318 lines
8.0 KiB
ArmAsm
318 lines
8.0 KiB
ArmAsm
/* SPDX-License-Identifier: GPL-2.0-only */
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/*
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* Copyright (C) 2022 Michael T. Kloos <michael@michaelkloos.com>
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*/
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#include <linux/linkage.h>
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#include <asm/asm.h>
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SYM_FUNC_START(__memmove)
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/*
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* Returns
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* a0 - dest
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*
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* Parameters
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* a0 - Inclusive first byte of dest
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* a1 - Inclusive first byte of src
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* a2 - Length of copy n
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*
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* Because the return matches the parameter register a0,
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* we will not clobber or modify that register.
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*
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* Note: This currently only works on little-endian.
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* To port to big-endian, reverse the direction of shifts
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* in the 2 misaligned fixup copy loops.
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*/
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/* Return if nothing to do */
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beq a0, a1, .Lreturn_from_memmove
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beqz a2, .Lreturn_from_memmove
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/*
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* Register Uses
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* Forward Copy: a1 - Index counter of src
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* Reverse Copy: a4 - Index counter of src
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* Forward Copy: t3 - Index counter of dest
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* Reverse Copy: t4 - Index counter of dest
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* Both Copy Modes: t5 - Inclusive first multibyte/aligned of dest
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* Both Copy Modes: t6 - Non-Inclusive last multibyte/aligned of dest
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* Both Copy Modes: t0 - Link / Temporary for load-store
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* Both Copy Modes: t1 - Temporary for load-store
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* Both Copy Modes: t2 - Temporary for load-store
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* Both Copy Modes: a5 - dest to src alignment offset
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* Both Copy Modes: a6 - Shift ammount
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* Both Copy Modes: a7 - Inverse Shift ammount
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* Both Copy Modes: a2 - Alternate breakpoint for unrolled loops
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*/
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/*
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* Solve for some register values now.
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* Byte copy does not need t5 or t6.
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*/
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mv t3, a0
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add t4, a0, a2
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add a4, a1, a2
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/*
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* Byte copy if copying less than (2 * SZREG) bytes. This can
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* cause problems with the bulk copy implementation and is
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* small enough not to bother.
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*/
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andi t0, a2, -(2 * SZREG)
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beqz t0, .Lbyte_copy
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/*
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* Now solve for t5 and t6.
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*/
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andi t5, t3, -SZREG
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andi t6, t4, -SZREG
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/*
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* If dest(Register t3) rounded down to the nearest naturally
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* aligned SZREG address, does not equal dest, then add SZREG
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* to find the low-bound of SZREG alignment in the dest memory
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* region. Note that this could overshoot the dest memory
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* region if n is less than SZREG. This is one reason why
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* we always byte copy if n is less than SZREG.
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* Otherwise, dest is already naturally aligned to SZREG.
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*/
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beq t5, t3, 1f
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addi t5, t5, SZREG
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1:
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/*
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* If the dest and src are co-aligned to SZREG, then there is
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* no need for the full rigmarole of a full misaligned fixup copy.
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* Instead, do a simpler co-aligned copy.
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*/
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xor t0, a0, a1
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andi t1, t0, (SZREG - 1)
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beqz t1, .Lcoaligned_copy
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/* Fall through to misaligned fixup copy */
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.Lmisaligned_fixup_copy:
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bltu a1, a0, .Lmisaligned_fixup_copy_reverse
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.Lmisaligned_fixup_copy_forward:
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jal t0, .Lbyte_copy_until_aligned_forward
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andi a5, a1, (SZREG - 1) /* Find the alignment offset of src (a1) */
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slli a6, a5, 3 /* Multiply by 8 to convert that to bits to shift */
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sub a5, a1, t3 /* Find the difference between src and dest */
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andi a1, a1, -SZREG /* Align the src pointer */
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addi a2, t6, SZREG /* The other breakpoint for the unrolled loop*/
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/*
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* Compute The Inverse Shift
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* a7 = XLEN - a6 = XLEN + -a6
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* 2s complement negation to find the negative: -a6 = ~a6 + 1
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* Add that to XLEN. XLEN = SZREG * 8.
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*/
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not a7, a6
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addi a7, a7, (SZREG * 8 + 1)
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/*
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* Fix Misalignment Copy Loop - Forward
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* load_val0 = load_ptr[0];
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* do {
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* load_val1 = load_ptr[1];
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* store_ptr += 2;
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* store_ptr[0 - 2] = (load_val0 >> {a6}) | (load_val1 << {a7});
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*
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* if (store_ptr == {a2})
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* break;
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*
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* load_val0 = load_ptr[2];
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* load_ptr += 2;
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* store_ptr[1 - 2] = (load_val1 >> {a6}) | (load_val0 << {a7});
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*
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* } while (store_ptr != store_ptr_end);
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* store_ptr = store_ptr_end;
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*/
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REG_L t0, (0 * SZREG)(a1)
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1:
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REG_L t1, (1 * SZREG)(a1)
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addi t3, t3, (2 * SZREG)
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srl t0, t0, a6
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sll t2, t1, a7
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or t2, t0, t2
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REG_S t2, ((0 * SZREG) - (2 * SZREG))(t3)
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beq t3, a2, 2f
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REG_L t0, (2 * SZREG)(a1)
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addi a1, a1, (2 * SZREG)
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srl t1, t1, a6
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sll t2, t0, a7
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or t2, t1, t2
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REG_S t2, ((1 * SZREG) - (2 * SZREG))(t3)
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bne t3, t6, 1b
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2:
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mv t3, t6 /* Fix the dest pointer in case the loop was broken */
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add a1, t3, a5 /* Restore the src pointer */
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j .Lbyte_copy_forward /* Copy any remaining bytes */
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.Lmisaligned_fixup_copy_reverse:
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jal t0, .Lbyte_copy_until_aligned_reverse
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andi a5, a4, (SZREG - 1) /* Find the alignment offset of src (a4) */
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slli a6, a5, 3 /* Multiply by 8 to convert that to bits to shift */
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sub a5, a4, t4 /* Find the difference between src and dest */
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andi a4, a4, -SZREG /* Align the src pointer */
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addi a2, t5, -SZREG /* The other breakpoint for the unrolled loop*/
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/*
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* Compute The Inverse Shift
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* a7 = XLEN - a6 = XLEN + -a6
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* 2s complement negation to find the negative: -a6 = ~a6 + 1
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* Add that to XLEN. XLEN = SZREG * 8.
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*/
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not a7, a6
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addi a7, a7, (SZREG * 8 + 1)
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/*
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* Fix Misalignment Copy Loop - Reverse
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* load_val1 = load_ptr[0];
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* do {
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* load_val0 = load_ptr[-1];
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* store_ptr -= 2;
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* store_ptr[1] = (load_val0 >> {a6}) | (load_val1 << {a7});
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*
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* if (store_ptr == {a2})
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* break;
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*
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* load_val1 = load_ptr[-2];
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* load_ptr -= 2;
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* store_ptr[0] = (load_val1 >> {a6}) | (load_val0 << {a7});
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*
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* } while (store_ptr != store_ptr_end);
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* store_ptr = store_ptr_end;
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*/
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REG_L t1, ( 0 * SZREG)(a4)
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1:
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REG_L t0, (-1 * SZREG)(a4)
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addi t4, t4, (-2 * SZREG)
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sll t1, t1, a7
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srl t2, t0, a6
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or t2, t1, t2
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REG_S t2, ( 1 * SZREG)(t4)
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beq t4, a2, 2f
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REG_L t1, (-2 * SZREG)(a4)
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addi a4, a4, (-2 * SZREG)
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sll t0, t0, a7
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srl t2, t1, a6
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or t2, t0, t2
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REG_S t2, ( 0 * SZREG)(t4)
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bne t4, t5, 1b
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2:
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mv t4, t5 /* Fix the dest pointer in case the loop was broken */
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add a4, t4, a5 /* Restore the src pointer */
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j .Lbyte_copy_reverse /* Copy any remaining bytes */
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/*
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* Simple copy loops for SZREG co-aligned memory locations.
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* These also make calls to do byte copies for any unaligned
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* data at their terminations.
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*/
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.Lcoaligned_copy:
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bltu a1, a0, .Lcoaligned_copy_reverse
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.Lcoaligned_copy_forward:
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jal t0, .Lbyte_copy_until_aligned_forward
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1:
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REG_L t1, ( 0 * SZREG)(a1)
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addi a1, a1, SZREG
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addi t3, t3, SZREG
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REG_S t1, (-1 * SZREG)(t3)
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bne t3, t6, 1b
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j .Lbyte_copy_forward /* Copy any remaining bytes */
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.Lcoaligned_copy_reverse:
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jal t0, .Lbyte_copy_until_aligned_reverse
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1:
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REG_L t1, (-1 * SZREG)(a4)
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addi a4, a4, -SZREG
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addi t4, t4, -SZREG
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REG_S t1, ( 0 * SZREG)(t4)
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bne t4, t5, 1b
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j .Lbyte_copy_reverse /* Copy any remaining bytes */
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/*
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* These are basically sub-functions within the function. They
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* are used to byte copy until the dest pointer is in alignment.
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* At which point, a bulk copy method can be used by the
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* calling code. These work on the same registers as the bulk
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* copy loops. Therefore, the register values can be picked
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* up from where they were left and we avoid code duplication
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* without any overhead except the call in and return jumps.
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*/
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.Lbyte_copy_until_aligned_forward:
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beq t3, t5, 2f
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1:
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lb t1, 0(a1)
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addi a1, a1, 1
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addi t3, t3, 1
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sb t1, -1(t3)
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bne t3, t5, 1b
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2:
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jalr zero, 0x0(t0) /* Return to multibyte copy loop */
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.Lbyte_copy_until_aligned_reverse:
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beq t4, t6, 2f
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1:
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lb t1, -1(a4)
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addi a4, a4, -1
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addi t4, t4, -1
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sb t1, 0(t4)
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bne t4, t6, 1b
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2:
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jalr zero, 0x0(t0) /* Return to multibyte copy loop */
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/*
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* Simple byte copy loops.
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* These will byte copy until they reach the end of data to copy.
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* At that point, they will call to return from memmove.
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*/
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.Lbyte_copy:
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bltu a1, a0, .Lbyte_copy_reverse
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.Lbyte_copy_forward:
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beq t3, t4, 2f
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1:
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lb t1, 0(a1)
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addi a1, a1, 1
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addi t3, t3, 1
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sb t1, -1(t3)
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bne t3, t4, 1b
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2:
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ret
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.Lbyte_copy_reverse:
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beq t4, t3, 2f
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1:
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lb t1, -1(a4)
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addi a4, a4, -1
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addi t4, t4, -1
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sb t1, 0(t4)
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bne t4, t3, 1b
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2:
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.Lreturn_from_memmove:
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ret
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SYM_FUNC_END(__memmove)
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SYM_FUNC_ALIAS_WEAK(memmove, __memmove)
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SYM_FUNC_ALIAS(__pi_memmove, __memmove)
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SYM_FUNC_ALIAS(__pi___memmove, __memmove)
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