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-rwxr-xr-xAndroid.mk4
-rw-r--r--crypto/ext4crypt/Keymaster3.cpp30
-rw-r--r--crypto/ext4crypt/Keymaster3.h9
-rw-r--r--crypto/ext4crypt/Keymaster4.cpp4
-rw-r--r--crypto/ext4crypt/Keymaster4.h6
-rw-r--r--crypto/fde/Android.mk112
-rw-r--r--crypto/fde/cryptfs.cpp1763
-rw-r--r--crypto/fde/cryptfs.h (renamed from crypto/lollipop/cryptfs.h)119
-rw-r--r--crypto/fde/main.cpp (renamed from crypto/lollipop/main.c)21
-rw-r--r--crypto/lollipop/Android.mk62
-rw-r--r--crypto/lollipop/cryptfs.c1579
-rw-r--r--partition.cpp15
-rwxr-xr-xpartitionmanager.cpp2
-rw-r--r--prebuilt/Android.mk2
14 files changed, 1994 insertions, 1734 deletions
diff --git a/Android.mk b/Android.mk
index df18d7a7a..0bd225b9f 100755
--- a/Android.mk
+++ b/Android.mk
@@ -304,7 +304,7 @@ ifeq ($(TW_INCLUDE_L_CRYPTO), true)
endif
ifeq ($(TW_INCLUDE_CRYPTO), true)
LOCAL_CFLAGS += -DTW_INCLUDE_CRYPTO
- LOCAL_SHARED_LIBRARIES += libcryptfslollipop libgpt_twrp
+ LOCAL_SHARED_LIBRARIES += libcryptfsfde libgpt_twrp
LOCAL_C_INCLUDES += external/boringssl/src/include
ifeq ($(shell test $(PLATFORM_SDK_VERSION) -ge 24; echo $$?),0)
TW_INCLUDE_CRYPTO_FBE := true
@@ -831,7 +831,7 @@ ifeq ($(shell test $(PLATFORM_SDK_VERSION) -lt 24; echo $$?),0)
endif
ifeq ($(TW_INCLUDE_CRYPTO), true)
- include $(commands_TWRP_local_path)/crypto/lollipop/Android.mk
+ include $(commands_TWRP_local_path)/crypto/fde/Android.mk
include $(commands_TWRP_local_path)/crypto/scrypt/Android.mk
ifeq ($(TW_INCLUDE_CRYPTO_FBE), true)
include $(commands_TWRP_local_path)/crypto/ext4crypt/Android.mk
diff --git a/crypto/ext4crypt/Keymaster3.cpp b/crypto/ext4crypt/Keymaster3.cpp
index c72ddd0c3..7862044e8 100644
--- a/crypto/ext4crypt/Keymaster3.cpp
+++ b/crypto/ext4crypt/Keymaster3.cpp
@@ -203,6 +203,7 @@ bool Keymaster::isSecure() {
using namespace ::android::vold;
+/*
int keymaster_compatibility_cryptfs_scrypt() {
Keymaster dev;
if (!dev) {
@@ -211,6 +212,7 @@ int keymaster_compatibility_cryptfs_scrypt() {
}
return dev.isSecure();
}
+*/
/*int keymaster_create_key_for_cryptfs_scrypt(uint32_t rsa_key_size,
uint64_t rsa_exponent,
@@ -259,7 +261,7 @@ int keymaster_compatibility_cryptfs_scrypt() {
std::copy(key.data(), key.data() + key.size(), key_buffer);
return 0;
-}
+}*/
int keymaster_sign_object_for_cryptfs_scrypt(const uint8_t* key_blob,
size_t key_blob_size,
@@ -267,7 +269,10 @@ int keymaster_sign_object_for_cryptfs_scrypt(const uint8_t* key_blob,
const uint8_t* object,
const size_t object_size,
uint8_t** signature_buffer,
- size_t* signature_buffer_size)
+ size_t* signature_buffer_size,
+ uint8_t* key_buffer,
+ uint32_t key_buffer_size,
+ uint32_t* key_out_size)
{
Keymaster dev;
if (!dev) {
@@ -294,6 +299,25 @@ int keymaster_sign_object_for_cryptfs_scrypt(const uint8_t* key_blob,
if (op.errorCode() == ErrorCode::KEY_RATE_LIMIT_EXCEEDED) {
sleep(ratelimit);
continue;
+ } else if (op.errorCode() == ErrorCode::KEY_REQUIRES_UPGRADE) {
+ std::string newKey;
+ bool ret = dev.upgradeKey(key, paramBuilder, &newKey);
+ if(ret == false) {
+ LOG(ERROR) << "Error upgradeKey: ";
+ return -1;
+ }
+
+ if (key_out_size) {
+ *key_out_size = newKey.size();
+ }
+
+ if (key_buffer_size < newKey.size()) {
+ LOG(ERROR) << "key buffer size is too small";
+ return -1;
+ }
+
+ std::copy(newKey.data(), newKey.data() + newKey.size(), key_buffer);
+ key = newKey;
} else break;
}
@@ -321,4 +345,4 @@ int keymaster_sign_object_for_cryptfs_scrypt(const uint8_t* key_blob,
*signature_buffer_size = output.size();
std::copy(output.data(), output.data() + output.size(), *signature_buffer);
return 0;
-}*/
+}
diff --git a/crypto/ext4crypt/Keymaster3.h b/crypto/ext4crypt/Keymaster3.h
index 4db85519c..cb5b644ef 100644
--- a/crypto/ext4crypt/Keymaster3.h
+++ b/crypto/ext4crypt/Keymaster3.h
@@ -127,13 +127,13 @@ class Keymaster {
*/
__BEGIN_DECLS
-int keymaster_compatibility_cryptfs_scrypt();
+//int keymaster_compatibility_cryptfs_scrypt();
/*int keymaster_create_key_for_cryptfs_scrypt(uint32_t rsa_key_size,
uint64_t rsa_exponent,
uint32_t ratelimit,
uint8_t* key_buffer,
uint32_t key_buffer_size,
- uint32_t* key_out_size);
+ uint32_t* key_out_size);*/
int keymaster_sign_object_for_cryptfs_scrypt(const uint8_t* key_blob,
size_t key_blob_size,
@@ -141,7 +141,10 @@ int keymaster_sign_object_for_cryptfs_scrypt(const uint8_t* key_blob,
const uint8_t* object,
const size_t object_size,
uint8_t** signature_buffer,
- size_t* signature_buffer_size);*/
+ size_t* signature_buffer_size,
+ uint8_t* key_buffer,
+ uint32_t key_buffer_size,
+ uint32_t* key_out_size);
__END_DECLS
diff --git a/crypto/ext4crypt/Keymaster4.cpp b/crypto/ext4crypt/Keymaster4.cpp
index e25d0c45d..cebe1f1d5 100644
--- a/crypto/ext4crypt/Keymaster4.cpp
+++ b/crypto/ext4crypt/Keymaster4.cpp
@@ -218,6 +218,7 @@ bool Keymaster::isSecure() {
using namespace ::android::vold;
+/*
int keymaster_compatibility_cryptfs_scrypt() {
Keymaster dev;
if (!dev) {
@@ -226,6 +227,7 @@ int keymaster_compatibility_cryptfs_scrypt() {
}
return dev.isSecure();
}
+*/
static bool write_string_to_buf(const std::string& towrite, uint8_t* buffer, uint32_t buffer_size,
uint32_t* out_size) {
@@ -253,6 +255,7 @@ static km::AuthorizationSet keyParams(uint32_t rsa_key_size, uint64_t rsa_expone
.Authorization(km::TAG_MIN_SECONDS_BETWEEN_OPS, ratelimit);
}
+/*
int keymaster_create_key_for_cryptfs_scrypt(uint32_t rsa_key_size, uint64_t rsa_exponent,
uint32_t ratelimit, uint8_t* key_buffer,
uint32_t key_buffer_size, uint32_t* key_out_size) {
@@ -269,6 +272,7 @@ int keymaster_create_key_for_cryptfs_scrypt(uint32_t rsa_key_size, uint64_t rsa_
if (!write_string_to_buf(key, key_buffer, key_buffer_size, key_out_size)) return -1;
return 0;
}
+*/
int keymaster_upgrade_key_for_cryptfs_scrypt(uint32_t rsa_key_size, uint64_t rsa_exponent,
uint32_t ratelimit, const uint8_t* key_blob,
diff --git a/crypto/ext4crypt/Keymaster4.h b/crypto/ext4crypt/Keymaster4.h
index 29c73c682..37bff4e3a 100644
--- a/crypto/ext4crypt/Keymaster4.h
+++ b/crypto/ext4crypt/Keymaster4.h
@@ -142,10 +142,10 @@ enum class KeymasterSignResult {
upgrade = -2,
};
-int keymaster_compatibility_cryptfs_scrypt();
-int keymaster_create_key_for_cryptfs_scrypt(uint32_t rsa_key_size, uint64_t rsa_exponent,
+//int keymaster_compatibility_cryptfs_scrypt();
+/*int keymaster_create_key_for_cryptfs_scrypt(uint32_t rsa_key_size, uint64_t rsa_exponent,
uint32_t ratelimit, uint8_t* key_buffer,
- uint32_t key_buffer_size, uint32_t* key_out_size);
+ uint32_t key_buffer_size, uint32_t* key_out_size);*/
int keymaster_upgrade_key_for_cryptfs_scrypt(uint32_t rsa_key_size, uint64_t rsa_exponent,
uint32_t ratelimit, const uint8_t* key_blob,
diff --git a/crypto/fde/Android.mk b/crypto/fde/Android.mk
new file mode 100644
index 000000000..aafd7a0bc
--- /dev/null
+++ b/crypto/fde/Android.mk
@@ -0,0 +1,112 @@
+LOCAL_PATH := $(call my-dir)
+ifeq ($(TW_INCLUDE_CRYPTO), true)
+include $(CLEAR_VARS)
+
+LOCAL_MODULE := libcryptfsfde
+LOCAL_MODULE_TAGS := eng optional
+LOCAL_SRC_FILES := cryptfs.cpp
+LOCAL_SHARED_LIBRARIES := libcrypto libhardware libcutils libstdc++
+LOCAL_STATIC_LIBRARIES := libscrypttwrp_static
+LOCAL_C_INCLUDES := external/openssl/include $(commands_recovery_local_path)/crypto/scrypt/lib/crypto
+ifeq ($(shell test $(PLATFORM_SDK_VERSION) -lt 23; echo $$?),0)
+ LOCAL_C_INCLUDES += bionic external/stlport/stlport
+ LOCAL_SHARED_LIBRARIES += libstlport
+ LOCAL_CPPFLAGS := -std=c++11
+endif
+
+ifeq ($(shell test $(PLATFORM_SDK_VERSION) -ge 26; echo $$?),0)
+ #8.0 or higher
+ LOCAL_C_INCLUDES += external/boringssl/src/include
+ LOCAL_SHARED_LIBRARIES += libselinux libc libc++ libbase libcrypto libcutils libkeymaster_messages libhardware libprotobuf-cpp-lite libe4crypt android.hardware.keymaster@3.0 libkeystore_binder libhidlbase libutils libbinder
+ ifeq ($(shell test $(PLATFORM_SDK_VERSION) -ge 28; echo $$?),0)
+ #9.0 rules
+ LOCAL_CFLAGS += -Wno-unused-variable -Wno-sign-compare -Wno-unused-parameter -Wno-comment
+ LOCAL_SHARED_LIBRARIES += android.hardware.keymaster@4.0 libkeymaster4support libkeyutils
+ LOCAL_CFLAGS += -DTW_KEYMASTER_MAX_API=4
+ else
+ #8.x rules
+ ifneq ($(wildcard system/core/libkeyutils/Android.bp),)
+ #only present in some 8.0 trees and should be in all 8.1 trees
+ LOCAL_SHARED_LIBRARIES += libkeyutils
+ endif
+ LOCAL_SHARED_LIBRARIES += libsoftkeymaster
+ LOCAL_CFLAGS += -DTW_KEYMASTER_MAX_API=3
+ endif
+else
+ # <= 7.x rules
+ ifneq ($(wildcard hardware/libhardware/include/hardware/keymaster0.h),)
+ LOCAL_C_INCLUDES += external/boringssl/src/include
+ LOCAL_CFLAGS += -DTW_KEYMASTER_MAX_API=1
+ else
+ LOCAL_CFLAGS += -DTW_KEYMASTER_MAX_API=0
+ endif
+endif
+ifeq ($(TARGET_HW_DISK_ENCRYPTION),true)
+ ifeq ($(TARGET_CRYPTFS_HW_PATH),)
+ LOCAL_C_INCLUDES += device/qcom/common/cryptfs_hw
+ else
+ LOCAL_C_INCLUDES += $(TARGET_CRYPTFS_HW_PATH)
+ endif
+ LOCAL_SHARED_LIBRARIES += libcryptfs_hw
+ LOCAL_CFLAGS += -DCONFIG_HW_DISK_ENCRYPTION
+endif
+
+include $(BUILD_SHARED_LIBRARY)
+
+
+
+include $(CLEAR_VARS)
+LOCAL_MODULE := twrpdec
+LOCAL_MODULE_TAGS := optional
+LOCAL_MODULE_CLASS := RECOVERY_EXECUTABLES
+LOCAL_MODULE_PATH := $(TARGET_RECOVERY_ROOT_OUT)/sbin
+LOCAL_SRC_FILES := main.cpp cryptfs.cpp
+LOCAL_SHARED_LIBRARIES := libcrypto libhardware libcutils libc libstdc++
+LOCAL_C_INCLUDES := external/openssl/include $(commands_recovery_local_path)/crypto/scrypt/lib/crypto
+ifeq ($(shell test $(PLATFORM_SDK_VERSION) -lt 23; echo $$?),0)
+ LOCAL_C_INCLUDES += bionic external/stlport/stlport
+ LOCAL_SHARED_LIBRARIES += libstlport
+ LOCAL_CPPFLAGS := -std=c++11
+endif
+
+ifeq ($(shell test $(PLATFORM_SDK_VERSION) -ge 26; echo $$?),0)
+ #8.0 or higher
+ LOCAL_C_INCLUDES += external/boringssl/src/include
+ LOCAL_SHARED_LIBRARIES += libselinux libc libc++ libbase libcrypto libcutils libkeymaster_messages libhardware libprotobuf-cpp-lite libe4crypt android.hardware.keymaster@3.0 libkeystore_binder libhidlbase libutils libbinder
+ ifeq ($(shell test $(PLATFORM_SDK_VERSION) -ge 28; echo $$?),0)
+ #9.0 rules
+ LOCAL_CFLAGS += -Wno-unused-variable -Wno-sign-compare -Wno-unused-parameter -Wno-comment
+ LOCAL_SHARED_LIBRARIES += android.hardware.keymaster@4.0 libkeymaster4support libkeyutils
+ LOCAL_CFLAGS += -DTW_KEYMASTER_MAX_API=4
+ else
+ #8.x rules
+ ifneq ($(wildcard system/core/libkeyutils/Android.bp),)
+ #only present in some 8.0 trees and should be in all 8.1 trees
+ LOCAL_SHARED_LIBRARIES += libkeyutils
+ endif
+ LOCAL_SHARED_LIBRARIES += libsoftkeymaster
+ LOCAL_CFLAGS += -DTW_KEYMASTER_MAX_API=3
+ endif
+else
+ # <= 7.x rules
+ ifneq ($(wildcard hardware/libhardware/include/hardware/keymaster0.h),)
+ LOCAL_C_INCLUDES += external/boringssl/src/include
+ LOCAL_CFLAGS += -DTW_KEYMASTER_MAX_API=1
+ else
+ LOCAL_CFLAGS += -DTW_KEYMASTER_MAX_API=0
+ endif
+endif
+ifeq ($(TARGET_HW_DISK_ENCRYPTION),true)
+ ifeq ($(TARGET_CRYPTFS_HW_PATH),)
+ LOCAL_C_INCLUDES += device/qcom/common/cryptfs_hw
+ else
+ LOCAL_C_INCLUDES += $(TARGET_CRYPTFS_HW_PATH)
+ endif
+ LOCAL_SHARED_LIBRARIES += libcryptfs_hw
+ LOCAL_CFLAGS += -DCONFIG_HW_DISK_ENCRYPTION
+endif
+
+LOCAL_WHOLE_STATIC_LIBRARIES += libscrypttwrp_static
+include $(BUILD_EXECUTABLE)
+
+endif
diff --git a/crypto/fde/cryptfs.cpp b/crypto/fde/cryptfs.cpp
new file mode 100644
index 000000000..83522968b
--- /dev/null
+++ b/crypto/fde/cryptfs.cpp
@@ -0,0 +1,1763 @@
+/*
+ * 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.
+ */
+
+/* TO DO:
+ * 1. Perhaps keep several copies of the encrypted key, in case something
+ * goes horribly wrong?
+ *
+ */
+
+#include <sys/types.h>
+#include <sys/wait.h>
+#include <sys/stat.h>
+#include <ctype.h>
+#include <fcntl.h>
+#include <inttypes.h>
+#include <unistd.h>
+#include <stdio.h>
+#include <sys/ioctl.h>
+#include <linux/dm-ioctl.h>
+#include <libgen.h>
+#include <stdlib.h>
+#include <sys/param.h>
+#include <string.h>
+#include <sys/mount.h>
+#include <openssl/evp.h>
+#include <openssl/sha.h>
+#include <errno.h>
+//#include <ext4_utils/ext4_crypt.h>
+//#include <ext4_utils/ext4_utils.h>
+#include <linux/kdev_t.h>
+//#include <fs_mgr.h>
+#include <time.h>
+#include <math.h>
+//#include <selinux/selinux.h>
+#include "cryptfs.h"
+//#include "secontext.h"
+#define LOG_TAG "Cryptfs"
+//#include "cutils/log.h"
+#include "cutils/properties.h"
+//#include "cutils/android_reboot.h"
+//#include "hardware_legacy/power.h"
+//#include <logwrap/logwrap.h>
+//#include "ScryptParameters.h"
+//#include "VolumeManager.h"
+//#include "VoldUtil.h"
+//#include "Ext4Crypt.h"
+//#include "f2fs_sparseblock.h"
+//#include "EncryptInplace.h"
+//#include "Process.h"
+#if TW_KEYMASTER_MAX_API == 3
+#include "../ext4crypt/Keymaster3.h"
+#endif
+#if TW_KEYMASTER_MAX_API == 4
+#include "../ext4crypt/Keymaster4.h"
+#endif
+#if TW_KEYMASTER_MAX_API == 0
+#include <hardware/keymaster.h>
+#else // so far, all trees that have keymaster >= 1 have keymaster 1 support
+#include <stdbool.h>
+#include <openssl/evp.h>
+#include <openssl/sha.h>
+#include <hardware/keymaster0.h>
+#include <hardware/keymaster1.h>
+#endif
+//#include "android-base/properties.h"
+//#include <bootloader_message/bootloader_message.h>
+#ifdef CONFIG_HW_DISK_ENCRYPTION
+#include <cryptfs_hw.h>
+#endif
+extern "C" {
+#include <crypto_scrypt.h>
+}
+#include <string>
+#include <vector>
+
+#define ALOGE(...) fprintf(stdout, "E:" __VA_ARGS__)
+#define SLOGE(...) fprintf(stdout, "E:" __VA_ARGS__)
+#define SLOGW(...) fprintf(stdout, "W:" __VA_ARGS__)
+#define SLOGI(...) fprintf(stdout, "I:" __VA_ARGS__)
+#define SLOGD(...) fprintf(stdout, "D:" __VA_ARGS__)
+
+#define UNUSED __attribute__((unused))
+
+#define DM_CRYPT_BUF_SIZE 4096
+
+#define HASH_COUNT 2000
+
+#ifndef min /* already defined by windows.h */
+#define min(a, b) ((a) < (b) ? (a) : (b))
+#endif
+
+constexpr size_t INTERMEDIATE_KEY_LEN_BYTES = 16;
+constexpr size_t INTERMEDIATE_IV_LEN_BYTES = 16;
+constexpr size_t INTERMEDIATE_BUF_SIZE =
+ (INTERMEDIATE_KEY_LEN_BYTES + INTERMEDIATE_IV_LEN_BYTES);
+
+// SCRYPT_LEN is used by struct crypt_mnt_ftr for its intermediate key.
+static_assert(INTERMEDIATE_BUF_SIZE == SCRYPT_LEN,
+ "Mismatch of intermediate key sizes");
+
+#define KEY_IN_FOOTER "footer"
+
+#define DEFAULT_HEX_PASSWORD "64656661756c745f70617373776f7264"
+#define DEFAULT_PASSWORD "default_password"
+
+#define CRYPTO_BLOCK_DEVICE "userdata"
+
+#define TABLE_LOAD_RETRIES 10
+
+#define RSA_KEY_SIZE 2048
+#define RSA_KEY_SIZE_BYTES (RSA_KEY_SIZE / 8)
+#define RSA_EXPONENT 0x10001
+#define KEYMASTER_CRYPTFS_RATE_LIMIT 1 // Maximum one try per second
+#define KEY_LEN_BYTES 16
+
+#define RETRY_MOUNT_ATTEMPTS 10
+#define RETRY_MOUNT_DELAY_SECONDS 1
+
+#define CREATE_CRYPTO_BLK_DEV_FLAGS_ALLOW_ENCRYPT_OVERRIDE (1)
+
+static unsigned char saved_master_key[MAX_KEY_LEN];
+static char *saved_mount_point;
+static int master_key_saved = 0;
+static struct crypt_persist_data *persist_data = NULL;
+
+static int previous_type;
+
+static char key_fname[PROPERTY_VALUE_MAX] = "";
+static char real_blkdev[PROPERTY_VALUE_MAX] = "";
+static char file_system[PROPERTY_VALUE_MAX] = "";
+
+static void get_blkdev_size(int fd, unsigned long *nr_sec)
+{
+ if ( (ioctl(fd, BLKGETSIZE, nr_sec)) == -1) {
+ *nr_sec = 0;
+ }
+}
+
+#if TW_KEYMASTER_MAX_API == 0
+static int keymaster_init(keymaster_device_t **keymaster_dev)
+{
+ int rc;
+
+ const hw_module_t* mod;
+ rc = hw_get_module_by_class(KEYSTORE_HARDWARE_MODULE_ID, NULL, &mod);
+ if (rc) {
+ printf("could not find any keystore module\n");
+ goto out;
+ }
+
+ rc = keymaster_open(mod, keymaster_dev);
+ if (rc) {
+ printf("could not open keymaster device in %s (%s)\n",
+ KEYSTORE_HARDWARE_MODULE_ID, strerror(-rc));
+ goto out;
+ }
+
+ return 0;
+
+out:
+ *keymaster_dev = NULL;
+ return rc;
+}
+#else //TW_KEYMASTER_MAX_API == 0
+static int keymaster_init(keymaster0_device_t **keymaster0_dev,
+ keymaster1_device_t **keymaster1_dev)
+{
+ int rc;
+
+ const hw_module_t* mod;
+ rc = hw_get_module_by_class(KEYSTORE_HARDWARE_MODULE_ID, NULL, &mod);
+ if (rc) {
+ printf("could not find any keystore module\n");
+ goto err;
+ }
+
+ printf("keymaster module name is %s\n", mod->name);
+ printf("keymaster version is %d\n", mod->module_api_version);
+
+ *keymaster0_dev = NULL;
+ *keymaster1_dev = NULL;
+ if (mod->module_api_version == KEYMASTER_MODULE_API_VERSION_1_0) {
+ printf("Found keymaster1 module, using keymaster1 API.\n");
+ rc = keymaster1_open(mod, keymaster1_dev);
+ } else {
+ printf("Found keymaster0 module, using keymaster0 API.\n");
+ rc = keymaster0_open(mod, keymaster0_dev);
+ }
+
+ if (rc) {
+ printf("could not open keymaster device in %s (%s)\n",
+ KEYSTORE_HARDWARE_MODULE_ID, strerror(-rc));
+ goto err;
+ }
+
+ return 0;
+
+err:
+ *keymaster0_dev = NULL;
+ *keymaster1_dev = NULL;
+ return rc;
+}
+#endif //TW_KEYMASTER_MAX_API == 0
+
+#ifdef CONFIG_HW_DISK_ENCRYPTION
+static int scrypt_keymaster(const char *passwd, const unsigned char *salt,
+ unsigned char *ikey, void *params);
+static void convert_key_to_hex_ascii(const unsigned char *master_key,
+ unsigned int keysize, char *master_key_ascii);
+static int test_mount_hw_encrypted_fs(struct crypt_mnt_ftr* crypt_ftr,
+ const char *passwd, const char *mount_point, const char *label);
+int cryptfs_check_passwd_hw(char *passwd);
+int cryptfs_get_master_key(struct crypt_mnt_ftr* ftr, const char* password,
+ unsigned char* master_key);
+
+static void convert_key_to_hex_ascii_for_upgrade(const unsigned char *master_key,
+ unsigned int keysize, char *master_key_ascii)
+{
+ unsigned int i, a;
+ unsigned char nibble;
+
+ for (i = 0, a = 0; i < keysize; i++, a += 2) {
+ /* For each byte, write out two ascii hex digits */
+ nibble = (master_key[i] >> 4) & 0xf;
+ master_key_ascii[a] = nibble + (nibble > 9 ? 0x57 : 0x30);
+
+ nibble = master_key[i] & 0xf;
+ master_key_ascii[a + 1] = nibble + (nibble > 9 ? 0x57 : 0x30);
+ }
+
+ /* Add the null termination */
+ master_key_ascii[a] = '\0';
+}
+
+static int get_keymaster_hw_fde_passwd(const char* passwd, unsigned char* newpw,
+ unsigned char* salt,
+ const struct crypt_mnt_ftr *ftr)
+{
+ /* if newpw updated, return 0
+ * if newpw not updated return -1
+ */
+ int rc = -1;
+
+ if (should_use_keymaster()) {
+ if (scrypt_keymaster(passwd, salt, newpw, (void*)ftr)) {
+ SLOGE("scrypt failed");
+ } else {
+ rc = 0;
+ }
+ }
+
+ return rc;
+}
+
+static int verify_hw_fde_passwd(const char *passwd, struct crypt_mnt_ftr* crypt_ftr)
+{
+ unsigned char newpw[32] = {0};
+ int key_index;
+ SLOGI("starting verify_hw_fde_passwd\n");
+ if (get_keymaster_hw_fde_passwd(passwd, newpw, crypt_ftr->salt, crypt_ftr))
+ key_index = set_hw_device_encryption_key(passwd,
+ (char*) crypt_ftr->crypto_type_name);
+ else
+ key_index = set_hw_device_encryption_key((const char*)newpw,
+ (char*) crypt_ftr->crypto_type_name);
+ return key_index;
+}
+
+static int verify_and_update_hw_fde_passwd(const char *passwd,
+ struct crypt_mnt_ftr* crypt_ftr)
+{
+ char* new_passwd = NULL;
+ unsigned char newpw[32] = {0};
+ int key_index = -1;
+ int passwd_updated = -1;
+ int ascii_passwd_updated = (crypt_ftr->flags & CRYPT_ASCII_PASSWORD_UPDATED);
+
+ key_index = verify_hw_fde_passwd(passwd, crypt_ftr);
+ if (key_index < 0) {
+ ++crypt_ftr->failed_decrypt_count;
+
+ if (ascii_passwd_updated) {
+ SLOGI("Ascii password was updated");
+ } else {
+ /* Code in else part would execute only once:
+ * When device is upgraded from L->M release.
+ * Once upgraded, code flow should never come here.
+ * L release passed actual password in hex, so try with hex
+ * Each nible of passwd was encoded as a byte, so allocate memory
+ * twice of password len plus one more byte for null termination
+ */
+ if (crypt_ftr->crypt_type == CRYPT_TYPE_DEFAULT) {
+ new_passwd = (char*)malloc(strlen(DEFAULT_HEX_PASSWORD) + 1);
+ if (new_passwd == NULL) {
+ SLOGE("System out of memory. Password verification incomplete");
+ goto out;
+ }
+ strlcpy(new_passwd, DEFAULT_HEX_PASSWORD, strlen(DEFAULT_HEX_PASSWORD) + 1);
+ } else {
+ new_passwd = (char*)malloc(strlen(passwd) * 2 + 1);
+ if (new_passwd == NULL) {
+ SLOGE("System out of memory. Password verification incomplete");
+ goto out;
+ }
+ convert_key_to_hex_ascii_for_upgrade((const unsigned char*)passwd,
+ strlen(passwd), new_passwd);
+ }
+ key_index = set_hw_device_encryption_key((const char*)new_passwd,
+ (char*) crypt_ftr->crypto_type_name);
+ if (key_index >=0) {
+ crypt_ftr->failed_decrypt_count = 0;
+ SLOGI("Hex password verified...will try to update with Ascii value");
+ /* Before updating password, tie that with keymaster to tie with ROT */
+
+ if (get_keymaster_hw_fde_passwd(passwd, newpw,
+ crypt_ftr->salt, crypt_ftr)) {
+ passwd_updated = update_hw_device_encryption_key(new_passwd,
+ passwd, (char*)crypt_ftr->crypto_type_name);
+ } else {
+ passwd_updated = update_hw_device_encryption_key(new_passwd,
+ (const char*)newpw, (char*)crypt_ftr->crypto_type_name);
+ }
+
+ if (passwd_updated >= 0) {
+ crypt_ftr->flags |= CRYPT_ASCII_PASSWORD_UPDATED;
+ SLOGI("Ascii password recorded and updated");
+ } else {
+ SLOGI("Passwd verified, could not update...Will try next time");
+ }
+ } else {
+ ++crypt_ftr->failed_decrypt_count;
+ }
+ free(new_passwd);
+ }
+ } else {
+ if (!ascii_passwd_updated)
+ crypt_ftr->flags |= CRYPT_ASCII_PASSWORD_UPDATED;
+ }
+out:
+ // update footer before leaving
+ //put_crypt_ftr_and_key(crypt_ftr);
+ return key_index;
+}
+#endif
+
+void set_partition_data(const char* block_device, const char* key_location, const char* fs)
+{
+ strcpy(key_fname, key_location);
+ strcpy(real_blkdev, block_device);
+ strcpy(file_system, fs);
+}
+
+/* This signs the given object using the keymaster key. */
+static int keymaster_sign_object(struct crypt_mnt_ftr *ftr,
+ const unsigned char *object,
+ const size_t object_size,
+ unsigned char **signature,
+ size_t *signature_size)
+{
+ SLOGI("TWRP keymaster max API: %i\n", TW_KEYMASTER_MAX_API);
+ unsigned char to_sign[RSA_KEY_SIZE_BYTES];
+ size_t to_sign_size = sizeof(to_sign);
+ memset(to_sign, 0, RSA_KEY_SIZE_BYTES);
+
+ // To sign a message with RSA, the message must satisfy two
+ // constraints:
+ //
+ // 1. The message, when interpreted as a big-endian numeric value, must
+ // be strictly less than the public modulus of the RSA key. Note
+ // that because the most significant bit of the public modulus is
+ // guaranteed to be 1 (else it's an (n-1)-bit key, not an n-bit
+ // key), an n-bit message with most significant bit 0 always
+ // satisfies this requirement.
+ //
+ // 2. The message must have the same length in bits as the public
+ // modulus of the RSA key. This requirement isn't mathematically
+ // necessary, but is necessary to ensure consistency in
+ // implementations.
+ switch (ftr->kdf_type) {
+ case KDF_SCRYPT_KEYMASTER_UNPADDED:
+ // This is broken: It produces a message which is shorter than
+ // the public modulus, failing criterion 2.
+ memcpy(to_sign, object, object_size);
+ to_sign_size = object_size;
+ SLOGI("Signing unpadded object\n");
+ break;
+ case KDF_SCRYPT_KEYMASTER_BADLY_PADDED:
+ // This is broken: Since the value of object is uniformly
+ // distributed, it produces a message that is larger than the
+ // public modulus with probability 0.25.
+ memcpy(to_sign, object, min(RSA_KEY_SIZE_BYTES, object_size));
+ SLOGI("Signing end-padded object\n");
+ break;
+ case KDF_SCRYPT_KEYMASTER:
+ // This ensures the most significant byte of the signed message
+ // is zero. We could have zero-padded to the left instead, but
+ // this approach is slightly more robust against changes in
+ // object size. However, it's still broken (but not unusably
+ // so) because we really should be using a proper deterministic
+ // RSA padding function, such as PKCS1.
+ memcpy(to_sign + 1, object, min((size_t)RSA_KEY_SIZE_BYTES - 1, object_size));
+ SLOGI("Signing safely-padded object");
+ break;
+ default:
+ SLOGE("Unknown KDF type %d", ftr->kdf_type);
+ return -1;
+ }
+
+ int rc = -1;
+
+#if TW_KEYMASTER_MAX_API >= 1
+ keymaster0_device_t *keymaster0_dev = 0;
+ keymaster1_device_t *keymaster1_dev = 0;
+ if (keymaster_init(&keymaster0_dev, &keymaster1_dev)) {
+#else
+ keymaster_device_t *keymaster0_dev = 0;
+ if (keymaster_init(&keymaster0_dev)) {
+#endif
+ printf("Failed to init keymaster 0/1\n");
+ goto initfail;
+ }
+ if (keymaster0_dev) {
+ keymaster_rsa_sign_params_t params;
+ params.digest_type = DIGEST_NONE;
+ params.padding_type = PADDING_NONE;
+
+ rc = keymaster0_dev->sign_data(keymaster0_dev,
+ &params,
+ ftr->keymaster_blob,
+ ftr->keymaster_blob_size,
+ to_sign,
+ to_sign_size,
+ signature,
+ signature_size);
+ goto out;
+ }
+#if TW_KEYMASTER_MAX_API >= 1
+ else if (keymaster1_dev) {
+ keymaster_key_blob_t key = { ftr->keymaster_blob, ftr->keymaster_blob_size };
+ keymaster_key_param_t params[] = {
+ keymaster_param_enum(KM_TAG_PADDING, KM_PAD_NONE),
+ keymaster_param_enum(KM_TAG_DIGEST, KM_DIGEST_NONE),
+ };
+ keymaster_key_param_set_t param_set = { params, sizeof(params)/sizeof(*params) };
+ keymaster_operation_handle_t op_handle;
+ keymaster_error_t error = keymaster1_dev->begin(keymaster1_dev, KM_PURPOSE_SIGN, &key,
+ &param_set, NULL /* out_params */,
+ &op_handle);
+ if (error == KM_ERROR_KEY_RATE_LIMIT_EXCEEDED) {
+ // Key usage has been rate-limited. Wait a bit and try again.
+ sleep(KEYMASTER_CRYPTFS_RATE_LIMIT);
+ error = keymaster1_dev->begin(keymaster1_dev, KM_PURPOSE_SIGN, &key,
+ &param_set, NULL /* out_params */,
+ &op_handle);
+ }
+ if (error != KM_ERROR_OK) {
+ printf("Error starting keymaster signature transaction: %d\n", error);
+ rc = -1;
+ goto out;
+ }
+
+ keymaster_blob_t input = { to_sign, to_sign_size };
+ size_t input_consumed;
+ error = keymaster1_dev->update(keymaster1_dev, op_handle, NULL /* in_params */,
+ &input, &input_consumed, NULL /* out_params */,
+ NULL /* output */);
+ if (error != KM_ERROR_OK) {
+ printf("Error sending data to keymaster signature transaction: %d\n", error);
+ rc = -1;
+ goto out;
+ }
+ if (input_consumed != to_sign_size) {
+ // This should never happen. If it does, it's a bug in the keymaster implementation.
+ printf("Keymaster update() did not consume all data.\n");
+ keymaster1_dev->abort(keymaster1_dev, op_handle);
+ rc = -1;
+ goto out;
+ }
+
+ keymaster_blob_t tmp_sig;
+ error = keymaster1_dev->finish(keymaster1_dev, op_handle, NULL /* in_params */,
+ NULL /* verify signature */, NULL /* out_params */,
+ &tmp_sig);
+ if (error != KM_ERROR_OK) {
+ printf("Error finishing keymaster signature transaction: %d\n", error);
+ rc = -1;
+ goto out;
+ }
+
+ *signature = (uint8_t*)tmp_sig.data;
+ *signature_size = tmp_sig.data_length;
+ rc = 0;
+ }
+#endif // TW_KEYMASTER_API >= 1
+
+ out:
+#if TW_KEYMASTER_MAX_API >= 1
+ if (keymaster1_dev)
+ keymaster1_close(keymaster1_dev);
+#endif
+ if (keymaster0_dev)
+#if TW_KEYMASTER_MAX_API >= 1
+ keymaster0_close(keymaster0_dev);
+#else
+ keymaster_close(keymaster0_dev);
+#endif
+
+ if (rc == 0)
+ return 0; // otherwise we'll try for a newer keymaster API
+
+initfail:
+#if TW_KEYMASTER_MAX_API == 3
+ return keymaster_sign_object_for_cryptfs_scrypt(ftr->keymaster_blob, ftr->keymaster_blob_size,
+ KEYMASTER_CRYPTFS_RATE_LIMIT, to_sign, to_sign_size, signature, signature_size,
+ ftr->keymaster_blob, KEYMASTER_BLOB_SIZE, &ftr->keymaster_blob_size);
+#endif //TW_KEYMASTER_MAX_API == 3
+#if TW_KEYMASTER_MAX_API >= 4
+ //for (;;) {
+ auto result = keymaster_sign_object_for_cryptfs_scrypt(
+ ftr->keymaster_blob, ftr->keymaster_blob_size, KEYMASTER_CRYPTFS_RATE_LIMIT, to_sign,
+ to_sign_size, signature, signature_size);
+ switch (result) {
+ case KeymasterSignResult::ok:
+ return 0;
+ case KeymasterSignResult::upgrade:
+ break;
+ default:
+ return -1;
+ }
+ SLOGD("Upgrading key\n");
+ if (keymaster_upgrade_key_for_cryptfs_scrypt(
+ RSA_KEY_SIZE, RSA_EXPONENT, KEYMASTER_CRYPTFS_RATE_LIMIT, ftr->keymaster_blob,
+ ftr->keymaster_blob_size, ftr->keymaster_blob, KEYMASTER_BLOB_SIZE,
+ &ftr->keymaster_blob_size) != 0) {
+ SLOGE("Failed to upgrade key\n");
+ return -1;
+ }
+ /*if (put_crypt_ftr_and_key(ftr) != 0) {
+ SLOGE("Failed to write upgraded key to disk");
+ }*/
+ SLOGD("Key upgraded successfully\n");
+ return 0;
+ //}
+#endif
+ return -1;
+}
+
+static void ioctl_init(struct dm_ioctl *io, size_t dataSize, const char *name, unsigned flags)
+{
+ memset(io, 0, dataSize);
+ io->data_size = dataSize;
+ io->data_start = sizeof(struct dm_ioctl);
+ io->version[0] = 4;
+ io->version[1] = 0;
+ io->version[2] = 0;
+ io->flags = flags;
+ if (name) {
+ strlcpy(io->name, name, sizeof(io->name));
+ }
+}
+
+namespace {
+
+struct CryptoType;
+
+// Use to get the CryptoType in use on this device.
+const CryptoType &get_crypto_type();
+
+struct CryptoType {
+ // We should only be constructing CryptoTypes as part of
+ // supported_crypto_types[]. We do it via this pseudo-builder pattern,
+ // which isn't pure or fully protected as a concession to being able to
+ // do it all at compile time. Add new CryptoTypes in
+ // supported_crypto_types[] below.
+ constexpr CryptoType() : CryptoType(nullptr, nullptr, 0xFFFFFFFF) {}
+ constexpr CryptoType set_keysize(uint32_t size) const {
+ return CryptoType(this->property_name, this->crypto_name, size);
+ }
+ constexpr CryptoType set_property_name(const char *property) const {
+ return CryptoType(property, this->crypto_name, this->keysize);
+ }
+ constexpr CryptoType set_crypto_name(const char *crypto) const {
+ return CryptoType(this->property_name, crypto, this->keysize);
+ }
+
+ constexpr const char *get_property_name() const { return property_name; }
+ constexpr const char *get_crypto_name() const { return crypto_name; }
+ constexpr uint32_t get_keysize() const { return keysize; }
+
+ private:
+ const char *property_name;
+ const char *crypto_name;
+ uint32_t keysize;
+
+ constexpr CryptoType(const char *property, const char *crypto,
+ uint32_t ksize)
+ : property_name(property), crypto_name(crypto), keysize(ksize) {}
+ friend const CryptoType &get_crypto_type();
+ static const CryptoType &get_device_crypto_algorithm();
+};
+
+// 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.
+const CryptoType &get_crypto_type() {
+ static CryptoType crypto_type = CryptoType::get_device_crypto_algorithm();
+ return crypto_type;
+}
+
+constexpr CryptoType default_crypto_type = CryptoType()
+ .set_property_name("AES-128-CBC")
+ .set_crypto_name("aes-cbc-essiv:sha256")
+ .set_keysize(16);
+
+constexpr CryptoType supported_crypto_types[] = {
+ default_crypto_type,
+ CryptoType()
+ .set_property_name("Speck128/128-XTS")
+ .set_crypto_name("speck128-xts-plain64")
+ .set_keysize(32),
+ // Add new CryptoTypes here. Order is not important.
+};
+
+
+// ---------- START COMPILE-TIME SANITY CHECK BLOCK -------------------------
+// We confirm all supported_crypto_types have a small enough keysize and
+// had both set_property_name() and set_crypto_name() called.
+
+template <typename T, size_t N>
+constexpr size_t array_length(T (&)[N]) { return N; }
+
+constexpr bool indexOutOfBoundsForCryptoTypes(size_t index) {
+ return (index >= array_length(supported_crypto_types));
+}
+
+constexpr bool isValidCryptoType(const CryptoType &crypto_type) {
+ return ((crypto_type.get_property_name() != nullptr) &&
+ (crypto_type.get_crypto_name() != nullptr) &&
+ (crypto_type.get_keysize() <= MAX_KEY_LEN));
+}
+
+// Note in C++11 that constexpr functions can only have a single line.
+// So our code is a bit convoluted (using recursion instead of a loop),
+// but it's asserting at compile time that all of our key lengths are valid.
+constexpr bool validateSupportedCryptoTypes(size_t index) {
+ return indexOutOfBoundsForCryptoTypes(index) ||
+ (isValidCryptoType(supported_crypto_types[index]) &&
+ validateSupportedCryptoTypes(index + 1));
+}
+
+static_assert(validateSupportedCryptoTypes(0),
+ "We have a CryptoType with keysize > MAX_KEY_LEN or which was "
+ "incompletely constructed.");
+// ---------- END COMPILE-TIME SANITY CHECK BLOCK -------------------------
+
+
+// Don't call this directly, use get_crypto_type(), which caches this result.
+const CryptoType &CryptoType::get_device_crypto_algorithm() {
+ constexpr char CRYPT_ALGO_PROP[] = "ro.crypto.fde_algorithm";
+ char paramstr[PROPERTY_VALUE_MAX];
+
+ property_get(CRYPT_ALGO_PROP, paramstr,
+ default_crypto_type.get_property_name());
+ for (auto const &ctype : supported_crypto_types) {
+ if (strcmp(paramstr, ctype.get_property_name()) == 0) {
+ return ctype;
+ }
+ }
+ ALOGE("Invalid name (%s) for %s. Defaulting to %s\n", paramstr,
+ CRYPT_ALGO_PROP, default_crypto_type.get_property_name());
+ return default_crypto_type;
+}
+
+} // namespace
+
+#define SCRYPT_PROP "ro.crypto.scrypt_params"
+#define SCRYPT_DEFAULTS "15:3:1"
+
+bool parse_scrypt_parameters(const char* paramstr, int *Nf, int *rf, int *pf) {
+ int params[3] = {};
+ char *token;
+ char *saveptr;
+ int i;
+
+ /*
+ * The token we're looking for should be three integers separated by
+ * colons (e.g., "12:8:1"). Scan the property to make sure it matches.
+ */
+ for (i = 0, token = strtok_r(const_cast<char *>(paramstr), ":", &saveptr);
+ token != nullptr && i < 3;
+ i++, token = strtok_r(nullptr, ":", &saveptr)) {
+ char *endptr;
+ params[i] = strtol(token, &endptr, 10);
+
+ /*
+ * Check that there was a valid number and it's 8-bit.
+ */
+ if ((*token == '\0') || (*endptr != '\0') || params[i] < 0 || params[i] > 255) {
+ return false;
+ }
+ }
+ if (token != nullptr) {
+ return false;
+ }
+ *Nf = params[0]; *rf = params[1]; *pf = params[2];
+ return true;
+}
+
+uint32_t cryptfs_get_keysize() {
+ return get_crypto_type().get_keysize();
+}
+
+const char *cryptfs_get_crypto_name() {
+ return get_crypto_type().get_crypto_name();
+}
+
+static int get_crypt_ftr_info(char **metadata_fname, off64_t *off)
+{
+ static int cached_data = 0;
+ static off64_t cached_off = 0;
+ static char cached_metadata_fname[PROPERTY_VALUE_MAX] = "";
+ int fd;
+ //char key_loc[PROPERTY_VALUE_MAX];
+ //char real_blkdev[PROPERTY_VALUE_MAX];
+ int rc = -1;
+
+ if (!cached_data) {
+ //fs_mgr_get_crypt_info(fstab_default, key_loc, real_blkdev, sizeof(key_loc));
+
+ if (!strcmp(key_fname, KEY_IN_FOOTER)) {
+ if ( (fd = open(real_blkdev, O_RDWR|O_CLOEXEC)) < 0) {
+ SLOGE("Cannot open real block device %s\n", real_blkdev);
+ return -1;
+ }
+
+ unsigned long nr_sec = 0;
+ get_blkdev_size(fd, &nr_sec);
+ if (nr_sec != 0) {
+ /* If it's an encrypted Android partition, the last 16 Kbytes contain the
+ * encryption info footer and key, and plenty of bytes to spare for future
+ * growth.
+ */
+ strlcpy(cached_metadata_fname, real_blkdev, sizeof(cached_metadata_fname));
+ cached_off = ((off64_t)nr_sec * 512) - CRYPT_FOOTER_OFFSET;
+ cached_data = 1;
+ } else {
+ SLOGE("Cannot get size of block device %s\n", real_blkdev);
+ }
+ close(fd);
+ } else {
+ strlcpy(cached_metadata_fname, key_fname, sizeof(cached_metadata_fname));
+ cached_off = 0;
+ cached_data = 1;
+ }
+ }
+
+ if (cached_data) {
+ if (metadata_fname) {
+ *metadata_fname = cached_metadata_fname;
+ }
+ if (off) {
+ *off = cached_off;
+ }
+ rc = 0;
+ }
+
+ return rc;
+}
+
+static int get_crypt_ftr_and_key(struct crypt_mnt_ftr *crypt_ftr)
+{
+ int fd;
+ unsigned int cnt;
+ off64_t starting_off;
+ int rc = -1;
+ char *fname = NULL;
+ struct stat statbuf;
+
+ if (get_crypt_ftr_info(&fname, &starting_off)) {
+ SLOGE("Unable to get crypt_ftr_info\n");
+ return -1;
+ }
+ if (fname[0] != '/') {
+ SLOGE("Unexpected value for crypto key location\n");
+ return -1;
+ }
+ if ( (fd = open(fname, O_RDWR|O_CLOEXEC)) < 0) {
+ SLOGE("Cannot open footer file %s for get\n", fname);
+ return -1;
+ }
+
+ /* Make sure it's 16 Kbytes in length */
+ fstat(fd, &statbuf);
+ if (S_ISREG(statbuf.st_mode) && (statbuf.st_size != 0x4000)) {
+ SLOGE("footer file %s is not the expected size!\n", fname);
+ goto errout;
+ }
+
+ /* Seek to the start of the crypt footer */
+ if (lseek64(fd, starting_off, SEEK_SET) == -1) {
+ SLOGE("Cannot seek to real block device footer\n");
+ goto errout;
+ }
+
+ if ( (cnt = read(fd, crypt_ftr, sizeof(struct crypt_mnt_ftr))) != sizeof(struct crypt_mnt_ftr)) {
+ SLOGE("Cannot read real block device footer\n");
+ goto errout;
+ }
+
+ if (crypt_ftr->magic != CRYPT_MNT_MAGIC) {
+ SLOGE("Bad magic for real block device %s\n", fname);
+ goto errout;
+ }
+
+ if (crypt_ftr->major_version != CURRENT_MAJOR_VERSION) {
+ SLOGE("Cannot understand major version %d real block device footer; expected %d\n",
+ crypt_ftr->major_version, CURRENT_MAJOR_VERSION);
+ goto errout;
+ }
+
+ // We risk buffer overflows with oversized keys, so we just reject them.
+ // 0-sized keys are problematic (essentially by-passing encryption), and
+ // AES-CBC key wrapping only works for multiples of 16 bytes.
+ if ((crypt_ftr->keysize == 0) || ((crypt_ftr->keysize % 16) != 0) ||
+ (crypt_ftr->keysize > MAX_KEY_LEN)) {
+ SLOGE("Invalid keysize (%u) for block device %s; Must be non-zero, "
+ "divisible by 16, and <= %d\n", crypt_ftr->keysize, fname,
+ MAX_KEY_LEN);
+ goto errout;
+ }
+
+ if (crypt_ftr->minor_version > CURRENT_MINOR_VERSION) {
+ SLOGW("Warning: crypto footer minor version %d, expected <= %d, continuing...\n",
+ crypt_ftr->minor_version, CURRENT_MINOR_VERSION);
+ }
+
+ /* Success! */
+ rc = 0;
+
+errout:
+ close(fd);
+ return rc;
+}
+
+int cryptfs_check_footer()
+{
+ int rc = -1;
+ struct crypt_mnt_ftr crypt_ftr;
+
+ rc = get_crypt_ftr_and_key(&crypt_ftr);
+
+ return rc;
+}
+
+/* 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 unsigned char *master_key,
+ unsigned int keysize, char *master_key_ascii) {
+ unsigned int i, a;
+ unsigned char nibble;
+
+ for (i=0, a=0; i<keysize; i++, a+=2) {
+ /* For each byte, write out two ascii hex digits */
+ nibble = (master_key[i] >> 4) & 0xf;
+ master_key_ascii[a] = nibble + (nibble > 9 ? 0x37 : 0x30);
+
+ nibble = master_key[i] & 0xf;
+ master_key_ascii[a+1] = nibble + (nibble > 9 ? 0x37 : 0x30);
+ }
+
+ /* Add the null termination */
+ master_key_ascii[a] = '\0';
+
+}
+
+static int load_crypto_mapping_table(struct crypt_mnt_ftr *crypt_ftr,
+ const unsigned char *master_key, const char *real_blk_name,
+ const char *name, int fd, const char *extra_params) {
+ alignas(struct dm_ioctl) char buffer[DM_CRYPT_BUF_SIZE];
+ struct dm_ioctl *io;
+ struct dm_target_spec *tgt;
+ char *crypt_params;
+ // We need two ASCII characters to represent each byte, and need space for
+ // the '\0' terminator.
+ char master_key_ascii[MAX_KEY_LEN * 2 + 1];
+ size_t buff_offset;
+ int i;
+
+ io = (struct dm_ioctl *) buffer;
+
+ /* Load the mapping table for this device */
+ tgt = (struct dm_target_spec *) &buffer[sizeof(struct dm_ioctl)];
+
+ ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
+ io->target_count = 1;
+ tgt->status = 0;
+ tgt->sector_start = 0;
+ tgt->length = crypt_ftr->fs_size;
+ crypt_params = buffer + sizeof(struct dm_ioctl) + sizeof(struct dm_target_spec);
+ buff_offset = crypt_params - buffer;
+ SLOGI("Extra parameters for dm_crypt: %s\n", extra_params);
+
+#ifdef CONFIG_HW_DISK_ENCRYPTION
+ if(is_hw_disk_encryption((char*)crypt_ftr->crypto_type_name)) {
+ strlcpy(tgt->target_type, "req-crypt",DM_MAX_TYPE_NAME);
+ if (is_ice_enabled())
+ convert_key_to_hex_ascii(master_key, sizeof(int), master_key_ascii);
+ else
+ convert_key_to_hex_ascii(master_key, crypt_ftr->keysize, master_key_ascii);
+ }
+ else {
+ convert_key_to_hex_ascii(master_key, crypt_ftr->keysize, master_key_ascii);
+ strlcpy(tgt->target_type, "crypt", DM_MAX_TYPE_NAME);
+ }
+ snprintf(crypt_params, sizeof(buffer) - buff_offset, "%s %s 0 %s 0 %s 0",
+ crypt_ftr->crypto_type_name, master_key_ascii,
+ real_blk_name, extra_params);
+
+ SLOGI("target_type = %s", tgt->target_type);
+ SLOGI("real_blk_name = %s, extra_params = %s", real_blk_name, extra_params);
+#else
+ convert_key_to_hex_ascii(master_key, crypt_ftr->keysize, master_key_ascii);
+ strlcpy(tgt->target_type, "crypt", DM_MAX_TYPE_NAME);
+ snprintf(crypt_params, sizeof(buffer) - buff_offset, "%s %s 0 %s 0 %s",
+ crypt_ftr->crypto_type_name, master_key_ascii, real_blk_name,
+ extra_params);
+#endif
+
+ crypt_params += strlen(crypt_params) + 1;
+ crypt_params = (char *) (((unsigned long)crypt_params + 7) & ~8); /* Align to an 8 byte boundary */
+ tgt->next = crypt_params - buffer;
+
+ for (i = 0; i < TABLE_LOAD_RETRIES; i++) {
+ if (! ioctl(fd, DM_TABLE_LOAD, io)) {
+ break;
+ }
+ usleep(500000);
+ }
+
+ if (i == TABLE_LOAD_RETRIES) {
+ /* We failed to load the table, return an error */
+ return -1;
+ } else {
+ return i + 1;
+ }
+}
+
+static int get_dm_crypt_version(int fd, const char *name, int *version)
+{
+ char buffer[DM_CRYPT_BUF_SIZE];
+ struct dm_ioctl *io;
+ struct dm_target_versions *v;
+
+ io = (struct dm_ioctl *) buffer;
+
+ ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
+
+ if (ioctl(fd, DM_LIST_VERSIONS, io)) {
+ return -1;
+ }
+
+ /* Iterate over the returned versions, looking for name of "crypt".
+ * When found, get and return the version.
+ */
+ v = (struct dm_target_versions *) &buffer[sizeof(struct dm_ioctl)];
+ while (v->next) {
+#ifdef CONFIG_HW_DISK_ENCRYPTION
+ if (! strcmp(v->name, "crypt") || ! strcmp(v->name, "req-crypt")) {
+#else
+ if (! strcmp(v->name, "crypt")) {
+#endif
+ /* We found the crypt driver, return the version, and get out */
+ version[0] = v->version[0];
+ version[1] = v->version[1];
+ version[2] = v->version[2];
+ return 0;
+ }
+ v = (struct dm_target_versions *)(((char *)v) + v->next);
+ }
+
+ return -1;
+}
+
+#ifndef CONFIG_HW_DISK_ENCRYPTION
+static std::string extra_params_as_string(const std::vector<std::string>& extra_params_vec) {
+ if (extra_params_vec.empty()) return "";
+ char temp[10];
+ snprintf(temp, sizeof(temp), "%zd", extra_params_vec.size());
+ std::string extra_params = temp; //std::to_string(extra_params_vec.size());
+ for (const auto& p : extra_params_vec) {
+ extra_params.append(" ");
+ extra_params.append(p);
+ }
+ return extra_params;
+}
+#endif
+
+static int create_crypto_blk_dev(struct crypt_mnt_ftr* crypt_ftr, const unsigned char* master_key,
+ const char* real_blk_name, char* crypto_blk_name, const char* name,
+ uint32_t flags) {
+ char buffer[DM_CRYPT_BUF_SIZE];
+ struct dm_ioctl* io;
+ unsigned int minor;
+ int fd = 0;
+ int err;
+ int retval = -1;
+ int version[3];
+ int load_count;
+#ifdef CONFIG_HW_DISK_ENCRYPTION
+ char encrypted_state[PROPERTY_VALUE_MAX] = {0};
+ char progress[PROPERTY_VALUE_MAX] = {0};
+ const char *extra_params;
+#else
+ std::vector<std::string> extra_params_vec;
+#endif
+
+ if ((fd = open("/dev/device-mapper", O_RDWR | O_CLOEXEC)) < 0) {
+ SLOGE("Cannot open device-mapper\n");
+ goto errout;
+ }
+
+ io = (struct dm_ioctl*)buffer;
+
+ ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
+ err = ioctl(fd, DM_DEV_CREATE, io);
+ if (err) {
+ SLOGE("Cannot create dm-crypt device %s: %s\n", name, strerror(errno));
+ goto errout;
+ }
+
+ /* Get the device status, in particular, the name of it's device file */
+ ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
+ if (ioctl(fd, DM_DEV_STATUS, io)) {
+ SLOGE("Cannot retrieve dm-crypt device status\n");
+ goto errout;
+ }
+ minor = (io->dev & 0xff) | ((io->dev >> 12) & 0xfff00);
+ snprintf(crypto_blk_name, MAXPATHLEN, "/dev/block/dm-%u", minor);
+
+#ifdef CONFIG_HW_DISK_ENCRYPTION
+ if(is_hw_disk_encryption((char*)crypt_ftr->crypto_type_name)) {
+ /* Set fde_enabled if either FDE completed or in-progress */
+ property_get("ro.crypto.state", encrypted_state, ""); /* FDE completed */
+ property_get("vold.encrypt_progress", progress, ""); /* FDE in progress */
+ if (!strcmp(encrypted_state, "encrypted") || strcmp(progress, "")) {
+ if (is_ice_enabled()) {
+ if (flags & CREATE_CRYPTO_BLK_DEV_FLAGS_ALLOW_ENCRYPT_OVERRIDE)
+ extra_params = "fde_enabled ice allow_encrypt_override";
+ else
+ extra_params = "fde_enabled ice";
+ } else {
+ if (flags & CREATE_CRYPTO_BLK_DEV_FLAGS_ALLOW_ENCRYPT_OVERRIDE)
+ extra_params = "fde_enabled allow_encrypt_override";
+ else
+ extra_params = "fde_enabled";
+ }
+ } else {
+ if (flags & CREATE_CRYPTO_BLK_DEV_FLAGS_ALLOW_ENCRYPT_OVERRIDE)
+ extra_params = "fde_enabled allow_encrypt_override";
+ else
+ extra_params = "fde_enabled";
+ }
+ } else {
+ extra_params = "";
+ if (! get_dm_crypt_version(fd, name, version)) {
+ /* Support for allow_discards was added in version 1.11.0 */
+ if ((version[0] >= 2) || ((version[0] == 1) && (version[1] >= 11))) {
+ if (flags & CREATE_CRYPTO_BLK_DEV_FLAGS_ALLOW_ENCRYPT_OVERRIDE)
+ extra_params = "2 allow_discards allow_encrypt_override";
+ else
+ extra_params = "1 allow_discards";
+ SLOGI("Enabling support for allow_discards in dmcrypt.\n");
+ }
+ }
+ }
+ load_count = load_crypto_mapping_table(crypt_ftr, master_key, real_blk_name, name, fd,
+ extra_params);
+#else
+ if (!get_dm_crypt_version(fd, name, version)) {
+ /* Support for allow_discards was added in version 1.11.0 */
+ if ((version[0] >= 2) || ((version[0] == 1) && (version[1] >= 11))) {
+ extra_params_vec.push_back(std::string("allow_discards")); // Used to be extra_params_vec.emplace_back("allow_discards"); but this won't compile in 5.1 trees
+ }
+ }
+ if (flags & CREATE_CRYPTO_BLK_DEV_FLAGS_ALLOW_ENCRYPT_OVERRIDE) {
+ extra_params_vec.push_back(std::string("allow_encrypt_override")); // Used to be extra_params_vec.emplace_back("allow_encrypt_override"); but this won't compile in 5.1 trees
+ }
+ load_count = load_crypto_mapping_table(crypt_ftr, master_key, real_blk_name, name, fd,
+ extra_params_as_string(extra_params_vec).c_str());
+#endif
+ if (load_count < 0) {
+ SLOGE("Cannot load dm-crypt mapping table.\n");
+ goto errout;
+ } else if (load_count > 1) {
+ SLOGI("Took %d tries to load dmcrypt table.\n", load_count);
+ }
+
+ /* Resume this device to activate it */
+ ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
+
+ if (ioctl(fd, DM_DEV_SUSPEND, io)) {
+ SLOGE("Cannot resume the dm-crypt device\n");
+ goto errout;
+ }
+
+ /* We made it here with no errors. Woot! */
+ retval = 0;
+
+errout:
+ close(fd); /* If fd is <0 from a failed open call, it's safe to just ignore the close error */
+
+ return retval;
+}
+
+int delete_crypto_blk_dev(const char *name)
+{
+ int fd;
+ char buffer[DM_CRYPT_BUF_SIZE];
+ struct dm_ioctl *io;
+ int retval = -1;
+
+ if ((fd = open("/dev/device-mapper", O_RDWR|O_CLOEXEC)) < 0 ) {
+ SLOGE("Cannot open device-mapper\n");
+ goto errout;
+ }
+
+ io = (struct dm_ioctl *) buffer;
+
+ ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
+ if (ioctl(fd, DM_DEV_REMOVE, io)) {
+ SLOGE("Cannot remove dm-crypt device\n");
+ goto errout;
+ }
+
+ /* We made it here with no errors. Woot! */
+ retval = 0;
+
+errout:
+ close(fd); /* If fd is <0 from a failed open call, it's safe to just ignore the close error */
+
+ return retval;
+
+}
+
+static int pbkdf2(const char *passwd, const unsigned char *salt,
+ unsigned char *ikey, void *params UNUSED)
+{
+ SLOGI("Using pbkdf2 for cryptfs KDF\n");
+
+ /* Turn the password into a key and IV that can decrypt the master key */
+ return PKCS5_PBKDF2_HMAC_SHA1(passwd, strlen(passwd), salt, SALT_LEN,
+ HASH_COUNT, INTERMEDIATE_BUF_SIZE,
+ ikey) != 1;
+}
+
+static int scrypt(const char *passwd, const unsigned char *salt,
+ unsigned char *ikey, void *params)
+{
+ SLOGI("Using scrypt for cryptfs KDF\n");
+
+ struct crypt_mnt_ftr *ftr = (struct crypt_mnt_ftr *) params;
+
+ int N = 1 << ftr->N_factor;
+ int r = 1 << ftr->r_factor;
+ int p = 1 << ftr->p_factor;
+
+ /* Turn the password into a key and IV that can decrypt the master key */
+ crypto_scrypt((const uint8_t*)passwd, strlen(passwd),
+ salt, SALT_LEN, N, r, p, ikey,
+ INTERMEDIATE_BUF_SIZE);
+
+ return 0;
+}
+
+static int scrypt_keymaster(const char *passwd, const unsigned char *salt,
+ unsigned char *ikey, void *params)
+{
+ SLOGI("Using scrypt with keymaster for cryptfs KDF\n");
+
+ int rc;
+ size_t signature_size;
+ unsigned char* signature;
+ struct crypt_mnt_ftr *ftr = (struct crypt_mnt_ftr *) params;
+
+ int N = 1 << ftr->N_factor;
+ int r = 1 << ftr->r_factor;
+ int p = 1 << ftr->p_factor;
+
+ rc = crypto_scrypt((const uint8_t*)passwd, strlen(passwd),
+ salt, SALT_LEN, N, r, p, ikey,
+ INTERMEDIATE_BUF_SIZE);
+
+ if (rc) {
+ SLOGE("scrypt failed");
+ return -1;
+ }
+
+ if (keymaster_sign_object(ftr, ikey, INTERMEDIATE_BUF_SIZE,
+ &signature, &signature_size)) {
+ SLOGE("Keymaster signing failed");
+ return -1;
+ }
+
+ rc = crypto_scrypt(signature, signature_size, salt, SALT_LEN,
+ N, r, p, ikey, INTERMEDIATE_BUF_SIZE);
+ free(signature);
+
+ if (rc) {
+ SLOGE("scrypt failed");
+ return -1;
+ }
+
+ return 0;
+}
+
+static int decrypt_master_key_aux(const char *passwd, unsigned char *salt,
+ const unsigned char *encrypted_master_key,
+ size_t keysize,
+ unsigned char *decrypted_master_key,
+ kdf_func kdf, void *kdf_params,
+ unsigned char** intermediate_key,
+ size_t* intermediate_key_size)
+{
+ unsigned char ikey[INTERMEDIATE_BUF_SIZE] = { 0 };
+ EVP_CIPHER_CTX d_ctx;
+ int decrypted_len, final_len;
+
+ /* Turn the password into an intermediate key and IV that can decrypt the
+ master key */
+ if (kdf(passwd, salt, ikey, kdf_params)) {
+ SLOGE("kdf failed");
+ return -1;
+ }
+
+ /* Initialize the decryption engine */
+ EVP_CIPHER_CTX_init(&d_ctx);
+ if (! EVP_DecryptInit_ex(&d_ctx, EVP_aes_128_cbc(), NULL, ikey, ikey+INTERMEDIATE_KEY_LEN_BYTES)) {
+ return -1;
+ }
+ EVP_CIPHER_CTX_set_padding(&d_ctx, 0); /* Turn off padding as our data is block aligned */
+ /* Decrypt the master key */
+ if (! EVP_DecryptUpdate(&d_ctx, decrypted_master_key, &decrypted_len,
+ encrypted_master_key, keysize)) {
+ return -1;
+ }
+ if (! EVP_DecryptFinal_ex(&d_ctx, decrypted_master_key + decrypted_len, &final_len)) {
+ return -1;
+ }
+
+ if (decrypted_len + final_len != static_cast<int>(keysize)) {
+ return -1;
+ }
+
+ /* Copy intermediate key if needed by params */
+ if (intermediate_key && intermediate_key_size) {
+ *intermediate_key = (unsigned char*) malloc(INTERMEDIATE_KEY_LEN_BYTES);
+ if (*intermediate_key) {
+ memcpy(*intermediate_key, ikey, INTERMEDIATE_KEY_LEN_BYTES);
+ *intermediate_key_size = INTERMEDIATE_KEY_LEN_BYTES;
+ }
+ }
+
+ EVP_CIPHER_CTX_cleanup(&d_ctx);
+
+ return 0;
+}
+
+static void get_kdf_func(struct crypt_mnt_ftr *ftr, kdf_func *kdf, void** kdf_params)
+{
+ if (ftr->kdf_type == KDF_SCRYPT_KEYMASTER) {
+ *kdf = scrypt_keymaster;
+ *kdf_params = ftr;
+ } else if (ftr->kdf_type == KDF_SCRYPT) {
+ *kdf = scrypt;
+ *kdf_params = ftr;
+ } else {
+ *kdf = pbkdf2;
+ *kdf_params = NULL;
+ }
+}
+
+static int decrypt_master_key(const char *passwd, unsigned char *decrypted_master_key,
+ struct crypt_mnt_ftr *crypt_ftr,
+ unsigned char** intermediate_key,
+ size_t* intermediate_key_size)
+{
+ kdf_func kdf;
+ void *kdf_params;
+ int ret;
+
+ get_kdf_func(crypt_ftr, &kdf, &kdf_params);
+ ret = decrypt_master_key_aux(passwd, crypt_ftr->salt, crypt_ftr->master_key,
+ crypt_ftr->keysize,
+ decrypted_master_key, kdf, kdf_params,
+ intermediate_key, intermediate_key_size);
+ if (ret != 0) {
+ SLOGW("failure decrypting master key");
+ }
+
+ return ret;
+}
+
+#ifdef CONFIG_HW_DISK_ENCRYPTION
+static int test_mount_hw_encrypted_fs(struct crypt_mnt_ftr* crypt_ftr,
+ const char *passwd, const char *mount_point, const char *label)
+{
+ /* Allocate enough space for a 256 bit key, but we may use less */
+ unsigned char decrypted_master_key[32];
+ char crypto_blkdev[MAXPATHLEN];
+ //char real_blkdev[MAXPATHLEN];
+ unsigned int orig_failed_decrypt_count;
+ int rc = 0;
+
+ SLOGD("crypt_ftr->fs_size = %lld\n", crypt_ftr->fs_size);
+ orig_failed_decrypt_count = crypt_ftr->failed_decrypt_count;
+
+ //fs_mgr_get_crypt_info(fstab_default, 0, real_blkdev, sizeof(real_blkdev));
+
+ int key_index = 0;
+ if(is_hw_disk_encryption((char*)crypt_ftr->crypto_type_name)) {
+ key_index = verify_and_update_hw_fde_passwd(passwd, crypt_ftr);
+ if (key_index < 0) {
+ rc = -1;
+ goto errout;
+ }
+ else {
+ if (is_ice_enabled()) {
+#ifndef CONFIG_HW_DISK_ENCRYPT_PERF
+ if (create_crypto_blk_dev(crypt_ftr, (unsigned char*)&key_index,
+ real_blkdev, crypto_blkdev, label, 0)) {
+ SLOGE("Error creating decrypted block device");
+ rc = -1;
+ goto errout;
+ }
+#endif
+ } else {
+ if (create_crypto_blk_dev(crypt_ftr, decrypted_master_key,
+ real_blkdev, crypto_blkdev, label, 0)) {
+ SLOGE("Error creating decrypted block device");
+ rc = -1;
+ goto errout;
+ }
+ }
+ }
+ }
+
+ if (rc == 0) {
+ /* Save the name of the crypto block device
+ * so we can mount it when restarting the framework. */
+#ifdef CONFIG_HW_DISK_ENCRYPT_PERF
+ if (!is_ice_enabled())
+#endif
+ property_set("ro.crypto.fs_crypto_blkdev", crypto_blkdev);
+ master_key_saved = 1;
+ }
+
+ errout:
+ return rc;
+}
+#endif
+
+static int try_mount_multiple_fs(const char *crypto_blkdev,
+ const char *mount_point,
+ const char *file_system)
+{
+ if (!mount(crypto_blkdev, mount_point, file_system, 0, NULL))
+ return 0;
+ if (strcmp(file_system, "ext4") &&
+ !mount(crypto_blkdev, mount_point, "ext4", 0, NULL))
+ return 0;
+ if (strcmp(file_system, "f2fs") &&
+ !mount(crypto_blkdev, mount_point, "f2fs", 0, NULL))
+ return 0;
+ return 1;
+}
+
+static int test_mount_encrypted_fs(struct crypt_mnt_ftr* crypt_ftr,
+ const char *passwd, const char *mount_point, const char *label)
+{
+ unsigned char decrypted_master_key[MAX_KEY_LEN];
+ char crypto_blkdev[MAXPATHLEN];
+ //char real_blkdev[MAXPATHLEN];
+ char tmp_mount_point[64];
+ unsigned int orig_failed_decrypt_count;
+ int rc;
+ int use_keymaster = 0;
+ unsigned char* intermediate_key = 0;
+ size_t intermediate_key_size = 0;
+ int N = 1 << crypt_ftr->N_factor;
+ int r = 1 << crypt_ftr->r_factor;
+ int p = 1 << crypt_ftr->p_factor;
+
+ SLOGD("crypt_ftr->fs_size = %lld\n", crypt_ftr->fs_size);
+ orig_failed_decrypt_count = crypt_ftr->failed_decrypt_count;
+
+ if (! (crypt_ftr->flags & CRYPT_MNT_KEY_UNENCRYPTED) ) {
+ if (decrypt_master_key(passwd, decrypted_master_key, crypt_ftr,
+ &intermediate_key, &intermediate_key_size)) {
+ SLOGE("Failed to decrypt master key\n");
+ rc = -1;
+ goto errout;
+ }
+ }
+
+ //fs_mgr_get_crypt_info(fstab_default, 0, real_blkdev, sizeof(real_blkdev));
+
+ // Create crypto block device - all (non fatal) code paths
+ // need it
+ if (create_crypto_blk_dev(crypt_ftr, decrypted_master_key, real_blkdev, crypto_blkdev, label, 0)) {
+ SLOGE("Error creating decrypted block device\n");
+ rc = -1;
+ goto errout;
+ }
+
+ /* Work out if the problem is the password or the data */
+ unsigned char scrypted_intermediate_key[sizeof(crypt_ftr->
+ scrypted_intermediate_key)];
+
+ rc = crypto_scrypt(intermediate_key, intermediate_key_size,
+ crypt_ftr->salt, sizeof(crypt_ftr->salt),
+ N, r, p, scrypted_intermediate_key,
+ sizeof(scrypted_intermediate_key));
+
+ // Does the key match the crypto footer?
+ if (rc == 0 && memcmp(scrypted_intermediate_key,
+ crypt_ftr->scrypted_intermediate_key,
+ sizeof(scrypted_intermediate_key)) == 0) {
+ SLOGI("Password matches");
+ rc = 0;
+ } else {
+ /* Try mounting the file system anyway, just in case the problem's with
+ * the footer, not the key. */
+ snprintf(tmp_mount_point, sizeof(tmp_mount_point), "%s/tmp_mnt",
+ mount_point);
+ mkdir(tmp_mount_point, 0755);
+ if (try_mount_multiple_fs(crypto_blkdev, tmp_mount_point, file_system)) {
+ SLOGE("Error temp mounting decrypted block device\n");
+ delete_crypto_blk_dev(label);
+
+ rc = -1;
+ } else {
+ /* Success! */
+ SLOGI("Password did not match but decrypted drive mounted - continue");
+ umount(tmp_mount_point);
+ rc = 0;
+ }
+ }
+
+ if (rc == 0) {
+ /* Save the name of the crypto block device
+ * so we can mount it when restarting the framework. */
+ property_set("ro.crypto.fs_crypto_blkdev", crypto_blkdev);
+
+ /* Also save a the master key so we can reencrypted the key
+ * the key when we want to change the password on it. */
+ memcpy(saved_master_key, decrypted_master_key, crypt_ftr->keysize);
+ saved_mount_point = strdup(mount_point);
+ master_key_saved = 1;
+ SLOGD("%s(): Master key saved\n", __FUNCTION__);
+ rc = 0;
+ }
+
+ errout:
+ if (intermediate_key) {
+ memset(intermediate_key, 0, intermediate_key_size);
+ free(intermediate_key);
+ }
+ return rc;
+}
+
+/*
+ * 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.
+ *
+ * out_crypto_blkdev must be MAXPATHLEN.
+ */
+int cryptfs_setup_ext_volume(const char* label, const char* real_blkdev,
+ const unsigned char* key, int keysize, char* out_crypto_blkdev) {
+ int fd = open(real_blkdev, O_RDONLY|O_CLOEXEC);
+ if (fd == -1) {
+ SLOGE("Failed to open %s: %s", real_blkdev, strerror(errno));
+ return -1;
+ }
+
+ unsigned long nr_sec = 0;
+ get_blkdev_size(fd, &nr_sec);
+ close(fd);
+
+ if (nr_sec == 0) {
+ SLOGE("Failed to get size of %s: %s", real_blkdev, strerror(errno));
+ return -1;
+ }
+
+ struct crypt_mnt_ftr ext_crypt_ftr;
+ memset(&ext_crypt_ftr, 0, sizeof(ext_crypt_ftr));
+ ext_crypt_ftr.fs_size = nr_sec;
+ ext_crypt_ftr.keysize = cryptfs_get_keysize();
+ strlcpy((char*) ext_crypt_ftr.crypto_type_name, cryptfs_get_crypto_name(),
+ MAX_CRYPTO_TYPE_NAME_LEN);
+ uint32_t flags = 0;
+ /*if (e4crypt_is_native() &&
+ android::base::GetBoolProperty("ro.crypto.allow_encrypt_override", false))
+ flags |= CREATE_CRYPTO_BLK_DEV_FLAGS_ALLOW_ENCRYPT_OVERRIDE;*/
+
+ return create_crypto_blk_dev(&ext_crypt_ftr, key, real_blkdev, out_crypto_blkdev, label, flags);
+}
+
+/*
+ * Called by vold when it's asked to unmount an encrypted external
+ * storage volume.
+ */
+int cryptfs_revert_ext_volume(const char* label) {
+ return delete_crypto_blk_dev(label);
+}
+
+int check_unmounted_and_get_ftr(struct crypt_mnt_ftr* crypt_ftr)
+{
+ char encrypted_state[PROPERTY_VALUE_MAX];
+ property_get("ro.crypto.state", encrypted_state, "");
+ if ( master_key_saved || strcmp(encrypted_state, "encrypted") ) {
+ SLOGE("encrypted fs already validated or not running with encryption,"
+ " aborting");
+ return -1;
+ }
+
+ if (get_crypt_ftr_and_key(crypt_ftr)) {
+ SLOGE("Error getting crypt footer and key");
+ return -1;
+ }
+
+ return 0;
+}
+
+#ifdef CONFIG_HW_DISK_ENCRYPTION
+int cryptfs_check_passwd_hw(const char* passwd)
+{
+ struct crypt_mnt_ftr crypt_ftr;
+ int rc;
+ unsigned char master_key[KEY_LEN_BYTES];
+ /* get key */
+ if (get_crypt_ftr_and_key(&crypt_ftr)) {
+ SLOGE("Error getting crypt footer and key");
+ return -1;
+ }
+
+ /*
+ * in case of manual encryption (from GUI), the encryption is done with
+ * default password
+ */
+ if (crypt_ftr.flags & CRYPT_FORCE_COMPLETE) {
+ /* compare scrypted_intermediate_key with stored scrypted_intermediate_key
+ * which was created with actual password before reboot.
+ */
+ rc = cryptfs_get_master_key(&crypt_ftr, passwd, master_key);
+ if (rc) {
+ SLOGE("password doesn't match");
+ return rc;
+ }
+
+ rc = test_mount_hw_encrypted_fs(&crypt_ftr, DEFAULT_PASSWORD,
+ DATA_MNT_POINT, CRYPTO_BLOCK_DEVICE);
+
+ if (rc) {
+ SLOGE("Default password did not match on reboot encryption");
+ return rc;
+ }
+ } else {
+ rc = test_mount_hw_encrypted_fs(&crypt_ftr, passwd,
+ DATA_MNT_POINT, CRYPTO_BLOCK_DEVICE);
+ SLOGE("test mount returned %i\n", rc);
+ }
+
+ return rc;
+}
+#endif
+
+int cryptfs_check_passwd(const char *passwd)
+{
+ /*if (e4crypt_is_native()) {
+ SLOGE("cryptfs_check_passwd not valid for file encryption");
+ return -1;
+ }*/
+
+ struct crypt_mnt_ftr crypt_ftr;
+ int rc;
+
+ rc = check_unmounted_and_get_ftr(&crypt_ftr);
+ if (rc) {
+ SLOGE("Could not get footer");
+ return rc;
+ }
+
+#ifdef CONFIG_HW_DISK_ENCRYPTION
+ if (is_hw_disk_encryption((char*)crypt_ftr.crypto_type_name))
+ return cryptfs_check_passwd_hw(passwd);
+#endif
+
+ rc = test_mount_encrypted_fs(&crypt_ftr, passwd,
+ DATA_MNT_POINT, CRYPTO_BLOCK_DEVICE);
+
+ if (rc) {
+ SLOGE("Password did not match");
+ return rc;
+ }
+
+ if (crypt_ftr.flags & CRYPT_FORCE_COMPLETE) {
+ // Here we have a default actual password but a real password
+ // we must test against the scrypted value
+ // First, we must delete the crypto block device that
+ // test_mount_encrypted_fs leaves behind as a side effect
+ delete_crypto_blk_dev(CRYPTO_BLOCK_DEVICE);
+ rc = test_mount_encrypted_fs(&crypt_ftr, DEFAULT_PASSWORD,
+ DATA_MNT_POINT, CRYPTO_BLOCK_DEVICE);
+ if (rc) {
+ SLOGE("Default password did not match on reboot encryption");
+ return rc;
+ }
+ }
+
+ return rc;
+}
+
+int cryptfs_verify_passwd(const char *passwd)
+{
+ struct crypt_mnt_ftr crypt_ftr;
+ unsigned char decrypted_master_key[MAX_KEY_LEN];
+ char encrypted_state[PROPERTY_VALUE_MAX];
+ int rc;
+
+ property_get("ro.crypto.state", encrypted_state, "");
+ if (strcmp(encrypted_state, "encrypted") ) {
+ SLOGE("device not encrypted, aborting");
+ return -2;
+ }
+
+ if (!master_key_saved) {
+ SLOGE("encrypted fs not yet mounted, aborting");
+ return -1;
+ }
+
+ if (!saved_mount_point) {
+ SLOGE("encrypted fs failed to save mount point, aborting");
+ return -1;
+ }
+
+ if (get_crypt_ftr_and_key(&crypt_ftr)) {
+ SLOGE("Error getting crypt footer and key\n");
+ return -1;
+ }
+
+ if (crypt_ftr.flags & CRYPT_MNT_KEY_UNENCRYPTED) {
+ /* If the device has no password, then just say the password is valid */
+ rc = 0;
+ } else {
+#ifdef CONFIG_HW_DISK_ENCRYPTION
+ if(is_hw_disk_encryption((char*)crypt_ftr.crypto_type_name)) {
+ if (verify_hw_fde_passwd(passwd, &crypt_ftr) >= 0)
+ rc = 0;
+ else
+ rc = -1;
+ } else {
+ decrypt_master_key(passwd, decrypted_master_key, &crypt_ftr, 0, 0);
+ if (!memcmp(decrypted_master_key, saved_master_key, crypt_ftr.keysize)) {
+ /* They match, the password is correct */
+ rc = 0;
+ } else {
+ /* If incorrect, sleep for a bit to prevent dictionary attacks */
+ sleep(1);
+ rc = 1;
+ }
+ }
+#else
+ decrypt_master_key(passwd, decrypted_master_key, &crypt_ftr, 0, 0);
+ if (!memcmp(decrypted_master_key, saved_master_key, crypt_ftr.keysize)) {
+ /* They match, the password is correct */
+ rc = 0;
+ } else {
+ /* If incorrect, sleep for a bit to prevent dictionary attacks */
+ sleep(1);
+ rc = 1;
+ }
+#endif
+ }
+
+ return rc;
+}
+
+/* Returns type of the password, default, pattern, pin or password.
+ */
+int cryptfs_get_password_type(void)
+{
+ struct crypt_mnt_ftr crypt_ftr;
+
+ if (get_crypt_ftr_and_key(&crypt_ftr)) {
+ SLOGE("Error getting crypt footer and key\n");
+ return -1;
+ }
+
+ if (crypt_ftr.flags & CRYPT_INCONSISTENT_STATE) {
+ return -1;
+ }
+
+ return crypt_ftr.crypt_type;
+}
+
+int cryptfs_get_master_key(struct crypt_mnt_ftr* ftr, const char* password,
+ unsigned char* master_key)
+{
+ int rc;
+
+ unsigned char* intermediate_key = 0;
+ size_t intermediate_key_size = 0;
+
+ if (password == 0 || *password == 0) {
+ password = DEFAULT_PASSWORD;
+ }
+
+ rc = decrypt_master_key(password, master_key, ftr, &intermediate_key,
+ &intermediate_key_size);
+
+ if (rc) {
+ SLOGE("Can't calculate intermediate key");
+ return rc;
+ }
+
+ int N = 1 << ftr->N_factor;
+ int r = 1 << ftr->r_factor;
+ int p = 1 << ftr->p_factor;
+
+ unsigned char scrypted_intermediate_key[sizeof(ftr->scrypted_intermediate_key)];
+
+ rc = crypto_scrypt(intermediate_key, intermediate_key_size,
+ ftr->salt, sizeof(ftr->salt), N, r, p,
+ scrypted_intermediate_key,
+ sizeof(scrypted_intermediate_key));
+
+ free(intermediate_key);
+
+ if (rc) {
+ SLOGE("Can't scrypt intermediate key");
+ return rc;
+ }
+
+ return memcmp(scrypted_intermediate_key, ftr->scrypted_intermediate_key,
+ intermediate_key_size);
+}
+
diff --git a/crypto/lollipop/cryptfs.h b/crypto/fde/cryptfs.h
index cd07e5af7..c67113a75 100644
--- a/crypto/lollipop/cryptfs.h
+++ b/crypto/fde/cryptfs.h
@@ -14,6 +14,9 @@
* limitations under the License.
*/
+#ifndef ANDROID_VOLD_CRYPTFS_H
+#define ANDROID_VOLD_CRYPTFS_H
+
/* This structure starts 16,384 bytes before the end of a hardware
* partition that is encrypted, or in a separate partition. It's location
* is specified by a property set in init.<device>.rc.
@@ -26,8 +29,9 @@
* partition.
*/
+#include <stdbool.h>
+#include <stdint.h>
#include <cutils/properties.h>
-#include "openssl/sha.h"
/* The current cryptfs version */
#define CURRENT_MAJOR_VERSION 1
@@ -52,6 +56,16 @@
correctly marked partial encryption */
#define CRYPT_DATA_CORRUPT 0x8 /* Set when encryption is fine, but the
underlying volume is corrupt */
+#define CRYPT_FORCE_ENCRYPTION 0x10 /* Set when it is time to encrypt this
+ volume on boot. Everything in this
+ structure is set up correctly as
+ though device is encrypted except
+ that the master key is encrypted with the
+ default password. */
+#define CRYPT_FORCE_COMPLETE 0x20 /* Set when the above encryption cycle is
+ complete. On next cryptkeeper entry, match
+ the password. If it matches fix the master
+ key and remove this flag. */
#ifdef CONFIG_HW_DISK_ENCRYPTION
/* This flag is used to transition from L->M upgrade. L release passed
* a byte for every nible of user password while M release is passing
@@ -60,6 +74,7 @@
*/
#define CRYPT_ASCII_PASSWORD_UPDATED 0x1000
#endif
+
/* Allowed values for type in the structure below */
#define CRYPT_TYPE_PASSWORD 0 /* master_key is encrypted with a password
* Must be zero to be compatible with pre-L
@@ -73,14 +88,10 @@
#define CRYPT_MNT_MAGIC 0xD0B5B1C4
#define PERSIST_DATA_MAGIC 0xE950CD44
-#define SCRYPT_PROP "ro.crypto.scrypt_params"
-#define SCRYPT_DEFAULTS { 15, 3, 1 }
-
/* Key Derivation Function algorithms */
#define KDF_PBKDF2 1
#define KDF_SCRYPT 2
-/* TODO(paullawrence): Remove KDF_SCRYPT_KEYMASTER_UNPADDED and KDF_SCRYPT_KEYMASTER_BADLY_PADDED
- * when it is safe to do so. */
+/* Algorithms 3 & 4 deprecated before shipping outside of google, so removed */
#define KDF_SCRYPT_KEYMASTER_UNPADDED 3
#define KDF_SCRYPT_KEYMASTER_BADLY_PADDED 4
#define KDF_SCRYPT_KEYMASTER 5
@@ -91,6 +102,10 @@
/* __le32 and __le16 defined in system/extras/ext4_utils/ext4_utils.h */
#define __le8 unsigned char
+#if !defined(SHA256_DIGEST_LENGTH)
+#define SHA256_DIGEST_LENGTH 32
+#endif
+
struct crypt_mnt_ftr {
__le32 magic; /* See above */
__le16 major_version;
@@ -100,7 +115,7 @@ struct crypt_mnt_ftr {
__le32 keysize; /* in bytes */
__le32 crypt_type; /* how master_key is encrypted. Must be a
* CRYPT_TYPE_XXX value */
- __le64 fs_size; /* Size of the encrypted fs, in 512 byte sectors */
+ __le64 fs_size; /* Size of the encrypted fs, in 512 byte sectors */
__le32 failed_decrypt_count; /* count of # of failed attempts to decrypt and
mount, set to 0 on successful mount */
unsigned char crypto_type_name[MAX_CRYPTO_TYPE_NAME_LEN]; /* The type of encryption
@@ -151,79 +166,43 @@ struct crypt_mnt_ftr {
then we will be OK.
*/
unsigned char scrypted_intermediate_key[SCRYPT_LEN];
-};
-
-/* Persistant data that should be available before decryption.
- * Things like airplane mode, locale and timezone are kept
- * here and can be retrieved by the CryptKeeper UI to properly
- * configure the phone before asking for the password
- * This is only valid if the major and minor version above
- * is set to 1.1 or higher.
- *
- * This is a 4K structure. There are 2 copies, and the code alternates
- * writing one and then clearing the previous one. The reading
- * code reads the first valid copy it finds, based on the magic number.
- * The absolute offset to the first of the two copies is kept in rev 1.1
- * and higher crypt_mnt_ftr structures.
- */
-struct crypt_persist_entry {
- char key[PROPERTY_KEY_MAX];
- char val[PROPERTY_VALUE_MAX];
-};
-
-/* Should be exactly 4K in size */
-struct crypt_persist_data {
- __le32 persist_magic;
- __le32 persist_valid_entries;
- __le32 persist_spare[30];
- struct crypt_persist_entry persist_entry[0];
-};
-struct volume_info {
- unsigned int size;
- unsigned int flags;
- struct crypt_mnt_ftr crypt_ftr;
- char mnt_point[256];
- char blk_dev[256];
- char crypto_blkdev[256];
- char label[256];
+ /* sha of this structure with this element set to zero
+ Used when encrypting on reboot to validate structure before doing something
+ fatal
+ */
+ unsigned char sha256[SHA256_DIGEST_LENGTH];
};
-#define VOL_NONREMOVABLE 0x1
-#define VOL_ENCRYPTABLE 0x2
-#define VOL_PRIMARY 0x4
-#define VOL_PROVIDES_ASEC 0x8
#define DATA_MNT_POINT "/data"
/* Return values for cryptfs_crypto_complete */
#define CRYPTO_COMPLETE_NOT_ENCRYPTED 1
#define CRYPTO_COMPLETE_ENCRYPTED 0
-#define CRYPTO_COMPLETE_BAD_METADATA -1
-#define CRYPTO_COMPLETE_PARTIAL -2
-#define CRYPTO_COMPLETE_INCONSISTENT -3
-#define CRYPTO_COMPLETE_CORRUPT -4
+#define CRYPTO_COMPLETE_BAD_METADATA (-1)
+#define CRYPTO_COMPLETE_PARTIAL (-2)
+#define CRYPTO_COMPLETE_INCONSISTENT (-3)
+#define CRYPTO_COMPLETE_CORRUPT (-4)
/* Return values for cryptfs_enable_inplace*() */
#define ENABLE_INPLACE_OK 0
-#define ENABLE_INPLACE_ERR_OTHER -1
-#define ENABLE_INPLACE_ERR_DEV -2 /* crypto_blkdev issue */
+#define ENABLE_INPLACE_ERR_OTHER (-1)
+#define ENABLE_INPLACE_ERR_DEV (-2) /* crypto_blkdev issue */
-#ifdef __cplusplus
-extern "C" {
-#endif
+typedef int (*kdf_func)(const char* passwd, const unsigned char* salt, unsigned char* ikey,
+ void* params);
- typedef int (*kdf_func)(const char *passwd, const unsigned char *salt,
- unsigned char *ikey, void *params);
-
- void set_partition_data(const char* block_device, const char* key_location, const char* fs);
- int cryptfs_check_footer();
- int cryptfs_check_passwd(char *pw);
- int cryptfs_verify_passwd(char *newpw);
- int cryptfs_get_password_type(void);
- int delete_crypto_blk_dev(char *name);
- int cryptfs_setup_ext_volume(const char* label, const char* real_blkdev,
- const unsigned char* key, int keysize, char* out_crypto_blkdev);
- int cryptfs_revert_ext_volume(const char* label);
-#ifdef __cplusplus
-}
-#endif
+int cryptfs_check_passwd(const char* pw);
+int cryptfs_verify_passwd(const char* pw);
+int cryptfs_setup_ext_volume(const char* label, const char* real_blkdev, const unsigned char* key, int keysize, char* out_crypto_blkdev);
+int cryptfs_revert_ext_volume(const char* label);
+int cryptfs_get_password_type(void);
+
+uint32_t cryptfs_get_keysize();
+const char* cryptfs_get_crypto_name();
+
+void set_partition_data(const char* block_device, const char* key_location, const char* fs);
+int cryptfs_check_footer();
+int delete_crypto_blk_dev(const char *name);
+
+#endif /* ANDROID_VOLD_CRYPTFS_H */
diff --git a/crypto/lollipop/main.c b/crypto/fde/main.cpp
index 232afb959..7051a6d7b 100644
--- a/crypto/lollipop/main.c
+++ b/crypto/fde/main.cpp
@@ -24,9 +24,24 @@
#include "cutils/properties.h"
#include "crypto_scrypt.h"
-int main() {
- set_partition_data("/dev/block/platform/sdhci-tegra.3/by-name/UDA", "/dev/block/platform/sdhci-tegra.3/by-name/MD1", "f2fs");
+void usage() {
+ printf(" Usage:\n");
+ printf(" twrpdec /path/to/userdata /path/to/metadata filesystem password\n");
+ printf("\n");
+ printf(" The metadata path is the path to the footer. If no metadata\n");
+ printf(" partition is present then use footer for this argument.\n");
+ printf("\n");
+ printf(" Example:\n");
+ printf(" twrpdec /dev/block/bootdevice/by-name/userdata footer ext4 0000\n");
+}
+
+int main(int argc, char **argv) {
+ if (argc != 5) {
+ usage();
+ return -1;
+ }
+ set_partition_data(argv[1], argv[2], argv[3]);
//int ret = cryptfs_check_passwd("30303030");
- int ret = cryptfs_check_passwd("0000");
+ int ret = cryptfs_check_passwd(argv[4]);
return 0;
}
diff --git a/crypto/lollipop/Android.mk b/crypto/lollipop/Android.mk
deleted file mode 100644
index 1be412138..000000000
--- a/crypto/lollipop/Android.mk
+++ /dev/null
@@ -1,62 +0,0 @@
-LOCAL_PATH := $(call my-dir)
-ifeq ($(TW_INCLUDE_CRYPTO), true)
-include $(CLEAR_VARS)
-
-LOCAL_MODULE := libcryptfslollipop
-LOCAL_MODULE_TAGS := eng optional
-LOCAL_CFLAGS :=
-LOCAL_SRC_FILES = cryptfs.c
-LOCAL_SHARED_LIBRARIES := libcrypto libhardware libcutils
-LOCAL_C_INCLUDES := external/openssl/include $(commands_recovery_local_path)/crypto/scrypt/lib/crypto
-
-ifeq ($(TARGET_HW_DISK_ENCRYPTION),true)
- ifeq ($(TARGET_CRYPTFS_HW_PATH),)
- LOCAL_C_INCLUDES += device/qcom/common/cryptfs_hw
- else
- LOCAL_C_INCLUDES += $(TARGET_CRYPTFS_HW_PATH)
- endif
- LOCAL_SHARED_LIBRARIES += libcryptfs_hw
- LOCAL_CFLAGS += -DCONFIG_HW_DISK_ENCRYPTION
-endif
-
-ifneq ($(wildcard hardware/libhardware/include/hardware/keymaster0.h),)
- LOCAL_CFLAGS += -DTW_CRYPTO_HAVE_KEYMASTERX
- LOCAL_C_INCLUDES += external/boringssl/src/include
-endif
-
-LOCAL_CFLAGS += -Wno-unused-function
-
-LOCAL_WHOLE_STATIC_LIBRARIES += libscrypttwrp_static
-
-include $(BUILD_SHARED_LIBRARY)
-
-
-
-include $(CLEAR_VARS)
-LOCAL_MODULE := twrpdec
-LOCAL_MODULE_TAGS := optional
-LOCAL_MODULE_CLASS := RECOVERY_EXECUTABLES
-LOCAL_MODULE_PATH := $(TARGET_RECOVERY_ROOT_OUT)/sbin
-LOCAL_SRC_FILES := main.c cryptfs.c
-LOCAL_SHARED_LIBRARIES := libcrypto libhardware libcutils libc
-LOCAL_C_INCLUDES := external/openssl/include $(commands_recovery_local_path)/crypto/scrypt/lib/crypto
-
-ifeq ($(TARGET_HW_DISK_ENCRYPTION),true)
- ifeq ($(TARGET_CRYPTFS_HW_PATH),)
- LOCAL_C_INCLUDES += device/qcom/common/cryptfs_hw
- else
- LOCAL_C_INCLUDES += $(TARGET_CRYPTFS_HW_PATH)
- endif
- LOCAL_SHARED_LIBRARIES += libcryptfs_hw
- LOCAL_CFLAGS += -DCONFIG_HW_DISK_ENCRYPTION
-endif
-
-ifneq ($(wildcard hardware/libhardware/include/hardware/keymaster0.h),)
- LOCAL_CFLAGS += -DTW_CRYPTO_HAVE_KEYMASTERX
- LOCAL_C_INCLUDES += external/boringssl/src/include
-endif
-
-LOCAL_WHOLE_STATIC_LIBRARIES += libscrypttwrp_static
-include $(BUILD_EXECUTABLE)
-
-endif
diff --git a/crypto/lollipop/cryptfs.c b/crypto/lollipop/cryptfs.c
deleted file mode 100644
index d3bf62955..000000000
--- a/crypto/lollipop/cryptfs.c
+++ /dev/null
@@ -1,1579 +0,0 @@
-/*
- * 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.
- */
-
-/* TO DO:
- * 1. Perhaps keep several copies of the encrypted key, in case something
- * goes horribly wrong?
- *
- */
-
-#include <sys/types.h>
-#include <linux/types.h>
-#include <sys/wait.h>
-#include <sys/stat.h>
-#include <ctype.h>
-#include <fcntl.h>
-#include <inttypes.h>
-#include <unistd.h>
-#include <stdio.h>
-#include <sys/ioctl.h>
-#include <linux/dm-ioctl.h>
-#include <libgen.h>
-#include <stdlib.h>
-#include <sys/param.h>
-#include <string.h>
-#include <sys/mount.h>
-#include <openssl/evp.h>
-#include <errno.h>
-#include <linux/kdev_t.h>
-#include <time.h>
-#include "cryptfs.h"
-#include "cutils/properties.h"
-#include "crypto_scrypt.h"
-
-#ifndef TW_CRYPTO_HAVE_KEYMASTERX
-#include <hardware/keymaster.h>
-#else
-#include <stdbool.h>
-#include <openssl/evp.h>
-#include <openssl/sha.h>
-#include <hardware/keymaster0.h>
-#include <hardware/keymaster1.h>
-#endif
-
-#ifndef min /* already defined by windows.h */
-#define min(a, b) ((a) < (b) ? (a) : (b))
-#endif
-
-#define UNUSED __attribute__((unused))
-
-#define UNUSED __attribute__((unused))
-
-#ifdef CONFIG_HW_DISK_ENCRYPTION
-#include "cryptfs_hw.h"
-#endif
-
-#define DM_CRYPT_BUF_SIZE 4096
-
-#define HASH_COUNT 2000
-#define KEY_LEN_BYTES 16
-#define IV_LEN_BYTES 16
-
-#define KEY_IN_FOOTER "footer"
-
-#define EXT4_FS 1
-#define F2FS_FS 2
-
-#define TABLE_LOAD_RETRIES 10
-
-#define RSA_KEY_SIZE 2048
-#define RSA_KEY_SIZE_BYTES (RSA_KEY_SIZE / 8)
-#define RSA_EXPONENT 0x10001
-#define KEYMASTER_CRYPTFS_RATE_LIMIT 1 // Maximum one try per second
-
-#define RETRY_MOUNT_ATTEMPTS 10
-#define RETRY_MOUNT_DELAY_SECONDS 1
-
-char *me = "cryptfs";
-
-static int master_key_saved = 0;
-static char key_fname[PROPERTY_VALUE_MAX] = "";
-static char real_blkdev[PROPERTY_VALUE_MAX] = "";
-static char file_system[PROPERTY_VALUE_MAX] = "";
-
-#ifdef CONFIG_HW_DISK_ENCRYPTION
-static int scrypt_keymaster(const char *passwd, const unsigned char *salt,
- unsigned char *ikey, void *params);
-static void convert_key_to_hex_ascii(const unsigned char *master_key,
- unsigned int keysize, char *master_key_ascii);
-static int get_keymaster_hw_fde_passwd(const char* passwd, unsigned char* newpw,
- unsigned char* salt,
- const struct crypt_mnt_ftr *ftr)
-{
- /* if newpw updated, return 0
- * if newpw not updated return -1
- */
- int rc = -1;
-
- if (should_use_keymaster()) {
- if (scrypt_keymaster(passwd, salt, newpw, (void*)ftr)) {
- printf("scrypt failed");
- } else {
- rc = 0;
- }
- }
-
- return rc;
-}
-
-static int verify_hw_fde_passwd(char *passwd, struct crypt_mnt_ftr* crypt_ftr)
-{
- unsigned char newpw[32] = {0};
- int key_index;
- if (get_keymaster_hw_fde_passwd(passwd, newpw, crypt_ftr->salt, crypt_ftr))
- key_index = set_hw_device_encryption_key(passwd,
- (char*) crypt_ftr->crypto_type_name);
- else
- key_index = set_hw_device_encryption_key((const char*)newpw,
- (char*) crypt_ftr->crypto_type_name);
- return key_index;
-}
-#endif
-
-void set_partition_data(const char* block_device, const char* key_location, const char* fs)
-{
- strcpy(key_fname, key_location);
- strcpy(real_blkdev, block_device);
- strcpy(file_system, fs);
-}
-
-#ifndef TW_CRYPTO_HAVE_KEYMASTERX
-static int keymaster_init(keymaster_device_t **keymaster_dev)
-{
- int rc;
-
- const hw_module_t* mod;
- rc = hw_get_module_by_class(KEYSTORE_HARDWARE_MODULE_ID, NULL, &mod);
- if (rc) {
- printf("could not find any keystore module\n");
- goto out;
- }
-
- rc = keymaster_open(mod, keymaster_dev);
- if (rc) {
- printf("could not open keymaster device in %s (%s)\n",
- KEYSTORE_HARDWARE_MODULE_ID, strerror(-rc));
- goto out;
- }
-
- return 0;
-
-out:
- *keymaster_dev = NULL;
- return rc;
-}
-
-/* Should we use keymaster? */
-static int keymaster_check_compatibility()
-{
- keymaster_device_t *keymaster_dev = 0;
- int rc = 0;
-
- if (keymaster_init(&keymaster_dev)) {
- printf("Failed to init keymaster\n");
- rc = -1;
- goto out;
- }
-
- printf("keymaster version is %d\n", keymaster_dev->common.module->module_api_version);
-
-#if (KEYMASTER_HEADER_VERSION >= 3)
- if (keymaster_dev->common.module->module_api_version
- < KEYMASTER_MODULE_API_VERSION_0_3) {
- rc = 0;
- goto out;
- }
-
- if (keymaster_dev->flags & KEYMASTER_BLOBS_ARE_STANDALONE) {
- rc = 1;
- }
-
-#endif
-out:
- keymaster_close(keymaster_dev);
- return rc;
-}
-
-/* Create a new keymaster key and store it in this footer */
-static int keymaster_create_key(struct crypt_mnt_ftr *ftr)
-{
- uint8_t* key = 0;
- keymaster_device_t *keymaster_dev = 0;
-
- if (keymaster_init(&keymaster_dev)) {
- printf("Failed to init keymaster\n");
- return -1;
- }
-
- int rc = 0;
-
- keymaster_rsa_keygen_params_t params;
- memset(&params, '\0', sizeof(params));
- params.public_exponent = RSA_EXPONENT;
- params.modulus_size = RSA_KEY_SIZE;
-
- size_t key_size;
- if (keymaster_dev->generate_keypair(keymaster_dev, TYPE_RSA, &params,
- &key, &key_size)) {
- printf("Failed to generate keypair\n");
- rc = -1;
- goto out;
- }
-
- if (key_size > KEYMASTER_BLOB_SIZE) {
- printf("Keymaster key too large for crypto footer\n");
- rc = -1;
- goto out;
- }
-
- memcpy(ftr->keymaster_blob, key, key_size);
- ftr->keymaster_blob_size = key_size;
-
-out:
- keymaster_close(keymaster_dev);
- free(key);
- return rc;
-}
-
-/* This signs the given object using the keymaster key. */
-static int keymaster_sign_object(struct crypt_mnt_ftr *ftr,
- const unsigned char *object,
- const size_t object_size,
- unsigned char **signature,
- size_t *signature_size)
-{
- int rc = 0;
- keymaster_device_t *keymaster_dev = 0;
- if (keymaster_init(&keymaster_dev)) {
- printf("Failed to init keymaster\n");
- return -1;
- }
-
- /* We currently set the digest type to DIGEST_NONE because it's the
- * only supported value for keymaster. A similar issue exists with
- * PADDING_NONE. Long term both of these should likely change.
- */
- keymaster_rsa_sign_params_t params;
- params.digest_type = DIGEST_NONE;
- params.padding_type = PADDING_NONE;
-
- unsigned char to_sign[RSA_KEY_SIZE_BYTES];
- size_t to_sign_size = sizeof(to_sign);
- memset(to_sign, 0, RSA_KEY_SIZE_BYTES);
-
- // To sign a message with RSA, the message must satisfy two
- // constraints:
- //
- // 1. The message, when interpreted as a big-endian numeric value, must
- // be strictly less than the public modulus of the RSA key. Note
- // that because the most significant bit of the public modulus is
- // guaranteed to be 1 (else it's an (n-1)-bit key, not an n-bit
- // key), an n-bit message with most significant bit 0 always
- // satisfies this requirement.
- //
- // 2. The message must have the same length in bits as the public
- // modulus of the RSA key. This requirement isn't mathematically
- // necessary, but is necessary to ensure consistency in
- // implementations.
- switch (ftr->kdf_type) {
- case KDF_SCRYPT_KEYMASTER_UNPADDED:
- // This is broken: It produces a message which is shorter than
- // the public modulus, failing criterion 2.
- memcpy(to_sign, object, object_size);
- to_sign_size = object_size;
- printf("Signing unpadded object\n");
- break;
- case KDF_SCRYPT_KEYMASTER_BADLY_PADDED:
- // This is broken: Since the value of object is uniformly
- // distributed, it produces a message that is larger than the
- // public modulus with probability 0.25.
- memcpy(to_sign, object, min(RSA_KEY_SIZE_BYTES, object_size));
- printf("Signing end-padded object\n");
- break;
- case KDF_SCRYPT_KEYMASTER:
- // This ensures the most significant byte of the signed message
- // is zero. We could have zero-padded to the left instead, but
- // this approach is slightly more robust against changes in
- // object size. However, it's still broken (but not unusably
- // so) because we really should be using a proper RSA padding
- // function, such as OAEP.
- //
- // TODO(paullawrence): When keymaster 0.4 is available, change
- // this to use the padding options it provides.
- memcpy(to_sign + 1, object, min(RSA_KEY_SIZE_BYTES - 1, object_size));
- printf("Signing safely-padded object\n");
- break;
- default:
- printf("Unknown KDF type %d\n", ftr->kdf_type);
- return -1;
- }
-
- rc = keymaster_dev->sign_data(keymaster_dev,
- &params,
- ftr->keymaster_blob,
- ftr->keymaster_blob_size,
- to_sign,
- to_sign_size,
- signature,
- signature_size);
-
- keymaster_close(keymaster_dev);
- return rc;
-}
-#else //#ifndef TW_CRYPTO_HAVE_KEYMASTERX
-static int keymaster_init(keymaster0_device_t **keymaster0_dev,
- keymaster1_device_t **keymaster1_dev)
-{
- int rc;
-
- const hw_module_t* mod;
- rc = hw_get_module_by_class(KEYSTORE_HARDWARE_MODULE_ID, NULL, &mod);
- if (rc) {
- printf("could not find any keystore module\n");
- goto err;
- }
-
- printf("keymaster module name is %s\n", mod->name);
- printf("keymaster version is %d\n", mod->module_api_version);
-
- *keymaster0_dev = NULL;
- *keymaster1_dev = NULL;
- if (mod->module_api_version == KEYMASTER_MODULE_API_VERSION_1_0) {
- printf("Found keymaster1 module, using keymaster1 API.\n");
- rc = keymaster1_open(mod, keymaster1_dev);
- } else {
- printf("Found keymaster0 module, using keymaster0 API.\n");
- rc = keymaster0_open(mod, keymaster0_dev);
- }
-
- if (rc) {
- printf("could not open keymaster device in %s (%s)\n",
- KEYSTORE_HARDWARE_MODULE_ID, strerror(-rc));
- goto err;
- }
-
- return 0;
-
-err:
- *keymaster0_dev = NULL;
- *keymaster1_dev = NULL;
- return rc;
-}
-
-/* Should we use keymaster? */
-static int keymaster_check_compatibility()
-{
- keymaster0_device_t *keymaster0_dev = 0;
- keymaster1_device_t *keymaster1_dev = 0;
- int rc = 0;
-
- if (keymaster_init(&keymaster0_dev, &keymaster1_dev)) {
- printf("Failed to init keymaster\n");
- rc = -1;
- goto out;
- }
-
- if (keymaster1_dev) {
- rc = 1;
- goto out;
- }
-
- // TODO(swillden): Check to see if there's any reason to require v0.3. I think v0.1 and v0.2
- // should work.
- if (keymaster0_dev->common.module->module_api_version
- < KEYMASTER_MODULE_API_VERSION_0_3) {
- rc = 0;
- goto out;
- }
-
- if (!(keymaster0_dev->flags & KEYMASTER_SOFTWARE_ONLY) &&
- (keymaster0_dev->flags & KEYMASTER_BLOBS_ARE_STANDALONE)) {
- rc = 1;
- }
-
-out:
- if (keymaster1_dev) {
- keymaster1_close(keymaster1_dev);
- }
- if (keymaster0_dev) {
- keymaster0_close(keymaster0_dev);
- }
- return rc;
-}
-
-/* Create a new keymaster key and store it in this footer */
-static int keymaster_create_key(struct crypt_mnt_ftr *ftr)
-{
- uint8_t* key = 0;
- keymaster0_device_t *keymaster0_dev = 0;
- keymaster1_device_t *keymaster1_dev = 0;
-
- if (keymaster_init(&keymaster0_dev, &keymaster1_dev)) {
- printf("Failed to init keymaster\n");
- return -1;
- }
-
- int rc = 0;
- size_t key_size = 0;
- if (keymaster1_dev) {
- keymaster_key_param_t params[] = {
- /* Algorithm & size specifications. Stick with RSA for now. Switch to AES later. */
- keymaster_param_enum(KM_TAG_ALGORITHM, KM_ALGORITHM_RSA),
- keymaster_param_int(KM_TAG_KEY_SIZE, RSA_KEY_SIZE),
- keymaster_param_long(KM_TAG_RSA_PUBLIC_EXPONENT, RSA_EXPONENT),
-
- /* The only allowed purpose for this key is signing. */
- keymaster_param_enum(KM_TAG_PURPOSE, KM_PURPOSE_SIGN),
-
- /* Padding & digest specifications. */
- keymaster_param_enum(KM_TAG_PADDING, KM_PAD_NONE),
- keymaster_param_enum(KM_TAG_DIGEST, KM_DIGEST_NONE),
-
- /* Require that the key be usable in standalone mode. File system isn't available. */
- keymaster_param_enum(KM_TAG_BLOB_USAGE_REQUIREMENTS, KM_BLOB_STANDALONE),
-
- /* No auth requirements, because cryptfs is not yet integrated with gatekeeper. */
- keymaster_param_bool(KM_TAG_NO_AUTH_REQUIRED),
-
- /* Rate-limit key usage attempts, to rate-limit brute force */
- keymaster_param_int(KM_TAG_MIN_SECONDS_BETWEEN_OPS, KEYMASTER_CRYPTFS_RATE_LIMIT),
- };
- keymaster_key_param_set_t param_set = { params, sizeof(params)/sizeof(*params) };
- keymaster_key_blob_t key_blob;
- keymaster_error_t error = keymaster1_dev->generate_key(keymaster1_dev, &param_set,
- &key_blob,
- NULL /* characteristics */);
- if (error != KM_ERROR_OK) {
- printf("Failed to generate keymaster1 key, error %d\n", error);
- rc = -1;
- goto out;
- }
-
- key = (uint8_t*)key_blob.key_material;
- key_size = key_blob.key_material_size;
- }
- else if (keymaster0_dev) {
- keymaster_rsa_keygen_params_t params;
- memset(&params, '\0', sizeof(params));
- params.public_exponent = RSA_EXPONENT;
- params.modulus_size = RSA_KEY_SIZE;
-
- if (keymaster0_dev->generate_keypair(keymaster0_dev, TYPE_RSA, &params,
- &key, &key_size)) {
- printf("Failed to generate keypair\n");
- rc = -1;
- goto out;
- }
- } else {
- printf("Cryptfs bug: keymaster_init succeeded but didn't initialize a device\n");
- rc = -1;
- goto out;
- }
-
- if (key_size > KEYMASTER_BLOB_SIZE) {
- printf("Keymaster key too large for crypto footer\n");
- rc = -1;
- goto out;
- }
-
- memcpy(ftr->keymaster_blob, key, key_size);
- ftr->keymaster_blob_size = key_size;
-
-out:
- if (keymaster0_dev)
- keymaster0_close(keymaster0_dev);
- if (keymaster1_dev)
- keymaster1_close(keymaster1_dev);
- free(key);
- return rc;
-}
-
-/* This signs the given object using the keymaster key. */
-static int keymaster_sign_object(struct crypt_mnt_ftr *ftr,
- const unsigned char *object,
- const size_t object_size,
- unsigned char **signature,
- size_t *signature_size)
-{
- int rc = 0;
- keymaster0_device_t *keymaster0_dev = 0;
- keymaster1_device_t *keymaster1_dev = 0;
- if (keymaster_init(&keymaster0_dev, &keymaster1_dev)) {
- printf("Failed to init keymaster\n");
- rc = -1;
- goto out;
- }
-
- unsigned char to_sign[RSA_KEY_SIZE_BYTES];
- size_t to_sign_size = sizeof(to_sign);
- memset(to_sign, 0, RSA_KEY_SIZE_BYTES);
-
- // To sign a message with RSA, the message must satisfy two
- // constraints:
- //
- // 1. The message, when interpreted as a big-endian numeric value, must
- // be strictly less than the public modulus of the RSA key. Note
- // that because the most significant bit of the public modulus is
- // guaranteed to be 1 (else it's an (n-1)-bit key, not an n-bit
- // key), an n-bit message with most significant bit 0 always
- // satisfies this requirement.
- //
- // 2. The message must have the same length in bits as the public
- // modulus of the RSA key. This requirement isn't mathematically
- // necessary, but is necessary to ensure consistency in
- // implementations.
- switch (ftr->kdf_type) {
- case KDF_SCRYPT_KEYMASTER:
- // This ensures the most significant byte of the signed message
- // is zero. We could have zero-padded to the left instead, but
- // this approach is slightly more robust against changes in
- // object size. However, it's still broken (but not unusably
- // so) because we really should be using a proper deterministic
- // RSA padding function, such as PKCS1.
- memcpy(to_sign + 1, object, min(RSA_KEY_SIZE_BYTES - 1, object_size));
- printf("Signing safely-padded object\n");
- break;
- default:
- printf("Unknown KDF type %d\n", ftr->kdf_type);
- rc = -1;
- goto out;
- }
-
- if (keymaster0_dev) {
- keymaster_rsa_sign_params_t params;
- params.digest_type = DIGEST_NONE;
- params.padding_type = PADDING_NONE;
-
- rc = keymaster0_dev->sign_data(keymaster0_dev,
- &params,
- ftr->keymaster_blob,
- ftr->keymaster_blob_size,
- to_sign,
- to_sign_size,
- signature,
- signature_size);
- goto out;
- } else if (keymaster1_dev) {
- keymaster_key_blob_t key = { ftr->keymaster_blob, ftr->keymaster_blob_size };
- keymaster_key_param_t params[] = {
- keymaster_param_enum(KM_TAG_PADDING, KM_PAD_NONE),
- keymaster_param_enum(KM_TAG_DIGEST, KM_DIGEST_NONE),
- };
- keymaster_key_param_set_t param_set = { params, sizeof(params)/sizeof(*params) };
- keymaster_operation_handle_t op_handle;
- keymaster_error_t error = keymaster1_dev->begin(keymaster1_dev, KM_PURPOSE_SIGN, &key,
- &param_set, NULL /* out_params */,
- &op_handle);
- if (error == KM_ERROR_KEY_RATE_LIMIT_EXCEEDED) {
- // Key usage has been rate-limited. Wait a bit and try again.
- sleep(KEYMASTER_CRYPTFS_RATE_LIMIT);
- error = keymaster1_dev->begin(keymaster1_dev, KM_PURPOSE_SIGN, &key,
- &param_set, NULL /* out_params */,
- &op_handle);
- }
- if (error != KM_ERROR_OK) {
- printf("Error starting keymaster signature transaction: %d\n", error);
- rc = -1;
- goto out;
- }
-
- keymaster_blob_t input = { to_sign, to_sign_size };
- size_t input_consumed;
- error = keymaster1_dev->update(keymaster1_dev, op_handle, NULL /* in_params */,
- &input, &input_consumed, NULL /* out_params */,
- NULL /* output */);
- if (error != KM_ERROR_OK) {
- printf("Error sending data to keymaster signature transaction: %d\n", error);
- rc = -1;
- goto out;
- }
- if (input_consumed != to_sign_size) {
- // This should never happen. If it does, it's a bug in the keymaster implementation.
- printf("Keymaster update() did not consume all data.\n");
- keymaster1_dev->abort(keymaster1_dev, op_handle);
- rc = -1;
- goto out;
- }
-
- keymaster_blob_t tmp_sig;
- error = keymaster1_dev->finish(keymaster1_dev, op_handle, NULL /* in_params */,
- NULL /* verify signature */, NULL /* out_params */,
- &tmp_sig);
- if (error != KM_ERROR_OK) {
- printf("Error finishing keymaster signature transaction: %d\n", error);
- rc = -1;
- goto out;
- }
-
- *signature = (uint8_t*)tmp_sig.data;
- *signature_size = tmp_sig.data_length;
- } else {
- printf("Cryptfs bug: keymaster_init succeded but didn't initialize a device.\n");
- rc = -1;
- goto out;
- }
-
- out:
- if (keymaster1_dev)
- keymaster1_close(keymaster1_dev);
- if (keymaster0_dev)
- keymaster0_close(keymaster0_dev);
-
- return rc;
-}
-#endif //#ifndef TW_CRYPTO_HAVE_KEYMASTERX
-
-static void ioctl_init(struct dm_ioctl *io, size_t dataSize, const char *name, unsigned flags)
-{
- memset(io, 0, dataSize);
- io->data_size = dataSize;
- io->data_start = sizeof(struct dm_ioctl);
- io->version[0] = 4;
- io->version[1] = 0;
- io->version[2] = 0;
- io->flags = flags;
- if (name) {
- strncpy(io->name, name, sizeof(io->name));
- }
-}
-
-/**
- * Gets the default device scrypt parameters for key derivation time tuning.
- * The parameters should lead to about one second derivation time for the
- * given device.
- */
-static void get_device_scrypt_params(struct crypt_mnt_ftr *ftr) {
- const int default_params[] = SCRYPT_DEFAULTS;
- int params[] = SCRYPT_DEFAULTS;
- char paramstr[PROPERTY_VALUE_MAX];
- char *token;
- char *saveptr;
- int i;
-
- property_get(SCRYPT_PROP, paramstr, "");
- if (paramstr[0] != '\0') {
- /*
- * The token we're looking for should be three integers separated by
- * colons (e.g., "12:8:1"). Scan the property to make sure it matches.
- */
- for (i = 0, token = strtok_r(paramstr, ":", &saveptr);
- token != NULL && i < 3;
- i++, token = strtok_r(NULL, ":", &saveptr)) {
- char *endptr;
- params[i] = strtol(token, &endptr, 10);
-
- /*
- * Check that there was a valid number and it's 8-bit. If not,
- * break out and the end check will take the default values.
- */
- if ((*token == '\0') || (*endptr != '\0') || params[i] < 0 || params[i] > 255) {
- break;
- }
- }
-
- /*
- * If there were not enough tokens or a token was malformed (not an
- * integer), it will end up here and the default parameters can be
- * taken.
- */
- if ((i != 3) || (token != NULL)) {
- printf("bad scrypt parameters '%s' should be like '12:8:1'; using defaults\n", paramstr);
- memcpy(params, default_params, sizeof(params));
- }
- }
-
- ftr->N_factor = params[0];
- ftr->r_factor = params[1];
- ftr->p_factor = params[2];
-}
-
-static unsigned int get_blkdev_size(int fd)
-{
- unsigned long nr_sec;
-
- if ( (ioctl(fd, BLKGETSIZE, &nr_sec)) == -1) {
- nr_sec = 0;
- }
-
- return (unsigned int) nr_sec;
-}
-
-static int get_crypt_ftr_info(char **metadata_fname, off64_t *off)
-{
- static int cached_data = 0;
- static off64_t cached_off = 0;
- static char cached_metadata_fname[PROPERTY_VALUE_MAX] = "";
- int fd;
- unsigned int nr_sec;
- int rc = -1;
-
- if (!cached_data) {
- printf("get_crypt_ftr_info crypto key location: '%s'\n", key_fname);
- if (!strcmp(key_fname, KEY_IN_FOOTER)) {
- if ( (fd = open(real_blkdev, O_RDWR)) < 0) {
- printf("Cannot open real block device %s\n", real_blkdev);
- return -1;
- }
-
- if ((nr_sec = get_blkdev_size(fd))) {
- /* If it's an encrypted Android partition, the last 16 Kbytes contain the
- * encryption info footer and key, and plenty of bytes to spare for future
- * growth.
- */
- strlcpy(cached_metadata_fname, real_blkdev, sizeof(cached_metadata_fname));
- cached_off = ((off64_t)nr_sec * 512) - CRYPT_FOOTER_OFFSET;
- cached_data = 1;
- } else {
- printf("Cannot get size of block device %s\n", real_blkdev);
- }
- close(fd);
- } else {
- strlcpy(cached_metadata_fname, key_fname, sizeof(cached_metadata_fname));
- cached_off = 0;
- cached_data = 1;
- }
- }
-
- if (cached_data) {
- if (metadata_fname) {
- *metadata_fname = cached_metadata_fname;
- }
- if (off) {
- *off = cached_off;
- }
- rc = 0;
- }
-
- return rc;
-}
-
-static int get_crypt_ftr_and_key(struct crypt_mnt_ftr *crypt_ftr)
-{
- int fd;
- unsigned int cnt;
- off64_t starting_off;
- int rc = -1;
- char *fname = NULL;
- struct stat statbuf;
-
- if (get_crypt_ftr_info(&fname, &starting_off)) {
- printf("Unable to get crypt_ftr_info\n");
- return -1;
- }
- if (fname[0] != '/') {
- printf("Unexpected value for crypto key location\n");
- return -1;
- }
- if ( (fd = open(fname, O_RDWR)) < 0) {
- printf("Cannot open footer file %s for get\n", fname);
- return -1;
- }
-
- /* Make sure it's 16 Kbytes in length */
- fstat(fd, &statbuf);
- if (S_ISREG(statbuf.st_mode) && (statbuf.st_size != 0x4000)) {
- printf("footer file %s is not the expected size!\n", fname);
- goto errout;
- }
-
- /* Seek to the start of the crypt footer */
- if (lseek64(fd, starting_off, SEEK_SET) == -1) {
- printf("Cannot seek to real block device footer\n");
- goto errout;
- }
-
- if ( (cnt = read(fd, crypt_ftr, sizeof(struct crypt_mnt_ftr))) != sizeof(struct crypt_mnt_ftr)) {
- printf("Cannot read real block device footer\n");
- goto errout;
- }
-
- if (crypt_ftr->magic != CRYPT_MNT_MAGIC) {
- printf("Bad magic for real block device %s\n", fname);
- goto errout;
- }
-
- if (crypt_ftr->major_version != CURRENT_MAJOR_VERSION) {
- printf("Cannot understand major version %d real block device footer; expected %d\n",
- crypt_ftr->major_version, CURRENT_MAJOR_VERSION);
- goto errout;
- }
-
- if (crypt_ftr->minor_version > CURRENT_MINOR_VERSION) {
- printf("Warning: crypto footer minor version %d, expected <= %d, continuing...\n",
- crypt_ftr->minor_version, CURRENT_MINOR_VERSION);
- }
-
- /* If this is a verion 1.0 crypt_ftr, make it a 1.1 crypt footer, and update the
- * copy on disk before returning.
- */
- /*if (crypt_ftr->minor_version < CURRENT_MINOR_VERSION) {
- upgrade_crypt_ftr(fd, crypt_ftr, starting_off);
- }*/
-
- /* Success! */
- rc = 0;
-
-errout:
- close(fd);
- return rc;
-}
-
-static int hexdigit (char c)
-{
- if (c >= '0' && c <= '9') return c - '0';
- c = tolower(c);
- if (c >= 'a' && c <= 'f') return c - 'a' + 10;
- return -1;
-}
-
-static unsigned char* convert_hex_ascii_to_key(const char* master_key_ascii,
- unsigned int* out_keysize)
-{
- unsigned int i;
- *out_keysize = 0;
-
- size_t size = strlen (master_key_ascii);
- if (size % 2) {
- printf("Trying to convert ascii string of odd length\n");
- return NULL;
- }
-
- unsigned char* master_key = (unsigned char*) malloc(size / 2);
- if (master_key == 0) {
- printf("Cannot allocate\n");
- return NULL;
- }
-
- for (i = 0; i < size; i += 2) {
- int high_nibble = hexdigit (master_key_ascii[i]);
- int low_nibble = hexdigit (master_key_ascii[i + 1]);
-
- if(high_nibble < 0 || low_nibble < 0) {
- printf("Invalid hex string\n");
- free (master_key);
- return NULL;
- }
-
- master_key[*out_keysize] = high_nibble * 16 + low_nibble;
- (*out_keysize)++;
- }
-
- return master_key;
-}
-
-/* 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 unsigned char *master_key,
- unsigned int keysize, char *master_key_ascii) {
- unsigned int i, a;
- unsigned char nibble;
-
- for (i=0, a=0; i<keysize; i++, a+=2) {
- /* For each byte, write out two ascii hex digits */
- nibble = (master_key[i] >> 4) & 0xf;
- master_key_ascii[a] = nibble + (nibble > 9 ? 0x37 : 0x30);
-
- nibble = master_key[i] & 0xf;
- master_key_ascii[a+1] = nibble + (nibble > 9 ? 0x37 : 0x30);
- }
-
- /* Add the null termination */
- master_key_ascii[a] = '\0';
-
-}
-
-static int load_crypto_mapping_table(struct crypt_mnt_ftr *crypt_ftr, const unsigned char *master_key,
- const char *real_blk_name, const char *name, int fd,
- char *extra_params)
-{
- char buffer[DM_CRYPT_BUF_SIZE];
- struct dm_ioctl *io;
- struct dm_target_spec *tgt;
- char *crypt_params;
- char master_key_ascii[129]; /* Large enough to hold 512 bit key and null */
- int i;
-
- io = (struct dm_ioctl *) buffer;
-
- /* Load the mapping table for this device */
- tgt = (struct dm_target_spec *) &buffer[sizeof(struct dm_ioctl)];
-
- ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
- io->target_count = 1;
- tgt->status = 0;
- tgt->sector_start = 0;
- tgt->length = crypt_ftr->fs_size;
- crypt_params = buffer + sizeof(struct dm_ioctl) + sizeof(struct dm_target_spec);
-
-#ifdef CONFIG_HW_DISK_ENCRYPTION
- if(is_hw_disk_encryption((char*)crypt_ftr->crypto_type_name)) {
- strlcpy(tgt->target_type, "req-crypt",DM_MAX_TYPE_NAME);
- if (is_ice_enabled())
- convert_key_to_hex_ascii(master_key, sizeof(int), master_key_ascii);
- else
- convert_key_to_hex_ascii(master_key, crypt_ftr->keysize, master_key_ascii);
- }
- else {
- convert_key_to_hex_ascii(master_key, crypt_ftr->keysize, master_key_ascii);
- strlcpy(tgt->target_type, "crypt", DM_MAX_TYPE_NAME);
- }
-#else
- convert_key_to_hex_ascii(master_key, crypt_ftr->keysize, master_key_ascii);
- strlcpy(tgt->target_type, "crypt", DM_MAX_TYPE_NAME);
-#endif
-
- sprintf(crypt_params, "%s %s 0 %s 0 %s", crypt_ftr->crypto_type_name,
- master_key_ascii, real_blk_name, extra_params);
-
- printf("%s: target_type = %s\n", __func__, tgt->target_type);
- printf("%s: real_blk_name = %s, extra_params = %s\n", __func__, real_blk_name, extra_params);
-
- crypt_params += strlen(crypt_params) + 1;
- crypt_params = (char *) (((unsigned long)crypt_params + 7) & ~8); /* Align to an 8 byte boundary */
- tgt->next = crypt_params - buffer;
-
- for (i = 0; i < TABLE_LOAD_RETRIES; i++) {
- if (! ioctl(fd, DM_TABLE_LOAD, io)) {
- break;
- }
- printf("%i\n", errno);
- usleep(500000);
- }
-
- if (i == TABLE_LOAD_RETRIES) {
- /* We failed to load the table, return an error */
- return -1;
- } else {
- return i + 1;
- }
-}
-
-
-static int get_dm_crypt_version(int fd, const char *name, int *version)
-{
- char buffer[DM_CRYPT_BUF_SIZE];
- struct dm_ioctl *io;
- struct dm_target_versions *v;
-
- io = (struct dm_ioctl *) buffer;
-
- ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
-
- if (ioctl(fd, DM_LIST_VERSIONS, io)) {
- return -1;
- }
-
- /* Iterate over the returned versions, looking for name of "crypt".
- * When found, get and return the version.
- */
- v = (struct dm_target_versions *) &buffer[sizeof(struct dm_ioctl)];
- while (v->next) {
-#ifdef CONFIG_HW_DISK_ENCRYPTION
- int flag;
- if (is_hw_fde_enabled()) {
- flag = (!strcmp(v->name, "crypt") || !strcmp(v->name, "req-crypt"));
- } else {
- flag = (!strcmp(v->name, "crypt"));
- }
- printf("get_dm_crypt_version flag: %i, name: '%s'\n", flag, v->name);
- if (flag) {
-#else
- if (! strcmp(v->name, "crypt")) {
-#endif
- /* We found the crypt driver, return the version, and get out */
- version[0] = v->version[0];
- version[1] = v->version[1];
- version[2] = v->version[2];
- return 0;
- }
- v = (struct dm_target_versions *)(((char *)v) + v->next);
- }
-
- return -1;
-}
-
-static int create_crypto_blk_dev(struct crypt_mnt_ftr *crypt_ftr, const unsigned char *master_key,
- const char *real_blk_name, char *crypto_blk_name, const char *name)
-{
- char buffer[DM_CRYPT_BUF_SIZE];
- struct dm_ioctl *io;
- unsigned int minor;
- int fd=0;
- int retval = -1;
- int version[3];
- char *extra_params;
- int load_count;
-#ifdef CONFIG_HW_DISK_ENCRYPTION
- char encrypted_state[PROPERTY_VALUE_MAX] = {0};
- char progress[PROPERTY_VALUE_MAX] = {0};
-#endif
-
- if ((fd = open("/dev/device-mapper", O_RDWR)) < 0 ) {
- printf("Cannot open device-mapper\n");
- goto errout;
- }
-
- io = (struct dm_ioctl *) buffer;
-
- ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
- if (ioctl(fd, DM_DEV_CREATE, io)) {
- printf("Cannot create dm-crypt device %i\n", errno);
- goto errout;
- }
-
- /* Get the device status, in particular, the name of it's device file */
- ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
- if (ioctl(fd, DM_DEV_STATUS, io)) {
- printf("Cannot retrieve dm-crypt device status\n");
- goto errout;
- }
- minor = (io->dev & 0xff) | ((io->dev >> 12) & 0xfff00);
- snprintf(crypto_blk_name, MAXPATHLEN, "/dev/block/dm-%u", minor);
-
-#ifdef CONFIG_HW_DISK_ENCRYPTION
- if(is_hw_disk_encryption((char*)crypt_ftr->crypto_type_name)) {
- /* Set fde_enabled if either FDE completed or in-progress */
- property_get("ro.crypto.state", encrypted_state, ""); /* FDE completed */
- property_get("vold.encrypt_progress", progress, ""); /* FDE in progress */
- if (!strcmp(encrypted_state, "encrypted") || strcmp(progress, "")) {
- if (is_ice_enabled())
- extra_params = "fde_enabled ice";
- else
- extra_params = "fde_enabled";
- } else
- extra_params = "fde_disabled";
- } else {
- extra_params = "";
- if (! get_dm_crypt_version(fd, name, version)) {
- /* Support for allow_discards was added in version 1.11.0 */
- if ((version[0] >= 2) ||
- ((version[0] == 1) && (version[1] >= 11))) {
- extra_params = "1 allow_discards";
- printf("Enabling support for allow_discards in dmcrypt.\n");
- }
- }
- }
-#else
- extra_params = "";
- if (! get_dm_crypt_version(fd, name, version)) {
- /* Support for allow_discards was added in version 1.11.0 */
- if ((version[0] >= 2) ||
- ((version[0] == 1) && (version[1] >= 11))) {
- extra_params = "1 allow_discards";
- printf("Enabling support for allow_discards in dmcrypt.\n");
- }
- }
-#endif
-
- load_count = load_crypto_mapping_table(crypt_ftr, master_key, real_blk_name, name,
- fd, extra_params);
- if (load_count < 0) {
- printf("Cannot load dm-crypt mapping table.\n");
-
- // Remove the dm-crypt device, otherwise it cannot be used later on by other
- // processes (eg vold_decrypt) or further testing/debugging in recovery
- ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
- if (ioctl(fd, DM_DEV_REMOVE, io)) {
- printf("Cannot remove dm-crypt device %i\n", errno);
- }
- goto errout;
- } else if (load_count > 1) {
- printf("Took %d tries to load dmcrypt table.\n", load_count);
- }
-
- /* Resume this device to activate it */
- ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
-
- if (ioctl(fd, DM_DEV_SUSPEND, io)) {
- printf("Cannot resume the dm-crypt device\n");
-
- // Remove the dm-crypt device, otherwise it cannot be used later on by other
- // processes (eg vold_decrypt) or further testing/debugging in recovery
- ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
- if (ioctl(fd, DM_DEV_REMOVE, io)) {
- printf("Cannot remove dm-crypt device %i\n", errno);
- }
- goto errout;
- }
-
- /* We made it here with no errors. Woot! */
- retval = 0;
-
-errout:
- close(fd); /* If fd is <0 from a failed open call, it's safe to just ignore the close error */
-
- return retval;
-}
-
-int delete_crypto_blk_dev(char *name)
-{
- int fd;
- char buffer[DM_CRYPT_BUF_SIZE];
- struct dm_ioctl *io;
- int retval = -1;
-
- if ((fd = open("/dev/device-mapper", O_RDWR)) < 0 ) {
- printf("Cannot open device-mapper\n");
- goto errout;
- }
-
- io = (struct dm_ioctl *) buffer;
-
- ioctl_init(io, DM_CRYPT_BUF_SIZE, name, 0);
- if (ioctl(fd, DM_DEV_REMOVE, io)) {
- printf("Cannot remove dm-crypt device\n");
- goto errout;
- }
-
- /* We made it here with no errors. Woot! */
- retval = 0;
-
-errout:
- close(fd); /* If fd is <0 from a failed open call, it's safe to just ignore the close error */
-
- return retval;
-
-}
-
-static int pbkdf2(const char *passwd, const unsigned char *salt,
- unsigned char *ikey, void *params UNUSED)
-{
- printf("Using pbkdf2 for cryptfs KDF\n");
-
- /* Turn the password into a key and IV that can decrypt the master key */
- unsigned int keysize;
- char* master_key = (char*)convert_hex_ascii_to_key(passwd, &keysize);
- if (!master_key) return -1;
- PKCS5_PBKDF2_HMAC_SHA1(master_key, keysize, salt, SALT_LEN,
- HASH_COUNT, KEY_LEN_BYTES+IV_LEN_BYTES, ikey);
-
- memset(master_key, 0, keysize);
- free (master_key);
- return 0;
-}
-
-static int scrypt(const char *passwd, const unsigned char *salt,
- unsigned char *ikey, void *params)
-{
- printf("Using scrypt for cryptfs KDF\n");
-
- struct crypt_mnt_ftr *ftr = (struct crypt_mnt_ftr *) params;
-
- int N = 1 << ftr->N_factor;
- int r = 1 << ftr->r_factor;
- int p = 1 << ftr->p_factor;
-
- /* Turn the password into a key and IV that can decrypt the master key */
- unsigned int keysize;
- unsigned char* master_key = convert_hex_ascii_to_key(passwd, &keysize);
- if (!master_key) return -1;
- crypto_scrypt(master_key, keysize, salt, SALT_LEN, N, r, p, ikey,
- KEY_LEN_BYTES + IV_LEN_BYTES);
-
- memset(master_key, 0, keysize);
- free (master_key);
- return 0;
-}
-
-static int scrypt_keymaster(const char *passwd, const unsigned char *salt,
- unsigned char *ikey, void *params)
-{
- printf("Using scrypt with keymaster for cryptfs KDF\n");
-
- int rc;
- unsigned int key_size;
- size_t signature_size;
- unsigned char* signature;
- struct crypt_mnt_ftr *ftr = (struct crypt_mnt_ftr *) params;
-
- int N = 1 << ftr->N_factor;
- int r = 1 << ftr->r_factor;
- int p = 1 << ftr->p_factor;
-
- unsigned char* master_key = convert_hex_ascii_to_key(passwd, &key_size);
- if (!master_key) {
- printf("Failed to convert passwd from hex, using passwd instead\n");
- master_key = (unsigned char*)strdup(passwd);
- }
-
- rc = crypto_scrypt(master_key, key_size, salt, SALT_LEN,
- N, r, p, ikey, KEY_LEN_BYTES + IV_LEN_BYTES);
- memset(master_key, 0, key_size);
- free(master_key);
-
- if (rc) {
- printf("scrypt failed\n");
- return -1;
- }
-
- if (keymaster_sign_object(ftr, ikey, KEY_LEN_BYTES + IV_LEN_BYTES,
- &signature, &signature_size)) {
- printf("Signing failed\n");
- return -1;
- }
-
- rc = crypto_scrypt(signature, signature_size, salt, SALT_LEN,
- N, r, p, ikey, KEY_LEN_BYTES + IV_LEN_BYTES);
- free(signature);
-
- if (rc) {
- printf("scrypt failed\n");
- return -1;
- }
-
- return 0;
-}
-
-static int decrypt_master_key_aux(char *passwd, unsigned char *salt,
- unsigned char *encrypted_master_key,
- unsigned char *decrypted_master_key,
- kdf_func kdf, void *kdf_params,
- unsigned char** intermediate_key,
- size_t* intermediate_key_size)
-{
- unsigned char ikey[32+32] = { 0 }; /* Big enough to hold a 256 bit key and 256 bit IV */
- EVP_CIPHER_CTX d_ctx;
- int decrypted_len, final_len;
-
- /* Turn the password into an intermediate key and IV that can decrypt the
- master key */
- if (kdf(passwd, salt, ikey, kdf_params)) {
- printf("kdf failed\n");
- return -1;
- }
-
- /* Initialize the decryption engine */
- if (! EVP_DecryptInit(&d_ctx, EVP_aes_128_cbc(), ikey, ikey+KEY_LEN_BYTES)) {
- return -1;
- }
- EVP_CIPHER_CTX_set_padding(&d_ctx, 0); /* Turn off padding as our data is block aligned */
- /* Decrypt the master key */
- if (! EVP_DecryptUpdate(&d_ctx, decrypted_master_key, &decrypted_len,
- encrypted_master_key, KEY_LEN_BYTES)) {
- return -1;
- }
-#ifndef TW_CRYPTO_HAVE_KEYMASTERX
- if (! EVP_DecryptFinal(&d_ctx, decrypted_master_key + decrypted_len, &final_len)) {
-#else
- if (! EVP_DecryptFinal_ex(&d_ctx, decrypted_master_key + decrypted_len, &final_len)) {
-#endif
- return -1;
- }
-
- if (decrypted_len + final_len != KEY_LEN_BYTES) {
- return -1;
- }
-
- /* Copy intermediate key if needed by params */
- if (intermediate_key && intermediate_key_size) {
- *intermediate_key = (unsigned char*) malloc(KEY_LEN_BYTES);
- if (intermediate_key) {
- memcpy(*intermediate_key, ikey, KEY_LEN_BYTES);
- *intermediate_key_size = KEY_LEN_BYTES;
- }
- }
-
- return 0;
-}
-
-static void get_kdf_func(struct crypt_mnt_ftr *ftr, kdf_func *kdf, void** kdf_params)
-{
- if (ftr->kdf_type == KDF_SCRYPT_KEYMASTER_UNPADDED ||
- ftr->kdf_type == KDF_SCRYPT_KEYMASTER_BADLY_PADDED ||
- ftr->kdf_type == KDF_SCRYPT_KEYMASTER) {
- *kdf = scrypt_keymaster;
- *kdf_params = ftr;
- } else if (ftr->kdf_type == KDF_SCRYPT) {
- *kdf = scrypt;
- *kdf_params = ftr;
- } else {
- *kdf = pbkdf2;
- *kdf_params = NULL;
- }
-}
-
-static int decrypt_master_key(char *passwd, unsigned char *decrypted_master_key,
- struct crypt_mnt_ftr *crypt_ftr,
- unsigned char** intermediate_key,
- size_t* intermediate_key_size)
-{
- kdf_func kdf;
- void *kdf_params;
- int ret;
-
- get_kdf_func(crypt_ftr, &kdf, &kdf_params);
- ret = decrypt_master_key_aux(passwd, crypt_ftr->salt, crypt_ftr->master_key,
- decrypted_master_key, kdf, kdf_params,
- intermediate_key, intermediate_key_size);
- if (ret != 0) {
- printf("failure decrypting master key\n");
- }
-
- return ret;
-}
-
-static int try_mount_multiple_fs(const char *crypto_blkdev,
- const char *mount_point,
- const char *file_system)
-{
- if (!mount(crypto_blkdev, mount_point, file_system, 0, NULL))
- return 0;
- if (strcmp(file_system, "ext4") &&
- !mount(crypto_blkdev, mount_point, "ext4", 0, NULL))
- return 0;
- if (strcmp(file_system, "f2fs") &&
- !mount(crypto_blkdev, mount_point, "f2fs", 0, NULL))
- return 0;
- return 1;
-}
-
-static int test_mount_encrypted_fs(struct crypt_mnt_ftr* crypt_ftr,
- char *passwd, char *mount_point, char *label)
-{
- /* Allocate enough space for a 256 bit key, but we may use less */
- unsigned char decrypted_master_key[32];
- char crypto_blkdev[MAXPATHLEN];
- char tmp_mount_point[64];
- int rc = 0;
- unsigned char* intermediate_key = 0;
- size_t intermediate_key_size = 0;
-
- printf("crypt_ftr->fs_size = %lld\n", crypt_ftr->fs_size);
-
- if (! (crypt_ftr->flags & CRYPT_MNT_KEY_UNENCRYPTED) ) {
- if (decrypt_master_key(passwd, decrypted_master_key, crypt_ftr,
- &intermediate_key, &intermediate_key_size)) {
- printf("Failed to decrypt master key\n");
- rc = -1;
- goto errout;
- }
- }
-
-#ifdef CONFIG_HW_DISK_ENCRYPTION
- int key_index = 0;
- if(is_hw_disk_encryption((char*)crypt_ftr->crypto_type_name)) {
- key_index = verify_hw_fde_passwd(passwd, crypt_ftr);
-
- if (key_index < 0) {
- rc = 1;
- goto errout;
- }
- else {
- if (is_ice_enabled()) {
- if (create_crypto_blk_dev(crypt_ftr, (unsigned char*)&key_index,
- real_blkdev, crypto_blkdev, label)) {
- printf("Error creating decrypted block device");
- rc = -1;
- goto errout;
- }
- } else {
- if (create_crypto_blk_dev(crypt_ftr, decrypted_master_key,
- real_blkdev, crypto_blkdev, label)) {
- printf("Error creating decrypted block device");
- rc = -1;
- goto errout;
- }
- }
- }
- } else {
- /* in case HW FDE is delivered through OTA and device is already encrypted
- * using SW FDE, we should let user continue using SW FDE until userdata is
- * wiped.
- */
- if (create_crypto_blk_dev(crypt_ftr, decrypted_master_key,
- real_blkdev, crypto_blkdev, label)) {
- printf("Error creating decrypted block device");
- rc = -1;
- goto errout;
- }
- }
-#else
- // Create crypto block device - all (non fatal) code paths
- // need it
- if (create_crypto_blk_dev(crypt_ftr, decrypted_master_key,
- real_blkdev, crypto_blkdev, label)) {
- printf("Error creating decrypted block device\n");
- rc = -1;
- goto errout;
- }
-#endif
-
- /* Work out if the problem is the password or the data */
- unsigned char scrypted_intermediate_key[sizeof(crypt_ftr->
- scrypted_intermediate_key)];
- int N = 1 << crypt_ftr->N_factor;
- int r = 1 << crypt_ftr->r_factor;
- int p = 1 << crypt_ftr->p_factor;
-
- rc = crypto_scrypt(intermediate_key, intermediate_key_size,
- crypt_ftr->salt, sizeof(crypt_ftr->salt),
- N, r, p, scrypted_intermediate_key,
- sizeof(scrypted_intermediate_key));
-
- // Does the key match the crypto footer?
- if (rc == 0 && memcmp(scrypted_intermediate_key,
- crypt_ftr->scrypted_intermediate_key,
- sizeof(scrypted_intermediate_key)) == 0) {
- printf("Password matches\n");
- rc = 0;
- } else {
- /* Try mounting the file system anyway, just in case the problem's with
- * the footer, not the key. */
- sprintf(tmp_mount_point, "%s/tmp_mnt", mount_point);
- mkdir(tmp_mount_point, 0755);
- if (try_mount_multiple_fs(crypto_blkdev, tmp_mount_point, file_system)) {
- printf("Error temp mounting decrypted block device '%s'\n", crypto_blkdev);
- delete_crypto_blk_dev(label);
- rc = 1;
- } else {
- /* Success! */
- printf("Password did not match but decrypted drive mounted - continue\n");
- umount(tmp_mount_point);
- rc = 0;
- }
- }
-
- if (rc == 0) {
- // Don't increment the failed attempt counter as it doesn't
- // make sense to do so in TWRP
-
- /* Save the name of the crypto block device
- * so we can mount it when restarting the framework. */
- property_set("ro.crypto.fs_crypto_blkdev", crypto_blkdev);
-
- // TWRP shouldn't change the stored key
- }
-
- errout:
- if (intermediate_key) {
- memset(intermediate_key, 0, intermediate_key_size);
- free(intermediate_key);
- }
- return rc;
-}
-
-int check_unmounted_and_get_ftr(struct crypt_mnt_ftr* crypt_ftr)
-{
- char encrypted_state[PROPERTY_VALUE_MAX];
- property_get("ro.crypto.state", encrypted_state, "");
- if ( master_key_saved || strcmp(encrypted_state, "encrypted") ) {
- printf("encrypted fs already validated or not running with encryption,"
- " aborting\n");
- //return -1;
- }
-
- if (get_crypt_ftr_and_key(crypt_ftr)) {
- printf("Error getting crypt footer and key\n");
- return -1;
- }
-
- return 0;
-}
-
-int cryptfs_check_footer()
-{
- int rc = -1;
- struct crypt_mnt_ftr crypt_ftr;
-
- rc = get_crypt_ftr_and_key(&crypt_ftr);
-
- return rc;
-}
-
-int cryptfs_check_passwd(char *passwd)
-{
- struct crypt_mnt_ftr crypt_ftr;
- int rc;
-
- if (!passwd) {
- printf("cryptfs_check_passwd: passwd is NULL!\n");
- return -1;
- }
-
- rc = check_unmounted_and_get_ftr(&crypt_ftr);
- if (rc)
- return rc;
-
- rc = test_mount_encrypted_fs(&crypt_ftr, passwd,
- DATA_MNT_POINT, "userdata");
-
- // try falling back to Lollipop hex passwords
- if (rc) {
- int hex_pass_len = strlen(passwd) * 2 + 1;
- char *hex_passwd = (char *)malloc(hex_pass_len);
- if (hex_passwd) {
- convert_key_to_hex_ascii((unsigned char *)passwd,
- strlen(passwd), hex_passwd);
- rc = test_mount_encrypted_fs(&crypt_ftr, hex_passwd,
- DATA_MNT_POINT, "userdata");
- memset(hex_passwd, 0, hex_pass_len);
- free(hex_passwd);
- }
- }
-
- return rc;
-}
-
-/* Returns type of the password, default, pattern, pin or password.
- */
-int cryptfs_get_password_type(void)
-{
- struct crypt_mnt_ftr crypt_ftr;
-
- if (get_crypt_ftr_and_key(&crypt_ftr)) {
- printf("Error getting crypt footer and key\n");
- return -1;
- }
-
- if (crypt_ftr.flags & CRYPT_INCONSISTENT_STATE) {
- return -1;
- }
-
- return crypt_ftr.crypt_type;
-}
-
-/*
- * 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.
- *
- * out_crypto_blkdev must be MAXPATHLEN.
- */
-int cryptfs_setup_ext_volume(const char* label, const char* real_blkdev,
- const unsigned char* key, int keysize, char* out_crypto_blkdev) {
- int fd = open(real_blkdev, O_RDONLY|O_CLOEXEC);
- if (fd == -1) {
- printf("Failed to open %s: %s", real_blkdev, strerror(errno));
- return -1;
- }
-
- unsigned long nr_sec = 0;
- nr_sec = get_blkdev_size(fd);
- close(fd);
-
- if (nr_sec == 0) {
- printf("Failed to get size of %s: %s", real_blkdev, strerror(errno));
- return -1;
- }
-
- struct crypt_mnt_ftr ext_crypt_ftr;
- memset(&ext_crypt_ftr, 0, sizeof(ext_crypt_ftr));
- ext_crypt_ftr.fs_size = nr_sec;
- ext_crypt_ftr.keysize = keysize;
- strcpy((char*) ext_crypt_ftr.crypto_type_name, "aes-cbc-essiv:sha256");
-
- return create_crypto_blk_dev(&ext_crypt_ftr, key, real_blkdev,
- out_crypto_blkdev, label);
-}
-
-/*
- * Called by vold when it's asked to unmount an encrypted external
- * storage volume.
- */
-int cryptfs_revert_ext_volume(const char* label) {
- return delete_crypto_blk_dev((char*) label);
-}
diff --git a/partition.cpp b/partition.cpp
index 8e30c3318..b96b969be 100644
--- a/partition.cpp
+++ b/partition.cpp
@@ -44,6 +44,14 @@
#include "set_metadata.h"
#include "gui/gui.hpp"
#include "adbbu/libtwadbbu.hpp"
+#ifdef TW_INCLUDE_CRYPTO
+ #include "crypto/fde/cryptfs.h"
+ #ifdef TW_INCLUDE_FBE
+ #include "crypto/ext4crypt/Decrypt.h"
+ #endif
+#else
+ #define CRYPT_FOOTER_OFFSET 0x4000
+#endif
extern "C" {
#include "mtdutils/mtdutils.h"
#include "mtdutils/mounts.h"
@@ -51,15 +59,8 @@ extern "C" {
// #include "make_ext4fs.h" TODO need ifdef for android8
#include <ext4_utils/make_ext4fs.h>
#endif
-
#ifdef TW_INCLUDE_CRYPTO
- #include "crypto/lollipop/cryptfs.h"
#include "gpt/gpt.h"
- #ifdef TW_INCLUDE_FBE
- #include "crypto/ext4crypt/Decrypt.h"
- #endif
-#else
- #define CRYPT_FOOTER_OFFSET 0x4000
#endif
}
#include <selinux/selinux.h>
diff --git a/partitionmanager.cpp b/partitionmanager.cpp
index b8a95ff26..5b749bb32 100755
--- a/partitionmanager.cpp
+++ b/partitionmanager.cpp
@@ -66,7 +66,7 @@ extern "C" {
}
#ifdef TW_INCLUDE_CRYPTO
- #include "crypto/lollipop/cryptfs.h"
+ #include "crypto/fde/cryptfs.h"
#include "gui/rapidxml.hpp"
#include "gui/pages.hpp"
#ifdef TW_INCLUDE_FBE
diff --git a/prebuilt/Android.mk b/prebuilt/Android.mk
index 26ee594c1..3418f1dd2 100644
--- a/prebuilt/Android.mk
+++ b/prebuilt/Android.mk
@@ -174,7 +174,7 @@ ifeq ($(TW_INCLUDE_DUMLOCK), true)
RELINK_SOURCE_FILES += $(TARGET_RECOVERY_ROOT_OUT)/sbin/htcdumlock
endif
ifeq ($(TW_INCLUDE_CRYPTO), true)
- RELINK_SOURCE_FILES += $(TARGET_OUT_SHARED_LIBRARIES)/libcryptfslollipop.so
+ RELINK_SOURCE_FILES += $(TARGET_OUT_SHARED_LIBRARIES)/libcryptfsfde.so
RELINK_SOURCE_FILES += $(TARGET_OUT_SHARED_LIBRARIES)/libcrypto.so
RELINK_SOURCE_FILES += $(TARGET_OUT_SHARED_LIBRARIES)/libhardware.so
RELINK_SOURCE_FILES += $(TARGET_OUT_SHARED_LIBRARIES)/libgpt_twrp.so