• xen平台中vtpm的使用说明


    Copyright (c) 2010-2012 United States Government, as represented by
    the Secretary of Defense.  All rights reserved.
    November 12 2012
    Authors: Matthew Fioravante (JHUAPL), Daniel De Graaf (NSA)

    This document describes the virtual Trusted Platform Module (vTPM) subsystem
    for Xen. The reader is assumed to have familiarity with building and installing
    Xen, Linux, and a basic understanding of the TPM and vTPM concepts.
    该文档用于介绍xen平台上的虚拟vtpm子系统
    ------------------------------
    INTRODUCTION
    ------------------------------
    The goal of this work is to provide a TPM functionality to a virtual guest
    operating system (a DomU).  This allows programs to interact with a TPM in a
    virtual system the same way they interact with a TPM on the physical system.
    Each guest gets its own unique, emulated, software TPM.  However, each of the
    vTPM's secrets (Keys, NVRAM, etc) are managed by a vTPM Manager domain, which
    seals the secrets to the Physical TPM.  If the process of creating each of these
    domains (manager, vTPM, and guest) is trusted, the vTPM subsystem extends the
    chain of trust rooted in the hardware TPM to virtual machines in Xen. Each
    major component of vTPM is implemented as a separate domain, providing secure
    separation guaranteed by the hypervisor. The vTPM domains are implemented in
    mini-os to reduce memory and processor overhead.
     
    This mini-os vTPM subsystem was built on top of the previous vTPM
    work done by IBM and Intel corporation.
     
    ------------------------------
    DESIGN OVERVIEW
    ------------------------------

    The architecture of vTPM is described below:

    +------------------+
    |    Linux DomU    | ...
    |       |  ^       |
    |       v  |       |
    |   xen-tpmfront   |
    +------------------+
            |  ^
            v  |
    +------------------+
    | mini-os/tpmback  |
    |       |  ^       |
    |       v  |       |
    |  vtpm-stubdom    | ...
    |       |  ^       |
    |       v  |       |
    | mini-os/tpmfront |
    +------------------+
            |  ^
            v  |
    +------------------+
    | mini-os/tpmback  |
    |       |  ^       |
    |       v  |       |
    | vtpmmgr-stubdom  |
    |       |  ^       |
    |       v  |       |
    | mini-os/tpm_tis  |
    +------------------+
            |  ^
            v  |
    +------------------+
    |   Hardware TPM   |
    +------------------+
     * Linux DomU: The Linux based guest that wants to use a vTPM. There many be
                   more than one of these.

     * xen-tpmfront.ko: Linux kernel virtual TPM frontend driver. This driver
                        provides vTPM access to a para-virtualized Linux based DomU.

     * mini-os/tpmback: Mini-os TPM backend driver. The Linux frontend driver
                        connects to this backend driver to facilitate
                        communications between the Linux DomU and its vTPM. This
                        driver is also used by vtpmmgr-stubdom to communicate with
                        vtpm-stubdom.

     * vtpm-stubdom: A mini-os stub domain that implements a vTPM. There is a
                     one to one mapping between running vtpm-stubdom instances and
                     logical vtpms on the system. The vTPM Platform Configuration
                     Registers (PCRs) are all initialized to zero.

     * mini-os/tpmfront: Mini-os TPM frontend driver. The vTPM mini-os domain
                         vtpm-stubdom uses this driver to communicate with
                         vtpmmgr-stubdom. This driver could also be used separately to
                         implement a mini-os domain that wishes to use a vTPM of
                         its own.

     * vtpmmgr-stubdom: A mini-os domain that implements the vTPM manager.
                   There is only one vTPM manager and it should be running during
                   the entire lifetime of the machine.  This domain regulates
                   access to the physical TPM on the system and secures the
                   persistent state of each vTPM.

     * mini-os/tpm_tis: Mini-os TPM version 1.2 TPM Interface Specification (TIS)
                        driver. This driver used by vtpmmgr-stubdom to talk directly to
                        the hardware TPM. Communication is facilitated by mapping
                        hardware memory pages into vtpmmgr-stubdom.

     * Hardware TPM: The physical TPM that is soldered onto the motherboard.

    ------------------------------
    INSTALLATION
    ------------------------------

    Prerequisites:
    --------------
    You must have an x86 machine with a TPM on the motherboard.
    The only software requirement to compiling vTPM is cmake.
    You must use libxl to manage domains with vTPMs. 'xm' is
    deprecated and does not support vTPM.

    Compiling the XEN tree:
    -----------------------

    Compile and install the XEN tree as usual. Be sure to build and install
    the stubdom tree.

    Compiling the LINUX dom0 kernel:
    --------------------------------

    The Linux dom0 kernel should not try accessing the TPM while the vTPM
    Manager domain is accessing it; the simplest way to accomplish this is
    to ensure the kernel is compiled without a driver for the TPM, or avoid
    loading the driver by blacklisting the module.

    Compiling the LINUX domU kernel:
    --------------------------------

    The domU kernel used by domains with vtpms must include the xen-tpmfront.ko
    driver. It can be built directly into the kernel or as a module; however, some
    features such as IMA require the TPM to be built in to the kernel.

    CONFIG_TCG_TPM=y
    CONFIG_TCG_XEN=y

    ------------------------------
    VTPM MANAGER SETUP
    ------------------------------

    Manager disk image setup:
    -------------------------

    The vTPM Manager requires a disk image to store its
    encrypted data. The image does not require a filesystem
    and can live anywhere on the host disk. The image does not need
    to be large. 8 to 16 Mb should be sufficient.

    # dd if=/dev/zero of=/var/vtpmmgr-stubdom.img bs=16M count=1

    Manager config file:
    --------------------

    The vTPM Manager domain (vtpmmgr-stubdom) must be started like
    any other Xen virtual machine and requires a config file.
    The manager requires a disk image for storage and permission
    to access the hardware memory pages for the TPM. An
    example configuration looks like the following.

    kernel="/usr/lib/xen/boot/vtpmmgr-stubdom.gz"
    memory=16
    disk=["file:/var/vtpmmgr-stubdom.img,hda,w"]
    name="vtpmmgr"
    iomem=["fed40,5"]

    The iomem line tells xl to allow access to all of the TPM IO memory
    pages, which are 5 pages (one per locality) that start at 0xfed40000. By
    default, the TPM manager uses locality 0 (so only the page at 0xfed40 is
    needed); this can be changed on the domain's command line.

    Starting and stopping the manager:
    ----------------------------------

    The vTPM manager should be started at boot, you may wish to
    create an init script to do this.

    # xl create -c vtpmmgr-stubdom.cfg

    Once initialization is complete you should see the following:
    INFO[VTPM]: Waiting for commands from vTPM's:

    To shutdown the manager you must destroy it. To avoid data corruption,
    only destroy the manager when you see the above "Waiting for commands"
    message. This ensures the disk is in a consistent state.

    # xl destroy vtpmmgr-stubdom

    ------------------------------
    VTPM AND LINUX PVM SETUP
    ------------------------------

    In the following examples we will assume we have Linux
    guest named "domu" with its associated configuration
    located at /home/user/domu. It's vtpm will be named
    domu-vtpm.

    vTPM disk image setup:
    ----------------------

    The vTPM requires a disk image to store its persistent
    data. The image does not require a filesystem. The image
    does not need to be large. 8 Mb should be sufficient.

    # dd if=/dev/zero of=/home/user/domu/vtpm.img bs=8M count=1

    vTPM config file:
    -----------------

    The vTPM domain requires a configuration file like
    any other domain. The vTPM requires a disk image for
    storage and a TPM frontend driver to communicate
    with the manager. An example configuration is given:

    kernel="/usr/lib/xen/boot/vtpm-stubdom.gz"
    memory=8
    disk=["file:/home/user/domu/vtpm.img,hda,w"]
    name="domu-vtpm"
    vtpm=["backend=vtpmmgr,uuid=ac0a5b9e-cbe2-4c07-b43b-1d69e46fb839"]

    The vtpm= line sets up the tpm frontend driver. The backend must set
    to vtpmmgr. You are required to generate a uuid for this vtpm.
    You can use the uuidgen unix program or some other method to create a
    uuid. The uuid uniquely identifies this vtpm to manager.

    If you wish to clear the vTPM data you can either recreate the
    disk image or change the uuid.

    Linux Guest config file:
    ------------------------

    The Linux guest config file needs to be modified to include
    the Linux tpmfront driver. Add the following line:

    vtpm=["backend=domu-vtpm"]

    Currently only Linux guests are supported (PV or HVM with PV drivers).

    Launching and shut down:
    ------------------------

    To launch a Linux guest with a vTPM we first have to start the vTPM domain.

    # xl create -c /home/user/domu/vtpm.cfg

    After initialization is complete, you should see the following:
    Info: Waiting for frontend domain to connect..

    Next, launch the Linux guest

    # xl create -c /home/user/domu/domu.cfg

    If xen-tpmfront was compiled as a module, be sure to load it
    in the guest.

    # modprobe xen-tpmfront

    After the Linux domain boots and the xen-tpmfront driver is loaded,
    you should see the following on the vtpm console:

    Info: VTPM attached to Frontend X/Y

    If you have trousers and tpm_tools installed on the guest, you can test the
    vtpm.

    On guest:
    # tcsd (if tcsd is not running already)
    # tpm_version

    The version command should return the following:
      TPM 1.2 Version Info:
      Chip Version:        1.2.0.7
      Spec Level:          2
      Errata Revision:     1
      TPM Vendor ID:       ETHZ
      TPM Version:         01010000
      Manufacturer Info:   4554485a

    You should also see the command being sent to the vtpm console as well
    as the vtpm saving its state. You should see the vtpm key being
    encrypted and stored on the vtpmmgr console.

    You may wish to write a script to start your vtpm and guest together and
    to destroy the vtpm when the guest shuts down.

    ------------------------------
    INTEGRATION WITH PV-GRUB
    ------------------------------

    The vTPM currently starts up with all PCRs set to their default values (all
    zeros for the lower 16).  This means that any decisions about the
    trustworthiness of the created domain must be made based on the environment that
    created the vTPM and the domU; for example, a system that only constructs images
    using a trusted configuration and guest kernel be able to provide guarantees
    about the guests and any measurements done that kernel (such as the IMA TCB
    log).  Guests wishing to use a custom kernel in such a secure environment are
    often started using the pv-grub bootloader as the kernel, which then can load
    the untrusted kernel without needing to parse an untrusted filesystem and kernel
    in dom0.  If the pv-grub stub domain succeeds in connecting to a vTPM, it will
    extend the hash of the kernel that it boots into PCR #4, and will extend the
    command line and initrd into PCR #5 before booting so that a domU booted in this
    way can attest to its early boot state.

    ------------------------------
    MORE INFORMATION
    ------------------------------

    See stubdom/vtpmmgr/README for more details about how
    the manager domain works, how to use it, and its command line
    parameters.

    See stubdom/vtpm/README for more specifics about how vtpm-stubdom
    operates and the command line options it accepts.

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  • 原文地址:https://www.cnblogs.com/summer2017/p/7868580.html
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