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config: add AMD SEV-SNP support.

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This patch is for enabling AMD SEV-SNP support.

Where applicable, it extends support for existing SEV(-ES) variables
to SEV-SNP. This means that it retains no-debug and kernel-hashes
options, but the no-key-sharing option is removed.

The default policy value is identical to QEMU’s, and the therefore
required option has been added to configure SMT support.

The code was tested by running a VM without SEV, with SEV, SEV-ES,
SEV-SNP. Each configuration was tested with and without an EFI disk
attached. For SEV-enabled configurations it was also verified that the
kernel actually used the respective feature.

Signed-off-by: Philipp Giersfeld <philipp.giersfeld@canarybit.eu>
Tested-by: Markus Frank <m.frank@proxmox.com>
Reviewed-by: Markus Frank <m.frank@proxmox.com>
This commit is contained in:
Philipp Giersfeld 2025-03-31 15:59:30 +02:00 committed by Thomas Lamprecht
parent d8594cf594
commit 135270e7e7
3 changed files with 94 additions and 29 deletions
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7
PVE/API2/Qemu.pm
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@ -550,8 +550,13 @@ my sub create_disks : prototype($$$$$$$$$$$) {
my $volid; my $volid;
if ($ds eq 'efidisk0') { if ($ds eq 'efidisk0') {
my $smm = PVE::QemuServer::Machine::machine_type_is_q35($conf); my $smm = PVE::QemuServer::Machine::machine_type_is_q35($conf);
my $amd_sev_type = PVE::QemuServer::CPUConfig::get_amd_sev_type($conf);
die "SEV-SNP uses consolidated read-only firmware and does not require an EFI disk\n"
if $amd_sev_type && $amd_sev_type eq 'snp';
($volid, $size) = PVE::QemuServer::create_efidisk( ($volid, $size) = PVE::QemuServer::create_efidisk(
$storecfg, $storeid, $vmid, $fmt, $arch, $disk, $smm); $storecfg, $storeid, $vmid, $fmt, $arch, $disk, $smm, $amd_sev_type);
} elsif ($ds eq 'tpmstate0') { } elsif ($ds eq 'tpmstate0') {
# swtpm can only use raw volumes, and uses a fixed size # swtpm can only use raw volumes, and uses a fixed size
$size = PVE::Tools::convert_size(PVE::QemuServer::Drive::TPMSTATE_DISK_SIZE, 'b' => 'kb'); $size = PVE::Tools::convert_size(PVE::QemuServer::Drive::TPMSTATE_DISK_SIZE, 'b' => 'kb');

52
PVE/QemuServer.pm
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@ -53,7 +53,7 @@ use PVE::QemuConfig::NoWrite;
use PVE::QemuServer::Helpers qw(config_aware_timeout min_version kvm_user_version windows_version); use PVE::QemuServer::Helpers qw(config_aware_timeout min_version kvm_user_version windows_version);
use PVE::QemuServer::Cloudinit; use PVE::QemuServer::Cloudinit;
use PVE::QemuServer::CGroup; use PVE::QemuServer::CGroup;
use PVE::QemuServer::CPUConfig qw(print_cpu_device get_cpu_options get_cpu_bitness is_native_arch get_amd_sev_object); use PVE::QemuServer::CPUConfig qw(print_cpu_device get_cpu_options get_cpu_bitness is_native_arch get_amd_sev_object get_amd_sev_type);
use PVE::QemuServer::Drive qw(is_valid_drivename checked_volume_format drive_is_cloudinit drive_is_cdrom drive_is_read_only parse_drive print_drive); use PVE::QemuServer::Drive qw(is_valid_drivename checked_volume_format drive_is_cloudinit drive_is_cdrom drive_is_read_only parse_drive print_drive);
use PVE::QemuServer::Machine; use PVE::QemuServer::Machine;
use PVE::QemuServer::Memory qw(get_current_memory); use PVE::QemuServer::Memory qw(get_current_memory);
@ -89,6 +89,13 @@ my $OVMF = {
"$EDK2_FW_BASE/OVMF_CODE_4M.secboot.fd", "$EDK2_FW_BASE/OVMF_CODE_4M.secboot.fd",
"$EDK2_FW_BASE/OVMF_VARS_4M.ms.fd", "$EDK2_FW_BASE/OVMF_VARS_4M.ms.fd",
], ],
'4m-sev' => [
"$EDK2_FW_BASE/OVMF_CVM_CODE_4M.fd",
"$EDK2_FW_BASE/OVMF_CVM_VARS_4M.fd",
],
'4m-snp' => [
"$EDK2_FW_BASE/OVMF_CVM_4M.fd",
],
# FIXME: These are legacy 2MB-sized images that modern OVMF doesn't supports to build # FIXME: These are legacy 2MB-sized images that modern OVMF doesn't supports to build
# anymore. how can we deperacate this sanely without breaking existing instances, or using # anymore. how can we deperacate this sanely without breaking existing instances, or using
# older backups and snapshot? # older backups and snapshot?
@ -3184,15 +3191,22 @@ sub vga_conf_has_spice {
return $1 || 1; return $1 || 1;
} }
sub get_ovmf_files($$$) { sub get_ovmf_files($$$$) {
my ($arch, $efidisk, $smm) = @_; my ($arch, $efidisk, $smm, $amd_sev_type) = @_;
my $types = $OVMF->{$arch} my $types = $OVMF->{$arch}
or die "no OVMF images known for architecture '$arch'\n"; or die "no OVMF images known for architecture '$arch'\n";
my $type = 'default'; my $type = 'default';
if ($arch eq 'x86_64') { if ($arch eq 'x86_64') {
if (defined($efidisk->{efitype}) && $efidisk->{efitype} eq '4m') { if ($amd_sev_type && $amd_sev_type eq 'snp') {
$type = "4m-snp";
my ($ovmf) = $types->{$type}->@*;
die "EFI base image '$ovmf' not found\n" if ! -f $ovmf;
return ($ovmf);
} elsif ($amd_sev_type) {
$type = "4m-sev";
} elsif (defined($efidisk->{efitype}) && $efidisk->{efitype} eq '4m') {
$type = $smm ? "4m" : "4m-no-smm"; $type = $smm ? "4m" : "4m-no-smm";
$type .= '-ms' if $efidisk->{'pre-enrolled-keys'}; $type .= '-ms' if $efidisk->{'pre-enrolled-keys'};
} else { } else {
@ -3341,7 +3355,10 @@ my sub print_ovmf_drive_commandlines {
my $d = $conf->{efidisk0} ? parse_drive('efidisk0', $conf->{efidisk0}) : undef; my $d = $conf->{efidisk0} ? parse_drive('efidisk0', $conf->{efidisk0}) : undef;
my ($ovmf_code, $ovmf_vars) = get_ovmf_files($arch, $d, $q35); my $amd_sev_type = get_amd_sev_type($conf);
die "Attempting to configure SEV-SNP with flash devices instead of using `-bios`\n"
if $amd_sev_type && $amd_sev_type eq 'snp';
my ($ovmf_code, $ovmf_vars) = get_ovmf_files($arch, $d, $q35, $amd_sev_type);
my $var_drive_str = "if=pflash,unit=1,id=drive-efidisk0"; my $var_drive_str = "if=pflash,unit=1,id=drive-efidisk0";
if ($d) { if ($d) {
@ -3541,10 +3558,18 @@ sub config_to_command {
die "OVMF (UEFI) BIOS is not supported on 32-bit CPU types\n" die "OVMF (UEFI) BIOS is not supported on 32-bit CPU types\n"
if !$forcecpu && get_cpu_bitness($conf->{cpu}, $arch) == 32; if !$forcecpu && get_cpu_bitness($conf->{cpu}, $arch) == 32;
my ($code_drive_str, $var_drive_str) = my $amd_sev_type = get_amd_sev_type($conf);
print_ovmf_drive_commandlines($conf, $storecfg, $vmid, $arch, $q35, $version_guard); if ($amd_sev_type && $amd_sev_type eq 'snp') {
push $cmd->@*, '-drive', $code_drive_str; my $arch = PVE::QemuServer::Helpers::get_vm_arch($conf);
push $cmd->@*, '-drive', $var_drive_str; print "Existing EFI disk will be ignored for SEV-SNP\n"
if parse_drive('efidisk0', $conf->{efidisk0});
push $cmd->@*, '-bios', get_ovmf_files($arch, undef, undef, $amd_sev_type);
} else {
my ($code_drive_str, $var_drive_str) = print_ovmf_drive_commandlines(
$conf, $storecfg, $vmid, $arch, $q35, $version_guard);
push $cmd->@*, '-drive', $code_drive_str;
push $cmd->@*, '-drive', $var_drive_str;
}
} }
if ($q35) { # tell QEMU to load q35 config early if ($q35) { # tell QEMU to load q35 config early
@ -8368,7 +8393,8 @@ sub get_efivars_size {
my $arch = PVE::QemuServer::Helpers::get_vm_arch($conf); my $arch = PVE::QemuServer::Helpers::get_vm_arch($conf);
$efidisk //= $conf->{efidisk0} ? parse_drive('efidisk0', $conf->{efidisk0}) : undef; $efidisk //= $conf->{efidisk0} ? parse_drive('efidisk0', $conf->{efidisk0}) : undef;
my $smm = PVE::QemuServer::Machine::machine_type_is_q35($conf); my $smm = PVE::QemuServer::Machine::machine_type_is_q35($conf);
my (undef, $ovmf_vars) = get_ovmf_files($arch, $efidisk, $smm); my $amd_sev_type = get_amd_sev_type($conf);
my (undef, $ovmf_vars) = get_ovmf_files($arch, $efidisk, $smm, $amd_sev_type);
return -s $ovmf_vars; return -s $ovmf_vars;
} }
@ -8392,10 +8418,10 @@ sub update_tpmstate_size {
$conf->{tpmstate0} = print_drive($disk); $conf->{tpmstate0} = print_drive($disk);
} }
sub create_efidisk($$$$$$$) { sub create_efidisk($$$$$$$$) {
my ($storecfg, $storeid, $vmid, $fmt, $arch, $efidisk, $smm) = @_; my ($storecfg, $storeid, $vmid, $fmt, $arch, $efidisk, $smm, $amd_sev_type) = @_;
my (undef, $ovmf_vars) = get_ovmf_files($arch, $efidisk, $smm); my (undef, $ovmf_vars) = get_ovmf_files($arch, $efidisk, $smm, $amd_sev_type);
my $vars_size_b = -s $ovmf_vars; my $vars_size_b = -s $ovmf_vars;
my $vars_size = PVE::Tools::convert_size($vars_size_b, 'b' => 'kb'); my $vars_size = PVE::Tools::convert_size($vars_size_b, 'b' => 'kb');

64
PVE/QemuServer/CPUConfig.pm
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@ -18,6 +18,7 @@ get_cpu_options
get_cpu_bitness get_cpu_bitness
is_native_arch is_native_arch
get_amd_sev_object get_amd_sev_object
get_amd_sev_type
); );
# under certain race-conditions, this module might be loaded before pve-cluster # under certain race-conditions, this module might be loaded before pve-cluster
@ -231,25 +232,32 @@ my $cpu_fmt = {
my $sev_fmt = { my $sev_fmt = {
type => { type => {
description => "Enable standard SEV with type='std' or enable" description => "Enable standard SEV with type='std' or enable"
." experimental SEV-ES with the 'es' option.", ." experimental SEV-ES with the 'es' option or enable"
." experimental SEV-SNP with the 'snp' option.",
type => 'string', type => 'string',
default_key => 1, default_key => 1,
format_description => "sev-type", format_description => "sev-type",
enum => ['std', 'es'], enum => ['std', 'es', 'snp'],
maxLength => 3, maxLength => 3,
}, },
'no-debug' => { 'no-debug' => {
description => "Sets policy bit 0 to 1 to disallow debugging of guest", description => "Sets policy bit to disallow debugging of guest",
type => 'boolean', type => 'boolean',
default => 0, default => 0,
optional => 1, optional => 1,
}, },
'no-key-sharing' => { 'no-key-sharing' => {
description => "Sets policy bit 1 to 1 to disallow key sharing with other guests", description => "Sets policy bit to disallow key sharing with other guests (Ignored for SEV-SNP)",
type => 'boolean', type => 'boolean',
default => 0, default => 0,
optional => 1, optional => 1,
}, },
'allow-smt' => {
description => "Sets policy bit to allow Simultaneous Multi Threading (SMT) (Ignored unless for SEV-SNP)",
type => 'boolean',
default => 1,
optional => 1,
},
"kernel-hashes" => { "kernel-hashes" => {
description => "Add kernel hashes to guest firmware for measured linux kernel launch", description => "Add kernel hashes to guest firmware for measured linux kernel launch",
type => 'boolean', type => 'boolean',
@ -823,6 +831,13 @@ sub get_hw_capabilities {
} }
return $hw_capabilities; return $hw_capabilities;
} }
sub get_amd_sev_type {
my ($conf) = @_;
return undef if !$conf->{'amd-sev'};
return PVE::JSONSchema::parse_property_string($sev_fmt, $conf->{'amd-sev'})->{type};
}
sub get_amd_sev_object { sub get_amd_sev_object {
my ($amd_sev, $bios) = @_; my ($amd_sev, $bios) = @_;
@ -836,22 +851,41 @@ sub get_amd_sev_object {
if ($amd_sev_conf->{type} eq 'es' && !$sev_hw_caps->{'sev-support-es'}) { if ($amd_sev_conf->{type} eq 'es' && !$sev_hw_caps->{'sev-support-es'}) {
die "Your CPU does not support AMD SEV-ES.\n"; die "Your CPU does not support AMD SEV-ES.\n";
} }
if ($amd_sev_conf->{type} eq 'snp' && !$sev_hw_caps->{'sev-support-snp'}) {
die "Your CPU does not support AMD SEV-SNP.\n";
}
if (!$bios || $bios ne 'ovmf') { if (!$bios || $bios ne 'ovmf') {
die "To use AMD SEV, you need to change the BIOS to OVMF.\n"; die "To use AMD SEV, you need to change the BIOS to OVMF.\n";
} }
my $sev_mem_object = 'sev-guest,id=sev0'; my $sev_mem_object = '';
$sev_mem_object .= ',cbitpos='.$sev_hw_caps->{cbitpos}; my $policy;
$sev_mem_object .= ',reduced-phys-bits='.$sev_hw_caps->{'reduced-phys-bits'}; if ($amd_sev_conf->{type} eq 'es' || $amd_sev_conf->{type} eq 'std') {
$sev_mem_object .= 'sev-guest,id=sev0';
$sev_mem_object .= ',cbitpos='.$sev_hw_caps->{cbitpos};
$sev_mem_object .= ',reduced-phys-bits='.$sev_hw_caps->{'reduced-phys-bits'};
# guest policy bit calculation as described here:
# https://documentation.suse.com/sles/15-SP5/html/SLES-amd-sev/article-amd-sev.html#table-guestpolicy
$policy = 0;
$policy |= 1 << 0 if $amd_sev_conf->{'no-debug'};
$policy |= 1 << 1 if $amd_sev_conf->{'no-key-sharing'};
$policy |= 1 << 2 if $amd_sev_conf->{type} eq 'es';
# disable migration with bit 3 nosend to prevent amd-sev-migration-attack
$policy |= 1 << 3;
} elsif ($amd_sev_conf->{type} eq 'snp') {
$sev_mem_object .= 'sev-snp-guest,id=sev0';
$sev_mem_object .= ',cbitpos='.$sev_hw_caps->{cbitpos};
$sev_mem_object .= ',reduced-phys-bits='.$sev_hw_caps->{'reduced-phys-bits'};
# guest policy bit calculation as described in chapter 4.3:
# https://www.amd.com/system/files/TechDocs/56860.pdf
# Reserved bit must be one
$policy = 1 << 17;
$policy |= 1 << 16 if !defined($amd_sev_conf->{'allow-smt'}) || $amd_sev_conf->{'allow-smt'};
$policy |= 1 << 19 if !$amd_sev_conf->{'no-debug'};
}
# guest policy bit calculation as described here:
# https://documentation.suse.com/sles/15-SP5/html/SLES-amd-sev/article-amd-sev.html#table-guestpolicy
my $policy = 0;
$policy |= 1 << 0 if $amd_sev_conf->{'no-debug'};
$policy |= 1 << 1 if $amd_sev_conf->{'no-key-sharing'};
$policy |= 1 << 2 if $amd_sev_conf->{type} eq 'es';
# disable migration with bit 3 nosend to prevent amd-sev-migration-attack
$policy |= 1 << 3;
$sev_mem_object .= ',policy='.sprintf("%#x", $policy); $sev_mem_object .= ',policy='.sprintf("%#x", $policy);
$sev_mem_object .= ',kernel-hashes=on' if ($amd_sev_conf->{'kernel-hashes'}); $sev_mem_object .= ',kernel-hashes=on' if ($amd_sev_conf->{'kernel-hashes'});