Project-Cerberus/core/host_fw/host_state_manager.c

523 строки
15 KiB
C
Исходник Обычный вид История

// Copyright (c) Microsoft Corporation. All rights reserved.
// Licensed under the MIT license.
#include <stddef.h>
#include <stdlib.h>
#include <string.h>
#include "host_state_manager.h"
#include "host_state_observer.h"
#include "common/unused.h"
#include "flash/flash_common.h"
#include "flash/flash_util.h"
/* Bitmasks for settings in non-volatile memory. */
#define READ_ONLY_FLASH_MASK (1U << 0)
#define INACTIVE_DIRTY_MASK (1U << 1)
#define ACTIVE_PFM_MASK (1U << 2)
#define ACTIVE_RECOVERY_IMAGE_MASK (1U << 3)
/* Bitmasks for settings in volatile memory. */
#define PFM_DIRTY_MASK (1U << 0)
#define RUN_TIME_MASK (3U << 1)
#define BYPASS_MASK (1U << 3)
#define BAD_FLASH_MASK (1U << 4)
static int host_state_manager_save_active_manifest (struct state_manager *manager,
uint8_t manifest_index, enum manifest_region active)
{
struct host_state_manager *host_state = (struct host_state_manager*) manager;
int status;
UNUSED (manifest_index);
status = state_manager_save_active_manifest (manager, active, ACTIVE_PFM_MASK);
if (status == 0) {
if (status == 0) {
observable_notify_observers_with_ptr (&host_state->observable,
offsetof (struct host_state_observer, on_active_pfm), host_state);
}
}
return status;
}
static enum manifest_region host_state_manager_get_active_manifest (struct state_manager *manager,
uint8_t manifest_index)
{
UNUSED (manifest_index);
return state_manager_get_active_manifest (manager, ACTIVE_PFM_MASK);
}
static int host_state_manager_restore_default_state (struct state_manager *manager)
{
struct host_state_manager *host_state = (struct host_state_manager*) manager;
if (host_state == NULL) {
return STATE_MANAGER_INVALID_ARGUMENT;
}
platform_mutex_lock (&manager->state_lock);
manager->nv_state = 0xffff;
manager->volatile_state &= ~RUN_TIME_MASK;
manager->volatile_state |= PFM_DIRTY_MASK;
platform_mutex_unlock (&manager->state_lock);
observable_notify_observers_with_ptr (&host_state->observable,
offsetof (struct host_state_observer, on_active_pfm), host_state);
observable_notify_observers_with_ptr (&host_state->observable,
offsetof (struct host_state_observer, on_read_only_flash), host_state);
observable_notify_observers_with_ptr (&host_state->observable,
offsetof (struct host_state_observer, on_inactive_dirty), host_state);
observable_notify_observers_with_ptr (&host_state->observable,
offsetof (struct host_state_observer, on_active_recovery_image), host_state);
observable_notify_observers_with_ptr (&host_state->observable,
offsetof (struct host_state_observer, on_pfm_dirty), host_state);
observable_notify_observers_with_ptr (&host_state->observable,
offsetof (struct host_state_observer, on_run_time_validation), host_state);
observable_notify_observers_with_ptr (&host_state->observable,
offsetof (struct host_state_observer, on_bypass_mode), host_state);
observable_notify_observers_with_ptr (&host_state->observable,
offsetof (struct host_state_observer, on_unsupported_flash), host_state);
return 0;
}
static int host_state_manager_is_manifest_valid (struct state_manager *manager,
uint8_t manifest_index)
{
UNUSED (manager);
UNUSED (manifest_index);
return 0;
}
/**
* Initialize the manager for host state information.
*
* @param manager The state manager to initialize.
* @param state_flash The flash that contains the non-volatile state information.
* @param store_addr The starting address for state storage. The state storage uses two contiguous
* flash regions of FLASH_SECTOR_SIZE. The start address must be aligned to the start of a flash
* sector.
*
* @return 0 if the state manager was successfully initialized or an error code.
*/
int host_state_manager_init (struct host_state_manager *manager, const struct flash *state_flash,
uint32_t store_addr)
{
int status;
if (manager == NULL) {
return STATE_MANAGER_INVALID_ARGUMENT;
}
memset (manager, 0, sizeof (struct host_state_manager));
status = state_manager_init (&manager->base, state_flash, store_addr);
if (status != 0) {
return status;
}
status = observable_init (&manager->observable);
if (status != 0) {
state_manager_release (&manager->base);
return status;
}
manager->base.get_active_manifest = host_state_manager_get_active_manifest;
manager->base.save_active_manifest = host_state_manager_save_active_manifest;
manager->base.restore_default_state = host_state_manager_restore_default_state;
manager->base.is_manifest_valid = host_state_manager_is_manifest_valid;
manager->base.volatile_state |= PFM_DIRTY_MASK;
return 0;
}
/**
* Release the resources used by the host state manager.
*
* @param manager The state manager to release.
*/
void host_state_manager_release (struct host_state_manager *manager)
{
if (manager) {
state_manager_release (&manager->base);
observable_release (&manager->observable);
}
}
int host_state_manager_add_observer (struct host_state_manager *manager,
struct host_state_observer *observer)
{
if (manager == NULL) {
return STATE_MANAGER_INVALID_ARGUMENT;
}
return observable_add_observer (&manager->observable, observer);
}
int host_state_manager_remove_observer (struct host_state_manager *manager,
struct host_state_observer *observer)
{
if (manager == NULL) {
return STATE_MANAGER_INVALID_ARGUMENT;
}
return observable_remove_observer (&manager->observable, observer);
}
/**
* Save the setting for the flash device that will be the flash device accessed by the host for
* read-only data. This setting will be stored in non-volatile memory on the next call to store
* state.
*
* @param manager The host state to update.
* @param ro The flash device to save as the read-only flash.
*
* @return 0 if the setting was saved or an error code if the setting was invalid.
*/
int host_state_manager_save_read_only_flash (struct host_state_manager *manager, spi_filter_cs ro)
{
int status = 0;
if (manager == NULL) {
return STATE_MANAGER_INVALID_ARGUMENT;
}
platform_mutex_lock (&manager->base.state_lock);
switch (ro) {
case SPI_FILTER_CS_0:
manager->base.nv_state = manager->base.nv_state | READ_ONLY_FLASH_MASK;
break;
case SPI_FILTER_CS_1:
manager->base.nv_state = manager->base.nv_state & ~READ_ONLY_FLASH_MASK;
break;
default:
status = STATE_MANAGER_INVALID_ARGUMENT;
break;
}
platform_mutex_unlock (&manager->base.state_lock);
if (status == 0) {
observable_notify_observers_with_ptr (&manager->observable,
offsetof (struct host_state_observer, on_read_only_flash), manager);
}
return status;
}
/**
* Get the current setting for the host's read-only flash device.
*
* @param manager The host state to query.
*
* @return The read-only flash device.
*/
spi_filter_cs host_state_manager_get_read_only_flash (struct host_state_manager *manager)
{
if (manager == NULL) {
return SPI_FILTER_CS_0;
}
return (manager->base.nv_state & READ_ONLY_FLASH_MASK) ? SPI_FILTER_CS_0 : SPI_FILTER_CS_1;
}
/**
* Save the setting that indicates the read/write flash device has been written to in a read-only
* region. This setting will be stored in non-volatile memory on the next call to store state.
*
* @param manager The host state to update.
* @param dirty true if the flash has been written to and is pending validation, false if validation
* of the read/write flash is completed.
*
* @return 0 if the setting was saved or an error code if the manager instance is invalid.
*/
int host_state_manager_save_inactive_dirty (struct host_state_manager *manager, bool dirty)
{
bool run_time;
if (manager == NULL) {
return STATE_MANAGER_INVALID_ARGUMENT;
}
platform_mutex_lock (&manager->base.state_lock);
if (dirty) {
manager->base.nv_state = manager->base.nv_state & ~INACTIVE_DIRTY_MASK;
run_time = !!(manager->base.volatile_state & RUN_TIME_MASK);
manager->base.volatile_state = manager->base.volatile_state & ~RUN_TIME_MASK;
}
else {
manager->base.nv_state = manager->base.nv_state | INACTIVE_DIRTY_MASK;
}
platform_mutex_unlock (&manager->base.state_lock);
observable_notify_observers_with_ptr (&manager->observable,
offsetof (struct host_state_observer, on_inactive_dirty), manager);
if (dirty && run_time) {
observable_notify_observers_with_ptr (&manager->observable,
offsetof (struct host_state_observer, on_run_time_validation), manager);
}
return 0;
}
/**
* Get the current indication of whether the inactive read-only flash has been written or not.
*
* @param manager The host state to query.
*
* @return true if the inactive flash has been written and not validated or false otherwise.
*/
bool host_state_manager_is_inactive_dirty (struct host_state_manager *manager)
{
if (manager == NULL) {
return false;
}
return !(manager->base.nv_state & INACTIVE_DIRTY_MASK);
}
/**
* Save the setting that indicates the active recovery image region. This setting will be stored
* in non-volatile memory on the next call to store state.
*
* @param manager The host state to update.
* @param active The recovery image region to save as the active region
* @return 0 if the setting was saved or an error code.
*/
int host_state_manager_save_active_recovery_image (struct host_state_manager *manager,
enum recovery_image_region active)
{
int status = 0;
if (manager == NULL) {
return STATE_MANAGER_INVALID_ARGUMENT;
}
platform_mutex_lock (&manager->base.state_lock);
switch (active) {
case RECOVERY_IMAGE_REGION_1:
manager->base.nv_state = manager->base.nv_state | ACTIVE_RECOVERY_IMAGE_MASK;
break;
case RECOVERY_IMAGE_REGION_2:
manager->base.nv_state = manager->base.nv_state & ~ACTIVE_RECOVERY_IMAGE_MASK;
break;
default:
status = STATE_MANAGER_INVALID_ARGUMENT;
break;
}
platform_mutex_unlock (&manager->base.state_lock);
if (status == 0) {
observable_notify_observers_with_ptr (&manager->observable,
offsetof (struct host_state_observer, on_active_recovery_image), manager);
}
return status;
}
/**
* Get the current setting for the active recovery image region.
*
* @param manager The state manager to query.
*
* @return The active recovery image region.
*/
enum recovery_image_region host_state_manager_get_active_recovery_image (
struct host_state_manager *manager)
{
if (manager == NULL) {
return RECOVERY_IMAGE_REGION_1;
}
return (manager->base.nv_state & ACTIVE_RECOVERY_IMAGE_MASK) ?
RECOVERY_IMAGE_REGION_1 : RECOVERY_IMAGE_REGION_2;
}
/**
* Set the state indicating if the pending PFM is dirty. A dirty PFM is one for which flash
* validation has not been attempted yet. This state is volatile.
*
* @param manager The host state to update.
* @param dirty The dirty state of the PFM.
*/
void host_state_manager_set_pfm_dirty (struct host_state_manager *manager, bool dirty)
{
bool run_time = false;
if (manager != NULL) {
platform_mutex_lock (&manager->base.state_lock);
if (dirty) {
manager->base.volatile_state |= PFM_DIRTY_MASK;
if ((manager->base.volatile_state & RUN_TIME_MASK) ==
HOST_STATE_PREVALIDATED_FLASH_AND_PFM) {
run_time = true;
manager->base.volatile_state &= ~RUN_TIME_MASK;
}
}
else {
manager->base.volatile_state &= ~PFM_DIRTY_MASK;
}
platform_mutex_unlock (&manager->base.state_lock);
observable_notify_observers_with_ptr (&manager->observable,
offsetof (struct host_state_observer, on_pfm_dirty), manager);
if (run_time) {
observable_notify_observers_with_ptr (&manager->observable,
offsetof (struct host_state_observer, on_run_time_validation), manager);
}
}
}
/**
* Get the state indicating if the pending PFM is dirty. A dirty PFM is one for which flash
* validation has not been attempted yet.
*
* @param manager The host state to query.
*
* @return true if the pending PFM is dirty.
*/
bool host_state_manager_is_pfm_dirty (struct host_state_manager *manager)
{
if (manager == NULL) {
return true;
}
return !!(manager->base.volatile_state & PFM_DIRTY_MASK);
}
/**
* Set the state indicating what run-time validation has been performed against host flash. This
* state is volatile.
*
* @param manager The host state to update.
* @param state The run-time validation state for the host.
*/
void host_state_manager_set_run_time_validation (struct host_state_manager *manager,
enum host_state_prevalidated state)
{
if (manager != NULL) {
platform_mutex_lock (&manager->base.state_lock);
manager->base.volatile_state &= ~RUN_TIME_MASK;
manager->base.volatile_state |= state;
platform_mutex_unlock (&manager->base.state_lock);
observable_notify_observers_with_ptr (&manager->observable,
offsetof (struct host_state_observer, on_run_time_validation), manager);
}
}
/**
* Get the state indicating what run-time validation has been performed against host flash.
*
* @param manager The host state to query.
*
* @return The run-time validation state for the host.
*/
enum host_state_prevalidated host_state_manager_get_run_time_validation (
struct host_state_manager *manager)
{
if (manager == NULL) {
return HOST_STATE_PREVALIDATED_NONE;
}
return (enum host_state_prevalidated) (manager->base.volatile_state & RUN_TIME_MASK);
}
/**
* Set the state indicating if the host is operating in bypass mode. This state is volatile.
*
* @param manager The host state to update.
* @param bypass The bypass state of the host.
*/
void host_state_manager_set_bypass_mode (struct host_state_manager *manager, bool bypass)
{
if (manager != NULL) {
platform_mutex_lock (&manager->base.state_lock);
if (bypass) {
manager->base.volatile_state |= BYPASS_MASK;
}
else {
manager->base.volatile_state &= ~BYPASS_MASK;
}
platform_mutex_unlock (&manager->base.state_lock);
observable_notify_observers_with_ptr (&manager->observable,
offsetof (struct host_state_observer, on_bypass_mode), manager);
}
}
/**
* Get the state indicating if the host is operating in bypass mode.
*
* @param manager The host state to query.
*
* @return true if the host is running in bypass mode.
*/
bool host_state_manager_is_bypass_mode (struct host_state_manager *manager)
{
if (manager == NULL) {
return false;
}
return !!(manager->base.volatile_state & BYPASS_MASK);
}
/**
* Set the state indicating if the host flash configuration is not supported by the SPI filter.
*
* @param manager The host state to update.
* @param unsupported true to indicate an unsupported configuration.
*/
void host_state_manager_set_unsupported_flash (struct host_state_manager *manager, bool unsupported)
{
if (manager != NULL) {
platform_mutex_lock (&manager->base.state_lock);
if (unsupported) {
manager->base.volatile_state |= BAD_FLASH_MASK;
}
else {
manager->base.volatile_state &= ~BAD_FLASH_MASK;
}
platform_mutex_unlock (&manager->base.state_lock);
observable_notify_observers_with_ptr (&manager->observable,
offsetof (struct host_state_observer, on_unsupported_flash), manager);
}
}
/**
* Indicate if the host flash configuration is supported by the SPI filter.
*
* @param manager The host state to query.
*
* @return true if the flash configuration is supported.
*/
bool host_state_manager_is_flash_supported (struct host_state_manager *manager)
{
if (manager == NULL) {
return true;
}
return !(manager->base.volatile_state & BAD_FLASH_MASK);
}