security/intel/stm: Add STM support

This update is a combination of all four of the patches so that the
commit can be done without breaking parts of coreboot.  This possible
breakage is because of the cross-dependencies between the original
separate patches would cause failure because of data structure changes.

security/intel/stm

This directory contains the functions that check and move the STM to the
MSEG, create its page tables, and create the BIOS resource list.

The STM page tables is a six page region located in the MSEG and are
pointed to by the CR3 Offset field in the MSEG header.  The initial
page tables will identity map all memory between 0-4G.  The STM starts
in IA32e mode, which requires page tables to exist at startup.

The BIOS resource list defines the resources that the SMI Handler is
allowed to access.  This includes the SMM memory area where the SMI
handler resides and other resources such as I/O devices.  The STM uses
the BIOS resource list to restrict the SMI handler's accesses.

The BIOS resource list is currently located in the same area as the
SMI handler.  This location is shown in the comment section before
smm_load_module in smm_module_loader.c

Note: The files within security/intel/stm come directly from their
Tianocore counterparts.  Unnecessary code has been removed and the
remaining code has been converted to meet coreboot coding requirements.

For more information see:
     SMI Transfer Monitor (STM) User Guide, Intel Corp.,
     August 2015, Rev 1.0, can be found at firmware.intel.com

include/cpu/x86:

Addtions to include/cpu/x86 for STM support.

cpu/x86:

STM Set up - The STM needs to be loaded into the MSEG during BIOS
initialization and the SMM Monitor Control MSR be set to indicate
that an STM is in the system.

cpu/x86/smm:

SMI module loader modifications needed to set up the
SMM descriptors used by the STM during its initialization

Change-Id: If4adcd92c341162630ce1ec357ffcf8a135785ec
Signed-off-by: Eugene D. Myers <edmyers@tycho.nsa.gov>
Reviewed-on: https://review.coreboot.org/c/coreboot/+/33234
Tested-by: build bot (Jenkins) <no-reply@coreboot.org>
Reviewed-by: Patrick Georgi <pgeorgi@google.com>
Reviewed-by: ron minnich <rminnich@gmail.com>
This commit is contained in:
Eugene Myers 2020-01-21 17:01:47 -05:00 committed by Patrick Georgi
parent d498e52c3f
commit ae438be578
16 changed files with 2104 additions and 1 deletions

4
configs/config.stm Normal file
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@ -0,0 +1,4 @@
CONFIG_VENDOR_PURISM=y
CONFIG_BOARD_PURISM_LIBREM15_V4=y
CONFIG_STM=y
CONFIG_IED_REGION_SIZE=0

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@ -38,6 +38,8 @@
#include <timer.h> #include <timer.h>
#include <thread.h> #include <thread.h>
#include <security/intel/stm/SmmStm.h>
#define MAX_APIC_IDS 256 #define MAX_APIC_IDS 256
struct mp_callback { struct mp_callback {
@ -743,6 +745,23 @@ static void asmlinkage smm_do_relocation(void *arg)
/* Setup code checks this callback for validity. */ /* Setup code checks this callback for validity. */
mp_state.ops.relocation_handler(cpu, curr_smbase, perm_smbase); mp_state.ops.relocation_handler(cpu, curr_smbase, perm_smbase);
if (CONFIG(STM)) {
if (is_smm_enabled()) {
uintptr_t mseg;
mseg = mp_state.perm_smbase +
(mp_state.perm_smsize - CONFIG_MSEG_SIZE);
stm_setup(mseg, p->cpu, runtime->num_cpus,
perm_smbase,
mp_state.perm_smbase,
runtime->start32_offset);
} else {
printk(BIOS_DEBUG,
"STM not loaded because SMM is not enabled!\n");
}
}
} }
static void adjust_smm_apic_id_map(struct smm_loader_params *smm_params) static void adjust_smm_apic_id_map(struct smm_loader_params *smm_params)
@ -1022,6 +1041,21 @@ static void fill_mp_state(struct mp_state *state, const struct mp_ops *ops)
ops->get_smm_info(&state->perm_smbase, &state->perm_smsize, ops->get_smm_info(&state->perm_smbase, &state->perm_smsize,
&state->smm_save_state_size); &state->smm_save_state_size);
/*
* Make sure there is enough room for the SMM descriptor
*/
if (CONFIG(STM))
state->smm_save_state_size +=
sizeof(TXT_PROCESSOR_SMM_DESCRIPTOR);
/* Currently, the CPU SMM save state size is based on a simplistic
* algorithm. (align on 4K)
* note: In the future, this will need to handle newer x86 processors
* that require alignment of the save state on 32K boundaries.
*/
state->smm_save_state_size =
ALIGN_UP(state->smm_save_state_size, 0x1000);
/* /*
* Default to smm_initiate_relocation() if trigger callback isn't * Default to smm_initiate_relocation() if trigger callback isn't
* provided. * provided.

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@ -17,6 +17,7 @@
#include <cpu/x86/cache.h> #include <cpu/x86/cache.h>
#include <commonlib/helpers.h> #include <commonlib/helpers.h>
#include <console/console.h> #include <console/console.h>
#include <security/intel/stm/SmmStm.h>
#define FXSAVE_SIZE 512 #define FXSAVE_SIZE 512
@ -267,6 +268,7 @@ static int smm_module_setup_stub(void *smbase, struct smm_loader_params *params,
stub_params->fxsave_area_size = FXSAVE_SIZE; stub_params->fxsave_area_size = FXSAVE_SIZE;
stub_params->runtime.smbase = (uintptr_t)smbase; stub_params->runtime.smbase = (uintptr_t)smbase;
stub_params->runtime.save_state_size = params->per_cpu_save_state_size; stub_params->runtime.save_state_size = params->per_cpu_save_state_size;
stub_params->runtime.num_cpus = params->num_concurrent_stacks;
/* Initialize the APIC id to CPU number table to be 1:1 */ /* Initialize the APIC id to CPU number table to be 1:1 */
for (i = 0; i < params->num_concurrent_stacks; i++) for (i = 0; i < params->num_concurrent_stacks; i++)
@ -313,6 +315,11 @@ int smm_setup_relocation_handler(struct smm_loader_params *params)
* +-----------------+ <- smram + size * +-----------------+ <- smram + size
* | stacks | * | stacks |
* +-----------------+ <- smram + size - total_stack_size * +-----------------+ <- smram + size - total_stack_size
* | fxsave area |
* +-----------------+ <- smram + size - total_stack_size - fxsave_size
* | BIOS resource |
* | list (STM) |
* +-----------------+ <- .. - CONFIG_BIOS_RESOURCE_LIST_SIZE
* | ... | * | ... |
* +-----------------+ <- smram + handler_size + SMM_DEFAULT_SIZE * +-----------------+ <- smram + handler_size + SMM_DEFAULT_SIZE
* | handler | * | handler |
@ -353,7 +360,12 @@ int smm_load_module(void *smram, size_t size, struct smm_loader_params *params)
/* Stacks start at the top of the region. */ /* Stacks start at the top of the region. */
base = smram; base = smram;
base += size;
if (CONFIG(STM))
base += size - CONFIG_MSEG_SIZE; // take out the mseg
else
base += size;
params->stack_top = base; params->stack_top = base;
/* SMM module starts at offset SMM_DEFAULT_SIZE with the load alignment /* SMM module starts at offset SMM_DEFAULT_SIZE with the load alignment
@ -382,6 +394,11 @@ int smm_load_module(void *smram, size_t size, struct smm_loader_params *params)
/* Does the required amount of memory exceed the SMRAM region size? */ /* Does the required amount of memory exceed the SMRAM region size? */
total_size = total_stack_size + handler_size; total_size = total_stack_size + handler_size;
total_size += fxsave_size + SMM_DEFAULT_SIZE; total_size += fxsave_size + SMM_DEFAULT_SIZE;
// account for the bios resource list
if (CONFIG(STM))
total_size += CONFIG_BIOS_RESOURCE_LIST_SIZE;
if (total_size > size) if (total_size > size)
return -1; return -1;

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@ -44,6 +44,11 @@ smbase:
.long 0 .long 0
save_state_size: save_state_size:
.long 0 .long 0
num_cpus:
.long 0
/* allows the STM to bring up SMM in 32-bit mode */
start32_offset:
.long smm_trampoline32 - _start
/* apic_to_cpu_num is a table mapping the default APIC id to CPU num. If the /* apic_to_cpu_num is a table mapping the default APIC id to CPU num. If the
* APIC id is found at the given index, the contiguous CPU number is index * APIC id is found at the given index, the contiguous CPU number is index
* into the table. */ * into the table. */
@ -90,6 +95,14 @@ smm_relocate_gdt:
/* gdt selector 0x10, flat data segment */ /* gdt selector 0x10, flat data segment */
.word 0xffff, 0x0000 .word 0xffff, 0x0000
.byte 0x00, 0x93, 0xcf, 0x00 .byte 0x00, 0x93, 0xcf, 0x00
/* gdt selector 0x18, flat code segment (64-bit) */
.word 0xffff, 0x0000
.byte 0x00, 0x9b, 0xcf, 0x00
/* gdt selector 0x20 tss segment */
.word 0xffff, 0x0000
.byte 0x00, 0x8b, 0x80, 0x00
smm_relocate_gdt_end: smm_relocate_gdt_end:
.align 4 .align 4

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@ -16,6 +16,7 @@
/* Page attribute type MSR */ /* Page attribute type MSR */
#define TSC_MSR 0x10 #define TSC_MSR 0x10
#define IA32_PLATFORM_ID 0x17 #define IA32_PLATFORM_ID 0x17
#define IA32_APIC_BASE_MSR_INDEX 0x1B
#define IA32_FEATURE_CONTROL 0x3a #define IA32_FEATURE_CONTROL 0x3a
#define FEATURE_CONTROL_LOCK_BIT (1 << 0) #define FEATURE_CONTROL_LOCK_BIT (1 << 0)
#define FEATURE_ENABLE_VMX (1 << 2) #define FEATURE_ENABLE_VMX (1 << 2)
@ -30,6 +31,10 @@
#define IA32_BIOS_SIGN_ID 0x8b #define IA32_BIOS_SIGN_ID 0x8b
#define IA32_MPERF 0xe7 #define IA32_MPERF 0xe7
#define IA32_APERF 0xe8 #define IA32_APERF 0xe8
/* STM */
#define IA32_SMM_MONITOR_CTL_MSR 0x9B
#define SMBASE_RO_MSR 0x98
#define IA32_SMM_MONITOR_VALID (1 << 0)
#define IA32_MCG_CAP 0x179 #define IA32_MCG_CAP 0x179
#define MCG_CTL_P (1 << 3) #define MCG_CTL_P (1 << 3)
#define MCA_BANKS_MASK 0xff #define MCA_BANKS_MASK 0xff
@ -45,6 +50,9 @@
#define ENERGY_POLICY_POWERSAVE 15 #define ENERGY_POLICY_POWERSAVE 15
#define IA32_PACKAGE_THERM_INTERRUPT 0x1b2 #define IA32_PACKAGE_THERM_INTERRUPT 0x1b2
#define IA32_PLATFORM_DCA_CAP 0x1f8 #define IA32_PLATFORM_DCA_CAP 0x1f8
#define SMRR_PHYSBASE_MSR 0x1F2
#define SMRR_PHYSMASK_MSR 0x1F3
#define IA32_PLATFORM_DCA_CAP 0x1f8
#define IA32_PAT 0x277 #define IA32_PAT 0x277
#define IA32_MC0_CTL 0x400 #define IA32_MC0_CTL 0x400
#define IA32_MC0_STATUS 0x401 #define IA32_MC0_STATUS 0x401
@ -65,6 +73,8 @@
#define MCA_STATUS_LO_ERRCODE_EXT_SH 16 #define MCA_STATUS_LO_ERRCODE_EXT_SH 16
#define MCA_STATUS_LO_ERRCODE_EXT_MASK (0x3f << MCA_STATUS_LO_ERRCODE_EXT_SH) #define MCA_STATUS_LO_ERRCODE_EXT_MASK (0x3f << MCA_STATUS_LO_ERRCODE_EXT_SH)
#define MCA_STATUS_LO_ERRCODE_MASK (0xffff << 0) #define MCA_STATUS_LO_ERRCODE_MASK (0xffff << 0)
#define IA32_VMX_BASIC_MSR 0x480
#define IA32_VMX_MISC_MSR 0x485
#define MC0_ADDR 0x402 #define MC0_ADDR 0x402
#define MC0_MISC 0x403 #define MC0_MISC 0x403
#define MC0_CTL_MASK 0xC0010044 #define MC0_CTL_MASK 0xC0010044

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@ -64,6 +64,9 @@ extern unsigned char _binary_smm_end[];
struct smm_runtime { struct smm_runtime {
u32 smbase; u32 smbase;
u32 save_state_size; u32 save_state_size;
u32 num_cpus;
/* STM's 32bit entry into SMI handler */
u32 start32_offset;
/* The apic_id_to_cpu provides a mapping from APIC id to CPU number. /* The apic_id_to_cpu provides a mapping from APIC id to CPU number.
* The CPU number is indicated by the index into the array by matching * The CPU number is indicated by the index into the array by matching
* the default APIC id and value at the index. The stub loader * the default APIC id and value at the index. The stub loader

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@ -14,3 +14,4 @@
## ##
source "src/security/intel/txt/Kconfig" source "src/security/intel/txt/Kconfig"
source "src/security/intel/stm/Kconfig"

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@ -1 +1,2 @@
subdirs-y += txt subdirs-y += txt
subdirs-y += stm

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@ -0,0 +1,49 @@
config STM
bool "Enable STM"
default n
depends on SMM_TSEG
select USE_BLOBS
help
Enabling the STM will load a simple hypervisor into SMM that will
restrict the actions of the SMI handler, which is the part of BIOS
that functions in system management mode (SMM). The kernel can
configure the STM to prevent the SMI handler from accessing platform
resources.
The STM closes a vulnerability in Intel TXT (D-RTM)
The SMI handler provides a list of platform resources that it
requires access to the STM during STM startup, which the kernel
cannot override.
An additional capability, called STM-PE, provides a protected
execution capability that allows modules to be executed without
observation and interference. Examples of usage include kernel
introspection and virtualized trusted platform module (vTPM).
Requirement: SMM must be enabled and there must be sufficient room
within the TSEG to fit the MSEG.
if STM
menu "SMI Transfer Monitor (STM)"
config MSEG_SIZE
hex "mseg size"
default 0x400000
help
STM only - 0x100000
STM/PE - 0x300000+ depending on the amount of memory needed
for the protected execution virtual
machine (VM/PE)
config BIOS_RESOURCE_LIST_SIZE
hex "bios_resource_list_size"
default 0x1000
config STM_BINARY_FILE
string "STM binary file"
default "3rdparty/blobs/cpu/intel/stm/stm.bin"
endmenu #STM
endif

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@ -0,0 +1,10 @@
# put the stm where it can be found
cbfs-files-$(CONFIG_STM) += stm.bin
stm.bin-file := $(CONFIG_STM_BINARY_FILE)
stm.bin-type := raw
ramstage-$(CONFIG_STM) += SmmStm.c
ramstage-$(CONFIG_STM) += StmPlatformSmm.c
ramstage-$(CONFIG_STM) += StmPlatformResource.c

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@ -0,0 +1,691 @@
/* @file
* SMM STM support
*
* Copyright (c) 2015 - 2016, Intel Corporation. All rights reserved.
*
* This program and the accompanying materials are licensed and made available
* under the terms and conditions of the BSD License which accompanies this
* distribution. The full text of the license may be found at
* http://opensource.org/licenses/bsd-license.php.
*
* THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
* WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR
* IMPLIED.
*
*/
#include <console/console.h>
#include <cpu/x86/cr.h>
#include <cpu/x86/mp.h>
#include <cpu/x86/msr.h>
#include <cpu/x86/cache.h>
#include <security/intel/stm/SmmStm.h>
#include <string.h>
#define TXT_EVTYPE_BASE 0x400
#define TXT_EVTYPE_STM_HASH (TXT_EVTYPE_BASE + 14)
#define RDWR_ACCS 3
#define FULL_ACCS 7
#define SIZE_4KB 0x00001000
#define SIZE_4MB 0x00400000
#define PTP_SIZE SIZE_4KB
#define IA32_PG_P (1 << 0)
#define IA32_PG_RW (1 << 1)
#define IA32_PG_PS (1 << 7)
#define STM_PAGE_SHIFT 12
#define STM_PAGE_MASK 0xFFF
#define STM_SIZE_TO_PAGES(a) \
(((a) >> STM_PAGE_SHIFT) + (((a)&STM_PAGE_MASK) ? 1 : 0))
#define STM_PAGES_TO_SIZE(a) ((a) << STM_PAGE_SHIFT)
#define STM_ACCESS_DENIED 15
#define STM_UNSUPPORTED 3
#define STM_BUFFER_TOO_SMALL 1
#define STM_SM_MONITOR_STATE_ENABLED 1
typedef struct {
uint64_t vmcs_revision_id : 31;
uint64_t always_zero : 1;
uint64_t vmcs_size : 13;
uint64_t reserved1 : 3;
uint64_t vmxon_add_width : 1;
uint64_t stm_supported : 1;
uint64_t vmcs_memory_type : 4;
uint64_t in_out_reporting : 1;
uint64_t may_clear_defaults : 1;
uint64_t reserved2 : 8;
} VMX_BASIC_MSR_BITS;
typedef union {
VMX_BASIC_MSR_BITS bits;
uint64_t uint64;
msr_t msr;
} VMX_BASIC_MSR;
typedef struct {
uint64_t valid : 1;
uint64_t reserved1 : 1;
uint64_t vmx_off_blockSmi : 1;
uint64_t reserved2 : 9;
uint64_t mseg_address : 20;
uint64_t reserved3 : 32;
} SMM_MONITOR_CTL_MSR_BITS;
extern struct mp_state {
struct mp_ops ops;
int cpu_count;
uintptr_t perm_smbase;
size_t perm_smsize;
size_t smm_save_state_size;
int do_smm;
} mp_state;
typedef union {
SMM_MONITOR_CTL_MSR_BITS bits;
uint64_t uint64;
msr_t msr;
} SMM_MONITOR_CTL_MSR;
// Template of STM_RSC_END structure for copying.
STM_RSC_END m_rsc_end_node = {
{END_OF_RESOURCES, sizeof(STM_RSC_END)},
};
uint8_t *m_stm_resources_ptr = NULL;
uint32_t m_stm_resource_total_size = 0x0;
uint32_t m_stm_resource_size_used = 0x0;
uint32_t m_stm_resource_size_available = 0x0;
uint8_t *stm_resource_heap = NULL;
uint32_t m_stm_state = 0;
/*
* Handle single Resource to see if it can be merged into Record.
*
* @param resource A pointer to resource node to be added
* @param record A pointer to record node to be merged
*
* @retval true resource handled
* @retval false resource is not handled
*/
static bool handle_single_resource(STM_RSC *resource, STM_RSC *record)
{
uint64_t resource_lo = 0;
uint64_t resource_hi = 0;
uint64_t record_lo = 0;
uint64_t record_hi = 0;
// Calling code is responsible for making sure that
// Resource->Header.RscType == (*Record)->Header.RscType
// thus we use just one of them as switch variable.
switch (resource->header.rsc_type) {
case MEM_RANGE:
case MMIO_RANGE:
resource_lo = resource->mem.base;
resource_hi = resource->mem.base + resource->mem.length;
record_lo = record->mem.base;
record_hi = record->mem.base + record->mem.length;
if (resource->mem.rwx_attributes
!= record->mem.rwx_attributes) {
if ((resource_lo == record_lo)
&& (resource_hi == record_hi)) {
record->mem.rwx_attributes =
resource->mem.rwx_attributes
| record->mem.rwx_attributes;
return true;
} else {
return false;
}
}
break;
case IO_RANGE:
case TRAPPED_IO_RANGE:
resource_lo = (uint64_t)resource->io.base;
resource_hi = (uint64_t)resource->io.base
+ (uint64_t)resource->io.length;
record_lo = (uint64_t)record->io.base;
record_hi =
(uint64_t)record->io.base + (uint64_t)record->io.length;
break;
case PCI_CFG_RANGE:
if ((resource->pci_cfg.originating_bus_number
!= record->pci_cfg.originating_bus_number)
|| (resource->pci_cfg.last_node_index
!= record->pci_cfg.last_node_index))
return false;
if (memcmp(resource->pci_cfg.pci_device_path,
record->pci_cfg.pci_device_path,
sizeof(STM_PCI_DEVICE_PATH_NODE)
* (resource->pci_cfg.last_node_index + 1))
!= 0) {
return false;
}
resource_lo = (uint64_t)resource->pci_cfg.base;
resource_hi = (uint64_t)resource->pci_cfg.base
+ (uint64_t)resource->pci_cfg.length;
record_lo = (uint64_t)record->pci_cfg.base;
record_hi = (uint64_t)record->pci_cfg.base
+ (uint64_t)record->pci_cfg.length;
if (resource->pci_cfg.rw_attributes
!= record->pci_cfg.rw_attributes) {
if ((resource_lo == record_lo)
&& (resource_hi == record_hi)) {
record->pci_cfg.rw_attributes =
resource->pci_cfg.rw_attributes
| record->pci_cfg.rw_attributes;
return true;
} else {
return false;
}
}
break;
case MACHINE_SPECIFIC_REG:
// Special case - merge MSR masks in place.
if (resource->msr.msr_index != record->msr.msr_index)
return false;
record->msr.read_mask |= resource->msr.read_mask;
record->msr.write_mask |= resource->msr.write_mask;
return true;
default:
return false;
}
// If resources are disjoint
if ((resource_hi < record_lo) || (resource_lo > record_hi))
return false;
// If resource is consumed by record.
if ((resource_lo >= record_lo) && (resource_hi <= record_hi))
return true;
// Resources are overlapping.
// Resource and record are merged.
resource_lo = (resource_lo < record_lo) ? resource_lo : record_lo;
resource_hi = (resource_hi > record_hi) ? resource_hi : record_hi;
switch (resource->header.rsc_type) {
case MEM_RANGE:
case MMIO_RANGE:
record->mem.base = resource_lo;
record->mem.length = resource_hi - resource_lo;
break;
case IO_RANGE:
case TRAPPED_IO_RANGE:
record->io.base = (uint64_t)resource_lo;
record->io.length = (uint64_t)(resource_hi - resource_lo);
break;
case PCI_CFG_RANGE:
record->pci_cfg.base = (uint64_t)resource_lo;
record->pci_cfg.length = (uint64_t)(resource_hi - resource_lo);
break;
default:
return false;
}
return true;
}
/*
* Add resource node.
*
* @param Resource A pointer to resource node to be added
*/
static void add_single_resource(STM_RSC *resource)
{
STM_RSC *record;
record = (STM_RSC *)m_stm_resources_ptr;
while (true) {
if (record->header.rsc_type == END_OF_RESOURCES)
break;
// Go to next record if resource and record types don't match.
if (resource->header.rsc_type != record->header.rsc_type) {
record = (STM_RSC *)((void *)record
+ record->header.length);
continue;
}
// Record is handled inside of procedure - don't adjust.
if (handle_single_resource(resource, record))
return;
record = (STM_RSC *)((void *)record + record->header.length);
}
// Add resource to the end of area.
memcpy(m_stm_resources_ptr + m_stm_resource_size_used
- sizeof(m_rsc_end_node),
resource, resource->header.length);
memcpy(m_stm_resources_ptr + m_stm_resource_size_used
- sizeof(m_rsc_end_node) + resource->header.length,
&m_rsc_end_node, sizeof(m_rsc_end_node));
m_stm_resource_size_used += resource->header.length;
m_stm_resource_size_available =
m_stm_resource_total_size - m_stm_resource_size_used;
}
/*
* Add resource list.
*
* @param resource_list A pointer to resource list to be added
* @param num_entries Optional number of entries.
* If 0, list must be terminated by END_OF_RESOURCES.
*/
static void add_resource(STM_RSC *resource_list, uint32_t num_entries)
{
uint32_t count;
uint32_t index;
STM_RSC *resource;
if (num_entries == 0)
count = 0xFFFFFFFF;
else
count = num_entries;
resource = resource_list;
for (index = 0; index < count; index++) {
if (resource->header.rsc_type == END_OF_RESOURCES)
return;
add_single_resource(resource);
resource =
(STM_RSC *)((void *)resource + resource->header.length);
}
}
/*
* Validate resource list.
*
* @param resource_list A pointer to resource list to be added
* @param num_entries Optional number of entries.
* If 0, list must be terminated by END_OF_RESOURCES.
*
* @retval true resource valid
* @retval false resource invalid
*/
static bool validate_resource(STM_RSC *resource_list, uint32_t num_entries)
{
uint32_t count;
uint32_t index;
STM_RSC *resource;
uint32_t sub_index;
// If NumEntries == 0 make it very big. Scan will be terminated by
// END_OF_RESOURCES.
if (num_entries == 0)
count = 0xFFFFFFFF;
else
count = num_entries;
// Start from beginning of resource list.
resource = resource_list;
for (index = 0; index < count; index++) {
printk(BIOS_DEBUG, "STM: %s (%u) - RscType(%x) length(0x%x)\n",
__func__,
index,
resource->header.rsc_type,
resource->header.length);
// Validate resource.
switch (resource->header.rsc_type) {
case END_OF_RESOURCES:
if (resource->header.length != sizeof(STM_RSC_END))
return false;
// If we are passed actual number of resources to add,
// END_OF_RESOURCES structure between them is considered
// an error. If NumEntries == 0 END_OF_RESOURCES is a
// termination.
if (num_entries != 0)
return false;
// If NumEntries == 0 and list reached end - return
// success.
return true;
case MEM_RANGE:
case MMIO_RANGE:
printk(BIOS_DEBUG,
"STM: %s - MEM (0x%0llx, 0x%0llx)\n",
__func__,
resource->mem.base,
resource->mem.length);
if (resource->header.length != sizeof(STM_RSC_MEM_DESC))
return false;
if (resource->mem.rwx_attributes > FULL_ACCS)
return false;
break;
case IO_RANGE:
case TRAPPED_IO_RANGE:
if (resource->header.length != sizeof(STM_RSC_IO_DESC))
return false;
if ((resource->io.base + resource->io.length) > 0xFFFF)
return false;
break;
case PCI_CFG_RANGE:
printk(BIOS_DEBUG,
"STM: %s - PCI (0x%02x, 0x%08x, 0x%02x, 0x%02x)\n",
__func__,
resource->pci_cfg.originating_bus_number,
resource->pci_cfg.last_node_index,
resource->pci_cfg.pci_device_path[0].pci_device,
resource->pci_cfg.pci_device_path[0]
.pci_function);
if (resource->header.length
!= sizeof(STM_RSC_PCI_CFG_DESC)
+ (sizeof(STM_PCI_DEVICE_PATH_NODE)
* resource->pci_cfg.last_node_index))
return false;
for (sub_index = 0;
sub_index <= resource->pci_cfg.last_node_index;
sub_index++) {
if ((resource->pci_cfg
.pci_device_path[sub_index]
.pci_device
> 0x1F)
|| (resource->pci_cfg
.pci_device_path[sub_index]
.pci_function
> 7))
return false;
}
if ((resource->pci_cfg.base + resource->pci_cfg.length)
> 0x1000)
return false;
break;
case MACHINE_SPECIFIC_REG:
if (resource->header.length != sizeof(STM_RSC_MSR_DESC))
return false;
break;
default:
printk(BIOS_DEBUG, "STM: %s - Unknown RscType(%x)\n",
__func__, resource->header.rsc_type);
return false;
}
resource =
(STM_RSC *)((void *)resource + resource->header.length);
}
return true;
}
/*
* Get resource list.
* EndResource is excluded.
*
* @param resou rce_list A pointer to resource list to be added
* @param num_entries Optional number of entries.
* If 0, list must be terminated by END_OF_RESOURCES.
*
* @retval true resource valid
* @retval false resource invalid
*/
static uint32_t get_resource_size(STM_RSC *resource_list, uint32_t num_entries)
{
uint32_t count;
uint32_t index;
STM_RSC *resource;
resource = resource_list;
// If NumEntries == 0 make it very big. Scan will be terminated by
// END_OF_RESOURCES.
if (num_entries == 0)
count = 0xFFFFFFFF;
else
count = num_entries;
// Start from beginning of resource list.
resource = resource_list;
for (index = 0; index < count; index++) {
if (resource->header.rsc_type == END_OF_RESOURCES)
break;
resource =
(STM_RSC *)((void *)resource + resource->header.length);
}
return (uint32_t)((uint32_t)resource - (uint32_t)resource_list);
}
/*
* Add resources in list to database. Allocate new memory areas as needed.
*
* @param resource_list A pointer to resource list to be added
* @param num_entries Optional number of entries.
* If 0, list must be terminated by END_OF_RESOURCES.
*
* @retval SUCCESS If resources are added
* @retval INVALID_PARAMETER If nested procedure detected resource failure
* @retval OUT_OF_RESOURCES If nested procedure returned it and we cannot
* allocate more areas.
*/
int add_pi_resource(STM_RSC *resource_list, uint32_t num_entries)
{
size_t resource_size;
printk(BIOS_DEBUG, "STM: %s - Enter\n", __func__);
if (!validate_resource(resource_list, num_entries))
return -1; // INVALID_PARAMETER;
resource_size = get_resource_size(resource_list, num_entries);
printk(BIOS_DEBUG, "STM: ResourceSize - 0x%08lx\n", resource_size);
if (resource_size == 0)
return -1; // INVALID_PARAMETER;
if (m_stm_resources_ptr == NULL) {
// Copy EndResource for initialization
m_stm_resources_ptr = stm_resource_heap;
m_stm_resource_total_size = CONFIG_BIOS_RESOURCE_LIST_SIZE;
memset(m_stm_resources_ptr, 0, CONFIG_BIOS_RESOURCE_LIST_SIZE);
memcpy(m_stm_resources_ptr, &m_rsc_end_node,
sizeof(m_rsc_end_node));
m_stm_resource_size_used = sizeof(m_rsc_end_node);
m_stm_resource_size_available =
m_stm_resource_total_size - sizeof(m_rsc_end_node);
wbinvd(); // force to memory
} else {
if (m_stm_resource_size_available < resource_size) {
printk(BIOS_DEBUG,
"STM: ERROR - not enough space for SMM resource list\n");
return -1; // OUT_OF_RESOURCES
}
}
// Check duplication
add_resource(resource_list, num_entries);
return 0; // SUCCESS;
}
/*
* Delete resources in list to database.
*
* @param resource_list A pointer to resource list to be deleted
* NULL means delete all resources.
* @param num_entries Optional number of entries.
* If 0, list must be terminated by END_OF_RESOURCES.
*
* @retval SUCCESS If resources are deleted
* @retval INVALID_PARAMETER If nested procedure detected resource failure
*/
int32_t delete_pi_resource(STM_RSC *resource_list, uint32_t num_entries)
{
if (resource_list != NULL) {
// ASSERT (false);
return -1; // UNSUPPORTED;
}
// Delete all
memcpy(m_stm_resources_ptr, &m_rsc_end_node, sizeof(m_rsc_end_node));
m_stm_resource_size_used = sizeof(m_rsc_end_node);
m_stm_resource_size_available =
m_stm_resource_total_size - sizeof(m_rsc_end_node);
return 0; // SUCCESS;
}
/*
* Get BIOS resources.
*
* @param resource_list A pointer to resource list to be filled
* @param resource_size On input it means size of resource list input.
* On output it means size of resource list filled,
* or the size of resource list to be filled if size is
* too small.
*
* @retval SUCCESS If resources are returned.
* @retval BUFFER_TOO_SMALL If resource list buffer is too small to hold
* the whole resource list.
*/
int32_t get_pi_resource(STM_RSC *resource_list, uint32_t *resource_size)
{
if (*resource_size < m_stm_resource_size_used) {
*resource_size = (uint32_t)m_stm_resource_size_used;
return -1; // BUFFER_TOO_SMALL;
}
memcpy(resource_list, m_stm_resources_ptr, m_stm_resource_size_used);
*resource_size = (uint32_t)m_stm_resource_size_used;
return 0; // SUCCESS;
}
/*
* Get 4K page aligned VMCS size.
* @return 4K page aligned VMCS size
*/
static uint32_t get_vmcs_size(void)
{
uint32_t this_vmcs_size;
VMX_BASIC_MSR msr_data64;
int stm_support;
msr_data64.msr = rdmsr(IA32_VMX_BASIC_MSR);
this_vmcs_size = msr_data64.bits.vmcs_size;
stm_support = msr_data64.bits.stm_supported;
printk(BIOS_DEBUG, "STM: %s: Size %d StmSupport %d\n", __func__,
this_vmcs_size, stm_support);
// VMCS require 0x1000 alignment
this_vmcs_size = STM_PAGES_TO_SIZE(STM_SIZE_TO_PAGES(this_vmcs_size));
return this_vmcs_size;
}
/*
* Create 4G page table for STM.
* 2M PTEs for x86_64 or 2M PTEs for x86_32.
*
* @param pageable_base The page table base in MSEG
*/
void stm_gen_4g_pagetable_x64(uint32_t pagetable_base)
{
uint32_t index;
uint32_t sub_index;
uint64_t *pde;
uint64_t *pte;
uint64_t *pml4;
pml4 = (uint64_t *)(uint32_t)pagetable_base;
pagetable_base += PTP_SIZE;
*pml4 = pagetable_base | IA32_PG_RW | IA32_PG_P;
pde = (uint64_t *)(uint32_t)pagetable_base;
pagetable_base += PTP_SIZE;
pte = (uint64_t *)(uint32_t)pagetable_base;
for (index = 0; index < 4; index++) {
*pde = pagetable_base | IA32_PG_RW | IA32_PG_P;
pde++;
pagetable_base += PTP_SIZE;
for (sub_index = 0; sub_index < SIZE_4KB / sizeof(*pte);
sub_index++) {
*pte = (((index << 9) + sub_index) << 21) | IA32_PG_PS
| IA32_PG_RW | IA32_PG_P;
pte++;
}
}
}
/*
* Check STM image size.
*
* @param stm_image STM image
* @param stm_imageSize STM image size
*
* @retval true check pass
* @retval false check fail
*/
bool stm_check_stm_image(void *stm_image, uint32_t stm_imagesize)
{
uint32_t min_mseg_size;
STM_HEADER *stm_header;
stm_header = (STM_HEADER *)stm_image;
// Get Minimal required Mseg size
min_mseg_size = (STM_PAGES_TO_SIZE(STM_SIZE_TO_PAGES(
stm_header->sw_stm_hdr.static_image_size))
+ stm_header->sw_stm_hdr.additional_dynamic_memory_size
+ (stm_header->sw_stm_hdr.per_proc_dynamic_memory_size
+ get_vmcs_size() * 2)
* mp_state.cpu_count);
if (min_mseg_size < stm_imagesize)
min_mseg_size = stm_imagesize;
if (stm_header->hw_stm_hdr.cr3_offset
>= stm_header->sw_stm_hdr.static_image_size) {
// We will create page table, just in case that SINIT does not
// create it.
if (min_mseg_size < stm_header->hw_stm_hdr.cr3_offset
+ STM_PAGES_TO_SIZE(6)) {
min_mseg_size = stm_header->hw_stm_hdr.cr3_offset
+ STM_PAGES_TO_SIZE(6);
}
}
// Check if it exceeds MSEG size
if (min_mseg_size > CONFIG_MSEG_SIZE)
return false;
return true;
}
/*
* This function return BIOS STM resource.
* Produced by SmmStm.
* Comsumed by SmmMpService when Init.
*
* @return BIOS STM resource
*/
void *get_stm_resource(void)
{
return m_stm_resources_ptr;
}

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/* @file
* SMM STM support
*
* Copyright (c) 2015 - 2016, Intel Corporation. All rights reserved.
* This program and the accompanying materials are licensed and made
* available under the terms and conditions of the BSD License which
* accompanies this distribution. The full text of the license may
* be found at http://opensource.org/licenses/bsd-license.php.
*
* THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
* WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED
*
*/
#ifndef _SMM_STM_H_
#define _SMM_STM_H_
#include <cpu/x86/msr.h>
#include "StmApi.h"
/*
* Load STM image.
*
* @retval SUCCESS STM is loaded to MSEG
* @retval BUFFER_TOO_SMALL MSEG is too small
* @retval UNSUPPORTED MSEG is not enabled
*/
int load_stm_image(uintptr_t mseg);
void stm_setup(
uintptr_t mseg, int cpu, int num_cpus, uintptr_t smbase,
uintptr_t smbase_base, uint32_t offset32);
/*
* Add resources in list to database. Allocate new memory areas as needed.
*
* @param resource_list A pointer to resource list to be added
* @param num_entries Optional number of entries.
* If 0, list must be terminated by END_OF_RESOURCES.
*
* @retval SUCCESS If resources are added
* @retval INVALID_PARAMETER If nested procedure detected resource failure
* @retval OUT_OF_RESOURCES If nested procedure returned it and we cannot
* allocate more areas.
*/
int add_pi_resource(STM_RSC *resource_list, uint32_t num_entries);
/*
* Delete resources in list to database.
*
* @param resource_list A pointer to resource list to be deleted
* NULL means delete all resources.
* @param num_entries Optional number of entries.
* If 0, list must be terminated by END_OF_RESOURCES.
*
* @retval SUCCESS If resources are deleted
* @retval NVALID_PARAMETER If nested procedure detected resource fail
*/
int delete_pi_resource(STM_RSC *resource_list, uint32_t num_entries);
/*
* Get BIOS resources.
*
* @param resource_list A pointer to resource list to be filled
* @param resource_size On input it means size of resource list input.
* On output it means size of resource list filled,
* or the size of resource list to be filled if
* size is too small.
*
* @retval SUCCESS If resources are returned.
* @retval BUFFER_TOO_SMALL If resource list buffer is too small to
* hold the whole resources.
*/
int get_pi_resource(STM_RSC *resource_list, uint32_t *resource_size);
/*
* This function notifies the STM of a resource change.
*
* @param stm_resource BIOS STM resource
*/
void notify_stm_resource_change(void *stm_resource);
/*
* This function returns the pointer to the STM BIOS resource list.
*
* @return BIOS STM resource
*/
void *get_stm_resource(void);
void setup_smm_descriptor(void *smbase, void *base_smbase, int32_t apic_id,
int32_t entry32_off);
/*
* Check STM image size.
*
* @param stm_image STM image
* @param stm_image_size STM image size
*
* @retval true check pass
* @retval false check fail
*/
bool stm_check_stm_image(void *stm_image, uint32_t stm_image_size);
/*
* Create 4G page table for STM.
* 4M Non-PAE page table in IA32 version.
*
* @param page_table_base The page table base in MSEG
*/
void stm_gen_4g_pagetable_ia32(uint32_t pagetable_base);
/*
* Create 4G page table for STM.
* 2M PAE page table in X64 version.
*
* @param pagetable_base The page table base in MSEG
*/
void stm_gen_4g_pagetable_x64(uint32_t pagetable_base);
#endif

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/* @file
* STM API definition
*
* Copyright (c) 2015, Intel Corporation. All rights reserved.
* This program and the accompanying materials are licensed and made available
* under the terms and conditions of the BSD License which accompanies this
* distribution. The full text of the license may be found at
* http://opensource.org/licenses/bsd-license.php.
*
* THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
* WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND,
* EITHER EXPRESS OR IMPLIED.
*
*/
#ifndef _STM_API_H_
#define _STM_API_H_
#include <stdint.h>
// definition in STM spec
#define STM_SPEC_VERSION_MAJOR 1
#define STM_SPEC_VERSION_MINOR 0
#pragma pack(push, 1)
#define STM_HARDWARE_FIELD_FILL_TO_2K (2048 - sizeof(uint32_t) * 8)
typedef struct {
uint32_t stm_header_revision;
uint32_t monitor_features;
uint32_t gdtr_limit;
uint32_t gdtr_base_offset;
uint32_t cs_selector;
uint32_t eip_offset;
uint32_t esp_offset;
uint32_t cr3_offset;
uint8_t reserved[STM_HARDWARE_FIELD_FILL_TO_2K];
} HARDWARE_STM_HEADER;
#define STM_FEATURES_IA32E 0x1
typedef struct {
uint32_t intel_64mode_supported : 1;
uint32_t ept_supported : 1;
uint32_t mbz : 30;
} STM_FEAT;
typedef struct {
uint8_t stm_spec_ver_major;
uint8_t stm_pec_ver_minor;
uint16_t mbz;
uint32_t static_image_size;
uint32_t per_proc_dynamic_memory_size;
uint32_t additional_dynamic_memory_size;
STM_FEAT stm_features;
uint32_t number_of_rev_ids;
uint32_t stm_smm_rev_id[1];
// The total STM_HEADER should be 4K.
} SOFTWARE_STM_HEADER;
typedef struct {
HARDWARE_STM_HEADER hw_stm_hdr;
SOFTWARE_STM_HEADER sw_stm_hdr;
} STM_HEADER;
#define SHA1 1
#define SHA256 2
typedef struct {
uint64_t bios_component_base;
uint32_t image_size;
uint32_t hash_algorithm; // SHA1 or SHA256
uint8_t hash[32];
} TXT_BIOS_COMPONENT_STATUS;
#define PAGE_SIZE 4096
typedef struct {
uint32_t image_size;
uint32_t reserved;
uint64_t image_page_base[1]; //[NumberOfPages];
} TXT_BIOS_COMPONENT_UPDATE;
typedef struct {
uint64_t spe_rip;
uint64_t spe_rsp;
uint16_t spe_ss;
uint16_t page_violation_exception : 1;
uint16_t msr_violation_exception : 1;
uint16_t register_violation_exception : 1;
uint16_t io_violation_exception : 1;
uint16_t pci_violation_exception : 1;
uint16_t reserved1 : 11;
uint32_t reserved2;
} STM_PROTECTION_EXCEPTION_HANDLER;
typedef struct {
uint8_t execution_disable_outside_smrr : 1;
uint8_t intel_64mode : 1;
uint8_t cr4_pae : 1;
uint8_t cr4_pse : 1;
uint8_t reserved1 : 4;
} STM_SMM_ENTRY_STATE;
typedef struct {
uint8_t smram_to_vmcs_restore_required : 1; // BIOS restore hint
uint8_t reinitialize_vmcs_required : 1; // BIOS request
uint8_t reserved2 : 6;
} STM_SMM_RESUME_STATE;
typedef struct {
uint8_t domain_type : 4; // STM input to BIOS on each SM
uint8_t x_state_policy : 2; // STM input to BIOS on each SMI
uint8_t ept_enabled : 1;
uint8_t reserved3 : 1;
} STM_SMM_STATE;
typedef struct {
uint64_t signature;
uint16_t size;
uint8_t smm_descriptor_ver_major;
uint8_t smm_descriptor_ver_minor;
uint32_t local_apic_id;
STM_SMM_ENTRY_STATE smm_entry_state;
STM_SMM_RESUME_STATE smm_resume_state;
STM_SMM_STATE stm_smm_state;
uint8_t reserved4;
uint16_t smm_cs;
uint16_t smm_ds;
uint16_t smm_ss;
uint16_t smm_other_segment;
uint16_t smm_tr;
uint16_t reserved5;
uint64_t smm_cr3;
uint64_t smm_stm_setup_rip;
uint64_t smm_stm_teardown_rip;
uint64_t smm_smi_handler_rip;
uint64_t smm_smi_handler_rsp;
uint64_t smm_gdt_ptr;
uint32_t smm_gdt_size;
uint32_t required_stm_smm_rev_id;
STM_PROTECTION_EXCEPTION_HANDLER stm_protection_exception_handler;
uint64_t reserved6;
uint64_t bios_hw_resource_requirements_ptr;
// extend area
uint64_t acpi_rsdp;
uint8_t physical_address_bits;
} TXT_PROCESSOR_SMM_DESCRIPTOR;
#define TXT_PROCESSOR_SMM_DESCRIPTOR_SIGNATURE "TXTPSSIG"
#define TXT_PROCESSOR_SMM_DESCRIPTOR_VERSION_MAJOR 1
#define TXT_PROCESSOR_SMM_DESCRIPTOR_VERSION_MINOR 0
#define SMM_PSD_OFFSET 0xfb00
typedef enum {
TxtSmmPageViolation = 1,
TxtSmmMsrViolation,
TxtSmmRegisterViolation,
TxtSmmIoViolation,
TxtSmmPciViolation
} TXT_SMM_PROTECTION_EXCEPTION_TYPE;
typedef struct {
uint32_t rdi;
uint32_t rsi;
uint32_t rbp;
uint32_t rdx;
uint32_t rcx;
uint32_t rbx;
uint32_t rax;
uint32_t cr3;
uint32_t cr2;
uint32_t cr0;
uint32_t vmcs_exit_instruction_info;
uint32_t vmcs_exit_instruction_length;
uint64_t vmcs_exit_qualification;
uint32_t error_code; // TXT_SMM_PROTECTION_EXCEPTION_TYPE
uint32_t rip;
uint32_t cs;
uint32_t rflags;
uint32_t rsp;
uint32_t ss;
} STM_PROTECTION_EXCEPTION_STACK_FRAME_IA32;
typedef struct {
uint64_t r15;
uint64_t r14;
uint64_t r13;
uint64_t r12;
uint64_t r11;
uint64_t r10;
uint64_t r9;
uint64_t r8;
uint64_t rdi;
uint64_t rsi;
uint64_t rbp;
uint64_t rdx;
uint64_t rcx;
uint64_t rbx;
uint64_t rax;
uint64_t cr8;
uint64_t cr3;
uint64_t cr2;
uint64_t cr0;
uint64_t vmcs_exit_instruction_info;
uint64_t vmcs_exit_instruction_length;
uint64_t vmcs_exit_qualification;
uint64_t error_code; // TXT_SMM_PROTECTION_EXCEPTION_TYPE
uint64_t rip;
uint64_t cs;
uint64_t rflags;
uint64_t rsp;
uint64_t ss;
} STM_PROTECTION_EXCEPTION_STACK_FRAME_X64;
typedef union {
STM_PROTECTION_EXCEPTION_STACK_FRAME_IA32 *ia32_stack_frame;
STM_PROTECTION_EXCEPTION_STACK_FRAME_X64 *x64_stack_frame;
} STM_PROTECTION_EXCEPTION_STACK_FRAME;
#define STM_SMM_REV_ID 0x80010100
typedef struct _STM_SMM_CPU_STATE { // Writable?
uint8_t reserved1[0x1d0]; // fc00h
uint32_t gdt_base_hi_dword; // fdd0h : NO
uint32_t ldt_base_hi_dword; // fdd4h : NO
uint32_t idt_base_hi_dword; // fdd8h : NO
uint8_t reserved2[0x4]; // fddch
uint64_t io_rdi; // fde0h : NO
// - restricted
uint64_t io_eip; // fde8h : YES
uint64_t io_rcx; // fdf0h : NO
// - restricted
uint64_t io_rsi; // fdf8h : NO
// - restricted
uint8_t reserved3[0x40]; // fe00h
uint32_t cr4; // fe40h : NO
uint8_t reserved4[0x48]; // fe44h
uint32_t gdt_base_lo_dword; // fe8ch : NO
uint32_t gdt_limit; // fe90h : NO
// - RESTRICTED
uint32_t idt_base_lo_dword; // fe94h : NO
uint32_t idt_limit; // fe98h : NO
// - RESTRICTED
uint32_t ldt_base_lo_dword; // fe9ch : NO
uint32_t ldt_limit; // fea0h : NO
// - RESTRICTED
uint32_t ldt_info; // fea4h : NO
// - RESTRICTED
uint8_t reserved5[0x30]; // fea8h
uint64_t eptp; // fed8h : NO
uint32_t enabled_ept; // fee0h : NO
uint8_t reserved6[0x14]; // fee4h
uint32_t smbase; // fef8h : YES
// - NO for STM
uint32_t smm_rev_id; // fefch : NO
uint16_t io_restart; // ff00h : YES
uint16_t auto_halt_restart; // ff02h : YES
uint8_t reserved7[0x18]; // ff04h
uint64_t r15; // ff1ch : YES
uint64_t r14; // ff24h : YES
uint64_t r13; // ff2ch : YES
uint64_t r12; // ff34h : YES
uint64_t r11; // ff3ch : YES
uint64_t r10; // ff44h : YES
uint64_t r9; // ff4ch : YES
uint64_t r8; // ff54h : YES
uint64_t rax; // ff5ch : YES
uint64_t rcx; // ff64h : YES
uint64_t rdx; // ff6ch : YES
uint64_t rbx; // ff74h : YES
uint64_t rsp; // ff7ch : YES
uint64_t rbp; // ff84h : YES
uint64_t rsi; // ff8ch : YES
uint64_t rdi; // ff94h : YES
uint64_t io_mem_addr; // ff9ch : NO
uint32_t io_misc; // ffa4h : NO
uint32_t es; // ffa8h : NO
uint32_t cs; // ffach : NO
uint32_t ss; // ffb0h : NO
uint32_t ds; // ffb4h : NO
uint32_t fs; // ffb8h : NO
uint32_t gs; // ffbch : NO
uint32_t ldtr; // ffc0h : NO
uint32_t tr; // ffc4h : NO
uint64_t dr7; // ffc8h : NO
uint64_t dr6; // ffd0h : NO
uint64_t rip; // ffd8h : YES
uint64_t ia32_efer; // ffe0h : YES
// - NO for STM
uint64_t rflags; // ffe8h : YES
uint64_t cr3; // fff0h : NO
uint64_t cr0; // fff8h : NO
} STM_SMM_CPU_STATE;
// STM Mapping
typedef struct {
uint64_t physical_address;
uint64_t virtual_ddress;
uint32_t Page_count;
uint32_t Pat_cache_type;
} STM_MAP_ADDRESS_RANGE_DESCRIPTOR;
#define ST_UC 0x00
#define WC 0x01
#define WT 0x04
#define WP 0x05
#define WB 0x06
#define UC 0x07
#define FOLLOW_MTRR 0xFFFFFFFF
typedef struct {
uint64_t virtual_address;
uint32_t length;
} STM_UNMAP_ADDRESS_RANGE_DESCRIPTOR;
typedef struct {
uint64_t interrupted_guest_virtual_address;
uint32_t length;
uint64_t interrupted_cr3;
uint64_t interrupted_eptp;
uint32_t map_to_smm_guest : 2;
uint32_t interrupted_cr4_pae : 1;
uint32_t interrupted_cr4_pse : 1;
uint32_t interrupted_ia32e_mode : 1;
uint32_t reserved1 : 27;
uint32_t reserved2;
uint64_t physical_address;
uint64_t smm_guest_virtual_address;
} STM_ADDRESS_LOOKUP_DESCRIPTOR;
#define DO_NOT_MAP 0
#define ONE_TO_ONE 1
#define VIRTUAL_ADDRESS_SPECIFIED 3
// STM_RESOURCE_LIST
#define END_OF_RESOURCES 0
#define MEM_RANGE 1
#define IO_RANGE 2
#define MMIO_RANGE 3
#define MACHINE_SPECIFIC_REG 4
#define PCI_CFG_RANGE 5
#define TRAPPED_IO_RANGE 6
#define ALL_RESOURCES 7
#define REGISTER_VIOLATION 8
#define MAX_DESC_TYPE 8
typedef struct {
uint32_t rsc_type;
uint16_t length;
uint16_t return_status : 1;
uint16_t reserved : 14;
uint16_t ignore_resource : 1;
} STM_RSC_DESC_HEADER;
typedef struct {
STM_RSC_DESC_HEADER Hdr;
uint64_t resource_list_continuation;
} STM_RSC_END;
// byte granular Memory range support
#define STM_RSC_BGM 0x4
typedef struct {
STM_RSC_DESC_HEADER hdr;
uint64_t base;
uint64_t length;
uint32_t rwx_attributes : 3;
uint32_t reserved : 29;
uint32_t reserved_2;
} STM_RSC_MEM_DESC;
#define STM_RSC_MEM_R 0x1
#define STM_RSC_MEM_W 0x2
#define STM_RSC_MEM_X 0x4
typedef struct {
STM_RSC_DESC_HEADER hdr;
uint16_t base;
uint16_t length;
uint32_t reserved;
} STM_RSC_IO_DESC;
// byte granular MMIO range support
#define STM_RSC_BGI 0x2
typedef struct {
STM_RSC_DESC_HEADER hdr;
uint64_t base;
uint64_t length;
uint32_t rwx_attributes : 3;
uint32_t reserved : 29;
uint32_t reserved_2;
} STM_RSC_MMIO_DESC;
#define STM_RSC_MMIO_R 0x1
#define STM_RSC_MMIO_W 0x2
#define STM_RSC_MMIO_X 0x4
typedef struct {
STM_RSC_DESC_HEADER hdr;
uint32_t msr_index;
uint32_t kernel_mode_processing : 1;
uint32_t reserved : 31;
uint64_t read_mask;
uint64_t write_mask;
} STM_RSC_MSR_DESC;
// bit granular MSR resource support
#define STM_RSC_MSR 0x8
typedef struct {
uint8_t type; // must be 1, indicating Hardware Device Path
uint8_t subtype; // must be 1, indicating PCI
uint16_t length; // sizeof(STM_PCI_DEVICE_PATH_NODE) which is 6
uint8_t pci_function;
uint8_t pci_device;
} STM_PCI_DEVICE_PATH_NODE;
typedef struct {
STM_RSC_DESC_HEADER hdr;
uint16_t rw_attributes : 2;
uint16_t reserved : 14;
uint16_t base;
uint16_t length;
uint8_t originating_bus_number;
uint8_t last_node_index;
STM_PCI_DEVICE_PATH_NODE pci_device_path[1];
// STM_PCI_DEVICE_PATH_NODE PciDevicePath[LastNodeIndex + 1];
} STM_RSC_PCI_CFG_DESC;
#define STM_RSC_PCI_CFG_R 0x1
#define STM_RSC_PCI_CFG_W 0x2
typedef struct {
STM_RSC_DESC_HEADER hdr;
uint16_t base;
uint16_t length;
uint16_t in : 1;
uint16_t out : 1;
uint16_t api : 1;
uint16_t reserved1 : 13;
uint16_t reserved2;
} STM_RSC_TRAPPED_IO_DESC;
typedef struct {
STM_RSC_DESC_HEADER hdr;
} STM_RSC_ALL_RESOURCES_DESC;
typedef struct {
STM_RSC_DESC_HEADER hdr;
uint32_t register_type;
uint32_t reserved;
uint64_t readMask;
uint64_t write_mask;
} STM_REGISTER_VIOLATION_DESC;
typedef enum {
stm_register_cr0,
stm_register_cr2,
stm_register_cr3,
stm_register_cr4,
stm_register_cr8,
stm_register_max,
} STM_REGISTER_VIOLATION_TYPE;
typedef union {
STM_RSC_DESC_HEADER header;
STM_RSC_END end;
STM_RSC_MEM_DESC mem;
STM_RSC_IO_DESC io;
STM_RSC_MMIO_DESC mmio;
STM_RSC_MSR_DESC msr;
STM_RSC_PCI_CFG_DESC pci_cfg;
STM_RSC_TRAPPED_IO_DESC trapped_io;
STM_RSC_ALL_RESOURCES_DESC all;
STM_REGISTER_VIOLATION_DESC register_violation;
} STM_RSC;
// VMCS database
#define STM_VMCS_DATABASE_REQUEST_ADD 1
#define STM_VMCS_DATABASE_REQUEST_REMOVE 0
// Values for DomainType
// Interpreter of DomainType
#define DOMAIN_DISALLOWED_IO_OUT (1u << 0)
#define DOMAIN_DISALLOWED_IO_IN (1u << 1)
#define DOMAIN_INTEGRITY (1u << 2)
#define DOMAIN_CONFIDENTIALITY (1u << 3)
#define DOMAIN_UNPROTECTED 0x00
#define DOMAIN_INTEGRITY_PROT_OUT_IN (DOMAIN_INTEGRITY)
#define DOMAIN_FULLY_PROT_OUT_IN (DOMAIN_CONFIDENTIALITY | DOMAIN_INTEGRITY)
#define DOMAIN_FULLY_PROT \
(DOMAIN_CONFIDENTIALITY | DOMAIN_INTEGRITY | DOMAIN_DISALLOWED_IO_IN \
| DOMAIN_DISALLOWED_IO_OUT)
// Values for XStatePolicy
#define XSTATE_READWRITE 0x00
#define XSTATE_READONLY 0x01
#define XSTATE_SCRUB 0x03
typedef struct {
uint64_t vmcs_phys_pointer; // bits 11:0 are reserved and must be 0
uint32_t domain_type : 4;
uint32_t x_state_policy : 2;
uint32_t degradation_policy : 4;
uint32_t reserved1 : 22; // Must be 0
uint32_t add_or_remove;
} STM_VMCS_DATABASE_REQUEST;
// Event log
#define NEW_LOG 1
#define CONFIGURE_LOG 2
#define START_LOG 3
#define STOP_LOG 4
#define CLEAR_LOG 5
#define DELETE_LOG 6
typedef enum {
evt_log_started,
evt_log_stopped,
evt_log_invalid_parameter_detected,
evt_handled_protection_exception,
// unhandled protection exceptions result in reset & cannot be logged
evt_bios_access_to_unclaimed_resource,
evt_mle_resource_protection_granted,
evt_mle_resource_protection_denied,
evt_mle_resource_unprotect,
evt_mle_resource_unprotect_error,
evt_mle_domain_type_degraded,
// add more here
evt_mle_max,
// Not used
evt_invalid = 0xFFFFFFFF,
} EVENT_TYPE;
typedef struct {
uint32_t page_count;
uint64_t pages[1]; // number of elements is PageCount
} STM_EVENT_LOG_MANAGEMENT_REQUEST_DATA_LOG_BUFFER;
typedef union {
STM_EVENT_LOG_MANAGEMENT_REQUEST_DATA_LOG_BUFFER log_buffer;
uint32_t event_enable_bitmap; // bitmap of EVENT_TYPE
} STM_EVENT_LOG_MANAGEMENT_REQUEST_DATA;
typedef struct {
uint32_t sub_functionindex;
STM_EVENT_LOG_MANAGEMENT_REQUEST_DATA data;
} STM_EVENT_LOG_MANAGEMENT_REQUEST;
// VMCALL API Numbers
//
// API number convention: BIOS facing VMCALL interfaces have bit 16 clear
#define STM_API_MAP_ADDRESS_RANGE 0x00000001
#define STM_API_UNMAP_ADDRESS_RANGE 0x00000002
#define STM_API_ADDRESS_LOOKUP 0x00000003
#define STM_API_RETURN_FROM_PROTECTION_EXCEPTION 0x00000004
// API number convention: MLE facing VMCALL interfaces have bit 16 set
//
// The STM configuration lifecycle is as follows:
// 1. SENTER->SINIT->MLE: MLE begins execution with SMI disabled (masked).
// 2. MLE invokes InitializeProtectionVMCALL() to prepare STM for setup of
// initial protection profile. This is done on a single CPU and has global
// effect.
// 3. MLE invokes ProtectResourceVMCALL() to define the initial protection
// profile. The protection profile is global across all CPUs.
// 4. MLE invokes StartStmVMCALL() to enable the STM to begin receiving SMI
// events. This must be done on every logical CPU.
// 5. MLE may invoke ProtectResourceVMCALL() or UnProtectResourceVMCALL()
// during runtime as many times as necessary.
// 6. MLE invokes StopStmVMCALL() to disable the STM. SMI is again masked
// following StopStmVMCALL().
//
#define STM_API_START 0x00010001
#define STM_API_STOP 0x00010002
#define STM_API_PROTECT_RESOURCE 0x00010003
#define STM_API_UNPROTECT_RESOURCE 0x00010004
#define STM_API_GET_BIOS_RESOURCES 0x00010005
#define STM_API_MANAGE_VMCS_DATABASE 0x00010006
#define STM_API_INITIALIZE_PROTECTION 0x00010007
#define STM_API_MANAGE_EVENT_LOG 0x00010008
// Return codes
typedef uint32_t STM_STATUS;
#define STM_SUCCESS 0x00000000
#define SMM_SUCCESS 0x00000000
// all error codes have bit 31 set
// STM errors have bit 16 set
#define ERROR_STM_SECURITY_VIOLATION 0x80010001
#define ERROR_STM_CACHE_TYPE_NOT_SUPPORTED 0x80010002
#define ERROR_STM_PAGE_NOT_FOUND 0x80010003
#define ERROR_STM_BAD_CR3 0x80010004
#define ERROR_STM_PHYSICAL_OVER_4G 0x80010005
#define ERROR_STM_VIRTUAL_SPACE_TOO_SMALL 0x80010006
#define ERROR_STM_UNPROTECTABLE_RESOURCE 0x80010007
#define ERROR_STM_ALREADY_STARTED 0x80010008
#define ERROR_STM_WITHOUT_SMX_UNSUPPORTED 0x80010009
#define ERROR_STM_STOPPED 0x8001000A
#define ERROR_STM_BUFFER_TOO_SMALL 0x8001000B
#define ERROR_STM_INVALID_VMCS_DATABASE 0x8001000C
#define ERROR_STM_MALFORMED_RESOURCE_LIST 0x8001000D
#define ERROR_STM_INVALID_PAGECOUNT 0x8001000E
#define ERROR_STM_LOG_ALLOCATED 0x8001000F
#define ERROR_STM_LOG_NOT_ALLOCATED 0x80010010
#define ERROR_STM_LOG_NOT_STOPPED 0x80010011
#define ERROR_STM_LOG_NOT_STARTED 0x80010012
#define ERROR_STM_RESERVED_BIT_SET 0x80010013
#define ERROR_STM_NO_EVENTS_ENABLED 0x80010014
#define ERROR_STM_OUT_OF_RESOURCES 0x80010015
#define ERROR_STM_FUNCTION_NOT_SUPPORTED 0x80010016
#define ERROR_STM_UNPROTECTABLE 0x80010017
#define ERROR_STM_UNSUPPORTED_MSR_BIT 0x80010018
#define ERROR_STM_UNSPECIFIED 0x8001FFFF
// SMM errors have bit 17 set
#define ERROR_SMM_BAD_BUFFER 0x80020001
#define ERROR_SMM_INVALID_RSC 0x80020004
#define ERROR_SMM_INVALID_BUFFER_SIZE 0x80020005
#define ERROR_SMM_BUFFER_TOO_SHORT 0x80020006
#define ERROR_SMM_INVALID_LIST 0x80020007
#define ERROR_SMM_OUT_OF_MEMORY 0x80020008
#define ERROR_SMM_AFTER_INIT 0x80020009
#define ERROR_SMM_UNSPECIFIED 0x8002FFFF
// Errors that apply to both have bits 15, 16, and 17 set
#define ERROR_INVALID_API 0x80038001
#define ERROR_INVALID_PARAMETER 0x80038002
// STM TXT.ERRORCODE codes
#define STM_CRASH_PROTECTION_EXCEPTION 0xC000F001
#define STM_CRASH_PROTECTION_EXCEPTION_FAILURE 0xC000F002
#define STM_CRASH_DOMAIN_DEGRADATION_FAILURE 0xC000F003
#define STM_CRASH_BIOS_PANIC 0xC000E000
typedef struct {
uint32_t event_serial_number;
uint16_t type;
uint16_t lock : 1;
uint16_t valid : 1;
uint16_t read_by_mle : 1;
uint16_t wrapped : 1;
uint16_t reserved : 12;
} LOG_ENTRY_HEADER;
typedef struct {
uint32_t reserved;
} ENTRY_EVT_LOG_STARTED;
typedef struct {
uint32_t reserved;
} ENTRY_EVT_LOG_STOPPED;
typedef struct {
uint32_t vmcall_api_number;
} ENTRY_EVT_LOG_INVALID_PARAM;
typedef struct {
STM_RSC resource;
} ENTRY_EVT_LOG_HANDLED_PROTECTION_EXCEPTION;
typedef struct {
STM_RSC resource;
} ENTRY_EVT_BIOS_ACCESS_UNCLAIMED_RSC;
typedef struct {
STM_RSC resource;
} ENTRY_EVT_MLE_RSC_PROT_GRANTED;
typedef struct {
STM_RSC resource;
} ENTRY_EVT_MLE_RSC_PROT_DENIED;
typedef struct {
STM_RSC resource;
} ENTRY_EVT_MLE_RSC_UNPROT;
typedef struct {
STM_RSC resource;
} ENTRY_EVT_MLE_RSC_UNPROT_ERROR;
typedef struct {
uint64_t vmcs_phys_pointer;
uint8_t expected_domain_type;
uint8_t degraded_domain_type;
} ENTRY_EVT_MLE_DOMAIN_TYPE_DEGRADED;
typedef union {
ENTRY_EVT_LOG_STARTED started;
ENTRY_EVT_LOG_STOPPED stopped;
ENTRY_EVT_LOG_INVALID_PARAM invalid_param;
ENTRY_EVT_LOG_HANDLED_PROTECTION_EXCEPTION
handled_protection_exception;
ENTRY_EVT_BIOS_ACCESS_UNCLAIMED_RSC bios_unclaimed_rsc;
ENTRY_EVT_MLE_RSC_PROT_GRANTED mle_rsc_prot_granted;
ENTRY_EVT_MLE_RSC_PROT_DENIED mle_rsc_prot_denied;
ENTRY_EVT_MLE_RSC_UNPROT mle_rsc_unprot;
ENTRY_EVT_MLE_RSC_UNPROT_ERROR mle_rsc_unprot_error;
ENTRY_EVT_MLE_DOMAIN_TYPE_DEGRADED mle_domain_type_degraded;
} LOG_ENTRY_DATA;
typedef struct {
LOG_ENTRY_HEADER hdr;
LOG_ENTRY_DATA data;
} STM_LOG_ENTRY;
#define STM_LOG_ENTRY_SIZE 256
#define STM_CONFIG_SMI_UNBLOCKING_BY_VMX_OFF 0x1
// TXT debug
#define SW_SMI_STM_ADD_RUNTIME_RESOURCES_SUB_FUNC 0
#define SW_SMI_STM_READ_BIOS_RESOURCES_SUB_FUNC 1
#define SW_SMI_STM_REPLACE_BIOS_RESOURCES_SUB_FUNC 2
typedef struct {
uint32_t buffer_size;
uint32_t reserved;
// uint8_t Data[];
} TXT_BIOS_DEBUG;
#pragma pack(pop)
#endif

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/* @file
* STM platform SMM resource
*
* Copyright (c) 2015, Intel Corporation. All rights reserved.
* This program and the accompanying materials are licensed and made
* available under the terms and conditions of the BSD License which
* accompanies this distribution. The full text of the license may be found
* at http://opensource.org/licenses/bsd-license.php.
*
* THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
* WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR
* IMPLIED.
*/
#include <stdint.h>
#include <security/intel/stm/StmApi.h>
#include <security/intel/stm/SmmStm.h>
#include <security/intel/stm/StmPlatformResource.h>
#if CONFIG(SOUTHBRIDGE_INTEL_COMMON_PMCLIB)
#include <southbridge/intel/common/pmutil.h>
#else
#include <soc/pm.h>
#endif
#include <cpu/x86/msr.h>
#include <console/console.h>
#define RDWR_ACCS 3
#define FULL_ACCS 7
// Fixed memory ranges
//
// TSEG memory!
static STM_RSC_MEM_DESC rsc_tseg_memory = {{MEM_RANGE, sizeof(STM_RSC_MEM_DESC)},
0,
0,
FULL_ACCS};
// Flash part
static STM_RSC_MEM_DESC rsc_spi_memory = {
{MEM_RANGE, sizeof(STM_RSC_MEM_DESC)},
0xFE000000,
0x01000000,
FULL_ACCS};
// ACPI
static STM_RSC_IO_DESC rsc_pm_io = {{IO_RANGE, sizeof(STM_RSC_IO_DESC)}, 0, 128};
// PCIE MMIO
static STM_RSC_MMIO_DESC rsc_pcie_mmio = {{MMIO_RANGE, sizeof(STM_RSC_MMIO_DESC)},
0,
0, // Length
RDWR_ACCS};
// Local APIC
static STM_RSC_MMIO_DESC rsc_apic_mmio = {{MMIO_RANGE, sizeof(STM_RSC_MMIO_DESC)},
0,
0x400,
RDWR_ACCS};
// Software SMI
static STM_RSC_TRAPPED_IO_DESC rsc_sw_smi_trap_io = {
{TRAPPED_IO_RANGE, sizeof(STM_RSC_TRAPPED_IO_DESC)},
0xB2,
2};
// End of list
static STM_RSC_END rsc_list_end __attribute__((used)) = {
{END_OF_RESOURCES, sizeof(STM_RSC_END)}, 0};
// Common PCI devices
//
// LPC bridge
STM_RSC_PCI_CFG_DESC rsc_lpc_bridge_pci = {
{PCI_CFG_RANGE, sizeof(STM_RSC_PCI_CFG_DESC)},
RDWR_ACCS,
0,
0,
0x1000,
0,
0,
{
{1, 1, sizeof(STM_PCI_DEVICE_PATH_NODE), LPC_FUNCTION,
LPC_DEVICE},
},
};
// Template for MSR resources.
STM_RSC_MSR_DESC rsc_msr_tpl = {
{MACHINE_SPECIFIC_REG, sizeof(STM_RSC_MSR_DESC)},
};
// MSR indices to register
typedef struct {
uint32_t msr_index;
uint64_t read_mask;
uint64_t write_mask;
} MSR_TABLE_ENTRY;
MSR_TABLE_ENTRY msr_table[] = {
// Index Read Write
// MASK64 means need access, MASK0 means no need access.
{SMRR_PHYSBASE_MSR, MASK64, MASK0},
{SMRR_PHYSMASK_MSR, MASK64, MASK0},
};
/*
* Fix up PCIE resource.
*/
static void fixup_pciex_resource(void)
{
// Find max bus number and PCIEX length
rsc_pcie_mmio.length = CONFIG_SA_PCIEX_LENGTH; // 0x10000000;// 256 MB
rsc_pcie_mmio.base = CONFIG_MMCONF_BASE_ADDRESS;
}
/*
* Add basic resources to BIOS resource database.
*/
static void add_simple_resources(void)
{
int Status = 0;
msr_t ReadMsr;
ReadMsr = rdmsr(SMRR_PHYSBASE_MSR);
rsc_tseg_memory.base = ReadMsr.lo & 0xFFFFF000;
ReadMsr = rdmsr(SMRR_PHYSMASK_MSR);
rsc_tseg_memory.length = (~(ReadMsr.lo & 0xFFFFF000) + 1);
rsc_pm_io.base = (uint16_t)get_pmbase();
// Local APIC. We assume that all thteads are programmed identically
// despite that it is possible to have individual APIC address for
// each of the threads. If this is the case this programming should
// be corrected.
ReadMsr = rdmsr(IA32_APIC_BASE_MSR_INDEX);
rsc_apic_mmio.base = ((uint64_t)ReadMsr.lo & 0xFFFFF000) |
((uint64_t)(ReadMsr.hi & 0x0000000F) << 32);
// PCIEX BAR
fixup_pciex_resource();
Status |= add_pi_resource((void *)&rsc_tseg_memory, 1);
Status |= add_pi_resource((void *)&rsc_spi_memory, 1);
Status |= add_pi_resource((void *)&rsc_pm_io, 1);
Status |= add_pi_resource((void *)&rsc_pcie_mmio, 1);
Status |= add_pi_resource((void *)&rsc_apic_mmio, 1);
Status |= add_pi_resource((void *)&rsc_sw_smi_trap_io, 1);
Status |= add_pi_resource((void *)&rsc_lpc_bridge_pci, 1);
if (Status != 0)
printk(BIOS_DEBUG, "STM - Error in adding simple resources\n");
}
/*
* Add MSR resources to BIOS resource database.
*/
static void add_msr_resources(void)
{
uint32_t Status = 0;
uint32_t Index;
for (Index = 0; Index < ARRAY_SIZE(msr_table); Index++) {
rsc_msr_tpl.msr_index = (uint32_t)msr_table[Index].msr_index;
rsc_msr_tpl.read_mask = (uint64_t)msr_table[Index].read_mask;
rsc_msr_tpl.write_mask = (uint64_t)msr_table[Index].write_mask;
Status |= add_pi_resource((void *)&rsc_msr_tpl, 1);
}
if (Status != 0)
printk(BIOS_DEBUG, "STM - Error in adding MSR resources\n");
}
/*
* Add resources to BIOS resource database.
*/
void add_resources_cmd(void)
{
add_simple_resources();
add_msr_resources();
}

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/* @file
* STM platform SMM resource
*
* Copyright (c) 2015, Intel Corporation. All rights reserved.
* This program and the accompanying materials are licensed and made available
* under the terms and conditions of the BSD License which accompanies this
* distribution. The full text of the license may be found at
* http://opensource.org/licenses/bsd-license.php.
*
* THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
* WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR
* IMPLIED.
*/
#ifndef _STM_PLATFORM_RESOURCE_H_
#define _STM_PLATFORM_RESOURCE_H_
#define MASK0 0
#define MASK64 0xFFFFFFFFFFFFFFFFull
// LPC
#define LPC_DEVICE 31
#define LPC_FUNCTION 0
#define R_ACPI_PM_BASE 0x40
#define ACPI_PM_BASE_MASK 0xFFF8
/*
* Add resources to BIOS resource database.
*/
void add_resources_cmd(void);
#endif

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/* @file
* STM platform SMM API
*
* Copyright (c) 2015, Intel Corporation. All rights reserved.
* This program and the accompanying materials are licensed and made
* available under the terms and conditions of the BSD License which
* accompanies this distribution. The full text of the license may be found
* at http://opensource.org/licenses/bsd-license.php.
*
* THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
* WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR
* IMPLIED.
*
*/
#include <security/intel/stm/StmApi.h>
#include <security/intel/stm/SmmStm.h>
#include <security/intel/stm/StmPlatformResource.h>
#include <security/tpm/tspi.h>
#include <cpu/x86/smm.h>
#include <cpu/x86/msr.h>
#include <stddef.h>
#include <cbfs.h>
#include <console/console.h>
#include <lib.h>
#include <stdint.h>
#include <arch/rom_segs.h>
/*
* Load STM image to MSEG
*
* @retval SUCCESS STM is loaded to MSEG
*/
int load_stm_image(uintptr_t mseg)
{
int status;
void *mseg_base;
uint32_t stm_buffer_size;
uint32_t stm_image_size;
bool stm_status;
STM_HEADER *stm_header;
// Extract STM image from FV
mseg_base = (void *)mseg;
stm_buffer_size = CONFIG_MSEG_SIZE;
stm_image_size = 0;
memset((void *)mseg_base, 0, CONFIG_MSEG_SIZE); // clear the mseg
stm_image_size = cbfs_boot_load_file("stm.bin", mseg_base,
stm_buffer_size, CBFS_TYPE_RAW);
printk(BIOS_DEBUG, "STM:loaded into mseg: 0x%p size: %u\n", mseg_base,
stm_image_size);
/* status is number of bytes loaded */
stm_status = stm_check_stm_image(mseg_base, stm_image_size);
if (!stm_status) {
printk(BIOS_DEBUG, "STM: Error in STM image\n");
return -1;
}
stm_header = mseg_base;
stm_gen_4g_pagetable_x64((uint32_t)mseg_base
+ stm_header->hw_stm_hdr.cr3_offset);
// Debug stuff
printk(BIOS_DEBUG,
"STM: Header-Revision %d Features 0x%08x Cr3Offset 0x%08x\n",
stm_header->hw_stm_hdr.stm_header_revision,
stm_header->hw_stm_hdr.monitor_features,
stm_header->hw_stm_hdr.cr3_offset);
printk(BIOS_DEBUG,
"STM: Header-StaticImageSize: %d Cr3Location: 0x%08x\n",
stm_header->sw_stm_hdr.static_image_size,
((uint32_t)mseg_base + stm_header->hw_stm_hdr.cr3_offset));
status = 0; // always return good for now
return status;
}
struct descriptor {
uint16_t limit;
uintptr_t base;
} __attribute__((packed));
static void read_gdtr(struct descriptor *gdtr)
{
__asm__ __volatile__("sgdt %0" : "=m"(*gdtr));
}
void setup_smm_descriptor(void *smbase, void *base_smbase, int32_t apic_id,
int32_t entry32_off)
{
struct descriptor gdtr;
void *smbase_processor;
//msr_t smbase_msr;
TXT_PROCESSOR_SMM_DESCRIPTOR *psd;
smbase_processor = (void *) SMM_DEFAULT_BASE;//we are here
psd = smbase + SMM_PSD_OFFSET;
printk(BIOS_DEBUG,
"STM: Smm Descriptor setup: Smbase: %p Smbase_processor: %p Psd: %p\n",
smbase,
smbase_processor,
psd);
memset(psd, 0, sizeof(TXT_PROCESSOR_SMM_DESCRIPTOR));
memcpy(&psd->signature, TXT_PROCESSOR_SMM_DESCRIPTOR_SIGNATURE, 8);
psd->smm_descriptor_ver_major =
TXT_PROCESSOR_SMM_DESCRIPTOR_VERSION_MAJOR;
psd->smm_descriptor_ver_minor =
TXT_PROCESSOR_SMM_DESCRIPTOR_VERSION_MINOR;
psd->smm_smi_handler_rip =
(uint64_t)((uintptr_t)base_smbase + SMM_ENTRY_OFFSET +
entry32_off);
psd->local_apic_id = apic_id;
psd->size = sizeof(TXT_PROCESSOR_SMM_DESCRIPTOR);
psd->acpi_rsdp = 0;
psd->bios_hw_resource_requirements_ptr =
(uint64_t)((uintptr_t)get_stm_resource());
psd->smm_cs = ROM_CODE_SEG;
psd->smm_ds = ROM_DATA_SEG;
psd->smm_ss = ROM_DATA_SEG;
psd->smm_other_segment = ROM_DATA_SEG;
psd->smm_tr = SMM_TASK_STATE_SEG;
// At this point the coreboot smm_stub is relative to the default
// smbase and not the one for the smi handler in tseg. So we have
// to adjust the gdtr.base
read_gdtr(&gdtr);
gdtr.base -= (uintptr_t) smbase_processor;
gdtr.base += (uintptr_t) base_smbase;
psd->smm_gdt_ptr = gdtr.base;
psd->smm_gdt_size = gdtr.limit + 1; // the stm will subtract, so add
printk(BIOS_DEBUG, "STM: Smm Descriptor setup complete - Smbase: %p Psd: %p\n",
smbase, psd);
}
extern uint8_t *stm_resource_heap;
#define FXSAVE_SIZE 512
static int stm_load_status = 0;
void stm_setup(uintptr_t mseg, int cpu, int num_cpus, uintptr_t smbase,
uintptr_t base_smbase, uint32_t offset32)
{
msr_t InitMseg;
msr_t MsegChk;
uintptr_t addr_calc; // used to calculate the stm resource heap area
printk(BIOS_DEBUG, "STM: set up for cpu %d/%d\n", cpu, num_cpus);
if (cpu == 0) {
// need to create the BIOS resource list once
// first calculate the location in SMRAM
addr_calc = (mseg - (CONFIG_SMM_MODULE_STACK_SIZE * num_cpus));
if (CONFIG(SSE))
addr_calc -= FXSAVE_SIZE * num_cpus;
addr_calc -= CONFIG_BIOS_RESOURCE_LIST_SIZE;
stm_resource_heap = (uint8_t *) addr_calc;
printk(BIOS_DEBUG, "STM: stm_resource_heap located at %p\n",
stm_resource_heap);
//setup the the list
add_resources_cmd();
stm_load_status = load_stm_image(mseg);
}
if (stm_load_status == 0) {
// enable STM for this cpu
InitMseg.lo = mseg | IA32_SMM_MONITOR_VALID;
InitMseg.hi = 0;
wrmsr(IA32_SMM_MONITOR_CTL_MSR, InitMseg);
MsegChk = rdmsr(IA32_SMM_MONITOR_CTL_MSR);
printk(BIOS_DEBUG, "STM: MSEG Initialized (%d) 0x%08x 0x%08x\n",
cpu, MsegChk.hi, MsegChk.lo);
// setup the descriptor for this cpu
setup_smm_descriptor((void *)smbase, (void *) base_smbase,
cpu, offset32);
} else {
printk(BIOS_DEBUG,
"STM: Error in STM load, STM not enabled: %d\n",
cpu);
}
}