#include #include "blake2s.h" #include "ed25519-donna/ed25519.h" #include "common.h" #include "flash.h" #include "image.h" static secbool compute_pubkey(uint8_t sig_m, uint8_t sig_n, const uint8_t * const *pub, uint8_t sigmask, ed25519_public_key res) { if (0 == sig_m || 0 == sig_n) return secfalse; if (sig_m > sig_n) return secfalse; // discard bits higher than sig_n sigmask &= ((1 << sig_n) - 1); // remove if number of set bits in sigmask is not equal to sig_m if (__builtin_popcount(sigmask) != sig_m) return secfalse; ed25519_public_key keys[sig_m]; int j = 0; for (int i = 0; i < sig_n; i++) { if ((1 << i) & sigmask) { memcpy(keys[j], pub[i], 32); j++; } } return sectrue * (0 == ed25519_cosi_combine_publickeys(res, keys, sig_m)); } secbool load_image_header(const uint8_t * const data, const uint32_t magic, const uint32_t maxsize, uint8_t key_m, uint8_t key_n, const uint8_t * const *keys, image_header * const hdr) { memcpy(&hdr->magic, data, 4); if (hdr->magic != magic) return secfalse; memcpy(&hdr->hdrlen, data + 4, 4); if (hdr->hdrlen != IMAGE_HEADER_SIZE) return secfalse; memcpy(&hdr->expiry, data + 8, 4); // TODO: expiry mechanism needs to be ironed out before production or those // devices won't accept expiring bootloaders (due to boardloader write protection). if (hdr->expiry != 0) return secfalse; memcpy(&hdr->codelen, data + 12, 4); if (hdr->codelen > (maxsize - hdr->hdrlen)) return secfalse; if ((hdr->hdrlen + hdr->codelen) < 4 * 1024) return secfalse; if ((hdr->hdrlen + hdr->codelen) % 512 != 0) return secfalse; memcpy(&hdr->version, data + 16, 4); memcpy(hdr->hashes, data + 32, 512); memcpy(&hdr->sigmask, data + IMAGE_HEADER_SIZE - IMAGE_SIG_SIZE, 1); memcpy(hdr->sig, data + IMAGE_HEADER_SIZE - IMAGE_SIG_SIZE + 1, IMAGE_SIG_SIZE - 1); // check header signature uint8_t hash[BLAKE2S_DIGEST_LENGTH]; BLAKE2S_CTX ctx; blake2s_Init(&ctx, BLAKE2S_DIGEST_LENGTH); blake2s_Update(&ctx, data, IMAGE_HEADER_SIZE - IMAGE_SIG_SIZE); for (int i = 0; i < IMAGE_SIG_SIZE; i++) { blake2s_Update(&ctx, (const uint8_t *)"\x00", 1); } blake2s_Final(&ctx, hash, BLAKE2S_DIGEST_LENGTH); ed25519_public_key pub; if (sectrue != compute_pubkey(key_m, key_n, keys, hdr->sigmask, pub)) return secfalse; return sectrue * (0 == ed25519_sign_open(hash, BLAKE2S_DIGEST_LENGTH, pub, *(const ed25519_signature *)hdr->sig)); } secbool load_vendor_header(const uint8_t * const data, uint8_t key_m, uint8_t key_n, const uint8_t * const *keys, vendor_header * const vhdr) { memcpy(&vhdr->magic, data, 4); if (vhdr->magic != 0x565A5254) return secfalse; // TRZV memcpy(&vhdr->hdrlen, data + 4, 4); if (vhdr->hdrlen > 64 * 1024) return secfalse; memcpy(&vhdr->expiry, data + 8, 4); if (vhdr->expiry != 0) return secfalse; memcpy(&vhdr->version, data + 12, 2); memcpy(&vhdr->vsig_m, data + 14, 1); memcpy(&vhdr->vsig_n, data + 15, 1); memcpy(&vhdr->vtrust, data + 16, 2); if (vhdr->vsig_n > MAX_VENDOR_PUBLIC_KEYS) { return secfalse; } for (int i = 0; i < vhdr->vsig_n; i++) { vhdr->vpub[i] = data + 32 + i * 32; } for (int i = vhdr->vsig_n; i < MAX_VENDOR_PUBLIC_KEYS; i++) { vhdr->vpub[i] = 0; } memcpy(&vhdr->vstr_len, data + 32 + vhdr->vsig_n * 32, 1); vhdr->vstr = data + 32 + vhdr->vsig_n * 32 + 1; vhdr->vimg = data + 32 + vhdr->vsig_n * 32 + 1 + vhdr->vstr_len; // align to 4 bytes vhdr->vimg += (-(uintptr_t)vhdr->vimg) & 3; memcpy(&vhdr->sigmask, data + vhdr->hdrlen - IMAGE_SIG_SIZE, 1); memcpy(vhdr->sig, data + vhdr->hdrlen - IMAGE_SIG_SIZE + 1, IMAGE_SIG_SIZE - 1); // check header signature uint8_t hash[BLAKE2S_DIGEST_LENGTH]; BLAKE2S_CTX ctx; blake2s_Init(&ctx, BLAKE2S_DIGEST_LENGTH); blake2s_Update(&ctx, data, vhdr->hdrlen - IMAGE_SIG_SIZE); for (int i = 0; i < IMAGE_SIG_SIZE; i++) { blake2s_Update(&ctx, (const uint8_t *)"\x00", 1); } blake2s_Final(&ctx, hash, BLAKE2S_DIGEST_LENGTH); ed25519_public_key pub; if (sectrue != compute_pubkey(key_m, key_n, keys, vhdr->sigmask, pub)) return secfalse; return sectrue * (0 == ed25519_sign_open(hash, BLAKE2S_DIGEST_LENGTH, pub, *(const ed25519_signature *)vhdr->sig)); } secbool check_single_hash(const uint8_t * const hash, const uint8_t * const data, int len) { uint8_t h[BLAKE2S_DIGEST_LENGTH]; blake2s(data, len, h, BLAKE2S_DIGEST_LENGTH); return sectrue * (0 == memcmp(h, hash, BLAKE2S_DIGEST_LENGTH)); } #define MIN(a,b) ((a) < (b) ? (a) : (b)) secbool check_image_contents(const image_header * const hdr, uint32_t firstskip, const uint8_t *sectors, int blocks) { if (0 == sectors || blocks < 1) { return secfalse; } const void *data = flash_get_address(sectors[0], firstskip, IMAGE_CHUNK_SIZE - firstskip); if (!data) { return secfalse; } int remaining = hdr->codelen; if (sectrue != check_single_hash(hdr->hashes, data, MIN(remaining, IMAGE_CHUNK_SIZE - firstskip))) { return secfalse; } int block = 1; remaining -= IMAGE_CHUNK_SIZE - firstskip; while (remaining > 0) { if (block >= blocks) { return secfalse; } data = flash_get_address(sectors[block], 0, IMAGE_CHUNK_SIZE); if (!data) { return secfalse; } if (sectrue != check_single_hash(hdr->hashes + block * 32, data, MIN(remaining, IMAGE_CHUNK_SIZE))) { return secfalse; } block++; remaining -= IMAGE_CHUNK_SIZE; } return sectrue; }