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09af39f649
xtensa core may be configured without register windows support, don't use register window specific opcodes in that case. Use window register specific opcodes to initialize hardware or reset core to a known state regardless of the chosen ABI. Signed-off-by: Max Filippov <jcmvbkbc@gmail.com>
488 lines
12 KiB
ArmAsm
488 lines
12 KiB
ArmAsm
/*
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* arch/xtensa/kernel/align.S
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*
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* Handle unalignment exceptions in kernel space.
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*
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* This file is subject to the terms and conditions of the GNU General
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* Public License. See the file "COPYING" in the main directory of
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* this archive for more details.
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*
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* Copyright (C) 2001 - 2005 Tensilica, Inc.
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* Copyright (C) 2014 Cadence Design Systems Inc.
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*
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* Rewritten by Chris Zankel <chris@zankel.net>
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*
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* Based on work from Joe Taylor <joe@tensilica.com, joetylr@yahoo.com>
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* and Marc Gauthier <marc@tensilica.com, marc@alimni.uwaterloo.ca>
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*/
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#include <linux/linkage.h>
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#include <asm/current.h>
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#include <asm/asm-offsets.h>
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#include <asm/asmmacro.h>
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#include <asm/processor.h>
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#if XCHAL_UNALIGNED_LOAD_EXCEPTION || XCHAL_UNALIGNED_STORE_EXCEPTION
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/* First-level exception handler for unaligned exceptions.
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*
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* Note: This handler works only for kernel exceptions. Unaligned user
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* access should get a seg fault.
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*/
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/* Big and little endian 16-bit values are located in
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* different halves of a register. HWORD_START helps to
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* abstract the notion of extracting a 16-bit value from a
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* register.
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* We also have to define new shifting instructions because
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* lsb and msb are on 'opposite' ends in a register for
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* different endian machines.
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*
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* Assume a memory region in ascending address:
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* 0 1 2 3|4 5 6 7
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*
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* When loading one word into a register, the content of that register is:
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* LE 3 2 1 0, 7 6 5 4
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* BE 0 1 2 3, 4 5 6 7
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*
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* Masking the bits of the higher/lower address means:
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* LE X X 0 0, 0 0 X X
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* BE 0 0 X X, X X 0 0
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*
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* Shifting to higher/lower addresses, means:
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* LE shift left / shift right
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* BE shift right / shift left
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*
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* Extracting 16 bits from a 32 bit reg. value to higher/lower address means:
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* LE mask 0 0 X X / shift left
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* BE shift left / mask 0 0 X X
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*/
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#if XCHAL_HAVE_WINDOWED
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#define UNALIGNED_USER_EXCEPTION
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#endif
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#if XCHAL_HAVE_BE
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#define HWORD_START 16
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#define INSN_OP0 28
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#define INSN_T 24
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#define INSN_OP1 16
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.macro __ssa8r r; ssa8l \r; .endm
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.macro __sh r, s; srl \r, \s; .endm
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.macro __sl r, s; sll \r, \s; .endm
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.macro __exth r, s; extui \r, \s, 0, 16; .endm
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.macro __extl r, s; slli \r, \s, 16; .endm
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#else
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#define HWORD_START 0
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#define INSN_OP0 0
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#define INSN_T 4
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#define INSN_OP1 12
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.macro __ssa8r r; ssa8b \r; .endm
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.macro __sh r, s; sll \r, \s; .endm
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.macro __sl r, s; srl \r, \s; .endm
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.macro __exth r, s; slli \r, \s, 16; .endm
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.macro __extl r, s; extui \r, \s, 0, 16; .endm
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#endif
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/*
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* xxxx xxxx = imm8 field
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* yyyy = imm4 field
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* ssss = s field
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* tttt = t field
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*
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* 16 0
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* -------------------
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* L32I.N yyyy ssss tttt 1000
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* S32I.N yyyy ssss tttt 1001
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*
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* 23 0
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* -----------------------------
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* res 0000 0010
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* L16UI xxxx xxxx 0001 ssss tttt 0010
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* L32I xxxx xxxx 0010 ssss tttt 0010
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* XXX 0011 ssss tttt 0010
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* XXX 0100 ssss tttt 0010
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* S16I xxxx xxxx 0101 ssss tttt 0010
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* S32I xxxx xxxx 0110 ssss tttt 0010
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* XXX 0111 ssss tttt 0010
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* XXX 1000 ssss tttt 0010
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* L16SI xxxx xxxx 1001 ssss tttt 0010
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* XXX 1010 0010
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* **L32AI xxxx xxxx 1011 ssss tttt 0010 unsupported
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* XXX 1100 0010
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* XXX 1101 0010
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* XXX 1110 0010
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* **S32RI xxxx xxxx 1111 ssss tttt 0010 unsupported
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* -----------------------------
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* ^ ^ ^
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* sub-opcode (NIBBLE_R) -+ | |
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* t field (NIBBLE_T) -----------+ |
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* major opcode (NIBBLE_OP0) --------------+
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*/
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#define OP0_L32I_N 0x8 /* load immediate narrow */
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#define OP0_S32I_N 0x9 /* store immediate narrow */
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#define OP1_SI_MASK 0x4 /* OP1 bit set for stores */
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#define OP1_SI_BIT 2 /* OP1 bit number for stores */
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#define OP1_L32I 0x2
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#define OP1_L16UI 0x1
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#define OP1_L16SI 0x9
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#define OP1_L32AI 0xb
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#define OP1_S32I 0x6
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#define OP1_S16I 0x5
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#define OP1_S32RI 0xf
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/*
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* Entry condition:
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*
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* a0: trashed, original value saved on stack (PT_AREG0)
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* a1: a1
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* a2: new stack pointer, original in DEPC
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* a3: a3
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* depc: a2, original value saved on stack (PT_DEPC)
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* excsave_1: dispatch table
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*
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* PT_DEPC >= VALID_DOUBLE_EXCEPTION_ADDRESS: double exception, DEPC
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* < VALID_DOUBLE_EXCEPTION_ADDRESS: regular exception
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*/
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.literal_position
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ENTRY(fast_unaligned)
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/* Note: We don't expect the address to be aligned on a word
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* boundary. After all, the processor generated that exception
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* and it would be a hardware fault.
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*/
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/* Save some working register */
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s32i a4, a2, PT_AREG4
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s32i a5, a2, PT_AREG5
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s32i a6, a2, PT_AREG6
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s32i a7, a2, PT_AREG7
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s32i a8, a2, PT_AREG8
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rsr a0, depc
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s32i a0, a2, PT_AREG2
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s32i a3, a2, PT_AREG3
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rsr a3, excsave1
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movi a4, fast_unaligned_fixup
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s32i a4, a3, EXC_TABLE_FIXUP
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/* Keep value of SAR in a0 */
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rsr a0, sar
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rsr a8, excvaddr # load unaligned memory address
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/* Now, identify one of the following load/store instructions.
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*
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* The only possible danger of a double exception on the
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* following l32i instructions is kernel code in vmalloc
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* memory. The processor was just executing at the EPC_1
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* address, and indeed, already fetched the instruction. That
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* guarantees a TLB mapping, which hasn't been replaced by
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* this unaligned exception handler that uses only static TLB
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* mappings. However, high-level interrupt handlers might
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* modify TLB entries, so for the generic case, we register a
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* TABLE_FIXUP handler here, too.
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*/
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/* a3...a6 saved on stack, a2 = SP */
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/* Extract the instruction that caused the unaligned access. */
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rsr a7, epc1 # load exception address
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movi a3, ~3
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and a3, a3, a7 # mask lower bits
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l32i a4, a3, 0 # load 2 words
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l32i a5, a3, 4
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__ssa8 a7
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__src_b a4, a4, a5 # a4 has the instruction
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/* Analyze the instruction (load or store?). */
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extui a5, a4, INSN_OP0, 4 # get insn.op0 nibble
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#if XCHAL_HAVE_DENSITY
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_beqi a5, OP0_L32I_N, .Lload # L32I.N, jump
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addi a6, a5, -OP0_S32I_N
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_beqz a6, .Lstore # S32I.N, do a store
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#endif
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/* 'store indicator bit' not set, jump */
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_bbci.l a4, OP1_SI_BIT + INSN_OP1, .Lload
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/* Store: Jump to table entry to get the value in the source register.*/
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.Lstore:movi a5, .Lstore_table # table
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extui a6, a4, INSN_T, 4 # get source register
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addx8 a5, a6, a5
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jx a5 # jump into table
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/* Load: Load memory address. */
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.Lload: movi a3, ~3
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and a3, a3, a8 # align memory address
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__ssa8 a8
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#ifdef UNALIGNED_USER_EXCEPTION
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addi a3, a3, 8
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l32e a5, a3, -8
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l32e a6, a3, -4
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#else
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l32i a5, a3, 0
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l32i a6, a3, 4
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#endif
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__src_b a3, a5, a6 # a3 has the data word
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#if XCHAL_HAVE_DENSITY
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addi a7, a7, 2 # increment PC (assume 16-bit insn)
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extui a5, a4, INSN_OP0, 4
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_beqi a5, OP0_L32I_N, 1f # l32i.n: jump
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addi a7, a7, 1
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#else
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addi a7, a7, 3
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#endif
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extui a5, a4, INSN_OP1, 4
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_beqi a5, OP1_L32I, 1f # l32i: jump
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extui a3, a3, 0, 16 # extract lower 16 bits
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_beqi a5, OP1_L16UI, 1f
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addi a5, a5, -OP1_L16SI
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_bnez a5, .Linvalid_instruction_load
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/* sign extend value */
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slli a3, a3, 16
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srai a3, a3, 16
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/* Set target register. */
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1:
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extui a4, a4, INSN_T, 4 # extract target register
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movi a5, .Lload_table
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addx8 a4, a4, a5
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jx a4 # jump to entry for target register
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.align 8
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.Lload_table:
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s32i a3, a2, PT_AREG0; _j .Lexit; .align 8
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mov a1, a3; _j .Lexit; .align 8 # fishy??
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s32i a3, a2, PT_AREG2; _j .Lexit; .align 8
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s32i a3, a2, PT_AREG3; _j .Lexit; .align 8
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s32i a3, a2, PT_AREG4; _j .Lexit; .align 8
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s32i a3, a2, PT_AREG5; _j .Lexit; .align 8
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s32i a3, a2, PT_AREG6; _j .Lexit; .align 8
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s32i a3, a2, PT_AREG7; _j .Lexit; .align 8
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s32i a3, a2, PT_AREG8; _j .Lexit; .align 8
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mov a9, a3 ; _j .Lexit; .align 8
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mov a10, a3 ; _j .Lexit; .align 8
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mov a11, a3 ; _j .Lexit; .align 8
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mov a12, a3 ; _j .Lexit; .align 8
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mov a13, a3 ; _j .Lexit; .align 8
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mov a14, a3 ; _j .Lexit; .align 8
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mov a15, a3 ; _j .Lexit; .align 8
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.Lstore_table:
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l32i a3, a2, PT_AREG0; _j 1f; .align 8
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mov a3, a1; _j 1f; .align 8 # fishy??
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l32i a3, a2, PT_AREG2; _j 1f; .align 8
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l32i a3, a2, PT_AREG3; _j 1f; .align 8
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l32i a3, a2, PT_AREG4; _j 1f; .align 8
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l32i a3, a2, PT_AREG5; _j 1f; .align 8
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l32i a3, a2, PT_AREG6; _j 1f; .align 8
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l32i a3, a2, PT_AREG7; _j 1f; .align 8
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l32i a3, a2, PT_AREG8; _j 1f; .align 8
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mov a3, a9 ; _j 1f; .align 8
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mov a3, a10 ; _j 1f; .align 8
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mov a3, a11 ; _j 1f; .align 8
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mov a3, a12 ; _j 1f; .align 8
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mov a3, a13 ; _j 1f; .align 8
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mov a3, a14 ; _j 1f; .align 8
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mov a3, a15 ; _j 1f; .align 8
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/* We cannot handle this exception. */
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.extern _kernel_exception
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.Linvalid_instruction_load:
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.Linvalid_instruction_store:
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movi a4, 0
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rsr a3, excsave1
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s32i a4, a3, EXC_TABLE_FIXUP
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/* Restore a4...a8 and SAR, set SP, and jump to default exception. */
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l32i a8, a2, PT_AREG8
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l32i a7, a2, PT_AREG7
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l32i a6, a2, PT_AREG6
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l32i a5, a2, PT_AREG5
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l32i a4, a2, PT_AREG4
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wsr a0, sar
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mov a1, a2
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rsr a0, ps
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bbsi.l a0, PS_UM_BIT, 2f # jump if user mode
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movi a0, _kernel_exception
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jx a0
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2: movi a0, _user_exception
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jx a0
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1: # a7: instruction pointer, a4: instruction, a3: value
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movi a6, 0 # mask: ffffffff:00000000
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#if XCHAL_HAVE_DENSITY
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addi a7, a7, 2 # incr. PC,assume 16-bit instruction
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extui a5, a4, INSN_OP0, 4 # extract OP0
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addi a5, a5, -OP0_S32I_N
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_beqz a5, 1f # s32i.n: jump
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addi a7, a7, 1 # increment PC, 32-bit instruction
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#else
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addi a7, a7, 3 # increment PC, 32-bit instruction
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#endif
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extui a5, a4, INSN_OP1, 4 # extract OP1
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_beqi a5, OP1_S32I, 1f # jump if 32 bit store
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_bnei a5, OP1_S16I, .Linvalid_instruction_store
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movi a5, -1
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__extl a3, a3 # get 16-bit value
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__exth a6, a5 # get 16-bit mask ffffffff:ffff0000
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/* Get memory address */
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1:
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movi a4, ~3
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and a4, a4, a8 # align memory address
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/* Insert value into memory */
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movi a5, -1 # mask: ffffffff:XXXX0000
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#ifdef UNALIGNED_USER_EXCEPTION
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addi a4, a4, 8
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#endif
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__ssa8r a8
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__src_b a8, a5, a6 # lo-mask F..F0..0 (BE) 0..0F..F (LE)
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__src_b a6, a6, a5 # hi-mask 0..0F..F (BE) F..F0..0 (LE)
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#ifdef UNALIGNED_USER_EXCEPTION
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l32e a5, a4, -8
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#else
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l32i a5, a4, 0 # load lower address word
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#endif
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and a5, a5, a8 # mask
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__sh a8, a3 # shift value
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or a5, a5, a8 # or with original value
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#ifdef UNALIGNED_USER_EXCEPTION
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s32e a5, a4, -8
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l32e a8, a4, -4
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#else
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s32i a5, a4, 0 # store
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l32i a8, a4, 4 # same for upper address word
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#endif
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__sl a5, a3
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and a6, a8, a6
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or a6, a6, a5
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#ifdef UNALIGNED_USER_EXCEPTION
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s32e a6, a4, -4
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#else
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s32i a6, a4, 4
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#endif
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.Lexit:
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#if XCHAL_HAVE_LOOPS
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rsr a4, lend # check if we reached LEND
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bne a7, a4, 1f
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rsr a4, lcount # and LCOUNT != 0
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beqz a4, 1f
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addi a4, a4, -1 # decrement LCOUNT and set
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rsr a7, lbeg # set PC to LBEGIN
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wsr a4, lcount
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#endif
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1: wsr a7, epc1 # skip emulated instruction
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/* Update icount if we're single-stepping in userspace. */
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rsr a4, icountlevel
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beqz a4, 1f
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bgeui a4, LOCKLEVEL + 1, 1f
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rsr a4, icount
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addi a4, a4, 1
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wsr a4, icount
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1:
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movi a4, 0
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rsr a3, excsave1
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s32i a4, a3, EXC_TABLE_FIXUP
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/* Restore working register */
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l32i a8, a2, PT_AREG8
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l32i a7, a2, PT_AREG7
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l32i a6, a2, PT_AREG6
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l32i a5, a2, PT_AREG5
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l32i a4, a2, PT_AREG4
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l32i a3, a2, PT_AREG3
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/* restore SAR and return */
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wsr a0, sar
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l32i a0, a2, PT_AREG0
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l32i a2, a2, PT_AREG2
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rfe
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ENDPROC(fast_unaligned)
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ENTRY(fast_unaligned_fixup)
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l32i a2, a3, EXC_TABLE_DOUBLE_SAVE
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wsr a3, excsave1
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l32i a8, a2, PT_AREG8
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l32i a7, a2, PT_AREG7
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l32i a6, a2, PT_AREG6
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l32i a5, a2, PT_AREG5
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l32i a4, a2, PT_AREG4
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l32i a0, a2, PT_AREG2
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xsr a0, depc # restore depc and a0
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wsr a0, sar
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rsr a0, exccause
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s32i a0, a2, PT_DEPC # mark as a regular exception
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rsr a0, ps
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bbsi.l a0, PS_UM_BIT, 1f # jump if user mode
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rsr a0, exccause
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addx4 a0, a0, a3 # find entry in table
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l32i a0, a0, EXC_TABLE_FAST_KERNEL # load handler
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l32i a3, a2, PT_AREG3
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jx a0
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1:
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rsr a0, exccause
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addx4 a0, a0, a3 # find entry in table
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l32i a0, a0, EXC_TABLE_FAST_USER # load handler
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l32i a3, a2, PT_AREG3
|
|
jx a0
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ENDPROC(fast_unaligned_fixup)
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#endif /* XCHAL_UNALIGNED_LOAD_EXCEPTION || XCHAL_UNALIGNED_STORE_EXCEPTION */
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