blob: f6176e4cbfcfd455f74c2a23c0805d537dd60c7e [file] [log] [blame]
#include "estoraged.hpp"
#include "cryptErase.hpp"
#include "cryptsetupInterface.hpp"
#include "pattern.hpp"
#include "sanitize.hpp"
#include "verifyDriveGeometry.hpp"
#include "zero.hpp"
#include <libcryptsetup.h>
#include <openssl/rand.h>
#include <phosphor-logging/lg2.hpp>
#include <xyz/openbmc_project/Common/error.hpp>
#include <cstdlib>
#include <filesystem>
#include <iostream>
#include <string_view>
#include <vector>
namespace estoraged
{
using sdbusplus::xyz::openbmc_project::Common::Error::InternalFailure;
using sdbusplus::xyz::openbmc_project::Common::Error::ResourceNotFound;
using sdbusplus::xyz::openbmc_project::Common::Error::UnsupportedRequest;
void EStoraged::formatLuks(std::vector<uint8_t> password, FilesystemType type)
{
std::string msg = "OpenBMC.0.1.DriveFormat";
lg2::info("Starting format", "REDFISH_MESSAGE_ID", msg);
if (type != FilesystemType::ext4)
{
lg2::error("Only ext4 filesystems are supported currently",
"REDFISH_MESSAGE_ID", std::string("OpenBMC.0.1.FormatFail"));
throw UnsupportedRequest();
}
CryptHandle cryptHandle(devPath.c_str());
if (cryptHandle.get() == nullptr)
{
lg2::error("Failed to initialize crypt device", "REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.FormatFail"));
throw ResourceNotFound();
}
formatLuksDev(cryptHandle.get(), password);
activateLuksDev(cryptHandle.get(), password);
createFilesystem();
mountFilesystem();
}
void EStoraged::erase(EraseMethod inEraseMethod)
{
std::cerr << "Erasing encrypted eMMC" << std::endl;
lg2::info("Starting erase", "REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.DriveErase"));
switch (inEraseMethod)
{
case EraseMethod::CryptoErase:
{
CryptErase myCryptErase(devPath);
myCryptErase.doErase();
break;
}
case EraseMethod::VerifyGeometry:
{
VerifyDriveGeometry myVerifyGeometry(devPath);
myVerifyGeometry.geometryOkay();
break;
}
case EraseMethod::LogicalOverWrite:
{
Pattern myErasePattern(devPath);
myErasePattern.writePattern();
break;
}
case EraseMethod::LogicalVerify:
{
Pattern myErasePattern(devPath);
myErasePattern.verifyPattern();
break;
}
case EraseMethod::VendorSanitize:
{
Sanitize mySanitize(devPath);
mySanitize.doSanitize();
break;
}
case EraseMethod::ZeroOverWrite:
{
Zero myZero(devPath);
myZero.writeZero();
break;
}
case EraseMethod::ZeroVerify:
{
Zero myZero(devPath);
myZero.verifyZero();
break;
}
case EraseMethod::SecuredLocked:
{
if (isLocked())
{
lock();
}
// TODO: implement hardware locking
// Until that is done, we can lock using eStoraged::lock()
break;
}
}
}
void EStoraged::lock()
{
std::string msg = "OpenBMC.0.1.DriveLock";
lg2::info("Starting lock", "REDFISH_MESSAGE_ID", msg);
unmountFilesystem();
deactivateLuksDev();
}
void EStoraged::unlock(std::vector<uint8_t> password)
{
std::string msg = "OpenBMC.0.1.DriveUnlock";
lg2::info("Starting unlock", "REDFISH_MESSAGE_ID", msg);
CryptHandle cryptHandle(devPath.c_str());
if (cryptHandle.get() == nullptr)
{
lg2::error("Failed to initialize crypt device", "REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.UnlockFail"));
throw ResourceNotFound();
}
activateLuksDev(cryptHandle.get(), password);
mountFilesystem();
}
void EStoraged::changePassword(std::vector<uint8_t> /*oldPassword*/,
std::vector<uint8_t> /*newPassword*/)
{
std::cerr << "Changing password for encrypted eMMC" << std::endl;
lg2::info("Starting change password", "REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.DrivePasswordChanged"));
}
bool EStoraged::isLocked() const
{
return locked();
}
std::string_view EStoraged::getMountPoint() const
{
return mountPoint;
}
void EStoraged::formatLuksDev(struct crypt_device* cd,
std::vector<uint8_t> password)
{
lg2::info("Formatting device {DEV}", "DEV", devPath, "REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.FormatLuksDev"));
/* Generate the volume key. */
const std::size_t keySize = 64;
std::vector<uint8_t> volumeKey(keySize);
if (RAND_bytes(volumeKey.data(), keySize) != 1)
{
lg2::error("Failed to create volume key", "REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.FormatLuksDevFail"));
throw InternalFailure();
}
/* Format the LUKS encrypted device. */
int retval =
cryptIface->cryptFormat(cd, CRYPT_LUKS2, "aes", "xts-plain64", nullptr,
reinterpret_cast<const char*>(volumeKey.data()),
volumeKey.size(), nullptr);
if (retval < 0)
{
lg2::error("Failed to format encrypted device: {RETVAL}", "RETVAL",
retval, "REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.FormatLuksDevFail"));
throw InternalFailure();
}
/* Device is now encrypted. */
locked(true);
/* Set the password. */
retval = cryptIface->cryptKeyslotAddByVolumeKey(
cd, CRYPT_ANY_SLOT, nullptr, 0,
reinterpret_cast<const char*>(password.data()), password.size());
if (retval < 0)
{
lg2::error("Failed to set encryption password", "REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.FormatLuksDevFail"));
throw InternalFailure();
}
lg2::info("Encrypted device {DEV} successfully formatted", "DEV", devPath,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.FormatLuksDevSuccess"));
}
void EStoraged::activateLuksDev(struct crypt_device* cd,
std::vector<uint8_t> password)
{
lg2::info("Activating LUKS dev {DEV}", "DEV", devPath, "REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.ActivateLuksDev"));
int retval = cryptIface->cryptLoad(cd, CRYPT_LUKS2, nullptr);
if (retval < 0)
{
lg2::error("Failed to load LUKS header: {RETVAL}", "RETVAL", retval,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.ActivateLuksDevFail"));
throw InternalFailure();
}
retval = cryptIface->cryptActivateByPassphrase(
cd, containerName.c_str(), CRYPT_ANY_SLOT,
reinterpret_cast<const char*>(password.data()), password.size(), 0);
if (retval < 0)
{
lg2::error("Failed to activate LUKS dev: {RETVAL}", "RETVAL", retval,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.ActivateLuksDevFail"));
throw InternalFailure();
}
/* Device is now unlocked. */
locked(false);
lg2::info("Successfully activated LUKS dev {DEV}", "DEV", devPath,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.ActivateLuksDevSuccess"));
}
void EStoraged::createFilesystem()
{
/* Run the command to create the filesystem. */
int retval = fsIface->runMkfs(containerName);
if (retval != 0)
{
lg2::error("Failed to create filesystem: {RETVAL}", "RETVAL", retval,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.CreateFilesystemFail"));
throw InternalFailure();
}
lg2::info("Successfully created filesystem for /dev/mapper/{CONTAINER}",
"CONTAINER", containerName, "REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.CreateFilesystemSuccess"));
}
void EStoraged::mountFilesystem()
{
/*
* Create directory for the filesystem, if it's not already present. It
* might already exist if, for example, the BMC reboots after creating the
* directory.
*/
if (!fsIface->directoryExists(std::filesystem::path(mountPoint)))
{
bool success =
fsIface->createDirectory(std::filesystem::path(mountPoint));
if (!success)
{
lg2::error("Failed to create mount point: {DIR}", "DIR", mountPoint,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.MountFilesystemFail"));
throw InternalFailure();
}
}
/* Run the command to mount the filesystem. */
std::string luksContainer("/dev/mapper/" + containerName);
int retval = fsIface->doMount(luksContainer.c_str(), mountPoint.c_str(),
"ext4", 0, nullptr);
if (retval != 0)
{
lg2::error("Failed to mount filesystem: {RETVAL}", "RETVAL", retval,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.MountFilesystemFail"));
bool removeSuccess =
fsIface->removeDirectory(std::filesystem::path(mountPoint));
if (!removeSuccess)
{
lg2::error("Failed to remove mount point: {DIR}", "DIR", mountPoint,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.MountFilesystemFail"));
}
throw InternalFailure();
}
lg2::info("Successfully mounted filesystem at {DIR}", "DIR", mountPoint,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.MountFilesystemSuccess"));
}
void EStoraged::unmountFilesystem()
{
int retval = fsIface->doUnmount(mountPoint.c_str());
if (retval != 0)
{
lg2::error("Failed to unmount filesystem: {RETVAL}", "RETVAL", retval,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.UnmountFilesystemFail"));
throw InternalFailure();
}
/* Remove the mount point. */
bool success = fsIface->removeDirectory(std::filesystem::path(mountPoint));
if (!success)
{
lg2::error("Failed to remove mount point {DIR}", "DIR", mountPoint,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.UnmountFilesystemFail"));
throw InternalFailure();
}
lg2::info("Successfully unmounted filesystem at {DIR}", "DIR", mountPoint,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.MountFilesystemSuccess"));
}
void EStoraged::deactivateLuksDev()
{
lg2::info("Deactivating LUKS device {DEV}", "DEV", devPath,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.DeactivateLuksDev"));
int retval = cryptIface->cryptDeactivate(nullptr, containerName.c_str());
if (retval < 0)
{
lg2::error("Failed to deactivate crypt device: {RETVAL}", "RETVAL",
retval, "REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.DeactivateLuksDevFail"));
throw InternalFailure();
}
/* Device is now locked. */
locked(true);
lg2::info("Successfully deactivated LUKS device {DEV}", "DEV", devPath,
"REDFISH_MESSAGE_ID",
std::string("OpenBMC.0.1.DeactivateLuksDevSuccess"));
}
} // namespace estoraged