src/erase/sanitize.cpp - openbmc/estoraged - Gitiles

 #include "sanitize.hpp"

 #include "estoraged_conf.hpp"

 #include <linux/mmc/ioctl.h>
 #include <sys/ioctl.h>

 #include <phosphor-logging/lg2.hpp>
 #include <stdplus/fd/create.hpp>
 #include <stdplus/fd/managed.hpp>
 #include <stdplus/handle/managed.hpp>
 #include <xyz/openbmc_project/Common/error.hpp>

 #include <array>
 #include <cstddef>
 #include <span>
 #include <string>
 #include <string_view>

 namespace
 {

 constexpr uint32_t mmcSwitch = 6;
 constexpr uint32_t mmcSendExtCsd = 8;
 constexpr uint32_t mmcSwitchModeWriteByte = 0x03;
 constexpr uint32_t extCsdSanitizeStart = 165;
 constexpr uint32_t extCsdCmdSetNormal = (1 << 0);

 constexpr uint32_t mmcRspPresent = (1 << 0);
 constexpr uint32_t mmcRspCrc = (1 << 2);
 constexpr uint32_t mmcRspBusy = (1 << 3);
 constexpr uint32_t mmcRspOpcode = (1 << 4);

 constexpr uint32_t mmcCmdAc = (0 << 5);
 constexpr uint32_t mmcCmdAdtc = (1 << 5);

 constexpr uint32_t mmcRspSpiS1 = (1 << 7);
 constexpr uint32_t mmcRspSpiBusy = (1 << 10);

 constexpr uint32_t mmcRspSpiR1 = (mmcRspSpiS1);
 constexpr uint32_t mmcRspSpiR1B = (mmcRspSpiS1 | mmcRspSpiBusy);

 constexpr uint32_t mmcRspR1B =
     (mmcRspPresent | mmcRspCrc | mmcRspOpcode | mmcRspBusy);

 constexpr uint32_t mmcRspR1 = (mmcRspPresent | mmcRspCrc | mmcRspOpcode);

 constexpr uint32_t mmcEraseGroupStart = 35;
 constexpr uint32_t mmcEraseGroupEnd = 36;
 constexpr uint32_t mmcErase = 38;
 } // namespace

 namespace estoraged
 {

 using sdbusplus::xyz::openbmc_project::Common::Error::InternalFailure;
 using stdplus::fd::ManagedFd;

 void Sanitize::doSanitize(uint64_t driveSize)
 {
     try
     {
         emmcErase(driveSize);
         emmcSanitize();
     }
     catch (...)
     {
         lg2::error("eStorageD erase sanitize failure", "REDFISH_MESSAGE_ID",
                    std::string("eStorageD.1.0.EraseFailure"));
         throw InternalFailure();
     }
     lg2::info("eStorageD successfully erase sanitize", "REDFISH_MESSAGE_ID",
               std::string("eStorageD.1.0.EraseSuccessful"));
 }

 void Sanitize::emmcErase(uint64_t driveSize)
 {

     uint64_t sectorSize = 0x200; // default value see eMMC spec 6.6.34.
                                  // NOTE: 0x200 is only valid for eMMC greater
                                  // then 2 GB
     struct mmc_io_multi_cmd_erase eraseCmd = {};

     eraseCmd.num_of_cmds = 3;
     eraseCmd.cmds[0].opcode = mmcEraseGroupStart;
     eraseCmd.cmds[0].arg = 0;
     eraseCmd.cmds[0].flags = mmcRspSpiR1 | mmcRspR1 | mmcCmdAc;
     eraseCmd.cmds[0].write_flag = 1;

     eraseCmd.cmds[1].opcode = mmcEraseGroupEnd;
     eraseCmd.cmds[1].arg = (driveSize / sectorSize) - 1;
     eraseCmd.cmds[1].flags = mmcRspSpiR1 | mmcRspR1 | mmcCmdAc;
     eraseCmd.cmds[1].write_flag = 1;

     /* Send Erase Command */
     eraseCmd.cmds[2].opcode = mmcErase;
     eraseCmd.cmds[2].arg = 0x00000000;
     eraseCmd.cmds[2].cmd_timeout_ms = 0x0FFFFFFF;
     eraseCmd.cmds[2].flags = mmcRspSpiR1B | mmcRspR1B | mmcCmdAc;
     eraseCmd.cmds[2].write_flag = 1;

     if (ioctlWrapper->doIoctlMulti(devPath, MMC_IOC_MULTI_CMD, eraseCmd) != 0)
     {
         throw InternalFailure();
     }
 }

 void Sanitize::emmcSanitize()
 {

     struct mmc_ioc_cmd idata = {};
     idata.write_flag = 1;
     idata.opcode = mmcSwitch;
     idata.arg = (mmcSwitchModeWriteByte << 24) | (extCsdSanitizeStart << 16) |
                 (1 << 8) | extCsdCmdSetNormal;
     idata.flags = mmcRspSpiR1B | mmcRspR1B | mmcCmdAc;

     // make the eMMC sanitize ioctl
     if (ioctlWrapper->doIoctl(devPath, MMC_IOC_CMD, idata) != 0)
     {
         throw InternalFailure();
     }
 }

 int IOCTLWrapperImpl::doIoctl(std::string_view devPath, unsigned long request,
                               struct mmc_ioc_cmd data)

 {
     ManagedFd fd = stdplus::fd::open(std::string(devPath).c_str(),
                                      stdplus::fd::OpenAccess::ReadOnly);

     return fd.ioctl(request, static_cast<void*>(&data));
 }

 int IOCTLWrapperImpl::doIoctlMulti(std::string_view devPath,
                                    unsigned long request,
                                    struct mmc_io_multi_cmd_erase data)
 {
     ManagedFd fd = stdplus::fd::open(std::string(devPath).c_str(),
                                      stdplus::fd::OpenAccess::ReadOnly);

     return fd.ioctl(request, static_cast<void*>(&data));
 }

 } // namespace estoraged
	#include "sanitize.hpp"

	#include "estoraged_conf.hpp"

	#include <linux/mmc/ioctl.h>
	#include <sys/ioctl.h>

	#include <phosphor-logging/lg2.hpp>
	#include <stdplus/fd/create.hpp>
	#include <stdplus/fd/managed.hpp>
	#include <stdplus/handle/managed.hpp>
	#include <xyz/openbmc_project/Common/error.hpp>

	#include <array>
	#include <cstddef>
	#include <span>
	#include <string>
	#include <string_view>

	namespace
	{

	constexpr uint32_t mmcSwitch = 6;
	constexpr uint32_t mmcSendExtCsd = 8;
	constexpr uint32_t mmcSwitchModeWriteByte = 0x03;
	constexpr uint32_t extCsdSanitizeStart = 165;
	constexpr uint32_t extCsdCmdSetNormal = (1 << 0);

	constexpr uint32_t mmcRspPresent = (1 << 0);
	constexpr uint32_t mmcRspCrc = (1 << 2);
	constexpr uint32_t mmcRspBusy = (1 << 3);
	constexpr uint32_t mmcRspOpcode = (1 << 4);

	constexpr uint32_t mmcCmdAc = (0 << 5);
	constexpr uint32_t mmcCmdAdtc = (1 << 5);

	constexpr uint32_t mmcRspSpiS1 = (1 << 7);
	constexpr uint32_t mmcRspSpiBusy = (1 << 10);

	constexpr uint32_t mmcRspSpiR1 = (mmcRspSpiS1);
	constexpr uint32_t mmcRspSpiR1B = (mmcRspSpiS1 \| mmcRspSpiBusy);

	constexpr uint32_t mmcRspR1B =
	(mmcRspPresent \| mmcRspCrc \| mmcRspOpcode \| mmcRspBusy);

	constexpr uint32_t mmcRspR1 = (mmcRspPresent \| mmcRspCrc \| mmcRspOpcode);

	constexpr uint32_t mmcEraseGroupStart = 35;
	constexpr uint32_t mmcEraseGroupEnd = 36;
	constexpr uint32_t mmcErase = 38;
	} // namespace

	namespace estoraged
	{

	using sdbusplus::xyz::openbmc_project::Common::Error::InternalFailure;
	using stdplus::fd::ManagedFd;

	void Sanitize::doSanitize(uint64_t driveSize)
	{
	try
	{
	emmcErase(driveSize);
	emmcSanitize();
	}
	catch (...)
	{
	lg2::error("eStorageD erase sanitize failure", "REDFISH_MESSAGE_ID",
	std::string("eStorageD.1.0.EraseFailure"));
	throw InternalFailure();
	}
	lg2::info("eStorageD successfully erase sanitize", "REDFISH_MESSAGE_ID",
	std::string("eStorageD.1.0.EraseSuccessful"));
	}

	void Sanitize::emmcErase(uint64_t driveSize)
	{

	uint64_t sectorSize = 0x200; // default value see eMMC spec 6.6.34.
	// NOTE: 0x200 is only valid for eMMC greater
	// then 2 GB
	struct mmc_io_multi_cmd_erase eraseCmd = {};

	eraseCmd.num_of_cmds = 3;
	eraseCmd.cmds[0].opcode = mmcEraseGroupStart;
	eraseCmd.cmds[0].arg = 0;
	eraseCmd.cmds[0].flags = mmcRspSpiR1 \| mmcRspR1 \| mmcCmdAc;
	eraseCmd.cmds[0].write_flag = 1;

	eraseCmd.cmds[1].opcode = mmcEraseGroupEnd;
	eraseCmd.cmds[1].arg = (driveSize / sectorSize) - 1;
	eraseCmd.cmds[1].flags = mmcRspSpiR1 \| mmcRspR1 \| mmcCmdAc;
	eraseCmd.cmds[1].write_flag = 1;

	/* Send Erase Command */
	eraseCmd.cmds[2].opcode = mmcErase;
	eraseCmd.cmds[2].arg = 0x00000000;
	eraseCmd.cmds[2].cmd_timeout_ms = 0x0FFFFFFF;
	eraseCmd.cmds[2].flags = mmcRspSpiR1B \| mmcRspR1B \| mmcCmdAc;
	eraseCmd.cmds[2].write_flag = 1;

	if (ioctlWrapper->doIoctlMulti(devPath, MMC_IOC_MULTI_CMD, eraseCmd) != 0)
	{
	throw InternalFailure();
	}
	}

	void Sanitize::emmcSanitize()
	{

	struct mmc_ioc_cmd idata = {};
	idata.write_flag = 1;
	idata.opcode = mmcSwitch;
	idata.arg = (mmcSwitchModeWriteByte << 24) \| (extCsdSanitizeStart << 16) \|
	(1 << 8) \| extCsdCmdSetNormal;
	idata.flags = mmcRspSpiR1B \| mmcRspR1B \| mmcCmdAc;

	// make the eMMC sanitize ioctl
	if (ioctlWrapper->doIoctl(devPath, MMC_IOC_CMD, idata) != 0)
	{
	throw InternalFailure();
	}
	}

	int IOCTLWrapperImpl::doIoctl(std::string_view devPath, unsigned long request,
	struct mmc_ioc_cmd data)

	{
	ManagedFd fd = stdplus::fd::open(std::string(devPath).c_str(),
	stdplus::fd::OpenAccess::ReadOnly);

	return fd.ioctl(request, static_cast<void*>(&data));
	}

	int IOCTLWrapperImpl::doIoctlMulti(std::string_view devPath,
	unsigned long request,
	struct mmc_io_multi_cmd_erase data)
	{
	ManagedFd fd = stdplus::fd::open(std::string(devPath).c_str(),
	stdplus::fd::OpenAccess::ReadOnly);

	return fd.ioctl(request, static_cast<void*>(&data));
	}

	} // namespace estoraged