/* Do not modify. This file is auto-generated from aes-gcm-ppc.pl. */ .machine "any" .text .macro SAVE_REGS mflr 0 std 0, 16(1) stdu 1,-512(1) std 14, 112(1) std 15, 120(1) std 16, 128(1) std 17, 136(1) std 18, 144(1) std 19, 152(1) std 20, 160(1) std 21, 168(1) std 22, 176(1) std 23, 184(1) std 24, 192(1) stxv 32+20, 256(1) stxv 32+21, 256+16(1) stxv 32+22, 256+32(1) stxv 32+23, 256+48(1) stxv 32+24, 256+64(1) stxv 32+25, 256+80(1) stxv 32+26, 256+96(1) stxv 32+27, 256+112(1) stxv 32+28, 256+128(1) stxv 32+29, 256+144(1) stxv 32+30, 256+160(1) stxv 32+31, 256+176(1) .endm # SAVE_REGS .macro RESTORE_REGS lxv 32+20, 256(1) lxv 32+21, 256+16(1) lxv 32+22, 256+32(1) lxv 32+23, 256+48(1) lxv 32+24, 256+64(1) lxv 32+25, 256+80(1) lxv 32+26, 256+96(1) lxv 32+27, 256+112(1) lxv 32+28, 256+128(1) lxv 32+29, 256+144(1) lxv 32+30, 256+160(1) lxv 32+31, 256+176(1) ld 14, 112(1) ld 15, 120(1) ld 16, 128(1) ld 17, 136(1) ld 18, 144(1) ld 19, 152(1) ld 20, 160(1) ld 21, 168(1) ld 22, 176(1) ld 23, 184(1) ld 24, 192(1) addi 1, 1, 512 ld 0, 16(1) mtlr 0 .endm # RESTORE_REGS # 4x loops .macro AES_CIPHER_4x r vcipher 15, 15, \r vcipher 16, 16, \r vcipher 17, 17, \r vcipher 18, 18, \r .endm # 8x loops .macro AES_CIPHER_8x r vcipher 15, 15, \r vcipher 16, 16, \r vcipher 17, 17, \r vcipher 18, 18, \r vcipher 19, 19, \r vcipher 20, 20, \r vcipher 21, 21, \r vcipher 22, 22, \r .endm .macro LOOP_8AES_STATE AES_CIPHER_8x 23 AES_CIPHER_8x 24 AES_CIPHER_8x 25 AES_CIPHER_8x 26 AES_CIPHER_8x 27 AES_CIPHER_8x 28 AES_CIPHER_8x 29 AES_CIPHER_8x 1 .endm # # PPC_GFMUL128_8x: Compute hash values of 8 blocks based on Karatsuba method. # # S1 should xor with the previous digest # # Xi = v0 # H Poly = v2 # Hash keys = v3 - v14 # vs10: vpermxor vector # Scratch: v23 - v29 # .macro PPC_GFMUL128_8x vpmsumd 23, 12, 15 # H4.L * X.L vpmsumd 24, 9, 16 vpmsumd 25, 6, 17 vpmsumd 26, 3, 18 vxor 23, 23, 24 vxor 23, 23, 25 vxor 23, 23, 26 # L vpmsumd 27, 13, 15 # H4.L * X.H + H4.H * X.L vpmsumd 28, 10, 16 # H3.L * X1.H + H3.H * X1.L vpmsumd 25, 7, 17 vpmsumd 26, 4, 18 vxor 24, 27, 28 vxor 24, 24, 25 vxor 24, 24, 26 # M vpmsumd 26, 14, 15 # H4.H * X.H vpmsumd 27, 11, 16 vpmsumd 28, 8, 17 vpmsumd 29, 5, 18 vxor 26, 26, 27 vxor 26, 26, 28 vxor 26, 26, 29 # sum hash and reduction with H Poly vpmsumd 28, 23, 2 # reduction vxor 1, 1, 1 vsldoi 25, 24, 1, 8 # mL vsldoi 1, 1, 24, 8 # mH vxor 23, 23, 25 # mL + L # This performs swap and xor like, # vsldoi 23, 23, 23, 8 # swap # vxor 23, 23, 28 xxlor 32+29, 10, 10 vpermxor 23, 23, 28, 29 vxor 24, 26, 1 # H # sum hash and reduction with H Poly # # vsldoi 25, 23, 23, 8 # swap # vpmsumd 23, 23, 2 # vxor 27, 25, 24 # vpermxor 27, 23, 24, 29 vpmsumd 23, 23, 2 vxor 0, 23, 27 # Digest of 4 blocks vxor 19, 19, 0 # Compute digest for the next 4 blocks vpmsumd 24, 9, 20 vpmsumd 25, 6, 21 vpmsumd 26, 3, 22 vpmsumd 23, 12, 19 # H4.L * X.L vxor 23, 23, 24 vxor 23, 23, 25 vxor 23, 23, 26 # L vpmsumd 27, 13, 19 # H4.L * X.H + H4.H * X.L vpmsumd 28, 10, 20 # H3.L * X1.H + H3.H * X1.L vpmsumd 25, 7, 21 vpmsumd 26, 4, 22 vxor 24, 27, 28 vxor 24, 24, 25 vxor 24, 24, 26 # M vpmsumd 26, 14, 19 # H4.H * X.H vpmsumd 27, 11, 20 vpmsumd 28, 8, 21 vpmsumd 29, 5, 22 vxor 26, 26, 27 vxor 26, 26, 28 vxor 26, 26, 29 # sum hash and reduction with H Poly vpmsumd 28, 23, 2 # reduction vxor 1, 1, 1 vsldoi 25, 24, 1, 8 # mL vsldoi 1, 1, 24, 8 # mH vxor 23, 23, 25 # mL + L # This performs swap and xor like, # vsldoi 23, 23, 23, 8 # swap # vxor 23, 23, 28 xxlor 32+29, 10, 10 vpermxor 23, 23, 28, 29 vxor 24, 26, 1 # H # sum hash and reduction with H Poly # # vsldoi 25, 23, 23, 8 # swap # vpmsumd 23, 23, 2 # vxor 27, 25, 24 # vpermxor 27, 23, 24, 29 vpmsumd 23, 23, 2 vxor 0, 23, 27 # Digest of 8 blocks .endm # # Compute update single ghash # vs10: vpermxor vector # scratch: v1, v22..v27 # .macro PPC_GHASH1x H S1 vxor 1, 1, 1 vpmsumd 22, 3, \S1 # L vpmsumd 23, 4, \S1 # M vpmsumd 24, 5, \S1 # H vpmsumd 27, 22, 2 # reduction vsldoi 25, 23, 1, 8 # mL vsldoi 26, 1, 23, 8 # mH vxor 22, 22, 25 # LL + LL vxor 24, 24, 26 # HH + HH xxlor 32+25, 10, 10 vpermxor 22, 22, 27, 25 # vsldoi 23, 22, 22, 8 # swap # vpmsumd 22, 22, 2 # reduction # vxor 23, 23, 24 vpermxor 23, 22, 24, 25 vpmsumd 22, 22, 2 # reduction vxor \H, 22, 23 .endm # # LOAD_HASH_TABLE # Xi = v0 # H Poly = v2 # Hash keys = v3 - v14 # .macro LOAD_HASH_TABLE # Load Xi lxvb16x 32, 0, 8 # load Xi vxor 1, 1, 1 li 10, 32 lxvd2x 2+32, 10, 8 # H Poli # load Hash - h^4, h^3, h^2, h li 10, 64 lxvd2x 4+32, 10, 8 # H vsldoi 3, 1, 4, 8 # l vsldoi 5, 4, 1, 8 # h li 10, 112 lxvd2x 7+32, 10, 8 # H^2 vsldoi 6, 1, 7, 8 # l vsldoi 8, 7, 1, 8 # h li 10, 160 lxvd2x 10+32, 10, 8 # H^3 vsldoi 9, 1, 10, 8 # l vsldoi 11, 10, 1, 8 # h li 10, 208 lxvd2x 13+32, 10, 8 # H^4 vsldoi 12, 1, 13, 8 # l vsldoi 14, 13, 1, 8 # h .endm .macro PROCESS_8X_AES_STATES vcipherlast 15, 15, 1 vcipherlast 16, 16, 1 vcipherlast 17, 17, 1 vcipherlast 18, 18, 1 vcipherlast 19, 19, 1 vcipherlast 20, 20, 1 vcipherlast 21, 21, 1 vcipherlast 22, 22, 1 lxvb16x 32+23, 0, 14 # load block lxvb16x 32+24, 15, 14 # load block lxvb16x 32+25, 16, 14 # load block lxvb16x 32+26, 17, 14 # load block lxvb16x 32+27, 18, 14 # load block lxvb16x 32+28, 19, 14 # load block lxvb16x 32+29, 20, 14 # load block lxvb16x 32+30, 21, 14 # load block addi 14, 14, 128 vxor 15, 15, 23 vxor 16, 16, 24 vxor 17, 17, 25 vxor 18, 18, 26 vxor 19, 19, 27 vxor 20, 20, 28 vxor 21, 21, 29 vxor 22, 22, 30 stxvb16x 47, 0, 9 # store output stxvb16x 48, 15, 9 # store output stxvb16x 49, 16, 9 # store output stxvb16x 50, 17, 9 # store output stxvb16x 51, 18, 9 # store output stxvb16x 52, 19, 9 # store output stxvb16x 53, 20, 9 # store output stxvb16x 54, 21, 9 # store output addi 9, 9, 128 .endm .macro COMPUTE_STATES xxlor 32+15, 9, 9 # last state vadduwm 15, 15, 31 # state + counter vadduwm 16, 15, 31 vadduwm 17, 16, 31 vadduwm 18, 17, 31 vadduwm 19, 18, 31 vadduwm 20, 19, 31 vadduwm 21, 20, 31 vadduwm 22, 21, 31 xxlor 9, 32+22, 32+22 # save last state xxlxor 32+15, 32+15, 0 # IV + round key - add round key 0 xxlxor 32+16, 32+16, 0 xxlxor 32+17, 32+17, 0 xxlxor 32+18, 32+18, 0 xxlxor 32+19, 32+19, 0 xxlxor 32+20, 32+20, 0 xxlxor 32+21, 32+21, 0 xxlxor 32+22, 32+22, 0 .endm ################################################################################ # Compute AES and ghash one block at a time. # r23: AES rounds # v30: current IV # vs0: roundkey 0 # ################################################################################ .align 4 aes_gcm_crypt_1x: cmpdi 5, 16 bge __More_1x blr __More_1x: li 10, 16 divdu 12, 5, 10 xxlxor 32+15, 32+30, 0 # Pre-load 8 AES rounds to scratch vectors. lxv 32+16, 16(6) # round key 1 lxv 32+17, 32(6) # round key 2 lxv 32+18, 48(6) # round key 3 lxv 32+19, 64(6) # round key 4 lxv 32+20, 80(6) # round key 5 lxv 32+21, 96(6) # round key 6 lxv 32+28, 112(6) # round key 7 lxv 32+29, 128(6) # round key 8 lwz 23, 240(6) # n rounds addi 22, 23, -9 # remaining AES rounds cmpdi 12, 0 bgt __Loop_1x blr __Loop_1x: mtctr 22 addi 10, 6, 144 vcipher 15, 15, 16 vcipher 15, 15, 17 vcipher 15, 15, 18 vcipher 15, 15, 19 vcipher 15, 15, 20 vcipher 15, 15, 21 vcipher 15, 15, 28 vcipher 15, 15, 29 __Loop_aes_1state: lxv 32+1, 0(10) vcipher 15, 15, 1 addi 10, 10, 16 bdnz __Loop_aes_1state lxv 32+1, 0(10) # last round key lxvb16x 11, 0, 14 # load input block vcipherlast 15, 15, 1 xxlxor 32+15, 32+15, 11 stxvb16x 32+15, 0, 9 # store output addi 14, 14, 16 addi 9, 9, 16 cmpdi 24, 0 # decrypt? bne __Encrypt_1x xxlor 15+32, 11, 11 __Encrypt_1x: vxor 15, 15, 0 PPC_GHASH1x 0, 15 addi 5, 5, -16 addi 11, 11, 16 vadduwm 30, 30, 31 # IV + counter xxlxor 32+15, 32+30, 0 addi 12, 12, -1 cmpdi 12, 0 bgt __Loop_1x stxvb16x 32+0, 0, 8 # update Xi blr .size aes_gcm_crypt_1x,.-aes_gcm_crypt_1x ################################################################################ # Process a normal partial block when we come here. # Compute partial mask, Load and store partial block to stack. # Compute AES state. # Compute ghash. # ################################################################################ .align 4 __Process_partial: # create partial mask vspltisb 16, -1 li 12, 16 sub 12, 12, 5 sldi 12, 12, 3 mtvsrdd 32+17, 0, 12 vslo 16, 16, 17 # partial block mask lxvb16x 11, 0, 14 # load partial block xxland 11, 11, 32+16 # AES crypt partial xxlxor 32+15, 32+30, 0 lwz 23, 240(6) # n rounds addi 22, 23, -1 # loop - 1 mtctr 22 addi 10, 6, 16 __Loop_aes_pstate: lxv 32+1, 0(10) vcipher 15, 15, 1 addi 10, 10, 16 bdnz __Loop_aes_pstate lxv 32+1, 0(10) # last round key vcipherlast 15, 15, 1 xxlxor 32+15, 32+15, 11 vand 15, 15, 16 # AES crypt output v15 # Write partial li 10, 224 stxvb16x 15+32, 10, 1 # write v15 to stack addi 10, 1, 223 addi 12, 9, -1 mtctr 5 # partial block len __Write_partial: lbzu 22, 1(10) stbu 22, 1(12) bdnz __Write_partial cmpdi 24, 0 # decrypt? bne __Encrypt_partial xxlor 32+15, 11, 11 # decrypt using the input block __Encrypt_partial: vxor 15, 15, 0 # ^ previous hash PPC_GHASH1x 0, 15 li 5, 0 # done last byte stxvb16x 32+0, 0, 8 # Update X1 blr .size __Process_partial,.-__Process_partial ################################################################################ # ppc_aes_gcm_encrypt (const void *inp, void *out, size_t len, # const char *rk, unsigned char iv[16], void *Xip); # # r3 - inp # r4 - out # r5 - len # r6 - AES round keys # r7 - iv # r8 - Xi, HPoli, hash keys # # rounds is at offset 240 in rk # Xi is at 0 in gcm_table (Xip). # ################################################################################ .global ppc_aes_gcm_encrypt .align 5 ppc_aes_gcm_encrypt: SAVE_REGS LOAD_HASH_TABLE # initialize ICB: GHASH( IV ), IV - r7 lxvb16x 30+32, 0, 7 # load IV - v30 mr 14, 3 mr 9, 4 # counter 1 vxor 31, 31, 31 vspltisb 22, 1 vsldoi 31, 31, 22,1 # counter 1 addis 11, 2, permx@toc@ha addi 11, 11, permx@toc@l lxv 10, 0(11) # vs10: vpermxor vector li 11, 0 lxv 0, 0(6) # round key 0 # # Process different blocks # cmpdi 5, 128 blt __Process_more_enc # load 9 round keys lxv 32+23, 16(6) # round key 1 lxv 32+24, 32(6) # round key 2 lxv 32+25, 48(6) # round key 3 lxv 32+26, 64(6) # round key 4 lxv 32+27, 80(6) # round key 5 lxv 32+28, 96(6) # round key 6 lxv 32+29, 112(6) # round key 7 lxv 32+1, 128(6) # round key 8 # load rounds - 10 (128), 12 (192), 14 (256) lwz 23, 240(6) # n rounds __Process_encrypt: # # Process 8x AES/GCM blocks # __Process_8x_enc: # 8x blocks li 10, 128 divdu 12, 5, 10 # n 128 bytes-blocks addi 12, 12, -1 # loop - 1 vmr 15, 30 # first state: IV vadduwm 16, 15, 31 # state + counter vadduwm 17, 16, 31 vadduwm 18, 17, 31 vadduwm 19, 18, 31 vadduwm 20, 19, 31 vadduwm 21, 20, 31 vadduwm 22, 21, 31 xxlor 9, 32+22, 32+22 # save last state # vxor state, state, w # addroundkey xxlxor 32+15, 32+15, 0 # IV + round key - add round key 0 xxlxor 32+16, 32+16, 0 xxlxor 32+17, 32+17, 0 xxlxor 32+18, 32+18, 0 xxlxor 32+19, 32+19, 0 xxlxor 32+20, 32+20, 0 xxlxor 32+21, 32+21, 0 xxlxor 32+22, 32+22, 0 li 15, 16 li 16, 32 li 17, 48 li 18, 64 li 19, 80 li 20, 96 li 21, 112 # # Pre-compute first 8 AES state and leave 1/3/5 more rounds # for the loop. # addi 22, 23, -9 # process 8 keys mtctr 22 # AES key loop addi 10, 6, 144 LOOP_8AES_STATE # process 8 AES keys __PreLoop_aes_state: lxv 32+1, 0(10) # round key AES_CIPHER_8x 1 addi 10, 10, 16 bdnz __PreLoop_aes_state lxv 32+1, 0(10) # last round key (v1) cmpdi 12, 0 # Only one loop (8 block) beq __Finish_ghash # # Loop 8x blocks and compute ghash # __Loop_8x_block_enc: PROCESS_8X_AES_STATES # Compute ghash here vxor 15, 15, 0 PPC_GFMUL128_8x COMPUTE_STATES addi 5, 5, -128 addi 11, 11, 128 lxv 32+23, 16(6) # round key 1 lxv 32+24, 32(6) # round key 2 lxv 32+25, 48(6) # round key 3 lxv 32+26, 64(6) # round key 4 lxv 32+27, 80(6) # round key 5 lxv 32+28, 96(6) # round key 6 lxv 32+29, 112(6) # round key 7 lxv 32+1, 128(6) # round key 8 # Compute first 8 AES state and leave 1/3/5 more rounds # for the loop. LOOP_8AES_STATE # process 8 AES keys mtctr 22 # AES key loop addi 10, 6, 144 __LastLoop_aes_state: lxv 32+1, 0(10) # round key AES_CIPHER_8x 1 addi 10, 10, 16 bdnz __LastLoop_aes_state lxv 32+1, 0(10) # last round key (v1) addi 12, 12, -1 cmpdi 12, 0 bne __Loop_8x_block_enc # # Remainng blocks # __Finish_ghash: PROCESS_8X_AES_STATES # Compute ghash here vxor 15, 15, 0 PPC_GFMUL128_8x # Update IV and Xi xxlor 30+32, 9, 9 # last ctr vadduwm 30, 30, 31 # increase ctr stxvb16x 32+0, 0, 8 # update Xi addi 5, 5, -128 addi 11, 11, 128 # # Done 8x blocks # cmpdi 5, 0 beq aes_gcm_out __Process_more_enc: li 24, 1 # encrypt bl aes_gcm_crypt_1x cmpdi 5, 0 beq aes_gcm_out bl __Process_partial b aes_gcm_out .size ppc_aes_gcm_encrypt,.-ppc_aes_gcm_encrypt ################################################################################ # ppc_aes_gcm_decrypt (const void *inp, void *out, size_t len, # const char *rk, unsigned char iv[16], void *Xip); # 8x Decrypt # ################################################################################ .global ppc_aes_gcm_decrypt .align 5 ppc_aes_gcm_decrypt: SAVE_REGS LOAD_HASH_TABLE # initialize ICB: GHASH( IV ), IV - r7 lxvb16x 30+32, 0, 7 # load IV - v30 mr 14, 3 mr 9, 4 # counter 1 vxor 31, 31, 31 vspltisb 22, 1 vsldoi 31, 31, 22,1 # counter 1 addis 11, 2, permx@toc@ha addi 11, 11, permx@toc@l lxv 10, 0(11) # vs10: vpermxor vector li 11, 0 lxv 0, 0(6) # round key 0 # # Process different blocks # cmpdi 5, 128 blt __Process_more_dec # load 9 round keys lxv 32+23, 16(6) # round key 1 lxv 32+24, 32(6) # round key 2 lxv 32+25, 48(6) # round key 3 lxv 32+26, 64(6) # round key 4 lxv 32+27, 80(6) # round key 5 lxv 32+28, 96(6) # round key 6 lxv 32+29, 112(6) # round key 7 lxv 32+1, 128(6) # round key 8 # load rounds - 10 (128), 12 (192), 14 (256) lwz 23, 240(6) # n rounds __Process_decrypt: # # Process 8x AES/GCM blocks # __Process_8x_dec: # 8x blocks li 10, 128 divdu 12, 5, 10 # n 128 bytes-blocks addi 12, 12, -1 # loop - 1 vmr 15, 30 # first state: IV vadduwm 16, 15, 31 # state + counter vadduwm 17, 16, 31 vadduwm 18, 17, 31 vadduwm 19, 18, 31 vadduwm 20, 19, 31 vadduwm 21, 20, 31 vadduwm 22, 21, 31 xxlor 9, 32+22, 32+22 # save last state # vxor state, state, w # addroundkey xxlxor 32+15, 32+15, 0 # IV + round key - add round key 0 xxlxor 32+16, 32+16, 0 xxlxor 32+17, 32+17, 0 xxlxor 32+18, 32+18, 0 xxlxor 32+19, 32+19, 0 xxlxor 32+20, 32+20, 0 xxlxor 32+21, 32+21, 0 xxlxor 32+22, 32+22, 0 li 15, 16 li 16, 32 li 17, 48 li 18, 64 li 19, 80 li 20, 96 li 21, 112 # # Pre-compute first 8 AES state and leave 1/3/5 more rounds # for the loop. # addi 22, 23, -9 # process 8 keys mtctr 22 # AES key loop addi 10, 6, 144 LOOP_8AES_STATE # process 8 AES keys __PreLoop_aes_state_dec: lxv 32+1, 0(10) # round key AES_CIPHER_8x 1 addi 10, 10, 16 bdnz __PreLoop_aes_state_dec lxv 32+1, 0(10) # last round key (v1) cmpdi 12, 0 # Only one loop (8 block) beq __Finish_ghash_dec # # Loop 8x blocks and compute ghash # __Loop_8x_block_dec: vcipherlast 15, 15, 1 vcipherlast 16, 16, 1 vcipherlast 17, 17, 1 vcipherlast 18, 18, 1 vcipherlast 19, 19, 1 vcipherlast 20, 20, 1 vcipherlast 21, 21, 1 vcipherlast 22, 22, 1 lxvb16x 32+23, 0, 14 # load block lxvb16x 32+24, 15, 14 # load block lxvb16x 32+25, 16, 14 # load block lxvb16x 32+26, 17, 14 # load block lxvb16x 32+27, 18, 14 # load block lxvb16x 32+28, 19, 14 # load block lxvb16x 32+29, 20, 14 # load block lxvb16x 32+30, 21, 14 # load block addi 14, 14, 128 vxor 15, 15, 23 vxor 16, 16, 24 vxor 17, 17, 25 vxor 18, 18, 26 vxor 19, 19, 27 vxor 20, 20, 28 vxor 21, 21, 29 vxor 22, 22, 30 stxvb16x 47, 0, 9 # store output stxvb16x 48, 15, 9 # store output stxvb16x 49, 16, 9 # store output stxvb16x 50, 17, 9 # store output stxvb16x 51, 18, 9 # store output stxvb16x 52, 19, 9 # store output stxvb16x 53, 20, 9 # store output stxvb16x 54, 21, 9 # store output addi 9, 9, 128 vmr 15, 23 vmr 16, 24 vmr 17, 25 vmr 18, 26 vmr 19, 27 vmr 20, 28 vmr 21, 29 vmr 22, 30 # ghash here vxor 15, 15, 0 PPC_GFMUL128_8x xxlor 32+15, 9, 9 # last state vadduwm 15, 15, 31 # state + counter vadduwm 16, 15, 31 vadduwm 17, 16, 31 vadduwm 18, 17, 31 vadduwm 19, 18, 31 vadduwm 20, 19, 31 vadduwm 21, 20, 31 vadduwm 22, 21, 31 xxlor 9, 32+22, 32+22 # save last state xxlor 32+27, 0, 0 # restore roundkey 0 vxor 15, 15, 27 # IV + round key - add round key 0 vxor 16, 16, 27 vxor 17, 17, 27 vxor 18, 18, 27 vxor 19, 19, 27 vxor 20, 20, 27 vxor 21, 21, 27 vxor 22, 22, 27 addi 5, 5, -128 addi 11, 11, 128 lxv 32+23, 16(6) # round key 1 lxv 32+24, 32(6) # round key 2 lxv 32+25, 48(6) # round key 3 lxv 32+26, 64(6) # round key 4 lxv 32+27, 80(6) # round key 5 lxv 32+28, 96(6) # round key 6 lxv 32+29, 112(6) # round key 7 lxv 32+1, 128(6) # round key 8 LOOP_8AES_STATE # process 8 AES keys mtctr 22 # AES key loop addi 10, 6, 144 __LastLoop_aes_state_dec: lxv 32+1, 0(10) # round key AES_CIPHER_8x 1 addi 10, 10, 16 bdnz __LastLoop_aes_state_dec lxv 32+1, 0(10) # last round key (v1) addi 12, 12, -1 cmpdi 12, 0 bne __Loop_8x_block_dec __Finish_ghash_dec: vcipherlast 15, 15, 1 vcipherlast 16, 16, 1 vcipherlast 17, 17, 1 vcipherlast 18, 18, 1 vcipherlast 19, 19, 1 vcipherlast 20, 20, 1 vcipherlast 21, 21, 1 vcipherlast 22, 22, 1 lxvb16x 32+23, 0, 14 # load block lxvb16x 32+24, 15, 14 # load block lxvb16x 32+25, 16, 14 # load block lxvb16x 32+26, 17, 14 # load block lxvb16x 32+27, 18, 14 # load block lxvb16x 32+28, 19, 14 # load block lxvb16x 32+29, 20, 14 # load block lxvb16x 32+30, 21, 14 # load block addi 14, 14, 128 vxor 15, 15, 23 vxor 16, 16, 24 vxor 17, 17, 25 vxor 18, 18, 26 vxor 19, 19, 27 vxor 20, 20, 28 vxor 21, 21, 29 vxor 22, 22, 30 stxvb16x 47, 0, 9 # store output stxvb16x 48, 15, 9 # store output stxvb16x 49, 16, 9 # store output stxvb16x 50, 17, 9 # store output stxvb16x 51, 18, 9 # store output stxvb16x 52, 19, 9 # store output stxvb16x 53, 20, 9 # store output stxvb16x 54, 21, 9 # store output addi 9, 9, 128 vxor 15, 23, 0 vmr 16, 24 vmr 17, 25 vmr 18, 26 vmr 19, 27 vmr 20, 28 vmr 21, 29 vmr 22, 30 #vxor 15, 15, 0 PPC_GFMUL128_8x xxlor 30+32, 9, 9 # last ctr vadduwm 30, 30, 31 # increase ctr stxvb16x 32+0, 0, 8 # update Xi addi 5, 5, -128 addi 11, 11, 128 # # Done 8x blocks # cmpdi 5, 0 beq aes_gcm_out __Process_more_dec: li 24, 0 # decrypt bl aes_gcm_crypt_1x cmpdi 5, 0 beq aes_gcm_out bl __Process_partial b aes_gcm_out .size ppc_aes_gcm_decrypt,.-ppc_aes_gcm_decrypt aes_gcm_out: mr 3, 11 # return count RESTORE_REGS blr .size aes_gcm_out,.-aes_gcm_out .rodata .align 4 # for vector permute and xor permx: .long 0x4c5d6e7f, 0x08192a3b, 0xc4d5e6f7, 0x8091a2b3