2020-01-21 16:29:35 +01:00
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===============
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QEMU TPM Device
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===============
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Guest-side hardware interface
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=============================
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TIS interface
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-------------
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The QEMU TPM emulation implements a TPM TIS hardware interface
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following the Trusted Computing Group's specification "TCG PC Client
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Specific TPM Interface Specification (TIS)", Specification Version
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1.3, 21 March 2013. (see the `TIS specification`_, or a later version
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of it).
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The TIS interface makes a memory mapped IO region in the area
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0xfed40000-0xfed44fff available to the guest operating system.
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QEMU files related to TPM TIS interface:
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2020-03-05 17:51:46 +01:00
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- ``hw/tpm/tpm_tis_common.c``
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- ``hw/tpm/tpm_tis_isa.c``
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- ``hw/tpm/tpm_tis_sysbus.c``
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2020-01-21 16:29:35 +01:00
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- ``hw/tpm/tpm_tis.h``
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2020-03-05 17:51:46 +01:00
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Both an ISA device and a sysbus device are available. The former is
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used with pc/q35 machine while the latter can be instantiated in the
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2020-03-09 22:58:18 +01:00
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Arm virt machine.
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2020-03-05 17:51:46 +01:00
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2020-01-21 16:29:35 +01:00
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CRB interface
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-------------
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QEMU also implements a TPM CRB interface following the Trusted
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Computing Group's specification "TCG PC Client Platform TPM Profile
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(PTP) Specification", Family "2.0", Level 00 Revision 01.03 v22, May
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22, 2017. (see the `CRB specification`_, or a later version of it)
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The CRB interface makes a memory mapped IO region in the area
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0xfed40000-0xfed40fff (1 locality) available to the guest
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operating system.
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QEMU files related to TPM CRB interface:
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- ``hw/tpm/tpm_crb.c``
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SPAPR interface
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---------------
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pSeries (ppc64) machines offer a tpm-spapr device model.
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QEMU files related to the SPAPR interface:
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- ``hw/tpm/tpm_spapr.c``
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fw_cfg interface
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================
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The bios/firmware may read the ``"etc/tpm/config"`` fw_cfg entry for
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configuring the guest appropriately.
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The entry of 6 bytes has the following content, in little-endian:
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.. code-block:: c
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#define TPM_VERSION_UNSPEC 0
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#define TPM_VERSION_1_2 1
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#define TPM_VERSION_2_0 2
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#define TPM_PPI_VERSION_NONE 0
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#define TPM_PPI_VERSION_1_30 1
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struct FwCfgTPMConfig {
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uint32_t tpmppi_address; /* PPI memory location */
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uint8_t tpm_version; /* TPM version */
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uint8_t tpmppi_version; /* PPI version */
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};
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ACPI interface
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==============
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The TPM device is defined with ACPI ID "PNP0C31". QEMU builds a SSDT
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and passes it into the guest through the fw_cfg device. The device
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description contains the base address of the TIS interface 0xfed40000
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and the size of the MMIO area (0x5000). In case a TPM2 is used by
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QEMU, a TPM2 ACPI table is also provided. The device is described to
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be used in polling mode rather than interrupt mode primarily because
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no unused IRQ could be found.
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To support measurement logs to be written by the firmware,
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e.g. SeaBIOS, a TCPA table is implemented. This table provides a 64kb
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buffer where the firmware can write its log into. For TPM 2 only a
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more recent version of the TPM2 table provides support for
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measurements logs and a TCPA table does not need to be created.
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The TCPA and TPM2 ACPI tables follow the Trusted Computing Group
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specification "TCG ACPI Specification" Family "1.2" and "2.0", Level
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00 Revision 00.37. (see the `ACPI specification`_, or a later version
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of it)
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ACPI PPI Interface
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------------------
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QEMU supports the Physical Presence Interface (PPI) for TPM 1.2 and
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TPM 2. This interface requires ACPI and firmware support. (see the
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`PPI specification`_)
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PPI enables a system administrator (root) to request a modification to
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the TPM upon reboot. The PPI specification defines the operation
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requests and the actions the firmware has to take. The system
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administrator passes the operation request number to the firmware
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through an ACPI interface which writes this number to a memory
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location that the firmware knows. Upon reboot, the firmware finds the
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number and sends commands to the TPM. The firmware writes the TPM
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result code and the operation request number to a memory location that
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ACPI can read from and pass the result on to the administrator.
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The PPI specification defines a set of mandatory and optional
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operations for the firmware to implement. The ACPI interface also
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allows an administrator to list the supported operations. In QEMU the
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ACPI code is generated by QEMU, yet the firmware needs to implement
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support on a per-operations basis, and different firmwares may support
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a different subset. Therefore, QEMU introduces the virtual memory
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device for PPI where the firmware can indicate which operations it
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supports and ACPI can enable the ones that are supported and disable
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all others. This interface lies in main memory and has the following
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layout:
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+-------------+--------+--------+-------------------------------------------+
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| Field | Length | Offset | Description |
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+=============+========+========+===========================================+
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| ``func`` | 0x100 | 0x000 | Firmware sets values for each supported |
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| | | | operation. See defined values below. |
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+-------------+--------+--------+-------------------------------------------+
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| ``ppin`` | 0x1 | 0x100 | SMI interrupt to use. Set by firmware. |
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| | | | Not supported. |
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+-------------+--------+--------+-------------------------------------------+
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| ``ppip`` | 0x4 | 0x101 | ACPI function index to pass to SMM code. |
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| | | | Set by ACPI. Not supported. |
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+-------------+--------+--------+-------------------------------------------+
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| ``pprp`` | 0x4 | 0x105 | Result of last executed operation. Set by |
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| | | | firmware. See function index 5 for values.|
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+-------------+--------+--------+-------------------------------------------+
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| ``pprq`` | 0x4 | 0x109 | Operation request number to execute. See |
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| | | | 'Physical Presence Interface Operation |
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| | | | Summary' tables in specs. Set by ACPI. |
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+-------------+--------+--------+-------------------------------------------+
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| ``pprm`` | 0x4 | 0x10d | Operation request optional parameter. |
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| | | | Values depend on operation. Set by ACPI. |
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+-------------+--------+--------+-------------------------------------------+
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| ``lppr`` | 0x4 | 0x111 | Last executed operation request number. |
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| | | | Copied from pprq field by firmware. |
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+-------------+--------+--------+-------------------------------------------+
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| ``fret`` | 0x4 | 0x115 | Result code from SMM function. |
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| | | | Not supported. |
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+-------------+--------+--------+-------------------------------------------+
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| ``res1`` | 0x40 | 0x119 | Reserved for future use |
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+-------------+--------+--------+-------------------------------------------+
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|``next_step``| 0x1 | 0x159 | Operation to execute after reboot by |
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| | | | firmware. Used by firmware. |
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+-------------+--------+--------+-------------------------------------------+
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| ``movv`` | 0x1 | 0x15a | Memory overwrite variable |
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+-------------+--------+--------+-------------------------------------------+
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The following values are supported for the ``func`` field. They
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correspond to the values used by ACPI function index 8.
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+----------+-------------------------------------------------------------+
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| Value | Description |
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+==========+=============================================================+
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| 0 | Operation is not implemented. |
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+----------+-------------------------------------------------------------+
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| 1 | Operation is only accessible through firmware. |
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+----------+-------------------------------------------------------------+
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| 2 | Operation is blocked for OS by firmware configuration. |
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+----------+-------------------------------------------------------------+
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| 3 | Operation is allowed and physically present user required. |
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+----------+-------------------------------------------------------------+
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| 4 | Operation is allowed and physically present user is not |
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+----------+-------------------------------------------------------------+
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The location of the table is given by the fw_cfg ``tpmppi_address``
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field. The PPI memory region size is 0x400 (``TPM_PPI_ADDR_SIZE``) to
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leave enough room for future updates.
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QEMU files related to TPM ACPI tables:
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- ``hw/i386/acpi-build.c``
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- ``include/hw/acpi/tpm.h``
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TPM backend devices
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===================
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The TPM implementation is split into two parts, frontend and
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backend. The frontend part is the hardware interface, such as the TPM
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TIS interface described earlier, and the other part is the TPM backend
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interface. The backend interfaces implement the interaction with a TPM
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device, which may be a physical or an emulated device. The split
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between the front- and backend devices allows a frontend to be
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connected with any available backend. This enables the TIS interface
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to be used with the passthrough backend or the swtpm backend.
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QEMU files related to TPM backends:
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- ``backends/tpm.c``
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2020-06-12 10:54:33 +02:00
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- ``include/sysemu/tpm.h``
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2020-01-21 16:29:35 +01:00
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- ``include/sysemu/tpm_backend.h``
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The QEMU TPM passthrough device
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-------------------------------
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In case QEMU is run on Linux as the host operating system it is
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possible to make the hardware TPM device available to a single QEMU
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guest. In this case the user must make sure that no other program is
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using the device, e.g., /dev/tpm0, before trying to start QEMU with
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it.
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The passthrough driver uses the host's TPM device for sending TPM
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commands and receiving responses from. Besides that it accesses the
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TPM device's sysfs entry for support of command cancellation. Since
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none of the state of a hardware TPM can be migrated between hosts,
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virtual machine migration is disabled when the TPM passthrough driver
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is used.
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Since the host's TPM device will already be initialized by the host's
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firmware, certain commands, e.g. ``TPM_Startup()``, sent by the
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virtual firmware for device initialization, will fail. In this case
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the firmware should not use the TPM.
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Sharing the device with the host is generally not a recommended usage
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scenario for a TPM device. The primary reason for this is that two
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operating systems can then access the device's single set of
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resources, such as platform configuration registers
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(PCRs). Applications or kernel security subsystems, such as the Linux
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Integrity Measurement Architecture (IMA), are not expecting to share
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PCRs.
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QEMU files related to the TPM passthrough device:
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2020-06-12 10:54:44 +02:00
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- ``backends/tpm/tpm_passthrough.c``
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- ``backends/tpm/tpm_util.c``
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2020-06-12 10:54:43 +02:00
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- ``include/sysemu/tpm_util.h``
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2020-01-21 16:29:35 +01:00
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Command line to start QEMU with the TPM passthrough device using the host's
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hardware TPM ``/dev/tpm0``:
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.. code-block:: console
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qemu-system-x86_64 -display sdl -accel kvm \
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-m 1024 -boot d -bios bios-256k.bin -boot menu=on \
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-tpmdev passthrough,id=tpm0,path=/dev/tpm0 \
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-device tpm-tis,tpmdev=tpm0 test.img
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The following commands should result in similar output inside the VM
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with a Linux kernel that either has the TPM TIS driver built-in or
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available as a module:
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.. code-block:: console
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# dmesg | grep -i tpm
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[ 0.711310] tpm_tis 00:06: 1.2 TPM (device=id 0x1, rev-id 1)
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# dmesg | grep TCPA
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[ 0.000000] ACPI: TCPA 0x0000000003FFD191C 000032 (v02 BOCHS \
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BXPCTCPA 0000001 BXPC 00000001)
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# ls -l /dev/tpm*
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crw-------. 1 root root 10, 224 Jul 11 10:11 /dev/tpm0
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# find /sys/devices/ | grep pcrs$ | xargs cat
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PCR-00: 35 4E 3B CE 23 9F 38 59 ...
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...
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PCR-23: 00 00 00 00 00 00 00 00 ...
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The QEMU TPM emulator device
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----------------------------
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The TPM emulator device uses an external TPM emulator called 'swtpm'
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for sending TPM commands to and receiving responses from. The swtpm
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program must have been started before trying to access it through the
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TPM emulator with QEMU.
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The TPM emulator implements a command channel for transferring TPM
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commands and responses as well as a control channel over which control
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commands can be sent. (see the `SWTPM protocol`_ specification)
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The control channel serves the purpose of resetting, initializing, and
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migrating the TPM state, among other things.
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The swtpm program behaves like a hardware TPM and therefore needs to
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be initialized by the firmware running inside the QEMU virtual
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machine. One necessary step for initializing the device is to send
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the TPM_Startup command to it. SeaBIOS, for example, has been
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instrumented to initialize a TPM 1.2 or TPM 2 device using this
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command.
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QEMU files related to the TPM emulator device:
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2020-06-12 10:54:44 +02:00
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- ``backends/tpm/tpm_emulator.c``
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- ``backends/tpm/tpm_util.c``
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2020-06-12 10:54:43 +02:00
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- ``include/sysemu/tpm_util.h``
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2020-01-21 16:29:35 +01:00
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The following commands start the swtpm with a UnixIO control channel over
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a socket interface. They do not need to be run as root.
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.. code-block:: console
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mkdir /tmp/mytpm1
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swtpm socket --tpmstate dir=/tmp/mytpm1 \
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--ctrl type=unixio,path=/tmp/mytpm1/swtpm-sock \
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--log level=20
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Command line to start QEMU with the TPM emulator device communicating
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with the swtpm (x86):
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.. code-block:: console
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qemu-system-x86_64 -display sdl -accel kvm \
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-m 1024 -boot d -bios bios-256k.bin -boot menu=on \
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-chardev socket,id=chrtpm,path=/tmp/mytpm1/swtpm-sock \
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-tpmdev emulator,id=tpm0,chardev=chrtpm \
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-device tpm-tis,tpmdev=tpm0 test.img
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In case a pSeries machine is emulated, use the following command line:
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.. code-block:: console
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qemu-system-ppc64 -display sdl -machine pseries,accel=kvm \
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-m 1024 -bios slof.bin -boot menu=on \
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-nodefaults -device VGA -device pci-ohci -device usb-kbd \
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-chardev socket,id=chrtpm,path=/tmp/mytpm1/swtpm-sock \
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-tpmdev emulator,id=tpm0,chardev=chrtpm \
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-device tpm-spapr,tpmdev=tpm0 \
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-device spapr-vscsi,id=scsi0,reg=0x00002000 \
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-device virtio-blk-pci,scsi=off,bus=pci.0,addr=0x3,drive=drive-virtio-disk0,id=virtio-disk0 \
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-drive file=test.img,format=raw,if=none,id=drive-virtio-disk0
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2020-03-09 22:58:18 +01:00
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In case an Arm virt machine is emulated, use the following command line:
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2020-03-05 17:51:46 +01:00
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.. code-block:: console
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qemu-system-aarch64 -machine virt,gic-version=3,accel=kvm \
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-cpu host -m 4G \
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-nographic -no-acpi \
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-chardev socket,id=chrtpm,path=/tmp/mytpm1/swtpm-sock \
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-tpmdev emulator,id=tpm0,chardev=chrtpm \
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-device tpm-tis-device,tpmdev=tpm0 \
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-device virtio-blk-pci,drive=drv0 \
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-drive format=qcow2,file=hda.qcow2,if=none,id=drv0 \
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2020-11-13 09:10:52 +01:00
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-drive if=pflash,format=raw,file=flash0.img,readonly=on \
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2020-03-05 17:51:46 +01:00
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-drive if=pflash,format=raw,file=flash1.img
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2020-01-21 16:29:35 +01:00
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In case SeaBIOS is used as firmware, it should show the TPM menu item
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after entering the menu with 'ESC'.
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.. code-block:: console
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Select boot device:
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1. DVD/CD [ata1-0: QEMU DVD-ROM ATAPI-4 DVD/CD]
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[...]
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5. Legacy option rom
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t. TPM Configuration
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The following commands should result in similar output inside the VM
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with a Linux kernel that either has the TPM TIS driver built-in or
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available as a module:
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.. code-block:: console
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# dmesg | grep -i tpm
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[ 0.711310] tpm_tis 00:06: 1.2 TPM (device=id 0x1, rev-id 1)
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# dmesg | grep TCPA
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[ 0.000000] ACPI: TCPA 0x0000000003FFD191C 000032 (v02 BOCHS \
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BXPCTCPA 0000001 BXPC 00000001)
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# ls -l /dev/tpm*
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crw-------. 1 root root 10, 224 Jul 11 10:11 /dev/tpm0
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# find /sys/devices/ | grep pcrs$ | xargs cat
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PCR-00: 35 4E 3B CE 23 9F 38 59 ...
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...
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PCR-23: 00 00 00 00 00 00 00 00 ...
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Migration with the TPM emulator
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===============================
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The TPM emulator supports the following types of virtual machine
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migration:
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- VM save / restore (migration into a file)
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- Network migration
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- Snapshotting (migration into storage like QoW2 or QED)
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The following command sequences can be used to test VM save / restore.
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In a 1st terminal start an instance of a swtpm using the following command:
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.. code-block:: console
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mkdir /tmp/mytpm1
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swtpm socket --tpmstate dir=/tmp/mytpm1 \
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--ctrl type=unixio,path=/tmp/mytpm1/swtpm-sock \
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--log level=20 --tpm2
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In a 2nd terminal start the VM:
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.. code-block:: console
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qemu-system-x86_64 -display sdl -accel kvm \
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-m 1024 -boot d -bios bios-256k.bin -boot menu=on \
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-chardev socket,id=chrtpm,path=/tmp/mytpm1/swtpm-sock \
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-tpmdev emulator,id=tpm0,chardev=chrtpm \
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-device tpm-tis,tpmdev=tpm0 \
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-monitor stdio \
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test.img
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Verify that the attached TPM is working as expected using applications
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inside the VM.
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To store the state of the VM use the following command in the QEMU
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monitor in the 2nd terminal:
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.. code-block:: console
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(qemu) migrate "exec:cat > testvm.bin"
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(qemu) quit
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At this point a file called ``testvm.bin`` should exists and the swtpm
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and QEMU processes should have ended.
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To test 'VM restore' you have to start the swtpm with the same
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parameters as before. If previously a TPM 2 [--tpm2] was saved, --tpm2
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must now be passed again on the command line.
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In the 1st terminal restart the swtpm with the same command line as
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before:
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.. code-block:: console
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swtpm socket --tpmstate dir=/tmp/mytpm1 \
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--ctrl type=unixio,path=/tmp/mytpm1/swtpm-sock \
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--log level=20 --tpm2
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In the 2nd terminal restore the state of the VM using the additional
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'-incoming' option.
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.. code-block:: console
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qemu-system-x86_64 -display sdl -accel kvm \
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-m 1024 -boot d -bios bios-256k.bin -boot menu=on \
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-chardev socket,id=chrtpm,path=/tmp/mytpm1/swtpm-sock \
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-tpmdev emulator,id=tpm0,chardev=chrtpm \
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-device tpm-tis,tpmdev=tpm0 \
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-incoming "exec:cat < testvm.bin" \
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test.img
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Troubleshooting migration
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-------------------------
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There are several reasons why migration may fail. In case of problems,
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please ensure that the command lines adhere to the following rules
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and, if possible, that identical versions of QEMU and swtpm are used
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at all times.
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VM save and restore:
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- QEMU command line parameters should be identical apart from the
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'-incoming' option on VM restore
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- swtpm command line parameters should be identical
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VM migration to 'localhost':
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- QEMU command line parameters should be identical apart from the
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'-incoming' option on the destination side
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- swtpm command line parameters should point to two different
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directories on the source and destination swtpm (--tpmstate dir=...)
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(especially if different versions of libtpms were to be used on the
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same machine).
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VM migration across the network:
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- QEMU command line parameters should be identical apart from the
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'-incoming' option on the destination side
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- swtpm command line parameters should be identical
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VM Snapshotting:
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- QEMU command line parameters should be identical
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- swtpm command line parameters should be identical
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Besides that, migration failure reasons on the swtpm level may include
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the following:
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- the versions of the swtpm on the source and destination sides are
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incompatible
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- downgrading of TPM state may not be supported
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- the source and destination libtpms were compiled with different
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compile-time options and the destination side refuses to accept the
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state
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- different migration keys are used on the source and destination side
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and the destination side cannot decrypt the migrated state
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(swtpm ... --migration-key ... )
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.. _TIS specification:
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https://trustedcomputinggroup.org/pc-client-work-group-pc-client-specific-tpm-interface-specification-tis/
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.. _CRB specification:
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https://trustedcomputinggroup.org/resource/pc-client-platform-tpm-profile-ptp-specification/
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.. _ACPI specification:
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https://trustedcomputinggroup.org/tcg-acpi-specification/
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.. _PPI specification:
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https://trustedcomputinggroup.org/resource/tcg-physical-presence-interface-specification/
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.. _SWTPM protocol:
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https://github.com/stefanberger/swtpm/blob/master/man/man3/swtpm_ioctls.pod
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