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wangjie
OpenXG-RAN
Commits
75778a76
Commit
75778a76
authored
Aug 12, 2019
by
Cedric Roux
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bugfix: do not use memory on the stack in do_SIB1, allocate it with malloc
parent
1927e343
Changes
1
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62 additions
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39 deletions
+62
-39
openair2/RRC/LTE/MESSAGES/asn1_msg.c
openair2/RRC/LTE/MESSAGES/asn1_msg.c
+62
-39
No files found.
openair2/RRC/LTE/MESSAGES/asn1_msg.c
View file @
75778a76
...
@@ -752,11 +752,16 @@ uint8_t do_SIB1(rrc_eNB_carrier_data_t *carrier,
...
@@ -752,11 +752,16 @@ uint8_t do_SIB1(rrc_eNB_carrier_data_t *carrier,
#else
#else
int
num_plmn
=
1
;
int
num_plmn
=
1
;
#endif
#endif
LTE_PLMN_IdentityInfo_t
PLMN_identity_info
[
num_plmn
];
LTE_PLMN_IdentityInfo_t
*
PLMN_identity_info
;
LTE_MCC_MNC_Digit_t
dummy_mcc
[
num_plmn
][
3
],
dummy_mnc
[
num_plmn
][
3
];
LTE_MCC_MNC_Digit_t
*
dummy_mcc_0
;
LTE_MCC_MNC_Digit_t
*
dummy_mcc_1
;
LTE_MCC_MNC_Digit_t
*
dummy_mcc_2
;
LTE_MCC_MNC_Digit_t
*
dummy_mnc_0
;
LTE_MCC_MNC_Digit_t
*
dummy_mnc_1
;
LTE_MCC_MNC_Digit_t
*
dummy_mnc_2
;
asn_enc_rval_t
enc_rval
;
asn_enc_rval_t
enc_rval
;
LTE_SchedulingInfo_t
schedulingInfo
;
LTE_SchedulingInfo_t
*
schedulingInfo
;
LTE_SIB_Type_t
sib_type
;
LTE_SIB_Type_t
*
sib_type
;
uint8_t
*
buffer
;
uint8_t
*
buffer
;
LTE_BCCH_DL_SCH_Message_t
*
bcch_message
;
LTE_BCCH_DL_SCH_Message_t
*
bcch_message
;
...
@@ -782,57 +787,75 @@ uint8_t do_SIB1(rrc_eNB_carrier_data_t *carrier,
...
@@ -782,57 +787,75 @@ uint8_t do_SIB1(rrc_eNB_carrier_data_t *carrier,
// memcpy(&bcch_message.message.choice.c1.choice.systemInformationBlockType1,sib1,sizeof(SystemInformationBlockType1_t));
// memcpy(&bcch_message.message.choice.c1.choice.systemInformationBlockType1,sib1,sizeof(SystemInformationBlockType1_t));
*
sib1
=
&
bcch_message
->
message
.
choice
.
c1
.
choice
.
systemInformationBlockType1
;
*
sib1
=
&
bcch_message
->
message
.
choice
.
c1
.
choice
.
systemInformationBlockType1
;
memset
(
PLMN_identity_info
,
0
,
num_plmn
*
sizeof
(
LTE_PLMN_IdentityInfo_t
));
PLMN_identity_info
=
CALLOC
(
1
,
sizeof
(
LTE_PLMN_IdentityInfo_t
)
*
num_plmn
);
memset
(
&
schedulingInfo
,
0
,
sizeof
(
LTE_SchedulingInfo_t
));
if
(
PLMN_identity_info
==
NULL
)
memset
(
&
sib_type
,
0
,
sizeof
(
LTE_SIB_Type_t
));
exit
(
1
);
schedulingInfo
=
CALLOC
(
1
,
sizeof
(
LTE_SchedulingInfo_t
));
if
(
schedulingInfo
==
NULL
)
exit
(
1
);
sib_type
=
CALLOC
(
1
,
sizeof
(
LTE_SIB_Type_t
));
if
(
sib_type
==
NULL
)
exit
(
1
);
/* as per TS 36.311, up to 6 PLMN_identity_info are allowed in list -> add one by one */
/* as per TS 36.311, up to 6 PLMN_identity_info are allowed in list -> add one by one */
for
(
int
i
=
0
;
i
<
configuration
->
num_plmn
;
++
i
)
{
for
(
int
i
=
0
;
i
<
num_plmn
;
++
i
)
{
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
=
CALLOC
(
1
,
sizeof
(
*
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
));
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
=
CALLOC
(
1
,
sizeof
(
*
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
));
memset
(
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
,
0
,
sizeof
(
*
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
));
memset
(
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
,
0
,
sizeof
(
*
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
));
asn_set_empty
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
->
list
);
//.size=0;
asn_set_empty
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
->
list
);
//.size=0;
dummy_mcc_0
=
CALLOC
(
1
,
sizeof
(
LTE_MCC_MNC_Digit_t
));
dummy_mcc_1
=
CALLOC
(
1
,
sizeof
(
LTE_MCC_MNC_Digit_t
));
dummy_mcc_2
=
CALLOC
(
1
,
sizeof
(
LTE_MCC_MNC_Digit_t
));
if
(
dummy_mcc_0
==
NULL
||
dummy_mcc_1
==
NULL
||
dummy_mcc_2
==
NULL
)
exit
(
1
);
#if defined(ENABLE_ITTI)
#if defined(ENABLE_ITTI)
dummy_mcc
[
i
][
0
]
=
(
configuration
->
mcc
[
i
]
/
100
)
%
10
;
*
dummy_mcc_0
=
(
configuration
->
mcc
[
i
]
/
100
)
%
10
;
dummy_mcc
[
i
][
1
]
=
(
configuration
->
mcc
[
i
]
/
10
)
%
10
;
*
dummy_mcc_1
=
(
configuration
->
mcc
[
i
]
/
10
)
%
10
;
dummy_mcc
[
i
][
2
]
=
(
configuration
->
mcc
[
i
]
/
1
)
%
10
;
*
dummy_mcc_2
=
(
configuration
->
mcc
[
i
]
/
1
)
%
10
;
#else
#else
dummy_mcc
[
i
][
0
]
=
0
;
*
dummy_mcc_0
=
0
;
dummy_mcc
[
i
][
1
]
=
0
;
*
dummy_mcc_1
=
0
;
dummy_mcc
[
i
][
2
]
=
1
;
*
dummy_mcc_2
=
1
;
#endif
#endif
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
->
list
,
&
dummy_mcc
[
i
][
0
]);
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
->
list
,
dummy_mcc_0
);
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
->
list
,
&
dummy_mcc
[
i
][
1
]);
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
->
list
,
dummy_mcc_1
);
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
->
list
,
&
dummy_mcc
[
i
][
2
]);
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mcc
->
list
,
dummy_mcc_2
);
PLMN_identity_info
[
i
].
plmn_Identity
.
mnc
.
list
.
size
=
0
;
PLMN_identity_info
[
i
].
plmn_Identity
.
mnc
.
list
.
size
=
0
;
PLMN_identity_info
[
i
].
plmn_Identity
.
mnc
.
list
.
count
=
0
;
PLMN_identity_info
[
i
].
plmn_Identity
.
mnc
.
list
.
count
=
0
;
#if defined(ENABLE_ITTI)
dummy_mnc_0
=
CALLOC
(
1
,
sizeof
(
LTE_MCC_MNC_Digit_t
));
dummy_mnc_1
=
CALLOC
(
1
,
sizeof
(
LTE_MCC_MNC_Digit_t
));
dummy_mnc_2
=
CALLOC
(
1
,
sizeof
(
LTE_MCC_MNC_Digit_t
));
if
(
dummy_mnc_0
==
NULL
||
dummy_mnc_1
==
NULL
||
dummy_mnc_2
==
NULL
)
exit
(
1
);
#if defined(ENABLE_ITTI)
if
(
configuration
->
mnc
[
i
]
>=
100
)
{
if
(
configuration
->
mnc
[
i
]
>=
100
)
{
dummy_mnc
[
i
][
0
]
=
(
configuration
->
mnc
[
i
]
/
100
)
%
10
;
*
dummy_mnc_0
=
(
configuration
->
mnc
[
i
]
/
100
)
%
10
;
dummy_mnc
[
i
][
1
]
=
(
configuration
->
mnc
[
i
]
/
10
)
%
10
;
*
dummy_mnc_1
=
(
configuration
->
mnc
[
i
]
/
10
)
%
10
;
dummy_mnc
[
i
][
2
]
=
(
configuration
->
mnc
[
i
]
/
1
)
%
10
;
*
dummy_mnc_2
=
(
configuration
->
mnc
[
i
]
/
1
)
%
10
;
}
else
{
}
else
{
if
(
configuration
->
mnc_digit_length
[
i
]
==
2
)
{
if
(
configuration
->
mnc_digit_length
[
i
]
==
2
)
{
dummy_mnc
[
i
][
0
]
=
(
configuration
->
mnc
[
i
]
/
10
)
%
10
;
*
dummy_mnc_0
=
(
configuration
->
mnc
[
i
]
/
10
)
%
10
;
dummy_mnc
[
i
][
1
]
=
(
configuration
->
mnc
[
i
]
/
1
)
%
10
;
*
dummy_mnc_1
=
(
configuration
->
mnc
[
i
]
/
1
)
%
10
;
dummy_mnc
[
i
][
2
]
=
0xf
;
*
dummy_mnc_2
=
0xf
;
}
else
{
}
else
{
dummy_mnc
[
i
][
0
]
=
(
configuration
->
mnc
[
i
]
/
100
)
%
100
;
*
dummy_mnc_0
=
(
configuration
->
mnc
[
i
]
/
100
)
%
100
;
dummy_mnc
[
i
][
1
]
=
(
configuration
->
mnc
[
i
]
/
10
)
%
10
;
*
dummy_mnc_1
=
(
configuration
->
mnc
[
i
]
/
10
)
%
10
;
dummy_mnc
[
i
][
2
]
=
(
configuration
->
mnc
[
i
]
/
1
)
%
10
;
*
dummy_mnc_2
=
(
configuration
->
mnc
[
i
]
/
1
)
%
10
;
}
}
}
}
#else
#else
dummy_mnc
[
i
][
0
]
=
0
;
*
dummy_mnc_0
=
0
;
dummy_mnc
[
i
][
1
]
=
1
;
*
dummy_mnc_1
=
1
;
dummy_mnc
[
i
][
2
]
=
0xf
;
*
dummy_mnc_2
=
0xf
;
#endif
#endif
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mnc
.
list
,
&
dummy_mnc
[
i
][
0
]
);
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mnc
.
list
,
dummy_mnc_0
);
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mnc
.
list
,
&
dummy_mnc
[
i
][
1
]
);
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mnc
.
list
,
dummy_mnc_1
);
if
(
dummy_mnc
[
i
][
2
]
!=
0xf
)
{
if
(
*
dummy_mnc_2
!=
0xf
)
{
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mnc
.
list
,
&
dummy_mnc
[
i
][
2
]);
ASN_SEQUENCE_ADD
(
&
PLMN_identity_info
[
i
].
plmn_Identity
.
mnc
.
list
,
dummy_mnc_2
);
}
else
{
free
(
dummy_mnc_2
);
}
}
//assign_enum(&PLMN_identity_info.cellReservedForOperatorUse,PLMN_IdentityInfo__cellReservedForOperatorUse_notReserved);
//assign_enum(&PLMN_identity_info.cellReservedForOperatorUse,PLMN_IdentityInfo__cellReservedForOperatorUse_notReserved);
...
@@ -881,11 +904,11 @@ uint8_t do_SIB1(rrc_eNB_carrier_data_t *carrier,
...
@@ -881,11 +904,11 @@ uint8_t do_SIB1(rrc_eNB_carrier_data_t *carrier,
#else
#else
7
;
7
;
#endif
#endif
schedulingInfo
.
si_Periodicity
=
LTE_SchedulingInfo__si_Periodicity_rf8
;
schedulingInfo
->
si_Periodicity
=
LTE_SchedulingInfo__si_Periodicity_rf8
;
// This is for SIB2/3
// This is for SIB2/3
sib_type
=
LTE_SIB_Type_sibType3
;
*
sib_type
=
LTE_SIB_Type_sibType3
;
ASN_SEQUENCE_ADD
(
&
schedulingInfo
.
sib_MappingInfo
.
list
,
&
sib_type
);
ASN_SEQUENCE_ADD
(
&
schedulingInfo
->
sib_MappingInfo
.
list
,
sib_type
);
ASN_SEQUENCE_ADD
(
&
(
*
sib1
)
->
schedulingInfoList
.
list
,
&
schedulingInfo
);
ASN_SEQUENCE_ADD
(
&
(
*
sib1
)
->
schedulingInfoList
.
list
,
schedulingInfo
);
// ASN_SEQUENCE_ADD(&schedulingInfo.sib_MappingInfo.list,NULL);
// ASN_SEQUENCE_ADD(&schedulingInfo.sib_MappingInfo.list,NULL);
#if defined(ENABLE_ITTI)
#if defined(ENABLE_ITTI)
...
...
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