Lines Matching +full:v1 +full:- +full:v6
58 * v0 = all-zero word in key_schedule_128()
59 * v1 = constant -8 / +8, copied into four words in key_schedule_128()
62 * v6 = constant 8, copied into four words in key_schedule_128()
68 vspltisw(1, -8) in key_schedule_128()
141 : "v0", "v1", "v2", "v3", "v4", "v5", "v6", "v7", "ctr", "memory" in key_schedule_128()
167 * v0 = all-zero word in key_schedule_192()
168 * v1 = constant -8 / +8, copied into four words in key_schedule_192()
170 * v5 = Rcon (x4 words) (already shifted on big-endian) in key_schedule_192()
171 * v6 = constant 8, copied into four words in key_schedule_192()
178 vspltisw(1, -8) in key_schedule_192()
197 * bits of subkeys, with a 64-bit overlap. in key_schedule_192()
234 * Update Rcon. Since for a 192-bit key, we use only 8 in key_schedule_192()
241 * Write out the two left 128-bit words in key_schedule_192()
278 : "v0", "v1", "v2", "v3", "v4", "v5", "v6", "v7", in key_schedule_192()
305 * v0 = all-zero word in key_schedule_256()
306 * v1 = constant -8 / +8, copied into four words in key_schedule_256()
308 * v6 = Rcon (x4 words) (already shifted on big-endian) in key_schedule_256()
316 vspltisw(1, -8) in key_schedule_256()
372 * Update Rcon. Since for a 256-bit key, we use only 7 in key_schedule_256()
379 * Write out the two left 128-bit words in key_schedule_256()
416 : "v0", "v1", "v2", "v3", "v4", "v5", "v6", "v7", in key_schedule_256()