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# Tboot and TXT Installation
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This guide gives an overview of how to install tboot for DRTM - dynamic root of trust measurement.
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## Installation
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WARNING this involves some changes to your boot sequence which may cause your system not to boot - or worse. Undertaking of the procedure here is at your own risk. Do not try this on a machine with valuable processes, services or data, and especially NOT on a running production machine (no names).
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This guide was tested on a Lenovo X1 Carbon 5th Generation laptop running Ubuntu 20.04. It should work in many other environments with little or no modification.
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### Step 1 - Preliminaries
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We assume the following are available:
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* The TPM 2.0 device is enabled in the BIOS and visible as /dev/tpm0
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* TXT is supported by your CPU and has been enabled in the BIOS
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* You have root/sudo access and sufficient familiarity with Linux/Unix
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* A compilation environment is available, eg: gcc, make etc.
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### Step 2 - Compiling tboot
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Firstly we need to download tboot from here https://sourceforge.net/projects/tboot/ - this can be made to any directory. You should obtain a zip file for the latest release which as of writing is *1.10.2*
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```bash
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gunzip tboot-1.10.2.tar.zip
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tar xvf tboot-1.10.2.tar
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cd tboot-1.10.2
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```
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Please take time to read README.md and the documentation in the `docs` directory. To compile do the following, also ensuring you have all the necessary dependencies
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```bash
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sudo apt install build-essential mercurial libz-dev libssl-dev
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make
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```
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After compilation you can check the following directories:
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```bash
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$ ls tboot
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20_linux_tboot 20_linux_xen_tboot common Config.mk include Makefile tboot tboot.gz tboot.strip tboot-syms txt
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$ ls utils
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Makefile txt-acminfo txt-acminfo.c txt-acminfo.o txt-parse_err txt-parse_err.c txt-parse_err.o txt-stat txt-stat.c txt-stat.o
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```
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The important files are tboot.gz and txt-stat - these are the tboot executable itself and a utility for examining the logs generated. There are other files, 20_linux_tboot is a grub configuraton file, plus there are other utilities.
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If all has been successful:
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```bash
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sudo make install
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```
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This will install tboot.gz into /boot and the grub files to /etc/grub.d. A symbol table tboot-syms will also be copied to boot, you don't need to worry about this.
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### Step 3 - Grub
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To get tboot to run it is necessary to get grub to call tboot. Fortunately the developers of tboot have made this process painless. However a word of caution: make sure you backup your grub configuration file so that you have a working version if all goes wrong:
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```bash
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sudo /boot/grub/grub.cfg /boot/grub/grub.cfg.working
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```
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Before generating the grub configuration files we should also modify the grub timeout which is found in the file `/etc/default/grub`. Edit this file (sudo required) and find the line `GRUB_TIMEOUT` and set this to something sensible like `GRUB_TIMEOUT=20`.
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I also like to comment out any splash screen and quiet operation - mainly because I like seeing the boot sequence but also because the manufacturer logos hide the grub menu which we'll need to get to later.
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Please refer to the grub documentation for more information here.
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Now generating the grub configuration:
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```bash
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sudo grub-mkconfig -o /boot/grub/grub.cfg
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```
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My Ubuntu distribution ships grub-mkconfig, which should be the same as grub2-mkconfig in other distributions. Both should work without issues, but if there is a problem here's a page that describes what is going on: https://linuxhint.com/grub2_mkconfig_tutorial/
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### Step 4 - ACM
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Tboot requires an Accredited Code Module from Intel. Not all CPUs support TXT - most i5 an i7s do and as far as I have seen Xeons have the ACM already onboard the CPU itself.
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The ACMs are available from here: https://software.intel.com/content/www/us/en/develop/articles/intel-trusted-execution-technology.html
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You need to find your CPU type, mine is a 7th generation i7 and from there the correct ACM to download, again in my case this is: 6th_7th_gen_i5_i7-SINIT_79.zip . You can find your CPU type by running `cat /proc/cpuinfo`.
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Unzip this and you'll get a file 6th_7th_gen_i5_i7-SINIT_79.bin (this is what is on mine!). This file should be copied to /boot
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```bash
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unzip 6th_7th_gen_i5_i7-SINIT_79.zip
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sudo cp 6th_7th_gen_i5_i7-SINIT_79.bin /boot
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```
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### Step 5 - Reboot
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As stated earlier what we're looking for here is the boot sequence going to the grub menu rather than any splash screen. On my laptop hitting Escape during the splash screen shows me the grub menu. You need to search for the tboot menu entry and select this.
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You should then see a lot of log information from grub and tboot, and eventually Linux will start. At this point you can log in.
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### Step 6 - Testing
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Remember the commands in tboot's utils directory we compiled back in step 2? We need those now.
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To check if the trusted boot has worked run:
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```bash
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sudo ./txt-stat
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```
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and you'll get a huge amount of information. The easiest way to check is to run the following:
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```bash
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$ sudo ./txt-stat | grep "TXT measured launch"
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TXT measured launch: TRUE
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```
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If the line above reads TRUE then all has worked and a DRTM has been performed successfully. There is another tool `txt-parse_err` which can be used if things have not worked out; as I've never been in this situation then I have no idea what it produces, but there is a description a bit later.
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Because the ACM writes values to the TPM you can use tools to read these and we describe this a bit later.
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## Getting Help
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Tboot has a discussion page that you should see. Also tpm.dev has some very knowledgeable people who can help.
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## Tools
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A brief description of the tools
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### txt-stat
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This tool shows the TXT log and status. From this log you can see what values were written to the TPM PCR and detailed information about the process.
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```bash
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sudo ./txt-stat
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```
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The quick way of finding out if things have worked has been described earlier: `sudo ./txt-stat | grep "TXT measured launch"` which should report TRUE.
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This tool needs access to `/dev/mem` which provides access to the physical memory hence the requirement for sudo - it is probably a bad idea to play with permissions here. Read this for more information: https://man7.org/linux/man-pages/man4/mem.4.html
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### txt-parse_err
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I have no idea... this is what I get
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```bash
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$ sudo ./txt-parse_err
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ERRORCODE: 0x00000000
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no error
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```
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which I assume means all was successful
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### txt-acminfo
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If you want to expore what is inside the ACM you downloaded from Intel this command provides this information. Just give it the location of your ACM.
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```bash
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./txt-acminfo /boot/6th_7th_gen_i5_i7-SINIT_79.bin
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```
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One interesting piece of information is the signature which contains the RSA public key used to sign the ACM. I assume that you can verify this against what Intel has and if someone knows how to do this please let me know or even better, write it up here!
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## TPM Operations
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As noted the ACM writes to the TPM, specifically to PCRs 17 and 18 in the SHA1 and SHA256 banks. Knowing this allows all kinds of interesting things to be done:
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### PCR Read
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```bash
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$ tpm2_pcrread sha256:17,18
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sha256:
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17: 0x025238F270168234D2D90B312C5EF0E771A76FEC48A704196E2E51D1B51A3C17
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18: 0x473698EB00F05501CF8F08C6C54BD2105D6F17036C6DA00E44A4288B17FC3282
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```
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If these value in 17 changes then your kernel has changed. PCR 18 is a hash of the TXT log.
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IIRC there are utilities to calculate both of these values from the output of txt-stat. If you find them let me know please.
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### Quoting
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A better idea would be to collect a quote from the TPM for use in your attestation environment you can do this like so. NB: I assume you have a suitable attestation key loaded somewhere - mine is at 0x810100AA in this case. The final echo statement should return 0 for successful signature validation:
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```bash
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tpm2_quote -c 0x810100AA -l sha256:18 -m quote.msg -s quote.sig -g sha256 -q 123456 -o pcrs.out
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tpm2_print -t TPMS_ATTEST quote.msg
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tpm2_verifysignature -c 0x810100AA -g sha256 -s quote.sig -m quote.msg
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echo $?
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```
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Refer to a tutorial on quoting, eg: https://github.com/nokia/TPMCourse/blob/master/docs/quoting.md
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Here is a full worked example:
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```bash
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/tmp$ tpm2_quote -c 0x810100AA -l sha256:18 -m quote.msg -s quote.sig -g sha256 -q 123456 -o pcrs.out
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quoted: ff54434780180022000be235c450700dc31d3526e4f94dcf816fe5aac91b22563ffc7bbb831d9d685f62000312345600000000556646320000001200000001010047000c44a0100400000001000b0300000400200d1ce194d7dab9ac2a9ae182f31b865123df22459b90e398ec4537388000af98
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signature:
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alg: rsassa
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sig: 9788d6996cd569ba32c6cd63effedc405dc32762e12fbaf041a7df81902f88f372b1c62ef8cbd3b8840c7432e49a76d71f8e2716ddeb08147f2d4d78a1f566c83a94beb45d2bb7eb16de64c814e8c1b737dd69724e372606f83b91a3a666e4b64ca1c802d0c620cded4668ee1a765cab18422eeccf10fa001c42422c5aa251221f69f1c1b1eb19ac6bf6bd155c42d1a4a77c29a9a29eef090ff8266703f6dd1062c9d1f276ece45ca1c2f3db6662f036263441f99d1a8ddf1f70c584fa76f9ad365fa3c1ec7f627e233ee73b1ac7c99b3d5dec975c543e1995c6ae21434ea7166910edf4c9f6cf0dd0b1516a86321e6ed38dea84c56f9f3e238021533b8ff37f
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pcrs:
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sha256:
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18: 0x473698EB00F05501CF8F08C6C54BD2105D6F17036C6DA00E44A4288B17FC3282
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calcDigest: 0d1ce194d7dab9ac2a9ae182f31b865123df22459b90e398ec4537388000af98
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/tmp$ tpm2_print -t TPMS_ATTEST quote.msg
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magic: ff544347
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type: 8018
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qualifiedSigner: 000be235c450700dc31d3526e4f94dcf816fe5aac91b22563ffc7bbb831d9d685f62
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extraData: 123456
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clockInfo:
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clock: 1432766002
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resetCount: 18
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restartCount: 1
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safe: 1
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firmwareVersion: 0410a0440c004700
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attested:
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quote:
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pcrSelect:
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count: 1
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pcrSelections:
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0:
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hash: 11 (sha256)
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sizeofSelect: 3
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pcrSelect: 000004
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pcrDigest: 0d1ce194d7dab9ac2a9ae182f31b865123df22459b90e398ec4537388000af98
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/tmp$ tpm2_verifysignature -c 0x810100AA -g sha256 -s quote.sig -m quote.msg
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/tmp$ echo $?
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```
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### Sealing
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You can use PCR17's value to seal data, eg: keys, in the TPM's NVRAM. If PCR17 changes then that area of NVRAM will no longer be accessable. Refer to https://github.com/nokia/TPMCourse/blob/master/docs/nvram.md#sealing for more information about this process.
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These commands will create a policy based on the current value of PCR 17, create an NVRAM area that can only be read or written to against that policy. We write in some secrets to that NVRAM area (providing the policy) and then read the area using the current value of PCR 17 and the policy revealing the secret.
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```bash
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tpm2_pcrread -o drtm.pcrvalues sha256:17
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tpm2_createpolicy --policy-pcr -l sha256:17 -f drtm.pcrvalues -L drtm.policy
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tpm2_nvdefine 0x1500019 -C o -s 32 -L drtm.policy -a "policyread|policywrite"
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echo "my password" > secretFile
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tpm2_nvwrite 0x1500019 -C 0x1500019 -P pcr:sha256:17=drtm.pcrvalues -i secretFile
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tpm2_nvread 0x1500019 -C 0x1500019 -P pcr:sha256:17=drtm.pcrvalues
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```
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As NVRAM is persistent you can now try an upgrade of your system, eg: a new kernel, rebooting and then trying to read that NVRAM area just with the command
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```bash
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tpm2_nvread 0x1500019 -C 0x1500019 -P pcr:sha256:17=drtm.pcrvalues
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```
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In order to reveal the secret you need to revert back to the kernel that generates the correct hash otherwise the data is sealed forever. A really good way of protecting secrets.
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## Things Not Described
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You can do some very clever things with keys and data stored in the TPM NVRAM. Tboot actually tries to obtain manufacturer certificates from some standard locations onboard the TPM. I have not played with this, but there are some significant security benefits to be gained.
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Also a very good chance of breaking your boot sequence too....but this is what you want in this case :)
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## Anecdotes
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A friend of mine spent a couple of days trying to figure out why a top of the range PC would not perform the DRTM correctly using tboot. Tboot returned lots of odd errors and PCRs 17 and 18 were empty. TPM and TXT *were* enabled in BIOS so that wasn't the problem.
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Until we discovered that this "top of the range" PC wasn't exactly "top of the range"... it has an i3 CPU and not an i7 CPU... Why was TXT an option in the BIOS...no idea....why didn't we notice it was an i3...no idea.
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The moral here is always check beforehand
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The other story involved a lot of very expensive servers in a very cold machine room. After many many many many reboots and much debugging we discovered that the BIOS on those machines was broken beyond all definitions of broken. It turns out that enabling TPM disabled TXT and vice versa....don't ask. After coffee I believe we planned to hunt down the writers of that particular BIOS and perform unspeakable acts, like making then use Windows ME forever....Geneva Convention notwithstanding.
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