docs/specs/sev-guest-firmware.rst - third_party/qemu - Git at Google

 ====================================================
 QEMU/Guest Firmware Interface for AMD SEV and SEV-ES
 ====================================================

 Overview
 ========

 The guest firmware image (OVMF) may contain some configuration entries
 which are used by QEMU before the guest launches.  These are listed in a
 GUIDed table at a known location in the firmware image.  QEMU parses
 this table when it loads the firmware image into memory, and then QEMU
 reads individual entries when their values are needed.

 Though nothing in the table structure is SEV-specific, currently all the
 entries in the table are related to SEV and SEV-ES features.


 Table parsing in QEMU
 ---------------------

 The table is parsed from the footer: first the presence of the table
 footer GUID (96b582de-1fb2-45f7-baea-a366c55a082d) at 0xffffffd0 is
 verified.  If that is found, two bytes at 0xffffffce are the entire
 table length.

 Then the table is scanned backwards looking for the specific entry GUID.

 QEMU files related to parsing and scanning the OVMF table:
  - ``hw/i386/pc_sysfw_ovmf.c``

 The edk2 firmware code that constructs this structure is in the
 `OVMF Reset Vector file`_.


 Table memory layout
 -------------------

 +------------+--------+-----------------------------------------+
 |    GPA     | Length |               Description               |
 +============+========+=========================================+
 | 0xffffff80 | 4      | Zero padding                            |
 +------------+--------+-----------------------------------------+
 | 0xffffff84 | 4      | SEV hashes table base address           |
 +------------+--------+-----------------------------------------+
 | 0xffffff88 | 4      | SEV hashes table size (=0x400)          |
 +------------+--------+-----------------------------------------+
 | 0xffffff8c | 2      | SEV hashes table entry length (=0x1a)   |
 +------------+--------+-----------------------------------------+
 | 0xffffff8e | 16     | SEV hashes table GUID:                  |
 |            |        | 7255371f-3a3b-4b04-927b-1da6efa8d454    |
 +------------+--------+-----------------------------------------+
 | 0xffffff9e | 4      | SEV secret block base address           |
 +------------+--------+-----------------------------------------+
 | 0xffffffa2 | 4      | SEV secret block size (=0xc00)          |
 +------------+--------+-----------------------------------------+
 | 0xffffffa6 | 2      | SEV secret block entry length (=0x1a)   |
 +------------+--------+-----------------------------------------+
 | 0xffffffa8 | 16     | SEV secret block GUID:                  |
 |            |        | 4c2eb361-7d9b-4cc3-8081-127c90d3d294    |
 +------------+--------+-----------------------------------------+
 | 0xffffffb8 | 4      | SEV-ES AP reset RIP                     |
 +------------+--------+-----------------------------------------+
 | 0xffffffbc | 2      | SEV-ES reset block entry length (=0x16) |
 +------------+--------+-----------------------------------------+
 | 0xffffffbe | 16     | SEV-ES reset block entry GUID:          |
 |            |        | 00f771de-1a7e-4fcb-890e-68c77e2fb44e    |
 +------------+--------+-----------------------------------------+
 | 0xffffffce | 2      | Length of entire table including table  |
 |            |        | footer GUID and length (=0x72)          |
 +------------+--------+-----------------------------------------+
 | 0xffffffd0 | 16     | OVMF GUIDed table footer GUID:          |
 |            |        | 96b582de-1fb2-45f7-baea-a366c55a082d    |
 +------------+--------+-----------------------------------------+
 | 0xffffffe0 | 8      | Application processor entry point code  |
 +------------+--------+-----------------------------------------+
 | 0xffffffe8 | 8      | "\0\0\0\0VTF\0"                         |
 +------------+--------+-----------------------------------------+
 | 0xfffffff0 | 16     | Reset vector code                       |
 +------------+--------+-----------------------------------------+


 Table entries description
 =========================

 SEV-ES reset block
 ------------------

 Entry GUID: 00f771de-1a7e-4fcb-890e-68c77e2fb44e

 For the initial boot of an AP under SEV-ES, the "reset" RIP must be
 programmed to the RAM area defined by this entry.  The entry's format
 is:

 * IP value [0:15]
 * CS segment base [31:16]

 A hypervisor reads the CS segment base and IP value.  The CS segment
 base value represents the high order 16-bits of the CS segment base, so
 the hypervisor must left shift the value of the CS segment base by 16
 bits to form the full CS segment base for the CS segment register. It
 would then program the EIP register with the IP value as read.


 SEV secret block
 ----------------

 Entry GUID: 4c2eb361-7d9b-4cc3-8081-127c90d3d294

 This describes the guest RAM area where the hypervisor should inject the
 Guest Owner secret (using SEV_LAUNCH_SECRET).


 SEV hashes table
 ----------------

 Entry GUID: 7255371f-3a3b-4b04-927b-1da6efa8d454

 This describes the guest RAM area where the hypervisor should install a
 table describing the hashes of certain firmware configuration device
 files that would otherwise be passed in unchecked.  The current use is
 for the kernel, initrd and command line values, but others may be added.


 .. _OVMF Reset Vector file:
    https://github.com/tianocore/edk2/blob/master/OvmfPkg/ResetVector/Ia16/ResetVectorVtf0.asm
	====================================================
	QEMU/Guest Firmware Interface for AMD SEV and SEV-ES
	====================================================

	Overview
	========

	The guest firmware image (OVMF) may contain some configuration entries
	which are used by QEMU before the guest launches. These are listed in a
	GUIDed table at a known location in the firmware image. QEMU parses
	this table when it loads the firmware image into memory, and then QEMU
	reads individual entries when their values are needed.

	Though nothing in the table structure is SEV-specific, currently all the
	entries in the table are related to SEV and SEV-ES features.


	Table parsing in QEMU
	---------------------

	The table is parsed from the footer: first the presence of the table
	footer GUID (96b582de-1fb2-45f7-baea-a366c55a082d) at 0xffffffd0 is
	verified. If that is found, two bytes at 0xffffffce are the entire
	table length.

	Then the table is scanned backwards looking for the specific entry GUID.

	QEMU files related to parsing and scanning the OVMF table:
	- ``hw/i386/pc_sysfw_ovmf.c``

	The edk2 firmware code that constructs this structure is in the
	`OVMF Reset Vector file`_.


	Table memory layout
	-------------------

	+------------+--------+-----------------------------------------+
	\| GPA \| Length \| Description \|
	+============+========+=========================================+
	\| 0xffffff80 \| 4 \| Zero padding \|
	+------------+--------+-----------------------------------------+
	\| 0xffffff84 \| 4 \| SEV hashes table base address \|
	+------------+--------+-----------------------------------------+
	\| 0xffffff88 \| 4 \| SEV hashes table size (=0x400) \|
	+------------+--------+-----------------------------------------+
	\| 0xffffff8c \| 2 \| SEV hashes table entry length (=0x1a) \|
	+------------+--------+-----------------------------------------+
	\| 0xffffff8e \| 16 \| SEV hashes table GUID: \|
	\| \| \| 7255371f-3a3b-4b04-927b-1da6efa8d454 \|
	+------------+--------+-----------------------------------------+
	\| 0xffffff9e \| 4 \| SEV secret block base address \|
	+------------+--------+-----------------------------------------+
	\| 0xffffffa2 \| 4 \| SEV secret block size (=0xc00) \|
	+------------+--------+-----------------------------------------+
	\| 0xffffffa6 \| 2 \| SEV secret block entry length (=0x1a) \|
	+------------+--------+-----------------------------------------+
	\| 0xffffffa8 \| 16 \| SEV secret block GUID: \|
	\| \| \| 4c2eb361-7d9b-4cc3-8081-127c90d3d294 \|
	+------------+--------+-----------------------------------------+
	\| 0xffffffb8 \| 4 \| SEV-ES AP reset RIP \|
	+------------+--------+-----------------------------------------+
	\| 0xffffffbc \| 2 \| SEV-ES reset block entry length (=0x16) \|
	+------------+--------+-----------------------------------------+
	\| 0xffffffbe \| 16 \| SEV-ES reset block entry GUID: \|
	\| \| \| 00f771de-1a7e-4fcb-890e-68c77e2fb44e \|
	+------------+--------+-----------------------------------------+
	\| 0xffffffce \| 2 \| Length of entire table including table \|
	\| \| \| footer GUID and length (=0x72) \|
	+------------+--------+-----------------------------------------+
	\| 0xffffffd0 \| 16 \| OVMF GUIDed table footer GUID: \|
	\| \| \| 96b582de-1fb2-45f7-baea-a366c55a082d \|
	+------------+--------+-----------------------------------------+
	\| 0xffffffe0 \| 8 \| Application processor entry point code \|
	+------------+--------+-----------------------------------------+
	\| 0xffffffe8 \| 8 \| "\0\0\0\0VTF\0" \|
	+------------+--------+-----------------------------------------+
	\| 0xfffffff0 \| 16 \| Reset vector code \|
	+------------+--------+-----------------------------------------+


	Table entries description
	=========================

	SEV-ES reset block
	------------------

	Entry GUID: 00f771de-1a7e-4fcb-890e-68c77e2fb44e

	For the initial boot of an AP under SEV-ES, the "reset" RIP must be
	programmed to the RAM area defined by this entry. The entry's format
	is:

	* IP value [0:15]
	* CS segment base [31:16]

	A hypervisor reads the CS segment base and IP value. The CS segment
	base value represents the high order 16-bits of the CS segment base, so
	the hypervisor must left shift the value of the CS segment base by 16
	bits to form the full CS segment base for the CS segment register. It
	would then program the EIP register with the IP value as read.


	SEV secret block
	----------------

	Entry GUID: 4c2eb361-7d9b-4cc3-8081-127c90d3d294

	This describes the guest RAM area where the hypervisor should inject the
	Guest Owner secret (using SEV_LAUNCH_SECRET).


	SEV hashes table
	----------------

	Entry GUID: 7255371f-3a3b-4b04-927b-1da6efa8d454

	This describes the guest RAM area where the hypervisor should install a
	table describing the hashes of certain firmware configuration device
	files that would otherwise be passed in unchecked. The current use is
	for the kernel, initrd and command line values, but others may be added.


	.. _OVMF Reset Vector file:
	https://github.com/tianocore/edk2/blob/master/OvmfPkg/ResetVector/Ia16/ResetVectorVtf0.asm