gecko/security/nss/lib/freebl/mpi/mpi_amd64_gas.s
2008-06-06 08:40:11 -04:00

423 lines
10 KiB
ArmAsm

# ***** BEGIN LICENSE BLOCK *****
# Version: MPL 1.1/GPL 2.0/LGPL 2.1
#
# The contents of this file are subject to the Mozilla Public License Version
# 1.1 (the "License"); you may not use this file except in compliance with
# the License. You may obtain a copy of the License at
# http://www.mozilla.org/MPL/
#
# Software distributed under the License is distributed on an "AS IS" basis,
# WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
# for the specific language governing rights and limitations under the
# License.
#
# The Original Code is the Solaris software cryptographic token.
#
# The Initial Developer of the Original Code is
# Sun Microsystems, Inc.
# Portions created by the Initial Developer are Copyright (C) 2005
# the Initial Developer. All Rights Reserved.
#
# Contributor(s):
# Sun Microsystems, Inc.
#
# Alternatively, the contents of this file may be used under the terms of
# either the GNU General Public License Version 2 or later (the "GPL"), or
# the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
# in which case the provisions of the GPL or the LGPL are applicable instead
# of those above. If you wish to allow use of your version of this file only
# under the terms of either the GPL or the LGPL, and not to allow others to
# use your version of this file under the terms of the MPL, indicate your
# decision by deleting the provisions above and replace them with the notice
# and other provisions required by the GPL or the LGPL. If you do not delete
# the provisions above, a recipient may use your version of this file under
# the terms of any one of the MPL, the GPL or the LGPL.
#
# ***** END LICENSE BLOCK ***** */
# ------------------------------------------------------------------------
#
# Implementation of s_mpv_mul_set_vec which exploits
# the 64X64->128 bit unsigned multiply instruction.
#
# ------------------------------------------------------------------------
# r = a * digit, r and a are vectors of length len
# returns the carry digit
# r and a are 64 bit aligned.
#
# uint64_t
# s_mpv_mul_set_vec64(uint64_t *r, uint64_t *a, int len, uint64_t digit)
#
.text; .align 16; .globl s_mpv_mul_set_vec64; .type s_mpv_mul_set_vec64, @function; s_mpv_mul_set_vec64:
xorq %rax, %rax # if (len == 0) return (0)
testq %rdx, %rdx
jz .L17
movq %rdx, %r8 # Use r8 for len; %rdx is used by mul
xorq %r9, %r9 # cy = 0
.L15:
cmpq $8, %r8 # 8 - len
jb .L16
movq 0(%rsi), %rax # rax = a[0]
movq 8(%rsi), %r11 # prefetch a[1]
mulq %rcx # p = a[0] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 0(%rdi) # r[0] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 16(%rsi), %r11 # prefetch a[2]
mulq %rcx # p = a[1] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 8(%rdi) # r[1] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 24(%rsi), %r11 # prefetch a[3]
mulq %rcx # p = a[2] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 16(%rdi) # r[2] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 32(%rsi), %r11 # prefetch a[4]
mulq %rcx # p = a[3] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 24(%rdi) # r[3] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 40(%rsi), %r11 # prefetch a[5]
mulq %rcx # p = a[4] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 32(%rdi) # r[4] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 48(%rsi), %r11 # prefetch a[6]
mulq %rcx # p = a[5] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 40(%rdi) # r[5] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 56(%rsi), %r11 # prefetch a[7]
mulq %rcx # p = a[6] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 48(%rdi) # r[6] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
mulq %rcx # p = a[7] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 56(%rdi) # r[7] = lo(p)
movq %rdx, %r9 # cy = hi(p)
addq $64, %rsi
addq $64, %rdi
subq $8, %r8
jz .L17
jmp .L15
.L16:
movq 0(%rsi), %rax
mulq %rcx # p = a[0] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 0(%rdi) # r[0] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L17
movq 8(%rsi), %rax
mulq %rcx # p = a[1] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 8(%rdi) # r[1] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L17
movq 16(%rsi), %rax
mulq %rcx # p = a[2] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 16(%rdi) # r[2] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L17
movq 24(%rsi), %rax
mulq %rcx # p = a[3] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 24(%rdi) # r[3] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L17
movq 32(%rsi), %rax
mulq %rcx # p = a[4] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 32(%rdi) # r[4] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L17
movq 40(%rsi), %rax
mulq %rcx # p = a[5] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 40(%rdi) # r[5] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L17
movq 48(%rsi), %rax
mulq %rcx # p = a[6] * digit
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 48(%rdi) # r[6] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L17
.L17:
movq %r9, %rax
ret
.size s_mpv_mul_set_vec64, [.-s_mpv_mul_set_vec64]
# ------------------------------------------------------------------------
#
# Implementation of s_mpv_mul_add_vec which exploits
# the 64X64->128 bit unsigned multiply instruction.
#
# ------------------------------------------------------------------------
# r += a * digit, r and a are vectors of length len
# returns the carry digit
# r and a are 64 bit aligned.
#
# uint64_t
# s_mpv_mul_add_vec64(uint64_t *r, uint64_t *a, int len, uint64_t digit)
#
.text; .align 16; .globl s_mpv_mul_add_vec64; .type s_mpv_mul_add_vec64, @function; s_mpv_mul_add_vec64:
xorq %rax, %rax # if (len == 0) return (0)
testq %rdx, %rdx
jz .L27
movq %rdx, %r8 # Use r8 for len; %rdx is used by mul
xorq %r9, %r9 # cy = 0
.L25:
cmpq $8, %r8 # 8 - len
jb .L26
movq 0(%rsi), %rax # rax = a[0]
movq 0(%rdi), %r10 # r10 = r[0]
movq 8(%rsi), %r11 # prefetch a[1]
mulq %rcx # p = a[0] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[0]
movq 8(%rdi), %r10 # prefetch r[1]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 0(%rdi) # r[0] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 16(%rsi), %r11 # prefetch a[2]
mulq %rcx # p = a[1] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[1]
movq 16(%rdi), %r10 # prefetch r[2]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 8(%rdi) # r[1] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 24(%rsi), %r11 # prefetch a[3]
mulq %rcx # p = a[2] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[2]
movq 24(%rdi), %r10 # prefetch r[3]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 16(%rdi) # r[2] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 32(%rsi), %r11 # prefetch a[4]
mulq %rcx # p = a[3] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[3]
movq 32(%rdi), %r10 # prefetch r[4]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 24(%rdi) # r[3] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 40(%rsi), %r11 # prefetch a[5]
mulq %rcx # p = a[4] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[4]
movq 40(%rdi), %r10 # prefetch r[5]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 32(%rdi) # r[4] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 48(%rsi), %r11 # prefetch a[6]
mulq %rcx # p = a[5] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[5]
movq 48(%rdi), %r10 # prefetch r[6]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 40(%rdi) # r[5] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
movq 56(%rsi), %r11 # prefetch a[7]
mulq %rcx # p = a[6] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[6]
movq 56(%rdi), %r10 # prefetch r[7]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 48(%rdi) # r[6] = lo(p)
movq %rdx, %r9 # cy = hi(p)
movq %r11, %rax
mulq %rcx # p = a[7] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[7]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 56(%rdi) # r[7] = lo(p)
movq %rdx, %r9 # cy = hi(p)
addq $64, %rsi
addq $64, %rdi
subq $8, %r8
jz .L27
jmp .L25
.L26:
movq 0(%rsi), %rax
movq 0(%rdi), %r10
mulq %rcx # p = a[0] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[0]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 0(%rdi) # r[0] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L27
movq 8(%rsi), %rax
movq 8(%rdi), %r10
mulq %rcx # p = a[1] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[1]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 8(%rdi) # r[1] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L27
movq 16(%rsi), %rax
movq 16(%rdi), %r10
mulq %rcx # p = a[2] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[2]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 16(%rdi) # r[2] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L27
movq 24(%rsi), %rax
movq 24(%rdi), %r10
mulq %rcx # p = a[3] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[3]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 24(%rdi) # r[3] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L27
movq 32(%rsi), %rax
movq 32(%rdi), %r10
mulq %rcx # p = a[4] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[4]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 32(%rdi) # r[4] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L27
movq 40(%rsi), %rax
movq 40(%rdi), %r10
mulq %rcx # p = a[5] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[5]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 40(%rdi) # r[5] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L27
movq 48(%rsi), %rax
movq 48(%rdi), %r10
mulq %rcx # p = a[6] * digit
addq %r10, %rax
adcq $0, %rdx # p += r[6]
addq %r9, %rax
adcq $0, %rdx # p += cy
movq %rax, 48(%rdi) # r[6] = lo(p)
movq %rdx, %r9 # cy = hi(p)
decq %r8
jz .L27
.L27:
movq %r9, %rax
ret
.size s_mpv_mul_add_vec64, [.-s_mpv_mul_add_vec64]
# Magic indicating no need for an executable stack
.section .note.GNU-stack, "", @progbits
.previous