linux_dsm_epyc7002/arch/arm/mm/abort-lv4t.S
Russell King 2190fed67b ARM: entry: provide uaccess assembly macro hooks
Provide hooks into the kernel entry and exit paths to permit control
of userspace visibility to the kernel.  The intended use is:

- on entry to kernel from user, uaccess_disable will be called to
  disable userspace visibility
- on exit from kernel to user, uaccess_enable will be called to
  enable userspace visibility
- on entry from a kernel exception, uaccess_save_and_disable will be
  called to save the current userspace visibility setting, and disable
  access
- on exit from a kernel exception, uaccess_restore will be called to
  restore the userspace visibility as it was before the exception
  occurred.

These hooks allows us to keep userspace visibility disabled for the
vast majority of the kernel, except for localised regions where we
want to explicitly access userspace.

Signed-off-by: Russell King <rmk+kernel@arm.linux.org.uk>
2015-08-26 20:27:02 +01:00

223 lines
6.4 KiB
ArmAsm

#include <linux/linkage.h>
#include <asm/assembler.h>
/*
* Function: v4t_late_abort
*
* Params : r2 = pt_regs
* : r4 = aborted context pc
* : r5 = aborted context psr
*
* Returns : r4-r5, r10-r11, r13 preserved
*
* Purpose : obtain information about current aborted instruction.
* Note: we read user space. This means we might cause a data
* abort here if the I-TLB and D-TLB aren't seeing the same
* picture. Unfortunately, this does happen. We live with it.
*/
ENTRY(v4t_late_abort)
tst r5, #PSR_T_BIT @ check for thumb mode
#ifdef CONFIG_CPU_CP15_MMU
mrc p15, 0, r1, c5, c0, 0 @ get FSR
mrc p15, 0, r0, c6, c0, 0 @ get FAR
bic r1, r1, #1 << 11 | 1 << 10 @ clear bits 11 and 10 of FSR
#else
mov r0, #0 @ clear r0, r1 (no FSR/FAR)
mov r1, #0
#endif
bne .data_thumb_abort
ldr r8, [r4] @ read arm instruction
uaccess_disable ip @ disable userspace access
tst r8, #1 << 20 @ L = 1 -> write?
orreq r1, r1, #1 << 11 @ yes.
and r7, r8, #15 << 24
add pc, pc, r7, lsr #22 @ Now branch to the relevant processing routine
nop
/* 0 */ b .data_arm_lateldrhpost @ ldrh rd, [rn], #m/rm
/* 1 */ b .data_arm_lateldrhpre @ ldrh rd, [rn, #m/rm]
/* 2 */ b .data_unknown
/* 3 */ b .data_unknown
/* 4 */ b .data_arm_lateldrpostconst @ ldr rd, [rn], #m
/* 5 */ b .data_arm_lateldrpreconst @ ldr rd, [rn, #m]
/* 6 */ b .data_arm_lateldrpostreg @ ldr rd, [rn], rm
/* 7 */ b .data_arm_lateldrprereg @ ldr rd, [rn, rm]
/* 8 */ b .data_arm_ldmstm @ ldm*a rn, <rlist>
/* 9 */ b .data_arm_ldmstm @ ldm*b rn, <rlist>
/* a */ b .data_unknown
/* b */ b .data_unknown
/* c */ b do_DataAbort @ ldc rd, [rn], #m @ Same as ldr rd, [rn], #m
/* d */ b do_DataAbort @ ldc rd, [rn, #m]
/* e */ b .data_unknown
/* f */
.data_unknown: @ Part of jumptable
mov r0, r4
mov r1, r8
b baddataabort
.data_arm_ldmstm:
tst r8, #1 << 21 @ check writeback bit
beq do_DataAbort @ no writeback -> no fixup
mov r7, #0x11
orr r7, r7, #0x1100
and r6, r8, r7
and r9, r8, r7, lsl #1
add r6, r6, r9, lsr #1
and r9, r8, r7, lsl #2
add r6, r6, r9, lsr #2
and r9, r8, r7, lsl #3
add r6, r6, r9, lsr #3
add r6, r6, r6, lsr #8
add r6, r6, r6, lsr #4
and r6, r6, #15 @ r6 = no. of registers to transfer.
and r9, r8, #15 << 16 @ Extract 'n' from instruction
ldr r7, [r2, r9, lsr #14] @ Get register 'Rn'
tst r8, #1 << 23 @ Check U bit
subne r7, r7, r6, lsl #2 @ Undo increment
addeq r7, r7, r6, lsl #2 @ Undo decrement
str r7, [r2, r9, lsr #14] @ Put register 'Rn'
b do_DataAbort
.data_arm_lateldrhpre:
tst r8, #1 << 21 @ Check writeback bit
beq do_DataAbort @ No writeback -> no fixup
.data_arm_lateldrhpost:
and r9, r8, #0x00f @ get Rm / low nibble of immediate value
tst r8, #1 << 22 @ if (immediate offset)
andne r6, r8, #0xf00 @ { immediate high nibble
orrne r6, r9, r6, lsr #4 @ combine nibbles } else
ldreq r6, [r2, r9, lsl #2] @ { load Rm value }
.data_arm_apply_r6_and_rn:
and r9, r8, #15 << 16 @ Extract 'n' from instruction
ldr r7, [r2, r9, lsr #14] @ Get register 'Rn'
tst r8, #1 << 23 @ Check U bit
subne r7, r7, r6 @ Undo incrmenet
addeq r7, r7, r6 @ Undo decrement
str r7, [r2, r9, lsr #14] @ Put register 'Rn'
b do_DataAbort
.data_arm_lateldrpreconst:
tst r8, #1 << 21 @ check writeback bit
beq do_DataAbort @ no writeback -> no fixup
.data_arm_lateldrpostconst:
movs r6, r8, lsl #20 @ Get offset
beq do_DataAbort @ zero -> no fixup
and r9, r8, #15 << 16 @ Extract 'n' from instruction
ldr r7, [r2, r9, lsr #14] @ Get register 'Rn'
tst r8, #1 << 23 @ Check U bit
subne r7, r7, r6, lsr #20 @ Undo increment
addeq r7, r7, r6, lsr #20 @ Undo decrement
str r7, [r2, r9, lsr #14] @ Put register 'Rn'
b do_DataAbort
.data_arm_lateldrprereg:
tst r8, #1 << 21 @ check writeback bit
beq do_DataAbort @ no writeback -> no fixup
.data_arm_lateldrpostreg:
and r7, r8, #15 @ Extract 'm' from instruction
ldr r6, [r2, r7, lsl #2] @ Get register 'Rm'
mov r9, r8, lsr #7 @ get shift count
ands r9, r9, #31
and r7, r8, #0x70 @ get shift type
orreq r7, r7, #8 @ shift count = 0
add pc, pc, r7
nop
mov r6, r6, lsl r9 @ 0: LSL #!0
b .data_arm_apply_r6_and_rn
b .data_arm_apply_r6_and_rn @ 1: LSL #0
nop
b .data_unknown @ 2: MUL?
nop
b .data_unknown @ 3: MUL?
nop
mov r6, r6, lsr r9 @ 4: LSR #!0
b .data_arm_apply_r6_and_rn
mov r6, r6, lsr #32 @ 5: LSR #32
b .data_arm_apply_r6_and_rn
b .data_unknown @ 6: MUL?
nop
b .data_unknown @ 7: MUL?
nop
mov r6, r6, asr r9 @ 8: ASR #!0
b .data_arm_apply_r6_and_rn
mov r6, r6, asr #32 @ 9: ASR #32
b .data_arm_apply_r6_and_rn
b .data_unknown @ A: MUL?
nop
b .data_unknown @ B: MUL?
nop
mov r6, r6, ror r9 @ C: ROR #!0
b .data_arm_apply_r6_and_rn
mov r6, r6, rrx @ D: RRX
b .data_arm_apply_r6_and_rn
b .data_unknown @ E: MUL?
nop
b .data_unknown @ F: MUL?
.data_thumb_abort:
ldrh r8, [r4] @ read instruction
uaccess_disable ip @ disable userspace access
tst r8, #1 << 11 @ L = 1 -> write?
orreq r1, r1, #1 << 8 @ yes
and r7, r8, #15 << 12
add pc, pc, r7, lsr #10 @ lookup in table
nop
/* 0 */ b .data_unknown
/* 1 */ b .data_unknown
/* 2 */ b .data_unknown
/* 3 */ b .data_unknown
/* 4 */ b .data_unknown
/* 5 */ b .data_thumb_reg
/* 6 */ b do_DataAbort
/* 7 */ b do_DataAbort
/* 8 */ b do_DataAbort
/* 9 */ b do_DataAbort
/* A */ b .data_unknown
/* B */ b .data_thumb_pushpop
/* C */ b .data_thumb_ldmstm
/* D */ b .data_unknown
/* E */ b .data_unknown
/* F */ b .data_unknown
.data_thumb_reg:
tst r8, #1 << 9
beq do_DataAbort
tst r8, #1 << 10 @ If 'S' (signed) bit is set
movne r1, #0 @ it must be a load instr
b do_DataAbort
.data_thumb_pushpop:
tst r8, #1 << 10
beq .data_unknown
and r6, r8, #0x55 @ hweight8(r8) + R bit
and r9, r8, #0xaa
add r6, r6, r9, lsr #1
and r9, r6, #0xcc
and r6, r6, #0x33
add r6, r6, r9, lsr #2
movs r7, r8, lsr #9 @ C = r8 bit 8 (R bit)
adc r6, r6, r6, lsr #4 @ high + low nibble + R bit
and r6, r6, #15 @ number of regs to transfer
ldr r7, [r2, #13 << 2]
tst r8, #1 << 11
addeq r7, r7, r6, lsl #2 @ increment SP if PUSH
subne r7, r7, r6, lsl #2 @ decrement SP if POP
str r7, [r2, #13 << 2]
b do_DataAbort
.data_thumb_ldmstm:
and r6, r8, #0x55 @ hweight8(r8)
and r9, r8, #0xaa
add r6, r6, r9, lsr #1
and r9, r6, #0xcc
and r6, r6, #0x33
add r6, r6, r9, lsr #2
add r6, r6, r6, lsr #4
and r9, r8, #7 << 8
ldr r7, [r2, r9, lsr #6]
and r6, r6, #15 @ number of regs to transfer
sub r7, r7, r6, lsl #2 @ always decrement
str r7, [r2, r9, lsr #6]
b do_DataAbort