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Diffstat (limited to 'ports/sysdeps/tile/tilepro/memcpy.S')
-rw-r--r-- | ports/sysdeps/tile/tilepro/memcpy.S | 397 |
1 files changed, 397 insertions, 0 deletions
diff --git a/ports/sysdeps/tile/tilepro/memcpy.S b/ports/sysdeps/tile/tilepro/memcpy.S new file mode 100644 index 0000000000..0a64f005fb --- /dev/null +++ b/ports/sysdeps/tile/tilepro/memcpy.S @@ -0,0 +1,397 @@ +/* Copyright (C) 2011 Free Software Foundation, Inc. + This file is part of the GNU C Library. + Contributed by Chris Metcalf <cmetcalf@tilera.com>, 2011. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library. If not, see + <http://www.gnu.org/licenses/>. */ + +#include <arch/chip.h> +#include <sysdep.h> + + .text +ENTRY (__memcpy) + FEEDBACK_ENTER(__memcpy) + + /* r0 is the dest, r1 is the source, r2 is the size. */ + + /* Save aside original dest so we can return it at the end. */ + { sw sp, lr; move r23, r0; or r4, r0, r1 } + cfi_offset (lr, 0) + + /* Check for an empty size. */ + { bz r2, .Ldone; andi r4, r4, 3 } + + /* Check for an unaligned source or dest. */ + { bnz r4, .Lcopy_unaligned_maybe_many; addli r4, r2, -256 } + +.Lcheck_aligned_copy_size: + /* If we are copying < 256 bytes, branch to simple case. */ + { blzt r4, .Lcopy_8_check; slti_u r8, r2, 8 } + + /* Copying >= 256 bytes, so jump to complex prefetching loop. */ + { andi r6, r1, 63; j .Lcopy_many } + +/* Aligned 4 byte at a time copy loop. */ + +.Lcopy_8_loop: + /* Copy two words at a time to hide load latency. */ + { lw r3, r1; addi r1, r1, 4; slti_u r8, r2, 16 } + { lw r4, r1; addi r1, r1, 4 } + { sw r0, r3; addi r0, r0, 4; addi r2, r2, -4 } + { sw r0, r4; addi r0, r0, 4; addi r2, r2, -4 } +.Lcopy_8_check: + { bzt r8, .Lcopy_8_loop; slti_u r4, r2, 4 } + + /* Copy odd leftover word, if any. */ + { bnzt r4, .Lcheck_odd_stragglers } + { lw r3, r1; addi r1, r1, 4 } + { sw r0, r3; addi r0, r0, 4; addi r2, r2, -4 } + +.Lcheck_odd_stragglers: + { bnz r2, .Lcopy_unaligned_few } + +.Ldone: + { move r0, r23; jrp lr } + +/* Prefetching multiple cache line copy handler (for large transfers). */ + + /* Copy words until r1 is cache-line-aligned. */ +.Lalign_loop: + { lw r3, r1; addi r1, r1, 4 } + { andi r6, r1, 63 } + { sw r0, r3; addi r0, r0, 4; addi r2, r2, -4 } +.Lcopy_many: + { bnzt r6, .Lalign_loop; addi r9, r0, 63 } + + { addi r3, r1, 60; andi r9, r9, -64 } + + /* No need to prefetch dst, we'll just do the wh64 + right before we copy a line. */ + { lw r5, r3; addi r3, r3, 64; movei r4, 1 } + /* Intentionally stall for a few cycles to leave L2 cache alone. */ + { bnzt zero, .; move r27, lr } + { lw r6, r3; addi r3, r3, 64 } + /* Intentionally stall for a few cycles to leave L2 cache alone. */ + { bnzt zero, . } + { lw r7, r3; addi r3, r3, 64 } + /* Intentionally stall for a few cycles to leave L2 cache alone. */ + { bz zero, .Lbig_loop2 } + + /* On entry to this loop: + - r0 points to the start of dst line 0 + - r1 points to start of src line 0 + - r2 >= (256 - 60), only the first time the loop trips. + - r3 contains r1 + 128 + 60 [pointer to end of source line 2] + This is our prefetch address. When we get near the end + rather than prefetching off the end this is changed to point + to some "safe" recently loaded address. + - r5 contains *(r1 + 60) [i.e. last word of source line 0] + - r6 contains *(r1 + 64 + 60) [i.e. last word of source line 1] + - r9 contains ((r0 + 63) & -64) + [start of next dst cache line.] */ + +.Lbig_loop: + { jal .Lcopy_line2; add r15, r1, r2 } + +.Lbig_loop2: + /* Copy line 0, first stalling until r5 is ready. */ + { move r12, r5; lw r16, r1 } + { bz r4, .Lcopy_8_check; slti_u r8, r2, 8 } + /* Prefetch several lines ahead. */ + { lw r5, r3; addi r3, r3, 64 } + { jal .Lcopy_line } + + /* Copy line 1, first stalling until r6 is ready. */ + { move r12, r6; lw r16, r1 } + { bz r4, .Lcopy_8_check; slti_u r8, r2, 8 } + /* Prefetch several lines ahead. */ + { lw r6, r3; addi r3, r3, 64 } + { jal .Lcopy_line } + + /* Copy line 2, first stalling until r7 is ready. */ + { move r12, r7; lw r16, r1 } + { bz r4, .Lcopy_8_check; slti_u r8, r2, 8 } + /* Prefetch several lines ahead. */ + { lw r7, r3; addi r3, r3, 64 } + /* Use up a caches-busy cycle by jumping back to the top of the + loop. Might as well get it out of the way now. */ + { j .Lbig_loop } + + + /* On entry: + - r0 points to the destination line. + - r1 points to the source line. + - r3 is the next prefetch address. + - r9 holds the last address used for wh64. + - r12 = WORD_15 + - r16 = WORD_0. + - r17 == r1 + 16. + - r27 holds saved lr to restore. + + On exit: + - r0 is incremented by 64. + - r1 is incremented by 64, unless that would point to a word + beyond the end of the source array, in which case it is redirected + to point to an arbitrary word already in the cache. + - r2 is decremented by 64. + - r3 is unchanged, unless it points to a word beyond the + end of the source array, in which case it is redirected + to point to an arbitrary word already in the cache. + Redirecting is OK since if we are that close to the end + of the array we will not come back to this subroutine + and use the contents of the prefetched address. + - r4 is nonzero iff r2 >= 64. + - r9 is incremented by 64, unless it points beyond the + end of the last full destination cache line, in which + case it is redirected to a "safe address" that can be + clobbered (sp - 64) + - lr contains the value in r27. */ + +/* r26 unused */ + +.Lcopy_line: + /* TODO: when r3 goes past the end, we would like to redirect it + to prefetch the last partial cache line (if any) just once, for the + benefit of the final cleanup loop. But we don't want to + prefetch that line more than once, or subsequent prefetches + will go into the RTF. But then .Lbig_loop should unconditionally + branch to top of loop to execute final prefetch, and its + nop should become a conditional branch. */ + + /* We need two non-memory cycles here to cover the resources + used by the loads initiated by the caller. */ + { add r15, r1, r2 } +.Lcopy_line2: + { slt_u r13, r3, r15; addi r17, r1, 16 } + + /* NOTE: this will stall for one cycle as L1 is busy. */ + + /* Fill second L1D line. */ + { lw r17, r17; addi r1, r1, 48; mvz r3, r13, r1 } /* r17 = WORD_4 */ + + /* Prepare destination line for writing. */ + { wh64 r9; addi r9, r9, 64 } + + /* Load seven words that are L1D hits to cover wh64 L2 usage. */ + + /* Load the three remaining words from the last L1D line, which + we know has already filled the L1D. */ + { lw r4, r1; addi r1, r1, 4; addi r20, r1, 16 } /* r4 = WORD_12 */ + { lw r8, r1; addi r1, r1, 4; slt_u r13, r20, r15 }/* r8 = WORD_13 */ + { lw r11, r1; addi r1, r1, -52; mvz r20, r13, r1 } /* r11 = WORD_14 */ + + /* Load the three remaining words from the first L1D line, first + stalling until it has filled by "looking at" r16. */ + { lw r13, r1; addi r1, r1, 4; move zero, r16 } /* r13 = WORD_1 */ + { lw r14, r1; addi r1, r1, 4 } /* r14 = WORD_2 */ + { lw r15, r1; addi r1, r1, 8; addi r10, r0, 60 } /* r15 = WORD_3 */ + + /* Load second word from the second L1D line, first + stalling until it has filled by "looking at" r17. */ + { lw r19, r1; addi r1, r1, 4; move zero, r17 } /* r19 = WORD_5 */ + + /* Store last word to the destination line, potentially dirtying it + for the first time, which keeps the L2 busy for two cycles. */ + { sw r10, r12 } /* store(WORD_15) */ + + /* Use two L1D hits to cover the sw L2 access above. */ + { lw r10, r1; addi r1, r1, 4 } /* r10 = WORD_6 */ + { lw r12, r1; addi r1, r1, 4 } /* r12 = WORD_7 */ + + /* Fill third L1D line. */ + { lw r18, r1; addi r1, r1, 4 } /* r18 = WORD_8 */ + + /* Store first L1D line. */ + { sw r0, r16; addi r0, r0, 4; add r16, r0, r2 } /* store(WORD_0) */ + { sw r0, r13; addi r0, r0, 4; andi r16, r16, -64 } /* store(WORD_1) */ + { sw r0, r14; addi r0, r0, 4; slt_u r16, r9, r16 } /* store(WORD_2) */ + { sw r0, r15; addi r0, r0, 4; addi r13, sp, -64 } /* store(WORD_3) */ + + /* Store second L1D line. */ + { sw r0, r17; addi r0, r0, 4; mvz r9, r16, r13 }/* store(WORD_4) */ + { sw r0, r19; addi r0, r0, 4 } /* store(WORD_5) */ + { sw r0, r10; addi r0, r0, 4 } /* store(WORD_6) */ + { sw r0, r12; addi r0, r0, 4 } /* store(WORD_7) */ + + { lw r13, r1; addi r1, r1, 4; move zero, r18 } /* r13 = WORD_9 */ + { lw r14, r1; addi r1, r1, 4 } /* r14 = WORD_10 */ + { lw r15, r1; move r1, r20 } /* r15 = WORD_11 */ + + /* Store third L1D line. */ + { sw r0, r18; addi r0, r0, 4 } /* store(WORD_8) */ + { sw r0, r13; addi r0, r0, 4 } /* store(WORD_9) */ + { sw r0, r14; addi r0, r0, 4 } /* store(WORD_10) */ + { sw r0, r15; addi r0, r0, 4 } /* store(WORD_11) */ + + /* Store rest of fourth L1D line. */ + { sw r0, r4; addi r0, r0, 4 } /* store(WORD_12) */ + { + sw r0, r8 /* store(WORD_13) */ + addi r0, r0, 4 + /* Will r2 be > 64 after we subtract 64 below? */ + shri r4, r2, 7 + } + { + sw r0, r11 /* store(WORD_14) */ + addi r0, r0, 8 + /* Record 64 bytes successfully copied. */ + addi r2, r2, -64 + } + + { jrp lr; move lr, r27 } + + /* Convey to the backtrace library that the stack frame is + size zero, and the real return address is on the stack + rather than in 'lr'. */ + { info 8 } + + .align 64 +.Lcopy_unaligned_maybe_many: + /* Skip the setup overhead if we aren't copying many bytes. */ + { slti_u r8, r2, 20; sub r4, zero, r0 } + { bnzt r8, .Lcopy_unaligned_few; andi r4, r4, 3 } + { bz r4, .Ldest_is_word_aligned; add r18, r1, r2 } + +/* Unaligned 4 byte at a time copy handler. */ + + /* Copy single bytes until r0 == 0 mod 4, so we can store words. */ +.Lalign_dest_loop: + { lb_u r3, r1; addi r1, r1, 1; addi r4, r4, -1 } + { sb r0, r3; addi r0, r0, 1; addi r2, r2, -1 } + { bnzt r4, .Lalign_dest_loop; andi r3, r1, 3 } + + /* If source and dest are now *both* aligned, do an aligned copy. */ + { bz r3, .Lcheck_aligned_copy_size; addli r4, r2, -256 } + +.Ldest_is_word_aligned: + + { andi r8, r0, 63; lwadd_na r6, r1, 4} + { slti_u r9, r2, 64; bz r8, .Ldest_is_L2_line_aligned } + + /* This copies unaligned words until either there are fewer + than 4 bytes left to copy, or until the destination pointer + is cache-aligned, whichever comes first. + + On entry: + - r0 is the next store address. + - r1 points 4 bytes past the load address corresponding to r0. + - r2 >= 4 + - r6 is the next aligned word loaded. */ +.Lcopy_unaligned_src_words: + { lwadd_na r7, r1, 4; slti_u r8, r2, 4 + 4 } + /* stall */ + { dword_align r6, r7, r1; slti_u r9, r2, 64 + 4 } + { swadd r0, r6, 4; addi r2, r2, -4 } + { bnz r8, .Lcleanup_unaligned_words; andi r8, r0, 63 } + { bnzt r8, .Lcopy_unaligned_src_words; move r6, r7 } + + /* On entry: + - r0 is the next store address. + - r1 points 4 bytes past the load address corresponding to r0. + - r2 >= 4 (# of bytes left to store). + - r6 is the next aligned src word value. + - r9 = (r2 < 64U). + - r18 points one byte past the end of source memory. */ +.Ldest_is_L2_line_aligned: + + { + /* Not a full cache line remains. */ + bnz r9, .Lcleanup_unaligned_words + move r7, r6 + } + + /* r2 >= 64 */ + + /* Kick off two prefetches, but don't go past the end. */ + { addi r3, r1, 63 - 4; addi r8, r1, 64 + 63 - 4 } + { prefetch r3; move r3, r8; slt_u r8, r8, r18 } + { mvz r3, r8, r1; addi r8, r3, 64 } + { prefetch r3; move r3, r8; slt_u r8, r8, r18 } + { mvz r3, r8, r1; movei r17, 0 } + +.Lcopy_unaligned_line: + /* Prefetch another line. */ + { prefetch r3; addi r15, r1, 60; addi r3, r3, 64 } + /* Fire off a load of the last word we are about to copy. */ + { lw_na r15, r15; slt_u r8, r3, r18 } + + { mvz r3, r8, r1; wh64 r0 } + + /* This loop runs twice. + + On entry: + - r17 is even before the first iteration, and odd before + the second. It is incremented inside the loop. Encountering + an even value at the end of the loop makes it stop. */ +.Lcopy_half_an_unaligned_line: + { + /* Stall until the last byte is ready. In the steady state this + guarantees all words to load below will be in the L2 cache, which + avoids shunting the loads to the RTF. */ + move zero, r15 + lwadd_na r7, r1, 16 + } + { lwadd_na r11, r1, 12 } + { lwadd_na r14, r1, -24 } + { lwadd_na r8, r1, 4 } + { lwadd_na r9, r1, 4 } + { + lwadd_na r10, r1, 8 + /* r16 = (r2 < 64), after we subtract 32 from r2 below. */ + slti_u r16, r2, 64 + 32 + } + { lwadd_na r12, r1, 4; addi r17, r17, 1 } + { lwadd_na r13, r1, 8; dword_align r6, r7, r1 } + { swadd r0, r6, 4; dword_align r7, r8, r1 } + { swadd r0, r7, 4; dword_align r8, r9, r1 } + { swadd r0, r8, 4; dword_align r9, r10, r1 } + { swadd r0, r9, 4; dword_align r10, r11, r1 } + { swadd r0, r10, 4; dword_align r11, r12, r1 } + { swadd r0, r11, 4; dword_align r12, r13, r1 } + { swadd r0, r12, 4; dword_align r13, r14, r1 } + { swadd r0, r13, 4; addi r2, r2, -32 } + { move r6, r14; bbst r17, .Lcopy_half_an_unaligned_line } + + { bzt r16, .Lcopy_unaligned_line; move r7, r6 } + + /* On entry: + - r0 is the next store address. + - r1 points 4 bytes past the load address corresponding to r0. + - r2 >= 0 (# of bytes left to store). + - r7 is the next aligned src word value. */ +.Lcleanup_unaligned_words: + /* Handle any trailing bytes. */ + { bz r2, .Lcopy_unaligned_done; slti_u r8, r2, 4 } + { bzt r8, .Lcopy_unaligned_src_words; move r6, r7 } + + /* Move r1 back to the point where it corresponds to r0. */ + { addi r1, r1, -4 } + + /* Fall through */ + +/* 1 byte at a time copy handler. */ + +.Lcopy_unaligned_few: + { lb_u r3, r1; addi r1, r1, 1 } + { sb r0, r3; addi r0, r0, 1; addi r2, r2, -1 } + { bnzt r2, .Lcopy_unaligned_few } + +.Lcopy_unaligned_done: + + { move r0, r23; jrp lr } + +END (__memcpy) + +weak_alias (__memcpy, memcpy) +libc_hidden_builtin_def (memcpy) |