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Michael Black
OpenXG UE
Commits
b7e2b2d7
Commit
b7e2b2d7
authored
Nov 18, 2020
by
Robert Schmidt
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Perform UL slot check in pre-processor
parent
a3c6668b
Changes
2
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2 changed files
with
265 additions
and
257 deletions
+265
-257
openair2/LAYER2/NR_MAC_gNB/gNB_scheduler_ulsch.c
openair2/LAYER2/NR_MAC_gNB/gNB_scheduler_ulsch.c
+262
-257
openair2/LAYER2/NR_MAC_gNB/nr_mac_gNB.h
openair2/LAYER2/NR_MAC_gNB/nr_mac_gNB.h
+3
-0
No files found.
openair2/LAYER2/NR_MAC_gNB/gNB_scheduler_ulsch.c
View file @
b7e2b2d7
...
@@ -463,8 +463,14 @@ int8_t select_ul_harq_pid(NR_UE_sched_ctrl_t *sched_ctrl) {
...
@@ -463,8 +463,14 @@ int8_t select_ul_harq_pid(NR_UE_sched_ctrl_t *sched_ctrl) {
void
nr_simple_ulsch_preprocessor
(
module_id_t
module_id
,
void
nr_simple_ulsch_preprocessor
(
module_id_t
module_id
,
frame_t
frame
,
frame_t
frame
,
sub_frame_t
slot
)
{
sub_frame_t
slot
,
NR_UE_info_t
*
UE_info
=
&
RC
.
nrmac
[
module_id
]
->
UE_info
;
int
num_slots_per_tdd
,
uint64_t
ulsch_in_slot_bitmap
)
{
gNB_MAC_INST
*
nr_mac
=
RC
.
nrmac
[
module_id
];
NR_COMMON_channels_t
*
cc
=
nr_mac
->
common_channels
;
NR_ServingCellConfigCommon_t
*
scc
=
cc
->
ServingCellConfigCommon
;
const
int
mu
=
scc
->
uplinkConfigCommon
->
initialUplinkBWP
->
genericParameters
.
subcarrierSpacing
;
NR_UE_info_t
*
UE_info
=
&
nr_mac
->
UE_info
;
AssertFatal
(
UE_info
->
num_UEs
<=
1
,
AssertFatal
(
UE_info
->
num_UEs
<=
1
,
"%s() cannot handle more than one UE, but found %d
\n
"
,
"%s() cannot handle more than one UE, but found %d
\n
"
,
...
@@ -478,6 +484,30 @@ void nr_simple_ulsch_preprocessor(module_id_t module_id,
...
@@ -478,6 +484,30 @@ void nr_simple_ulsch_preprocessor(module_id_t module_id,
NR_UE_sched_ctrl_t
*
sched_ctrl
=
&
UE_info
->
UE_sched_ctrl
[
UE_id
];
NR_UE_sched_ctrl_t
*
sched_ctrl
=
&
UE_info
->
UE_sched_ctrl
[
UE_id
];
const
int
tda
=
1
;
const
struct
NR_PUSCH_TimeDomainResourceAllocationList
*
tdaList
=
sched_ctrl
->
active_ubwp
->
bwp_Common
->
pusch_ConfigCommon
->
choice
.
setup
->
pusch_TimeDomainAllocationList
;
AssertFatal
(
tda
<
tdaList
->
list
.
count
,
"time domain assignment %d >= %d
\n
"
,
tda
,
tdaList
->
list
.
count
);
int
K2
=
get_K2
(
sched_ctrl
->
active_ubwp
,
tda
,
mu
);
const
int
sched_frame
=
frame
+
(
slot
+
K2
>=
num_slots_per_tdd
);
const
int
sched_slot
=
(
slot
+
K2
)
%
num_slots_per_tdd
;
/* check if slot is UL, and for phy test verify that it is in first TDD
* period, slot 8 (for K2=6, this is at slot 2 in the gNB; because of UE
* limitations). Note that if K2 or the TDD configuration is changed, below
* conditions might exclude each other and never be true */
const
bool
transmit
=
is_xlsch_in_slot
(
ulsch_in_slot_bitmap
,
sched_slot
)
&&
(
!
get_softmodem_params
()
->
phy_test
||
sched_slot
==
8
);
if
(
!
transmit
)
return
;
sched_ctrl
->
sched_pusch
->
time_domain_allocation
=
tda
;
sched_ctrl
->
sched_pusch
->
slot
=
sched_slot
;
sched_ctrl
->
sched_pusch
->
frame
=
sched_frame
;
const
int
target_ss
=
NR_SearchSpace__searchSpaceType_PR_ue_Specific
;
const
int
target_ss
=
NR_SearchSpace__searchSpaceType_PR_ue_Specific
;
sched_ctrl
->
search_space
=
get_searchspace
(
sched_ctrl
->
active_bwp
,
target_ss
);
sched_ctrl
->
search_space
=
get_searchspace
(
sched_ctrl
->
active_bwp
,
target_ss
);
uint8_t
nr_of_candidates
;
uint8_t
nr_of_candidates
;
...
@@ -514,280 +544,255 @@ void nr_schedule_ulsch(module_id_t module_id,
...
@@ -514,280 +544,255 @@ void nr_schedule_ulsch(module_id_t module_id,
int
num_slots_per_tdd
,
int
num_slots_per_tdd
,
int
ul_slots
,
int
ul_slots
,
uint64_t
ulsch_in_slot_bitmap
)
{
uint64_t
ulsch_in_slot_bitmap
)
{
gNB_MAC_INST
*
nr_mac
=
RC
.
nrmac
[
module_id
];
NR_COMMON_channels_t
*
cc
=
nr_mac
->
common_channels
;
NR_ServingCellConfigCommon_t
*
scc
=
cc
->
ServingCellConfigCommon
;
const
int
mu
=
scc
->
uplinkConfigCommon
->
initialUplinkBWP
->
genericParameters
.
subcarrierSpacing
;
const
int
UE_id
=
0
;
const
int
UE_id
=
0
;
NR_UE_info_t
*
UE_info
=
&
RC
.
nrmac
[
module_id
]
->
UE_info
;
NR_UE_info_t
*
UE_info
=
&
RC
.
nrmac
[
module_id
]
->
UE_info
;
AssertFatal
(
UE_info
->
active
[
UE_id
],
"Cannot find UE_id %d is not active
\n
"
,
UE_id
);
AssertFatal
(
UE_info
->
active
[
UE_id
],
"Cannot find UE_id %d is not active
\n
"
,
UE_id
);
nr_simple_ulsch_preprocessor
(
module_id
,
frame
,
slot
,
num_slots_per_tdd
,
ulsch_in_slot_bitmap
);
NR_CellGroupConfig_t
*
secondaryCellGroup
=
UE_info
->
secondaryCellGroup
[
UE_id
];
NR_CellGroupConfig_t
*
secondaryCellGroup
=
UE_info
->
secondaryCellGroup
[
UE_id
];
NR_UE_sched_ctrl_t
*
sched_ctrl
=
&
UE_info
->
UE_sched_ctrl
[
UE_id
];
NR_UE_sched_ctrl_t
*
sched_ctrl
=
&
UE_info
->
UE_sched_ctrl
[
UE_id
];
if
(
sched_ctrl
->
sched_pusch
->
rbSize
<=
0
)
return
;
uint16_t
rnti
=
UE_info
->
rnti
[
UE_id
];
/* PUSCH in a later slot, but corresponding DCI now! */
nfapi_nr_ul_tti_request_t
*
future_ul_tti_req
=
&
RC
.
nrmac
[
module_id
]
->
UL_tti_req_ahead
[
0
][
sched_ctrl
->
sched_pusch
->
slot
];
AssertFatal
(
future_ul_tti_req
->
SFN
==
sched_ctrl
->
sched_pusch
->
frame
&&
future_ul_tti_req
->
Slot
==
sched_ctrl
->
sched_pusch
->
slot
,
"%d.%d future UL_tti_req's frame.slot %d.%d does not match PUSCH %d.%d
\n
"
,
frame
,
slot
,
future_ul_tti_req
->
SFN
,
future_ul_tti_req
->
Slot
,
sched_ctrl
->
sched_pusch
->
frame
,
sched_ctrl
->
sched_pusch
->
slot
);
future_ul_tti_req
->
pdus_list
[
future_ul_tti_req
->
n_pdus
].
pdu_type
=
NFAPI_NR_UL_CONFIG_PUSCH_PDU_TYPE
;
future_ul_tti_req
->
pdus_list
[
future_ul_tti_req
->
n_pdus
].
pdu_size
=
sizeof
(
nfapi_nr_pusch_pdu_t
);
nfapi_nr_pusch_pdu_t
*
pusch_pdu
=
&
future_ul_tti_req
->
pdus_list
[
future_ul_tti_req
->
n_pdus
].
pusch_pdu
;
memset
(
pusch_pdu
,
0
,
sizeof
(
nfapi_nr_pusch_pdu_t
));
future_ul_tti_req
->
n_pdus
+=
1
;
LOG_D
(
MAC
,
"%4d.%2d Scheduling UE specific PUSCH
\n
"
,
frame
,
slot
);
int
dci_formats
[
2
];
if
(
sched_ctrl
->
search_space
->
searchSpaceType
->
choice
.
ue_Specific
->
dci_Formats
)
dci_formats
[
0
]
=
NR_UL_DCI_FORMAT_0_1
;
else
dci_formats
[
0
]
=
NR_UL_DCI_FORMAT_0_0
;
int
rnti_types
[
2
]
=
{
NR_RNTI_C
,
0
};
const
int
tda
=
1
;
// hardcoded for the moment
//Resource Allocation in time domain
const
int
tda
=
sched_ctrl
->
sched_pusch
->
time_domain_allocation
;
const
struct
NR_PUSCH_TimeDomainResourceAllocationList
*
tdaList
=
const
struct
NR_PUSCH_TimeDomainResourceAllocationList
*
tdaList
=
sched_ctrl
->
active_ubwp
->
bwp_Common
->
pusch_ConfigCommon
->
choice
.
setup
->
pusch_TimeDomainAllocationList
;
sched_ctrl
->
active_ubwp
->
bwp_Common
->
pusch_ConfigCommon
->
choice
.
setup
->
pusch_TimeDomainAllocationList
;
AssertFatal
(
tda
<
tdaList
->
list
.
count
,
const
int
startSymbolAndLength
=
tdaList
->
list
.
array
[
tda
]
->
startSymbolAndLength
;
"time domain assignment %d >= %d
\n
"
,
int
StartSymbolIndex
,
NrOfSymbols
;
tda
,
SLIV2SL
(
startSymbolAndLength
,
&
StartSymbolIndex
,
&
NrOfSymbols
);
tdaList
->
list
.
count
);
pusch_pdu
->
start_symbol_index
=
StartSymbolIndex
;
pusch_pdu
->
nr_of_symbols
=
NrOfSymbols
;
int
K2
=
get_K2
(
sched_ctrl
->
active_ubwp
,
tda
,
mu
);
/* check if slot is UL, and for phy test verify that it is in first TDD
pusch_pdu
->
pdu_bit_map
=
PUSCH_PDU_BITMAP_PUSCH_DATA
;
* period, slot 8 (for K2=2, this is at slot 6 in the gNB; because of UE
pusch_pdu
->
rnti
=
rnti
;
* limitations). Note that if K2 or the TDD configuration is changed, below
pusch_pdu
->
handle
=
0
;
//not yet used
* conditions might exclude each other and never be true */
const
int
sched_frame
=
frame
+
(
slot
+
K2
>=
num_slots_per_tdd
);
pusch_pdu
->
bwp_size
=
NRRIV2BW
(
sched_ctrl
->
active_ubwp
->
bwp_Common
->
genericParameters
.
locationAndBandwidth
,
275
);
const
int
sched_slot
=
(
slot
+
K2
)
%
num_slots_per_tdd
;
pusch_pdu
->
bwp_start
=
NRRIV2PRBOFFSET
(
sched_ctrl
->
active_ubwp
->
bwp_Common
->
genericParameters
.
locationAndBandwidth
,
275
);
if
(
is_xlsch_in_slot
(
ulsch_in_slot_bitmap
,
sched_slot
)
pusch_pdu
->
subcarrier_spacing
=
sched_ctrl
->
active_ubwp
->
bwp_Common
->
genericParameters
.
subcarrierSpacing
;
&&
(
!
get_softmodem_params
()
->
phy_test
||
sched_slot
==
8
))
{
pusch_pdu
->
cyclic_prefix
=
0
;
nfapi_nr_ul_dci_request_t
*
UL_dci_req
=
&
RC
.
nrmac
[
module_id
]
->
UL_dci_req
[
0
];
NR_PUSCH_Config_t
*
pusch_Config
=
sched_ctrl
->
active_ubwp
->
bwp_Dedicated
->
pusch_Config
->
choice
.
setup
;
UL_dci_req
->
SFN
=
frame
;
NR_ServingCellConfigCommon_t
*
scc
=
RC
.
nrmac
[
0
]
->
common_channels
->
ServingCellConfigCommon
;
UL_dci_req
->
Slot
=
slot
;
if
(
!
pusch_Config
->
transformPrecoder
)
nfapi_nr_ul_dci_request_pdus_t
*
ul_dci_request_pdu
;
pusch_pdu
->
transform_precoding
=
!
scc
->
uplinkConfigCommon
->
initialUplinkBWP
->
rach_ConfigCommon
->
choice
.
setup
->
msg3_transformPrecoder
;
else
uint16_t
rnti
=
UE_info
->
rnti
[
UE_id
];
pusch_pdu
->
transform_precoding
=
*
pusch_Config
->
transformPrecoder
;
/* PUSCH in a later slot, but corresponding DCI now! */
nfapi_nr_ul_tti_request_t
*
future_ul_tti_req
=
&
RC
.
nrmac
[
module_id
]
->
UL_tti_req_ahead
[
0
][
sched_slot
];
AssertFatal
(
future_ul_tti_req
->
SFN
==
sched_frame
&&
future_ul_tti_req
->
Slot
==
sched_slot
,
"%d.%d future UL_tti_req's frame.slot %d.%d does not match PUSCH %d.%d
\n
"
,
frame
,
slot
,
future_ul_tti_req
->
SFN
,
future_ul_tti_req
->
Slot
,
sched_frame
,
sched_slot
);
nfapi_nr_ul_dci_request_t
*
ul_dci_req
=
&
RC
.
nrmac
[
module_id
]
->
UL_dci_req
[
0
];
ul_dci_req
->
SFN
=
frame
;
ul_dci_req
->
Slot
=
slot
;
future_ul_tti_req
->
pdus_list
[
future_ul_tti_req
->
n_pdus
].
pdu_type
=
NFAPI_NR_UL_CONFIG_PUSCH_PDU_TYPE
;
future_ul_tti_req
->
pdus_list
[
future_ul_tti_req
->
n_pdus
].
pdu_size
=
sizeof
(
nfapi_nr_pusch_pdu_t
);
nfapi_nr_pusch_pdu_t
*
pusch_pdu
=
&
future_ul_tti_req
->
pdus_list
[
future_ul_tti_req
->
n_pdus
].
pusch_pdu
;
memset
(
pusch_pdu
,
0
,
sizeof
(
nfapi_nr_pusch_pdu_t
));
future_ul_tti_req
->
n_pdus
+=
1
;
LOG_D
(
MAC
,
"%4d.%2d Scheduling UE specific PUSCH
\n
"
,
frame
,
slot
);
int
dci_formats
[
2
];
if
(
sched_ctrl
->
search_space
->
searchSpaceType
->
choice
.
ue_Specific
->
dci_Formats
)
dci_formats
[
0
]
=
NR_UL_DCI_FORMAT_0_1
;
else
dci_formats
[
0
]
=
NR_UL_DCI_FORMAT_0_0
;
int
rnti_types
[
2
]
=
{
NR_RNTI_C
,
0
};
//Resource Allocation in time domain
const
int
startSymbolAndLength
=
tdaList
->
list
.
array
[
tda
]
->
startSymbolAndLength
;
int
StartSymbolIndex
,
NrOfSymbols
;
SLIV2SL
(
startSymbolAndLength
,
&
StartSymbolIndex
,
&
NrOfSymbols
);
pusch_pdu
->
start_symbol_index
=
StartSymbolIndex
;
pusch_pdu
->
nr_of_symbols
=
NrOfSymbols
;
pusch_pdu
->
pdu_bit_map
=
PUSCH_PDU_BITMAP_PUSCH_DATA
;
pusch_pdu
->
rnti
=
rnti
;
pusch_pdu
->
handle
=
0
;
//not yet used
pusch_pdu
->
bwp_size
=
NRRIV2BW
(
sched_ctrl
->
active_ubwp
->
bwp_Common
->
genericParameters
.
locationAndBandwidth
,
275
);
pusch_pdu
->
bwp_start
=
NRRIV2PRBOFFSET
(
sched_ctrl
->
active_ubwp
->
bwp_Common
->
genericParameters
.
locationAndBandwidth
,
275
);
pusch_pdu
->
subcarrier_spacing
=
sched_ctrl
->
active_ubwp
->
bwp_Common
->
genericParameters
.
subcarrierSpacing
;
pusch_pdu
->
cyclic_prefix
=
0
;
NR_PUSCH_Config_t
*
pusch_Config
=
sched_ctrl
->
active_ubwp
->
bwp_Dedicated
->
pusch_Config
->
choice
.
setup
;
if
(
!
pusch_Config
->
transformPrecoder
)
pusch_pdu
->
transform_precoding
=
!
scc
->
uplinkConfigCommon
->
initialUplinkBWP
->
rach_ConfigCommon
->
choice
.
setup
->
msg3_transformPrecoder
;
else
pusch_pdu
->
transform_precoding
=
*
pusch_Config
->
transformPrecoder
;
if
(
pusch_Config
->
dataScramblingIdentityPUSCH
)
if
(
pusch_Config
->
dataScramblingIdentityPUSCH
)
pusch_pdu
->
data_scrambling_id
=
*
pusch_Config
->
dataScramblingIdentityPUSCH
;
pusch_pdu
->
data_scrambling_id
=
*
pusch_Config
->
dataScramblingIdentityPUSCH
;
else
else
pusch_pdu
->
data_scrambling_id
=
*
scc
->
physCellId
;
pusch_pdu
->
data_scrambling_id
=
*
scc
->
physCellId
;
pusch_pdu
->
mcs_index
=
sched_ctrl
->
sched_pusch
->
mcs
;
pusch_pdu
->
mcs_index
=
sched_ctrl
->
sched_pusch
->
mcs
;
const
int
target_ss
=
NR_SearchSpace__searchSpaceType_PR_ue_Specific
;
const
int
target_ss
=
NR_SearchSpace__searchSpaceType_PR_ue_Specific
;
if
(
pusch_pdu
->
transform_precoding
)
if
(
pusch_pdu
->
transform_precoding
)
pusch_pdu
->
mcs_table
=
get_pusch_mcs_table
(
pusch_Config
->
mcs_Table
,
pusch_pdu
->
mcs_table
=
get_pusch_mcs_table
(
pusch_Config
->
mcs_Table
,
0
,
0
,
dci_formats
[
0
],
dci_formats
[
0
],
rnti_types
[
0
],
rnti_types
[
0
],
target_ss
,
target_ss
,
false
);
false
);
else
else
pusch_pdu
->
mcs_table
=
pusch_pdu
->
mcs_table
=
get_pusch_mcs_table
(
pusch_Config
->
mcs_TableTransformPrecoder
,
get_pusch_mcs_table
(
pusch_Config
->
mcs_TableTransformPrecoder
,
1
,
1
,
dci_formats
[
0
],
dci_formats
[
0
],
rnti_types
[
0
],
rnti_types
[
0
],
target_ss
,
target_ss
,
false
);
false
);
pusch_pdu
->
target_code_rate
=
nr_get_code_rate_ul
(
pusch_pdu
->
mcs_index
,
pusch_pdu
->
mcs_table
);
pusch_pdu
->
target_code_rate
=
nr_get_code_rate_ul
(
pusch_pdu
->
mcs_index
,
pusch_pdu
->
mcs_table
);
pusch_pdu
->
qam_mod_order
=
nr_get_Qm_ul
(
pusch_pdu
->
mcs_index
,
pusch_pdu
->
mcs_table
);
pusch_pdu
->
qam_mod_order
=
nr_get_Qm_ul
(
pusch_pdu
->
mcs_index
,
pusch_pdu
->
mcs_table
);
if
(
pusch_Config
->
tp_pi2BPSK
)
{
if
(
pusch_Config
->
tp_pi2BPSK
)
{
if
(((
pusch_pdu
->
mcs_table
==
3
)
&&
(
pusch_pdu
->
mcs_index
<
2
))
if
(((
pusch_pdu
->
mcs_table
==
3
)
&&
(
pusch_pdu
->
mcs_index
<
2
))
||
((
pusch_pdu
->
mcs_table
==
4
)
&&
(
pusch_pdu
->
mcs_index
<
6
)))
{
||
((
pusch_pdu
->
mcs_table
==
4
)
&&
(
pusch_pdu
->
mcs_index
<
6
)))
{
pusch_pdu
->
target_code_rate
=
pusch_pdu
->
target_code_rate
>>
1
;
pusch_pdu
->
target_code_rate
=
pusch_pdu
->
target_code_rate
>>
1
;
pusch_pdu
->
qam_mod_order
=
pusch_pdu
->
qam_mod_order
<<
1
;
pusch_pdu
->
qam_mod_order
=
pusch_pdu
->
qam_mod_order
<<
1
;
}
}
}
pusch_pdu
->
nrOfLayers
=
1
;
}
pusch_pdu
->
nrOfLayers
=
1
;
//Pusch Allocation in frequency domain [TS38.214, sec 6.1.2.2]
AssertFatal
(
pusch_Config
->
resourceAllocation
==
NR_PUSCH_Config__resourceAllocation_resourceAllocationType1
,
//Pusch Allocation in frequency domain [TS38.214, sec 6.1.2.2]
"Only frequency resource allocation type 1 is currently supported
\n
"
);
AssertFatal
(
pusch_Config
->
resourceAllocation
==
NR_PUSCH_Config__resourceAllocation_resourceAllocationType1
,
pusch_pdu
->
resource_alloc
=
1
;
//type 1
"Only frequency resource allocation type 1 is currently supported
\n
"
);
pusch_pdu
->
rb_start
=
sched_ctrl
->
sched_pusch
->
rbStart
;
pusch_pdu
->
resource_alloc
=
1
;
//type 1
pusch_pdu
->
rb_size
=
sched_ctrl
->
sched_pusch
->
rbSize
;
pusch_pdu
->
rb_start
=
sched_ctrl
->
sched_pusch
->
rbStart
;
pusch_pdu
->
vrb_to_prb_mapping
=
0
;
pusch_pdu
->
rb_size
=
sched_ctrl
->
sched_pusch
->
rbSize
;
pusch_pdu
->
vrb_to_prb_mapping
=
0
;
if
(
pusch_Config
->
frequencyHopping
==
NULL
)
pusch_pdu
->
frequency_hopping
=
0
;
if
(
pusch_Config
->
frequencyHopping
==
NULL
)
else
pusch_pdu
->
frequency_hopping
=
0
;
pusch_pdu
->
frequency_hopping
=
1
;
else
pusch_pdu
->
frequency_hopping
=
1
;
// --------------------
// --------------------
// ------- DMRS -------
// ------- DMRS -------
// --------------------
// --------------------
const
int
mapping_type
=
tdaList
->
list
.
array
[
tda
]
->
mappingType
;
const
int
mapping_type
=
tdaList
->
list
.
array
[
tda
]
->
mappingType
;
NR_DMRS_UplinkConfig_t
*
NR_DMRS_UplinkConfig
;
NR_DMRS_UplinkConfig_t
*
NR_DMRS_UplinkConfig
;
if
(
mapping_type
==
NR_PUSCH_TimeDomainResourceAllocation__mappingType_typeA
)
if
(
mapping_type
==
NR_PUSCH_TimeDomainResourceAllocation__mappingType_typeA
)
NR_DMRS_UplinkConfig
=
pusch_Config
->
dmrs_UplinkForPUSCH_MappingTypeA
->
choice
.
setup
;
NR_DMRS_UplinkConfig
=
pusch_Config
->
dmrs_UplinkForPUSCH_MappingTypeA
->
choice
.
setup
;
else
else
NR_DMRS_UplinkConfig
=
pusch_Config
->
dmrs_UplinkForPUSCH_MappingTypeB
->
choice
.
setup
;
NR_DMRS_UplinkConfig
=
pusch_Config
->
dmrs_UplinkForPUSCH_MappingTypeB
->
choice
.
setup
;
if
(
NR_DMRS_UplinkConfig
->
dmrs_Type
==
NULL
)
if
(
NR_DMRS_UplinkConfig
->
dmrs_Type
==
NULL
)
pusch_pdu
->
dmrs_config_type
=
0
;
pusch_pdu
->
dmrs_config_type
=
0
;
else
pusch_pdu
->
dmrs_config_type
=
1
;
pusch_pdu
->
scid
=
0
;
// DMRS sequence initialization [TS38.211, sec 6.4.1.1.1]
if
(
pusch_pdu
->
transform_precoding
)
{
// transform precoding disabled
long
*
scramblingid
;
if
(
pusch_pdu
->
scid
==
0
)
scramblingid
=
NR_DMRS_UplinkConfig
->
transformPrecodingDisabled
->
scramblingID0
;
else
else
pusch_pdu
->
dmrs_config_type
=
1
;
scramblingid
=
NR_DMRS_UplinkConfig
->
transformPrecodingDisabled
->
scramblingID1
;
pusch_pdu
->
scid
=
0
;
// DMRS sequence initialization [TS38.211, sec 6.4.1.1.1]
if
(
scramblingid
==
NULL
)
if
(
pusch_pdu
->
transform_precoding
)
{
// transform precoding disabled
long
*
scramblingid
;
if
(
pusch_pdu
->
scid
==
0
)
scramblingid
=
NR_DMRS_UplinkConfig
->
transformPrecodingDisabled
->
scramblingID0
;
else
scramblingid
=
NR_DMRS_UplinkConfig
->
transformPrecodingDisabled
->
scramblingID1
;
if
(
scramblingid
==
NULL
)
pusch_pdu
->
ul_dmrs_scrambling_id
=
*
scc
->
physCellId
;
else
pusch_pdu
->
ul_dmrs_scrambling_id
=
*
scramblingid
;
}
else
{
pusch_pdu
->
ul_dmrs_scrambling_id
=
*
scc
->
physCellId
;
pusch_pdu
->
ul_dmrs_scrambling_id
=
*
scc
->
physCellId
;
if
(
NR_DMRS_UplinkConfig
->
transformPrecodingEnabled
->
nPUSCH_Identity
!=
NULL
)
pusch_pdu
->
pusch_identity
=
*
NR_DMRS_UplinkConfig
->
transformPrecodingEnabled
->
nPUSCH_Identity
;
else
pusch_pdu
->
pusch_identity
=
*
scc
->
physCellId
;
}
pusch_dmrs_AdditionalPosition_t
additional_pos
;
if
(
NR_DMRS_UplinkConfig
->
dmrs_AdditionalPosition
==
NULL
)
additional_pos
=
2
;
else
{
if
(
*
NR_DMRS_UplinkConfig
->
dmrs_AdditionalPosition
==
NR_DMRS_UplinkConfig__dmrs_AdditionalPosition_pos3
)
additional_pos
=
3
;
else
additional_pos
=
*
NR_DMRS_UplinkConfig
->
dmrs_AdditionalPosition
;
}
pusch_maxLength_t
pusch_maxLength
;
if
(
NR_DMRS_UplinkConfig
->
maxLength
==
NULL
)
pusch_maxLength
=
1
;
else
else
pusch_maxLength
=
2
;
pusch_pdu
->
ul_dmrs_scrambling_id
=
*
scramblingid
;
uint16_t
l_prime_mask
=
get_l_prime
(
pusch_pdu
->
nr_of_symbols
,
mapping_type
,
additional_pos
,
pusch_maxLength
);
}
pusch_pdu
->
ul_dmrs_symb_pos
=
l_prime_mask
<<
pusch_pdu
->
start_symbol_index
;
else
{
pusch_pdu
->
ul_dmrs_scrambling_id
=
*
scc
->
physCellId
;
pusch_pdu
->
num_dmrs_cdm_grps_no_data
=
1
;
if
(
NR_DMRS_UplinkConfig
->
transformPrecodingEnabled
->
nPUSCH_Identity
!=
NULL
)
pusch_pdu
->
dmrs_ports
=
1
;
pusch_pdu
->
pusch_identity
=
*
NR_DMRS_UplinkConfig
->
transformPrecodingEnabled
->
nPUSCH_Identity
;
else
// --------------------
pusch_pdu
->
pusch_identity
=
*
scc
->
physCellId
;
// ------- PTRS -------
}
// --------------------
pusch_dmrs_AdditionalPosition_t
additional_pos
;
if
(
NR_DMRS_UplinkConfig
->
phaseTrackingRS
!=
NULL
)
{
if
(
NR_DMRS_UplinkConfig
->
dmrs_AdditionalPosition
==
NULL
)
// TODO to be fixed from RRC config
additional_pos
=
2
;
uint8_t
ptrs_mcs1
=
2
;
// higher layer parameter in PTRS-UplinkConfig
else
{
uint8_t
ptrs_mcs2
=
4
;
// higher layer parameter in PTRS-UplinkConfig
if
(
*
NR_DMRS_UplinkConfig
->
dmrs_AdditionalPosition
==
NR_DMRS_UplinkConfig__dmrs_AdditionalPosition_pos3
)
uint8_t
ptrs_mcs3
=
10
;
// higher layer parameter in PTRS-UplinkConfig
additional_pos
=
3
;
uint16_t
n_rb0
=
25
;
// higher layer parameter in PTRS-UplinkConfig
else
uint16_t
n_rb1
=
75
;
// higher layer parameter in PTRS-UplinkConfig
additional_pos
=
*
NR_DMRS_UplinkConfig
->
dmrs_AdditionalPosition
;
pusch_pdu
->
pusch_ptrs
.
ptrs_time_density
=
get_L_ptrs
(
ptrs_mcs1
,
ptrs_mcs2
,
ptrs_mcs3
,
pusch_pdu
->
mcs_index
,
pusch_pdu
->
mcs_table
);
}
pusch_pdu
->
pusch_ptrs
.
ptrs_freq_density
=
get_K_ptrs
(
n_rb0
,
n_rb1
,
pusch_pdu
->
rb_size
);
pusch_maxLength_t
pusch_maxLength
;
pusch_pdu
->
pusch_ptrs
.
ptrs_ports_list
=
(
nfapi_nr_ptrs_ports_t
*
)
malloc
(
2
*
sizeof
(
nfapi_nr_ptrs_ports_t
));
if
(
NR_DMRS_UplinkConfig
->
maxLength
==
NULL
)
pusch_pdu
->
pusch_ptrs
.
ptrs_ports_list
[
0
].
ptrs_re_offset
=
0
;
pusch_maxLength
=
1
;
else
pusch_pdu
->
pdu_bit_map
|=
PUSCH_PDU_BITMAP_PUSCH_PTRS
;
// enable PUSCH PTRS
pusch_maxLength
=
2
;
}
uint16_t
l_prime_mask
=
get_l_prime
(
pusch_pdu
->
nr_of_symbols
,
mapping_type
,
additional_pos
,
pusch_maxLength
);
else
{
pusch_pdu
->
ul_dmrs_symb_pos
=
l_prime_mask
<<
pusch_pdu
->
start_symbol_index
;
pusch_pdu
->
pdu_bit_map
&=
~
PUSCH_PDU_BITMAP_PUSCH_PTRS
;
// disable PUSCH PTRS
}
pusch_pdu
->
num_dmrs_cdm_grps_no_data
=
1
;
pusch_pdu
->
dmrs_ports
=
1
;
// --------------------------------------------------------------------------------------------------------------------------------------------
// --------------------
// ------- PTRS -------
// --------------------
if
(
NR_DMRS_UplinkConfig
->
phaseTrackingRS
!=
NULL
)
{
// TODO to be fixed from RRC config
uint8_t
ptrs_mcs1
=
2
;
// higher layer parameter in PTRS-UplinkConfig
uint8_t
ptrs_mcs2
=
4
;
// higher layer parameter in PTRS-UplinkConfig
uint8_t
ptrs_mcs3
=
10
;
// higher layer parameter in PTRS-UplinkConfig
uint16_t
n_rb0
=
25
;
// higher layer parameter in PTRS-UplinkConfig
uint16_t
n_rb1
=
75
;
// higher layer parameter in PTRS-UplinkConfig
pusch_pdu
->
pusch_ptrs
.
ptrs_time_density
=
get_L_ptrs
(
ptrs_mcs1
,
ptrs_mcs2
,
ptrs_mcs3
,
pusch_pdu
->
mcs_index
,
pusch_pdu
->
mcs_table
);
pusch_pdu
->
pusch_ptrs
.
ptrs_freq_density
=
get_K_ptrs
(
n_rb0
,
n_rb1
,
pusch_pdu
->
rb_size
);
pusch_pdu
->
pusch_ptrs
.
ptrs_ports_list
=
(
nfapi_nr_ptrs_ports_t
*
)
malloc
(
2
*
sizeof
(
nfapi_nr_ptrs_ports_t
));
pusch_pdu
->
pusch_ptrs
.
ptrs_ports_list
[
0
].
ptrs_re_offset
=
0
;
pusch_pdu
->
pdu_bit_map
|=
PUSCH_PDU_BITMAP_PUSCH_PTRS
;
// enable PUSCH PTRS
}
else
{
pusch_pdu
->
pdu_bit_map
&=
~
PUSCH_PDU_BITMAP_PUSCH_PTRS
;
// disable PUSCH PTRS
}
//Pusch Allocation in frequency domain [TS38.214, sec 6.1.2.2]
int8_t
harq_id
=
select_ul_harq_pid
(
&
UE_info
->
UE_sched_ctrl
[
UE_id
]);
//Optional Data only included if indicated in pduBitmap
if
(
harq_id
<
0
)
return
;
int8_t
harq_id
=
select_ul_harq_pid
(
&
UE_info
->
UE_sched_ctrl
[
UE_id
]);
NR_UE_ul_harq_t
*
cur_harq
=
&
UE_info
->
UE_sched_ctrl
[
UE_id
].
ul_harq_processes
[
harq_id
];
if
(
harq_id
<
0
)
return
;
pusch_pdu
->
pusch_data
.
harq_process_id
=
harq_id
;
NR_UE_ul_harq_t
*
cur_harq
=
&
UE_info
->
UE_sched_ctrl
[
UE_id
].
ul_harq_processes
[
harq_id
];
pusch_pdu
->
pusch_data
.
new_data_indicator
=
cur_harq
->
ndi
;
pusch_pdu
->
pusch_data
.
harq_process_id
=
harq_id
;
pusch_pdu
->
pusch_data
.
rv_index
=
nr_rv_round_map
[
cur_harq
->
round
];
pusch_pdu
->
pusch_data
.
new_data_indicator
=
cur_harq
->
ndi
;
pusch_pdu
->
pusch_data
.
rv_index
=
nr_rv_round_map
[
cur_harq
->
round
];
cur_harq
->
state
=
ACTIVE_SCHED
;
cur_harq
->
state
=
ACTIVE_SCHED
;
cur_harq
->
last_tx_slot
=
sched_
slot
;
cur_harq
->
last_tx_slot
=
sched_ctrl
->
sched_pusch
->
slot
;
uint8_t
num_dmrs_symb
=
0
;
uint8_t
num_dmrs_symb
=
0
;
for
(
int
i
=
pusch_pdu
->
start_symbol_index
;
i
<
pusch_pdu
->
start_symbol_index
+
pusch_pdu
->
nr_of_symbols
;
i
++
)
for
(
int
i
=
pusch_pdu
->
start_symbol_index
;
i
<
pusch_pdu
->
start_symbol_index
+
pusch_pdu
->
nr_of_symbols
;
i
++
)
num_dmrs_symb
+=
(
pusch_pdu
->
ul_dmrs_symb_pos
>>
i
)
&
1
;
num_dmrs_symb
+=
(
pusch_pdu
->
ul_dmrs_symb_pos
>>
i
)
&
1
;
uint8_t
N_PRB_DMRS
;
uint8_t
N_PRB_DMRS
;
if
(
pusch_pdu
->
dmrs_config_type
==
0
)
if
(
pusch_pdu
->
dmrs_config_type
==
0
)
N_PRB_DMRS
=
pusch_pdu
->
num_dmrs_cdm_grps_no_data
*
6
;
N_PRB_DMRS
=
pusch_pdu
->
num_dmrs_cdm_grps_no_data
*
6
;
else
else
N_PRB_DMRS
=
pusch_pdu
->
num_dmrs_cdm_grps_no_data
*
4
;
N_PRB_DMRS
=
pusch_pdu
->
num_dmrs_cdm_grps_no_data
*
4
;
pusch_pdu
->
pusch_data
.
tb_size
=
nr_compute_tbs
(
pusch_pdu
->
qam_mod_order
,
pusch_pdu
->
pusch_data
.
tb_size
=
nr_compute_tbs
(
pusch_pdu
->
qam_mod_order
,
pusch_pdu
->
target_code_rate
,
pusch_pdu
->
target_code_rate
,
pusch_pdu
->
rb_size
,
pusch_pdu
->
rb_size
,
pusch_pdu
->
nr_of_symbols
,
pusch_pdu
->
nr_of_symbols
,
N_PRB_DMRS
*
num_dmrs_symb
,
N_PRB_DMRS
*
num_dmrs_symb
,
0
,
//nb_rb_oh
0
,
//nb_rb_oh
0
,
0
,
pusch_pdu
->
nrOfLayers
)
>>
3
;
pusch_pdu
->
nrOfLayers
)
>>
3
;
UE_info
->
mac_stats
[
UE_id
].
ulsch_rounds
[
cur_harq
->
round
]
++
;
UE_info
->
mac_stats
[
UE_id
].
ulsch_rounds
[
cur_harq
->
round
]
++
;
if
(
cur_harq
->
round
==
0
)
if
(
cur_harq
->
round
==
0
)
UE_info
->
mac_stats
[
UE_id
].
ulsch_total_bytes_scheduled
+=
pusch_pdu
->
pusch_data
.
tb_size
;
UE_info
->
mac_stats
[
UE_id
].
ulsch_total_bytes_scheduled
+=
pusch_pdu
->
pusch_data
.
tb_size
;
pusch_pdu
->
pusch_data
.
num_cb
=
0
;
//CBG not supported
pusch_pdu
->
pusch_data
.
num_cb
=
0
;
//CBG not supported
ul_dci_request_pdu
=
&
UL_dci_req
->
ul_dci_pdu_list
[
UL_dci_req
->
numPdus
];
nfapi_nr_ul_dci_request_t
*
ul_dci_req
=
&
RC
.
nrmac
[
module_id
]
->
UL_dci_req
[
0
];
memset
((
void
*
)
ul_dci_request_pdu
,
0
,
sizeof
(
nfapi_nr_ul_dci_request_pdus_t
));
ul_dci_req
->
SFN
=
frame
;
ul_dci_request_pdu
->
PDUType
=
NFAPI_NR_DL_TTI_PDCCH_PDU_TYPE
;
ul_dci_req
->
Slot
=
slot
;
ul_dci_request_pdu
->
PDUSize
=
(
uint8_t
)(
2
+
sizeof
(
nfapi_nr_dl_tti_pdcch_pdu
));
nfapi_nr_ul_dci_request_pdus_t
*
ul_dci_request_pdu
=
&
ul_dci_req
->
ul_dci_pdu_list
[
ul_dci_req
->
numPdus
];
nfapi_nr_dl_tti_pdcch_pdu_rel15_t
*
pdcch_pdu_rel15
=
&
ul_dci_request_pdu
->
pdcch_pdu
.
pdcch_pdu_rel15
;
memset
(
ul_dci_request_pdu
,
0
,
sizeof
(
nfapi_nr_ul_dci_request_pdus_t
));
UL_dci_req
->
numPdus
+=
1
;
ul_dci_request_pdu
->
PDUType
=
NFAPI_NR_DL_TTI_PDCCH_PDU_TYPE
;
ul_dci_request_pdu
->
PDUSize
=
(
uint8_t
)(
2
+
sizeof
(
nfapi_nr_dl_tti_pdcch_pdu
));
LOG_D
(
MAC
,
"Configuring ULDCI/PDCCH in %d.%d
\n
"
,
frame
,
slot
);
nfapi_nr_dl_tti_pdcch_pdu_rel15_t
*
pdcch_pdu_rel15
=
&
ul_dci_request_pdu
->
pdcch_pdu
.
pdcch_pdu_rel15
;
ul_dci_req
->
numPdus
+=
1
;
nr_configure_pdcch
(
nr_mac
,
pdcch_pdu_rel15
,
LOG_D
(
MAC
,
"Configuring ULDCI/PDCCH in %d.%d
\n
"
,
frame
,
slot
);
rnti
,
sched_ctrl
->
search_space
,
nr_configure_pdcch
(
RC
.
nrmac
[
0
],
sched_ctrl
->
coreset
,
pdcch_pdu_rel15
,
scc
,
rnti
,
sched_ctrl
->
active_bwp
,
sched_ctrl
->
search_space
,
sched_ctrl
->
aggregation_level
,
sched_ctrl
->
coreset
,
sched_ctrl
->
cce_index
);
scc
,
sched_ctrl
->
active_bwp
,
dci_pdu_rel15_t
dci_pdu_rel15
[
MAX_DCI_CORESET
];
sched_ctrl
->
aggregation_level
,
memset
(
dci_pdu_rel15
,
0
,
sizeof
(
dci_pdu_rel15
));
sched_ctrl
->
cce_index
);
const
int
n_ubwp
=
secondaryCellGroup
->
spCellConfig
->
spCellConfigDedicated
->
uplinkConfig
->
uplinkBWP_ToAddModList
->
list
.
count
;
config_uldci
(
sched_ctrl
->
active_ubwp
,
pusch_pdu
,
pdcch_pdu_rel15
,
&
dci_pdu_rel15
[
0
],
dci_formats
,
rnti_types
,
tda
,
UE_info
->
UE_sched_ctrl
[
UE_id
].
tpc0
,
n_ubwp
,
sched_ctrl
->
active_bwp
->
bwp_Id
);
dci_pdu_rel15_t
dci_pdu_rel15
[
MAX_DCI_CORESET
];
fill_dci_pdu_rel15
(
scc
,
secondaryCellGroup
,
pdcch_pdu_rel15
,
dci_pdu_rel15
,
dci_formats
,
rnti_types
,
pusch_pdu
->
bwp_size
,
sched_ctrl
->
active_bwp
->
bwp_Id
);
memset
(
dci_pdu_rel15
,
0
,
sizeof
(
dci_pdu_rel15
));
const
int
n_ubwp
=
secondaryCellGroup
->
spCellConfig
->
spCellConfigDedicated
->
uplinkConfig
->
uplinkBWP_ToAddModList
->
list
.
count
;
config_uldci
(
sched_ctrl
->
active_ubwp
,
pusch_pdu
,
pdcch_pdu_rel15
,
&
dci_pdu_rel15
[
0
],
dci_formats
,
rnti_types
,
tda
,
UE_info
->
UE_sched_ctrl
[
UE_id
].
tpc0
,
n_ubwp
,
sched_ctrl
->
active_bwp
->
bwp_Id
);
sched_ctrl
->
sched_pusch
->
rbSize
=
0
;
fill_dci_pdu_rel15
(
scc
,
secondaryCellGroup
,
pdcch_pdu_rel15
,
dci_pdu_rel15
,
dci_formats
,
rnti_types
,
pusch_pdu
->
bwp_size
,
sched_ctrl
->
active_bwp
->
bwp_Id
);
}
sched_ctrl
->
sched_pusch
->
rbSize
=
0
;
}
}
openair2/LAYER2/NR_MAC_gNB/nr_mac_gNB.h
View file @
b7e2b2d7
...
@@ -295,6 +295,9 @@ typedef struct NR_sched_pusch {
...
@@ -295,6 +295,9 @@ typedef struct NR_sched_pusch {
uint16_t
rbSize
;
uint16_t
rbSize
;
uint16_t
rbStart
;
uint16_t
rbStart
;
// time-domain allocation for scheduled RBs
int
time_domain_allocation
;
/// MCS
/// MCS
uint8_t
mcs
;
uint8_t
mcs
;
}
NR_sched_pusch_t
;
}
NR_sched_pusch_t
;
...
...
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