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lizhongxiao
OpenXG-RAN
Commits
b3c06eae
Commit
b3c06eae
authored
Apr 14, 2020
by
laurent
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reremerge
parents
dfafa900
1bf529be
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1 changed file
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312 additions
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9 deletions
+312
-9
openair2/LAYER2/MAC/pre_processor.c
openair2/LAYER2/MAC/pre_processor.c
+312
-9
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openair2/LAYER2/MAC/pre_processor.c
View file @
b3c06eae
...
...
@@ -592,7 +592,6 @@ int round_robin_ul(module_id_t Mod_id,
continue
;
}
int
mcs
;
int
rb_table_index
;
int
tx_power
;
...
...
@@ -619,7 +618,6 @@ int round_robin_ul(module_id_t Mod_id,
subframe
,
UE_id
,
CC_id
,
UE_template
->
pre_assigned_mcs_ul
,
UE_template
->
pre_allocated_rb_table_index_ul
,
UE_template
->
pre_allocated_nb_rb_ul
,
...
...
@@ -866,11 +864,316 @@ void ulsch_scheduler_pre_processor(module_id_t Mod_id,
t
[
UE_template
->
pre_first_nb_rb_ul
+
i
]
=
UE_id
+
'0'
;
}
}
if
(
print
)
LOG_D
(
MAC
,
"%4d.%d UL scheduler allocation list: %s
\n
"
,
sched_frameP
,
sched_subframeP
,
t
);
#endif
// step 3: assigne RBS
for
(
UE_id
=
UE_list
->
head_ul
;
UE_id
>=
0
;
UE_id
=
UE_list
->
next_ul
[
UE_id
])
{
// if (continueTable[UE_id]) continue;
for
(
n
=
0
;
n
<
UE_list
->
numactiveULCCs
[
UE_id
];
n
++
)
{
// This is the actual CC_id in the list
CC_id
=
UE_list
->
ordered_ULCCids
[
n
][
UE_id
];
UE_template
=
&
UE_list
->
UE_template
[
CC_id
][
UE_id
];
harq_pid
=
subframe2harqpid
(
&
RC
.
mac
[
module_idP
]
->
common_channels
[
CC_id
],
sched_frameP
,
sched_subframeP
);
// mac_xface->get_ue_active_harq_pid(module_idP,CC_id,rnti,frameP,subframeP,&harq_pid,&round,openair_harq_UL);
if
(
UE_list
->
UE_sched_ctrl
[
UE_id
].
round_UL
[
CC_id
][
harq_pid
]
>
0
)
{
nb_allocated_rbs
[
CC_id
][
UE_id
]
=
UE_list
->
UE_template
[
CC_id
][
UE_id
].
nb_rb_ul
[
harq_pid
];
}
else
{
nb_allocated_rbs
[
CC_id
][
UE_id
]
=
cmin
(
UE_list
->
UE_template
[
CC_id
][
UE_id
].
pre_allocated_nb_rb_ul
[
slice_idx
],
average_rbs_per_user
[
CC_id
]);
}
total_allocated_rbs
[
CC_id
]
+=
nb_allocated_rbs
[
CC_id
][
UE_id
];
LOG_D
(
MAC
,
"In ulsch_preprocessor: assigning %d RBs for UE %d/%x CCid %d, harq_pid %d, nb_rb_ul %d, %d ,%d, slice %d, round ul %d
\n
"
,
nb_allocated_rbs
[
CC_id
][
UE_id
],
UE_id
,
rntiTable
[
UE_id
],
CC_id
,
harq_pid
,
UE_list
->
UE_template
[
CC_id
][
UE_id
].
nb_rb_ul
[
harq_pid
],
UE_list
->
UE_template
[
CC_id
][
UE_id
].
pre_allocated_nb_rb_ul
[
slice_idx
],
average_rbs_per_user
[
CC_id
],
slice_idx
,
UE_list
->
UE_sched_ctrl
[
UE_id
].
round_UL
[
CC_id
][
harq_pid
]);
}
}
// step 4: assigne the remaining RBs and set the pre_allocated rbs accordingly
for
(
UE_id
=
UE_list
->
head_ul
;
UE_id
>=
0
;
UE_id
=
UE_list
->
next_ul
[
UE_id
])
{
// if (continueTable[UE_id]) continue;
ue_sched_ctl
=
&
UE_list
->
UE_sched_ctrl
[
UE_id
];
for
(
n
=
0
;
n
<
UE_list
->
numactiveULCCs
[
UE_id
];
n
++
)
{
// This is the actual CC_id in the list
CC_id
=
UE_list
->
ordered_ULCCids
[
n
][
UE_id
];
UE_template
=
&
UE_list
->
UE_template
[
CC_id
][
UE_id
];
N_RB_UL
=
to_prb
(
eNB
->
common_channels
[
CC_id
].
ul_Bandwidth
);
first_rb_offset
=
UE_list
->
first_rb_offset
[
CC_id
][
slice_idx
];
available_rbs
=
cmin
(
ue_sched_ctl
->
max_rbs_allowed_slice_uplink
[
CC_id
][
slice_idx
],
N_RB_UL
-
first_rb
[
CC_id
]
-
first_rb_offset
);
total_remaining_rbs
[
CC_id
]
=
available_rbs
-
total_allocated_rbs
[
CC_id
];
if
(
total_ue_count
[
CC_id
]
==
1
)
{
total_remaining_rbs
[
CC_id
]
++
;
}
while
(
UE_template
->
pre_allocated_nb_rb_ul
[
slice_idx
]
>
0
&&
nb_allocated_rbs
[
CC_id
][
UE_id
]
<
UE_template
->
pre_allocated_nb_rb_ul
[
slice_idx
]
&&
total_remaining_rbs
[
CC_id
]
>
0
)
{
nb_allocated_rbs
[
CC_id
][
UE_id
]
=
cmin
(
nb_allocated_rbs
[
CC_id
][
UE_id
]
+
1
,
UE_template
->
pre_allocated_nb_rb_ul
[
slice_idx
]);
total_remaining_rbs
[
CC_id
]
--
;
total_allocated_rbs
[
CC_id
]
++
;
}
UE_template
->
pre_allocated_nb_rb_ul
[
slice_idx
]
=
nb_allocated_rbs
[
CC_id
][
UE_id
];
LOG_D
(
MAC
,
"******************UL Scheduling Information for UE%d CC_id %d ************************
\n
"
,
UE_id
,
CC_id
);
LOG_D
(
MAC
,
"[eNB %d] total RB allocated for UE%d CC_id %d = %d
\n
"
,
module_idP
,
UE_id
,
CC_id
,
UE_template
->
pre_allocated_nb_rb_ul
[
slice_idx
]);
}
}
return
;
}
void
assign_max_mcs_min_rb
(
module_id_t
module_idP
,
int
slice_idx
,
int
frameP
,
sub_frame_t
subframeP
,
uint16_t
*
first_rb
)
{
int
i
;
uint16_t
n
,
UE_id
;
uint8_t
CC_id
;
int
mcs
;
int
rb_table_index
=
0
,
tbs
,
tx_power
;
eNB_MAC_INST
*
eNB
=
RC
.
mac
[
module_idP
];
UE_list_t
*
UE_list
=
&
eNB
->
UE_list
;
slice_info_t
*
sli
=
&
eNB
->
slice_info
;
UE_TEMPLATE
*
UE_template
;
UE_sched_ctrl_t
*
ue_sched_ctl
;
int
Ncp
;
int
N_RB_UL
;
int
first_rb_offset
,
available_rbs
;
for
(
i
=
UE_list
->
head_ul
;
i
>=
0
;
i
=
UE_list
->
next_ul
[
i
])
{
if
(
UE_list
->
UE_sched_ctrl
[
i
].
phr_received
==
1
)
{
/* if we've received the power headroom information the UE, we can go to
* maximum mcs */
mcs
=
cmin
(
20
,
sli
->
ul
[
slice_idx
].
maxmcs
);
}
else
{
/* otherwise, limit to QPSK PUSCH */
mcs
=
cmin
(
10
,
sli
->
ul
[
slice_idx
].
maxmcs
);
}
UE_id
=
i
;
for
(
n
=
0
;
n
<
UE_list
->
numactiveULCCs
[
UE_id
];
n
++
)
{
// This is the actual CC_id in the list
CC_id
=
UE_list
->
ordered_ULCCids
[
n
][
UE_id
];
AssertFatal
(
CC_id
<
RC
.
nb_mac_CC
[
module_idP
],
"CC_id %u should be < %u, loop n=%u < numactiveULCCs[%u]=%u"
,
CC_id
,
NFAPI_CC_MAX
,
n
,
UE_id
,
UE_list
->
numactiveULCCs
[
UE_id
]);
UE_template
=
&
UE_list
->
UE_template
[
CC_id
][
UE_id
];
UE_template
->
pre_assigned_mcs_ul
=
mcs
;
ue_sched_ctl
=
&
UE_list
->
UE_sched_ctrl
[
UE_id
];
Ncp
=
eNB
->
common_channels
[
CC_id
].
Ncp
;
N_RB_UL
=
to_prb
(
eNB
->
common_channels
[
CC_id
].
ul_Bandwidth
);
ue_sched_ctl
->
max_rbs_allowed_slice_uplink
[
CC_id
][
slice_idx
]
=
nb_rbs_allowed_slice
(
sli
->
ul
[
slice_idx
].
pct
,
N_RB_UL
);
int
bytes_to_schedule
=
UE_template
->
estimated_ul_buffer
-
UE_template
->
scheduled_ul_bytes
;
if
(
bytes_to_schedule
<
0
)
bytes_to_schedule
=
0
;
int
bits_to_schedule
=
bytes_to_schedule
*
8
;
// if this UE has UL traffic
if
(
bits_to_schedule
>
0
)
{
tbs
=
get_TBS_UL
(
UE_template
->
pre_assigned_mcs_ul
,
3
)
<<
3
;
// 1 or 2 PRB with cqi enabled does not work well!
rb_table_index
=
2
;
// fixme: set use_srs flag
tx_power
=
estimate_ue_tx_power
(
tbs
,
rb_table
[
rb_table_index
],
0
,
Ncp
,
0
);
while
((
UE_template
->
phr_info
-
tx_power
<
0
||
tbs
>
bits_to_schedule
)
&&
UE_template
->
pre_assigned_mcs_ul
>
3
)
{
// LOG_I(MAC,"UE_template->phr_info %d tx_power %d mcs %d\n", UE_template->phr_info,tx_power, mcs);
UE_template
->
pre_assigned_mcs_ul
--
;
tbs
=
get_TBS_UL
(
UE_template
->
pre_assigned_mcs_ul
,
rb_table
[
rb_table_index
])
<<
3
;
tx_power
=
estimate_ue_tx_power
(
tbs
,
rb_table
[
rb_table_index
],
0
,
Ncp
,
0
);
// fixme: set use_srs
}
first_rb_offset
=
UE_list
->
first_rb_offset
[
CC_id
][
slice_idx
];
available_rbs
=
cmin
(
ue_sched_ctl
->
max_rbs_allowed_slice_uplink
[
CC_id
][
slice_idx
],
N_RB_UL
-
first_rb
[
CC_id
]
-
first_rb_offset
);
while
(
tbs
<
bits_to_schedule
&&
rb_table
[
rb_table_index
]
<
available_rbs
&&
UE_template
->
phr_info
-
tx_power
>
0
&&
rb_table_index
<
32
)
{
rb_table_index
++
;
tbs
=
get_TBS_UL
(
UE_template
->
pre_assigned_mcs_ul
,
rb_table
[
rb_table_index
])
<<
3
;
tx_power
=
estimate_ue_tx_power
(
tbs
,
rb_table
[
rb_table_index
],
0
,
Ncp
,
0
);
}
if
(
rb_table
[
rb_table_index
]
>
(
available_rbs
-
1
))
{
rb_table_index
--
;
}
// 1 or 2 PRB with cqi enabled does not work well
if
(
rb_table
[
rb_table_index
]
<
3
)
{
rb_table_index
=
2
;
//3PRB
}
UE_template
->
pre_allocated_rb_table_index_ul
=
rb_table_index
;
UE_template
->
pre_allocated_nb_rb_ul
[
slice_idx
]
=
rb_table
[
rb_table_index
];
LOG_D
(
MAC
,
"[eNB %d] frame %d subframe %d: for UE %d CC %d: pre-assigned mcs %d, pre-allocated rb_table[%d]=%d RBs (phr %d, tx power %d)
\n
"
,
module_idP
,
frameP
,
subframeP
,
UE_id
,
CC_id
,
UE_template
->
pre_assigned_mcs_ul
,
UE_template
->
pre_allocated_rb_table_index_ul
,
UE_template
->
pre_allocated_nb_rb_ul
[
slice_idx
],
UE_template
->
phr_info
,
tx_power
);
}
else
{
/* if UE has pending scheduling request then pre-allocate 3 RBs */
//if (UE_template->ul_active == 1 && UE_template->ul_SR == 1) {
if
(
UE_is_to_be_scheduled
(
module_idP
,
CC_id
,
i
))
{
/* use QPSK mcs */
UE_template
->
pre_assigned_mcs_ul
=
10
;
UE_template
->
pre_allocated_rb_table_index_ul
=
2
;
UE_template
->
pre_allocated_nb_rb_ul
[
slice_idx
]
=
3
;
}
else
{
UE_template
->
pre_assigned_mcs_ul
=
0
;
UE_template
->
pre_allocated_rb_table_index_ul
=
-
1
;
UE_template
->
pre_allocated_nb_rb_ul
[
slice_idx
]
=
0
;
}
}
}
}
}
struct
sort_ue_ul_params
{
int
module_idP
;
int
sched_frameP
;
int
sched_subframeP
;
};
static
int
ue_ul_compare
(
const
void
*
_a
,
const
void
*
_b
,
void
*
_params
)
{
struct
sort_ue_ul_params
*
params
=
_params
;
UE_list_t
*
UE_list
=
&
RC
.
mac
[
params
->
module_idP
]
->
UE_list
;
int
UE_id1
=
*
(
const
int
*
)
_a
;
int
UE_id2
=
*
(
const
int
*
)
_b
;
int
rnti1
=
UE_RNTI
(
params
->
module_idP
,
UE_id1
);
int
pCCid1
=
UE_PCCID
(
params
->
module_idP
,
UE_id1
);
int
round1
=
maxround_ul
(
params
->
module_idP
,
rnti1
,
params
->
sched_frameP
,
params
->
sched_subframeP
);
int
rnti2
=
UE_RNTI
(
params
->
module_idP
,
UE_id2
);
int
pCCid2
=
UE_PCCID
(
params
->
module_idP
,
UE_id2
);
int
round2
=
maxround_ul
(
params
->
module_idP
,
rnti2
,
params
->
sched_frameP
,
params
->
sched_subframeP
);
if
(
round1
>
round2
)
return
-
1
;
if
(
round1
<
round2
)
return
1
;
if
(
UE_list
->
UE_template
[
pCCid1
][
UE_id1
].
ul_buffer_info
[
LCGID0
]
>
UE_list
->
UE_template
[
pCCid2
][
UE_id2
].
ul_buffer_info
[
LCGID0
])
return
-
1
;
if
(
UE_list
->
UE_template
[
pCCid1
][
UE_id1
].
ul_buffer_info
[
LCGID0
]
<
UE_list
->
UE_template
[
pCCid2
][
UE_id2
].
ul_buffer_info
[
LCGID0
])
return
1
;
int
bytes_to_schedule1
=
UE_list
->
UE_template
[
pCCid1
][
UE_id1
].
estimated_ul_buffer
-
UE_list
->
UE_template
[
pCCid1
][
UE_id1
].
scheduled_ul_bytes
;
if
(
bytes_to_schedule1
<
0
)
bytes_to_schedule1
=
0
;
int
bytes_to_schedule2
=
UE_list
->
UE_template
[
pCCid2
][
UE_id2
].
estimated_ul_buffer
-
UE_list
->
UE_template
[
pCCid2
][
UE_id2
].
scheduled_ul_bytes
;
if
(
bytes_to_schedule2
<
0
)
bytes_to_schedule2
=
0
;
if
(
bytes_to_schedule1
>
bytes_to_schedule2
)
return
-
1
;
if
(
bytes_to_schedule1
<
bytes_to_schedule2
)
return
1
;
if
(
UE_list
->
UE_template
[
pCCid1
][
UE_id1
].
pre_assigned_mcs_ul
>
UE_list
->
UE_template
[
pCCid2
][
UE_id2
].
pre_assigned_mcs_ul
)
return
-
1
;
if
(
UE_list
->
UE_template
[
pCCid1
][
UE_id1
].
pre_assigned_mcs_ul
<
UE_list
->
UE_template
[
pCCid2
][
UE_id2
].
pre_assigned_mcs_ul
)
return
1
;
if
(
UE_list
->
UE_sched_ctrl
[
UE_id1
].
cqi_req_timer
>
UE_list
->
UE_sched_ctrl
[
UE_id2
].
cqi_req_timer
)
return
-
1
;
if
(
UE_list
->
UE_sched_ctrl
[
UE_id1
].
cqi_req_timer
<
UE_list
->
UE_sched_ctrl
[
UE_id2
].
cqi_req_timer
)
return
1
;
return
0
;
}
//-----------------------------------------------------------------------------
/*
* This function sorts the UEs in order, depending on their ulsch buffer and CQI
*/
void
sort_ue_ul
(
module_id_t
module_idP
,
int
slice_idx
,
int
sched_frameP
,
sub_frame_t
sched_subframeP
,
rnti_t
*
rntiTable
)
//-----------------------------------------------------------------------------
{
int
list
[
MAX_MOBILES_PER_ENB
];
int
list_size
=
0
;
struct
sort_ue_ul_params
params
=
{
module_idP
,
sched_frameP
,
sched_subframeP
};
UE_list_t
*
UE_list
=
&
RC
.
mac
[
module_idP
]
->
UE_list
;
UE_sched_ctrl_t
*
UE_scheduling_control
=
NULL
;
for
(
int
i
=
0
;
i
<
MAX_MOBILES_PER_ENB
;
i
++
)
{
UE_scheduling_control
=
&
(
UE_list
->
UE_sched_ctrl
[
i
]);
/* Check CDRX configuration and if UE is in active time for this subframe */
if
(
UE_scheduling_control
->
cdrx_configured
==
TRUE
)
{
if
(
UE_scheduling_control
->
in_active_time
==
FALSE
)
{
continue
;
}
}
rntiTable
[
i
]
=
UE_RNTI
(
module_idP
,
i
);
// Valid element and is not the actual CC_id in the list
if
(
UE_list
->
active
[
i
]
==
TRUE
&&
rntiTable
[
i
]
!=
NOT_A_RNTI
&&
UE_list
->
UE_sched_ctrl
[
i
].
ul_out_of_sync
!=
1
&&
ue_ul_slice_membership
(
module_idP
,
i
,
slice_idx
))
{
list
[
list_size
++
]
=
i
;
// Add to list
}
}
qsort_r
(
list
,
list_size
,
sizeof
(
int
),
ue_ul_compare
,
&
params
);
if
(
list_size
)
{
// At mimimum one list element
for
(
int
i
=
0
;
i
<
list_size
-
1
;
i
++
)
{
UE_list
->
next_ul
[
list
[
i
]]
=
list
[
i
+
1
];
}
UE_list
->
next_ul
[
list
[
list_size
-
1
]]
=
-
1
;
UE_list
->
head_ul
=
list
[
0
];
}
else
{
// No element
UE_list
->
head_ul
=
-
1
;
}
}
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