#include #include "utils.h" #include "gcm.h" #include "sealedkeys.h" #include "se.h" /* Shifts right a little endian 128-bit value. */ static void shr_128(uint64_t *val) { val[0] >>= 1; val[0] |= (val[1] & 1) << 63; val[1] >>= 1; } /* Shifts left a little endian 128-bit value. */ static void shl_128(uint64_t *val) { val[1] <<= 1; val[1] |= (val[0] & (1ULL << 63)) >> 63; val[0] <<= 1; } /* Multiplies two 128-bit numbers X,Y in the GF(128) Galois Field. */ static void gf128_mul(uint8_t *dst, const uint8_t *x, const uint8_t *y) { uint8_t x_work[0x10]; uint8_t y_work[0x10]; uint8_t dst_work[0x10]; uint64_t *p_x = (uint64_t *)(&x_work[0]); uint64_t *p_y = (uint64_t *)(&y_work[0]); uint64_t *p_dst = (uint64_t *)(&dst_work[0]); /* Initialize buffers. */ for (unsigned int i = 0; i < 0x10; i++) { x_work[i] = x[0xF-i]; y_work[i] = y[0xF-i]; dst_work[i] = 0; } /* Perform operation for each bit in y. */ for (unsigned int round = 0; round < 0x80; round++) { p_dst[0] ^= p_x[0] * ((y_work[0xF] & 0x80) >> 7); p_dst[1] ^= p_x[1] * ((y_work[0xF] & 0x80) >> 7); shl_128(p_y); uint8_t xval = 0xE1 * (x_work[0] & 1); shr_128(p_x); x_work[0xF] ^= xval; } for (unsigned int i = 0; i < 0x10; i++) { dst[i] = dst_work[0xF-i]; } } /* Performs an AES-GCM GHASH operation over the data into dst. */ static void ghash(void *dst, const void *data, size_t data_size, const void *j_block, bool encrypt) { uint8_t x[0x10]; uint8_t h[0x10]; uint64_t *p_x = (uint64_t *)(&x[0]); uint64_t *p_data = (uint64_t *)data; memset(x, 0, 0x10); /* H = aes_ecb_encrypt(zeroes) */ se_aes_128_ecb_encrypt_block(KEYSLOT_SWITCH_TEMPKEY, h, 0x10, x, 0x10); size_t total_size = data_size; while (data_size >= 0x10) { /* X = (X ^ current_block) * H */ p_x[0] ^= p_data[0]; p_x[1] ^= p_data[1]; gf128_mul(x, x, h); /* Increment p_data by 0x10 bytes. */ p_data += 2; data_size -= 0x10; } /* Nintendo's code *discards all data in the last block* if unaligned. */ /* And treats that block as though it were all-zero. */ /* This is a bug, they just forget to XOR with the copy of the last block they save. */ if (data_size & 0xF) { gf128_mul(x, x, h); } /* Due to a Nintendo bug, the wrong QWORD gets XOR'd in the "final output block" case. */ if (encrypt) { p_x[1] ^= (uint64_t)(total_size << 3); } else { p_x[0] ^= (uint64_t)(total_size << 3); } gf128_mul(x, x, h); /* If final output block, XOR with encrypted J block. */ if (encrypt) { se_aes_128_ecb_encrypt_block(KEYSLOT_SWITCH_TEMPKEY, h, 0x10, j_block, 0x10); for (unsigned int i = 0; i < 0x10; i++) { x[i] ^= h[i]; } } /* Copy output. */ memcpy(dst, x, 0x10); } /* This function is a doozy. It decrypts and validates a (non-standard) AES-GCM wrapped keypair. */ size_t gcm_decrypt_key(void *dst, size_t dst_size, const void *src, size_t src_size, const void *sealed_kek, size_t kek_size, const void *wrapped_key, size_t key_size, unsigned int usecase, bool is_personalized) { if (is_personalized == 0) { /* Devkit keys use a different keyformat without a MAC/Device ID. */ if (src_size <= 0x10 || src_size - 0x10 > dst_size) { panic(); } } else { if (src_size <= 0x30 || src_size - 0x20 > dst_size) { panic(); } } /* Unwrap the key */ unseal_key(KEYSLOT_SWITCH_TEMPKEY, sealed_kek, kek_size, usecase); decrypt_data_into_keyslot(KEYSLOT_SWITCH_TEMPKEY, KEYSLOT_SWITCH_TEMPKEY, wrapped_key, key_size); /* Decrypt the GCM keypair, AES-CTR with CTR = blob[:0x10]. */ se_aes_ctr_crypt(KEYSLOT_SWITCH_TEMPKEY, dst, dst_size, src + 0x10, src_size - 0x10, src, 0x10); if (!is_personalized) { /* Devkit non-personalized keys have no further authentication. */ return src_size - 0x10; } /* J = GHASH(CTR); */ uint8_t j_block[0x10]; ghash(j_block, src, 0x10, NULL, false); /* MAC = GHASH(PLAINTEXT) ^ ENCRYPT(J) */ /* Note: That MAC is calculated over plaintext is non-standard. */ /* It is supposed to be over the ciphertext. */ uint8_t calc_mac[0x10]; ghash(calc_mac, dst, src_size - 0x20, j_block, true); /* Const-time memcmp. */ const uint8_t *src_bytes = src; int different = 0; for (unsigned int i = 0; i < 0x10; i++) { different |= src_bytes[src_size - 0x10 + i] ^ calc_mac[i]; } if (different) { return 0; } /* TODO: Validate Device ID matches in blob data from fuses. */ return src_size - 0x30; }