;; ;; Copyright (c) 2012-2018, Intel Corporation ;; ;; Redistribution and use in source and binary forms, with or without ;; modification, are permitted provided that the following conditions are met: ;; ;; * Redistributions of source code must retain the above copyright notice, ;; this list of conditions and the following disclaimer. ;; * Redistributions in binary form must reproduce the above copyright ;; notice, this list of conditions and the following disclaimer in the ;; documentation and/or other materials provided with the distribution. ;; * Neither the name of Intel Corporation nor the names of its contributors ;; may be used to endorse or promote products derived from this software ;; without specific prior written permission. ;; ;; THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" ;; AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE ;; IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE ;; DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE ;; FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL ;; DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR ;; SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER ;; CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, ;; OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE ;; OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. ;; %include "include/os.asm" %include "job_aes_hmac.asm" %include "mb_mgr_datastruct.asm" %include "include/reg_sizes.asm" %include "include/memcpy.asm" %include "include/const.inc" ;%define DO_DBGPRINT %include "include/dbgprint.asm" extern sha1_mult_sse section .data default rel align 16 byteswap: ;ddq 0x0c0d0e0f08090a0b0405060700010203 dq 0x0405060700010203, 0x0c0d0e0f08090a0b section .text %if 1 %ifdef LINUX %define arg1 rdi %define arg2 rsi %define reg3 rcx %define reg4 rdx %else %define arg1 rcx %define arg2 rdx %define reg3 rdi %define reg4 rsi %endif %define state arg1 %define job arg2 %define len2 arg2 ; idx needs to be in rbx, rbp, r12-r15 %define last_len rbp %define idx rbp %define p r11 %define start_offset r11 %define unused_lanes rbx %define tmp4 rbx %define job_rax rax %define len rax %define size_offset reg3 %define tmp2 reg3 %define lane reg4 %define tmp3 reg4 %define extra_blocks r8 %define tmp r9 %define p2 r9 %define lane_data r10 %endif ; This routine clobbers rdi, rsi, rbx, rbp struc STACK _gpr_save: resq 4 _rsp_save: resq 1 endstruc ; JOB* submit_job_hmac_sse(MB_MGR_HMAC_SHA_1_OOO *state, JOB_AES_HMAC *job) ; arg 1 : rcx : state ; arg 2 : rdx : job MKGLOBAL(submit_job_hmac_sse,function, internal) submit_job_hmac_sse: mov rax, rsp sub rsp, STACK_size and rsp, -16 mov [rsp + _gpr_save + 8*0], rbx mov [rsp + _gpr_save + 8*1], rbp %ifndef LINUX mov [rsp + _gpr_save + 8*2], rsi mov [rsp + _gpr_save + 8*3], rdi %endif mov [rsp + _rsp_save], rax ; original SP DBGPRINTL "enter sha1-sse submit" mov unused_lanes, [state + _unused_lanes] movzx lane, BYTE(unused_lanes) shr unused_lanes, 8 imul lane_data, lane, _HMAC_SHA1_LANE_DATA_size lea lane_data, [state + _ldata + lane_data] mov [state + _unused_lanes], unused_lanes mov len, [job + _msg_len_to_hash_in_bytes] mov tmp, len shr tmp, 6 ; divide by 64, len in terms of blocks mov [lane_data + _job_in_lane], job mov dword [lane_data + _outer_done], 0 movdqa xmm0, [state + _lens] XPINSRW xmm0, xmm1, p, lane, tmp, scale_x16 movdqa [state + _lens], xmm0 mov last_len, len and last_len, 63 lea extra_blocks, [last_len + 9 + 63] shr extra_blocks, 6 mov [lane_data + _extra_blocks], DWORD(extra_blocks) mov p, [job + _src] add p, [job + _hash_start_src_offset_in_bytes] mov [state + _args_data_ptr + PTR_SZ*lane], p cmp len, 64 jb copy_lt64 fast_copy: add p, len movdqu xmm0, [p - 64 + 0*16] movdqu xmm1, [p - 64 + 1*16] movdqu xmm2, [p - 64 + 2*16] movdqu xmm3, [p - 64 + 3*16] movdqa [lane_data + _extra_block + 0*16], xmm0 movdqa [lane_data + _extra_block + 1*16], xmm1 movdqa [lane_data + _extra_block + 2*16], xmm2 movdqa [lane_data + _extra_block + 3*16], xmm3 end_fast_copy: mov size_offset, extra_blocks shl size_offset, 6 sub size_offset, last_len add size_offset, 64-8 mov [lane_data + _size_offset], DWORD(size_offset) mov start_offset, 64 sub start_offset, last_len mov [lane_data + _start_offset], DWORD(start_offset) lea tmp, [8*64 + 8*len] bswap tmp mov [lane_data + _extra_block + size_offset], tmp mov tmp, [job + _auth_key_xor_ipad] movdqu xmm0, [tmp] mov DWORD(tmp), [tmp + 4*4] movd [state + _args_digest + SHA1_DIGEST_WORD_SIZE*lane + 0*SHA1_DIGEST_ROW_SIZE], xmm0 pextrd [state + _args_digest + SHA1_DIGEST_WORD_SIZE*lane + 1*SHA1_DIGEST_ROW_SIZE], xmm0, 1 pextrd [state + _args_digest + SHA1_DIGEST_WORD_SIZE*lane + 2*SHA1_DIGEST_ROW_SIZE], xmm0, 2 pextrd [state + _args_digest + SHA1_DIGEST_WORD_SIZE*lane + 3*SHA1_DIGEST_ROW_SIZE], xmm0, 3 mov [state + _args_digest + SHA1_DIGEST_WORD_SIZE*lane + 4*SHA1_DIGEST_ROW_SIZE], DWORD(tmp) test len, ~63 jnz ge64_bytes lt64_bytes: movdqa xmm0, [state + _lens] XPINSRW xmm0, xmm1, tmp, lane, extra_blocks, scale_x16 movdqa [state + _lens], xmm0 lea tmp, [lane_data + _extra_block + start_offset] mov [state + _args_data_ptr + PTR_SZ*lane], tmp mov dword [lane_data + _extra_blocks], 0 ge64_bytes: cmp unused_lanes, 0xff jne return_null movdqa xmm0, [state + _lens] jmp start_loop align 16 start_loop: ; Find min length phminposuw xmm1, xmm0 pextrw len2, xmm1, 0 ; min value pextrw idx, xmm1, 1 ; min index (0...3) cmp len2, 0 je len_is_0 pshuflw xmm1, xmm1, 0 psubw xmm0, xmm1 movdqa [state + _lens], xmm0 ; "state" and "args" are the same address, arg1 ; len is arg2 call sha1_mult_sse ; state is intact len_is_0: ; process completed job "idx" imul lane_data, idx, _HMAC_SHA1_LANE_DATA_size lea lane_data, [state + _ldata + lane_data] mov DWORD(extra_blocks), [lane_data + _extra_blocks] cmp extra_blocks, 0 jne proc_extra_blocks cmp dword [lane_data + _outer_done], 0 jne end_loop proc_outer: mov dword [lane_data + _outer_done], 1 mov DWORD(size_offset), [lane_data + _size_offset] mov qword [lane_data + _extra_block + size_offset], 0 movdqa xmm1, [state + _lens] XPINSRW xmm1, xmm2, tmp, idx, 1, scale_x16 movdqa [state + _lens], xmm1 lea tmp, [lane_data + _outer_block] mov job, [lane_data + _job_in_lane] mov [state + _args_data_ptr + PTR_SZ*idx], tmp movd xmm0, [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 0*SHA1_DIGEST_ROW_SIZE] pinsrd xmm0, [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 1*SHA1_DIGEST_ROW_SIZE], 1 pinsrd xmm0, [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 2*SHA1_DIGEST_ROW_SIZE], 2 pinsrd xmm0, [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 3*SHA1_DIGEST_ROW_SIZE], 3 pshufb xmm0, [rel byteswap] mov DWORD(tmp), [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 4*SHA1_DIGEST_ROW_SIZE] bswap DWORD(tmp) movdqa [lane_data + _outer_block], xmm0 mov [lane_data + _outer_block + 4*SHA1_DIGEST_WORD_SIZE], DWORD(tmp) mov tmp, [job + _auth_key_xor_opad] movdqu xmm0, [tmp] mov DWORD(tmp), [tmp + 4*4] movd [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 0*SHA1_DIGEST_ROW_SIZE], xmm0 pextrd [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 1*SHA1_DIGEST_ROW_SIZE], xmm0, 1 pextrd [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 2*SHA1_DIGEST_ROW_SIZE], xmm0, 2 pextrd [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 3*SHA1_DIGEST_ROW_SIZE], xmm0, 3 mov [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 4*SHA1_DIGEST_ROW_SIZE], DWORD(tmp) movdqa xmm0, xmm1 jmp start_loop align 16 proc_extra_blocks: mov DWORD(start_offset), [lane_data + _start_offset] movdqa xmm0, [state + _lens] XPINSRW xmm0, xmm1, tmp, idx, extra_blocks, scale_x16 movdqa [state + _lens], xmm0 lea tmp, [lane_data + _extra_block + start_offset] mov [state + _args_data_ptr + PTR_SZ*idx], tmp mov dword [lane_data + _extra_blocks], 0 jmp start_loop align 16 copy_lt64: ;; less than one message block of data ;; beginning of source block ;; destination extrablock but backwards by len from where 0x80 pre-populated lea p2, [lane_data + _extra_block + 64] sub p2, len memcpy_sse_64_1 p2, p, len, tmp4, tmp2, xmm0, xmm1, xmm2, xmm3 mov unused_lanes, [state + _unused_lanes] jmp end_fast_copy return_null: xor job_rax, job_rax jmp return align 16 end_loop: mov job_rax, [lane_data + _job_in_lane] mov unused_lanes, [state + _unused_lanes] mov qword [lane_data + _job_in_lane], 0 or dword [job_rax + _status], STS_COMPLETED_HMAC shl unused_lanes, 8 or unused_lanes, idx mov [state + _unused_lanes], unused_lanes mov p, [job_rax + _auth_tag_output] ; copy 12 bytes mov DWORD(tmp), [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 0*SHA1_DIGEST_ROW_SIZE] mov DWORD(tmp2), [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 1*SHA1_DIGEST_ROW_SIZE] mov DWORD(tmp3), [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 2*SHA1_DIGEST_ROW_SIZE] bswap DWORD(tmp) bswap DWORD(tmp2) bswap DWORD(tmp3) mov [p + 0*SHA1_DIGEST_WORD_SIZE], DWORD(tmp) mov [p + 1*SHA1_DIGEST_WORD_SIZE], DWORD(tmp2) mov [p + 2*SHA1_DIGEST_WORD_SIZE], DWORD(tmp3) cmp qword [job_rax + _auth_tag_output_len_in_bytes], 12 je clear_ret ;; copy remaining 8 bytes to return 20 byte digest mov DWORD(tmp), [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 3*SHA1_DIGEST_ROW_SIZE] mov DWORD(tmp2), [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 4*SHA1_DIGEST_ROW_SIZE] bswap DWORD(tmp) bswap DWORD(tmp2) mov [p + 3*SHA1_DIGEST_WORD_SIZE], DWORD(tmp) mov [p + 4*SHA1_DIGEST_WORD_SIZE], DWORD(tmp2) clear_ret: %ifdef SAFE_DATA ;; Clear digest (20B), outer_block (20B) and extra_block (64B) of returned job mov dword [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 0*SHA1_DIGEST_ROW_SIZE], 0 mov dword [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 1*SHA1_DIGEST_ROW_SIZE], 0 mov dword [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 2*SHA1_DIGEST_ROW_SIZE], 0 mov dword [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 3*SHA1_DIGEST_ROW_SIZE], 0 mov dword [state + _args_digest + SHA1_DIGEST_WORD_SIZE*idx + 4*SHA1_DIGEST_ROW_SIZE], 0 pxor xmm0, xmm0 imul lane_data, idx, _HMAC_SHA1_LANE_DATA_size lea lane_data, [state + _ldata + lane_data] ;; Clear first 64 bytes of extra_block %assign offset 0 %rep 4 movdqa [lane_data + _extra_block + offset], xmm0 %assign offset (offset + 16) %endrep ;; Clear first 20 bytes of outer_block movdqa [lane_data + _outer_block], xmm0 mov dword [lane_data + _outer_block + 16], 0 %endif return: mov rbx, [rsp + _gpr_save + 8*0] mov rbp, [rsp + _gpr_save + 8*1] %ifndef LINUX mov rsi, [rsp + _gpr_save + 8*2] mov rdi, [rsp + _gpr_save + 8*3] %endif mov rsp, [rsp + _rsp_save] ; original SP ret %ifdef LINUX section .note.GNU-stack noalloc noexec nowrite progbits %endif