blob: 8cc0469d7922babca15fada8c7c67d02db78efbf [file] [log] [blame]
#pragma once
#include <libcryptsetup.h>
#include <stdplus/handle/managed.hpp>
namespace estoraged
{
/** @class CryptsetupInterface
* @brief Interface to the cryptsetup functions used to manage a LUKS device.
* @details This class is used to mock out the cryptsetup functions.
*/
class CryptsetupInterface
{
public:
virtual ~CryptsetupInterface() = default;
/** @brief Wrapper around crypt_format.
* @details Used for mocking purposes.
*
* @param[in] cd - crypt device handle.
* @param[in] type - type of device (optional params struct must be of
* this type).
* @param[in] cipher - (e.g. "aes").
* @params[in cipher_mode - including IV specification (e.g. "xts-plain").
* @params[in] uuid - requested UUID or NULL if it should be generated.
* @params[in] volume_key - pre-generated volume key or NULL if it should
* be generated (only for LUKS).
* @params[in] volume_key_size - size of volume key in bytes.
* @params[in] params - crypt type specific parameters.
*
* @returns 0 on success or negative errno value otherwise.
*/
virtual int cryptFormat(struct crypt_device* cd, const char* type,
const char* cipher, const char* cipherMode,
const char* uuid, const char* volumeKey,
size_t volumeKeySize, void* params) = 0;
/** @brief Wrapper around crypt_keyslot_add_by_volume_key.
* @details Used for mocking purposes.
*
* @param[in] cd - crypt device handle.
* @param[in] keyslot - requested keyslot or CRYPT_ANY_SLOT.
* @param[in] volume_key - provided volume key or NULL if used after
* crypt_format.
* @param[in] volume_key_size - size of volume_key.
* @param[in] passphrase - passphrase for new keyslot.
* @param[in] passphrase_size - size of passphrase.
*
* @returns allocated key slot number or negative errno otherwise.
*/
virtual int cryptKeyslotAddByVolumeKey(struct crypt_device* cd, int keyslot,
const char* volumeKey,
size_t volumeKeySize,
const char* passphrase,
size_t passphraseSize) = 0;
/** @brief Wrapper around crypt_load.
* @details Used for mocking purposes.
*
* @param[in] cd - crypt device handle.
* @param[in] requested_type - crypt-type or NULL for all known.
* @param[in] params - crypt type specific parameters (see crypt-type).
*
* @returns 0 on success or negative errno value otherwise.
*/
virtual int cryptLoad(struct crypt_device* cd, const char* requestedType,
void* params) = 0;
/** @brief Wrapper around crypt_activate_by_passphrase.
* @details Used for mocking purposes.
*
* @param[in] cd - crypt device handle.
* @param[in] name - name of device to create, if NULL only check
* passphrase.
* @param[in] keyslot - requested keyslot to check or CRYPT_ANY_SLOT.
* @param[in] passphrase - passphrase used to unlock volume key.
* @param[in] passphrase_size - size of passphrase.
* @param[in] flags - activation flags.
*
* @returns unlocked key slot number or negative errno otherwise.
*/
virtual int cryptActivateByPassphrase(struct crypt_device* cd,
const char* name, int keyslot,
const char* passphrase,
size_t passphraseSize,
uint32_t flags) = 0;
/** @brief Wrapper around crypt_deactivate.
* @details Used for mocking purposes.
*
* @param[in] cd - crypt device handle, can be NULL.
* @param[in] name - name of device to deactivate.
*
* @returns 0 on success or negative errno value otherwise.
*/
virtual int cryptDeactivate(struct crypt_device* cd, const char* name) = 0;
/** @brief Wrapper around crypt_keyslot_destory.
* @details Used for mocking purposes.
*
* @param[in] cd - crypt device handle, can not be NULL.
* @param[in] keyslot requested key slot to destroy
*
* @returns 0 on success or negative errno value otherwise.
*/
virtual int cryptKeyslotDestroy(struct crypt_device* cd,
const int keyslot) = 0;
/** @breif Wapper around crypt_keyslot_max
* @details Used for mocking purposes.
*
* @param type crypt device type
*
* @return slot count or negative errno otherwise if device
* does not support keyslots.
*/
virtual int cryptKeySlotMax(const char* type) = 0;
/** @breif Wapper around crypt_keyslot_status
* @details Used for mocking purposes.
* Get information about particular key slot.
*
* @param cd crypt device handle
* @param keyslot requested keyslot to check or CRYPT_ANY_SLOT
*
* @return value defined by crypt_keyslot_info
*
*/
virtual crypt_keyslot_info cryptKeySlotStatus(struct crypt_device* cd,
int keyslot) = 0;
};
/** @class Cryptsetup
* @brief Implements CryptsetupInterface.
*/
class Cryptsetup : public CryptsetupInterface
{
public:
~Cryptsetup() = default;
int cryptFormat(struct crypt_device* cd, const char* type,
const char* cipher, const char* cipherMode,
const char* uuid, const char* volumeKey,
size_t volumeKeySize, void* params) override
{
return crypt_format(cd, type, cipher, cipherMode, uuid, volumeKey,
volumeKeySize, params);
}
int cryptKeyslotAddByVolumeKey(struct crypt_device* cd, int keyslot,
const char* volumeKey, size_t volumeKeySize,
const char* passphrase,
size_t passphraseSize) override
{
return crypt_keyslot_add_by_volume_key(
cd, keyslot, volumeKey, volumeKeySize, passphrase, passphraseSize);
}
int cryptLoad(struct crypt_device* cd, const char* requestedType,
void* params) override
{
return crypt_load(cd, requestedType, params);
}
int cryptActivateByPassphrase(struct crypt_device* cd, const char* name,
int keyslot, const char* passphrase,
size_t passphraseSize,
uint32_t flags) override
{
return crypt_activate_by_passphrase(cd, name, keyslot, passphrase,
passphraseSize, flags);
}
int cryptDeactivate(struct crypt_device* cd, const char* name) override
{
return crypt_deactivate(cd, name);
}
int cryptKeyslotDestroy(struct crypt_device* cd, const int keyslot) override
{
return crypt_keyslot_destroy(cd, keyslot);
}
int cryptKeySlotMax(const char* type) override
{
return crypt_keyslot_max(type);
}
crypt_keyslot_info cryptKeySlotStatus(struct crypt_device* cd,
int keyslot) override
{
return crypt_keyslot_status(cd, keyslot);
}
};
/** @class CryptHandle
* @brief This manages a crypt_device struct and automatically frees it when
* this handle exits the current scope.
*/
class CryptHandle
{
public:
/** @brief Constructor for CryptHandle
*
* @param[in] device - path to device file
*/
explicit CryptHandle(const char* device) : handle(init(device))
{}
/** @brief Get a pointer to the crypt_device struct. */
struct crypt_device* get()
{
return *handle;
}
private:
/** @brief Allocate and initialize the crypt_device struct
*
* @param[in] device - path to device file
*/
struct crypt_device* init(const char* device)
{
struct crypt_device* cryptDev;
int retval = crypt_init(&cryptDev, device);
if (retval < 0)
{
return nullptr;
}
return cryptDev;
}
/** @brief Free the crypt_device struct
*
* @param[in] cd - pointer to crypt_device*, to be freed
*/
static void cryptFree(struct crypt_device*&& cd)
{
crypt_free(cd);
}
/** @brief Managed handle to crypt_device struct */
stdplus::Managed<struct crypt_device*>::Handle<cryptFree> handle;
};
} // namespace estoraged