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canghaiwuhen
OpenXG-RAN
Commits
4f5cc15c
Commit
4f5cc15c
authored
May 17, 2017
by
Michele Paffetti
Browse files
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starting modify NB_mac_rrc_data_req primitive for SIBs scheduling purposes (L2_interface_nb_iot.c)
parent
bb39e42c
Changes
2
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137 additions
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30 deletions
+137
-30
openair2/RRC/LITE/L2_interface_nb_iot.c
openair2/RRC/LITE/L2_interface_nb_iot.c
+135
-28
openair2/RRC/LITE/proto_nb_iot.h
openair2/RRC/LITE/proto_nb_iot.h
+2
-2
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openair2/RRC/LITE/L2_interface_nb_iot.c
View file @
4f5cc15c
...
...
@@ -217,14 +217,18 @@ int NB_rrc_mac_config_req_eNB(
}
//defined in L2_interface
int
npdsch_rep_to_array
[
3
]
=
{
4
,
8
,
16
};
//TS 36.213 Table 16.4.1.3-3
int
sib1_startFrame_to_array
[
4
]
=
{
0
,
16
,
32
,
48
};
//TS 36.213 Table 16.4.1.3-4
//function called by eNB_dlsch_ulsch_scheduler--> Schedule_SI (eNB_scheduler_bch) for getting the bcch_sdu_legnth (BCCH case for SIBs and MIB)
//Function called in schedule_RA for getting RRCConnectionSetup message (Msg4) length of rrc_sdu_length (CCCH case)
int8_t
NB_mac_rrc_data_req_eNB
(
const
module_id_t
Mod_idP
,
const
int
CC_id
,
const
frame_t
frameP
,
const
rb_id_t
Srb_id
,
uint8_t
*
const
buffer_pP
,
uint32_t
start_sfn_sib1_NB
,
//starting frame for sib1 transmission
uint32_t
nb_sib1_NB_rep
,
//number of sib1 repetitions
long
schedulingInfoSIB1
,
//from the mib
int
physCellId
,
//from the MAC instance-> common_channel
const
frame_t
h_frameP
,
//HSFN
long
si_periodicity
,
//SI-periodicity
long
si_windowLength
//Si-windwolength
...
...
@@ -232,7 +236,9 @@ int8_t NB_mac_rrc_data_req_eNB(
{
SRB_INFO
*
Srb_info
;
uint8_t
Sdu_size
=
0
;
uint32_t
y
=
0
;
uint32_t
index
=
0
;
uint32_t
sib1_startFrame
;
uint8_t
nb_rep
=
0
;
// number of sib1-nb repetitions within the 256 radio frames
uint32_t
sib1_NB_period
=
256
;
//from specs TS 36.331
#ifdef DEBUG_RRC
...
...
@@ -240,46 +246,141 @@ int8_t NB_mac_rrc_data_req_eNB(
LOG_T
(
RRC
,
"[eNB %d] NB_mac_rrc_data_req_eNB to SRB ID=%d
\n
"
,
Mod_idP
,
Srb_id
);
#endif
if
((
Srb_id
&
RAB_OFFSET
)
==
BCCH
)
{
//--------------------------
//for the moment we assume that this function is called in subframe #4 for both SIB1-NB and SIB23-NB
//*is better to introduce the logic in another function: is SIB1-NB? is SIB23-NB?
//--------------------------
if
((
Srb_id
&
RAB_OFFSET
)
==
BCCH
)
{
//schedule_SI case or MIB? put a flag??
//should be added the case of BCCH that return the size of the MIB-NB if subframe 0 --> add a flag?
if
(
eNB_rrc_inst_NB
[
Mod_idP
].
carrier
[
CC_id
].
SI
.
Active
==
0
)
{
return
0
;
}
//I have to check which SIB is transmitted
if
(
eNB_rrc_inst_NB
[
Mod_idP
].
carrier
[
CC_id
].
sizeof_SIB1_NB
==
255
)
{
LOG_E
(
RRC
,
"[eNB %d] MAC Request for SIB1-NB and SIB1-NB not initialized
\n
"
,
Mod_idP
);
mac_xface
->
macphy_exit
(
"mac_rrc_data_req: MAC Request for SIB1-NB and SIB1-NB not initialized"
);
if
(
schedulingInfoSIB1
>
11
||
schedulingInfoSIB1
<
0
){
LOG_E
(
RRC
,
"schedulingInfoSIB1 value incorrect"
);
return
0
;
}
//the entire scheduling of SIB1-NB is based on the SchedulingInfoSIB1 of MIB-NB
//SIB1-NB transmission occurs in subframe #4 of every other frame in 16 continuous frames
//schedule with a periodicity of 2560 ms (256 Radio Frames) and repetitions (4, 8 or 16) are made, equally spaced,
//within the 2560 ms period
/*check if SIBs are initialized*/
//FIXME check when both are initialize and if make sense to have it
if
(
eNB_rrc_inst_NB
[
Mod_idP
].
carrier
[
CC_id
].
sizeof_SIB1_NB
==
255
)
{
LOG_E
(
RRC
,
"[eNB %d] MAC Request for SIB1-NB and SIB1-NB not initialized
\n
"
,
Mod_idP
);
mac_xface
->
macphy_exit
(
"mac_rrc_data_req: MAC Request for SIB1-NB and SIB1-NB not initialized"
);
}
//Implementation: //FIXME should be checked if compatible if SIB23-NB scheduling
//SchedulingInfoSIB_r13 = 0 --> n�repetitions= 4 + NcelliD mod 4 = 1 --> start_sfn_sib1_Nb = 16
if
(
eNB_rrc_inst_NB
[
Mod_idP
].
carrier
[
CC_id
].
sizeof_SIB23_NB
==
255
)
{
LOG_E
(
RRC
,
"[eNB %d] MAC Request for SIB23-NB and SIB23-NB not initialized
\n
"
,
Mod_idP
);
mac_xface
->
macphy_exit
(
"mac_rrc_data_req: MAC Request for SIB23-NB and SIB23-NB not initialized"
);
}
/*logic*/
//1) check if the current frame is before/after the starting frame of sib1-NB transmission
//2) check if the current frame is considered in the 16 continuous frame of sib1-NB transmission in the periodicity
/*SIB1
*
* the entire scheduling of SIB1-NB is based on the SchedulingInfoSIB1 of MIB-NB
*
* SIB1-NB transmission occurs in subframe #4 of every other frame in 16 continuous frames (i.e. alternate frames)
* schedule with a periodicity of 2560 ms (256 Radio Frames) and repetitions (4, 8 or 16) are made, equally spaced
* within the 2560 ms period
*
* 1)from the schedulingInfoSIB1 of MIB-NB and the physCell_id we deduce the starting radio frame
* 2)check if the actual frame is after the staring radio frame
* 3)check if the actual frame is within a SIB1-transmission interval
* 4)based on the starting radio frame we can state when SIB1-NB is transmitted in odd or even frame
* (if the starting frame is even (0,16,32,48) then SIB1-NB is transmitted in even frames, if starting frame is odd (1)
* we can state that SIB1-NB will be transmitted in every odd frame since repetitions are 16 in 256 radio frame period)
*
**/
//number of repetitions
nb_rep
=
npdsch_rep_to_array
[
schedulingInfoSIB1
%
3
];
//based on number of rep. and the physical cell id we derive the starting radio frame (TS 36.213 Table 16.4.1.3-3/4)
switch
(
nb_rep
)
{
case
4
:
//physCellId%4 possible value are 0,1,2,3
sib1_startFrame
=
sib1_startFrame_to_array
[
physCellId
%
4
];
break
;
case
8
:
//physCellId%2possible value are 0,1
sib1_startFrame
=
sib1_startFrame_to_array
[
physCellId
%
2
];
break
;
case
16
:
//physCellId%2 possible value are 0,1
if
(
physCellId
%
2
==
0
)
sib1_startFrame
=
0
;
else
sib1_startFrame
=
1
;
// the only case in which the starting frame is odd
break
;
default:
LOG_E
(
RRC
,
"Number of repetitions %d not allowed"
,
nb_rep
);
return
0
;
}
if
(
frameP
<
start_sfn_sib1_NB
)
//check the actual frame w.r.t SIB1-NB starting frame
//XXX--> it means that also is not possible to have scheduling of other sibs since their info are contained in sib1-NB???
if
(
frameP
<
sib1_startFrame
){
LOG_T
(
RRC
,
'
the
actual
frame
%
d
is
before
the
SIB1
-
NB
starting
frame
%
d
-->
bcch_sdu_legnth
=
0
'
,
frameP
,
sib1_startFrame
);
return
0
;
}
//calculate offset between SIB1-NB repetitions
int
offset
=
(
sib1_NB_period
-
(
16
*
nb_sib1_NB_rep
))
/
nb_sib1_NB_rep
;
int
offset
=
(
sib1_NB_period
-
(
16
*
nb_rep
))
/
nb_rep
;
/*
* possible offset results (even numbers):
* nb_rep= 4 ---> offset = 48
* nb_rep = 8 --> offset = 16
* nb_rep = 16 --> offset = 0
*/
for
(
int
i
=
0
;
i
<
nb_
sib1_NB_
rep
;
i
++
)
for
(
int
i
=
0
;
i
<
nb_rep
;
i
++
)
{
y
=
start_sfn_sib1_NB
+
i
*
(
16
+
offset
);
if
(
frameP
>=
y
&&
frameP
<=
(
y
+
15
))
//SIB1_NB transmission
//find the correct sib1-nb repetition interval in which the actual frame is
index
=
sib1_startFrame
+
i
*
(
16
+
offset
);
if
(
frameP
>=
index
&&
frameP
<=
(
index
+
15
))
//SIB1_NB transmission interval
{
//find if the actual frame is one of the "every other frame in 16 continuous frame" in which SIB1-NB is transmitted
if
(
sib1_startFrame
%
2
!=
0
){
// means that the starting frame was 1 --> sib1-NB is transmitted in every odd frame
if
(
frameP
%
2
==
1
){
memcpy
(
&
buffer_pP
[
0
],
eNB_rrc_inst_NB
[
Mod_idP
].
carrier
[
CC_id
].
SIB1_NB
,
eNB_rrc_inst_NB
[
Mod_idP
].
carrier
[
CC_id
].
sizeof_SIB1_NB
);
//XXX RRC_MAC_BCCH_DATA_REQ message not implemented in MAC layer (eNB_scheduler.c under ITTI)
#ifdef DEBUG_RRC
LOG_T
(
RRC
,
"[eNB %d] Frame %d : BCCH request => SIB1_NB
\n
"
,
Mod_idP
,
frameP
);
for
(
i
=
0
;
i
<
eNB_rrc_inst_NB
[
Mod_idP
].
carrier
[
CC_id
].
sizeof_SIB1_NB
;
i
++
)
{
LOG_T
(
RRC
,
"%x."
,
buffer_pP
[
i
]);
}
LOG_T
(
RRC
,
"
\n
"
);
#endif
return
(
eNB_rrc_inst_NB
[
Mod_idP
].
carrier
[
CC_id
].
sizeof_SIB1_NB
);
}
}
//in all other starting frame cases SIB1-NB is transmitted in the even frames inside the corresponding repetition interval
if
(
frameP
%
2
==
0
){
// SIB1-NB is transmitted
memcpy
(
&
buffer_pP
[
0
],
eNB_rrc_inst_NB
[
Mod_idP
].
carrier
[
CC_id
].
SIB1_NB
,
eNB_rrc_inst_NB
[
Mod_idP
].
carrier
[
CC_id
].
sizeof_SIB1_NB
);
//XXX RRC_MAC_BCCH_DATA_REQ message not implemented in MAC layer (eNB_scheduler.c under ITTI)
#ifdef DEBUG_RRC
LOG_T
(
RRC
,
"[eNB %d] Frame %d : BCCH request => SIB1_NB
\n
"
,
Mod_idP
,
frameP
);
...
...
@@ -291,18 +392,20 @@ int8_t NB_mac_rrc_data_req_eNB(
#endif
return
(
eNB_rrc_inst_NB
[
Mod_idP
].
carrier
[
CC_id
].
sizeof_SIB1_NB
);
}
}
}
///if we are here means that is a SIB23-NB transmission
/*if we are here it means that we have SIB23-NB-Transmission??
//**for NB_IoT Implementations
//parameters that comes into play (defined in SIB1-NB):
//1_ si_windowlenght (w) (same for all SI messages)
= 160 ms
//2_ si_radioFrameOffset (same for all SI messages) (
not considered
)
//3_ si_periodicity (T)
= 64 rf
//4_ si_repetitionPattern
= every2nd frame
//1_ si_windowlenght (w) (same for all SI messages)
//2_ si_radioFrameOffset (same for all SI messages) (
set to 0 generally but depends on the starting radio frame of SIB1-NB
)
//3_ si_periodicity (T)
//4_ si_repetitionPattern
/*logic (see TS 36.331 5.2.3a)*/
//since we have only 1 entry in the SchedulingInfoList (SIB23-NB) --> n=1
...
...
@@ -361,6 +464,10 @@ int8_t NB_mac_rrc_data_req_eNB(
return
(
Sdu_size
);
}
return
(
0
);
}
...
...
openair2/RRC/LITE/proto_nb_iot.h
View file @
4f5cc15c
...
...
@@ -100,8 +100,8 @@ int8_t NB_mac_rrc_data_req_eNB(
const
frame_t
frameP
,
const
rb_id_t
Srb_id
,
uint8_t
*
const
buffer_pP
,
uint32_t
start_sfn_sib1_NB
,
//starting frame for sib1 transmission
uint32_t
nb_sib1_NB_rep
,
//number of sib1 repetitions
long
schedulingInfoSIB1
,
//from the mib
int
physCellId
,
//from the MAC instance-> common_channel
const
frame_t
h_frameP
,
//HSFN
long
si_periodicity
,
//SI-periodicity
long
si_windowLength
//Si-windwolength
...
...
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