/* Copyright (c) 2011 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. * * Host functions for keys. */ /* TODO: change all 'return 0', 'return 1' into meaningful return codes */ #include #include #include #include #include "cryptolib.h" #include "host_common.h" #include "host_key.h" #include "host_misc.h" #include "vboot_common.h" VbPrivateKey* PrivateKeyReadPem(const char* filename, uint64_t algorithm) { VbPrivateKey* key; RSA* rsa_key; FILE* f; if (algorithm >= kNumAlgorithms) { VBDEBUG(("%s() called with invalid algorithm!\n", __FUNCTION__)); return NULL; } /* Read private key */ f = fopen(filename, "r"); if (!f) { VBDEBUG(("%s(): Couldn't open key file: %s\n", __FUNCTION__, filename)); return NULL; } rsa_key = PEM_read_RSAPrivateKey(f, NULL, NULL, NULL); fclose(f); if (!rsa_key) { VBDEBUG(("%s(): Couldn't read private key from file: %s\n", __FUNCTION__, filename)); return NULL; } /* Store key and algorithm in our struct */ key = (VbPrivateKey*)malloc(sizeof(VbPrivateKey)); if (!key) { RSA_free(rsa_key); return NULL; } key->rsa_private_key = rsa_key; key->algorithm = algorithm; /* Return the key */ return key; } void PrivateKeyFree(VbPrivateKey* key) { if (!key) return; if (key->rsa_private_key) RSA_free(key->rsa_private_key); free(key); } /* Write a private key to a file in .vbprivk format. */ int PrivateKeyWrite(const char* filename, const VbPrivateKey* key) { uint8_t *outbuf = 0; int buflen; FILE *f; buflen = i2d_RSAPrivateKey(key->rsa_private_key, &outbuf); if (buflen <= 0) { VbExError("Unable to write private key buffer\n"); return 1; } f = fopen(filename, "wb"); if (!f) { VbExError("Unable to open file %s\n", filename); free(outbuf); return 1; } if (1 != fwrite(&key->algorithm, sizeof(key->algorithm), 1, f)) { VbExError("Unable to write to file %s\n", filename); fclose(f); free(outbuf); unlink(filename); /* Delete any partial file */ } if (1 != fwrite(outbuf, buflen, 1, f)) { VbExError("Unable to write to file %s\n", filename); fclose(f); unlink(filename); /* Delete any partial file */ free(outbuf); } fclose(f); free(outbuf); return 0; } VbPrivateKey* PrivateKeyRead(const char* filename) { VbPrivateKey *key; uint64_t filelen = 0; uint8_t *buffer; const unsigned char *start; buffer = ReadFile(filename, &filelen); if (!buffer) { VbExError("unable to read from file %s\n", filename); return 0; } key = (VbPrivateKey*)malloc(sizeof(VbPrivateKey)); if (!key) { VbExError("Unable to allocate VbPrivateKey\n"); free(buffer); return 0; } key->algorithm = *(typeof(key->algorithm) *)buffer; start = buffer + sizeof(key->algorithm); key->rsa_private_key = d2i_RSAPrivateKey(0, &start, filelen - sizeof(key->algorithm)); if (!key->rsa_private_key) { VbExError("Unable to parse RSA private key\n"); free(buffer); free(key); return 0; } free(buffer); return key; } /* Allocate a new public key with space for a [key_size] byte key. */ VbPublicKey* PublicKeyAlloc(uint64_t key_size, uint64_t algorithm, uint64_t version) { VbPublicKey* key = (VbPublicKey*)malloc(sizeof(VbPublicKey) + key_size); if (!key) return NULL; key->algorithm = algorithm; key->key_version = version; key->key_size = key_size; key->key_offset = sizeof(VbPublicKey); return key; } VbPublicKey* PublicKeyReadKeyb(const char* filename, uint64_t algorithm, uint64_t version) { VbPublicKey* key; uint8_t* key_data; uint64_t key_size; uint64_t expected_key_size; if (algorithm >= kNumAlgorithms) { VBDEBUG(("PublicKeyReadKeyb() called with invalid algorithm!\n")); return NULL; } if (version > 0xFFFF) { /* Currently, TPM only supports 16-bit version */ VBDEBUG(("PublicKeyReadKeyb() called with invalid version!\n")); return NULL; } key_data = ReadFile(filename, &key_size); if (!key_data) return NULL; if (!RSAProcessedKeySize(algorithm, &expected_key_size) || expected_key_size != key_size) { VBDEBUG(("PublicKeyReadKeyb() wrong key size for algorithm\n")); free(key_data); return NULL; } key = PublicKeyAlloc(key_size, algorithm, version); if (!key) { free(key_data); return NULL; } Memcpy(GetPublicKeyData(key), key_data, key_size); free(key_data); return key; } int PublicKeyLooksOkay(VbPublicKey *key, uint64_t file_size) { uint64_t key_size; /* Sanity-check key data */ if (0 != VerifyPublicKeyInside(key, file_size, key)) { VBDEBUG(("PublicKeyRead() not a VbPublicKey\n")); return 0; } if (key->algorithm >= kNumAlgorithms) { VBDEBUG(("PublicKeyRead() invalid algorithm\n")); return 0; } if (key->key_version > 0xFFFF) { VBDEBUG(("PublicKeyRead() invalid version\n")); return 0; /* Currently, TPM only supports 16-bit version */ } if (!RSAProcessedKeySize(key->algorithm, &key_size) || key_size != key->key_size) { VBDEBUG(("PublicKeyRead() wrong key size for algorithm\n")); return 0; } /* Success */ return 1; } VbPublicKey* PublicKeyRead(const char* filename) { VbPublicKey* key; uint64_t file_size; key = (VbPublicKey*)ReadFile(filename, &file_size); if (!key) return NULL; if (PublicKeyLooksOkay(key, file_size)) return key; /* Error */ free(key); return NULL; } int PublicKeyWrite(const char* filename, const VbPublicKey* key) { VbPublicKey* kcopy; int rv; /* Copy the key, so its data is contiguous with the header */ kcopy = PublicKeyAlloc(key->key_size, 0, 0); if (!kcopy) return 1; if (0 != PublicKeyCopy(kcopy, key)) { free(kcopy); return 1; } /* Write the copy, then free it */ rv = WriteFile(filename, kcopy, kcopy->key_offset + kcopy->key_size); free(kcopy); return rv; }