Difference between revisions of "StarlingX/Distro/tpm-verify"
(→TPM test guide) |
(→TPM test guide) |
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* Service startup | * Service startup | ||
$ systemctl start tpm2-abrmd.service | $ systemctl start tpm2-abrmd.service | ||
+ | |||
+ | === Test Environment === | ||
+ | *Linux localhost 4.18.0-147.3.1.el8_1.1.tis.x86_64 #1 SMP PREEMPT Thu Mar 12 04:19:22 UTC 2020 x86_64 x86_64 x86_64 GNU/Linux | ||
+ | *Linux localhost 4.18.0-147.3.1.rt24.96.el8.tis.3.x86_64 #1 SMP PREEMPT RT Thu Mar 12 09:04:05 UTC 2020 x86_64 x86_64 x86_64 GNU/Linux | ||
=== Encrypt / Decrypt === | === Encrypt / Decrypt === | ||
Line 35: | Line 39: | ||
$ tpm2_rsaencrypt -c obj.ctx -o data.encrypt data.in | $ tpm2_rsaencrypt -c obj.ctx -o data.encrypt data.in | ||
* Decrypt with RSA key | * Decrypt with RSA key | ||
− | $ tpm2_rsadecrypt -c obj.ctx -P subobjectpass -I data. | + | $ tpm2_rsadecrypt -c obj.ctx -P subobjectpass -I data.encrypt -o data.out |
* Results | * Results | ||
Contents in data.out should be identical to data.in. | Contents in data.out should be identical to data.in. |
Revision as of 03:43, 23 March 2020
Contents
TPM test guide
Team Information
- Project Lead: zhaos <zhaos@neusoft.com>
- Technical Lead:
- Contributors: chen.dq <chen.dq@neusoft.com>; fuyong <fuyong@neusoft.com>;
Team Objective / Priorities
Introduction on how to use tpm2-tools in starlingx
Hardware Requirement
TPM hardware device support
Preparation Environment
- Check TPM2.0 enabled in BIOS
- [Security] -> TPM2 enabled
- Check tpm driver has been loaded correctly
$ dmesg | grep tpm
- Service startup
$ systemctl start tpm2-abrmd.service
Test Environment
- Linux localhost 4.18.0-147.3.1.el8_1.1.tis.x86_64 #1 SMP PREEMPT Thu Mar 12 04:19:22 UTC 2020 x86_64 x86_64 x86_64 GNU/Linux
- Linux localhost 4.18.0-147.3.1.rt24.96.el8.tis.3.x86_64 #1 SMP PREEMPT RT Thu Mar 12 09:04:05 UTC 2020 x86_64 x86_64 x86_64 GNU/Linux
Encrypt / Decrypt
- Set TPM related password
- To take ownership with "ownerpass" as owner password, "endorsepass" as endorsement password, "lockpass" as lockout password:
$ tpm2_takeownership -o ownerpass -e endorsepass -l lockpass
- Create a Primary Object
- Create a Primary Object in endorsement hierarchy, with objectpass as the object password, with RSA keys & SHA256 name hash algorithm, with object context saved in file po.ctx.
$ tpm2_createprimary -H e -K objectpass -g 0x000b -G 0x0001 -C po.ctx -P endorsepass
- Create a RSA key under the previous primary key
- Create a RSA key under the previous primary key, with subobjectpass as the object password, with SHA256 name hash algorithm, with public portion saved in key.pub and private portion saved in key.priv.
$ tpm2_create -c po.ctx -P objectpass -K subobjectpass -g 0x000b -G 0x0001 -u key.pub -r key.priv
- Load the created RSA key
$ tpm2_load -c po.ctx -P objectpass -u key.pub -r key.priv -n key.name -C obj.ctx
- Encrypt with RSA key
$ tpm2_rsaencrypt -c obj.ctx -o data.encrypt data.in
- Decrypt with RSA key
$ tpm2_rsadecrypt -c obj.ctx -P subobjectpass -I data.encrypt -o data.out
- Results
Contents in data.out should be identical to data.in.
Signature / Verify Signature
- Sign on data with RSA key
- Sign on data with RSA key, using SHA256 as hash algorithm.
$ tpm2_sign -c obj.ctx -P subobjectpass -g 0x000b -m msg.in -s sig.out
- Verify signature with RSA key
$ tpm2_verifysignature -c obj.ctx -g 0x000b -m msg.in -s sig.out -t tk.sig
- Results
Signature verification success.