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|
/**
* Copyright Amazon.com, Inc. or its affiliates. All Rights Reserved.
* SPDX-License-Identifier: Apache-2.0.
*/
#include <aws/cal/private/ecc.h>
#include <aws/cal/cal.h>
#include <aws/cal/private/der.h>
#include <Security/SecKey.h>
#include <Security/Security.h>
#if !defined(AWS_OS_IOS)
# include <Security/SecSignVerifyTransform.h>
#endif
struct commoncrypto_ecc_key_pair {
struct aws_ecc_key_pair key_pair;
SecKeyRef priv_key_ref;
SecKeyRef pub_key_ref;
CFAllocatorRef cf_allocator;
};
static uint8_t s_preamble = 0x04;
static size_t s_der_overhead = 8;
static int s_sign_message(
const struct aws_ecc_key_pair *key_pair,
const struct aws_byte_cursor *message,
struct aws_byte_buf *signature_output) {
struct commoncrypto_ecc_key_pair *cc_key = key_pair->impl;
if (!cc_key->priv_key_ref) {
return aws_raise_error(AWS_ERROR_CAL_MISSING_REQUIRED_KEY_COMPONENT);
}
CFDataRef hash_ref = CFDataCreateWithBytesNoCopy(NULL, message->ptr, message->len, kCFAllocatorNull);
AWS_FATAL_ASSERT(hash_ref && "No allocations should have happened here, this function shouldn't be able to fail.");
CFErrorRef error = NULL;
CFDataRef signature =
SecKeyCreateSignature(cc_key->priv_key_ref, kSecKeyAlgorithmECDSASignatureDigestX962, hash_ref, &error);
if (error) {
CFRelease(hash_ref);
return aws_raise_error(AWS_ERROR_SYS_CALL_FAILURE);
}
struct aws_byte_cursor to_write =
aws_byte_cursor_from_array(CFDataGetBytePtr(signature), CFDataGetLength(signature));
if (aws_byte_buf_append(signature_output, &to_write)) {
CFRelease(signature);
CFRelease(hash_ref);
return aws_raise_error(AWS_ERROR_SHORT_BUFFER);
}
CFRelease(signature);
CFRelease(hash_ref);
return AWS_OP_SUCCESS;
}
static size_t s_signature_length(const struct aws_ecc_key_pair *key_pair) {
return aws_ecc_key_coordinate_byte_size_from_curve_name(key_pair->curve_name) * 2 + s_der_overhead;
}
static int s_verify_signature(
const struct aws_ecc_key_pair *key_pair,
const struct aws_byte_cursor *message,
const struct aws_byte_cursor *signature) {
struct commoncrypto_ecc_key_pair *cc_key = key_pair->impl;
if (!cc_key->pub_key_ref) {
return aws_raise_error(AWS_ERROR_CAL_MISSING_REQUIRED_KEY_COMPONENT);
}
CFDataRef hash_ref = CFDataCreateWithBytesNoCopy(NULL, message->ptr, message->len, kCFAllocatorNull);
CFDataRef signature_ref = CFDataCreateWithBytesNoCopy(NULL, signature->ptr, signature->len, kCFAllocatorNull);
AWS_FATAL_ASSERT(hash_ref && "No allocations should have happened here, this function shouldn't be able to fail.");
AWS_FATAL_ASSERT(
signature_ref && "No allocations should have happened here, this function shouldn't be able to fail.");
CFErrorRef error = NULL;
bool verified = SecKeyVerifySignature(
cc_key->pub_key_ref, kSecKeyAlgorithmECDSASignatureDigestX962, hash_ref, signature_ref, &error);
CFRelease(signature_ref);
CFRelease(hash_ref);
return verified ? AWS_OP_SUCCESS : aws_raise_error(AWS_ERROR_CAL_SIGNATURE_VALIDATION_FAILED);
}
static int s_derive_public_key(struct aws_ecc_key_pair *key_pair) {
/* we already have a public key, just lie and tell them we succeeded */
if (key_pair->pub_x.buffer && key_pair->pub_x.len) {
return AWS_OP_SUCCESS;
}
return aws_raise_error(AWS_ERROR_UNSUPPORTED_OPERATION);
}
static void s_destroy_key(struct aws_ecc_key_pair *key_pair) {
if (key_pair) {
struct commoncrypto_ecc_key_pair *cc_key = key_pair->impl;
if (cc_key->pub_key_ref) {
CFRelease(cc_key->pub_key_ref);
}
if (cc_key->priv_key_ref) {
CFRelease(cc_key->priv_key_ref);
}
if (cc_key->cf_allocator) {
aws_wrapped_cf_allocator_destroy(cc_key->cf_allocator);
}
aws_byte_buf_clean_up_secure(&key_pair->key_buf);
aws_mem_release(key_pair->allocator, cc_key);
}
}
static struct aws_ecc_key_pair_vtable s_key_pair_vtable = {
.sign_message = s_sign_message,
.signature_length = s_signature_length,
.verify_signature = s_verify_signature,
.derive_pub_key = s_derive_public_key,
.destroy = s_destroy_key,
};
static struct commoncrypto_ecc_key_pair *s_alloc_pair_and_init_buffers(
struct aws_allocator *allocator,
enum aws_ecc_curve_name curve_name,
struct aws_byte_cursor pub_x,
struct aws_byte_cursor pub_y,
struct aws_byte_cursor priv_key) {
struct commoncrypto_ecc_key_pair *cc_key_pair =
aws_mem_calloc(allocator, 1, sizeof(struct commoncrypto_ecc_key_pair));
if (!cc_key_pair) {
return NULL;
}
aws_atomic_init_int(&cc_key_pair->key_pair.ref_count, 1);
cc_key_pair->key_pair.impl = cc_key_pair;
cc_key_pair->key_pair.allocator = allocator;
cc_key_pair->cf_allocator = aws_wrapped_cf_allocator_new(allocator);
if (!cc_key_pair->cf_allocator) {
goto error;
}
size_t s_key_coordinate_size = aws_ecc_key_coordinate_byte_size_from_curve_name(curve_name);
if (!s_key_coordinate_size) {
aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);
goto error;
}
if ((pub_x.ptr && pub_x.len != s_key_coordinate_size) || (pub_y.ptr && pub_y.len != s_key_coordinate_size) ||
(priv_key.ptr && priv_key.len != s_key_coordinate_size)) {
aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);
goto error;
}
size_t total_buffer_size = s_key_coordinate_size * 3 + 1;
if (aws_byte_buf_init(&cc_key_pair->key_pair.key_buf, allocator, total_buffer_size)) {
goto error;
}
memset(cc_key_pair->key_pair.key_buf.buffer, 0, cc_key_pair->key_pair.key_buf.len);
aws_byte_buf_write_u8(&cc_key_pair->key_pair.key_buf, s_preamble);
if (pub_x.ptr && pub_y.ptr) {
aws_byte_buf_append(&cc_key_pair->key_pair.key_buf, &pub_x);
aws_byte_buf_append(&cc_key_pair->key_pair.key_buf, &pub_y);
} else {
cc_key_pair->key_pair.key_buf.len += s_key_coordinate_size * 2;
}
if (priv_key.ptr) {
aws_byte_buf_append(&cc_key_pair->key_pair.key_buf, &priv_key);
}
if (pub_x.ptr) {
cc_key_pair->key_pair.pub_x =
aws_byte_buf_from_array(cc_key_pair->key_pair.key_buf.buffer + 1, s_key_coordinate_size);
cc_key_pair->key_pair.pub_y =
aws_byte_buf_from_array(cc_key_pair->key_pair.pub_x.buffer + s_key_coordinate_size, s_key_coordinate_size);
}
cc_key_pair->key_pair.priv_d = aws_byte_buf_from_array(
cc_key_pair->key_pair.key_buf.buffer + 1 + (s_key_coordinate_size * 2), s_key_coordinate_size);
cc_key_pair->key_pair.vtable = &s_key_pair_vtable;
cc_key_pair->key_pair.curve_name = curve_name;
return cc_key_pair;
error:
s_destroy_key(&cc_key_pair->key_pair);
return NULL;
}
struct aws_ecc_key_pair *aws_ecc_key_pair_new_from_private_key_impl(
struct aws_allocator *allocator,
enum aws_ecc_curve_name curve_name,
const struct aws_byte_cursor *priv_key) {
struct aws_byte_cursor empty_cur;
AWS_ZERO_STRUCT(empty_cur);
struct commoncrypto_ecc_key_pair *cc_key_pair =
s_alloc_pair_and_init_buffers(allocator, curve_name, empty_cur, empty_cur, *priv_key);
if (!cc_key_pair) {
return NULL;
}
CFMutableDictionaryRef key_attributes = NULL;
CFDataRef private_key_data = CFDataCreate(
cc_key_pair->cf_allocator, cc_key_pair->key_pair.key_buf.buffer, cc_key_pair->key_pair.key_buf.len);
if (!private_key_data) {
goto error;
}
key_attributes = CFDictionaryCreateMutable(cc_key_pair->cf_allocator, 6, NULL, NULL);
if (!key_attributes) {
goto error;
}
CFDictionaryAddValue(key_attributes, kSecAttrKeyType, kSecAttrKeyTypeECSECPrimeRandom);
CFDictionaryAddValue(key_attributes, kSecAttrKeyClass, kSecAttrKeyClassPrivate);
CFIndex key_size_bits = cc_key_pair->key_pair.priv_d.len * 8;
CFDictionaryAddValue(key_attributes, kSecAttrKeySizeInBits, &key_size_bits);
CFDictionaryAddValue(key_attributes, kSecAttrCanSign, kCFBooleanTrue);
CFDictionaryAddValue(key_attributes, kSecAttrCanVerify, kCFBooleanFalse);
CFDictionaryAddValue(key_attributes, kSecAttrCanDerive, kCFBooleanTrue);
CFErrorRef error = NULL;
cc_key_pair->priv_key_ref = SecKeyCreateWithData(private_key_data, key_attributes, &error);
if (error) {
aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);
CFRelease(error);
goto error;
}
CFRelease(key_attributes);
CFRelease(private_key_data);
return &cc_key_pair->key_pair;
error:
if (private_key_data) {
CFRelease(private_key_data);
}
if (key_attributes) {
CFRelease(key_attributes);
}
s_destroy_key(&cc_key_pair->key_pair);
return NULL;
}
struct aws_ecc_key_pair *aws_ecc_key_pair_new_from_public_key_impl(
struct aws_allocator *allocator,
enum aws_ecc_curve_name curve_name,
const struct aws_byte_cursor *public_key_x,
const struct aws_byte_cursor *public_key_y) {
struct aws_byte_cursor empty_cur;
AWS_ZERO_STRUCT(empty_cur);
struct commoncrypto_ecc_key_pair *cc_key_pair =
s_alloc_pair_and_init_buffers(allocator, curve_name, *public_key_x, *public_key_y, empty_cur);
if (!cc_key_pair) {
return NULL;
}
CFMutableDictionaryRef key_attributes = NULL;
CFDataRef pub_key_data = CFDataCreate(
cc_key_pair->cf_allocator, cc_key_pair->key_pair.key_buf.buffer, cc_key_pair->key_pair.key_buf.len);
if (!pub_key_data) {
goto error;
}
key_attributes = CFDictionaryCreateMutable(cc_key_pair->cf_allocator, 6, NULL, NULL);
if (!key_attributes) {
goto error;
}
CFDictionaryAddValue(key_attributes, kSecAttrKeyType, kSecAttrKeyTypeECSECPrimeRandom);
CFDictionaryAddValue(key_attributes, kSecAttrKeyClass, kSecAttrKeyClassPublic);
CFIndex key_size_bits = cc_key_pair->key_pair.pub_x.len * 8;
CFDictionaryAddValue(key_attributes, kSecAttrKeySizeInBits, &key_size_bits);
CFDictionaryAddValue(key_attributes, kSecAttrCanSign, kCFBooleanFalse);
CFDictionaryAddValue(key_attributes, kSecAttrCanVerify, kCFBooleanTrue);
CFDictionaryAddValue(key_attributes, kSecAttrCanDerive, kCFBooleanFalse);
CFErrorRef error = NULL;
cc_key_pair->pub_key_ref = SecKeyCreateWithData(pub_key_data, key_attributes, &error);
if (error) {
aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);
CFRelease(error);
goto error;
}
CFRelease(key_attributes);
CFRelease(pub_key_data);
return &cc_key_pair->key_pair;
error:
if (key_attributes) {
CFRelease(key_attributes);
}
if (pub_key_data) {
CFRelease(pub_key_data);
}
s_destroy_key(&cc_key_pair->key_pair);
return NULL;
}
#if !defined(AWS_OS_IOS)
struct aws_ecc_key_pair *aws_ecc_key_pair_new_generate_random(
struct aws_allocator *allocator,
enum aws_ecc_curve_name curve_name) {
struct commoncrypto_ecc_key_pair *cc_key_pair =
aws_mem_calloc(allocator, 1, sizeof(struct commoncrypto_ecc_key_pair));
if (!cc_key_pair) {
return NULL;
}
CFDataRef sec_key_export_data = NULL;
CFStringRef key_size_cf_str = NULL;
CFMutableDictionaryRef key_attributes = NULL;
struct aws_der_decoder *decoder = NULL;
aws_atomic_init_int(&cc_key_pair->key_pair.ref_count, 1);
cc_key_pair->key_pair.impl = cc_key_pair;
cc_key_pair->key_pair.allocator = allocator;
cc_key_pair->cf_allocator = aws_wrapped_cf_allocator_new(allocator);
if (!cc_key_pair->cf_allocator) {
goto error;
}
size_t key_coordinate_size = aws_ecc_key_coordinate_byte_size_from_curve_name(curve_name);
if (!key_coordinate_size) {
aws_raise_error(AWS_ERROR_INVALID_ARGUMENT);
goto error;
}
key_attributes = CFDictionaryCreateMutable(cc_key_pair->cf_allocator, 6, NULL, NULL);
if (!key_attributes) {
goto error;
}
CFDictionaryAddValue(key_attributes, kSecAttrKeyType, kSecAttrKeyTypeECSECPrimeRandom);
CFDictionaryAddValue(key_attributes, kSecAttrKeyClass, kSecAttrKeyClassPrivate);
CFIndex key_size_bits = key_coordinate_size * 8;
char key_size_str[32] = {0};
snprintf(key_size_str, sizeof(key_size_str), "%d", (int)key_size_bits);
key_size_cf_str = CFStringCreateWithCString(cc_key_pair->cf_allocator, key_size_str, kCFStringEncodingASCII);
if (!key_size_cf_str) {
goto error;
}
CFDictionaryAddValue(key_attributes, kSecAttrKeySizeInBits, key_size_cf_str);
CFErrorRef error = NULL;
cc_key_pair->priv_key_ref = SecKeyCreateRandomKey(key_attributes, &error);
if (error) {
aws_raise_error(AWS_ERROR_SYS_CALL_FAILURE);
CFRelease(error);
goto error;
}
cc_key_pair->pub_key_ref = SecKeyCopyPublicKey(cc_key_pair->priv_key_ref);
/* OKAY up to here was incredibly reasonable, after this we get attacked by the bad API design
* dragons.
*
* Summary: Apple assumed we'd never need the raw key data. Apple was wrong. So we have to export each component
* into the OpenSSL format (just fancy words for DER), but the public key and private key are exported separately
* for some reason. Anyways, we export the keys, use our handy dandy DER decoder and grab the raw key data out. */
OSStatus ret_code = SecItemExport(cc_key_pair->priv_key_ref, kSecFormatOpenSSL, 0, NULL, &sec_key_export_data);
if (ret_code != errSecSuccess) {
aws_raise_error(AWS_ERROR_SYS_CALL_FAILURE);
goto error;
}
/* now we need to DER decode data */
struct aws_byte_cursor key_cur =
aws_byte_cursor_from_array(CFDataGetBytePtr(sec_key_export_data), CFDataGetLength(sec_key_export_data));
decoder = aws_der_decoder_new(allocator, key_cur);
if (!decoder) {
goto error;
}
struct aws_byte_cursor pub_x;
AWS_ZERO_STRUCT(pub_x);
struct aws_byte_cursor pub_y;
AWS_ZERO_STRUCT(pub_y);
struct aws_byte_cursor priv_d;
AWS_ZERO_STRUCT(priv_d);
if (aws_der_decoder_load_ecc_key_pair(decoder, &pub_x, &pub_y, &priv_d, &curve_name)) {
goto error;
}
AWS_ASSERT(
priv_d.len == key_coordinate_size && pub_x.len == key_coordinate_size && pub_y.len == key_coordinate_size &&
"Apple Security Framework had better have exported the full pair.");
size_t total_buffer_size = key_coordinate_size * 3 + 1;
if (aws_byte_buf_init(&cc_key_pair->key_pair.key_buf, allocator, total_buffer_size)) {
goto error;
}
memset(cc_key_pair->key_pair.key_buf.buffer, 0, cc_key_pair->key_pair.key_buf.len);
aws_byte_buf_write_u8(&cc_key_pair->key_pair.key_buf, s_preamble);
aws_byte_buf_append(&cc_key_pair->key_pair.key_buf, &pub_x);
aws_byte_buf_append(&cc_key_pair->key_pair.key_buf, &pub_y);
aws_byte_buf_append(&cc_key_pair->key_pair.key_buf, &priv_d);
/* cc_key_pair->key_pair.key_buf is contiguous memory, so just load up the offsets. */
cc_key_pair->key_pair.pub_x =
aws_byte_buf_from_array(cc_key_pair->key_pair.key_buf.buffer + 1, key_coordinate_size);
cc_key_pair->key_pair.pub_y =
aws_byte_buf_from_array(cc_key_pair->key_pair.pub_x.buffer + key_coordinate_size, key_coordinate_size);
cc_key_pair->key_pair.priv_d =
aws_byte_buf_from_array(cc_key_pair->key_pair.pub_y.buffer + key_coordinate_size, key_coordinate_size);
cc_key_pair->key_pair.curve_name = curve_name;
cc_key_pair->key_pair.vtable = &s_key_pair_vtable;
CFRelease(sec_key_export_data);
CFRelease(key_size_cf_str);
CFRelease(key_attributes);
aws_der_decoder_destroy(decoder);
return &cc_key_pair->key_pair;
error:
if (decoder) {
aws_der_decoder_destroy(decoder);
}
if (key_attributes) {
CFRelease(key_attributes);
}
if (sec_key_export_data) {
CFRelease(sec_key_export_data);
}
if (key_size_cf_str) {
CFRelease(key_size_cf_str);
}
s_destroy_key(&cc_key_pair->key_pair);
return NULL;
}
#endif /* AWS_OS_IOS */
struct aws_ecc_key_pair *aws_ecc_key_pair_new_from_asn1(
struct aws_allocator *allocator,
const struct aws_byte_cursor *encoded_keys) {
struct aws_ecc_key_pair *key_pair = NULL;
struct aws_der_decoder *decoder = aws_der_decoder_new(allocator, *encoded_keys);
CFMutableDictionaryRef key_attributes = NULL;
CFDataRef key_data = NULL;
if (!decoder) {
return NULL;
}
/* we could have private key or a public key, or a full pair. */
struct aws_byte_cursor pub_x;
AWS_ZERO_STRUCT(pub_x);
struct aws_byte_cursor pub_y;
AWS_ZERO_STRUCT(pub_y);
struct aws_byte_cursor priv_d;
AWS_ZERO_STRUCT(priv_d);
enum aws_ecc_curve_name curve_name;
if (aws_der_decoder_load_ecc_key_pair(decoder, &pub_x, &pub_y, &priv_d, &curve_name)) {
goto error;
}
if (!pub_x.ptr && !priv_d.ptr) {
aws_raise_error(AWS_ERROR_CAL_MISSING_REQUIRED_KEY_COMPONENT);
goto error;
}
struct commoncrypto_ecc_key_pair *cc_key_pair =
s_alloc_pair_and_init_buffers(allocator, curve_name, pub_x, pub_y, priv_d);
if (!cc_key_pair) {
goto error;
}
key_pair = &cc_key_pair->key_pair;
key_data = CFDataCreate(
cc_key_pair->cf_allocator, cc_key_pair->key_pair.key_buf.buffer, cc_key_pair->key_pair.key_buf.len);
if (!key_data) {
goto error;
}
key_attributes = CFDictionaryCreateMutable(cc_key_pair->cf_allocator, 6, NULL, NULL);
if (!key_attributes) {
goto error;
}
CFDictionaryAddValue(key_attributes, kSecAttrKeyType, kSecAttrKeyTypeECSECPrimeRandom);
if (priv_d.ptr) {
CFDictionaryAddValue(key_attributes, kSecAttrKeyClass, kSecAttrKeyClassPrivate);
CFDictionaryAddValue(key_attributes, kSecAttrCanSign, kCFBooleanTrue);
CFDictionaryAddValue(key_attributes, kSecAttrCanDerive, kCFBooleanTrue);
if (pub_x.ptr) {
CFDictionaryAddValue(key_attributes, kSecAttrCanVerify, kCFBooleanTrue);
}
} else if (pub_x.ptr) {
CFDictionaryAddValue(key_attributes, kSecAttrKeyClass, kSecAttrKeyClassPublic);
CFDictionaryAddValue(key_attributes, kSecAttrCanSign, kCFBooleanFalse);
CFDictionaryAddValue(key_attributes, kSecAttrCanVerify, kCFBooleanTrue);
}
CFErrorRef error = NULL;
cc_key_pair->priv_key_ref = SecKeyCreateWithData(key_data, key_attributes, &error);
if (error) {
aws_raise_error(AWS_ERROR_SYS_CALL_FAILURE);
}
if (pub_x.ptr) {
cc_key_pair->pub_key_ref = SecKeyCopyPublicKey(cc_key_pair->priv_key_ref);
}
CFRelease(key_attributes);
CFRelease(key_data);
aws_der_decoder_destroy(decoder);
return key_pair;
error:
if (decoder) {
aws_der_decoder_destroy(decoder);
}
if (key_attributes) {
CFRelease(key_attributes);
}
if (key_data) {
CFRelease(key_data);
}
if (key_pair) {
s_destroy_key(key_pair);
}
return NULL;
}
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