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wangjie
OpenXG-RAN
Commits
b79199b4
Commit
b79199b4
authored
Jun 16, 2014
by
Raymond Knopp
Browse files
Options
Browse Files
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Plain Diff
git-svn-id:
http://svn.eurecom.fr/openair4G/trunk@5397
818b1a75-f10b-46b9-bf7c-635c3b92a50f
parent
7164409e
Changes
4
Show whitespace changes
Inline
Side-by-side
Showing
4 changed files
with
1434 additions
and
167 deletions
+1434
-167
openair1/PHY/LTE_TRANSPORT/dci.c
openair1/PHY/LTE_TRANSPORT/dci.c
+78
-13
openair1/PHY/LTE_TRANSPORT/dci_tools.c
openair1/PHY/LTE_TRANSPORT/dci_tools.c
+1320
-140
openair1/PHY/LTE_TRANSPORT/defs.h
openair1/PHY/LTE_TRANSPORT/defs.h
+5
-8
openair1/PHY/LTE_TRANSPORT/dlsch_modulation.c
openair1/PHY/LTE_TRANSPORT/dlsch_modulation.c
+31
-6
No files found.
openair1/PHY/LTE_TRANSPORT/dci.c
View file @
b79199b4
...
...
@@ -2705,6 +2705,7 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
uint8_t
format1A_size_bits
,
format1A_size_bytes
;
uint8_t
format0_size_bits
,
format0_size_bytes
;
uint8_t
format1_size_bits
,
format1_size_bytes
;
uint8_t
format2_size_bits
,
format2_size_bytes
;
switch
(
frame_parms
->
N_RB_DL
)
{
case
6
:
...
...
@@ -2715,6 +2716,14 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
format0_size_bytes
=
sizeof
(
DCI0_1_5MHz_TDD_1_6_t
);
format1_size_bits
=
sizeof_DCI1_1_5MHz_TDD_t
;
format1_size_bytes
=
sizeof
(
DCI1_1_5MHz_TDD_t
);
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
format2_size_bits
=
sizeof_DCI2_1_5MHz_2A_TDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_1_5MHz_2A_TDD_t
);
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
format2_size_bits
=
sizeof_DCI2_1_5MHz_4A_TDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_1_5MHz_4A_TDD_t
);
}
}
else
{
format1A_size_bits
=
sizeof_DCI1A_1_5MHz_FDD_t
;
...
...
@@ -2723,6 +2732,14 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
format0_size_bytes
=
sizeof
(
DCI0_1_5MHz_FDD_t
);
format1_size_bits
=
sizeof_DCI1_1_5MHz_FDD_t
;
format1_size_bytes
=
sizeof
(
DCI1_1_5MHz_FDD_t
);
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
format2_size_bits
=
sizeof_DCI2_1_5MHz_2A_FDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_1_5MHz_2A_FDD_t
);
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
format2_size_bits
=
sizeof_DCI2_1_5MHz_4A_FDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_1_5MHz_4A_FDD_t
);
}
}
break
;
case
25
:
...
...
@@ -2734,6 +2751,14 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
format0_size_bytes
=
sizeof
(
DCI0_5MHz_TDD_1_6_t
);
format1_size_bits
=
sizeof_DCI1_5MHz_TDD_t
;
format1_size_bytes
=
sizeof
(
DCI1_5MHz_TDD_t
);
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
format2_size_bits
=
sizeof_DCI2_5MHz_2A_TDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_5MHz_2A_TDD_t
);
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
format2_size_bits
=
sizeof_DCI2_5MHz_4A_TDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_5MHz_4A_TDD_t
);
}
}
else
{
format1A_size_bits
=
sizeof_DCI1A_5MHz_FDD_t
;
...
...
@@ -2742,6 +2767,14 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
format0_size_bytes
=
sizeof
(
DCI0_5MHz_FDD_t
);
format1_size_bits
=
sizeof_DCI1_5MHz_FDD_t
;
format1_size_bytes
=
sizeof
(
DCI1_5MHz_FDD_t
);
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
format2_size_bits
=
sizeof_DCI2_5MHz_2A_FDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_5MHz_2A_FDD_t
);
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
format2_size_bits
=
sizeof_DCI2_5MHz_4A_FDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_5MHz_4A_FDD_t
);
}
}
break
;
case
50
:
...
...
@@ -2752,6 +2785,14 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
format0_size_bytes
=
sizeof
(
DCI0_10MHz_TDD_1_6_t
);
format1_size_bits
=
sizeof_DCI1_10MHz_TDD_t
;
format1_size_bytes
=
sizeof
(
DCI1_10MHz_TDD_t
);
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
format2_size_bits
=
sizeof_DCI2_10MHz_2A_TDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_10MHz_2A_TDD_t
);
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
format2_size_bits
=
sizeof_DCI2_10MHz_4A_TDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_10MHz_4A_TDD_t
);
}
}
else
{
format1A_size_bits
=
sizeof_DCI1A_10MHz_FDD_t
;
...
...
@@ -2760,6 +2801,14 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
format0_size_bytes
=
sizeof
(
DCI0_10MHz_FDD_t
);
format1_size_bits
=
sizeof_DCI1_10MHz_FDD_t
;
format1_size_bytes
=
sizeof
(
DCI1_10MHz_FDD_t
);
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
format2_size_bits
=
sizeof_DCI2_10MHz_2A_FDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_10MHz_2A_FDD_t
);
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
format2_size_bits
=
sizeof_DCI2_10MHz_4A_FDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_10MHz_4A_FDD_t
);
}
}
break
;
...
...
@@ -2771,6 +2820,14 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
format0_size_bytes
=
sizeof
(
DCI0_20MHz_TDD_1_6_t
);
format1_size_bits
=
sizeof_DCI1_20MHz_TDD_t
;
format1_size_bytes
=
sizeof
(
DCI1_20MHz_TDD_t
);
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
format2_size_bits
=
sizeof_DCI2_20MHz_2A_TDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_20MHz_2A_TDD_t
);
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
format2_size_bits
=
sizeof_DCI2_20MHz_4A_TDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_20MHz_4A_TDD_t
);
}
}
else
{
format1A_size_bits
=
sizeof_DCI1A_20MHz_FDD_t
;
...
...
@@ -2779,6 +2836,14 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
format0_size_bytes
=
sizeof
(
DCI0_20MHz_FDD_t
);
format1_size_bits
=
sizeof_DCI1_20MHz_FDD_t
;
format1_size_bytes
=
sizeof
(
DCI1_20MHz_FDD_t
);
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
format2_size_bits
=
sizeof_DCI2_20MHz_2A_FDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_20MHz_2A_FDD_t
);
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
format2_size_bits
=
sizeof_DCI2_20MHz_4A_FDD_t
;
format2_size_bytes
=
sizeof
(
DCI2_20MHz_4A_FDD_t
);
}
}
break
;
}
...
...
@@ -3096,9 +3161,9 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
0
,
format1A
,
format1A
,
format2
_2A_M10PRB
,
sizeof_DCI2_5MHz_2A_M10PRB_TDD_t
,
sizeof
(
DCI2_5MHz_2A_M10PRB_TDD_t
)
,
format2
,
format2_size_bits
,
format2_size_bytes
,
&
dci_cnt
,
&
format0_found
,
&
format_c_found
,
...
...
@@ -3111,7 +3176,7 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
if
(
dci_cnt
>
old_dci_cnt
)
return
(
dci_cnt
);
// Now check UE_SPEC format 2
_2A_M10PRB
search spaces at aggregation 2
// Now check UE_SPEC format 2 search spaces at aggregation 2
dci_decoding_procedure0
(
lte_ue_pdcch_vars
,
0
,
subframe
,
dci_alloc
,
...
...
@@ -3123,9 +3188,9 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
1
,
format1A
,
format1A
,
format2
_2A_M10PRB
,
sizeof_DCI2_5MHz_2A_M10PRB_TDD_t
,
sizeof
(
DCI2_5MHz_2A_M10PRB_TDD_t
)
,
format2
,
format2_size_bits
,
format2_size_bytes
,
&
dci_cnt
,
&
format0_found
,
&
format_c_found
,
...
...
@@ -3150,9 +3215,9 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
2
,
format1A
,
format1A
,
format2
_2A_M10PRB
,
sizeof_DCI2_5MHz_2A_M10PRB_TDD_t
,
sizeof
(
DCI2_5MHz_2A_M10PRB_TDD_t
)
,
format2
,
format2_size_bits
,
format2_size_bytes
,
&
dci_cnt
,
&
format0_found
,
&
format_c_found
,
...
...
@@ -3178,9 +3243,9 @@ uint16_t dci_decoding_procedure(PHY_VARS_UE *phy_vars_ue,
3
,
format1A
,
format1A
,
format2
_2A_M10PRB
,
sizeof_DCI2_5MHz_2A_M10PRB_TDD_t
,
sizeof
(
DCI2_5MHz_2A_M10PRB_TDD_t
)
,
format2
,
format2_size_bits
,
format2_size_bytes
,
&
dci_cnt
,
&
format0_found
,
&
format_c_found
,
...
...
openair1/PHY/LTE_TRANSPORT/dci_tools.c
View file @
b79199b4
...
...
@@ -553,11 +553,12 @@ int generate_eNB_dlsch_params_from_dci(uint8_t subframe,
LTE_eNB_DLSCH_t
*
dlsch0
=
NULL
,
*
dlsch1
;
uint8_t
frame_type
=
frame_parms
->
frame_type
;
uint8_t
vrb_type
=
0
;
uint8_t
mcs
=
0
;
uint8_t
mcs
=
0
,
mcs1
=
0
,
mcs2
=
0
;
uint8_t
I_mcs
=
0
;
uint8_t
rv
=
0
;
uint8_t
rv
=
0
,
rv1
=
0
,
rv2
=
0
;
uint8_t
rah
=
0
;
uint8_t
TPC
=
0
;
// printf("Generate eNB DCI, format %d, rnti %x (pdu %p)\n",dci_format,rnti,dci_pdu);
switch
(
dci_format
)
{
...
...
@@ -925,28 +926,784 @@ int generate_eNB_dlsch_params_from_dci(uint8_t subframe,
break
;
case
format2_2A_L10PRB
:
return
(
-
1
);
case
format2
:
switch
(
frame_parms
->
N_RB_DL
)
{
case
6
:
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
{
LOG_E
(
PHY
,
"eNB: subframe %d UE %x, Format2 DCI: unsupported number of TX antennas %d
\n
"
,
frame_parms
->
nb_antennas_tx
);
}
break
;
case
25
:
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
{
LOG_E
(
PHY
,
"eNB: subframe %d UE %x, Format2 DCI: unsupported number of TX antennas %d
\n
"
,
frame_parms
->
nb_antennas_tx
);
}
break
;
case
50
:
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
{
LOG_E
(
PHY
,
"eNB: subframe %d UE %x, Format2 DCI: unsupported number of TX antennas %d
\n
"
,
frame_parms
->
nb_antennas_tx
);
}
break
;
case
100
:
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
{
LOG_E
(
PHY
,
"eNB: subframe %d UE %x, Format2 DCI: unsupported number of TX antennas %d
\n
"
,
frame_parms
->
nb_antennas_tx
);
}
break
;
}
if
(
harq_pid
>=
8
)
{
LOG_E
(
PHY
,
"ERROR: Format 2_2A: harq_pid >= 8
\n
"
);
return
(
-
1
);
}
// Flip the TB to codeword mapping as described in 5.3.3.1.5 of 36-212 V11.3.0
// note that we must set tbswap=0 in eNB scheduler if one TB is deactivated
if
(
tbswap
==
0
)
{
dlsch0
=
dlsch
[
0
];
dlsch1
=
dlsch
[
1
];
}
else
{
dlsch0
=
dlsch
[
1
];
dlsch1
=
dlsch
[
0
];
}
dlsch0
->
subframe_tx
[
subframe
]
=
1
;
dlsch0
->
current_harq_pid
=
harq_pid
;
dlsch1
->
current_harq_pid
=
harq_pid
;
dlsch0
->
harq_ids
[
subframe
]
=
harq_pid
;
dlsch1
->
harq_ids
[
subframe
]
=
harq_pid
;
// printf("Setting DLSCH harq id %d to subframe %d\n",harq_pid,subframe);
conv_rballoc
(
rah
,
rballoc
,
frame_parms
->
N_RB_DL
,
dlsch0
->
rb_alloc
);
dlsch1
->
rb_alloc
[
0
]
=
dlsch0
->
rb_alloc
[
0
];
dlsch0
->
nb_rb
=
conv_nprb
(
rah
,
rballoc
,
frame_parms
->
N_RB_DL
);
dlsch1
->
nb_rb
=
dlsch0
->
nb_rb
;
if
(
dlsch0
->
nb_rb
==
0
)
return
(
-
1
);
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs2
;
dlsch0
->
harq_processes
[
harq_pid
]
->
rvidx
=
rv1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
rvidx
=
rv2
;
// assume both TBs are active
dlsch0
->
harq_processes
[
harq_pid
]
->
Nl
=
1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
Nl
=
1
;
dlsch0
->
active
=
1
;
dlsch1
->
active
=
1
;
// check if either TB is disabled (see 36-213 V11.3 Section )
if
((
dlsch0
->
harq_processes
[
harq_pid
]
->
rvidx
==
1
)
&&
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
==
0
))
{
dlsch0
->
active
=
0
;
}
if
((
dlsch1
->
harq_processes
[
harq_pid
]
->
rvidx
==
1
)
&&
(
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
==
0
))
{
dlsch1
->
active
=
0
;
}
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
if
(
dlsch1
->
active
==
1
)
{
// both TBs are active
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
];
dlsch1
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
];
switch
(
tpmi
)
{
case
0
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING11
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING1m1
;
dlsch0
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
0
);
dlsch1
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
1
);
break
;
case
1
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING1j
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING1mj
;
dlsch0
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
2
);
dlsch0
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
3
);
break
;
case
2
:
// PUSCH precoding
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
DUALSTREAM_PUSCH_PRECODING
;
dlsch0
->
pmi_alloc
=
DL_pmi_single
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
DUALSTREAM_PUSCH_PRECODING
;
dlsch1
->
pmi_alloc
=
DL_pmi_single
;
break
;
default:
break
;
}
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
];
dlsch1
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch1
->
nb_rb
-
1
];
}
else
{
// only one is active
switch
(
tpmi
)
{
case
0
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
ALAMOUTI
;
break
;
case
1
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING11
;
dlsch0
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
0
);
break
;
case
2
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING1m1
;
dlsch0
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
1
);
break
;
case
3
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING1j
;
dlsch0
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
2
);
break
;
case
4
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING1mj
;
dlsch0
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
3
);
break
;
case
5
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
PUSCH_PRECODING0
;
dlsch0
->
pmi_alloc
=
DL_pmi_single
;
break
;
case
6
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
PUSCH_PRECODING1
;
dlsch0
->
pmi_alloc
=
DL_pmi_single
;
break
;
}
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
];
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
// fill in later
}
// reset HARQ process if this is the first transmission
if
(
dlsch0
->
harq_processes
[
harq_pid
]
->
round
==
0
)
{
dlsch0
->
harq_processes
[
harq_pid
]
->
status
=
ACTIVE
;
}
if
(
dlsch1
->
harq_processes
[
harq_pid
]
->
round
==
0
)
{
dlsch1
->
harq_processes
[
harq_pid
]
->
status
=
ACTIVE
;
}
dlsch0
->
rnti
=
rnti
;
dlsch1
->
rnti
=
rnti
;
dlsch0
->
dl_power_off
=
0
;
dlsch1
->
dl_power_off
=
0
;
break
;
case
format2B
:
switch
(
frame_parms
->
N_RB_DL
)
{
case
6
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2B_1_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2B_1_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2B_1_5MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2B_1_5MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2B_1_5MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2B_1_5MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2B_1_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2B_1_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2B_1_5MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2B_1_5MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2B_1_5MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2B_1_5MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
case
25
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2B_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2B_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2B_5MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2B_5MHz_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2B_5MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2B_5MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2B_5MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2B_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2B_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2B_5MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2B_5MHz_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2B_5MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2B_5MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2B_5MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
case
50
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2B_10MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2B_10MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2B_10MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2B_10MHz_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2B_10MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2B_10MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2B_10MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2B_10MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2B_10MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2B_10MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2B_10MHz_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2B_10MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2B_10MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2B_10MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
case
100
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2B_20MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2B_20MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2B_20MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2B_20MHz_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2B_20MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2B_20MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2B_20MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2B_20MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2B_20MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2B_20MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2B_20MHz_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2B_20MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2B_20MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2B_20MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
}
if
(
harq_pid
>=
8
)
{
LOG_E
(
PHY
,
"ERROR: Format 2_2A: harq_pid >= 8
\n
"
);
return
(
-
1
);
}
dlsch0
=
dlsch
[
0
];
dlsch1
=
dlsch
[
1
];
dlsch0
->
subframe_tx
[
subframe
]
=
1
;
dlsch0
->
current_harq_pid
=
harq_pid
;
dlsch1
->
current_harq_pid
=
harq_pid
;
dlsch0
->
harq_ids
[
subframe
]
=
harq_pid
;
dlsch1
->
harq_ids
[
subframe
]
=
harq_pid
;
// printf("Setting DLSCH harq id %d to subframe %d\n",harq_pid,subframe);
conv_rballoc
(
rah
,
rballoc
,
frame_parms
->
N_RB_DL
,
dlsch0
->
rb_alloc
);
dlsch1
->
rb_alloc
[
0
]
=
dlsch0
->
rb_alloc
[
0
];
dlsch0
->
nb_rb
=
conv_nprb
(
rah
,
rballoc
,
frame_parms
->
N_RB_DL
);
dlsch1
->
nb_rb
=
dlsch0
->
nb_rb
;
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs2
;
dlsch0
->
harq_processes
[
harq_pid
]
->
rvidx
=
rv1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
rvidx
=
rv2
;
// check if either TB is disabled (see 36-213 V8.6 p. 26)
if
((
dlsch0
->
harq_processes
[
harq_pid
]
->
rvidx
==
1
)
&&
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
==
0
))
dlsch0
->
harq_processes
[
harq_pid
]
->
status
=
DISABLED
;
if
((
dlsch1
->
harq_processes
[
harq_pid
]
->
rvidx
==
1
)
&&
(
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
==
0
))
dlsch1
->
harq_processes
[
harq_pid
]
->
status
=
DISABLED
;
dlsch0
->
harq_processes
[
harq_pid
]
->
Nl
=
1
;
if
(
dlsch0
->
harq_processes
[
harq_pid
]
->
round
==
0
)
{
dlsch0
->
harq_processes
[
harq_pid
]
->
status
=
ACTIVE
;
// printf("Setting DLSCH process %d to ACTIVE\n",harq_pid);
}
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs1
;
if
(
dlsch0
->
nb_rb
>
0
)
{
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
];
}
else
{
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
0
;
}
dlsch0
->
active
=
1
;
dlsch0
->
rnti
=
rnti
;
dlsch1
->
rnti
=
rnti
;
dlsch0
->
dl_power_off
=
1
;
dlsch1
->
dl_power_off
=
1
;
break
;
case
format2C
:
switch
(
frame_parms
->
N_RB_DL
)
{
case
6
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2C_1_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2C_1_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2C_1_5MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2C_1_5MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2C_1_5MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2C_1_5MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2C_1_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2C_1_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2C_1_5MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2C_1_5MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2C_1_5MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2C_1_5MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
case
25
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2C_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2C_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2C_5MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2C_5MHz_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2C_5MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2C_5MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2C_5MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2C_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2C_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2C_5MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2C_5MHz_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2C_5MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2C_5MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2C_5MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
case
50
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2C_10MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2C_10MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2C_10MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2C_10MHz_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2C_10MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2C_10MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2C_10MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2C_10MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2C_10MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2C_10MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2C_10MHz_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2C_10MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2C_10MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2C_10MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
case
100
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2C_20MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2C_20MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2C_20MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2C_20MHz_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2C_20MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2C_20MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2C_20MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2C_20MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2C_20MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2C_20MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2C_20MHz_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2C_20MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2C_20MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2C_20MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
}
if
(
harq_pid
>=
8
)
{
LOG_E
(
PHY
,
"ERROR: Format 2_2A: harq_pid >= 8
\n
"
);
return
(
-
1
);
}
dlsch0
=
dlsch
[
0
];
dlsch1
=
dlsch
[
1
];
dlsch0
->
subframe_tx
[
subframe
]
=
1
;
dlsch0
->
current_harq_pid
=
harq_pid
;
dlsch1
->
current_harq_pid
=
harq_pid
;
dlsch0
->
harq_ids
[
subframe
]
=
harq_pid
;
dlsch1
->
harq_ids
[
subframe
]
=
harq_pid
;
// printf("Setting DLSCH harq id %d to subframe %d\n",harq_pid,subframe);
conv_rballoc
(
rah
,
rballoc
,
frame_parms
->
N_RB_DL
,
dlsch0
->
rb_alloc
);
dlsch1
->
rb_alloc
[
0
]
=
dlsch0
->
rb_alloc
[
0
];
dlsch0
->
nb_rb
=
conv_nprb
(
rah
,
rballoc
,
frame_parms
->
N_RB_DL
);
dlsch1
->
nb_rb
=
dlsch0
->
nb_rb
;
if
(
dlsch0
->
nb_rb
==
0
)
return
(
-
1
);
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs2
;
dlsch0
->
harq_processes
[
harq_pid
]
->
rvidx
=
rv1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
rvidx
=
rv2
;
// check if either TB is disabled (see 36-213 V8.6 p. 26)
if
((
dlsch0
->
harq_processes
[
harq_pid
]
->
rvidx
==
1
)
&&
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
==
0
))
{
dlsch0
->
active
=
0
;
}
if
((
dlsch1
->
harq_processes
[
harq_pid
]
->
rvidx
==
1
)
&&
(
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
==
0
))
{
dlsch1
->
active
=
0
;
}
if
((
dlsch0
->
harq_processes
[
harq_pid
]
->
round
==
0
)
&&
(
dlsch0
->
active
==
1
)
)
{
dlsch0
->
harq_processes
[
harq_pid
]
->
status
=
ACTIVE
;
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs1
;
}
if
((
dlsch1
->
harq_processes
[
harq_pid
]
->
round
==
0
)
&&
(
dlsch1
->
active
==
1
)
)
{
dlsch1
->
harq_processes
[
harq_pid
]
->
status
=
ACTIVE
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs2
;
}
// check TPMI information to compute TBS
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
if
(
dlsch1
->
active
==
1
)
{
// both TBs are active
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
];
dlsch1
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
];
}
else
{
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
];
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
}
dlsch0
->
rnti
=
rnti
;
dlsch1
->
rnti
=
rnti
;
dlsch0
->
dl_power_off
=
1
;
dlsch1
->
dl_power_off
=
1
;
break
;
case
format2D
:
switch
(
frame_parms
->
N_RB_DL
)
{
case
6
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2D_1_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2D_1_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2D_1_5MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2D_1_5MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2D_1_5MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2D_1_5MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2D_1_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2D_1_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2D_1_5MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2D_1_5MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2D_1_5MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2D_1_5MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
case
25
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2D_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2D_5MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2D_5MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2D_5MHz_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2D_5MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2D_5MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2D_5MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2D_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2D_5MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2D_5MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2D_5MHz_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2D_5MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2D_5MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2D_5MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
case
50
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2D_10MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2D_10MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2D_10MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2D_10MHz_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2D_10MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2D_10MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2D_10MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2D_10MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2D_10MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2D_10MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2D_10MHz_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2D_10MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2D_10MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2D_10MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
case
100
:
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2D_20MHz_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2D_20MHz_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2D_20MHz_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2D_20MHz_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2D_20MHz_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2D_20MHz_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2D_20MHz_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
else
{
mcs1
=
((
DCI2D_20MHz_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2D_20MHz_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2D_20MHz_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2D_20MHz_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2D_20MHz_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2D_20MHz_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2D_20MHz_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
}
break
;
case
format2_2A_M10PRB
:
}
harq_pid
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
if
(
harq_pid
>=
8
)
{
LOG_E
(
PHY
,
"ERROR: Format 2_2A
_M10PRB
: harq_pid >= 8
\n
"
);
LOG_E
(
PHY
,
"ERROR: Format 2_2A: harq_pid >= 8
\n
"
);
return
(
-
1
);
}
tbswap
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
if
(
tbswap
==
0
)
{
dlsch0
=
dlsch
[
0
];
dlsch1
=
dlsch
[
1
];
}
else
{
dlsch0
=
dlsch
[
1
];
dlsch1
=
dlsch
[
0
];
}
dlsch0
->
subframe_tx
[
subframe
]
=
1
;
...
...
@@ -957,20 +1714,21 @@ int generate_eNB_dlsch_params_from_dci(uint8_t subframe,
// printf("Setting DLSCH harq id %d to subframe %d\n",harq_pid,subframe);
conv_rballoc
(((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rah
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rballoc
,
frame_parms
->
N_RB_DL
,
conv_rballoc
(
rah
,
rballoc
,
frame_parms
->
N_RB_DL
,
dlsch0
->
rb_alloc
);
dlsch1
->
rb_alloc
[
0
]
=
dlsch0
->
rb_alloc
[
0
];
dlsch0
->
nb_rb
=
conv_nprb
(
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rah
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rballoc
,
dlsch0
->
nb_rb
=
conv_nprb
(
rah
,
rballoc
,
frame_parms
->
N_RB_DL
);
dlsch1
->
nb_rb
=
dlsch0
->
nb_rb
;
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
mcs1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
mcs2
;
dlsch0
->
harq_processes
[
harq_pid
]
->
rvidx
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rv1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
rvidx
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rv2
;
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs2
;
dlsch0
->
harq_processes
[
harq_pid
]
->
rvidx
=
rv1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
rvidx
=
rv2
;
// check if either TB is disabled (see 36-213 V8.6 p. 26)
...
...
@@ -983,62 +1741,15 @@ int generate_eNB_dlsch_params_from_dci(uint8_t subframe,
dlsch0
->
harq_processes
[
harq_pid
]
->
Nl
=
1
;
dlsch0
->
layer_index
=
tbswap
;
dlsch1
->
layer_index
=
1
-
tbswap
;
// Fix this
tpmi
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
tpmi
;
switch
(
tpmi
)
{
case
0
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
ALAMOUTI
;
break
;
case
1
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING11
;
dlsch0
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
0
);
break
;
case
2
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING1m1
;
dlsch0
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
1
);
break
;
case
3
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING1j
;
dlsch0
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
2
);
break
;
case
4
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
UNIFORM_PRECODING1mj
;
dlsch0
->
pmi_alloc
=
pmi_extend
(
frame_parms
,
3
);
break
;
case
5
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
PUSCH_PRECODING0
;
dlsch0
->
pmi_alloc
=
DL_pmi_single
;
break
;
case
6
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
PUSCH_PRECODING1
;
return
(
-
1
);
break
;
}
// printf("Set pmi %x (tpmi %d)\n",dlsch0->pmi_alloc,tpmi);
if
(
frame_parms
->
mode1_flag
==
1
)
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
SISO
;
// dlsch0->harq_processes[harq_pid]->Ndi = ((DCI2_5MHz_2A_M10PRB_TDD_t *)dci_pdu)->ndi1;
if
(
dlsch0
->
harq_processes
[
harq_pid
]
->
round
==
0
)
{
dlsch0
->
harq_processes
[
harq_pid
]
->
status
=
ACTIVE
;
// printf("Setting DLSCH process %d to ACTIVE\n",harq_pid);
}
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
mcs1
;
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs1
;
if
(
dlsch0
->
nb_rb
>
0
)
{
#ifdef TBS_FIX
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
3
*
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
]
/
4
;
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
(
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
>>
3
)
<<
3
;
#else
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
];
#endif
}
else
{
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
0
;
...
...
@@ -1053,6 +1764,8 @@ int generate_eNB_dlsch_params_from_dci(uint8_t subframe,
dlsch1
->
dl_power_off
=
1
;
break
;
case
format1E_2A_M10PRB
:
harq_pid
=
((
DCI1E_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
...
...
@@ -1157,12 +1870,7 @@ int generate_eNB_dlsch_params_from_dci(uint8_t subframe,
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
((
DCI1E_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
mcs
;
if
(
dlsch0
->
nb_rb
>
0
)
{
#ifdef TBS_FIX
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
3
*
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
]
/
4
;
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
(
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
>>
3
)
<<
3
;
#else
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
nb_rb
-
1
];
#endif
}
else
{
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
0
;
...
...
@@ -1558,28 +2266,329 @@ int dump_dci(LTE_DL_FRAME_PARMS *frame_parms, DCI_ALLOC_t *dci) {
}
}
break
;
case
format2_2A_L10PRB
:
break
;
case
format2_2A_M10PRB
:
case
format2
:
msg
(
"DCI format2_2A_M10PRB, rnti %x (%8x %8x): harq_pid %d, tb_swap %d, rah %d, rb_alloc %x, mcs1 %d, mcs2 %d, rv1 %d, rv2 %d, tpmi %d, ndi1 %d, ndi2 %d
\n
"
,
if
((
frame_parms
->
frame_type
==
TDD
)
&&
(
frame_parms
->
tdd_config
>
0
))
{
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
switch
(
frame_parms
->
N_RB_DL
)
{
case
6
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (TDD 1.5 MHz), rnti %x (%x): rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d, dai %d, tbswap %d, tpmi %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
1
],
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
,
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
dai
,
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_1_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
);
break
;
case
25
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (TDD 5 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d, dai %d, tb_swap %d, tpmi %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
dai
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_5MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
);
break
;
case
50
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (TDD 10 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d, dai %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
dai
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_10MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
);
break
;
case
100
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (TDD 20 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d, dai %d, tb_swap %d, tpmi %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
dai
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_20MHz_2A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
);
break
;
default:
LOG_E
(
PHY
,
"Invalid N_RB_DL %d
\n
"
,
frame_parms
->
N_RB_DL
);
DevParam
(
frame_parms
->
N_RB_DL
,
0
,
0
);
break
;
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
switch
(
frame_parms
->
N_RB_DL
)
{
case
6
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (TDD 1.5 MHz), rnti %x (%x): rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d, dai %d, tbswap %d, tpmi %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
,
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
dai
,
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_1_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
);
break
;
case
25
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (TDD 5 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d, dai %d, tb_swap %d, tpmi %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
dai
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_5MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
);
break
;
case
50
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (TDD 10 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d, dai %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
dai
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_10MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
);
break
;
case
100
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (TDD 20 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d, dai %d, tb_swap %d, tpmi %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
dai
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_20MHz_4A_TDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
);
break
;
default:
LOG_E
(
PHY
,
"Invalid N_RB_DL %d
\n
"
,
frame_parms
->
N_RB_DL
);
DevParam
(
frame_parms
->
N_RB_DL
,
0
,
0
);
break
;
}
}
}
else
if
(
frame_parms
->
frame_type
==
FDD
)
{
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
switch
(
frame_parms
->
N_RB_DL
)
{
case
6
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (FDD, 1.5 MHz), rnti %x (%x): rb_alloc %x, mcs1 %d, mcs2 %d, harq_pid %d, ndi1 %d, ndi2 %d, RV1 %d, RV2 %d, tb_swap %d, tpmi %d, TPC %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_1_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_1_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_1_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_1_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_1_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_1_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_1_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_1_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_1_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_1_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
,
((
DCI2_1_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
);
break
;
case
25
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (FDD, 5 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
,
((
DCI2_5MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
);
break
;
case
50
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (FDD, 10 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
,
((
DCI2_10MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
);
break
;
case
100
:
LOG_D
(
PHY
,
"DCI format2 2 antennas (FDD, 20 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
,
((
DCI2_20MHz_2A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
);
break
;
default:
LOG_E
(
PHY
,
"Invalid N_RB_DL %d
\n
"
,
frame_parms
->
N_RB_DL
);
DevParam
(
frame_parms
->
N_RB_DL
,
0
,
0
);
break
;
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
switch
(
frame_parms
->
N_RB_DL
)
{
case
6
:
LOG_D
(
PHY
,
"DCI format2 4 antennas (FDD, 1.5 MHz), rnti %x (%x): rb_alloc %x, mcs1 %d, mcs2 %d, harq_pid %d, ndi1 %d, ndi2 %d, RV1 %d, RV2 %d, tb_swap %d, tpmi %d, TPC %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_1_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_1_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_1_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_1_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_1_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_1_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_1_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_1_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_1_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_1_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
,
((
DCI2_1_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
);
break
;
case
25
:
LOG_D
(
PHY
,
"DCI format2 4 antennas (FDD, 5 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
,
((
DCI2_5MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
);
break
;
case
50
:
LOG_D
(
PHY
,
"DCI format2 4 antennas (FDD, 10 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
,
((
DCI2_10MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
);
break
;
case
100
:
LOG_D
(
PHY
,
"DCI format2 4 antennas (FDD, 20 MHz), rnti %x (%x): rah %d, rb_alloc %x, mcs %d, harq_pid %d, ndi %d, RV %d, TPC %d
\n
"
,
dci
->
rnti
,
((
uint32_t
*
)
&
dci
->
dci_pdu
)[
0
],
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rah
,
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rballoc
,
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs1
,
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
mcs2
,
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
harq_pid
,
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi1
,
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
ndi2
,
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv1
,
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
rv2
,
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tb_swap
,
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
tpmi
,
((
DCI2_20MHz_4A_FDD_t
*
)
&
dci
->
dci_pdu
[
0
])
->
TPC
);
break
;
default:
LOG_E
(
PHY
,
"Invalid N_RB_DL %d
\n
"
,
frame_parms
->
N_RB_DL
);
DevParam
(
frame_parms
->
N_RB_DL
,
0
,
0
);
break
;
}
}
}
else
LOG_E
(
PHY
,
"Don't know how to handle TDD format 0 yet
\n
"
);
break
;
case
format1E_2A_M10PRB
:
LOG_D
(
PHY
,
"DCI format1E_2A_M10PRB, rnti %x (%8x): harq_pid %d, rah %d, rb_alloc %x, mcs %d, rv %d, tpmi %d, ndi %d, dl_power_offset %d
\n
"
,
...
...
@@ -1620,9 +2629,9 @@ int generate_ue_dlsch_params_from_dci(uint8_t subframe,
uint32_t
rballoc
=
0
,
RIV_max
;
uint8_t
frame_type
=
frame_parms
->
frame_type
;
uint8_t
vrb_type
=
0
;
uint8_t
mcs
=
0
;
uint8_t
rv
=
0
;
uint8_t
ndi
=
0
;
uint8_t
mcs
=
0
,
mcs1
=
0
,
mcs2
=
0
;
uint8_t
rv
=
0
,
rv1
=
0
,
rv2
=
0
;
uint8_t
ndi
=
0
,
ndi1
=
0
,
ndi2
=
0
;
uint8_t
rah
=
0
;
uint8_t
TPC
=
0
;
uint8_t
NPRB
=
0
,
tbswap
=
0
,
tpmi
=
0
;
...
...
@@ -1995,6 +3004,8 @@ int generate_ue_dlsch_params_from_dci(uint8_t subframe,
LOG_D
(
PHY
,
"Format1 DCI: ndi %d, old_ndi %d (first tx %d)
\n
"
,
ndi
,
dlsch
[
0
]
->
harq_processes
[
harq_pid
]
->
DCINdi
,
dlsch
[
0
]
->
harq_processes
[
harq_pid
]
->
first_tx
);
// printf("Format1 DCI (UE, hard pid %d): ndi %d, old_ndi %d (first tx %d)\n",harq_pid,ndi,dlsch[0]->harq_processes[harq_pid]->DCINdi,
// dlsch[0]->harq_processes[harq_pid]->first_tx);
if
((
ndi
!=
dlsch
[
0
]
->
harq_processes
[
harq_pid
]
->
DCINdi
)
||
(
dlsch
[
0
]
->
harq_processes
[
harq_pid
]
->
first_tx
==
1
))
{
...
...
@@ -2030,13 +3041,220 @@ int generate_ue_dlsch_params_from_dci(uint8_t subframe,
break
;
case
format2_2A_L10PRB
:
LOG_E
(
PHY
,
"format2_2A_L10PRB not yet implemented
\n
"
);
return
(
-
1
);
case
format2
:
switch
(
frame_parms
->
N_RB_DL
)
{
case
6
:
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_1_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_1_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_1_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rv1
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_1_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
{
LOG_E
(
PHY
,
"UE: subframe %d Format2 DCI: unsupported number of TX antennas %d
\n
"
,
subframe
,
frame_parms
->
nb_antennas_tx
);
}
break
;
case
25
:
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_5MHz_2A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_5MHz_4A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_5MHz_4A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
{
LOG_E
(
PHY
,
"UE: Format2 DCI: unsupported number of TX antennas %d
\n
"
,
frame_parms
->
nb_antennas_tx
);
}
break
;
case
50
:
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_10MHz_2A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_10MHz_2A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_10MHz_4A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_10MHz_4A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
{
LOG_E
(
PHY
,
"UE: Format2 DCI: unsupported number of TX antennas %d
\n
"
,
frame_parms
->
nb_antennas_tx
);
}
break
;
case
100
:
if
(
frame_parms
->
nb_antennas_tx
==
2
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_20MHz_2A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_20MHz_2A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
if
(
frame_parms
->
nb_antennas_tx
==
4
)
{
if
(
frame_type
==
TDD
)
{
mcs1
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_20MHz_4A_TDD_t
*
)
dci_pdu
)
->
tpmi
;
}
else
{
mcs1
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs1
;
mcs2
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
mcs2
;
rballoc
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
rballoc
;
rah
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
rah
;
rv1
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv1
;
rv2
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
rv2
;
harq_pid
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
harq_pid
;
tbswap
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
tb_swap
;
tpmi
=
((
DCI2_20MHz_4A_FDD_t
*
)
dci_pdu
)
->
tpmi
;
}
}
else
{
LOG_E
(
PHY
,
"UE: Format2 DCI: unsupported number of TX antennas %d
\n
"
,
frame_parms
->
nb_antennas_tx
);
}
break
;
case
format2_2A_M10PRB
:
}
harq_pid
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
harq_pid
;
if
(
harq_pid
>=
8
)
{
LOG_E
(
PHY
,
"Format 2_2A_M10PRB: harq_pid >= 8
\n
"
);
return
(
-
1
);
...
...
@@ -2044,7 +3262,7 @@ int generate_ue_dlsch_params_from_dci(uint8_t subframe,
dlsch
[
0
]
->
current_harq_pid
=
harq_pid
;
dlsch
[
0
]
->
harq_ack
[
subframe
].
harq_id
=
harq_pid
;
tbswap
=
((
DCI2_5MHz_2A_
M10PRB_
TDD_t
*
)
dci_pdu
)
->
tb_swap
;
tbswap
=
((
DCI2_5MHz_2A_TDD_t
*
)
dci_pdu
)
->
tb_swap
;
if
(
tbswap
==
0
)
{
dlsch0
=
dlsch
[
0
];
dlsch1
=
dlsch
[
1
];
...
...
@@ -2054,19 +3272,20 @@ int generate_ue_dlsch_params_from_dci(uint8_t subframe,
dlsch1
=
dlsch
[
0
];
}
conv_rballoc
(((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rah
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rballoc
,
frame_parms
->
N_RB_DL
,
conv_rballoc
(
rah
,
rballoc
,
frame_parms
->
N_RB_DL
,
dlsch0
->
harq_processes
[
harq_pid
]
->
rb_alloc
);
dlsch1
->
harq_processes
[
harq_pid
]
->
rb_alloc
[
0
]
=
dlsch0
->
harq_processes
[
harq_pid
]
->
rb_alloc
[
0
];
dlsch0
->
harq_processes
[
harq_pid
]
->
nb_rb
=
conv_nprb
(
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rah
,
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rballoc
,
dlsch0
->
harq_processes
[
harq_pid
]
->
nb_rb
=
conv_nprb
(
rah
,
rballoc
,
frame_parms
->
N_RB_DL
);
dlsch1
->
harq_processes
[
harq_pid
]
->
nb_rb
=
dlsch0
->
harq_processes
[
harq_pid
]
->
nb_rb
;
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
mcs1
;
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs1
;
dlsch0
->
harq_processes
[
harq_pid
]
->
delta_PUCCH
=
delta_PUCCH_lut
[
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
TPC
&
3
];
dlsch0
->
harq_processes
[
harq_pid
]
->
delta_PUCCH
=
delta_PUCCH_lut
[
TPC
&
3
];
/*
if (dlsch0->harq_processes[harq_pid]->mcs>20) {
msg("dci_tools.c: mcs > 20 disabled for now (asked %d)\n",dlsch0->harq_processes[harq_pid]->mcs);
...
...
@@ -2074,9 +3293,9 @@ int generate_ue_dlsch_params_from_dci(uint8_t subframe,
}
*/
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
mcs2
;
dlsch0
->
harq_processes
[
harq_pid
]
->
rvidx
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rv1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
rvidx
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
rv2
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs2
;
dlsch0
->
harq_processes
[
harq_pid
]
->
rvidx
=
rv1
;
dlsch1
->
harq_processes
[
harq_pid
]
->
rvidx
=
rv2
;
// check if either TB is disabled (see 36-213 V8.6 p. 26)
...
...
@@ -2091,10 +3310,6 @@ int generate_ue_dlsch_params_from_dci(uint8_t subframe,
dlsch0
->
layer_index
=
tbswap
;
dlsch1
->
layer_index
=
1
-
tbswap
;
// Fix this
tpmi
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
tpmi
;
// msg("ue: tpmi %d\n",tpmi);
switch
(
tpmi
)
{
case
0
:
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
ALAMOUTI
;
...
...
@@ -2131,10 +3346,10 @@ int generate_ue_dlsch_params_from_dci(uint8_t subframe,
if
(
frame_parms
->
mode1_flag
==
1
)
dlsch0
->
harq_processes
[
harq_pid
]
->
mimo_mode
=
SISO
;
if
(
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
ndi1
!=
dlsch0
->
harq_processes
[
harq_pid
]
->
DCINdi
)
{
if
(
ndi1
!=
dlsch0
->
harq_processes
[
harq_pid
]
->
DCINdi
)
{
dlsch0
->
harq_processes
[
harq_pid
]
->
round
=
0
;
dlsch0
->
harq_processes
[
harq_pid
]
->
status
=
ACTIVE
;
dlsch0
->
harq_processes
[
harq_pid
]
->
DCINdi
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
ndi1
;
dlsch0
->
harq_processes
[
harq_pid
]
->
DCINdi
=
ndi1
;
}
else
if
(
dlsch0
->
harq_processes
[
harq_pid
]
->
status
==
SCH_IDLE
)
{
// we got an Ndi = 0 for a previously decoded process,
// this happens if either another harq process in the same
...
...
@@ -2146,14 +3361,9 @@ int generate_ue_dlsch_params_from_dci(uint8_t subframe,
dlsch0
->
active
=
0
;
return
(
0
);
}
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
mcs1
;
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs1
;
if
(
dlsch0
->
harq_processes
[
harq_pid
]
->
nb_rb
>
1
)
{
#ifdef TBS_FIX
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
3
*
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
harq_processes
[
harq_pid
]
->
nb_rb
-
1
]
/
4
;
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
(
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
>>
3
)
<<
3
;
#else
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
harq_processes
[
harq_pid
]
->
nb_rb
-
1
];
#endif
}
else
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
0
;
...
...
@@ -2162,19 +3372,14 @@ int generate_ue_dlsch_params_from_dci(uint8_t subframe,
printf("mcs %d, TBS %d\n",dlsch0->harq_processes[harq_pid]->mcs,dlsch0->harq_processes[harq_pid]->TBS);
*/
if
(
dlsch1
->
harq_processes
[
harq_pid
]
->
DCINdi
!=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
ndi2
)
{
if
(
dlsch1
->
harq_processes
[
harq_pid
]
->
DCINdi
!=
ndi2
)
{
dlsch1
->
harq_processes
[
harq_pid
]
->
round
=
0
;
dlsch1
->
harq_processes
[
harq_pid
]
->
status
=
ACTIVE
;
}
dlsch1
->
harq_processes
[
harq_pid
]
->
DCINdi
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
ndi2
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
=
((
DCI2_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
mcs2
;
dlsch1
->
harq_processes
[
harq_pid
]
->
DCINdi
=
ndi2
;
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
=
mcs2
;
if
(
dlsch1
->
harq_processes
[
harq_pid
]
->
nb_rb
>
1
)
{
#ifdef TBS_FIX
dlsch1
->
harq_processes
[
harq_pid
]
->
TBS
=
3
*
TBStable
[
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
][
dlsch1
->
harq_processes
[
harq_pid
]
->
nb_rb
-
1
]
/
4
;
dlsch1
->
harq_processes
[
harq_pid
]
->
TBS
=
(
dlsch1
->
harq_processes
[
harq_pid
]
->
TBS
>>
3
)
<<
3
;
#else
dlsch1
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
dlsch1
->
harq_processes
[
harq_pid
]
->
mcs
][
dlsch1
->
harq_processes
[
harq_pid
]
->
nb_rb
-
1
];
#endif
}
else
dlsch1
->
harq_processes
[
harq_pid
]
->
TBS
=
0
;
...
...
@@ -2313,35 +3518,10 @@ int generate_ue_dlsch_params_from_dci(uint8_t subframe,
dlsch0
->
harq_processes
[
harq_pid
]
->
DCINdi
=
((
DCI1E_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
ndi
;
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
=
((
DCI1E_5MHz_2A_M10PRB_TDD_t
*
)
dci_pdu
)
->
mcs
;
if
(
dlsch0
->
harq_processes
[
harq_pid
]
->
nb_rb
>
1
)
{
#ifdef TBS_FIX
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
3
*
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
harq_processes
[
harq_pid
]
->
nb_rb
-
1
]
/
4
;
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
(
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
>>
3
)
<<
3
;
#else
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
TBStable
[
get_I_TBS
(
dlsch0
->
harq_processes
[
harq_pid
]
->
mcs
)][
dlsch0
->
harq_processes
[
harq_pid
]
->
nb_rb
-
1
];
#endif
}
else
dlsch0
->
harq_processes
[
harq_pid
]
->
TBS
=
0
;
/*
if (dlsch0->harq_processes[harq_pid]->mcs > 18)
printf("mcs %d, TBS %d\n",dlsch0->harq_processes[harq_pid]->mcs,dlsch0->harq_processes[harq_pid]->TBS);
*/
/* dlsch1->harq_processes[harq_pid]->Ndi = ((DCI1E_5MHz_2A_M10PRB_TDD_t *)dci_pdu)->ndi2;
if (dlsch1->harq_processes[harq_pid]->Ndi == 1)
dlsch1->harq_processes[harq_pid]->status = ACTIVE;
dlsch1->harq_processes[harq_pid]->mcs = ((DCI1E_5MHz_2A_M10PRB_TDD_t *)dci_pdu)->mcs2;
if (dlsch1->harq_processes[harq_pid]->nb_rb>1) {
#ifdef TBS_FIX
dlsch1->harq_processes[harq_pid]->TBS = 3*TBStable[dlsch1->harq_processes[harq_pid]->mcs][dlsch1->harq_processes[harq_pid]->nb_rb-1]/4;
dlsch1->harq_processes[harq_pid]->TBS = (dlsch1->harq_processes[harq_pid]->TBS>>3)<<3;
#else
dlsch1->harq_processes[harq_pid]->TBS = TBStable[dlsch1->harq_processes[harq_pid]->mcs][dlsch1->harq_processes[harq_pid]->nb_rb-1];
#endif
}
else
dlsch1->harq_processes[harq_pid]->TBS = 0;
*/
dlsch0
->
rnti
=
rnti
;
//dlsch1->rnti = rnti;
...
...
openair1/PHY/LTE_TRANSPORT/defs.h
View file @
b79199b4
...
...
@@ -650,14 +650,11 @@ typedef enum {format0,
format1C
,
format1D
,
format1E_2A_M10PRB
,
format2_2A_L10PRB
,
format2_2A_M10PRB
,
format2_4A_L10PRB
,
format2_4A_M10PRB
,
format2A_2A_L10PRB
,
format2A_2A_M10PRB
,
format2A_4A_L10PRB
,
format2A_4A_M10PRB
,
format2
,
format2A
,
format2B
,
format2C
,
format2D
,
format3
}
DCI_format_t
;
...
...
openair1/PHY/LTE_TRANSPORT/dlsch_modulation.c
View file @
b79199b4
...
...
@@ -827,15 +827,40 @@ int allocate_REs_in_RB_MCH(mod_sym_t **txdataF,
return
(
0
);
}
uint8_t
get_pmi
_5MHz
(
MIMO_mode_t
mode
,
uint32_t
pmi_alloc
,
uint16_t
rb
)
{
uint8_t
get_pmi
(
uint8_t
N_RB_DL
,
MIMO_mode_t
mode
,
uint32_t
pmi_alloc
,
uint16_t
rb
)
{
// printf("Getting pmi for RB %d => %d\n",rb,(pmi_alloc>>((rb>>2)<<1))&3);
switch
(
N_RB_DL
)
{
case
6
:
// 1 PRB per subband
if
(
mode
<=
PUSCH_PRECODING1
)
return
((
pmi_alloc
>>
(
rb
<<
1
))
&
3
);
else
return
((
pmi_alloc
>>
rb
)
&
1
);
break
;
case
25
:
// 4 PRBs per subband
if
(
mode
<=
PUSCH_PRECODING1
)
return
((
pmi_alloc
>>
((
rb
>>
2
)
<<
1
))
&
3
);
else
return
((
pmi_alloc
>>
(
rb
>>
2
))
&
1
);
break
;
case
50
:
// 6 PRBs per subband
if
(
mode
<=
PUSCH_PRECODING1
)
return
((
pmi_alloc
>>
((
rb
/
6
)
<<
1
))
&
3
);
else
return
((
pmi_alloc
>>
(
rb
/
6
))
&
1
);
break
;
case
100
:
// 8 PRBs per subband
if
(
mode
<=
PUSCH_PRECODING1
)
return
((
pmi_alloc
>>
((
rb
>>
3
)
<<
1
))
&
3
);
else
return
((
pmi_alloc
>>
(
rb
>>
3
))
&
1
);
break
;
default:
break
;
}
}
int
dlsch_modulation
(
mod_sym_t
**
txdataF
,
int16_t
amp
,
uint32_t
subframe_offset
,
...
...
@@ -1057,7 +1082,7 @@ int dlsch_modulation(mod_sym_t **txdataF,
dlsch
->
layer_index
,
pilots
,
mod_order
,
get_pmi
_5MHz
(
dlsch
->
harq_processes
[
harq_pid
]
->
mimo_mode
,
dlsch
->
pmi_alloc
,
rb
),
get_pmi
(
frame_parms
->
N_RB_DL
,
dlsch
->
harq_processes
[
harq_pid
]
->
mimo_mode
,
dlsch
->
pmi_alloc
,
rb
),
((
pilots
)
?
amp_rho_b
:
amp_rho_a
),
qam_table_s
,
&
re_allocated
,
...
...
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