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nexedi
linux
Commits
7db29dde
Commit
7db29dde
authored
May 26, 2009
by
Michal Simek
Browse files
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Plain Diff
microblaze_mmu_v2: Update exception handling - MMU exception
Signed-off-by:
Michal Simek
<
monstr@monstr.eu
>
parent
ca54502b
Changes
1
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739 additions
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7 deletions
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arch/microblaze/kernel/hw_exception_handler.S
arch/microblaze/kernel/hw_exception_handler.S
+739
-7
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arch/microblaze/kernel/hw_exception_handler.S
View file @
7db29dde
...
@@ -53,6 +53,12 @@
...
@@ -53,6 +53,12 @@
*
-
Illegal
instruction
opcode
*
-
Illegal
instruction
opcode
*
-
Divide
-
by
-
zero
*
-
Divide
-
by
-
zero
*
*
*
-
Privileged
instruction
exception
(
MMU
)
*
-
Data
storage
exception
(
MMU
)
*
-
Instruction
storage
exception
(
MMU
)
*
-
Data
TLB
miss
exception
(
MMU
)
*
-
Instruction
TLB
miss
exception
(
MMU
)
*
*
Note
we
disable
interrupts
during
exception
handling
,
otherwise
we
will
*
Note
we
disable
interrupts
during
exception
handling
,
otherwise
we
will
*
possibly
get
multiple
re
-
entrancy
if
interrupt
handles
themselves
cause
*
possibly
get
multiple
re
-
entrancy
if
interrupt
handles
themselves
cause
*
exceptions
.
JW
*
exceptions
.
JW
...
@@ -71,9 +77,24 @@
...
@@ -71,9 +77,24 @@
#include <asm/asm-offsets.h>
#include <asm/asm-offsets.h>
/*
Helpful
Macros
*/
/*
Helpful
Macros
*/
#ifndef CONFIG_MMU
#define EX_HANDLER_STACK_SIZ (4*19)
#define EX_HANDLER_STACK_SIZ (4*19)
#endif
#define NUM_TO_REG(num) r ## num
#define NUM_TO_REG(num) r ## num
#ifdef CONFIG_MMU
/*
FIXME
you
can
't change first load of MSR because there is
*
hardcoded
jump
bri
4
*/
#define RESTORE_STATE \
lwi
r3
,
r1
,
PT_R3
; \
lwi
r4
,
r1
,
PT_R4
; \
lwi
r5
,
r1
,
PT_R5
; \
lwi
r6
,
r1
,
PT_R6
; \
lwi
r11
,
r1
,
PT_R11
; \
lwi
r31
,
r1
,
PT_R31
; \
lwi
r1
,
r0
,
TOPHYS
(
r0_ram
+
0
)
;
#endif /* CONFIG_MMU */
#define LWREG_NOP \
#define LWREG_NOP \
bri
ex_handler_unhandled
; \
bri
ex_handler_unhandled
; \
nop
;
nop
;
...
@@ -106,6 +127,54 @@
...
@@ -106,6 +127,54 @@
or
r3
,
r0
,
NUM_TO_REG
(
regnum
)
; \
or
r3
,
r0
,
NUM_TO_REG
(
regnum
)
; \
bri
ex_sw_tail
;
bri
ex_sw_tail
;
#ifdef CONFIG_MMU
#define R3_TO_LWREG_VM_V(regnum) \
brid
ex_lw_end_vm
; \
swi
r3
,
r7
,
4
*
regnum
;
#define R3_TO_LWREG_VM(regnum) \
brid
ex_lw_end_vm
; \
or
NUM_TO_REG
(
regnum
),
r0
,
r3
;
#define SWREG_TO_R3_VM_V(regnum) \
brid
ex_sw_tail_vm
; \
lwi
r3
,
r7
,
4
*
regnum
;
#define SWREG_TO_R3_VM(regnum) \
brid
ex_sw_tail_vm
; \
or
r3
,
r0
,
NUM_TO_REG
(
regnum
)
;
/
*
Shift
right
instruction
depending
on
available
configuration
*/
#if CONFIG_XILINX_MICROBLAZE0_USE_BARREL > 0
#define BSRLI(rD, rA, imm) \
bsrli
rD
,
rA
,
imm
#elif CONFIG_XILINX_MICROBLAZE0_USE_DIV > 0
#define BSRLI(rD, rA, imm) \
ori
rD
,
r0
,
(
1
<<
imm
)
; \
idivu
rD
,
rD
,
rA
#else
#define BSRLI(rD, rA, imm) BSRLI ## imm (rD, rA)
/
*
Only
the
used
shift
constants
defined
here
-
add
more
if
needed
*/
#define BSRLI2(rD, rA) \
srl
rD
,
rA
; /* << 1 */ \
srl
rD
,
rD
; /* << 2 */
#define BSRLI10(rD, rA) \
srl
rD
,
rA
; /* << 1 */ \
srl
rD
,
rD
; /* << 2 */ \
srl
rD
,
rD
; /* << 3 */ \
srl
rD
,
rD
; /* << 4 */ \
srl
rD
,
rD
; /* << 5 */ \
srl
rD
,
rD
; /* << 6 */ \
srl
rD
,
rD
; /* << 7 */ \
srl
rD
,
rD
; /* << 8 */ \
srl
rD
,
rD
; /* << 9 */ \
srl
rD
,
rD
/*
<<
10
*/
#define BSRLI20(rD, rA) \
BSRLI10
(
rD
,
rA
)
; \
BSRLI10
(
rD
,
rD
)
#endif
#endif /* CONFIG_MMU */
.
extern
other_exception_handler
/*
Defined
in
exception
.
c
*/
.
extern
other_exception_handler
/*
Defined
in
exception
.
c
*/
/*
/*
...
@@ -163,34 +232,119 @@
...
@@ -163,34 +232,119 @@
/*
wrappers
to
restore
state
before
coming
to
entry
.
S
*/
/*
wrappers
to
restore
state
before
coming
to
entry
.
S
*/
#ifdef CONFIG_MMU
.
section
.
rodata
.
align
4
_MB_HW_ExceptionVectorTable
:
/*
0
-
Undefined
*/
.
long
TOPHYS
(
ex_handler_unhandled
)
/*
1
-
Unaligned
data
access
exception
*/
.
long
TOPHYS
(
handle_unaligned_ex
)
/*
2
-
Illegal
op
-
code
exception
*/
.
long
TOPHYS
(
full_exception_trapw
)
/*
3
-
Instruction
bus
error
exception
*/
.
long
TOPHYS
(
full_exception_trapw
)
/*
4
-
Data
bus
error
exception
*/
.
long
TOPHYS
(
full_exception_trapw
)
/*
5
-
Divide
by
zero
exception
*/
.
long
TOPHYS
(
full_exception_trapw
)
/*
6
-
Floating
point
unit
exception
*/
.
long
TOPHYS
(
full_exception_trapw
)
/*
7
-
Privileged
instruction
exception
*/
.
long
TOPHYS
(
full_exception_trapw
)
/*
8
-
15
-
Undefined
*/
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
/*
16
-
Data
storage
exception
*/
.
long
TOPHYS
(
handle_data_storage_exception
)
/*
17
-
Instruction
storage
exception
*/
.
long
TOPHYS
(
handle_instruction_storage_exception
)
/*
18
-
Data
TLB
miss
exception
*/
.
long
TOPHYS
(
handle_data_tlb_miss_exception
)
/*
19
-
Instruction
TLB
miss
exception
*/
.
long
TOPHYS
(
handle_instruction_tlb_miss_exception
)
/*
20
-
31
-
Undefined
*/
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
.
long
TOPHYS
(
ex_handler_unhandled
)
#endif
.
global
_hw_exception_handler
.
global
_hw_exception_handler
.
section
.
text
.
section
.
text
.
align
4
.
align
4
.
ent
_hw_exception_handler
.
ent
_hw_exception_handler
_hw_exception_handler
:
_hw_exception_handler
:
#ifndef CONFIG_MMU
addik
r1
,
r1
,
-(
EX_HANDLER_STACK_SIZ
)
; /* Create stack frame */
addik
r1
,
r1
,
-(
EX_HANDLER_STACK_SIZ
)
; /* Create stack frame */
#else
swi
r1
,
r0
,
TOPHYS
(
r0_ram
+
0
)
; /* GET_SP */
/
*
Save
date
to
kernel
memory
.
Here
is
the
problem
*
when
you
came
from
user
space
*/
ori
r1
,
r0
,
TOPHYS
(
r0_ram
+
28
)
;
#endif
swi
r3
,
r1
,
PT_R3
swi
r3
,
r1
,
PT_R3
swi
r4
,
r1
,
PT_R4
swi
r4
,
r1
,
PT_R4
swi
r5
,
r1
,
PT_R5
swi
r5
,
r1
,
PT_R5
swi
r6
,
r1
,
PT_R6
swi
r6
,
r1
,
PT_R6
mfs
r5
,
rmsr
;
#ifdef CONFIG_MMU
nop
swi
r11
,
r1
,
PT_R11
swi
r5
,
r1
,
0
;
swi
r31
,
r1
,
PT_R31
mfs
r4
,
rbtr
/*
Save
BTR
before
jumping
to
handler
*/
lwi
r31
,
r0
,
TOPHYS
(
PER_CPU
(
CURRENT_SAVE
))
/*
get
saved
current
*/
nop
#endif
mfs
r3
,
resr
mfs
r3
,
resr
nop
nop
mfs
r4
,
rear
;
nop
#ifndef CONFIG_MMU
andi
r5
,
r3
,
0x1000
; /* Check ESR[DS] */
andi
r5
,
r3
,
0x1000
; /* Check ESR[DS] */
beqi
r5
,
not_in_delay_slot
; /* Branch if ESR[DS] not set */
beqi
r5
,
not_in_delay_slot
; /* Branch if ESR[DS] not set */
mfs
r17
,
rbtr
; /* ESR[DS] set - return address in BTR */
mfs
r17
,
rbtr
; /* ESR[DS] set - return address in BTR */
nop
nop
not_in_delay_slot
:
not_in_delay_slot
:
swi
r17
,
r1
,
PT_R17
swi
r17
,
r1
,
PT_R17
#endif
andi
r5
,
r3
,
0x1F
; /* Extract ESR[EXC] */
andi
r5
,
r3
,
0x1F
; /* Extract ESR[EXC] */
#ifdef CONFIG_MMU
/
*
Calculate
exception
vector
offset
=
r5
<<
2
*/
addk
r6
,
r5
,
r5
; /* << 1 */
addk
r6
,
r6
,
r6
; /* << 2 */
/*
counting
which
exception
happen
*/
lwi
r5
,
r0
,
0x200
+
TOPHYS
(
r0_ram
)
addi
r5
,
r5
,
1
swi
r5
,
r0
,
0x200
+
TOPHYS
(
r0_ram
)
lwi
r5
,
r6
,
0x200
+
TOPHYS
(
r0_ram
)
addi
r5
,
r5
,
1
swi
r5
,
r6
,
0x200
+
TOPHYS
(
r0_ram
)
/*
end
*/
/
*
Load
the
HW
Exception
vector
*/
lwi
r6
,
r6
,
TOPHYS
(
_MB_HW_ExceptionVectorTable
)
bra
r6
full_exception_trapw
:
RESTORE_STATE
bri
full_exception_trap
#else
/
*
Exceptions
enabled
here
.
This
will
allow
nested
exceptions
*/
/
*
Exceptions
enabled
here
.
This
will
allow
nested
exceptions
*/
mfs
r6
,
rmsr
;
mfs
r6
,
rmsr
;
nop
nop
...
@@ -254,6 +408,7 @@ handle_other_ex: /* Handle Other exceptions here */
...
@@ -254,6 +408,7 @@ handle_other_ex: /* Handle Other exceptions here */
lwi
r18
,
r1
,
PT_R18
lwi
r18
,
r1
,
PT_R18
bri
ex_handler_done
; /* Complete exception handling */
bri
ex_handler_done
; /* Complete exception handling */
#endif
/*
0
x01
-
Unaligned
data
access
exception
/*
0
x01
-
Unaligned
data
access
exception
*
This
occurs
when
a
word
access
is
not
aligned
on
a
word
boundary
,
*
This
occurs
when
a
word
access
is
not
aligned
on
a
word
boundary
,
...
@@ -265,11 +420,28 @@ handle_other_ex: /* Handle Other exceptions here */
...
@@ -265,11 +420,28 @@ handle_other_ex: /* Handle Other exceptions here */
handle_unaligned_ex
:
handle_unaligned_ex
:
/
*
Working
registers
already
saved
:
R3
,
R4
,
R5
,
R6
/
*
Working
registers
already
saved
:
R3
,
R4
,
R5
,
R6
*
R3
=
ESR
*
R3
=
ESR
*
R4
=
BT
R
*
R4
=
EA
R
*/
*/
mfs
r4
,
rear
;
#ifdef CONFIG_MMU
andi
r6
,
r3
,
0x1000
/*
Check
ESR
[
DS
]
*/
beqi
r6
,
_no_delayslot
/*
Branch
if
ESR
[
DS
]
not
set
*/
mfs
r17
,
rbtr
; /* ESR[DS] set - return address in BTR */
nop
nop
_no_delayslot
:
#endif
#ifdef CONFIG_MMU
/
*
Check
if
unaligned
address
is
last
on
a
4
k
page
*/
andi
r5
,
r4
,
0xffc
xori
r5
,
r5
,
0xffc
bnei
r5
,
_unaligned_ex2
_unaligned_ex1
:
RESTORE_STATE
;
/*
Another
page
must
be
accessed
or
physical
address
not
in
page
table
*/
bri
unaligned_data_trap
_unaligned_ex2
:
#endif
andi
r6
,
r3
,
0x3E0
; /* Mask and extract the register operand */
andi
r6
,
r3
,
0x3E0
; /* Mask and extract the register operand */
srl
r6
,
r6
; /* r6 >> 5 */
srl
r6
,
r6
; /* r6 >> 5 */
srl
r6
,
r6
;
srl
r6
,
r6
;
...
@@ -278,6 +450,45 @@ handle_unaligned_ex:
...
@@ -278,6 +450,45 @@ handle_unaligned_ex:
srl
r6
,
r6
;
srl
r6
,
r6
;
/
*
Store
the
register
operand
in
a
temporary
location
*/
/
*
Store
the
register
operand
in
a
temporary
location
*/
sbi
r6
,
r0
,
TOPHYS
(
ex_reg_op
)
;
sbi
r6
,
r0
,
TOPHYS
(
ex_reg_op
)
;
#ifdef CONFIG_MMU
/
*
Get
physical
address
*/
/
*
If
we
are
faulting
a
kernel
address
,
we
have
to
use
the
*
kernel
page
tables
.
*/
ori
r5
,
r0
,
CONFIG_KERNEL_START
cmpu
r5
,
r4
,
r5
bgti
r5
,
_unaligned_ex3
ori
r5
,
r0
,
swapper_pg_dir
bri
_unaligned_ex4
/
*
Get
the
PGD
for
the
current
thread
.
*/
_unaligned_ex3
:
/
*
user
thread
*/
addi
r5
,
CURRENT_TASK
,
TOPHYS
(
0
)
; /* get current task address */
lwi
r5
,
r5
,
TASK_THREAD
+
PGDIR
_unaligned_ex4
:
tophys
(
r5
,
r5
)
BSRLI
(
r6
,
r4
,20)
/*
Create
L1
(
pgdir
/
pmd
)
address
*/
andi
r6
,
r6
,
0xffc
/*
Assume
pgdir
aligned
on
4
K
boundary
,
no
need
for
"andi r5,r5,0xfffff003"
*/
or
r5
,
r5
,
r6
lwi
r6
,
r5
,
0
/*
Get
L1
entry
*/
andi
r5
,
r6
,
0xfffff000
/*
Extract
L2
(
pte
)
base
address
.
*/
beqi
r5
,
_unaligned_ex1
/*
Bail
if
no
table
*/
tophys
(
r5
,
r5
)
BSRLI
(
r6
,
r4
,10)
/*
Compute
PTE
address
*/
andi
r6
,
r6
,
0xffc
andi
r5
,
r5
,
0xfffff003
or
r5
,
r5
,
r6
lwi
r5
,
r5
,
0
/*
Get
Linux
PTE
*/
andi
r6
,
r5
,
_PAGE_PRESENT
beqi
r6
,
_unaligned_ex1
/*
Bail
if
no
page
*/
andi
r5
,
r5
,
0xfffff000
/*
Extract
RPN
*/
andi
r4
,
r4
,
0x00000fff
/*
Extract
offset
*/
or
r4
,
r4
,
r5
/*
Create
physical
address
*/
#endif /* CONFIG_MMU */
andi
r6
,
r3
,
0x400
; /* Extract ESR[S] */
andi
r6
,
r3
,
0x400
; /* Extract ESR[S] */
bnei
r6
,
ex_sw
;
bnei
r6
,
ex_sw
;
...
@@ -355,6 +566,7 @@ ex_shw:
...
@@ -355,6 +566,7 @@ ex_shw:
ex_sw_end
:
/
*
Exception
handling
of
store
word
,
ends
.
*/
ex_sw_end
:
/
*
Exception
handling
of
store
word
,
ends
.
*/
ex_handler_done
:
ex_handler_done
:
#ifndef CONFIG_MMU
lwi
r5
,
r1
,
0
/*
RMSR
*/
lwi
r5
,
r1
,
0
/*
RMSR
*/
mts
rmsr
,
r5
mts
rmsr
,
r5
nop
nop
...
@@ -366,13 +578,455 @@ ex_handler_done:
...
@@ -366,13 +578,455 @@ ex_handler_done:
rted
r17
,
0
rted
r17
,
0
addik
r1
,
r1
,
(
EX_HANDLER_STACK_SIZ
)
; /* Restore stack frame */
addik
r1
,
r1
,
(
EX_HANDLER_STACK_SIZ
)
; /* Restore stack frame */
#else
RESTORE_STATE
;
rted
r17
,
0
nop
#endif
#ifdef CONFIG_MMU
/
*
Exception
vector
entry
code
.
This
code
runs
with
address
translation
*
turned
off
(
i
.
e
.
using
physical
addresses
)
.
*/
/
*
Exception
vectors
.
*/
/
*
0x10
-
Data
Storage
Exception
*
This
happens
for
just
a
few
reasons
.
U0
set
(
but
we
don
't do that),
*
or
zone
protection
fault
(
user
violation
,
write
to
protected
page
)
.
*
If
this
is
just
an
update
of
modified
status
,
we
do
that
quickly
*
and
exit
.
Otherwise
,
we
call
heavyweight
functions
to
do
the
work
.
*/
handle_data_storage_exception
:
/
*
Working
registers
already
saved
:
R3
,
R4
,
R5
,
R6
*
R3
=
ESR
*/
mfs
r11
,
rpid
nop
bri
4
mfs
r3
,
rear
/*
Get
faulting
address
*/
nop
/
*
If
we
are
faulting
a
kernel
address
,
we
have
to
use
the
*
kernel
page
tables
.
*/
ori
r4
,
r0
,
CONFIG_KERNEL_START
cmpu
r4
,
r3
,
r4
bgti
r4
,
ex3
/
*
First
,
check
if
it
was
a
zone
fault
(
which
means
a
user
*
tried
to
access
a
kernel
or
read
-
protected
page
-
always
*
a
SEGV
)
.
All
other
faults
here
must
be
stores
,
so
no
*
need
to
check
ESR_S
as
well
.
*/
mfs
r4
,
resr
nop
andi
r4
,
r4
,
0x800
/*
ESR_Z
-
zone
protection
*/
bnei
r4
,
ex2
ori
r4
,
r0
,
swapper_pg_dir
mts
rpid
,
r0
/*
TLB
will
have
0
TID
*/
nop
bri
ex4
/
*
Get
the
PGD
for
the
current
thread
.
*/
ex3
:
/
*
First
,
check
if
it
was
a
zone
fault
(
which
means
a
user
*
tried
to
access
a
kernel
or
read
-
protected
page
-
always
*
a
SEGV
)
.
All
other
faults
here
must
be
stores
,
so
no
*
need
to
check
ESR_S
as
well
.
*/
mfs
r4
,
resr
nop
andi
r4
,
r4
,
0x800
/*
ESR_Z
*/
bnei
r4
,
ex2
/
*
get
current
task
address
*/
addi
r4
,
CURRENT_TASK
,
TOPHYS
(
0
)
;
lwi
r4
,
r4
,
TASK_THREAD
+
PGDIR
ex4
:
tophys
(
r4
,
r4
)
BSRLI
(
r5
,
r3
,20)
/*
Create
L1
(
pgdir
/
pmd
)
address
*/
andi
r5
,
r5
,
0xffc
/*
Assume
pgdir
aligned
on
4
K
boundary
,
no
need
for
"andi r4,r4,0xfffff003"
*/
or
r4
,
r4
,
r5
lwi
r4
,
r4
,
0
/*
Get
L1
entry
*/
andi
r5
,
r4
,
0xfffff000
/*
Extract
L2
(
pte
)
base
address
*/
beqi
r5
,
ex2
/*
Bail
if
no
table
*/
tophys
(
r5
,
r5
)
BSRLI
(
r6
,
r3
,10)
/*
Compute
PTE
address
*/
andi
r6
,
r6
,
0xffc
andi
r5
,
r5
,
0xfffff003
or
r5
,
r5
,
r6
lwi
r4
,
r5
,
0
/*
Get
Linux
PTE
*/
andi
r6
,
r4
,
_PAGE_RW
/*
Is
it
writeable
?
*/
beqi
r6
,
ex2
/*
Bail
if
not
*/
/
*
Update
'changed'
*/
ori
r4
,
r4
,
_PAGE_DIRTY|_PAGE_ACCESSED|_PAGE_HWWRITE
swi
r4
,
r5
,
0
/*
Update
Linux
page
table
*/
/
*
Most
of
the
Linux
PTE
is
ready
to
load
into
the
TLB
LO
.
*
We
set
ZSEL
,
where
only
the
LS
-
bit
determines
user
access
.
*
We
set
execute
,
because
we
don
't have the granularity to
*
properly
set
this
at
the
page
level
(
Linux
problem
)
.
*
If
shared
is
set
,
we
cause
a
zero
PID
->
TID
load
.
*
Many
of
these
bits
are
software
only
.
Bits
we
don
't set
*
here
we
(
properly
should
)
assume
have
the
appropriate
value
.
*/
andni
r4
,
r4
,
0x0ce2
/*
Make
sure
20
,
21
are
zero
*/
ori
r4
,
r4
,
_PAGE_HWEXEC
/*
make
it
executable
*/
/
*
find
the
TLB
index
that
caused
the
fault
.
It
has
to
be
here
*/
mts
rtlbsx
,
r3
nop
mfs
r5
,
rtlbx
/*
DEBUG
:
TBD
*/
nop
mts
rtlblo
,
r4
/*
Load
TLB
LO
*/
nop
/
*
Will
sync
shadow
TLBs
*/
/
*
Done
...
restore
registers
and
get
out
of
here
.
*/
mts
rpid
,
r11
nop
bri
4
RESTORE_STATE
;
rted
r17
,
0
nop
ex2
:
/
*
The
bailout
.
Restore
registers
to
pre
-
exception
conditions
*
and
call
the
heavyweights
to
help
us
out
.
*/
mts
rpid
,
r11
nop
bri
4
RESTORE_STATE
;
bri
page_fault_data_trap
/
*
0x11
-
Instruction
Storage
Exception
*
This
is
caused
by
a
fetch
from
non
-
execute
or
guarded
pages
.
*/
handle_instruction_storage_exception
:
/
*
Working
registers
already
saved
:
R3
,
R4
,
R5
,
R6
*
R3
=
ESR
*/
mfs
r3
,
rear
/*
Get
faulting
address
*/
nop
RESTORE_STATE
;
bri
page_fault_instr_trap
/
*
0x12
-
Data
TLB
Miss
Exception
*
As
the
name
implies
,
translation
is
not
in
the
MMU
,
so
search
the
*
page
tables
and
fix
it
.
The
only
purpose
of
this
function
is
to
*
load
TLB
entries
from
the
page
table
if
they
exist
.
*/
handle_data_tlb_miss_exception
:
/
*
Working
registers
already
saved
:
R3
,
R4
,
R5
,
R6
*
R3
=
ESR
*/
mfs
r11
,
rpid
nop
bri
4
mfs
r3
,
rear
/*
Get
faulting
address
*/
nop
/
*
If
we
are
faulting
a
kernel
address
,
we
have
to
use
the
*
kernel
page
tables
.
*/
ori
r4
,
r0
,
CONFIG_KERNEL_START
cmpu
r4
,
r3
,
r4
bgti
r4
,
ex5
ori
r4
,
r0
,
swapper_pg_dir
mts
rpid
,
r0
/*
TLB
will
have
0
TID
*/
nop
bri
ex6
/
*
Get
the
PGD
for
the
current
thread
.
*/
ex5
:
/
*
get
current
task
address
*/
addi
r4
,
CURRENT_TASK
,
TOPHYS
(
0
)
;
lwi
r4
,
r4
,
TASK_THREAD
+
PGDIR
ex6
:
tophys
(
r4
,
r4
)
BSRLI
(
r5
,
r3
,20)
/*
Create
L1
(
pgdir
/
pmd
)
address
*/
andi
r5
,
r5
,
0xffc
/*
Assume
pgdir
aligned
on
4
K
boundary
,
no
need
for
"andi r4,r4,0xfffff003"
*/
or
r4
,
r4
,
r5
lwi
r4
,
r4
,
0
/*
Get
L1
entry
*/
andi
r5
,
r4
,
0xfffff000
/*
Extract
L2
(
pte
)
base
address
*/
beqi
r5
,
ex7
/*
Bail
if
no
table
*/
tophys
(
r5
,
r5
)
BSRLI
(
r6
,
r3
,10)
/*
Compute
PTE
address
*/
andi
r6
,
r6
,
0xffc
andi
r5
,
r5
,
0xfffff003
or
r5
,
r5
,
r6
lwi
r4
,
r5
,
0
/*
Get
Linux
PTE
*/
andi
r6
,
r4
,
_PAGE_PRESENT
beqi
r6
,
ex7
ori
r4
,
r4
,
_PAGE_ACCESSED
swi
r4
,
r5
,
0
/
*
Most
of
the
Linux
PTE
is
ready
to
load
into
the
TLB
LO
.
*
We
set
ZSEL
,
where
only
the
LS
-
bit
determines
user
access
.
*
We
set
execute
,
because
we
don
't have the granularity to
*
properly
set
this
at
the
page
level
(
Linux
problem
)
.
*
If
shared
is
set
,
we
cause
a
zero
PID
->
TID
load
.
*
Many
of
these
bits
are
software
only
.
Bits
we
don
't set
*
here
we
(
properly
should
)
assume
have
the
appropriate
value
.
*/
andni
r4
,
r4
,
0x0ce2
/*
Make
sure
20
,
21
are
zero
*/
bri
finish_tlb_load
ex7
:
/
*
The
bailout
.
Restore
registers
to
pre
-
exception
conditions
*
and
call
the
heavyweights
to
help
us
out
.
*/
mts
rpid
,
r11
nop
bri
4
RESTORE_STATE
;
bri
page_fault_data_trap
/
*
0x13
-
Instruction
TLB
Miss
Exception
*
Nearly
the
same
as
above
,
except
we
get
our
information
from
*
different
registers
and
bailout
to
a
different
point
.
*/
handle_instruction_tlb_miss_exception
:
/
*
Working
registers
already
saved
:
R3
,
R4
,
R5
,
R6
*
R3
=
ESR
*/
mfs
r11
,
rpid
nop
bri
4
mfs
r3
,
rear
/*
Get
faulting
address
*/
nop
/
*
If
we
are
faulting
a
kernel
address
,
we
have
to
use
the
*
kernel
page
tables
.
*/
ori
r4
,
r0
,
CONFIG_KERNEL_START
cmpu
r4
,
r3
,
r4
bgti
r4
,
ex8
ori
r4
,
r0
,
swapper_pg_dir
mts
rpid
,
r0
/*
TLB
will
have
0
TID
*/
nop
bri
ex9
/
*
Get
the
PGD
for
the
current
thread
.
*/
ex8
:
/
*
get
current
task
address
*/
addi
r4
,
CURRENT_TASK
,
TOPHYS
(
0
)
;
lwi
r4
,
r4
,
TASK_THREAD
+
PGDIR
ex9
:
tophys
(
r4
,
r4
)
BSRLI
(
r5
,
r3
,20)
/*
Create
L1
(
pgdir
/
pmd
)
address
*/
andi
r5
,
r5
,
0xffc
/*
Assume
pgdir
aligned
on
4
K
boundary
,
no
need
for
"andi r4,r4,0xfffff003"
*/
or
r4
,
r4
,
r5
lwi
r4
,
r4
,
0
/*
Get
L1
entry
*/
andi
r5
,
r4
,
0xfffff000
/*
Extract
L2
(
pte
)
base
address
*/
beqi
r5
,
ex10
/*
Bail
if
no
table
*/
tophys
(
r5
,
r5
)
BSRLI
(
r6
,
r3
,10)
/*
Compute
PTE
address
*/
andi
r6
,
r6
,
0xffc
andi
r5
,
r5
,
0xfffff003
or
r5
,
r5
,
r6
lwi
r4
,
r5
,
0
/*
Get
Linux
PTE
*/
andi
r6
,
r4
,
_PAGE_PRESENT
beqi
r6
,
ex7
ori
r4
,
r4
,
_PAGE_ACCESSED
swi
r4
,
r5
,
0
/
*
Most
of
the
Linux
PTE
is
ready
to
load
into
the
TLB
LO
.
*
We
set
ZSEL
,
where
only
the
LS
-
bit
determines
user
access
.
*
We
set
execute
,
because
we
don
't have the granularity to
*
properly
set
this
at
the
page
level
(
Linux
problem
)
.
*
If
shared
is
set
,
we
cause
a
zero
PID
->
TID
load
.
*
Many
of
these
bits
are
software
only
.
Bits
we
don
't set
*
here
we
(
properly
should
)
assume
have
the
appropriate
value
.
*/
andni
r4
,
r4
,
0x0ce2
/*
Make
sure
20
,
21
are
zero
*/
bri
finish_tlb_load
ex10
:
/
*
The
bailout
.
Restore
registers
to
pre
-
exception
conditions
*
and
call
the
heavyweights
to
help
us
out
.
*/
mts
rpid
,
r11
nop
bri
4
RESTORE_STATE
;
bri
page_fault_instr_trap
/*
Both
the
instruction
and
data
TLB
miss
get
to
this
point
to
load
the
TLB
.
*
r3
-
EA
of
fault
*
r4
-
TLB
LO
(
info
from
Linux
PTE
)
*
r5
,
r6
-
available
to
use
*
PID
-
loaded
with
proper
value
when
we
get
here
*
Upon
exit
,
we
reload
everything
and
RFI
.
*
A
common
place
to
load
the
TLB
.
*/
tlb_index
:
.
long
1
/*
MS
:
storing
last
used
tlb
index
*/
finish_tlb_load
:
/
*
MS
:
load
the
last
used
TLB
index
.
*/
lwi
r5
,
r0
,
TOPHYS
(
tlb_index
)
addik
r5
,
r5
,
1
/*
MS
:
inc
tlb_index
->
use
next
one
*/
/*
MS
:
FIXME
this
is
potential
fault
,
because
this
is
mask
not
count
*/
andi
r5
,
r5
,
(
MICROBLAZE_TLB_SIZE
-
1
)
ori
r6
,
r0
,
1
cmp
r31
,
r5
,
r6
blti
r31
,
sem
addik
r5
,
r6
,
1
sem
:
/
*
MS
:
save
back
current
TLB
index
*/
swi
r5
,
r0
,
TOPHYS
(
tlb_index
)
ori
r4
,
r4
,
_PAGE_HWEXEC
/*
make
it
executable
*/
mts
rtlbx
,
r5
/*
MS
:
save
current
TLB
*/
nop
mts
rtlblo
,
r4
/*
MS
:
save
to
TLB
LO
*/
nop
/
*
Create
EPN
.
This
is
the
faulting
address
plus
a
static
*
set
of
bits
.
These
are
size
,
valid
,
E
,
U0
,
and
ensure
*
bits
20
and
21
are
zero
.
*/
andi
r3
,
r3
,
0xfffff000
ori
r3
,
r3
,
0x0c0
mts
rtlbhi
,
r3
/*
Load
TLB
HI
*/
nop
/
*
Done
...
restore
registers
and
get
out
of
here
.
*/
ex12
:
mts
rpid
,
r11
nop
bri
4
RESTORE_STATE
;
rted
r17
,
0
nop
/
*
extern
void
giveup_fpu
(
struct
task_struct
*
prev
)
*
*
The
MicroBlaze
processor
may
have
an
FPU
,
so
this
should
not
just
*
return
:
TBD
.
*/
.
globl
giveup_fpu
;
.
align
4
;
giveup_fpu
:
bralid
r15
,
0
/*
TBD
*/
nop
/
*
At
present
,
this
routine
just
hangs
.
-
extern
void
abort
(
void
)
*/
.
globl
abort
;
.
align
4
;
abort
:
br
r0
.
globl
set_context
;
.
align
4
;
set_context
:
mts
rpid
,
r5
/*
Shadow
TLBs
are
automatically
*/
nop
bri
4
/*
flushed
by
changing
PID
*/
rtsd
r15
,
8
nop
#endif
.
end
_hw_exception_handler
.
end
_hw_exception_handler
#ifdef CONFIG_MMU
/*
Unaligned
data
access
exception
last
on
a
4
k
page
for
MMU
.
*
When
this
is
called
,
we
are
in
virtual
mode
with
exceptions
enabled
*
and
registers
1
-
13
,
15
,
17
,
18
saved
.
*
*
R3
=
ESR
*
R4
=
EAR
*
R7
=
pointer
to
saved
registers
(
struct
pt_regs
*
regs
)
*
*
This
handler
perform
the
access
,
and
returns
via
ret_from_exc
.
*/
.
global
_unaligned_data_exception
.
ent
_unaligned_data_exception
_unaligned_data_exception
:
andi
r8
,
r3
,
0x3E0
; /* Mask and extract the register operand */
BSRLI
(
r8
,
r8
,2)
; /* r8 >> 2 = register operand * 8 */
andi
r6
,
r3
,
0x400
; /* Extract ESR[S] */
bneid
r6
,
ex_sw_vm
;
andi
r6
,
r3
,
0x800
; /* Extract ESR[W] - delay slot */
ex_lw_vm
:
beqid
r6
,
ex_lhw_vm
;
lbui
r5
,
r4
,
0
; /* Exception address in r4 - delay slot */
/*
Load
a
word
,
byte
-
by
-
byte
from
destination
address
and
save
it
in
tmp
space
*/
la
r6
,
r0
,
ex_tmp_data_loc_0
;
sbi
r5
,
r6
,
0
;
lbui
r5
,
r4
,
1
;
sbi
r5
,
r6
,
1
;
lbui
r5
,
r4
,
2
;
sbi
r5
,
r6
,
2
;
lbui
r5
,
r4
,
3
;
sbi
r5
,
r6
,
3
;
brid
ex_lw_tail_vm
;
/*
Get
the
destination
register
value
into
r3
-
delay
slot
*/
lwi
r3
,
r6
,
0
;
ex_lhw_vm
:
/
*
Load
a
half
-
word
,
byte
-
by
-
byte
from
destination
address
and
*
save
it
in
tmp
space
*/
la
r6
,
r0
,
ex_tmp_data_loc_0
;
sbi
r5
,
r6
,
0
;
lbui
r5
,
r4
,
1
;
sbi
r5
,
r6
,
1
;
lhui
r3
,
r6
,
0
; /* Get the destination register value into r3 */
ex_lw_tail_vm
:
/
*
Form
load_word
jump
table
offset
(
lw_table_vm
+
(
8
*
regnum
))
*/
addik
r5
,
r8
,
lw_table_vm
;
bra
r5
;
ex_lw_end_vm
:
/
*
Exception
handling
of
load
word
,
ends
*/
brai
ret_from_exc
;
ex_sw_vm
:
/*
Form
store_word
jump
table
offset
(
sw_table_vm
+
(
8
*
regnum
))
*/
addik
r5
,
r8
,
sw_table_vm
;
bra
r5
;
ex_sw_tail_vm
:
la
r5
,
r0
,
ex_tmp_data_loc_0
;
beqid
r6
,
ex_shw_vm
;
swi
r3
,
r5
,
0
; /* Get the word - delay slot */
/
*
Store
the
word
,
byte
-
by
-
byte
into
destination
address
*/
lbui
r3
,
r5
,
0
;
sbi
r3
,
r4
,
0
;
lbui
r3
,
r5
,
1
;
sbi
r3
,
r4
,
1
;
lbui
r3
,
r5
,
2
;
sbi
r3
,
r4
,
2
;
lbui
r3
,
r5
,
3
;
brid
ret_from_exc
;
sbi
r3
,
r4
,
3
; /* Delay slot */
ex_shw_vm
:
/
*
Store
the
lower
half
-
word
,
byte
-
by
-
byte
into
destination
address
*/
lbui
r3
,
r5
,
2
;
sbi
r3
,
r4
,
0
;
lbui
r3
,
r5
,
3
;
brid
ret_from_exc
;
sbi
r3
,
r4
,
1
; /* Delay slot */
ex_sw_end_vm
:
/
*
Exception
handling
of
store
word
,
ends
.
*/
.
end
_unaligned_data_exception
#endif /* CONFIG_MMU */
ex_handler_unhandled
:
ex_handler_unhandled
:
/*
FIXME
add
handle
function
for
unhandled
exception
-
dump
register
*/
/*
FIXME
add
handle
function
for
unhandled
exception
-
dump
register
*/
bri
0
bri
0
/*
*
hw_exception_handler
Jump
Table
*
-
Contains
code
snippets
for
each
register
that
caused
the
unalign
exception
*
-
Hence
exception
handler
is
NOT
self
-
modifying
*
-
Separate
table
for
load
exceptions
and
store
exceptions
.
*
-
Each
table
is
of
size
:
(
8
*
32
)
=
256
bytes
*/
.
section
.
text
.
section
.
text
.
align
4
.
align
4
lw_table
:
lw_table
:
...
@@ -407,7 +1061,11 @@ lw_r27: R3_TO_LWREG (27);
...
@@ -407,7 +1061,11 @@ lw_r27: R3_TO_LWREG (27);
lw_r28
:
R3_TO_LWREG
(
28
)
;
lw_r28
:
R3_TO_LWREG
(
28
)
;
lw_r29
:
R3_TO_LWREG
(
29
)
;
lw_r29
:
R3_TO_LWREG
(
29
)
;
lw_r30
:
R3_TO_LWREG
(
30
)
;
lw_r30
:
R3_TO_LWREG
(
30
)
;
#ifdef CONFIG_MMU
lw_r31
:
R3_TO_LWREG_V
(
31
)
;
#else
lw_r31
:
R3_TO_LWREG
(
31
)
;
lw_r31
:
R3_TO_LWREG
(
31
)
;
#endif
sw_table
:
sw_table
:
sw_r0
:
SWREG_TO_R3
(
0
)
;
sw_r0
:
SWREG_TO_R3
(
0
)
;
...
@@ -441,7 +1099,81 @@ sw_r27: SWREG_TO_R3 (27);
...
@@ -441,7 +1099,81 @@ sw_r27: SWREG_TO_R3 (27);
sw_r28
:
SWREG_TO_R3
(
28
)
;
sw_r28
:
SWREG_TO_R3
(
28
)
;
sw_r29
:
SWREG_TO_R3
(
29
)
;
sw_r29
:
SWREG_TO_R3
(
29
)
;
sw_r30
:
SWREG_TO_R3
(
30
)
;
sw_r30
:
SWREG_TO_R3
(
30
)
;
#ifdef CONFIG_MMU
sw_r31
:
SWREG_TO_R3_V
(
31
)
;
#else
sw_r31
:
SWREG_TO_R3
(
31
)
;
sw_r31
:
SWREG_TO_R3
(
31
)
;
#endif
#ifdef CONFIG_MMU
lw_table_vm
:
lw_r0_vm
:
R3_TO_LWREG_VM
(
0
)
;
lw_r1_vm
:
R3_TO_LWREG_VM_V
(
1
)
;
lw_r2_vm
:
R3_TO_LWREG_VM_V
(
2
)
;
lw_r3_vm
:
R3_TO_LWREG_VM_V
(
3
)
;
lw_r4_vm
:
R3_TO_LWREG_VM_V
(
4
)
;
lw_r5_vm
:
R3_TO_LWREG_VM_V
(
5
)
;
lw_r6_vm
:
R3_TO_LWREG_VM_V
(
6
)
;
lw_r7_vm
:
R3_TO_LWREG_VM_V
(
7
)
;
lw_r8_vm
:
R3_TO_LWREG_VM_V
(
8
)
;
lw_r9_vm
:
R3_TO_LWREG_VM_V
(
9
)
;
lw_r10_vm
:
R3_TO_LWREG_VM_V
(
10
)
;
lw_r11_vm
:
R3_TO_LWREG_VM_V
(
11
)
;
lw_r12_vm
:
R3_TO_LWREG_VM_V
(
12
)
;
lw_r13_vm
:
R3_TO_LWREG_VM_V
(
13
)
;
lw_r14_vm
:
R3_TO_LWREG_VM
(
14
)
;
lw_r15_vm
:
R3_TO_LWREG_VM_V
(
15
)
;
lw_r16_vm
:
R3_TO_LWREG_VM
(
16
)
;
lw_r17_vm
:
R3_TO_LWREG_VM_V
(
17
)
;
lw_r18_vm
:
R3_TO_LWREG_VM_V
(
18
)
;
lw_r19_vm
:
R3_TO_LWREG_VM
(
19
)
;
lw_r20_vm
:
R3_TO_LWREG_VM
(
20
)
;
lw_r21_vm
:
R3_TO_LWREG_VM
(
21
)
;
lw_r22_vm
:
R3_TO_LWREG_VM
(
22
)
;
lw_r23_vm
:
R3_TO_LWREG_VM
(
23
)
;
lw_r24_vm
:
R3_TO_LWREG_VM
(
24
)
;
lw_r25_vm
:
R3_TO_LWREG_VM
(
25
)
;
lw_r26_vm
:
R3_TO_LWREG_VM
(
26
)
;
lw_r27_vm
:
R3_TO_LWREG_VM
(
27
)
;
lw_r28_vm
:
R3_TO_LWREG_VM
(
28
)
;
lw_r29_vm
:
R3_TO_LWREG_VM
(
29
)
;
lw_r30_vm
:
R3_TO_LWREG_VM
(
30
)
;
lw_r31_vm
:
R3_TO_LWREG_VM_V
(
31
)
;
sw_table_vm
:
sw_r0_vm
:
SWREG_TO_R3_VM
(
0
)
;
sw_r1_vm
:
SWREG_TO_R3_VM_V
(
1
)
;
sw_r2_vm
:
SWREG_TO_R3_VM_V
(
2
)
;
sw_r3_vm
:
SWREG_TO_R3_VM_V
(
3
)
;
sw_r4_vm
:
SWREG_TO_R3_VM_V
(
4
)
;
sw_r5_vm
:
SWREG_TO_R3_VM_V
(
5
)
;
sw_r6_vm
:
SWREG_TO_R3_VM_V
(
6
)
;
sw_r7_vm
:
SWREG_TO_R3_VM_V
(
7
)
;
sw_r8_vm
:
SWREG_TO_R3_VM_V
(
8
)
;
sw_r9_vm
:
SWREG_TO_R3_VM_V
(
9
)
;
sw_r10_vm
:
SWREG_TO_R3_VM_V
(
10
)
;
sw_r11_vm
:
SWREG_TO_R3_VM_V
(
11
)
;
sw_r12_vm
:
SWREG_TO_R3_VM_V
(
12
)
;
sw_r13_vm
:
SWREG_TO_R3_VM_V
(
13
)
;
sw_r14_vm
:
SWREG_TO_R3_VM
(
14
)
;
sw_r15_vm
:
SWREG_TO_R3_VM_V
(
15
)
;
sw_r16_vm
:
SWREG_TO_R3_VM
(
16
)
;
sw_r17_vm
:
SWREG_TO_R3_VM_V
(
17
)
;
sw_r18_vm
:
SWREG_TO_R3_VM_V
(
18
)
;
sw_r19_vm
:
SWREG_TO_R3_VM
(
19
)
;
sw_r20_vm
:
SWREG_TO_R3_VM
(
20
)
;
sw_r21_vm
:
SWREG_TO_R3_VM
(
21
)
;
sw_r22_vm
:
SWREG_TO_R3_VM
(
22
)
;
sw_r23_vm
:
SWREG_TO_R3_VM
(
23
)
;
sw_r24_vm
:
SWREG_TO_R3_VM
(
24
)
;
sw_r25_vm
:
SWREG_TO_R3_VM
(
25
)
;
sw_r26_vm
:
SWREG_TO_R3_VM
(
26
)
;
sw_r27_vm
:
SWREG_TO_R3_VM
(
27
)
;
sw_r28_vm
:
SWREG_TO_R3_VM
(
28
)
;
sw_r29_vm
:
SWREG_TO_R3_VM
(
29
)
;
sw_r30_vm
:
SWREG_TO_R3_VM
(
30
)
;
sw_r31_vm
:
SWREG_TO_R3_VM_V
(
31
)
;
#endif /* CONFIG_MMU */
/*
Temporary
data
structures
used
in
the
handler
*/
/*
Temporary
data
structures
used
in
the
handler
*/
.
section
.
data
.
section
.
data
...
...
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