mkp224o/ed25519/amd64-51-30k/heap_rootreplaced_2limbs.s

437 lines
9.6 KiB
ArmAsm

# qhasm: int64 hp
# qhasm: int64 hlen
# qhasm: int64 sp
# qhasm: int64 pp
# qhasm: input hp
# qhasm: input hlen
# qhasm: input sp
# qhasm: int64 prc
# qhasm: int64 plc
# qhasm: int64 pc
# qhasm: int64 d
# qhasm: int64 spp
# qhasm: int64 sprc
# qhasm: int64 spc
# qhasm: int64 c0
# qhasm: int64 c1
# qhasm: int64 c2
# qhasm: int64 c3
# qhasm: int64 t0
# qhasm: int64 t1
# qhasm: int64 t2
# qhasm: int64 t3
# qhasm: int64 p0
# qhasm: int64 p1
# qhasm: int64 p2
# qhasm: int64 p3
# qhasm: int64 caller1
# qhasm: int64 caller2
# qhasm: int64 caller3
# qhasm: int64 caller4
# qhasm: int64 caller5
# qhasm: int64 caller6
# qhasm: int64 caller7
# qhasm: caller caller1
# qhasm: caller caller2
# qhasm: caller caller3
# qhasm: caller caller4
# qhasm: caller caller5
# qhasm: caller caller6
# qhasm: caller caller7
# qhasm: stack64 caller1_stack
# qhasm: stack64 caller2_stack
# qhasm: stack64 caller3_stack
# qhasm: stack64 caller4_stack
# qhasm: stack64 caller5_stack
# qhasm: stack64 caller6_stack
# qhasm: stack64 caller7_stack
# qhasm: enter crypto_sign_ed25519_amd64_51_30k_batch_heap_rootreplaced_2limbs
.text
.p2align 5
.globl _crypto_sign_ed25519_amd64_51_30k_batch_heap_rootreplaced_2limbs
.globl crypto_sign_ed25519_amd64_51_30k_batch_heap_rootreplaced_2limbs
_crypto_sign_ed25519_amd64_51_30k_batch_heap_rootreplaced_2limbs:
crypto_sign_ed25519_amd64_51_30k_batch_heap_rootreplaced_2limbs:
mov %rsp,%r11
and $31,%r11
add $64,%r11
sub %r11,%rsp
# qhasm: caller1_stack = caller1
# asm 1: movq <caller1=int64#9,>caller1_stack=stack64#1
# asm 2: movq <caller1=%r11,>caller1_stack=0(%rsp)
movq %r11,0(%rsp)
# qhasm: caller2_stack = caller2
# asm 1: movq <caller2=int64#10,>caller2_stack=stack64#2
# asm 2: movq <caller2=%r12,>caller2_stack=8(%rsp)
movq %r12,8(%rsp)
# qhasm: caller3_stack = caller3
# asm 1: movq <caller3=int64#11,>caller3_stack=stack64#3
# asm 2: movq <caller3=%r13,>caller3_stack=16(%rsp)
movq %r13,16(%rsp)
# qhasm: caller4_stack = caller4
# asm 1: movq <caller4=int64#12,>caller4_stack=stack64#4
# asm 2: movq <caller4=%r14,>caller4_stack=24(%rsp)
movq %r14,24(%rsp)
# qhasm: caller5_stack = caller5
# asm 1: movq <caller5=int64#13,>caller5_stack=stack64#5
# asm 2: movq <caller5=%r15,>caller5_stack=32(%rsp)
movq %r15,32(%rsp)
# qhasm: caller6_stack = caller6
# asm 1: movq <caller6=int64#14,>caller6_stack=stack64#6
# asm 2: movq <caller6=%rbx,>caller6_stack=40(%rsp)
movq %rbx,40(%rsp)
# qhasm: caller7_stack = caller7
# asm 1: movq <caller7=int64#15,>caller7_stack=stack64#7
# asm 2: movq <caller7=%rbp,>caller7_stack=48(%rsp)
movq %rbp,48(%rsp)
# qhasm: pp = 0
# asm 1: mov $0,>pp=int64#4
# asm 2: mov $0,>pp=%rcx
mov $0,%rcx
# qhasm: siftdownloop:
._siftdownloop:
# qhasm: prc = pp
# asm 1: mov <pp=int64#4,>prc=int64#5
# asm 2: mov <pp=%rcx,>prc=%r8
mov %rcx,%r8
# qhasm: prc *= 2
# asm 1: imulq $2,<prc=int64#5,>prc=int64#5
# asm 2: imulq $2,<prc=%r8,>prc=%r8
imulq $2,%r8,%r8
# qhasm: pc = prc
# asm 1: mov <prc=int64#5,>pc=int64#6
# asm 2: mov <prc=%r8,>pc=%r9
mov %r8,%r9
# qhasm: prc += 2
# asm 1: add $2,<prc=int64#5
# asm 2: add $2,<prc=%r8
add $2,%r8
# qhasm: pc += 1
# asm 1: add $1,<pc=int64#6
# asm 2: add $1,<pc=%r9
add $1,%r9
# qhasm: unsigned>? hlen - prc
# asm 1: cmp <prc=int64#5,<hlen=int64#2
# asm 2: cmp <prc=%r8,<hlen=%rsi
cmp %r8,%rsi
# comment:fp stack unchanged by jump
# qhasm: goto siftuploop if !unsigned>
jbe ._siftuploop
# qhasm: sprc = *(uint64 *)(hp + prc * 8)
# asm 1: movq (<hp=int64#1,<prc=int64#5,8),>sprc=int64#7
# asm 2: movq (<hp=%rdi,<prc=%r8,8),>sprc=%rax
movq (%rdi,%r8,8),%rax
# qhasm: sprc <<= 5
# asm 1: shl $5,<sprc=int64#7
# asm 2: shl $5,<sprc=%rax
shl $5,%rax
# qhasm: sprc += sp
# asm 1: add <sp=int64#3,<sprc=int64#7
# asm 2: add <sp=%rdx,<sprc=%rax
add %rdx,%rax
# qhasm: spc = *(uint64 *)(hp + pc * 8)
# asm 1: movq (<hp=int64#1,<pc=int64#6,8),>spc=int64#8
# asm 2: movq (<hp=%rdi,<pc=%r9,8),>spc=%r10
movq (%rdi,%r9,8),%r10
# qhasm: spc <<= 5
# asm 1: shl $5,<spc=int64#8
# asm 2: shl $5,<spc=%r10
shl $5,%r10
# qhasm: spc += sp
# asm 1: add <sp=int64#3,<spc=int64#8
# asm 2: add <sp=%rdx,<spc=%r10
add %rdx,%r10
# qhasm: c0 = *(uint64 *)(spc + 0)
# asm 1: movq 0(<spc=int64#8),>c0=int64#9
# asm 2: movq 0(<spc=%r10),>c0=%r11
movq 0(%r10),%r11
# qhasm: c1 = *(uint64 *)(spc + 8)
# asm 1: movq 8(<spc=int64#8),>c1=int64#10
# asm 2: movq 8(<spc=%r10),>c1=%r12
movq 8(%r10),%r12
# qhasm: carry? c0 -= *(uint64 *)(sprc + 0)
# asm 1: subq 0(<sprc=int64#7),<c0=int64#9
# asm 2: subq 0(<sprc=%rax),<c0=%r11
subq 0(%rax),%r11
# qhasm: carry? c1 -= *(uint64 *)(sprc + 8) - carry
# asm 1: sbbq 8(<sprc=int64#7),<c1=int64#10
# asm 2: sbbq 8(<sprc=%rax),<c1=%r12
sbbq 8(%rax),%r12
# qhasm: pc = prc if carry
# asm 1: cmovc <prc=int64#5,<pc=int64#6
# asm 2: cmovc <prc=%r8,<pc=%r9
cmovc %r8,%r9
# qhasm: spc = sprc if carry
# asm 1: cmovc <sprc=int64#7,<spc=int64#8
# asm 2: cmovc <sprc=%rax,<spc=%r10
cmovc %rax,%r10
# qhasm: spc -= sp
# asm 1: sub <sp=int64#3,<spc=int64#8
# asm 2: sub <sp=%rdx,<spc=%r10
sub %rdx,%r10
# qhasm: (uint64) spc >>= 5
# asm 1: shr $5,<spc=int64#8
# asm 2: shr $5,<spc=%r10
shr $5,%r10
# qhasm: spp = *(uint64 *)(hp + pp * 8)
# asm 1: movq (<hp=int64#1,<pp=int64#4,8),>spp=int64#5
# asm 2: movq (<hp=%rdi,<pp=%rcx,8),>spp=%r8
movq (%rdi,%rcx,8),%r8
# qhasm: *(uint64 *)(hp + pp * 8) = spc
# asm 1: movq <spc=int64#8,(<hp=int64#1,<pp=int64#4,8)
# asm 2: movq <spc=%r10,(<hp=%rdi,<pp=%rcx,8)
movq %r10,(%rdi,%rcx,8)
# qhasm: *(uint64 *)(hp + pc * 8) = spp
# asm 1: movq <spp=int64#5,(<hp=int64#1,<pc=int64#6,8)
# asm 2: movq <spp=%r8,(<hp=%rdi,<pc=%r9,8)
movq %r8,(%rdi,%r9,8)
# qhasm: pp = pc
# asm 1: mov <pc=int64#6,>pp=int64#4
# asm 2: mov <pc=%r9,>pp=%rcx
mov %r9,%rcx
# comment:fp stack unchanged by jump
# qhasm: goto siftdownloop
jmp ._siftdownloop
# qhasm: siftuploop:
._siftuploop:
# qhasm: pc = pp
# asm 1: mov <pp=int64#4,>pc=int64#2
# asm 2: mov <pp=%rcx,>pc=%rsi
mov %rcx,%rsi
# qhasm: pp -= 1
# asm 1: sub $1,<pp=int64#4
# asm 2: sub $1,<pp=%rcx
sub $1,%rcx
# qhasm: (uint64) pp >>= 1
# asm 1: shr $1,<pp=int64#4
# asm 2: shr $1,<pp=%rcx
shr $1,%rcx
# qhasm: unsigned>? pc - 0
# asm 1: cmp $0,<pc=int64#2
# asm 2: cmp $0,<pc=%rsi
cmp $0,%rsi
# comment:fp stack unchanged by jump
# qhasm: goto end if !unsigned>
jbe ._end
# qhasm: spp = *(uint64 *)(hp + pp * 8)
# asm 1: movq (<hp=int64#1,<pp=int64#4,8),>spp=int64#5
# asm 2: movq (<hp=%rdi,<pp=%rcx,8),>spp=%r8
movq (%rdi,%rcx,8),%r8
# qhasm: spc = *(uint64 *)(hp + pc * 8)
# asm 1: movq (<hp=int64#1,<pc=int64#2,8),>spc=int64#6
# asm 2: movq (<hp=%rdi,<pc=%rsi,8),>spc=%r9
movq (%rdi,%rsi,8),%r9
# qhasm: spp <<= 5
# asm 1: shl $5,<spp=int64#5
# asm 2: shl $5,<spp=%r8
shl $5,%r8
# qhasm: spc <<= 5
# asm 1: shl $5,<spc=int64#6
# asm 2: shl $5,<spc=%r9
shl $5,%r9
# qhasm: spc += sp
# asm 1: add <sp=int64#3,<spc=int64#6
# asm 2: add <sp=%rdx,<spc=%r9
add %rdx,%r9
# qhasm: spp += sp
# asm 1: add <sp=int64#3,<spp=int64#5
# asm 2: add <sp=%rdx,<spp=%r8
add %rdx,%r8
# qhasm: c0 = *(uint64 *)(spc + 0)
# asm 1: movq 0(<spc=int64#6),>c0=int64#7
# asm 2: movq 0(<spc=%r9),>c0=%rax
movq 0(%r9),%rax
# qhasm: c1 = *(uint64 *)(spc + 8)
# asm 1: movq 8(<spc=int64#6),>c1=int64#8
# asm 2: movq 8(<spc=%r9),>c1=%r10
movq 8(%r9),%r10
# qhasm: carry? c0 -= *(uint64 *)(spp + 0)
# asm 1: subq 0(<spp=int64#5),<c0=int64#7
# asm 2: subq 0(<spp=%r8),<c0=%rax
subq 0(%r8),%rax
# qhasm: carry? c1 -= *(uint64 *)(spp + 8) - carry
# asm 1: sbbq 8(<spp=int64#5),<c1=int64#8
# asm 2: sbbq 8(<spp=%r8),<c1=%r10
sbbq 8(%r8),%r10
# comment:fp stack unchanged by jump
# qhasm: goto end if carry
jc ._end
# qhasm: spc -= sp
# asm 1: sub <sp=int64#3,<spc=int64#6
# asm 2: sub <sp=%rdx,<spc=%r9
sub %rdx,%r9
# qhasm: (uint64) spc >>= 5
# asm 1: shr $5,<spc=int64#6
# asm 2: shr $5,<spc=%r9
shr $5,%r9
# qhasm: spp -= sp
# asm 1: sub <sp=int64#3,<spp=int64#5
# asm 2: sub <sp=%rdx,<spp=%r8
sub %rdx,%r8
# qhasm: (uint64) spp >>= 5
# asm 1: shr $5,<spp=int64#5
# asm 2: shr $5,<spp=%r8
shr $5,%r8
# qhasm: *(uint64 *)(hp + pp * 8) = spc
# asm 1: movq <spc=int64#6,(<hp=int64#1,<pp=int64#4,8)
# asm 2: movq <spc=%r9,(<hp=%rdi,<pp=%rcx,8)
movq %r9,(%rdi,%rcx,8)
# qhasm: *(uint64 *)(hp + pc * 8) = spp
# asm 1: movq <spp=int64#5,(<hp=int64#1,<pc=int64#2,8)
# asm 2: movq <spp=%r8,(<hp=%rdi,<pc=%rsi,8)
movq %r8,(%rdi,%rsi,8)
# comment:fp stack unchanged by jump
# qhasm: goto siftuploop
jmp ._siftuploop
# qhasm: end:
._end:
# qhasm: caller1 = caller1_stack
# asm 1: movq <caller1_stack=stack64#1,>caller1=int64#9
# asm 2: movq <caller1_stack=0(%rsp),>caller1=%r11
movq 0(%rsp),%r11
# qhasm: caller2 = caller2_stack
# asm 1: movq <caller2_stack=stack64#2,>caller2=int64#10
# asm 2: movq <caller2_stack=8(%rsp),>caller2=%r12
movq 8(%rsp),%r12
# qhasm: caller3 = caller3_stack
# asm 1: movq <caller3_stack=stack64#3,>caller3=int64#11
# asm 2: movq <caller3_stack=16(%rsp),>caller3=%r13
movq 16(%rsp),%r13
# qhasm: caller4 = caller4_stack
# asm 1: movq <caller4_stack=stack64#4,>caller4=int64#12
# asm 2: movq <caller4_stack=24(%rsp),>caller4=%r14
movq 24(%rsp),%r14
# qhasm: caller5 = caller5_stack
# asm 1: movq <caller5_stack=stack64#5,>caller5=int64#13
# asm 2: movq <caller5_stack=32(%rsp),>caller5=%r15
movq 32(%rsp),%r15
# qhasm: caller6 = caller6_stack
# asm 1: movq <caller6_stack=stack64#6,>caller6=int64#14
# asm 2: movq <caller6_stack=40(%rsp),>caller6=%rbx
movq 40(%rsp),%rbx
# qhasm: caller7 = caller7_stack
# asm 1: movq <caller7_stack=stack64#7,>caller7=int64#15
# asm 2: movq <caller7_stack=48(%rsp),>caller7=%rbp
movq 48(%rsp),%rbp
# qhasm: leave
add %r11,%rsp
mov %rdi,%rax
mov %rsi,%rdx
ret