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cryptfs.cpp
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cryptfs.cpp
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/*
* Copyright (C) 2010 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
//
// This file contains the implementation of the dm-crypt volume metadata
// encryption method, which is deprecated. Devices that launched with Android
// 11 or higher use a different method instead. For details, see
// https://source.android.com/security/encryption/metadata#configuration-on-adoptable-storage
//
#define LOG_TAG "Cryptfs"
#include "cryptfs.h"
#include "CryptoType.h"
#include "Utils.h"
#include <android-base/parseint.h>
#include <android-base/properties.h>
#include <cutils/properties.h>
#include <libdm/dm.h>
#include <log/log.h>
#include <chrono>
using android::base::ParseUint;
using android::vold::CryptoType;
using android::vold::KeyBuffer;
using android::vold::KeyGeneration;
using namespace android::dm;
using namespace android::vold;
using namespace std::chrono_literals;
#define MAX_KEY_LEN 48
#define TABLE_LOAD_RETRIES 10
constexpr CryptoType aes_128_cbc = CryptoType()
.set_config_name("AES-128-CBC")
.set_kernel_name("aes-cbc-essiv:sha256")
.set_keysize(16);
constexpr CryptoType supported_crypto_types[] = {aes_128_cbc, android::vold::adiantum};
static_assert(validateSupportedCryptoTypes(MAX_KEY_LEN, supported_crypto_types,
array_length(supported_crypto_types)),
"We have a CryptoType with keysize > MAX_KEY_LEN or which was "
"incompletely constructed.");
static const CryptoType& get_crypto_type() {
// We only want to parse this read-only property once. But we need to wait
// until the system is initialized before we can read it. So we use a static
// scoped within this function to get it only once.
static CryptoType crypto_type =
lookup_crypto_algorithm(supported_crypto_types, array_length(supported_crypto_types),
aes_128_cbc, "ro.crypto.fde_algorithm");
return crypto_type;
}
const KeyGeneration cryptfs_get_keygen() {
return KeyGeneration{get_crypto_type().get_keysize(), true, false};
}
/* Convert a binary key of specified length into an ascii hex string equivalent,
* without the leading 0x and with null termination
*/
static void convert_key_to_hex_ascii(const KeyBuffer& key, char* key_ascii) {
unsigned int i, a;
unsigned char nibble;
for (i = 0, a = 0; i < key.size(); i++, a += 2) {
/* For each byte, write out two ascii hex digits */
nibble = (key[i] >> 4) & 0xf;
key_ascii[a] = nibble + (nibble > 9 ? 0x37 : 0x30);
nibble = key[i] & 0xf;
key_ascii[a + 1] = nibble + (nibble > 9 ? 0x37 : 0x30);
}
/* Add the null termination */
key_ascii[a] = '\0';
}
/*
* Called by vold when it's asked to mount an encrypted external
* storage volume. The incoming partition has no crypto header/footer,
* as any metadata is been stored in a separate, small partition. We
* assume it must be using our same crypt type and keysize.
*/
int cryptfs_setup_ext_volume(const char* label, const char* real_blkdev, const KeyBuffer& key,
std::string* out_crypto_blkdev) {
auto crypto_type = get_crypto_type();
if (key.size() != crypto_type.get_keysize()) {
SLOGE("Raw keysize %zu does not match crypt keysize %zu", key.size(),
crypto_type.get_keysize());
return -1;
}
uint64_t nr_sec = 0;
if (android::vold::GetBlockDev512Sectors(real_blkdev, &nr_sec) != android::OK) {
SLOGE("Failed to get size of %s: %s", real_blkdev, strerror(errno));
return -1;
}
constexpr char DM_CRYPT_SECTOR_SIZE[] = "ro.crypto.fde_sector_size";
char value[PROPERTY_VALUE_MAX];
unsigned int sector_size = 0;
if (property_get(DM_CRYPT_SECTOR_SIZE, value, "") > 0) {
if (!ParseUint(value, §or_size) || sector_size < 512 || sector_size > 4096 ||
(sector_size & (sector_size - 1)) != 0) {
SLOGE("Invalid value for %s: %s. Must be >= 512, <= 4096, and a power of 2\n",
DM_CRYPT_SECTOR_SIZE, value);
return -1;
}
}
// Round the crypto device size down to a crypto sector boundary.
if (sector_size > 0) {
nr_sec &= ~((sector_size / 512) - 1);
}
auto& dm = DeviceMapper::Instance();
// We need two ASCII characters to represent each byte, and need space for
// the '\0' terminator.
char key_ascii[MAX_KEY_LEN * 2 + 1];
convert_key_to_hex_ascii(key, key_ascii);
auto target = std::make_unique<DmTargetCrypt>(0, nr_sec, crypto_type.get_kernel_name(),
key_ascii, 0, real_blkdev, 0);
target->AllowDiscards();
if (IsFbeEnabled() &&
android::base::GetBoolProperty("ro.crypto.allow_encrypt_override", false)) {
target->AllowEncryptOverride();
}
// Append the parameters to make dm-crypt use the specified crypto sector size.
if (sector_size > 0) {
target->SetSectorSize(sector_size);
// With this option, IVs will match the sector numbering, instead
// of being hard-coded to being based on 512-byte sectors.
target->SetIvLargeSectors();
}
DmTable table;
table.AddTarget(std::move(target));
int load_count = 1;
while (load_count < TABLE_LOAD_RETRIES) {
if (dm.CreateDevice(label, table)) {
break;
}
load_count++;
}
if (load_count >= TABLE_LOAD_RETRIES) {
SLOGE("Cannot load dm-crypt mapping table.\n");
return -1;
}
if (load_count > 1) {
SLOGI("Took %d tries to load dmcrypt table.\n", load_count);
}
if (!dm.GetDmDevicePathByName(label, out_crypto_blkdev)) {
SLOGE("Cannot determine dm-crypt path for %s.\n", label);
return -1;
}
/* Ensure the dm device has been created before returning. */
if (android::vold::WaitForFile(out_crypto_blkdev->c_str(), 1s) < 0) {
// WaitForFile generates a suitable log message
return -1;
}
return 0;
}