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nexedi
linux
Commits
6ee903e0
Commit
6ee903e0
authored
May 13, 2003
by
David Mosberger
Browse files
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Plain Diff
ia64: Fix ptrace() RNaT accessors.
parent
d9e58912
Changes
1
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Showing
1 changed file
with
43 additions
and
33 deletions
+43
-33
arch/ia64/kernel/ptrace.c
arch/ia64/kernel/ptrace.c
+43
-33
No files found.
arch/ia64/kernel/ptrace.c
View file @
6ee903e0
...
...
@@ -200,14 +200,20 @@ ia64_decrement_ip (struct pt_regs *regs)
*/
static
unsigned
long
get_rnat
(
struct
pt_regs
*
pt
,
struct
switch_stack
*
sw
,
unsigned
long
*
krbs
,
unsigned
long
*
urnat_addr
)
unsigned
long
*
krbs
,
unsigned
long
*
urnat_addr
,
unsigned
long
*
urbs_end
)
{
unsigned
long
rnat0
=
0
,
rnat1
=
0
,
urnat
=
0
,
*
slot0_kaddr
,
umask
=
0
UL
;
unsigned
long
rnat0
=
0
,
rnat1
=
0
,
urnat
=
0
,
*
slot0_kaddr
,
umask
=
0
,
mask
,
m
;
unsigned
long
*
kbsp
,
*
ubspstore
,
*
rnat0_kaddr
,
*
rnat1_kaddr
,
shift
;
long
num_regs
;
long
num_regs
,
nbits
;
kbsp
=
(
unsigned
long
*
)
sw
->
ar_bspstore
;
ubspstore
=
(
unsigned
long
*
)
pt
->
ar_bspstore
;
if
(
urbs_end
<
urnat_addr
)
nbits
=
ia64_rse_num_regs
(
urnat_addr
-
63
,
urbs_end
);
else
nbits
=
63
;
mask
=
(
1UL
<<
nbits
)
-
1
;
/*
* First, figure out which bit number slot 0 in user-land maps to in the kernel
* rnat. Do this by figuring out how many register slots we're beyond the user's
...
...
@@ -221,20 +227,26 @@ get_rnat (struct pt_regs *pt, struct switch_stack *sw,
if
(
ubspstore
+
63
>
urnat_addr
)
{
/* some bits need to be merged in from pt->ar_rnat */
umask
=
((
1UL
<<
ia64_rse_slot_num
(
ubspstore
))
-
1
);
umask
=
((
1UL
<<
ia64_rse_slot_num
(
ubspstore
))
-
1
)
&
mask
;
urnat
=
(
pt
->
ar_rnat
&
umask
);
mask
&=
~
umask
;
if
(
!
mask
)
return
urnat
;
}
if
(
rnat0_kaddr
>=
kbsp
)
{
m
=
mask
<<
shift
;
if
(
rnat0_kaddr
>=
kbsp
)
rnat0
=
sw
->
ar_rnat
;
}
else
if
(
rnat0_kaddr
>
krbs
)
{
else
if
(
rnat0_kaddr
>
krbs
)
rnat0
=
*
rnat0_kaddr
;
}
if
(
rnat1_kaddr
>=
kbsp
)
{
urnat
|=
(
rnat0
&
m
)
>>
shift
;
m
=
mask
>>
(
63
-
shift
);
if
(
rnat1_kaddr
>=
kbsp
)
rnat1
=
sw
->
ar_rnat
;
}
else
if
(
rnat1_kaddr
>
krbs
)
{
else
if
(
rnat1_kaddr
>
krbs
)
rnat1
=
*
rnat1_kaddr
;
}
urnat
|=
((
rnat1
<<
(
63
-
shift
))
|
(
rnat0
>>
shift
))
&
~
umask
;
urnat
|=
(
rnat1
&
m
)
<<
(
63
-
shift
);
return
urnat
;
}
...
...
@@ -243,60 +255,58 @@ get_rnat (struct pt_regs *pt, struct switch_stack *sw,
*/
static
void
put_rnat
(
struct
pt_regs
*
pt
,
struct
switch_stack
*
sw
,
unsigned
long
*
krbs
,
unsigned
long
*
urnat_addr
,
unsigned
long
urnat
)
unsigned
long
*
krbs
,
unsigned
long
*
urnat_addr
,
unsigned
long
urnat
,
unsigned
long
*
urbs_end
)
{
unsigned
long
rnat0
=
0
,
rnat1
=
0
,
*
slot0_kaddr
,
umask
=
0
,
mask
,
m
;
unsigned
long
*
kbsp
,
*
ubspstore
,
*
rnat0_kaddr
,
*
rnat1_kaddr
,
shift
,
slot
,
ndirty
;
unsigned
long
*
kbsp
,
*
ubspstore
,
*
rnat0_kaddr
,
*
rnat1_kaddr
,
shift
;
long
num_regs
,
nbits
;
ndirty
=
ia64_rse_num_regs
(
krbs
,
krbs
+
(
pt
->
loadrs
>>
19
));
nbits
=
ndirty
%
63
;
kbsp
=
(
unsigned
long
*
)
sw
->
ar_bspstore
;
ubspstore
=
(
unsigned
long
*
)
pt
->
ar_bspstore
;
if
(
urbs_end
<
urnat_addr
)
nbits
=
ia64_rse_num_regs
(
urnat_addr
-
63
,
urbs_end
);
else
nbits
=
63
;
mask
=
(
1UL
<<
nbits
)
-
1
;
/*
* First, figure out which bit number slot 0 in user-land maps to in the kernel
* rnat. Do this by figuring out how many register slots we're beyond the user's
* backingstore and then computing the equivalent address in kernel space.
*/
num_regs
=
(
long
)
ia64_rse_num_regs
(
ubspstore
,
urnat_addr
+
1
);
num_regs
=
ia64_rse_num_regs
(
ubspstore
,
urnat_addr
+
1
);
slot0_kaddr
=
ia64_rse_skip_regs
(
krbs
,
num_regs
);
shift
=
ia64_rse_slot_num
(
slot0_kaddr
);
rnat1_kaddr
=
ia64_rse_rnat_addr
(
slot0_kaddr
);
rnat0_kaddr
=
rnat1_kaddr
-
64
;
printk
(
"%s: ubspstore=%p urnat_addr=%p
\n
"
,
__FUNCTION__
,
ubspstore
,
urnat_addr
);
if
(
ubspstore
+
63
>
urnat_addr
)
{
/* some bits need to be place in pt->ar_rnat: */
slot
=
ia64_rse_slot_num
(
ubspstore
);
umask
=
((
1UL
<<
slot
)
-
1
);
umask
=
((
1UL
<<
ia64_rse_slot_num
(
ubspstore
))
-
1
)
&
mask
;
pt
->
ar_rnat
=
(
pt
->
ar_rnat
&
~
umask
)
|
(
urnat
&
umask
);
nbits
-=
slot
;
if
(
nbits
<=
0
)
mask
&=
~
umask
;
if
(
!
mask
)
return
;
}
mask
=
(
1UL
<<
nbits
)
-
1
;
/*
* Note: Section 11.1 of the EAS guarantees that bit 63 of an
* rnat slot is ignored. so we don't have to clear it here.
*/
rnat0
=
(
urnat
<<
shift
);
m
=
mask
<<
shift
;
printk
(
"%s: rnat0=%016lx, m=%016lx, rnat0_kaddr=%p kbsp=%p
\n
"
,
__FUNCTION__
,
rnat0
,
m
,
rnat0_kaddr
,
kbsp
);
if
(
rnat0_kaddr
>=
kbsp
)
{
if
(
rnat0_kaddr
>=
kbsp
)
sw
->
ar_rnat
=
(
sw
->
ar_rnat
&
~
m
)
|
(
rnat0
&
m
);
}
else
if
(
rnat0_kaddr
>
krbs
)
{
else
if
(
rnat0_kaddr
>
krbs
)
*
rnat0_kaddr
=
((
*
rnat0_kaddr
&
~
m
)
|
(
rnat0
&
m
));
}
rnat1
=
(
urnat
>>
(
63
-
shift
));
m
=
mask
>>
(
63
-
shift
);
printk
(
"%s: rnat1=%016lx, m=%016lx, rnat1_kaddr=%p kbsp=%p
\n
"
,
__FUNCTION__
,
rnat1
,
m
,
rnat1_kaddr
,
kbsp
);
if
(
rnat1_kaddr
>=
kbsp
)
{
if
(
rnat1_kaddr
>=
kbsp
)
sw
->
ar_rnat
=
(
sw
->
ar_rnat
&
~
m
)
|
(
rnat1
&
m
);
}
else
if
(
rnat1_kaddr
>
krbs
)
{
else
if
(
rnat1_kaddr
>
krbs
)
*
rnat1_kaddr
=
((
*
rnat1_kaddr
&
~
m
)
|
(
rnat1
&
m
));
}
}
/*
...
...
@@ -329,7 +339,7 @@ ia64_peek (struct task_struct *child, struct switch_stack *child_stack, unsigned
* read the corresponding bits in the kernel RBS.
*/
rnat_addr
=
ia64_rse_rnat_addr
(
laddr
);
ret
=
get_rnat
(
child_regs
,
child_stack
,
krbs
,
rnat_addr
);
ret
=
get_rnat
(
child_regs
,
child_stack
,
krbs
,
rnat_addr
,
urbs_end
);
if
(
laddr
==
rnat_addr
)
{
/* return NaT collection word itself */
...
...
@@ -380,7 +390,7 @@ ia64_poke (struct task_struct *child, struct switch_stack *child_stack, unsigned
* => write the corresponding bits in the kernel RBS.
*/
if
(
ia64_rse_is_rnat_slot
(
laddr
))
put_rnat
(
child_regs
,
child_stack
,
krbs
,
laddr
,
val
);
put_rnat
(
child_regs
,
child_stack
,
krbs
,
laddr
,
val
,
urbs_end
);
else
{
if
(
laddr
<
urbs_end
)
{
regnum
=
ia64_rse_num_regs
(
bspstore
,
laddr
);
...
...
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