ec86c0f678
The interface is described in the "TCG Platform Reset Attack Mitigation Specification", chapter 6 "ACPI _DSM Function". According to Laszlo, it's not so easy to implement in OVMF, he suggested to do it in qemu instead. See specification documentation for more details, and next commit for memory clear on reset handling. The underlying TCG specification is accessible from the following page. https://trustedcomputinggroup.org/resource/pc-client-work-group-platform-reset-attack-mitigation-specification-version-1-0/ This patch implements version 1.0. Signed-off-by: Marc-André Lureau <marcandre.lureau@redhat.com> Reviewed-by: Michael S. Tsirkin <mst@redhat.com> Reviewed-by: Igor Mammedov <imammedo@redhat.com> Tested-by: Stefan Berger <stefanb@linux.ibm.com> Reviewed-by: Michael S. Tsirkin <mst@redhat.com> Signed-off-by: Michael S. Tsirkin <mst@redhat.com>
428 lines
17 KiB
Plaintext
428 lines
17 KiB
Plaintext
QEMU TPM Device
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===============
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= Guest-side Hardware Interface =
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The QEMU TPM emulation implements a TPM TIS hardware interface following the
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Trusted Computing Group's specification "TCG PC Client Specific TPM Interface
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Specification (TIS)", Specification Version 1.3, 21 March 2013. This
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specification, or a later version of it, can be accessed from the following
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URL:
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https://trustedcomputinggroup.org/pc-client-work-group-pc-client-specific-tpm-interface-specification-tis/
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The TIS interface makes a memory mapped IO region in the area 0xfed40000 -
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0xfed44fff available to the guest operating system.
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QEMU files related to TPM TIS interface:
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- hw/tpm/tpm_tis.c
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- hw/tpm/tpm_tis.h
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QEMU also implements a TPM CRB interface following the Trusted Computing
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Group's specification "TCG PC Client Platform TPM Profile (PTP)
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Specification", Family "2.0", Level 00 Revision 01.03 v22, May 22, 2017.
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This specification, or a later version of it, can be accessed from the
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following URL:
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https://trustedcomputinggroup.org/resource/pc-client-platform-tpm-profile-ptp-specification/
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The CRB interface makes a memory mapped IO region in the area 0xfed40000 -
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0xfed40fff (1 locality) available to the guest 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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= fw_cfg interface =
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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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#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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The TPM device is defined with ACPI ID "PNP0C31". QEMU builds a SSDT and passes
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it into the guest through the fw_cfg device. The device description contains
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the base address of the TIS interface 0xfed40000 and the size of the MMIO area
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(0x5000). In case a TPM2 is used by QEMU, a TPM2 ACPI table is also provided.
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The device is described to be used in polling mode rather than interrupt mode
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primarily because no unused IRQ could be found.
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To support measurement logs to be written by the firmware, e.g. SeaBIOS, a TCPA
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table is implemented. This table provides a 64kb buffer where the firmware can
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write its log into. For TPM 2 only a more recent version of the TPM2 table
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provides support for measurements logs and a TCPA table does not need to be
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created.
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The TCPA and TPM2 ACPI tables follow the Trusted Computing Group specification
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"TCG ACPI Specification" Family "1.2" and "2.0", Level 00 Revision 00.37. This
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specification, or a later version of it, can be accessed from the following
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URL:
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https://trustedcomputinggroup.org/tcg-acpi-specification/
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== ACPI PPI Interface ==
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QEMU supports the Physical Presence Interface (PPI) for TPM 1.2 and TPM 2. This
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interface requires ACPI and firmware support. The specification can be found at
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the following URL:
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https://trustedcomputinggroup.org/resource/tcg-physical-presence-interface-specification/
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PPI enables a system administrator (root) to request a modification to the
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TPM upon reboot. The PPI specification defines the operation requests and the
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actions the firmware has to take. The system administrator passes the operation
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request number to the firmware through an ACPI interface which writes this
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number to a memory location that the firmware knows. Upon reboot, the firmware
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finds the number and sends commands to the the TPM. The firmware writes the TPM
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result code and the operation request number to a memory location that ACPI can
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read from and pass the result on to the administrator.
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The PPI specification defines a set of mandatory and optional operations for
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the firmware to implement. The ACPI interface also allows an administrator to
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list the supported operations. In QEMU the ACPI code is generated by QEMU, yet
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the firmware needs to implement support on a per-operations basis, and
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different firmwares may support a different subset. Therefore, QEMU introduces
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the virtual memory device for PPI where the firmware can indicate which
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operations it supports and ACPI can enable the ones that are supported and
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disable 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 correspond
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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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| | required. |
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+----------+-------------------------------------------------------------+
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The location of the table is given by the fw_cfg tpmppi_address field.
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The PPI memory region size is 0x400 (TPM_PPI_ADDR_SIZE) to leave
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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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The TPM implementation is split into two parts, frontend and backend. The
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frontend part is the hardware interface, such as the TPM TIS interface
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described earlier, and the other part is the TPM backend interface. The backend
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interfaces implement the interaction with a TPM device, which may be a physical
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or an emulated device. The split between the front- and backend devices allows
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a frontend to be connected with any available backend. This enables the TIS
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interface to be used with the passthrough backend or the (future) swtpm backend.
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QEMU files related to TPM backends:
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- backends/tpm.c
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- include/sysemu/tpm_backend.h
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- include/sysemu/tpm_backend_int.h
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== The QEMU TPM passthrough device ==
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In case QEMU is run on Linux as the host operating system it is possible to
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make the hardware TPM device available to a single QEMU guest. In this case the
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user must make sure that no other program is using the device, e.g., /dev/tpm0,
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before trying to start QEMU with it.
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The passthrough driver uses the host's TPM device for sending TPM commands
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and receiving responses from. Besides that it accesses the TPM device's sysfs
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entry for support of command cancellation. Since none of the state of a
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hardware TPM can be migrated between hosts, virtual machine migration is
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disabled when the TPM passthrough driver is used.
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Since the host's TPM device will already be initialized by the host's firmware,
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certain commands, e.g. TPM_Startup(), sent by the virtual firmware for device
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initialization, will fail. In this case the firmware should not use the TPM.
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Sharing the device with the host is generally not a recommended usage scenario
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for a TPM device. The primary reason for this is that two operating systems can
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then access the device's single set of resources, such as platform configuration
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registers (PCRs). Applications or kernel security subsystems, such as the
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Linux Integrity Measurement Architecture (IMA), are not expecting to share PCRs.
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QEMU files related to the TPM passthrough device:
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- hw/tpm/tpm_passthrough.c
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- hw/tpm/tpm_util.c
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- hw/tpm/tpm_util.h
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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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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 with a
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Linux kernel that either has the TPM TIS driver built-in or available as a
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module:
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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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The TPM emulator device uses an external TPM emulator called 'swtpm' for
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sending TPM commands to and receiving responses from. The swtpm program
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must have been started before trying to access it through the TPM emulator
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with QEMU.
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The TPM emulator implements a command channel for transferring TPM commands
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and responses as well as a control channel over which control commands can
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be sent. The specification for the control channel can be found here:
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https://github.com/stefanberger/swtpm/blob/master/man/man3/swtpm_ioctls.pod
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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 be
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initialized by the firmware running inside the QEMU virtual machine.
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One necessary step for initializing the device is to send the TPM_Startup
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command to it. SeaBIOS, for example, has been instrumented to initialize
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a TPM 1.2 or TPM 2 device using this command.
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QEMU files related to the TPM emulator device:
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- hw/tpm/tpm_emulator.c
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- hw/tpm/tpm_util.c
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- hw/tpm/tpm_util.h
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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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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 with
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the swtpm:
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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 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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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 with a
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Linux kernel that either has the TPM TIS driver built-in or available as a
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module:
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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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The TPM emulator supports the following types of virtual machine 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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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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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 inside
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the VM.
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To store the state of the VM use the following command in the QEMU monitor in
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the 2nd terminal:
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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 and QEMU
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processes should have ended.
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To test 'VM restore' you have to start the swtpm with the same parameters
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as before. If previously a TPM 2 [--tpm2] was saved, --tpm2 must now be
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passed again on the command line.
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In the 1st terminal restart the swtpm with the same command line as before:
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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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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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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 and,
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if possible, that identical versions of QEMU and swtpm are used at all
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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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