Merge branch 'devel-stable' into for-next

This commit is contained in:
Russell King 2020-12-21 11:19:26 +00:00
commit ecbbb88727
13 changed files with 434 additions and 276 deletions

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@ -244,7 +244,7 @@ config ARM_PATCH_PHYS_VIRT
kernel in system memory.
This can only be used with non-XIP MMU kernels where the base
of physical memory is at a 16MB boundary.
of physical memory is at a 2 MiB boundary.
Only disable this option if you know that you do not require
this feature (eg, building a kernel for a single machine) and

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@ -468,15 +468,10 @@ dtb_check_done:
/*
* Compute the address of the hyp vectors after relocation.
* This requires some arithmetic since we cannot directly
* reference __hyp_stub_vectors in a PC-relative way.
* Call __hyp_set_vectors with the new address so that we
* can HVC again after the copy.
*/
0: adr r0, 0b
movw r1, #:lower16:__hyp_stub_vectors - 0b
movt r1, #:upper16:__hyp_stub_vectors - 0b
add r0, r0, r1
adr_l r0, __hyp_stub_vectors
sub r0, r0, r5
add r0, r0, r10
bl __hyp_set_vectors
@ -627,17 +622,11 @@ not_relocated: mov r0, #0
cmp r0, #HYP_MODE @ if not booted in HYP mode...
bne __enter_kernel @ boot kernel directly
adr r12, .L__hyp_reentry_vectors_offset
ldr r0, [r12]
add r0, r0, r12
adr_l r0, __hyp_reentry_vectors
bl __hyp_set_vectors
__HVC(0) @ otherwise bounce to hyp mode
b . @ should never be reached
.align 2
.L__hyp_reentry_vectors_offset: .long __hyp_reentry_vectors - .
#else
b __enter_kernel
#endif
@ -1440,8 +1429,7 @@ ENTRY(efi_enter_kernel)
mov r4, r0 @ preserve image base
mov r8, r1 @ preserve DT pointer
ARM( adrl r0, call_cache_fn )
THUMB( adr r0, call_cache_fn )
adr_l r0, call_cache_fn
adr r1, 0f @ clean the region of code we
bl cache_clean_flush @ may run with the MMU off

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@ -259,7 +259,7 @@
*/
#define ALT_UP(instr...) \
.pushsection ".alt.smp.init", "a" ;\
.long 9998b ;\
.long 9998b - . ;\
9997: instr ;\
.if . - 9997b == 2 ;\
nop ;\
@ -270,7 +270,7 @@
.popsection
#define ALT_UP_B(label) \
.pushsection ".alt.smp.init", "a" ;\
.long 9998b ;\
.long 9998b - . ;\
W(b) . + (label - 9998b) ;\
.popsection
#else
@ -494,4 +494,88 @@ THUMB( orr \reg , \reg , #PSR_T_BIT )
#define _ASM_NOKPROBE(entry)
#endif
.macro __adldst_l, op, reg, sym, tmp, c
.if __LINUX_ARM_ARCH__ < 7
ldr\c \tmp, .La\@
.subsection 1
.align 2
.La\@: .long \sym - .Lpc\@
.previous
.else
.ifnb \c
THUMB( ittt \c )
.endif
movw\c \tmp, #:lower16:\sym - .Lpc\@
movt\c \tmp, #:upper16:\sym - .Lpc\@
.endif
#ifndef CONFIG_THUMB2_KERNEL
.set .Lpc\@, . + 8 // PC bias
.ifc \op, add
add\c \reg, \tmp, pc
.else
\op\c \reg, [pc, \tmp]
.endif
#else
.Lb\@: add\c \tmp, \tmp, pc
/*
* In Thumb-2 builds, the PC bias depends on whether we are currently
* emitting into a .arm or a .thumb section. The size of the add opcode
* above will be 2 bytes when emitting in Thumb mode and 4 bytes when
* emitting in ARM mode, so let's use this to account for the bias.
*/
.set .Lpc\@, . + (. - .Lb\@)
.ifnc \op, add
\op\c \reg, [\tmp]
.endif
#endif
.endm
/*
* mov_l - move a constant value or [relocated] address into a register
*/
.macro mov_l, dst:req, imm:req
.if __LINUX_ARM_ARCH__ < 7
ldr \dst, =\imm
.else
movw \dst, #:lower16:\imm
movt \dst, #:upper16:\imm
.endif
.endm
/*
* adr_l - adr pseudo-op with unlimited range
*
* @dst: destination register
* @sym: name of the symbol
* @cond: conditional opcode suffix
*/
.macro adr_l, dst:req, sym:req, cond
__adldst_l add, \dst, \sym, \dst, \cond
.endm
/*
* ldr_l - ldr <literal> pseudo-op with unlimited range
*
* @dst: destination register
* @sym: name of the symbol
* @cond: conditional opcode suffix
*/
.macro ldr_l, dst:req, sym:req, cond
__adldst_l ldr, \dst, \sym, \dst, \cond
.endm
/*
* str_l - str <literal> pseudo-op with unlimited range
*
* @src: source register
* @sym: name of the symbol
* @tmp: mandatory scratch register
* @cond: conditional opcode suffix
*/
.macro str_l, src:req, sym:req, tmp:req, cond
__adldst_l str, \src, \sym, \tmp, \cond
.endm
#endif /* __ASM_ASSEMBLER_H__ */

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@ -51,6 +51,7 @@ typedef struct user_fp elf_fpregset_t;
#define R_ARM_NONE 0
#define R_ARM_PC24 1
#define R_ARM_ABS32 2
#define R_ARM_REL32 3
#define R_ARM_CALL 28
#define R_ARM_JUMP24 29
#define R_ARM_TARGET1 38
@ -58,11 +59,15 @@ typedef struct user_fp elf_fpregset_t;
#define R_ARM_PREL31 42
#define R_ARM_MOVW_ABS_NC 43
#define R_ARM_MOVT_ABS 44
#define R_ARM_MOVW_PREL_NC 45
#define R_ARM_MOVT_PREL 46
#define R_ARM_THM_CALL 10
#define R_ARM_THM_JUMP24 30
#define R_ARM_THM_MOVW_ABS_NC 47
#define R_ARM_THM_MOVT_ABS 48
#define R_ARM_THM_MOVW_PREL_NC 49
#define R_ARM_THM_MOVT_PREL 50
/*
* These are used to set parameters in the core dumps.

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@ -183,6 +183,7 @@ extern unsigned long vectors_base;
* so that all we need to do is modify the 8-bit constant field.
*/
#define __PV_BITS_31_24 0x81000000
#define __PV_BITS_23_16 0x810000
#define __PV_BITS_7_0 0x81
extern unsigned long __pv_phys_pfn_offset;
@ -193,43 +194,65 @@ extern const void *__pv_table_begin, *__pv_table_end;
#define PHYS_OFFSET ((phys_addr_t)__pv_phys_pfn_offset << PAGE_SHIFT)
#define PHYS_PFN_OFFSET (__pv_phys_pfn_offset)
#define __pv_stub(from,to,instr,type) \
#ifndef CONFIG_THUMB2_KERNEL
#define __pv_stub(from,to,instr) \
__asm__("@ __pv_stub\n" \
"1: " instr " %0, %1, %2\n" \
"2: " instr " %0, %0, %3\n" \
" .pushsection .pv_table,\"a\"\n" \
" .long 1b\n" \
" .long 1b - ., 2b - .\n" \
" .popsection\n" \
: "=r" (to) \
: "r" (from), "I" (type))
#define __pv_stub_mov_hi(t) \
__asm__ volatile("@ __pv_stub_mov\n" \
"1: mov %R0, %1\n" \
" .pushsection .pv_table,\"a\"\n" \
" .long 1b\n" \
" .popsection\n" \
: "=r" (t) \
: "I" (__PV_BITS_7_0))
: "r" (from), "I" (__PV_BITS_31_24), \
"I"(__PV_BITS_23_16))
#define __pv_add_carry_stub(x, y) \
__asm__ volatile("@ __pv_add_carry_stub\n" \
"1: adds %Q0, %1, %2\n" \
__asm__("@ __pv_add_carry_stub\n" \
"0: movw %R0, #0\n" \
" adds %Q0, %1, %R0, lsl #20\n" \
"1: mov %R0, %2\n" \
" adc %R0, %R0, #0\n" \
" .pushsection .pv_table,\"a\"\n" \
" .long 1b\n" \
" .long 0b - ., 1b - .\n" \
" .popsection\n" \
: "+r" (y) \
: "r" (x), "I" (__PV_BITS_31_24) \
: "=&r" (y) \
: "r" (x), "I" (__PV_BITS_7_0) \
: "cc")
#else
#define __pv_stub(from,to,instr) \
__asm__("@ __pv_stub\n" \
"0: movw %0, #0\n" \
" lsl %0, #21\n" \
" " instr " %0, %1, %0\n" \
" .pushsection .pv_table,\"a\"\n" \
" .long 0b - .\n" \
" .popsection\n" \
: "=&r" (to) \
: "r" (from))
#define __pv_add_carry_stub(x, y) \
__asm__("@ __pv_add_carry_stub\n" \
"0: movw %R0, #0\n" \
" lsls %R0, #21\n" \
" adds %Q0, %1, %R0\n" \
"1: mvn %R0, #0\n" \
" adc %R0, %R0, #0\n" \
" .pushsection .pv_table,\"a\"\n" \
" .long 0b - ., 1b - .\n" \
" .popsection\n" \
: "=&r" (y) \
: "r" (x) \
: "cc")
#endif
static inline phys_addr_t __virt_to_phys_nodebug(unsigned long x)
{
phys_addr_t t;
if (sizeof(phys_addr_t) == 4) {
__pv_stub(x, t, "add", __PV_BITS_31_24);
__pv_stub(x, t, "add");
} else {
__pv_stub_mov_hi(t);
__pv_add_carry_stub(x, t);
}
return t;
@ -245,7 +268,7 @@ static inline unsigned long __phys_to_virt(phys_addr_t x)
* assembler expression receives 32 bit argument
* in place where 'r' 32 bit operand is expected.
*/
__pv_stub((unsigned long) x, t, "sub", __PV_BITS_31_24);
__pv_stub((unsigned long) x, t, "sub");
return t;
}

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@ -96,7 +96,7 @@ unsigned long get_wchan(struct task_struct *p);
#define __ALT_SMP_ASM(smp, up) \
"9998: " smp "\n" \
" .pushsection \".alt.smp.init\", \"a\"\n" \
" .long 9998b\n" \
" .long 9998b - .\n" \
" " up "\n" \
" .popsection\n"
#else

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@ -95,6 +95,7 @@ obj-$(CONFIG_PARAVIRT) += paravirt.o
head-y := head$(MMUEXT).o
obj-$(CONFIG_DEBUG_LL) += debug.o
obj-$(CONFIG_EARLY_PRINTK) += early_printk.o
obj-$(CONFIG_ARM_PATCH_PHYS_VIRT) += phys2virt.o
# This is executed very early using a temporary stack when no memory allocator
# nor global data is available. Everything has to be allocated on the stack.

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@ -173,11 +173,12 @@ ENDPROC(lookup_processor_type)
* r9 = cpuid (preserved)
*/
__lookup_processor_type:
adr r3, __lookup_processor_type_data
ldmia r3, {r4 - r6}
sub r3, r3, r4 @ get offset between virt&phys
add r5, r5, r3 @ convert virt addresses to
add r6, r6, r3 @ physical address space
/*
* Look in <asm/procinfo.h> for information about the __proc_info
* structure.
*/
adr_l r5, __proc_info_begin
adr_l r6, __proc_info_end
1: ldmia r5, {r3, r4} @ value, mask
and r4, r4, r9 @ mask wanted bits
teq r3, r4
@ -189,17 +190,6 @@ __lookup_processor_type:
2: ret lr
ENDPROC(__lookup_processor_type)
/*
* Look in <asm/procinfo.h> for information about the __proc_info structure.
*/
.align 2
.type __lookup_processor_type_data, %object
__lookup_processor_type_data:
.long .
.long __proc_info_begin
.long __proc_info_end
.size __lookup_processor_type_data, . - __lookup_processor_type_data
__error_lpae:
#ifdef CONFIG_DEBUG_LL
adr r0, str_lpae

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@ -103,10 +103,8 @@ ENTRY(stext)
#endif
#ifndef CONFIG_XIP_KERNEL
adr r3, 2f
ldmia r3, {r4, r8}
sub r4, r3, r4 @ (PHYS_OFFSET - PAGE_OFFSET)
add r8, r8, r4 @ PHYS_OFFSET
adr_l r8, _text @ __pa(_text)
sub r8, r8, #TEXT_OFFSET @ PHYS_OFFSET
#else
ldr r8, =PLAT_PHYS_OFFSET @ always constant in this case
#endif
@ -158,10 +156,6 @@ ENTRY(stext)
1: b __enable_mmu
ENDPROC(stext)
.ltorg
#ifndef CONFIG_XIP_KERNEL
2: .long .
.long PAGE_OFFSET
#endif
/*
* Setup the initial page tables. We only setup the barest
@ -224,11 +218,8 @@ __create_page_tables:
* Create identity mapping to cater for __enable_mmu.
* This identity mapping will be removed by paging_init().
*/
adr r0, __turn_mmu_on_loc
ldmia r0, {r3, r5, r6}
sub r0, r0, r3 @ virt->phys offset
add r5, r5, r0 @ phys __turn_mmu_on
add r6, r6, r0 @ phys __turn_mmu_on_end
adr_l r5, __turn_mmu_on @ _pa(__turn_mmu_on)
adr_l r6, __turn_mmu_on_end @ _pa(__turn_mmu_on_end)
mov r5, r5, lsr #SECTION_SHIFT
mov r6, r6, lsr #SECTION_SHIFT
@ -350,11 +341,6 @@ __create_page_tables:
ret lr
ENDPROC(__create_page_tables)
.ltorg
.align
__turn_mmu_on_loc:
.long .
.long __turn_mmu_on
.long __turn_mmu_on_end
#if defined(CONFIG_SMP)
.text
@ -390,10 +376,8 @@ ENTRY(secondary_startup)
/*
* Use the page tables supplied from __cpu_up.
*/
adr r4, __secondary_data
ldmia r4, {r5, r7, r12} @ address to jump to after
sub lr, r4, r5 @ mmu has been enabled
add r3, r7, lr
adr_l r3, secondary_data
mov_l r12, __secondary_switched
ldrd r4, r5, [r3, #0] @ get secondary_data.pgdir
ARM_BE8(eor r4, r4, r5) @ Swap r5 and r4 in BE:
ARM_BE8(eor r5, r4, r5) @ it can be done in 3 steps
@ -408,22 +392,13 @@ ARM_BE8(eor r4, r4, r5) @ without using a temp reg.
ENDPROC(secondary_startup)
ENDPROC(secondary_startup_arm)
/*
* r6 = &secondary_data
*/
ENTRY(__secondary_switched)
ldr sp, [r7, #12] @ get secondary_data.stack
ldr_l r7, secondary_data + 12 @ get secondary_data.stack
mov sp, r7
mov fp, #0
b secondary_start_kernel
ENDPROC(__secondary_switched)
.align
.type __secondary_data, %object
__secondary_data:
.long .
.long secondary_data
.long __secondary_switched
#endif /* defined(CONFIG_SMP) */
@ -538,19 +513,11 @@ ARM_BE8(rev r0, r0) @ byteswap if big endian
retne lr
__fixup_smp_on_up:
adr r0, 1f
ldmia r0, {r3 - r5}
sub r3, r0, r3
add r4, r4, r3
add r5, r5, r3
adr_l r4, __smpalt_begin
adr_l r5, __smpalt_end
b __do_fixup_smp_on_up
ENDPROC(__fixup_smp)
.align
1: .word .
.word __smpalt_begin
.word __smpalt_end
.pushsection .data
.align 2
.globl smp_on_up
@ -564,14 +531,15 @@ smp_on_up:
__do_fixup_smp_on_up:
cmp r4, r5
reths lr
ldmia r4!, {r0, r6}
ARM( str r6, [r0, r3] )
THUMB( add r0, r0, r3 )
ldmia r4, {r0, r6}
ARM( str r6, [r0, r4] )
THUMB( add r0, r0, r4 )
add r4, r4, #8
#ifdef __ARMEB__
THUMB( mov r6, r6, ror #16 ) @ Convert word order for big-endian.
#endif
THUMB( strh r6, [r0], #2 ) @ For Thumb-2, store as two halfwords
THUMB( mov r6, r6, lsr #16 ) @ to be robust against misaligned r3.
THUMB( mov r6, r6, lsr #16 ) @ to be robust against misaligned r0.
THUMB( strh r6, [r0] )
b __do_fixup_smp_on_up
ENDPROC(__do_fixup_smp_on_up)
@ -580,151 +548,8 @@ ENTRY(fixup_smp)
stmfd sp!, {r4 - r6, lr}
mov r4, r0
add r5, r0, r1
mov r3, #0
bl __do_fixup_smp_on_up
ldmfd sp!, {r4 - r6, pc}
ENDPROC(fixup_smp)
#ifdef __ARMEB__
#define LOW_OFFSET 0x4
#define HIGH_OFFSET 0x0
#else
#define LOW_OFFSET 0x0
#define HIGH_OFFSET 0x4
#endif
#ifdef CONFIG_ARM_PATCH_PHYS_VIRT
/* __fixup_pv_table - patch the stub instructions with the delta between
* PHYS_OFFSET and PAGE_OFFSET, which is assumed to be 16MiB aligned and
* can be expressed by an immediate shifter operand. The stub instruction
* has a form of '(add|sub) rd, rn, #imm'.
*/
__HEAD
__fixup_pv_table:
adr r0, 1f
ldmia r0, {r3-r7}
mvn ip, #0
subs r3, r0, r3 @ PHYS_OFFSET - PAGE_OFFSET
add r4, r4, r3 @ adjust table start address
add r5, r5, r3 @ adjust table end address
add r6, r6, r3 @ adjust __pv_phys_pfn_offset address
add r7, r7, r3 @ adjust __pv_offset address
mov r0, r8, lsr #PAGE_SHIFT @ convert to PFN
str r0, [r6] @ save computed PHYS_OFFSET to __pv_phys_pfn_offset
strcc ip, [r7, #HIGH_OFFSET] @ save to __pv_offset high bits
mov r6, r3, lsr #24 @ constant for add/sub instructions
teq r3, r6, lsl #24 @ must be 16MiB aligned
THUMB( it ne @ cross section branch )
bne __error
str r3, [r7, #LOW_OFFSET] @ save to __pv_offset low bits
b __fixup_a_pv_table
ENDPROC(__fixup_pv_table)
.align
1: .long .
.long __pv_table_begin
.long __pv_table_end
2: .long __pv_phys_pfn_offset
.long __pv_offset
.text
__fixup_a_pv_table:
adr r0, 3f
ldr r6, [r0]
add r6, r6, r3
ldr r0, [r6, #HIGH_OFFSET] @ pv_offset high word
ldr r6, [r6, #LOW_OFFSET] @ pv_offset low word
mov r6, r6, lsr #24
cmn r0, #1
#ifdef CONFIG_THUMB2_KERNEL
moveq r0, #0x200000 @ set bit 21, mov to mvn instruction
lsls r6, #24
beq 2f
clz r7, r6
lsr r6, #24
lsl r6, r7
bic r6, #0x0080
lsrs r7, #1
orrcs r6, #0x0080
orr r6, r6, r7, lsl #12
orr r6, #0x4000
b 2f
1: add r7, r3
ldrh ip, [r7, #2]
ARM_BE8(rev16 ip, ip)
tst ip, #0x4000
and ip, #0x8f00
orrne ip, r6 @ mask in offset bits 31-24
orreq ip, r0 @ mask in offset bits 7-0
ARM_BE8(rev16 ip, ip)
strh ip, [r7, #2]
bne 2f
ldrh ip, [r7]
ARM_BE8(rev16 ip, ip)
bic ip, #0x20
orr ip, ip, r0, lsr #16
ARM_BE8(rev16 ip, ip)
strh ip, [r7]
2: cmp r4, r5
ldrcc r7, [r4], #4 @ use branch for delay slot
bcc 1b
bx lr
#else
#ifdef CONFIG_CPU_ENDIAN_BE8
moveq r0, #0x00004000 @ set bit 22, mov to mvn instruction
#else
moveq r0, #0x400000 @ set bit 22, mov to mvn instruction
#endif
b 2f
1: ldr ip, [r7, r3]
#ifdef CONFIG_CPU_ENDIAN_BE8
@ in BE8, we load data in BE, but instructions still in LE
bic ip, ip, #0xff000000
tst ip, #0x000f0000 @ check the rotation field
orrne ip, ip, r6, lsl #24 @ mask in offset bits 31-24
biceq ip, ip, #0x00004000 @ clear bit 22
orreq ip, ip, r0 @ mask in offset bits 7-0
#else
bic ip, ip, #0x000000ff
tst ip, #0xf00 @ check the rotation field
orrne ip, ip, r6 @ mask in offset bits 31-24
biceq ip, ip, #0x400000 @ clear bit 22
orreq ip, ip, r0 @ mask in offset bits 7-0
#endif
str ip, [r7, r3]
2: cmp r4, r5
ldrcc r7, [r4], #4 @ use branch for delay slot
bcc 1b
ret lr
#endif
ENDPROC(__fixup_a_pv_table)
.align
3: .long __pv_offset
ENTRY(fixup_pv_table)
stmfd sp!, {r4 - r7, lr}
mov r3, #0 @ no offset
mov r4, r0 @ r0 = table start
add r5, r0, r1 @ r1 = table size
bl __fixup_a_pv_table
ldmfd sp!, {r4 - r7, pc}
ENDPROC(fixup_pv_table)
.data
.align 2
.globl __pv_phys_pfn_offset
.type __pv_phys_pfn_offset, %object
__pv_phys_pfn_offset:
.word 0
.size __pv_phys_pfn_offset, . -__pv_phys_pfn_offset
.globl __pv_offset
.type __pv_offset, %object
__pv_offset:
.quad 0
.size __pv_offset, . -__pv_offset
#endif
#include "head-common.S"

View File

@ -24,41 +24,38 @@ ENTRY(__boot_cpu_mode)
.text
/*
* Save the primary CPU boot mode. Requires 3 scratch registers.
* Save the primary CPU boot mode. Requires 2 scratch registers.
*/
.macro store_primary_cpu_mode reg1, reg2, reg3
.macro store_primary_cpu_mode reg1, reg2
mrs \reg1, cpsr
and \reg1, \reg1, #MODE_MASK
adr \reg2, .L__boot_cpu_mode_offset
ldr \reg3, [\reg2]
str \reg1, [\reg2, \reg3]
str_l \reg1, __boot_cpu_mode, \reg2
.endm
/*
* Compare the current mode with the one saved on the primary CPU.
* If they don't match, record that fact. The Z bit indicates
* if there's a match or not.
* Requires 3 additionnal scratch registers.
* Requires 2 additional scratch registers.
*/
.macro compare_cpu_mode_with_primary mode, reg1, reg2, reg3
adr \reg2, .L__boot_cpu_mode_offset
ldr \reg3, [\reg2]
ldr \reg1, [\reg2, \reg3]
.macro compare_cpu_mode_with_primary mode, reg1, reg2
adr_l \reg2, __boot_cpu_mode
ldr \reg1, [\reg2]
cmp \mode, \reg1 @ matches primary CPU boot mode?
orrne \reg1, \reg1, #BOOT_CPU_MODE_MISMATCH
strne \reg1, [\reg2, \reg3] @ record what happened and give up
strne \reg1, [\reg2] @ record what happened and give up
.endm
#else /* ZIMAGE */
.macro store_primary_cpu_mode reg1:req, reg2:req, reg3:req
.macro store_primary_cpu_mode reg1:req, reg2:req
.endm
/*
* The zImage loader only runs on one CPU, so we don't bother with mult-CPU
* consistency checking:
*/
.macro compare_cpu_mode_with_primary mode, reg1, reg2, reg3
.macro compare_cpu_mode_with_primary mode, reg1, reg2
cmp \mode, \mode
.endm
@ -73,7 +70,7 @@ ENTRY(__boot_cpu_mode)
*/
@ Call this from the primary CPU
ENTRY(__hyp_stub_install)
store_primary_cpu_mode r4, r5, r6
store_primary_cpu_mode r4, r5
ENDPROC(__hyp_stub_install)
@ fall through...
@ -87,7 +84,7 @@ ENTRY(__hyp_stub_install_secondary)
* If the secondary has booted with a different mode, give up
* immediately.
*/
compare_cpu_mode_with_primary r4, r5, r6, r7
compare_cpu_mode_with_primary r4, r5, r6
retne lr
/*

View File

@ -185,14 +185,24 @@ apply_relocate(Elf32_Shdr *sechdrs, const char *strtab, unsigned int symindex,
*(u32 *)loc |= offset & 0x7fffffff;
break;
case R_ARM_REL32:
*(u32 *)loc += sym->st_value - loc;
break;
case R_ARM_MOVW_ABS_NC:
case R_ARM_MOVT_ABS:
case R_ARM_MOVW_PREL_NC:
case R_ARM_MOVT_PREL:
offset = tmp = __mem_to_opcode_arm(*(u32 *)loc);
offset = ((offset & 0xf0000) >> 4) | (offset & 0xfff);
offset = (offset ^ 0x8000) - 0x8000;
offset += sym->st_value;
if (ELF32_R_TYPE(rel->r_info) == R_ARM_MOVT_ABS)
if (ELF32_R_TYPE(rel->r_info) == R_ARM_MOVT_PREL ||
ELF32_R_TYPE(rel->r_info) == R_ARM_MOVW_PREL_NC)
offset -= loc;
if (ELF32_R_TYPE(rel->r_info) == R_ARM_MOVT_ABS ||
ELF32_R_TYPE(rel->r_info) == R_ARM_MOVT_PREL)
offset >>= 16;
tmp &= 0xfff0f000;
@ -283,6 +293,8 @@ apply_relocate(Elf32_Shdr *sechdrs, const char *strtab, unsigned int symindex,
case R_ARM_THM_MOVW_ABS_NC:
case R_ARM_THM_MOVT_ABS:
case R_ARM_THM_MOVW_PREL_NC:
case R_ARM_THM_MOVT_PREL:
upper = __mem_to_opcode_thumb16(*(u16 *)loc);
lower = __mem_to_opcode_thumb16(*(u16 *)(loc + 2));
@ -302,7 +314,11 @@ apply_relocate(Elf32_Shdr *sechdrs, const char *strtab, unsigned int symindex,
offset = (offset ^ 0x8000) - 0x8000;
offset += sym->st_value;
if (ELF32_R_TYPE(rel->r_info) == R_ARM_THM_MOVT_ABS)
if (ELF32_R_TYPE(rel->r_info) == R_ARM_THM_MOVT_PREL ||
ELF32_R_TYPE(rel->r_info) == R_ARM_THM_MOVW_PREL_NC)
offset -= loc;
if (ELF32_R_TYPE(rel->r_info) == R_ARM_THM_MOVT_ABS ||
ELF32_R_TYPE(rel->r_info) == R_ARM_THM_MOVT_PREL)
offset >>= 16;
upper = (u16)((upper & 0xfbf0) |

238
arch/arm/kernel/phys2virt.S Normal file
View File

@ -0,0 +1,238 @@
/* SPDX-License-Identifier: GPL-2.0-only */
/*
* Copyright (C) 1994-2002 Russell King
* Copyright (c) 2003, 2020 ARM Limited
* All Rights Reserved
*/
#include <linux/init.h>
#include <linux/linkage.h>
#include <asm/assembler.h>
#include <asm/page.h>
#ifdef __ARMEB__
#define LOW_OFFSET 0x4
#define HIGH_OFFSET 0x0
#else
#define LOW_OFFSET 0x0
#define HIGH_OFFSET 0x4
#endif
/*
* __fixup_pv_table - patch the stub instructions with the delta between
* PHYS_OFFSET and PAGE_OFFSET, which is assumed to be
* 2 MiB aligned.
*
* Called from head.S, which expects the following registers to be preserved:
* r1 = machine no, r2 = atags or dtb,
* r8 = phys_offset, r9 = cpuid, r10 = procinfo
*/
__HEAD
ENTRY(__fixup_pv_table)
mov r0, r8, lsr #PAGE_SHIFT @ convert to PFN
str_l r0, __pv_phys_pfn_offset, r3
adr_l r0, __pv_offset
subs r3, r8, #PAGE_OFFSET @ PHYS_OFFSET - PAGE_OFFSET
mvn ip, #0
strcc ip, [r0, #HIGH_OFFSET] @ save to __pv_offset high bits
str r3, [r0, #LOW_OFFSET] @ save to __pv_offset low bits
mov r0, r3, lsr #21 @ constant for add/sub instructions
teq r3, r0, lsl #21 @ must be 2 MiB aligned
bne 0f
adr_l r4, __pv_table_begin
adr_l r5, __pv_table_end
b __fixup_a_pv_table
0: mov r0, r0 @ deadloop on error
b 0b
ENDPROC(__fixup_pv_table)
.text
__fixup_a_pv_table:
adr_l r6, __pv_offset
ldr r0, [r6, #HIGH_OFFSET] @ pv_offset high word
ldr r6, [r6, #LOW_OFFSET] @ pv_offset low word
cmn r0, #1
#ifdef CONFIG_THUMB2_KERNEL
@
@ The Thumb-2 versions of the patchable sequences are
@
@ phys-to-virt: movw <reg>, #offset<31:21>
@ lsl <reg>, #21
@ sub <VA>, <PA>, <reg>
@
@ virt-to-phys (non-LPAE): movw <reg>, #offset<31:21>
@ lsl <reg>, #21
@ add <PA>, <VA>, <reg>
@
@ virt-to-phys (LPAE): movw <reg>, #offset<31:21>
@ lsl <reg>, #21
@ adds <PAlo>, <VA>, <reg>
@ mov <PAhi>, #offset<39:32>
@ adc <PAhi>, <PAhi>, #0
@
@ In the non-LPAE case, all patchable instructions are MOVW
@ instructions, where we need to patch in the offset into the
@ second halfword of the opcode (the 16-bit immediate is encoded
@ as imm4:i:imm3:imm8)
@
@ 15 11 10 9 4 3 0 15 14 12 11 8 7 0
@ +-----------+---+-------------+------++---+------+----+------+
@ MOVW | 1 1 1 1 0 | i | 1 0 0 1 0 0 | imm4 || 0 | imm3 | Rd | imm8 |
@ +-----------+---+-------------+------++---+------+----+------+
@
@ In the LPAE case, we also need to patch in the high word of the
@ offset into the immediate field of the MOV instruction, or patch it
@ to a MVN instruction if the offset is negative. In this case, we
@ need to inspect the first halfword of the opcode, to check whether
@ it is MOVW or MOV/MVN, and to perform the MOV to MVN patching if
@ needed. The encoding of the immediate is rather complex for values
@ of i:imm3 != 0b0000, but fortunately, we never need more than 8 lower
@ order bits, which can be patched into imm8 directly (and i:imm3
@ cleared)
@
@ 15 11 10 9 5 0 15 14 12 11 8 7 0
@ +-----------+---+---------------------++---+------+----+------+
@ MOV | 1 1 1 1 0 | i | 0 0 0 1 0 0 1 1 1 1 || 0 | imm3 | Rd | imm8 |
@ MVN | 1 1 1 1 0 | i | 0 0 0 1 1 0 1 1 1 1 || 0 | imm3 | Rd | imm8 |
@ +-----------+---+---------------------++---+------+----+------+
@
moveq r0, #0x200000 @ set bit 21, mov to mvn instruction
lsrs r3, r6, #29 @ isolate top 3 bits of displacement
ubfx r6, r6, #21, #8 @ put bits 28:21 into the MOVW imm8 field
bfi r6, r3, #12, #3 @ put bits 31:29 into the MOVW imm3 field
b .Lnext
.Lloop: add r7, r4
adds r4, #4 @ clears Z flag
#ifdef CONFIG_ARM_LPAE
ldrh ip, [r7]
ARM_BE8(rev16 ip, ip)
tst ip, #0x200 @ MOVW has bit 9 set, MVN has it clear
bne 0f @ skip to MOVW handling (Z flag is clear)
bic ip, #0x20 @ clear bit 5 (MVN -> MOV)
orr ip, ip, r0, lsr #16 @ MOV -> MVN if offset < 0
ARM_BE8(rev16 ip, ip)
strh ip, [r7]
@ Z flag is set
0:
#endif
ldrh ip, [r7, #2]
ARM_BE8(rev16 ip, ip)
and ip, #0xf00 @ clear everything except Rd field
orreq ip, r0 @ Z flag set -> MOV/MVN -> patch in high bits
orrne ip, r6 @ Z flag clear -> MOVW -> patch in low bits
ARM_BE8(rev16 ip, ip)
strh ip, [r7, #2]
#else
#ifdef CONFIG_CPU_ENDIAN_BE8
@ in BE8, we load data in BE, but instructions still in LE
#define PV_BIT24 0x00000001
#define PV_IMM8_MASK 0xff000000
#define PV_IMMR_MSB 0x00080000
#else
#define PV_BIT24 0x01000000
#define PV_IMM8_MASK 0x000000ff
#define PV_IMMR_MSB 0x00000800
#endif
@
@ The ARM versions of the patchable sequences are
@
@ phys-to-virt: sub <VA>, <PA>, #offset<31:24>, lsl #24
@ sub <VA>, <PA>, #offset<23:16>, lsl #16
@
@ virt-to-phys (non-LPAE): add <PA>, <VA>, #offset<31:24>, lsl #24
@ add <PA>, <VA>, #offset<23:16>, lsl #16
@
@ virt-to-phys (LPAE): movw <reg>, #offset<31:20>
@ adds <PAlo>, <VA>, <reg>, lsl #20
@ mov <PAhi>, #offset<39:32>
@ adc <PAhi>, <PAhi>, #0
@
@ In the non-LPAE case, all patchable instructions are ADD or SUB
@ instructions, where we need to patch in the offset into the
@ immediate field of the opcode, which is emitted with the correct
@ rotation value. (The effective value of the immediate is imm12<7:0>
@ rotated right by [2 * imm12<11:8>] bits)
@
@ 31 28 27 23 22 20 19 16 15 12 11 0
@ +------+-----------------+------+------+-------+
@ ADD | cond | 0 0 1 0 1 0 0 0 | Rn | Rd | imm12 |
@ SUB | cond | 0 0 1 0 0 1 0 0 | Rn | Rd | imm12 |
@ MOV | cond | 0 0 1 1 1 0 1 0 | Rn | Rd | imm12 |
@ MVN | cond | 0 0 1 1 1 1 1 0 | Rn | Rd | imm12 |
@ +------+-----------------+------+------+-------+
@
@ In the LPAE case, we use a MOVW instruction to carry the low offset
@ word, and patch in the high word of the offset into the immediate
@ field of the subsequent MOV instruction, or patch it to a MVN
@ instruction if the offset is negative. We can distinguish MOVW
@ instructions based on bits 23:22 of the opcode, and ADD/SUB can be
@ distinguished from MOV/MVN (all using the encodings above) using
@ bit 24.
@
@ 31 28 27 23 22 20 19 16 15 12 11 0
@ +------+-----------------+------+------+-------+
@ MOVW | cond | 0 0 1 1 0 0 0 0 | imm4 | Rd | imm12 |
@ +------+-----------------+------+------+-------+
@
moveq r0, #0x400000 @ set bit 22, mov to mvn instruction
mov r3, r6, lsr #16 @ put offset bits 31-16 into r3
mov r6, r6, lsr #24 @ put offset bits 31-24 into r6
and r3, r3, #0xf0 @ only keep offset bits 23-20 in r3
b .Lnext
.Lloop: ldr ip, [r7, r4]
#ifdef CONFIG_ARM_LPAE
tst ip, #PV_BIT24 @ ADD/SUB have bit 24 clear
beq 1f
ARM_BE8(rev ip, ip)
tst ip, #0xc00000 @ MOVW has bits 23:22 clear
bic ip, ip, #0x400000 @ clear bit 22
bfc ip, #0, #12 @ clear imm12 field of MOV[W] instruction
orreq ip, ip, r6, lsl #4 @ MOVW -> mask in offset bits 31-24
orreq ip, ip, r3, lsr #4 @ MOVW -> mask in offset bits 23-20
orrne ip, ip, r0 @ MOV -> mask in offset bits 7-0 (or bit 22)
ARM_BE8(rev ip, ip)
b 2f
1:
#endif
tst ip, #PV_IMMR_MSB @ rotation value >= 16 ?
bic ip, ip, #PV_IMM8_MASK
orreq ip, ip, r6 ARM_BE8(, lsl #24) @ mask in offset bits 31-24
orrne ip, ip, r3 ARM_BE8(, lsl #24) @ mask in offset bits 23-20
2:
str ip, [r7, r4]
add r4, r4, #4
#endif
.Lnext:
cmp r4, r5
ldrcc r7, [r4] @ use branch for delay slot
bcc .Lloop
ret lr
ENDPROC(__fixup_a_pv_table)
ENTRY(fixup_pv_table)
stmfd sp!, {r4 - r7, lr}
mov r4, r0 @ r0 = table start
add r5, r0, r1 @ r1 = table size
bl __fixup_a_pv_table
ldmfd sp!, {r4 - r7, pc}
ENDPROC(fixup_pv_table)
.data
.align 2
.globl __pv_phys_pfn_offset
.type __pv_phys_pfn_offset, %object
__pv_phys_pfn_offset:
.word 0
.size __pv_phys_pfn_offset, . -__pv_phys_pfn_offset
.globl __pv_offset
.type __pv_offset, %object
__pv_offset:
.quad 0
.size __pv_offset, . -__pv_offset

View File

@ -72,8 +72,9 @@ ENTRY(__cpu_suspend)
ldr r3, =sleep_save_sp
stmfd sp!, {r0, r1} @ save suspend func arg and pointer
ldr r3, [r3, #SLEEP_SAVE_SP_VIRT]
ALT_SMP(ldr r0, =mpidr_hash)
ALT_SMP(W(nop)) @ don't use adr_l inside ALT_SMP()
ALT_UP_B(1f)
adr_l r0, mpidr_hash
/* This ldmia relies on the memory layout of the mpidr_hash struct */
ldmia r0, {r1, r6-r8} @ r1 = mpidr mask (r6,r7,r8) = l[0,1,2] shifts
compute_mpidr_hash r0, r6, r7, r8, r2, r1
@ -147,9 +148,8 @@ no_hyp:
mov r1, #0
ALT_SMP(mrc p15, 0, r0, c0, c0, 5)
ALT_UP_B(1f)
adr r2, mpidr_hash_ptr
ldr r3, [r2]
add r2, r2, r3 @ r2 = struct mpidr_hash phys address
adr_l r2, mpidr_hash @ r2 = struct mpidr_hash phys address
/*
* This ldmia relies on the memory layout of the mpidr_hash
* struct mpidr_hash.
@ -157,10 +157,7 @@ no_hyp:
ldmia r2, { r3-r6 } @ r3 = mpidr mask (r4,r5,r6) = l[0,1,2] shifts
compute_mpidr_hash r1, r4, r5, r6, r0, r3
1:
adr r0, _sleep_save_sp
ldr r2, [r0]
add r0, r0, r2
ldr r0, [r0, #SLEEP_SAVE_SP_PHYS]
ldr_l r0, sleep_save_sp + SLEEP_SAVE_SP_PHYS
ldr r0, [r0, r1, lsl #2]
@ load phys pgd, stack, resume fn
@ -177,12 +174,6 @@ ENDPROC(cpu_resume_arm)
ENDPROC(cpu_resume_no_hyp)
#endif
.align 2
_sleep_save_sp:
.long sleep_save_sp - .
mpidr_hash_ptr:
.long mpidr_hash - . @ mpidr_hash struct offset
.data
.align 2
.type sleep_save_sp, #object