {
"title": "TDD",
"description": "TDD",
"type": "string",
"enum": [
"5ms 2UL 7DL 4/6 (default)",
"2.5ms 1UL 3DL 2/10"
],
"default": "5ms 2UL 7DL 4/6 (default)"
},
"tx_gain": {
"title": "Tx gain",
"description": "Tx gain (in dB)",
"type": "number",
"default": 60
},
"rx_gain": {
"title": "Rx gain",
"description": "Rx gain (in dB)",
"type": "number",
"default": 45
},
"n_antenna_dl": {
"title": "Number of DL antennas",
"description": "Enumeration: 1, 2, 4 or 8. Number of DL antennas. It must be the same for all NB-IoT and LTE cells sharing the same RF port.",
"type": "number",
"default": 2
},
"n_antenna_ul": {
"title": "Number of UL antennas",
"description": "Enumeration: 1, 2, 4 or 8. Number of UL antennas. It must be the same for all NB-IoT and LTE cells sharing the same RF port.",
"type": "number",
"default": 2
},
"gps_sync": {
"default": false,
"title": "GPS synchronisation",
"description": "True if GPS should be used for synchronisation",
"type": "boolean"
},
"dl_nr_arfcn": {
"title": "DL NR ARFCN",
"description": "Downlink NR Absolute Radio Frequency Channel Number of the cell",
"type": "number",
"default": 0
},
"nr_band": {
"title": "NR band",
"description": "NR band number",
"type": "number",
"default": 0
},
"nr_bandwidth": {
"title": "Bandwidth",
"description": "Downlink Bandwidth (in MHz)",
"type": "number",
"default": 40
},
"amf_list": {
"title": "AMF list",
"description": "Optionnal. List of AMF to which the gNodeB is connected",
"patternProperties": {
".*": {
"properties": {
"amf_addr": {
"title": "AMF Address",
"description": "IP address (and optional port) of NGAP SCTP connection to the AMF. The default port is 38412.",
"type": "string"
}
},
"type": "object"
}
},
"type": "object",
"default": {}
},
"ncell_list": {
"title": "Neighbour Cell Info",
"description": "Neighbour Cell Info",
"patternProperties": {
".*": {
"properties": {
"dl_nr_arfcn": {
"title": "DL NR ARFCN",
"description": "Downlink NR Absolute Radio Frequency Channel Number of the neighbour cell",
"type": "number"
},
"ssb_nr_arfcn": {
"title": "SSB NR ARFCN",
"description": "SSB NR Absolute Radio Frequency Channel Number of the neighbour cell",
"type": "number"
},
"pci": {
"title": "Physical Cell ID",
"description": "Physical Cell ID of the neighbour cell",
"type": "number"
},
"nr_cell_id": {
"title": "NR Cell ID",
"description": "Concatenation of gnb_id and cell_id of the neighbour cell",
"type": "string"
},
"gnb_id_bits": {
"title": "gNB ID bits",
"description": "Number of bits for the gNodeB global identifier. (range 22 to 32)",
"type": "number"
},
"nr_band": {
"title": "NR band",
"description": "NR band number",
"type": "number"
},
"tac": {
"title": "Tracking Area Code",
"description": "Integer (range 0 to 16777215)",
"type": "number"
}
},
"type": "object"
}
},
"type": "object",
"default": {}
},
"xn_peers": {
"title": "XN Peers",
"description": "XN Peers",
"patternProperties": {
".*": {
"properties": {
"xn_addr": {
"title": "XN Address",
"description": "XN Address of the neighbour cell (gNB Address)",
"type": "string"
}
},
"type": "object"
}
},
"type": "object",
"default": {}
},
"gnb_id": {
"title": "gNB ID",
"description": "gNB ID",
"type": "string",
"default": "0x12345"
},
"gnb_id_bits": {
"title": "gNB ID bits",
"description": "Number of bits for the gNodeB global identifier. (range 22 to 32)",
"type": "number",
"default": 28
},
"cell_id": {
"title": "Cell ID",
"description": "Cell ID",
"type": "string",
"default": "0x01"
},
"pci": {
"title": "Physical Cell ID",
"description": "Physical Cell ID",
"type": "number",
"default": 500
},
"ssb_pos_bitmap": {
"title": "SSB Position Bitmap",
"description": "SSB position bitmap in bits (4, 8 or 64 bits depending on the DL frequency).",
"type": "string",
"default": 10000000
},
"plmn_list": {
"title": "PLMN list",
"description": "List of PLMNs broadcasted by the gNodeB, at most 12 (default: 00101)",
"patternProperties": {
".*": {
"properties": {
"plmn": {
"default": "00101",
"title": "Public Land Mobile Network",
"description": "Public Land Mobile Network",
"type": "string"
},
"tac": {
"default": 100,
"title": "Tracking Area Code",
"description": "Integer (range 0 to 16777215)",
"type": "number"
},
"ranac": {
"title": "Optional integer (range 0 to 255)",
"description": "RAN Area Code",
"type": "number"
},
"reserved": {
"default": false,
"title": "Reserved",
"description": "True if the cell is reserved for operator use.",
"type": "boolean"
}
},
"type": "object"
}
},
"type": "object",
"default": {}
},
"nssai": {
"title": "AMF slices configuration",
"description": "AMF slices configuration.",
"patternProperties": {
".*": {
"properties": {
"sst": {
"default": 1,
"title": "Slice Service Type",
"description": "Integer (range 1 to 255).",
"type": "number"
},
"sd": {
"default": 50,
"title": "Slice Differentiator",
"description": "Optional integer (range 0 to 0xFFFFFE)",
"type": "number"
}
},
"type": "object"
}
},
"type": "object",
"default": {}
},
"inactivity_timer": {
"title": "Inactivity Timer",
"description": "Send RRC connection release after this time (in ms) of network inactivity.",
"type": "number",
"default": 10000
},
"use_ipv4": {
"default": false,
"title": "Use IPv4",
"description": "Set to true to use IPv4 for AMF / MME addresses",
"type": "boolean"
},
"gnb_stats_fetch_period": {
"title": "gNB statistics fetch period (seconds)",
"description": "Describes how often a call to Amarisoft remote API is made to get gNB statistics",
"type": "number",
"default": 60
},
"gnb_drb_stats_enabled": {
"title": "Enable gNB drb statistics",
"description": "Enable gNB drb statistics through 100Hz polling, needed for E-UTRAN IP Throughput KPI",
"type": "boolean",
"default": true
},
"max_rx_sample_db": {
"title": "Maximum RX sample value (dB)",
"description": "Maximum RX sample threshold above which RX saturated promise will fail",
"type": "number",
"default": 0
},
"min_txrx_delay": {
"title": "Minimum available time for radio front end processing (ms)",
"description": "Minimum TX/RX diff threshold above which baseband latency promise will fail",
"type": "number",
"default": 5
},
"avg_txrx_delay": {
"title": "Average available time for radio front end processing (ms)",
"description": "Average TX/RX diff threshold above which baseband latency promise will fail",
"type": "number",
"default": 7
}
}
}
{
"type": "object",
"$schema": "http://json-schema.org/draft-04/schema",
"title": "Input Parameters",
"properties": {
"rue_addr": {
"title": "[Required] Remote UE address",
"description": "[Required] Address of remote UE server. Default port is 2152.",
"type": "string",
"default": ""
},
"tx_gain": {
"title": "Tx gain",
"description": "Tx gain (in dB)",
"type": "number",
"default": 60
},
"rx_gain": {
"title": "Rx gain",
"description": "Rx gain (in dB)",
"type": "number",
"default": 45
},
"dl_earfcn": {
"title": "DL EARFCN",
"description": "Downlink E-UTRA Absolute Radio Frequency Channel Number of the cell",
"type": "number",
"default": 0
},
"n_rb_dl": {
"title": "DL RB",
"description": "number of DL resource blocks",
"type": "number",
"default": 100
},
"n_antenna_dl": {
"title": "Number of DL antennas",
"description": "Enumeration: 1, 2, 4 or 8. Number of DL antennas. It must be the same for all NB-IoT and LTE cells sharing the same RF port.",
"type": "number",
"default": 2
},
"n_antenna_ul": {
"title": "Number of UL antennas",
"description": "Enumeration: 1, 2, 4 or 8. Number of UL antennas. It must be the same for all NB-IoT and LTE cells sharing the same RF port.",
"type": "number",
"default": 2
},
"imsi": {
"title": "IMSI",
"description": "IMSI",
"type": "string",
"default": "001010123456789"
},
"k": {
"title": "K",
"description": "Set the user secret key (as a 16 bytes hexadecimal string, or eventually 32 bytes hexadecimal string for TUAK).",
"type": "string",
"default": "00112233445566778899aabbccddeeff"
},
"sim_algo": {
"title": "sim_algo",
"description": "Optional enumeration. xor, milenage or tuak (default = milenage). Set the USIM authentication algorithm. Note: test USIM cards use the XOR algorithm.",
"type": "string",
"default": "milenage"
},
"opc": {
"title": "opc",
"description": "Optional string. Operator key preprocessed with the user secret key (as a 16 byte hexadecimal string). When the Milenage authentication algorithm is used, either op or opc must be set.",
"type": "string",
"default": "milenage"
},
"amf": {
"title": "amf",
"description": "Range: 0 to 65535. Set the Authentication Management Field.",
"type": "string",
"default": "0x9001"
},
"sqn": {
"title": "sqn",
"description": "Optional String (6 byte hexadecimal string). Default = '000000000000'. Set the initial sequence number. For the XOR algorithm, the actual value does not matter. For the Milenage or TUAK algorithm, a sequence number resynchronization is initiated if the sequence number does not match the one stored in the USIM.",
"type": "string",
"default": "000000000000"
},
"impu": {
"title": "impu",
"description": "Array of string or object. Each string represent an IMPU and can be a sip URI or a telephone number.",
"type": "string",
"default": ""
},
"impi": {
"title": "impi",
"description": "String. Defines user IMPI. Must be fully filled with hostname if necessary.",
"type": "string",
"default": ""
}
}
}
{
"type": "object",
"$schema": "http://json-schema.org/draft-04/schema",
"title": "Input Parameters",
"properties": {
"rue_addr": {
"title": "[Required] Remote UE address",
"description": "[Required] Address of remote UE server. Default port is 2152.",
"type": "string",
"default": ""
},
"tx_gain": {
"title": "Tx gain",
"description": "Tx gain (in dB)",
"type": "number",
"default": 60
},
"rx_gain": {
"title": "Rx gain",
"description": "Rx gain (in dB)",
"type": "number",
"default": 45
},
"dl_nr_arfcn": {
"title": "DL NR ARFCN",
"description": "Downlink NR Absolute Radio Frequency Channel Number of the cell",
"type": "number",
"default": 0
},
"nr_band": {
"title": "NR band",
"description": "NR band number",
"type": "number",
"default": 0
},
"nr_bandwidth": {
"title": "Bandwidth",
"description": "Downlink Bandwidth (in MHz)",
"type": "number",
"default": 40
},
"ssb_nr_arfcn": {
"title": "SSB NR ARFCN",
"description": "SSB NR ARFCN, you can retrieve from ENB/GNB side",
"type": "number",
"default": 0
},
"n_antenna_dl": {
"title": "Number of DL antennas",
"description": "Enumeration: 1, 2, 4 or 8. Number of DL antennas. It must be the same for all NB-IoT and LTE cells sharing the same RF port.",
"type": "number",
"default": 2
},
"n_antenna_ul": {
"title": "Number of UL antennas",
"description": "Enumeration: 1, 2, 4 or 8. Number of UL antennas. It must be the same for all NB-IoT and LTE cells sharing the same RF port.",
"type": "number",
"default": 2
},
"imsi": {
"title": "IMSI",
"description": "IMSI",
"type": "string",
"default": "001010123456789"
},
"k": {
"title": "K",
"description": "Set the user secret key (as a 16 bytes hexadecimal string, or eventually 32 bytes hexadecimal string for TUAK).",
"type": "string",
"default": "00112233445566778899aabbccddeeff"
},
"sim_algo": {
"title": "sim_algo",
"description": "Optional enumeration. xor, milenage or tuak (default = milenage). Set the USIM authentication algorithm. Note: test USIM cards use the XOR algorithm.",
"type": "string",
"default": "milenage"
},
"opc": {
"title": "opc",
"description": "Optional string. Operator key preprocessed with the user secret key (as a 16 byte hexadecimal string). When the Milenage authentication algorithm is used, either op or opc must be set.",
"type": "string",
"default": "milenage"
},
"amf": {
"title": "amf",
"description": "Range: 0 to 65535. Set the Authentication Management Field.",
"type": "string",
"default": "0x9001"
},
"sqn": {
"title": "sqn",
"description": "Optional String (6 byte hexadecimal string). Default = '000000000000'. Set the initial sequence number. For the XOR algorithm, the actual value does not matter. For the Milenage or TUAK algorithm, a sequence number resynchronization is initiated if the sequence number does not match the one stored in the USIM.",
"type": "string",
"default": "000000000000"
},
"impu": {
"title": "impu",
"description": "Array of string or object. Each string represent an IMPU and can be a sip URI or a telephone number.",
"type": "string",
"default": ""
},
"impi": {
"title": "impi",
"description": "String. Defines user IMPI. Must be fully filled with hostname if necessary.",
"type": "string",
"default": ""
}
}
}
# This file was generated using a jinja2 template and the render-templates script, don't modify directly.
[buildout]
extends =
software-base.cfg
[default-params]
default-dl-earfcn = 0
default-lte-dl-freq = 0.0
default-lte-band = 0
default-lte-n-rb-dl = 100
default-lte-tx-gain = 60
default-lte-rx-gain = 45
default-lte-inactivity-timer = 10000
default-lte-imsi = 001010123456789
default-lte-k = 00112233445566778899aabbccddeeff
default-dl-nr-arfcn = 0
default-nr-band = 0
default-nr-dl-freq = 0.0
default-nr-bandwidth = 40
default-nr-tx-gain = 60
default-nr-rx-gain = 45
default-nr-ssb-pos-bitmap = 10000000
default-ssb-nr-arfcn = 0
default-nr-inactivity-timer = 10000
default-nr-imsi = 001010123456789
default-nr-k = 00112233445566778899aabbccddeeff
min-frequency = 0
max-frequency = 0
default-n-antenna-dl =2
default-n-antenna-ul =2
[rf-mode]
rf-mode = fdd
{
"name": "ORS Amarisoft",
"description": "4G and 5G amarisoft stack for ORS",
"serialisation": "json-in-xml",
"software-type": {
"enb": {
"title": "eNB",
"software-type": "enb",
"description": "eNodeB Configuration",
"request": "instance-fdd-enb-input-schema.json",
"response": "instance-fdd-enb-schema.json",
"index": 0
},
"gnb": {
"title": "gNB",
"software-type": "gnb",
"description": "gNodeB Configuration",
"request": "instance-fdd-gnb-input-schema.json",
"response": "instance-fdd-gnb-schema.json",
"index": 1
},
"core-network": {
"title": "Core Network",
"software-type": "core-network",
"description": "Core Network Configuration",
"request": "instance-core-network-input-schema.json",
"response": "instance-core-network-schema.json",
"index": 2
},
"core-network-slave": {
"title": "Core Network Sim Card",
"description": "Core Network Sim Card Configuration",
"software-type": "core-network",
"request": "instance-core-network-slave-input-schema.json",
"response": "instance-core-network-slave-schema.json",
"shared": true,
"index": 3
}
}
}
##############################################################################
#
# Copyright (c) 2018 Nexedi SA and Contributors. All Rights Reserved.
#
# WARNING: This program as such is intended to be used by professional
# programmers who take the whole responsibility of assessing all potential
# consequences resulting from its eventual inadequacies and bugs
# End users who are looking for a ready-to-use solution with commercial
# guarantees and support are strongly adviced to contract a Free Software
# Service Company
#
# This program 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
# of the License, or (at your option) any later version.
#
# This program 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 this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#
##############################################################################
import os
import yaml
import json
import glob
import requests
from slapos.testing.testcase import makeModuleSetUpAndTestCaseClass
setUpModule, ORSTestCase = makeModuleSetUpAndTestCaseClass(
os.path.abspath(
os.path.join(os.path.dirname(__file__), '..', 'software-fdd.cfg')))
param_dict = {
'testing': True,
'sim_algo': 'milenage',
'imsi': '001010000000331',
'opc': '000102030405060708090A0B0C0D0E0F',
'amf': '0x9001',
'sqn': '000000000000',
'k': '00112233445566778899AABBCCDDEEFF',
'impu': 'impu331',
'impi': 'impi331@amarisoft.com',
'tx_gain': 17,
'rx_gain': 17,
'dl_earfcn': 325320,
'n_rb_dl': 50,
'enb_id': '0x17',
'pci': 250,
'mme_list': {
'10.0.0.1': {'mme_addr': '10.0.0.1'},
'2001:db8::1': {'mme_addr': '2001:db8::1'},
},
'core_network_plmn': '00102',
'dl_nr_arfcn': 325320,
'nr_band': 99,
'nr_bandwidth': 50,
'ssb_nr_arfcn': 377790,
'rue_addr': '192.168.99.88',
'n_antenna_dl': 2,
'n_antenna_ul': 2,
'inactivity_timer': 17,
'gnb_id': '0x17',
'gnb_id_bits': 30,
'ssb_pos_bitmap': '10',
'amf_list': {
'10.0.0.1': {'amf_addr': '10.0.0.1'},
'2001:db8::1': {'amf_addr': '2001:db8::1'},
},
'nr_handover_time_to_trigger': 50,
'nr_handover_a3_offset': 10,
'ncell_list': {
'ORS1': {
'dl_nr_arfcn': 100000,
'ssb_nr_arfcn': 100000,
'pci': 1,
'nr_cell_id': '0x0000001',
'gnb_id_bits': 28,
'nr_band': 1,
'tac': 1
},
'ORS2': {
'dl_nr_arfcn': 200000,
'ssb_nr_arfcn': 200000,
'pci': 2,
'nr_cell_id': '0x0000002',
'gnb_id_bits': 30,
'nr_band': 2,
'tac': 2
},
},
'xn_peers': {
'2001:db8::1': {
'xn_addr': '2001:db8::1',
},
'2001:db8::2': {
'xn_addr': '2001:db8::2',
},
},
'tdd_ul_dl_config': '2.5ms 1UL 3DL 2/10',
}
enb_param_dict = {
'plmn_list': {
'00101': {'attach_without_pdn': True, 'plmn': '00101', 'reserved': True},
'00102': {'attach_without_pdn': False, 'plmn': '00102', 'reserved': False},
},
}
gnb_param_dict1 = {
'plmn_list': {
'00101': {'plmn': '00101', 'ranac': 1, 'reserved': True, 'tac': 1},
'00102': {'plmn': '00102', 'ranac': 2, 'reserved': False, 'tac': 2},
},
}
gnb_param_dict2 = {
'nssai': {
'1': {'sd': 1, 'sst': 10},
'2': {'sd': 2, 'sst': 20},
},
}
enb_param_dict.update(param_dict)
gnb_param_dict1.update(param_dict)
gnb_param_dict2.update(param_dict)
def test_enb_conf(self):
conf_file = glob.glob(os.path.join(
self.slap.instance_directory, '*', 'etc', 'enb.cfg'))[0]
with open(conf_file, 'r') as f:
conf = yaml.load(f)
self.assertEqual(conf['tx_gain'], enb_param_dict['tx_gain'])
self.assertEqual(conf['rx_gain'], enb_param_dict['rx_gain'])
self.assertEqual(conf['cell_default']['inactivity_timer'], enb_param_dict['inactivity_timer'])
self.assertEqual(conf['cell_list'][0]['dl_earfcn'], enb_param_dict['dl_earfcn'])
self.assertEqual(conf['enb_id'], int(enb_param_dict['enb_id'], 16))
self.assertEqual(conf['cell_list'][0]['n_id_cell'], enb_param_dict['pci'])
for p in conf['cell_list'][0]['plmn_list']:
for n in "plmn attach_without_pdn reserved".split():
self.assertEqual(p[n], enb_param_dict['plmn_list'][p['plmn']][n])
for p in conf['mme_list']:
self.assertEqual(p['mme_addr'], enb_param_dict['mme_list'][p['mme_addr']]['mme_addr'])
with open(conf_file, 'r') as f:
for l in f:
if l.startswith('#define N_RB_DL'):
self.assertIn(str(enb_param_dict['n_rb_dl']), l)
def test_gnb_conf1(self):
conf_file = glob.glob(os.path.join(
self.slap.instance_directory, '*', 'etc', 'gnb.cfg'))[0]
with open(conf_file, 'r') as f:
conf = yaml.load(f)
self.assertEqual(conf['tx_gain'], gnb_param_dict1['tx_gain'])
self.assertEqual(conf['rx_gain'], gnb_param_dict1['rx_gain'])
self.assertEqual(conf['nr_cell_default']['inactivity_timer'], gnb_param_dict1['inactivity_timer'])
self.assertEqual(conf['nr_cell_list'][0]['dl_nr_arfcn'], gnb_param_dict1['dl_nr_arfcn'])
self.assertEqual(conf['nr_cell_list'][0]['band'], gnb_param_dict1['nr_band'])
self.assertEqual(conf['nr_cell_list'][0]['ssb_pos_bitmap'], gnb_param_dict1['ssb_pos_bitmap'])
self.assertEqual(conf['nr_cell_default']['n_id_cell'], gnb_param_dict1['pci'])
self.assertEqual(conf['gnb_id'], int(gnb_param_dict1['gnb_id'], 16))
self.assertEqual(conf['gnb_id_bits'], gnb_param_dict1['gnb_id_bits'])
for p in conf['nr_cell_default']['plmn_list']:
for n in "plmn ranac reserved tac".split():
self.assertEqual(p[n], gnb_param_dict1['plmn_list'][p['plmn']][n])
for p in conf['amf_list']:
self.assertEqual(p['amf_addr'], gnb_param_dict1['amf_list'][p['amf_addr']]['amf_addr'])
for p in conf['xn_peers']:
self.assertEqual(p, gnb_param_dict1['xn_peers'][p]['xn_addr'])
for p in conf['nr_cell_list'][0]['ncell_list']:
for k in gnb_param_dict1['ncell_list']:
if p['dl_nr_arfcn'] == gnb_param_dict1['ncell_list'][k]['dl_nr_arfcn']:
break
conf_ncell = gnb_param_dict1['ncell_list'][k]
self.assertEqual(p['dl_nr_arfcn'], conf_ncell['dl_nr_arfcn'])
self.assertEqual(p['ssb_nr_arfcn'], conf_ncell['ssb_nr_arfcn'])
self.assertEqual(p['ul_nr_arfcn'], conf_ncell['dl_nr_arfcn'])
self.assertEqual(p['n_id_cell'], conf_ncell['pci'])
self.assertEqual(p['gnb_id_bits'], conf_ncell['gnb_id_bits'])
self.assertEqual(p['nr_cell_id'], int(conf_ncell['nr_cell_id'], 16))
self.assertEqual(p['tac'], conf_ncell['tac'])
self.assertEqual(p['band'], conf_ncell['nr_band'])
tdd_config = conf['nr_cell_default']['tdd_ul_dl_config']['pattern1']
self.assertEqual(float(tdd_config['period']), 2.5)
self.assertEqual(int(tdd_config['dl_slots']), 3)
self.assertEqual(int(tdd_config['dl_symbols']), 10)
self.assertEqual(int(tdd_config['ul_slots']), 1)
self.assertEqual(int(tdd_config['ul_symbols']), 2)
with open(conf_file, 'r') as f:
for l in f:
if l.startswith('#define NR_BANDWIDTH'):
self.assertIn(str(gnb_param_dict1['nr_bandwidth']), l)
def test_gnb_conf2(self):
conf_file = glob.glob(os.path.join(
self.slap.instance_directory, '*', 'etc', 'gnb.cfg'))[0]
with open(conf_file, 'r') as f:
conf = yaml.load(f)
for p in conf['nr_cell_default']['plmn_list'][0]['nssai']:
for n in "sd sst".split():
self.assertEqual(p[n], gnb_param_dict2['nssai'][str(p['sd'])][n])
def test_mme_conf(self):
conf_file = glob.glob(os.path.join(
self.slap.instance_directory, '*', 'etc', 'mme.cfg'))[0]
with open(conf_file, 'r') as f:
conf = yaml.load(f)
self.assertEqual(conf['plmn'], param_dict['core_network_plmn'])
def test_sim_card(self):
conf_file = glob.glob(os.path.join(
self.slap.instance_directory, '*', 'etc', 'ue_db.cfg'))[0]
with open(conf_file, 'r') as f:
conf = yaml.load(f)
for n in "sim_algo imsi opc sqn impu impi".split():
self.assertEqual(conf['ue_db'][0][n], param_dict[n])
self.assertEqual(conf['ue_db'][0]['K'], param_dict['k'])
self.assertEqual(conf['ue_db'][0]['amf'], int(param_dict['amf'], 16))
p = self.requestSlaveInstance().getConnectionParameterDict()
p = p['_'] if '_' in p else p
self.assertIn('info', p)
def test_monitor_gadget_url(self):
parameters = json.loads(self.computer_partition.getConnectionParameterDict()['_'])
self.assertIn('monitor-gadget-url', parameters)
monitor_setup_url = parameters['monitor-setup-url']
monitor_gadget_url = parameters['monitor-gadget-url']
monitor_base_url = parameters['monitor-base-url']
public_url = monitor_base_url + '/public'
response = requests.get(public_url, verify=False)
self.assertEqual(requests.codes['OK'], response.status_code)
self.assertIn('software.cfg.html', monitor_gadget_url)
response = requests.get(monitor_gadget_url, verify=False)
self.assertEqual(requests.codes['OK'], response.status_code)
self.assertIn('<script src="rsvp.js"></script>', response.text)
self.assertIn('<script src="renderjs.js"></script>', response.text)
self.assertIn('<script src="g-chart.line.js"></script>', response.text)
self.assertIn('<script src="promise.gadget.js"></script>', response.text)
class TestENBParameters(ORSTestCase):
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps(enb_param_dict)}
@classmethod
def getInstanceSoftwareType(cls):
return "enb"
def test_enb_conf(self):
test_enb_conf(self)
class TestGNBParameters1(ORSTestCase):
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps(gnb_param_dict1)}
@classmethod
def getInstanceSoftwareType(cls):
return "gnb"
def test_gnb_conf(self):
test_gnb_conf1(self)
class TestGNBParameters2(ORSTestCase):
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps(gnb_param_dict2)}
@classmethod
def getInstanceSoftwareType(cls):
return "gnb"
def test_gnb_conf(self):
test_gnb_conf2(self)
class TestCoreNetworkParameters(ORSTestCase):
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps(param_dict)}
@classmethod
def getInstanceSoftwareType(cls):
return "core-network"
def test_mme_conf(self):
test_mme_conf(self)
def requestSlaveInstance(cls):
software_url = cls.getSoftwareURL()
return cls.slap.request(
software_release=software_url,
partition_reference="SIM-CARD",
partition_parameter_kw={'_': json.dumps(param_dict)},
shared=True,
software_type='core-network',
)
class TestENBMonitorGadgetUrl(ORSTestCase):
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps(enb_param_dict)}
@classmethod
def getInstanceSoftwareType(cls):
return "enb"
def test_monitor_gadget_url(self):
test_monitor_gadget_url(self)
class TestGNBMonitorGadgetUrl(ORSTestCase):
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps(gnb_param_dict1)}
@classmethod
def getInstanceSoftwareType(cls):
return "gnb"
def test_monitor_gadget_url(self):
test_monitor_gadget_url(self)
class TestCoreNetworkMonitorGadgetUrl(ORSTestCase):
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps({'testing': True, 'slave-list': []})}
@classmethod
def getInstanceSoftwareType(cls):
return "core-network"
def test_monitor_gadget_url(self):
test_monitor_gadget_url(self)
class TestUELTEMonitorGadgetUrl(ORSTestCase):
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps({'testing': True})}
@classmethod
def getInstanceSoftwareType(cls):
return "ue-lte"
def test_monitor_gadget_url(self):
test_monitor_gadget_url(self)
class TestUENRMonitorGadgetUrl(ORSTestCase):
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps({'testing': True})}
@classmethod
def getInstanceSoftwareType(cls):
return "ue-nr"
def test_monitor_gadget_url(self):
test_monitor_gadget_url(self)
class TestSimCard(ORSTestCase):
@classmethod
def requestDefaultInstance(cls, state='started'):
default_instance = super(
ORSTestCase, cls).requestDefaultInstance(state=state)
cls.requestSlaveInstance()
return default_instance
@classmethod
def requestSlaveInstance(cls):
return requestSlaveInstance(cls)
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps({'testing': True})}
@classmethod
def getInstanceSoftwareType(cls):
return "core-network"
def test_sim_card(self):
test_sim_card(self)
class TestUELTEParameters(ORSTestCase):
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps(param_dict)}
@classmethod
def getInstanceSoftwareType(cls):
return "ue-lte"
def test_ue_lte_conf(self):
conf_file = glob.glob(os.path.join(
self.slap.instance_directory, '*', 'etc', 'ue.cfg'))[0]
with open(conf_file, 'r') as f:
conf = yaml.load(f)
self.assertEqual(conf['cell_groups'][0]['cells'][0]['dl_earfcn'], param_dict['dl_earfcn'])
self.assertEqual(conf['cell_groups'][0]['cells'][0]['bandwidth'], param_dict['n_rb_dl'])
self.assertEqual(conf['cell_groups'][0]['cells'][0]['n_antenna_dl'], param_dict['n_antenna_dl'])
self.assertEqual(conf['cell_groups'][0]['cells'][0]['n_antenna_ul'], param_dict['n_antenna_ul'])
self.assertEqual(conf['ue_list'][0]['rue_addr'], param_dict['rue_addr'])
self.assertEqual(conf['ue_list'][0]['imsi'], param_dict['imsi'])
self.assertEqual(conf['ue_list'][0]['K'], param_dict['k'])
self.assertEqual(conf['ue_list'][0]['sim_algo'], param_dict['sim_algo'])
self.assertEqual(conf['ue_list'][0]['opc'], param_dict['opc'])
self.assertEqual(conf['ue_list'][0]['amf'], int(param_dict['amf'], 16))
self.assertEqual(conf['ue_list'][0]['sqn'], param_dict['sqn'])
self.assertEqual(conf['ue_list'][0]['impu'], param_dict['impu'])
self.assertEqual(conf['ue_list'][0]['impi'], param_dict['impi'])
self.assertEqual(conf['tx_gain'], param_dict['tx_gain'])
self.assertEqual(conf['rx_gain'], param_dict['rx_gain'])
class TestUENRParameters(ORSTestCase):
@classmethod
def getInstanceParameterDict(cls):
return {'_': json.dumps(param_dict)}
@classmethod
def getInstanceSoftwareType(cls):
return "ue-nr"
def test_ue_nr_conf(self):
conf_file = glob.glob(os.path.join(
self.slap.instance_directory, '*', 'etc', 'ue.cfg'))[0]
with open(conf_file, 'r') as f:
conf = yaml.load(f)
self.assertEqual(conf['cell_groups'][0]['cells'][0]['ssb_nr_arfcn'], param_dict['ssb_nr_arfcn'])
self.assertEqual(conf['cell_groups'][0]['cells'][0]['dl_nr_arfcn'], param_dict['dl_nr_arfcn'])
self.assertEqual(conf['cell_groups'][0]['cells'][0]['bandwidth'], param_dict['nr_bandwidth'])
self.assertEqual(conf['cell_groups'][0]['cells'][0]['band'], param_dict['nr_band'])
self.assertEqual(conf['cell_groups'][0]['cells'][0]['n_antenna_dl'], param_dict['n_antenna_dl'])
self.assertEqual(conf['cell_groups'][0]['cells'][0]['n_antenna_ul'], param_dict['n_antenna_ul'])
self.assertEqual(conf['ue_list'][0]['rue_addr'], param_dict['rue_addr'])
self.assertEqual(conf['ue_list'][0]['imsi'], param_dict['imsi'])
self.assertEqual(conf['ue_list'][0]['K'], param_dict['k'])
self.assertEqual(conf['ue_list'][0]['sim_algo'], param_dict['sim_algo'])
self.assertEqual(conf['ue_list'][0]['opc'], param_dict['opc'])
self.assertEqual(conf['ue_list'][0]['amf'], int(param_dict['amf'], 16))
self.assertEqual(conf['ue_list'][0]['sqn'], param_dict['sqn'])
self.assertEqual(conf['ue_list'][0]['impu'], param_dict['impu'])
self.assertEqual(conf['ue_list'][0]['impi'], param_dict['impi'])
self.assertEqual(conf['tx_gain'], param_dict['tx_gain'])
self.assertEqual(conf['rx_gain'], param_dict['rx_gain'])
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