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promise
OpenXG-RAN
Commits
cec3f0ae
Commit
cec3f0ae
authored
May 23, 2019
by
Wang Tsu-Han
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adding assertion to lock and adding timedwait with other realtime threading handel
parent
296560f4
Changes
3
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3 changed files
with
176 additions
and
215 deletions
+176
-215
cmake_targets/CMakeLists.txt
cmake_targets/CMakeLists.txt
+1
-1
openair1/PHY/defs_common.h
openair1/PHY/defs_common.h
+46
-60
targets/RT/USER/lte-enb.c
targets/RT/USER/lte-enb.c
+129
-154
No files found.
cmake_targets/CMakeLists.txt
View file @
cec3f0ae
...
...
@@ -21,7 +21,7 @@
# Author: laurent THOMAS, Lionel GAUTHIER
cmake_minimum_required
(
VERSION
3.0
)
cmake_minimum_required
(
VERSION
2.8
)
#############################################
# Base directories, compatible with legacy OAI building
...
...
openair1/PHY/defs_common.h
View file @
cec3f0ae
...
...
@@ -51,6 +51,7 @@
#include <sys/sysinfo.h>
#include <stdio.h>
#include <stdlib.h>
#include <malloc.h>
...
...
@@ -60,6 +61,8 @@
#include "msc.h"
#include <common/utils/LOG/log.h>
#include "assertions.h"
//#include <complex.h>
...
...
@@ -1035,14 +1038,15 @@ typedef uint8_t(encoder_if_t)(uint8_t *input,
static
inline
void
wait_sync
(
char
*
thread_name
)
{
int
rc
;
printf
(
"waiting for sync (%s,%d/%p,%p,%p)
\n
"
,
thread_name
,
sync_var
,
&
sync_var
,
&
sync_cond
,
&
sync_mutex
);
pthread_mutex_lock
(
&
sync_mutex
);
AssertFatal
((
rc
=
pthread_mutex_lock
(
&
sync_mutex
))
==
0
,
"sync mutex lock error"
);
while
(
sync_var
<
0
)
pthread_cond_wait
(
&
sync_cond
,
&
sync_mutex
);
pthread_mutex_unlock
(
&
sync_mutex
);
AssertFatal
((
rc
=
pthread_mutex_unlock
(
&
sync_mutex
))
==
0
,
"sync mutex unlock error"
);
printf
(
"got sync (%s)
\n
"
,
thread_name
);
/*
...
...
@@ -1056,37 +1060,20 @@ static inline int wakeup_thread(pthread_mutex_t *mutex,pthread_cond_t *cond,int
int
rc
;
int
sleep_cnt
=
0
;
if
((
rc
=
pthread_mutex_lock
(
mutex
))
!=
0
)
{
LOG_E
(
PHY
,
"wakeup_thread(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
exit_fun
(
"nothing to add"
);
return
(
-
1
);
}
AssertFatal
((
rc
=
pthread_mutex_lock
(
mutex
))
==
0
,
"wakeup_thread(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
while
(
*
instance_cnt
==
0
)
{
if
((
rc
=
pthread_mutex_unlock
(
mutex
))
!=
0
)
{
LOG_E
(
PHY
,
"wakeup_thread(): error unlocking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
exit_fun
(
"nothing to add"
);
return
(
-
1
);
}
AssertFatal
((
rc
=
pthread_mutex_unlock
(
mutex
))
==
0
,
"wakeup_thread(): error unlocking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
sleep_cnt
++
;
if
(
sleep_cnt
>
sleep_cnt_max
)
return
(
-
1
);
usleep
(
sleeptime
);
if
((
rc
=
pthread_mutex_lock
(
mutex
))
!=
0
)
{
LOG_E
(
PHY
,
"wakeup_thread(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
exit_fun
(
"nothing to add"
);
return
(
-
1
);
}
AssertFatal
((
rc
=
pthread_mutex_lock
(
mutex
))
==
0
,
"wakeup_thread(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
}
*
instance_cnt
=
*
instance_cnt
+
1
;
if
((
rc
=
pthread_mutex_unlock
(
mutex
))
!=
0
)
{
LOG_E
(
PHY
,
"wakeup_thread(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
exit_fun
(
"nothing to add"
);
return
(
-
1
);
}
AssertFatal
((
rc
=
pthread_mutex_unlock
(
mutex
))
==
0
,
"wakeup_thread(): error unlocking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
// the thread can now be woken up
if
(
pthread_cond_signal
(
cond
)
!=
0
)
{
...
...
@@ -1095,41 +1082,50 @@ static inline int wakeup_thread(pthread_mutex_t *mutex,pthread_cond_t *cond,int
return
(
-
1
);
}
pthread_mutex_unlock
(
mutex
);
AssertFatal
((
rc
=
pthread_mutex_unlock
(
mutex
))
==
0
,
"wakeup_thread(): error unlocking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
return
(
0
);
}
static
inline
int
wait_on_condition
(
pthread_mutex_t
*
mutex
,
pthread_cond_t
*
cond
,
int
*
instance_cnt
,
char
*
name
)
{
static
inline
int
timedwait_on_condition
(
pthread_mutex_t
*
mutex
,
pthread_cond_t
*
cond
,
int
*
instance_cnt
,
char
*
name
,
uint32_t
time_ns
)
{
int
rc
;
if
((
rc
=
pthread_mutex_lock
(
mutex
))
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][eNB] wait_on_condition(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
exit_fun
(
"nothing to add"
);
return
(
-
1
);
int
waitret
=
0
;
struct
timespec
now
,
abstime
;
AssertFatal
((
rc
=
pthread_mutex_lock
(
mutex
))
==
0
,
"[SCHED][eNB] timedwait_on_condition(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
clock_gettime
(
CLOCK_REALTIME
,
&
now
);
while
(
*
instance_cnt
<
0
)
{
// most of the time the thread is waiting here
// proc->instance_cnt_rxtx is -1
abstime
.
tv_sec
=
now
.
tv_sec
;
abstime
.
tv_nsec
=
now
.
tv_nsec
+
time_ns
;
if
((
waitret
=
pthread_cond_timedwait
(
cond
,
mutex
,
&
abstime
))
==
ETIMEDOUT
)
break
;
// this unlocks mutex_rxtx while waiting and then locks it again
}
AssertFatal
((
rc
=
pthread_mutex_unlock
(
mutex
))
==
0
,
"[SCHED][eNB] timedwait_on_condition(): error unlocking mutex return %d for %s
\n
"
,
rc
,
name
);
return
(
0
);
}
static
inline
int
wait_on_condition
(
pthread_mutex_t
*
mutex
,
pthread_cond_t
*
cond
,
int
*
instance_cnt
,
char
*
name
)
{
int
rc
;
AssertFatal
((
rc
=
pthread_mutex_lock
(
mutex
))
==
0
,
"[SCHED][eNB] wait_on_condition(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
while
(
*
instance_cnt
<
0
)
{
// most of the time the thread is waiting here
// proc->instance_cnt_rxtx is -1
pthread_cond_wait
(
cond
,
mutex
);
// this unlocks mutex_rxtx while waiting and then locks it again
}
if
(
pthread_mutex_unlock
(
mutex
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][eNB] error unlocking mutex for %s
\n
"
,
name
);
exit_fun
(
"nothing to add"
);
return
(
-
1
);
}
AssertFatal
((
rc
=
pthread_mutex_unlock
(
mutex
))
==
0
,
"[SCHED][eNB] wait_on_condition(): error unlocking mutex return %d for %s
\n
"
,
rc
,
name
);
return
(
0
);
}
static
inline
int
wait_on_busy_condition
(
pthread_mutex_t
*
mutex
,
pthread_cond_t
*
cond
,
int
*
instance_cnt
,
char
*
name
)
{
int
rc
;
if
((
rc
=
pthread_mutex_lock
(
mutex
))
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][eNB] wait_on_busy_condition(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
exit_fun
(
"nothing to add"
);
return
(
-
1
);
}
AssertFatal
((
rc
=
pthread_mutex_lock
(
mutex
))
==
0
,
"[SCHED][eNB] wait_on_busy_condition(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
while
(
*
instance_cnt
==
0
)
{
// most of the time the thread will skip this
...
...
@@ -1137,30 +1133,20 @@ static inline int wait_on_busy_condition(pthread_mutex_t *mutex,pthread_cond_t *
pthread_cond_wait
(
cond
,
mutex
);
// this unlocks mutex_rxtx while waiting and then locks it again
}
if
(
pthread_mutex_unlock
(
mutex
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][eNB] error unlocking mutex for %s
\n
"
,
name
);
exit_fun
(
"nothing to add"
);
return
(
-
1
);
}
AssertFatal
((
rc
=
pthread_mutex_unlock
(
mutex
))
==
0
,
"[SCHED][eNB] wait_on_busy_condition(): error unlocking mutex return %d for %s
\n
"
,
rc
,
name
);
return
(
0
);
}
static
inline
int
release_thread
(
pthread_mutex_t
*
mutex
,
int
*
instance_cnt
,
char
*
name
)
{
int
rc
;
if
((
rc
=
pthread_mutex_lock
(
mutex
))
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][eNB] release_thread(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
exit_fun
(
"nothing to add"
);
return
(
-
1
);
}
AssertFatal
((
rc
=
pthread_mutex_lock
(
mutex
))
==
0
,
"[SCHED][eNB] release_thread(): error locking mutex for %s (%d %s, %p)
\n
"
,
name
,
rc
,
strerror
(
rc
),
(
void
*
)
mutex
);
*
instance_cnt
=*
instance_cnt
-
1
;
if
(
pthread_mutex_unlock
(
mutex
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][eNB] error unlocking mutex for %s
\n
"
,
name
);
exit_fun
(
"nothing to add"
);
return
(
-
1
);
}
AssertFatal
((
rc
=
pthread_mutex_unlock
(
mutex
))
==
0
,
"[SCHED][eNB] release_thread(): error unlocking mutex return %d for %s
\n
"
,
rc
,
name
);
return
(
0
);
}
...
...
targets/RT/USER/lte-enb.c
View file @
cec3f0ae
...
...
@@ -144,8 +144,8 @@ extern double cpuf;
void
init_eNB
(
int
,
int
);
void
stop_eNB
(
int
nb_inst
);
int
wakeup_tx
(
PHY_VARS_eNB
*
eNB
);
int
wakeup_txfh
(
L1_rxtx_proc_t
*
proc
,
int
frame_tx
,
int
subframe_tx
,
uint64_t
timestamp_tx
,
PHY_VARS_eNB
*
eNB
);
int
wakeup_tx
(
PHY_VARS_eNB
*
eNB
,
int
frame_rx
,
int
subframe_rx
,
int
frame_tx
,
int
subframe_tx
,
uint64_t
timestamp_tx
);
int
wakeup_txfh
(
PHY_VARS_eNB
*
eNB
,
L1_rxtx_proc_t
*
proc
,
int
frame_tx
,
int
subframe_tx
,
uint64_t
timestamp_tx
);
void
wakeup_prach_eNB
(
PHY_VARS_eNB
*
eNB
,
RU_t
*
ru
,
int
frame
,
int
subframe
);
#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))
void
wakeup_prach_eNB_br
(
PHY_VARS_eNB
*
eNB
,
RU_t
*
ru
,
int
frame
,
int
subframe
);
...
...
@@ -160,6 +160,7 @@ extern void add_subframe(uint16_t *frameP, uint16_t *subframeP, int offset);
static
inline
int
rxtx
(
PHY_VARS_eNB
*
eNB
,
L1_rxtx_proc_t
*
proc
,
char
*
thread_name
)
{
int
ret
;
start_meas
(
&
softmodem_stats_rxtx_sf
);
//L1_rxtx_proc_t *L1_proc_tx = &eNB->proc.L1_proc_tx;
...
...
@@ -237,10 +238,7 @@ static inline int rxtx(PHY_VARS_eNB *eNB,L1_rxtx_proc_t *proc, char *thread_name
memcpy
(
&
pre_scd_eNB_UE_stats
,
&
RC
.
mac
[
0
]
->
UE_list
.
eNB_UE_stats
,
sizeof
(
eNB_UE_STATS
)
*
MAX_NUM_CCs
*
NUMBER_OF_UE_MAX
);
memcpy
(
&
pre_scd_activeUE
,
&
RC
.
mac
[
0
]
->
UE_list
.
active
,
sizeof
(
boolean_t
)
*
NUMBER_OF_UE_MAX
);
if
(
pthread_mutex_lock
(
&
ru
->
proc
.
mutex_pre_scd
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] error locking proc mutex for eNB pre scd
\n
"
);
exit_fun
(
"error locking mutex_time"
);
}
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
ru
->
proc
.
mutex_pre_scd
))
==
0
,
"[eNB] error locking proc mutex for eNB pre scd, return %d
\n
"
,
ret
);
ru
->
proc
.
instance_pre_scd
++
;
...
...
@@ -254,20 +252,18 @@ static inline int rxtx(PHY_VARS_eNB *eNB,L1_rxtx_proc_t *proc, char *thread_name
proc
->
frame_rx
,
proc
->
subframe_rx
,
ru
->
proc
.
instance_pre_scd
);
}
if
(
pthread_mutex_unlock
(
&
ru
->
proc
.
mutex_pre_scd
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] error unlocking mutex_pre_scd mutex for eNB pre scd
\n
"
);
exit_fun
(
"error unlocking mutex_pre_scd"
);
}
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
ru
->
proc
.
mutex_pre_scd
))
==
0
,
"[eNB] error unlocking proc mutex for eNB pre scd, return %d
\n
"
,
ret
);
}
#endif
pthread_mutex_lock
(
&
eNB
->
UL_INFO_mutex
);
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
eNB
->
UL_INFO_mutex
))
==
0
,
"error locking UL_INFO_mutex, return %d
\n
"
,
ret
);
eNB
->
UL_INFO
.
frame
=
proc
->
frame_rx
;
eNB
->
UL_INFO
.
subframe
=
proc
->
subframe_rx
;
eNB
->
UL_INFO
.
module_id
=
eNB
->
Mod_id
;
eNB
->
UL_INFO
.
CC_id
=
eNB
->
CC_id
;
eNB
->
if_inst
->
UL_indication
(
&
eNB
->
UL_INFO
);
pthread_mutex_unlock
(
&
eNB
->
UL_INFO_mutex
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
eNB
->
UL_INFO_mutex
))
==
0
,
"error unlocking UL_INFO_mutex, return %d
\n
"
,
ret
);
/* this conflict resolution may be totally wrong, to be tested */
/* CONFLICT RESOLUTION: BEGIN */
...
...
@@ -336,6 +332,7 @@ static void *L1_thread_tx(void *param) {
char
thread_name
[
100
];
sprintf
(
thread_name
,
"TXnp4_%d
\n
"
,
&
eNB
->
proc
.
L1_proc
==
proc
?
0
:
1
);
thread_top_init
(
thread_name
,
1
,
470000
,
500000
,
500000
);
int
ret
;
//wait_sync("tx_thread");
...
...
@@ -357,7 +354,7 @@ static void *L1_thread_tx(void *param) {
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_FRAME_NUMBER_RX1_ENB
,
proc
->
frame_rx
);
LOG_D
(
PHY
,
"L1 TX processing %d.%d
\n
"
,
proc
->
frame_tx
,
proc
->
subframe_tx
);
phy_procedures_eNB_TX
(
eNB
,
proc
,
1
);
pthread_mutex_lock
(
&
proc
->
mutex
);
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
proc
->
mutex
))
==
0
,
"error locking L1_proc_tx mutex, return %d
\n
"
,
ret
);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_L1_PROC_TX_IC
,
proc
->
instance_cnt
);
int
subframe_tx
=
proc
->
subframe_tx
;
...
...
@@ -374,8 +371,8 @@ static void *L1_thread_tx(void *param) {
exit_fun
(
"ERROR pthread_cond_signal"
);
}
pthread_mutex_unlock
(
&
proc
->
mutex
);
wakeup_txfh
(
proc
,
frame_tx
,
subframe_tx
,
timestamp_tx
,
eNB
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
proc
->
mutex
))
==
0
,
"error unlocking L1_proc_tx mutex, return %d
\n
"
,
ret
);
wakeup_txfh
(
eNB
,
proc
,
frame_tx
,
subframe_tx
,
timestamp_tx
);
}
return
0
;
...
...
@@ -436,8 +433,8 @@ static void *L1_thread( void *param ) {
if
(
NFAPI_MODE
!=
NFAPI_MODE_VNF
)
{
if
(
get_thread_parallel_conf
()
==
PARALLEL_RU_L1_TRX_SPLIT
)
wakeup_tx
(
eNB
);
else
if
(
get_thread_parallel_conf
()
==
PARALLEL_RU_L1_SPLIT
)
wakeup_txfh
(
proc
,
proc
->
frame_tx
,
proc
->
subframe_tx
,
proc
->
timestamp_tx
,
eNB
);
if
(
get_thread_parallel_conf
()
==
PARALLEL_RU_L1_TRX_SPLIT
)
wakeup_tx
(
eNB
,
proc
->
frame_rx
,
proc
->
subframe_rx
,
proc
->
frame_tx
,
proc
->
subframe_tx
,
proc
->
timestamp_tx
);
else
if
(
get_thread_parallel_conf
()
==
PARALLEL_RU_L1_SPLIT
)
wakeup_txfh
(
eNB
,
proc
,
proc
->
frame_tx
,
proc
->
subframe_tx
,
proc
->
timestamp_tx
);
}
if
(
release_thread
(
&
proc
->
mutex
,
&
proc
->
instance_cnt
,
thread_name
)
<
0
)
break
;
...
...
@@ -475,48 +472,58 @@ void eNB_top(PHY_VARS_eNB *eNB, int frame_rx, int subframe_rx, char *string,RU_t
}
}
int
wakeup_txfh
(
L1_rxtx_proc_t
*
proc
,
int
frame_tx
,
int
subframe_tx
,
uint64_t
timestamp_tx
,
PHY_VARS_eNB
*
eNB
)
{
int
wakeup_txfh
(
PHY_VARS_eNB
*
eNB
,
L1_rxtx_proc_t
*
proc
,
int
frame_tx
,
int
subframe_tx
,
uint64_t
timestamp_tx
)
{
RU_t
*
ru
;
RU_proc_t
*
ru_proc
;
LTE_DL_FRAME_PARMS
*
fp
;
struct
timespec
wait
;
wait
.
tv_sec
=
0
;
wait
.
tv_nsec
=
5000000L
;
int
waitret
,
ret
;
LOG_D
(
PHY
,
"L1 TX Waking up TX FH %d.%d (IC RU TX %d)
\n
"
,
frame_tx
,
subframe_tx
,
proc
->
instance_cnt_RUs
);
// grab the information for the RU due to the following wait
if
(
wait_on_condition
(
&
proc
->
mutex_RUs
,
&
proc
->
cond_RUs
,
&
proc
->
instance_cnt_RUs
,
"wakeup_txfh"
)
<
0
)
{
LOG_E
(
PHY
,
"Frame %d, subframe %d: TX FH not ready
\n
"
,
frame_tx
,
subframe_tx
);
return
(
-
1
);
}
waitret
=
timedwait_on_condition
(
&
proc
->
mutex_RUs
,
&
proc
->
cond_RUs
,
&
proc
->
instance_cnt_RUs
,
"wakeup_txfh"
,
1000000
);
if
(
release_thread
(
&
proc
->
mutex_RUs
,
&
proc
->
instance_cnt_RUs
,
"wakeup_txfh"
)
<
0
)
return
(
-
1
);
AssertFatal
(
release_thread
(
&
proc
->
mutex_RUs
,
&
proc
->
instance_cnt_RUs
,
"wakeup_txfh"
)
==
0
,
"error releaseing eNB lock on RUs
\n
"
);
if
(
waitret
==
ETIMEDOUT
)
{
LOG_W
(
PHY
,
"Dropping TX slot (%d.%d) because FH is blocked more than 1 subframe times (1ms)
\n
"
,
frame_tx
,
subframe_tx
);
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
eNB
->
proc
.
mutex_RU_tx
))
==
0
,
"mutex_lock returns %d
\n
"
,
ret
);
eNB
->
proc
.
RU_mask_tx
=
0
;
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
eNB
->
proc
.
mutex_RU_tx
))
==
0
,
"mutex_unlock returns %d
\n
"
,
ret
);
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
proc
->
mutex_RUs
))
==
0
,
"mutex_lock returns %d
\n
"
,
ret
);
proc
->
instance_cnt_RUs
=
0
;
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_FRAME_NUMBER_RX0_UE
,
proc
->
instance_cnt_RUs
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
proc
->
mutex_RUs
))
==
0
,
"mutex_unlock returns %d
\n
"
,
ret
);
return
(
-
1
);
}
for
(
int
ru_id
=
0
;
ru_id
<
eNB
->
num_RU
;
ru_id
++
){
ru_proc
=
&
eNB
->
RU_list
[
ru_id
]
->
proc
;
fp
=
&
eNB
->
RU_list
[
ru_id
]
->
frame_parms
;
ru
=
eNB
->
RU_list
[
ru_id
];
ru_proc
=
&
ru
->
proc
;
fp
=
&
ru
->
frame_parms
;
if
(((
fp
->
frame_type
==
TDD
)
&&
(
subframe_select
(
fp
,
proc
->
subframe_tx
)
==
SF_UL
))
||
(
eNB
->
RU_list
[
ru_id
]
->
state
==
RU_SYNC
)
||
(
eNB
->
RU_list
[
ru_id
]
->
wait_cnt
>
0
)){
pthread_mutex_lock
(
&
proc
->
mutex_RUs
);
AssertFatal
((
pthread_mutex_lock
(
&
proc
->
mutex_RUs
))
==
0
,
"mutex_lock returns %d
\n
"
,
ret
);
proc
->
instance_cnt_RUs
=
0
;
pthread_mutex_unlock
(
&
proc
->
mutex_RUs
);
AssertFatal
((
pthread_mutex_unlock
(
&
proc
->
mutex_RUs
))
==
0
,
"mutex_unlock returns %d
\n
"
,
ret
);
continue
;
//hacking only works when all RU_tx works on the same subframe #TODO: adding mask stuff
}
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
ru_proc
->
mutex_eNBs
))
==
0
,
"ERROR pthread_mutex_lock failed on mutex_eNBs L1_thread_tx with ret=%d
\n
"
,
ret
);
if
(
ru_proc
->
instance_cnt_eNBs
==
0
)
{
LOG_E
(
PHY
,
"Frame %d, subframe %d: TX FH thread busy, dropping Frame %d, subframe %d
\n
"
,
ru_proc
->
frame_tx
,
ru_proc
->
subframe_tx
,
proc
->
frame_rx
,
proc
->
subframe_rx
);
return
(
-
1
);
LOG_E
(
PHY
,
"Frame %d, subframe %d: TX FH thread busy, dropping Frame %d, subframe %d
\n
"
,
ru_proc
->
frame_tx
,
ru_proc
->
subframe_tx
,
proc
->
frame_rx
,
proc
->
subframe_rx
);
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
eNB
->
proc
.
mutex_RU_tx
))
==
0
,
"mutex_lock returns %d
\n
"
,
ret
);
eNB
->
proc
.
RU_mask_tx
=
0
;
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
eNB
->
proc
.
mutex_RU_tx
))
==
0
,
"mutex_unlock returns %d
\n
"
,
ret
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
ru_proc
->
mutex_eNBs
))
==
0
,
"mutex_unlock return %d
\n
"
,
ret
);
return
(
-
1
);
}
if
(
pthread_mutex_timedlock
(
&
ru_proc
->
mutex_eNBs
,
&
wait
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] ERROR pthread_mutex_lock for eNB TX1 thread %d (IC %d)
\n
"
,
ru_proc
->
subframe_rx
&
1
,
ru_proc
->
instance_cnt_eNBs
);
exit_fun
(
"error locking mutex_eNB"
);
return
(
-
1
);
}
ru_proc
->
instance_cnt_eNBs
=
0
;
ru_proc
->
timestamp_tx
=
timestamp_tx
;
ru_proc
->
subframe_tx
=
subframe_tx
;
...
...
@@ -524,31 +531,23 @@ int wakeup_txfh(L1_rxtx_proc_t *proc,int frame_tx,int subframe_tx,uint64_t times
LOG_D
(
PHY
,
"L1 TX Waking up TX FH (2) %d.%d
\n
"
,
frame_tx
,
subframe_tx
);
// the thread can now be woken up
if
(
pthread_cond_signal
(
&
ru_proc
->
cond_eNBs
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] ERROR pthread_cond_signal for eNB TXnp4 thread
\n
"
);
exit_fun
(
"ERROR pthread_cond_signal"
);
return
(
-
1
);
}
pthread_mutex_unlock
(
&
ru_proc
->
mutex_eNBs
);
AssertFatal
(
pthread_cond_signal
(
&
ru_proc
->
cond_eNBs
)
==
0
,
"[eNB] ERROR pthread_cond_signal for eNB TXnp4 thread
\n
"
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
ru_proc
->
mutex_eNBs
))
==
0
,
"mutex_unlock returned %d
\n
"
,
ret
);
}
return
(
0
);
}
int
wakeup_tx
(
PHY_VARS_eNB
*
eNB
)
{
L1_proc_t
*
proc
=&
eNB
->
proc
;
L1_rxtx_proc_t
*
L1_proc_tx
=
&
proc
->
L1_proc_tx
;
L1_rxtx_proc_t
*
L1_proc
=
&
proc
->
L1_proc
;
struct
timespec
wait
;
wait
.
tv_sec
=
0
;
wait
.
tv_nsec
=
5000000L
;
int
wakeup_tx
(
PHY_VARS_eNB
*
eNB
,
int
frame_rx
,
int
subframe_rx
,
int
frame_tx
,
int
subframe_tx
,
uint64_t
timestamp_tx
)
{
L1_rxtx_proc_t
*
L1_proc
=
&
eNB
->
proc
.
L1_proc
;
L1_rxtx_proc_t
*
L1_proc_tx
=
&
eNB
->
proc
.
L1_proc_tx
;
int
ret
;
LOG_D
(
PHY
,
"ENTERED wakeup_tx (IC %d)
\n
"
,
L1_proc_tx
->
instance_cnt
);
if
(
pthread_mutex_timedlock
(
&
L1_proc_tx
->
mutex
,
&
wait
)
!=
0
)
{
LOG_E
(
PHY
,
"[SCHED][eNB] ERROR locking mutex for eNB L1_thread_tx
\n
"
);
exit_fun
(
"ERROR pthread_lock"
);
return
(
-
1
);
}
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
L1_proc_tx
->
mutex
))
==
0
,
"mutex_lock returns %d
\n
"
,
ret
);
LOG_D
(
PHY
,
"L1 RX %d.%d Waiting to wake up L1 TX %d.%d (IC L1TX %d)
\n
"
,
L1_proc
->
frame_rx
,
L1_proc
->
subframe_rx
,
L1_proc
->
frame_tx
,
L1_proc
->
subframe_tx
,
L1_proc_tx
->
instance_cnt
);
...
...
@@ -560,21 +559,17 @@ int wakeup_tx(PHY_VARS_eNB *eNB) {
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_L1_PROC_TX_IC
,
L1_proc_tx
->
instance_cnt
);
L1_proc_tx
->
instance_cnt
=
0
;
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_L1_PROC_TX_IC
,
L1_proc_tx
->
instance_cnt
);
L1_proc_tx
->
subframe_rx
=
L1_proc
->
subframe_rx
;
L1_proc_tx
->
frame_rx
=
L1_proc
->
frame_rx
;
L1_proc_tx
->
subframe_tx
=
L1_proc
->
subframe_tx
;
L1_proc_tx
->
frame_tx
=
L1_proc
->
frame_tx
;
L1_proc_tx
->
timestamp_tx
=
L1_proc
->
timestamp_tx
;
L1_proc_tx
->
subframe_rx
=
subframe_rx
;
L1_proc_tx
->
frame_rx
=
frame_rx
;
L1_proc_tx
->
subframe_tx
=
subframe_tx
;
L1_proc_tx
->
frame_tx
=
frame_tx
;
L1_proc_tx
->
timestamp_tx
=
timestamp_tx
;
// the thread can now be woken up
LOG_D
(
PHY
,
"L1 RX Waking up L1 TX %d.%d
\n
"
,
L1_proc
->
frame_tx
,
L1_proc
->
subframe_tx
);
if
(
pthread_cond_signal
(
&
L1_proc_tx
->
cond
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] ERROR pthread_cond_signal for eNB TXnp4 thread
\n
"
);
exit_fun
(
"ERROR pthread_cond_signal"
);
return
(
-
1
);
}
AssertFatal
(
pthread_cond_signal
(
&
L1_proc_tx
->
cond
)
==
0
,
"ERROR pthread_cond_signal for eNB L1 thread tx
\n
"
);
pthread_mutex_unlock
(
&
L1_proc_tx
->
mutex
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
L1_proc_tx
->
mutex
))
==
0
,
"mutex_unlock returns %d
\n
"
,
ret
);
return
(
0
);
}
...
...
@@ -583,57 +578,43 @@ int wakeup_rxtx(PHY_VARS_eNB *eNB,RU_t *ru) {
RU_proc_t
*
ru_proc
=&
ru
->
proc
;
L1_rxtx_proc_t
*
L1_proc
=&
proc
->
L1_proc
;
LTE_DL_FRAME_PARMS
*
fp
=
&
eNB
->
frame_parms
;
int
i
,
ret
;
LOG_D
(
PHY
,
"ENTERED wakeup_rxtx, %d.%d
\n
"
,
ru_proc
->
frame_rx
,
ru_proc
->
subframe_rx
);
struct
timespec
wait
;
int
sleep_cnt
=
0
;
wait
.
tv_sec
=
0
;
wait
.
tv_nsec
=
5000000L
;
// wake up TX for subframe n+sf_ahead
// lock the TX mutex and make sure the thread is ready
if
(
pthread_mutex_timedlock
(
&
L1_proc
->
mutex
,
&
wait
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] ERROR pthread_mutex_lock for eNB RXTX thread %d (IC %d)
\n
"
,
L1_proc
->
subframe_rx
&
1
,
L1_proc
->
instance_cnt
);
exit_fun
(
"error locking mutex_rxtx"
);
return
(
-
1
);
}
if
(
L1_proc
->
instance_cnt
==
0
)
{
pthread_mutex_unlock
(
&
L1_proc
->
mutex
);
usleep
(
200
);
if
(
pthread_mutex_timedlock
(
&
L1_proc
->
mutex
,
&
wait
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] ERROR pthread_mutex_lock for eNB RXTX thread %d (IC %d)
\n
"
,
L1_proc
->
subframe_rx
&
1
,
L1_proc
->
instance_cnt
);
exit_fun
(
"error locking mutex_rxtx"
);
return
(
-
1
);
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
proc
->
mutex_RU
))
==
0
,
"mutex_lock returns %d
\n
"
,
ret
);
for
(
i
=
0
;
i
<
eNB
->
num_RU
;
i
++
)
{
if
(
ru
==
eNB
->
RU_list
[
i
])
{
if
((
proc
->
RU_mask
[
ru_proc
->
subframe_rx
]
&
(
1
<<
i
))
>
0
)
LOG_E
(
PHY
,
"eNB %d frame %d, subframe %d : previous information from RU %d (num_RU %d,mask %x) has not been served yet!
\n
"
,
eNB
->
Mod_id
,
proc
->
frame_rx
,
proc
->
subframe_rx
,
ru
->
idx
,
eNB
->
num_RU
,
proc
->
RU_mask
[
ru_proc
->
subframe_rx
]);
proc
->
RU_mask
[
ru_proc
->
subframe_rx
]
|=
(
1
<<
i
);
}
if
(
L1_proc
->
instance_cnt
==
0
)
LOG_E
(
PHY
,
"Frame %d, subframe %d: RXTX0 thread busy, dropping
\n
"
,
ru_proc
->
frame_rx
,
ru_proc
->
subframe_rx
);
}
if
(
L1_proc
->
instance_cnt
==
-
1
)
{
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_L1_PROC_IC
,
L1_proc
->
instance_cnt
);
++
L1_proc
->
instance_cnt
;
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_L1_PROC_IC
,
L1_proc
->
instance_cnt
);
// We have just received and processed the common part of a subframe, say n.
// TS_rx is the last received timestamp (start of 1st slot), TS_tx is the desired
if
(
proc
->
RU_mask
[
ru_proc
->
subframe_rx
]
!=
(
1
<<
eNB
->
num_RU
)
-
1
)
{
// not all RUs have provided their information so return
LOG_E
(
PHY
,
"Not all RUs have provided their info
\n
"
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
proc
->
mutex_RU
))
==
0
,
"mutex_unlock returns %d
\n
"
,
ret
);
return
(
0
);
}
else
{
// all RUs have provided their information so continue on and wakeup eNB processing
proc
->
RU_mask
[
ru_proc
->
subframe_rx
]
=
0
;
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
proc
->
mutex_RU
))
==
0
,
"mutex_unlock returns %d
\n
"
,
ret
);
}
LOG_D
(
PHY
,
"RU RX Waking up rxtx %d.%d (IC L1RX %d)
\n
"
,
ru_proc
->
frame_rx
,
ru_proc
->
subframe_rx
,
L1_proc
->
instance_cnt
);
while
(
L1_proc
->
instance_cnt
==
0
)
{
pthread_mutex_unlock
(
&
L1_proc
->
mutex
);
if
(
++
sleep_cnt
==
ru
->
wakeup_L1_sleep_cnt_max
)
{
LOG_E
(
PHY
,
"Frame %d, subframe %d: RXTX0 thread busy, dropping
\n
"
,
L1_proc
->
frame_rx
,
L1_proc
->
subframe_rx
);
return
(
-
1
);
}
usleep
(
ru
->
wakeup_L1_sleeptime
);
// wake up TX for subframe n+sl_ahead
// lock the TX mutex and make sure the thread is ready
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
L1_proc
->
mutex
))
==
0
,
"mutex_lock returns %d
\n
"
,
ret
);
if
(
pthread_mutex_timedlock
(
&
L1_proc
->
mutex
,
&
wait
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] ERROR pthread_mutex_lock for eNB RXTX thread %d (IC %d)
\n
"
,
L1_proc
->
subframe_rx
&
1
,
L1_proc
->
instance_cnt
);
exit_fun
(
"error locking mutex_rxtx"
);
return
(
-
1
);
}
if
(
L1_proc
->
instance_cnt
==
0
)
{
// L1_thread is busy so abort the subframe
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
L1_proc
->
mutex
))
==
0
,
"mutex_unlock return %d
\n
"
,
ret
);
LOG_W
(
PHY
,
"L1_thread isn't ready in %d.%d, aborting RX processing
\n
"
,
ru_proc
->
frame_rx
,
ru_proc
->
subframe_rx
);
return
(
0
);
}
++
L1_proc
->
instance_cnt
;
// We have just received and processed the common part of a subframe, say n.
...
...
@@ -642,38 +623,39 @@ int wakeup_rxtx(PHY_VARS_eNB *eNB,RU_t *ru) {
// The last (TS_rx mod samples_per_frame) was n*samples_per_tti,
// we want to generate subframe (n+sf_ahead), so TS_tx = TX_rx+sf_ahead*samples_per_tti,
// and proc->subframe_tx = proc->subframe_rx+sf_ahead
L1_proc
->
timestamp_tx
=
ru_proc
->
timestamp_rx
+
(
sf_ahead
*
fp
->
samples_per_tti
);
L1_proc
->
frame_rx
=
ru_proc
->
frame_rx
;
L1_proc
->
subframe_rx
=
ru_proc
->
subframe_rx
;
L1_proc
->
frame_tx
=
(
L1_proc
->
subframe_rx
>
(
9
-
sf_ahead
))
?
(
L1_proc
->
frame_rx
+
1
)
&
1023
:
L1_proc
->
frame_rx
;
L1_proc
->
subframe_tx
=
(
L1_proc
->
subframe_rx
+
sf_ahead
)
%
10
;
L1_proc
->
timestamp_tx
=
ru_proc
->
timestamp_rx
+
(
sf_ahead
*
fp
->
samples_per_tti
);
L1_proc
->
frame_rx
=
ru_proc
->
frame_rx
;
L1_proc
->
subframe_rx
=
ru_proc
->
subframe_rx
;
L1_proc
->
frame_tx
=
(
L1_proc
->
subframe_rx
>
(
9
-
sf_ahead
))
?
(
L1_proc
->
frame_rx
+
1
)
&
1023
:
L1_proc
->
frame_rx
;
L1_proc
->
subframe_tx
=
(
L1_proc
->
subframe_rx
+
sf_ahead
)
%
10
;
LOG_D
(
PHY
,
"wakeup_rxtx: L1_proc->subframe_rx %d, L1_proc->subframe_tx %d, RU %d
\n
"
,
L1_proc
->
subframe_rx
,
L1_proc
->
subframe_tx
,
ru
->
idx
);
LOG_D
(
PHY
,
"wakeup_rxtx: L1_proc->subframe_rx %d, L1_proc->subframe_tx %d, RU %d
\n
"
,
L1_proc
->
subframe_rx
,
L1_proc
->
subframe_tx
,
ru
->
idx
);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_FRAME_NUMBER_WAKEUP_RXTX_RX_RU
+
ru
->
idx
,
L1_proc
->
frame_rx
);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_SUBFRAME_NUMBER_WAKEUP_RXTX_RX_RU
+
ru
->
idx
,
L1_proc
->
subframe_rx
);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_FRAME_NUMBER_WAKEUP_RXTX_TX_RU
+
ru
->
idx
,
L1_proc
->
frame_tx
);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_SUBFRAME_NUMBER_WAKEUP_RXTX_TX_RU
+
ru
->
idx
,
L1_proc
->
subframe_tx
);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_FRAME_NUMBER_WAKEUP_RXTX_RX_RU
+
ru
->
idx
,
L1_proc
->
frame_rx
);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_SUBFRAME_NUMBER_WAKEUP_RXTX_RX_RU
+
ru
->
idx
,
L1_proc
->
subframe_rx
);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_FRAME_NUMBER_WAKEUP_RXTX_TX_RU
+
ru
->
idx
,
L1_proc
->
frame_tx
);
VCD_SIGNAL_DUMPER_DUMP_VARIABLE_BY_NAME
(
VCD_SIGNAL_DUMPER_VARIABLES_SUBFRAME_NUMBER_WAKEUP_RXTX_TX_RU
+
ru
->
idx
,
L1_proc
->
subframe_tx
);
// the thread can now be woken up
if
(
pthread_cond_signal
(
&
L1_proc
->
cond
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] ERROR pthread_cond_signal for eNB RXn-TXnp4 thread
\n
"
);
exit_fun
(
"ERROR pthread_cond_signal"
);
return
(
-
1
);
}
if
(
pthread_cond_signal
(
&
L1_proc
->
cond
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] ERROR pthread_cond_signal for eNB RXn-TXnp4 thread
\n
"
);
exit_fun
(
"ERROR pthread_cond_signal"
);
return
(
-
1
);
}
pthread_mutex_unlock
(
&
L1_proc
->
mutex
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
L1_proc
->
mutex
))
==
0
,
"mutex_unlock return %d
\n
"
,
ret
);
return
(
0
);
}
void
wakeup_prach_eNB
(
PHY_VARS_eNB
*
eNB
,
RU_t
*
ru
,
int
frame
,
int
subframe
)
{
L1_proc_t
*
proc
=
&
eNB
->
proc
;
LTE_DL_FRAME_PARMS
*
fp
=&
eNB
->
frame_parms
;
int
i
;
int
i
,
ret
;
if
(
ru
!=
NULL
)
{
pthread_mutex_lock
(
&
proc
->
mutex_RU_PRACH
);
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
proc
->
mutex_RU_PRACH
))
==
0
,
"mutex_lock return %d
\n
"
,
ret
);
for
(
i
=
0
;
i
<
eNB
->
num_RU
;
i
++
)
{
if
(
ru
==
eNB
->
RU_list
[
i
])
{
LOG_D
(
PHY
,
"frame %d, subframe %d: RU %d for eNB %d signals PRACH (mask %x, num_RU %d)
\n
"
,
frame
,
subframe
,
i
,
eNB
->
Mod_id
,
proc
->
RU_mask_prach
,
eNB
->
num_RU
);
...
...
@@ -687,11 +669,11 @@ void wakeup_prach_eNB(PHY_VARS_eNB *eNB,RU_t *ru,int frame,int subframe) {
}
if
(
proc
->
RU_mask_prach
!=
(
1
<<
eNB
->
num_RU
)
-
1
)
{
// not all RUs have provided their information so return
pthread_mutex_unlock
(
&
proc
->
mutex_RU_PRACH
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
proc
->
mutex_RU_PRACH
))
==
0
,
"mutex_unlock return %d
\n
"
,
ret
);
return
;
}
else
{
// all RUs have provided their information so continue on and wakeup eNB processing
proc
->
RU_mask_prach
=
0
;
pthread_mutex_unlock
(
&
proc
->
mutex_RU_PRACH
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
proc
->
mutex_RU_PRACH
))
==
0
,
"mutex_unlock return %d
\n
"
,
ret
);
}
}
...
...
@@ -705,11 +687,7 @@ void wakeup_prach_eNB(PHY_VARS_eNB *eNB,RU_t *ru,int frame,int subframe) {
}
// wake up thread for PRACH RX
if
(
pthread_mutex_lock
(
&
proc
->
mutex_prach
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] ERROR pthread_mutex_lock for eNB PRACH thread %d (IC %d)
\n
"
,
proc
->
thread_index
,
proc
->
instance_cnt_prach
);
exit_fun
(
"error locking mutex_prach"
);
return
;
}
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
proc
->
mutex_prach
))
==
0
,
"[eNB] ERROR pthread_mutex_lock for eNB PRACH thread %d (IC %d)
\n
"
,
proc
->
thread_index
,
proc
->
instance_cnt_prach
);
++
proc
->
instance_cnt_prach
;
// set timing for prach thread
...
...
@@ -723,7 +701,7 @@ void wakeup_prach_eNB(PHY_VARS_eNB *eNB,RU_t *ru,int frame,int subframe) {
return
;
}
pthread_mutex_unlock
(
&
proc
->
mutex_prach
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
proc
->
mutex_prach
))
==
0
,
"mutex_unlock return %d
\n
"
,
ret
);
}
}
...
...
@@ -731,10 +709,10 @@ void wakeup_prach_eNB(PHY_VARS_eNB *eNB,RU_t *ru,int frame,int subframe) {
void
wakeup_prach_eNB_br
(
PHY_VARS_eNB
*
eNB
,
RU_t
*
ru
,
int
frame
,
int
subframe
)
{
L1_proc_t
*
proc
=
&
eNB
->
proc
;
LTE_DL_FRAME_PARMS
*
fp
=&
eNB
->
frame_parms
;
int
i
;
int
i
,
ret
;
if
(
ru
!=
NULL
)
{
pthread_mutex_lock
(
&
proc
->
mutex_RU_PRACH_br
);
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
proc
->
mutex_RU_PRACH_br
))
==
0
,
"mutex_lock return %d
\n
"
,
ret
);
for
(
i
=
0
;
i
<
eNB
->
num_RU
;
i
++
)
{
if
(
ru
==
eNB
->
RU_list
[
i
])
{
...
...
@@ -749,11 +727,11 @@ void wakeup_prach_eNB_br(PHY_VARS_eNB *eNB,RU_t *ru,int frame,int subframe) {
}
if
(
proc
->
RU_mask_prach_br
!=
(
1
<<
eNB
->
num_RU
)
-
1
)
{
// not all RUs have provided their information so return
pthread_mutex_unlock
(
&
proc
->
mutex_RU_PRACH_br
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
proc
->
mutex_RU_PRACH_br
))
==
0
,
"mutex_unlock return %d
\n
"
,
ret
);
return
;
}
else
{
// all RUs have provided their information so continue on and wakeup eNB processing
proc
->
RU_mask_prach_br
=
0
;
pthread_mutex_unlock
(
&
proc
->
mutex_RU_PRACH_br
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
proc
->
mutex_RU_PRACH_br
))
==
0
,
"mutex_unlock return %d
\n
"
,
ret
);
}
}
...
...
@@ -767,11 +745,7 @@ void wakeup_prach_eNB_br(PHY_VARS_eNB *eNB,RU_t *ru,int frame,int subframe) {
}
// wake up thread for PRACH RX
if
(
pthread_mutex_lock
(
&
proc
->
mutex_prach_br
)
!=
0
)
{
LOG_E
(
PHY
,
"[eNB] ERROR pthread_mutex_lock for eNB PRACH thread %d (IC %d)
\n
"
,
proc
->
thread_index
,
proc
->
instance_cnt_prach_br
);
exit_fun
(
"error locking mutex_prach"
);
return
;
}
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
proc
->
mutex_prach_br
))
==
0
,
"[eNB] ERROR pthread_mutex_lock for eNB PRACH thread %d (IC %d)
\n
"
,
proc
->
thread_index
,
proc
->
instance_cnt_prach_br
);
++
proc
->
instance_cnt_prach_br
;
// set timing for prach thread
...
...
@@ -785,7 +759,7 @@ void wakeup_prach_eNB_br(PHY_VARS_eNB *eNB,RU_t *ru,int frame,int subframe) {
return
;
}
pthread_mutex_unlock
(
&
proc
->
mutex_prach_br
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
proc
->
mutex_prach_br
))
==
0
,
"mutex_unlock return %d
\n
"
,
ret
);
}
}
#endif
...
...
@@ -1029,6 +1003,7 @@ void kill_eNB_proc(int inst) {
PHY_VARS_eNB
*
eNB
;
L1_proc_t
*
proc
;
L1_rxtx_proc_t
*
L1_proc
,
*
L1_proc_tx
;
int
ret
;
for
(
int
CC_id
=
0
;
CC_id
<
MAX_NUM_CCs
;
CC_id
++
)
{
eNB
=
RC
.
eNB
[
inst
][
CC_id
];
...
...
@@ -1044,32 +1019,32 @@ void kill_eNB_proc(int inst) {
LOG_I
(
PHY
,
"Killing TX CC_id %d inst %d
\n
"
,
CC_id
,
inst
);
if
((
get_thread_parallel_conf
()
==
PARALLEL_RU_L1_SPLIT
||
get_thread_parallel_conf
()
==
PARALLEL_RU_L1_TRX_SPLIT
)
&&
NFAPI_MODE
!=
NFAPI_MODE_VNF
)
{
pthread_mutex_lock
(
&
L1_proc
->
mutex
);
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
L1_proc
->
mutex
))
==
0
,
"mutex_lock return %d
\n
"
,
ret
);
L1_proc
->
instance_cnt
=
0
;
pthread_cond_signal
(
&
L1_proc
->
cond
);
pthread_mutex_unlock
(
&
L1_proc
->
mutex
);
pthread_mutex_lock
(
&
L1_proc_tx
->
mutex
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
L1_proc
->
mutex
))
==
0
,
"mutex_unlock return %d
\n
"
,
ret
);
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
L1_proc_tx
->
mutex
))
==
0
,
"mutex_lock return %d
\n
"
,
ret
);
L1_proc_tx
->
instance_cnt
=
0
;
pthread_cond_signal
(
&
L1_proc_tx
->
cond
);
pthread_mutex_unlock
(
&
L1_proc_tx
->
mutex
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
L1_proc_tx
->
mutex
))
==
0
,
"muex_unlock return %d
\n
"
,
ret
);
}
pthread_mutex_lock
(
&
proc
->
mutex_prach
);
AssertFatal
((
ret
=
pthread_mutex_lock
(
&
proc
->
mutex_prach
))
==
0
,
"mutex_lock return %d
\n
"
,
ret
);
proc
->
instance_cnt_prach
=
0
;
pthread_cond_signal
(
&
proc
->
cond_prach
);
pthread_mutex_unlock
(
&
proc
->
mutex_prach
);
AssertFatal
((
ret
=
pthread_mutex_unlock
(
&
proc
->
mutex_prach
))
==
0
,
"mutex_unlock return %d
\n
"
,
ret
);
pthread_cond_signal
(
&
proc
->
cond_asynch_rxtx
);
pthread_cond_broadcast
(
&
sync_phy_proc
.
cond_phy_proc_tx
);
LOG_D
(
PHY
,
"joining pthread_prach
\n
"
);
pthread_join
(
proc
->
pthread_prach
,
(
void
**
)
&
status
);
LOG_I
(
PHY
,
"Destroying prach mutex/cond
\n
"
);
pthread_mutex_destroy
(
&
proc
->
mutex_prach
);
pthread_mutex_destroy
(
&
proc
->
mutex_prach
);
pthread_cond_destroy
(
&
proc
->
cond_prach
);
#if (LTE_RRC_VERSION >= MAKE_VERSION(14, 0, 0))
proc
->
instance_cnt_prach_br
=
0
;
pthread_cond_signal
(
&
proc
->
cond_prach_br
);
pthread_join
(
proc
->
pthread_prach_br
,
(
void
**
)
&
status
);
pthread_mutex_destroy
(
&
proc
->
mutex_prach_br
);
pthread_mutex_destroy
(
&
proc
->
mutex_prach_br
);
pthread_cond_destroy
(
&
proc
->
cond_prach_br
);
#endif
LOG_I
(
PHY
,
"Destroying UL_INFO mutex
\n
"
);
...
...
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