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// SPDX-License-Identifier: GPL-2.0
/*
* Functions corresponding to password object type attributes under
* BIOS PASSWORD for use with hp-bioscfg driver.
*
* Copyright (c) 2022 HP Development Company, L.P.
*/
#include "bioscfg.h"
#include <asm-generic/posix_types.h>
GET_INSTANCE_ID(password);
/*
* Clear all passwords copied to memory for a particular
* authentication instance
*/
static int clear_passwords(const int instance)
{
struct password_data *password_data = &bioscfg_drv.password_data[instance];
if (!password_data->is_enabled)
return 0;
memset(password_data->current_password,
0, sizeof(password_data->current_password));
memset(password_data->new_password,
0, sizeof(password_data->new_password));
return 0;
}
/*
* Clear all credentials copied to memory for both Power-ON and Setup
* BIOS instances
*/
int hp_clear_all_credentials(void)
{
int count = bioscfg_drv.password_instances_count;
int instance;
/* clear all passwords */
for (instance = 0; instance < count; instance++)
clear_passwords(instance);
/* clear auth_token */
kfree(bioscfg_drv.spm_data.auth_token);
bioscfg_drv.spm_data.auth_token = NULL;
return 0;
}
int hp_get_password_instance_for_type(const char *name)
{
int count = bioscfg_drv.password_instances_count;
int instance;
for (instance = 0; instance < count; instance++)
if (!strcmp(bioscfg_drv.password_data[instance].common.display_name, name))
return instance;
return -EINVAL;
}
static int validate_password_input(int instance_id, const char *buf)
{
int length;
struct password_data *password_data = &bioscfg_drv.password_data[instance_id];
length = strlen(buf);
if (buf[length - 1] == '\n')
length--;
if (length > MAX_PASSWD_SIZE)
return INVALID_BIOS_AUTH;
if (password_data->min_password_length > length ||
password_data->max_password_length < length)
return INVALID_BIOS_AUTH;
return SUCCESS;
}
ATTRIBUTE_N_PROPERTY_SHOW(is_enabled, password);
static struct kobj_attribute password_is_password_set = __ATTR_RO(is_enabled);
static int store_password_instance(struct kobject *kobj, const char *buf,
size_t count, bool is_current)
{
char *buf_cp;
int id, ret = 0;
buf_cp = kstrdup(buf, GFP_KERNEL);
if (!buf_cp)
return -ENOMEM;
ret = hp_enforce_single_line_input(buf_cp, count);
if (!ret) {
id = get_password_instance_id(kobj);
if (id >= 0)
ret = validate_password_input(id, buf_cp);
}
if (!ret) {
if (is_current)
strscpy(bioscfg_drv.password_data[id].current_password,
buf_cp,
sizeof(bioscfg_drv.password_data[id].current_password));
else
strscpy(bioscfg_drv.password_data[id].new_password,
buf_cp,
sizeof(bioscfg_drv.password_data[id].new_password));
}
kfree(buf_cp);
return ret < 0 ? ret : count;
}
static ssize_t current_password_store(struct kobject *kobj,
struct kobj_attribute *attr,
const char *buf, size_t count)
{
return store_password_instance(kobj, buf, count, true);
}
static struct kobj_attribute password_current_password = __ATTR_WO(current_password);
static ssize_t new_password_store(struct kobject *kobj,
struct kobj_attribute *attr,
const char *buf, size_t count)
{
return store_password_instance(kobj, buf, count, true);
}
static struct kobj_attribute password_new_password = __ATTR_WO(new_password);
ATTRIBUTE_N_PROPERTY_SHOW(min_password_length, password);
static struct kobj_attribute password_min_password_length = __ATTR_RO(min_password_length);
ATTRIBUTE_N_PROPERTY_SHOW(max_password_length, password);
static struct kobj_attribute password_max_password_length = __ATTR_RO(max_password_length);
static ssize_t role_show(struct kobject *kobj, struct kobj_attribute *attr, char *buf)
{
if (!strcmp(kobj->name, SETUP_PASSWD))
return sysfs_emit(buf, "%s\n", BIOS_ADMIN);
if (!strcmp(kobj->name, POWER_ON_PASSWD))
return sysfs_emit(buf, "%s\n", POWER_ON);
return -EIO;
}
static struct kobj_attribute password_role = __ATTR_RO(role);
static ssize_t mechanism_show(struct kobject *kobj, struct kobj_attribute *attr,
char *buf)
{
int i = get_password_instance_id(kobj);
if (i < 0)
return i;
if (bioscfg_drv.password_data[i].mechanism != PASSWORD)
return -EINVAL;
return sysfs_emit(buf, "%s\n", PASSWD_MECHANISM_TYPES);
}
static struct kobj_attribute password_mechanism = __ATTR_RO(mechanism);
ATTRIBUTE_VALUES_PROPERTY_SHOW(encodings, password, SEMICOLON_SEP);
static struct kobj_attribute password_encodings_val = __ATTR_RO(encodings);
static struct attribute *password_attrs[] = {
&password_is_password_set.attr,
&password_min_password_length.attr,
&password_max_password_length.attr,
&password_current_password.attr,
&password_new_password.attr,
&password_role.attr,
&password_mechanism.attr,
&password_encodings_val.attr,
NULL
};
static const struct attribute_group password_attr_group = {
.attrs = password_attrs
};
int hp_alloc_password_data(void)
{
bioscfg_drv.password_instances_count = hp_get_instance_count(HP_WMI_BIOS_PASSWORD_GUID);
bioscfg_drv.password_data = kcalloc(bioscfg_drv.password_instances_count,
sizeof(*bioscfg_drv.password_data), GFP_KERNEL);
if (!bioscfg_drv.password_data) {
bioscfg_drv.password_instances_count = 0;
return -ENOMEM;
}
return 0;
}
/* Expected Values types associated with each element */
static const acpi_object_type expected_password_types[] = {
[NAME] = ACPI_TYPE_STRING,
[VALUE] = ACPI_TYPE_STRING,
[PATH] = ACPI_TYPE_STRING,
[IS_READONLY] = ACPI_TYPE_INTEGER,
[DISPLAY_IN_UI] = ACPI_TYPE_INTEGER,
[REQUIRES_PHYSICAL_PRESENCE] = ACPI_TYPE_INTEGER,
[SEQUENCE] = ACPI_TYPE_INTEGER,
[PREREQUISITES_SIZE] = ACPI_TYPE_INTEGER,
[PREREQUISITES] = ACPI_TYPE_STRING,
[SECURITY_LEVEL] = ACPI_TYPE_INTEGER,
[PSWD_MIN_LENGTH] = ACPI_TYPE_INTEGER,
[PSWD_MAX_LENGTH] = ACPI_TYPE_INTEGER,
[PSWD_SIZE] = ACPI_TYPE_INTEGER,
[PSWD_ENCODINGS] = ACPI_TYPE_STRING,
[PSWD_IS_SET] = ACPI_TYPE_INTEGER,
};
static int hp_populate_password_elements_from_package(union acpi_object *password_obj,
int password_obj_count,
int instance_id)
{
char *str_value = NULL;
int value_len;
int ret;
u32 size;
u32 int_value = 0;
int elem;
int reqs;
int eloc;
int pos_values;
struct password_data *password_data = &bioscfg_drv.password_data[instance_id];
if (!password_obj)
return -EINVAL;
for (elem = 1, eloc = 1; elem < password_obj_count; elem++, eloc++) {
/* ONLY look at the first PASSWORD_ELEM_CNT elements */
if (eloc == PSWD_ELEM_CNT)
goto exit_package;
switch (password_obj[elem].type) {
case ACPI_TYPE_STRING:
if (PREREQUISITES != elem && PSWD_ENCODINGS != elem) {
ret = hp_convert_hexstr_to_str(password_obj[elem].string.pointer,
password_obj[elem].string.length,
&str_value, &value_len);
if (ret)
continue;
}
break;
case ACPI_TYPE_INTEGER:
int_value = (u32)password_obj[elem].integer.value;
break;
default:
pr_warn("Unsupported object type [%d]\n", password_obj[elem].type);
continue;
}
/* Check that both expected and read object type match */
if (expected_password_types[eloc] != password_obj[elem].type) {
pr_err("Error expected type %d for elem %d, but got type %d instead\n",
expected_password_types[eloc], elem, password_obj[elem].type);
kfree(str_value);
return -EIO;
}
/* Assign appropriate element value to corresponding field*/
switch (eloc) {
case VALUE:
break;
case PATH:
strscpy(password_data->common.path, str_value,
sizeof(password_data->common.path));
break;
case IS_READONLY:
password_data->common.is_readonly = int_value;
break;
case DISPLAY_IN_UI:
password_data->common.display_in_ui = int_value;
break;
case REQUIRES_PHYSICAL_PRESENCE:
password_data->common.requires_physical_presence = int_value;
break;
case SEQUENCE:
password_data->common.sequence = int_value;
break;
case PREREQUISITES_SIZE:
if (int_value > MAX_PREREQUISITES_SIZE) {
pr_warn("Prerequisites size value exceeded the maximum number of elements supported or data may be malformed\n");
int_value = MAX_PREREQUISITES_SIZE;
}
password_data->common.prerequisites_size = int_value;
/* This step is needed to keep the expected
* element list pointing to the right obj[elem].type
* when the size is zero. PREREQUISITES
* object is omitted by BIOS when the size is
* zero.
*/
if (int_value == 0)
eloc++;
break;
case PREREQUISITES:
size = min_t(u32, password_data->common.prerequisites_size,
MAX_PREREQUISITES_SIZE);
for (reqs = 0; reqs < size; reqs++) {
ret = hp_convert_hexstr_to_str(password_obj[elem + reqs].string.pointer,
password_obj[elem + reqs].string.length,
&str_value, &value_len);
if (ret)
break;
strscpy(password_data->common.prerequisites[reqs],
str_value,
sizeof(password_data->common.prerequisites[reqs]));
kfree(str_value);
str_value = NULL;
}
break;
case SECURITY_LEVEL:
password_data->common.security_level = int_value;
break;
case PSWD_MIN_LENGTH:
password_data->min_password_length = int_value;
break;
case PSWD_MAX_LENGTH:
password_data->max_password_length = int_value;
break;
case PSWD_SIZE:
if (int_value > MAX_ENCODINGS_SIZE) {
pr_warn("Password Encoding size value exceeded the maximum number of elements supported or data may be malformed\n");
int_value = MAX_ENCODINGS_SIZE;
}
password_data->encodings_size = int_value;
/* This step is needed to keep the expected
* element list pointing to the right obj[elem].type
* when the size is zero. PSWD_ENCODINGS
* object is omitted by BIOS when the size is
* zero.
*/
if (int_value == 0)
eloc++;
break;
case PSWD_ENCODINGS:
size = min_t(u32, password_data->encodings_size, MAX_ENCODINGS_SIZE);
for (pos_values = 0; pos_values < size; pos_values++) {
ret = hp_convert_hexstr_to_str(password_obj[elem + pos_values].string.pointer,
password_obj[elem + pos_values].string.length,
&str_value, &value_len);
if (ret)
break;
strscpy(password_data->encodings[pos_values],
str_value,
sizeof(password_data->encodings[pos_values]));
kfree(str_value);
str_value = NULL;
}
break;
case PSWD_IS_SET:
password_data->is_enabled = int_value;
break;
default:
pr_warn("Invalid element: %d found in Password attribute or data may be malformed\n", elem);
break;
}
kfree(str_value);
str_value = NULL;
}
exit_package:
kfree(str_value);
return 0;
}
/**
* hp_populate_password_package_data()
* Populate all properties for an instance under password attribute
*
* @password_obj: ACPI object with password data
* @instance_id: The instance to enumerate
* @attr_name_kobj: The parent kernel object
*/
int hp_populate_password_package_data(union acpi_object *password_obj, int instance_id,
struct kobject *attr_name_kobj)
{
struct password_data *password_data = &bioscfg_drv.password_data[instance_id];
password_data->attr_name_kobj = attr_name_kobj;
hp_populate_password_elements_from_package(password_obj,
password_obj->package.count,
instance_id);
hp_friendly_user_name_update(password_data->common.path,
attr_name_kobj->name,
password_data->common.display_name,
sizeof(password_data->common.display_name));
if (!strcmp(attr_name_kobj->name, SETUP_PASSWD))
return sysfs_create_group(attr_name_kobj, &password_attr_group);
return sysfs_create_group(attr_name_kobj, &password_attr_group);
}
static int hp_populate_password_elements_from_buffer(u8 *buffer_ptr, u32 *buffer_size,
int instance_id)
{
int values;
int isreadonly;
struct password_data *password_data = &bioscfg_drv.password_data[instance_id];
int ret = 0;
/*
* Only data relevant to this driver and its functionality is
* read. BIOS defines the order in which each * element is
* read. Element 0 data is not relevant to this
* driver hence it is ignored. For clarity, all element names
* (DISPLAY_IN_UI) which defines the order in which is read
* and the name matches the variable where the data is stored.
*
* In earlier implementation, reported errors were ignored
* causing the data to remain uninitialized. It is not
* possible to determine if data read from BIOS is valid or
* not. It is for this reason functions may return a error
* without validating the data itself.
*/
// VALUE:
ret = hp_get_string_from_buffer(&buffer_ptr, buffer_size, password_data->current_password,
sizeof(password_data->current_password));
if (ret < 0)
goto buffer_exit;
// COMMON:
ret = hp_get_common_data_from_buffer(&buffer_ptr, buffer_size,
&password_data->common);
if (ret < 0)
goto buffer_exit;
// PSWD_MIN_LENGTH:
ret = hp_get_integer_from_buffer(&buffer_ptr, buffer_size,
&password_data->min_password_length);
if (ret < 0)
goto buffer_exit;
// PSWD_MAX_LENGTH:
ret = hp_get_integer_from_buffer(&buffer_ptr, buffer_size,
&password_data->max_password_length);
if (ret < 0)
goto buffer_exit;
// PSWD_SIZE:
ret = hp_get_integer_from_buffer(&buffer_ptr, buffer_size,
&password_data->encodings_size);
if (ret < 0)
goto buffer_exit;
if (password_data->encodings_size > MAX_ENCODINGS_SIZE) {
/* Report a message and limit possible values size to maximum value */
pr_warn("Password Encoding size value exceeded the maximum number of elements supported or data may be malformed\n");
password_data->encodings_size = MAX_ENCODINGS_SIZE;
}
// PSWD_ENCODINGS:
for (values = 0; values < password_data->encodings_size; values++) {
ret = hp_get_string_from_buffer(&buffer_ptr, buffer_size,
password_data->encodings[values],
sizeof(password_data->encodings[values]));
if (ret < 0)
break;
}
// PSWD_IS_SET:
ret = hp_get_integer_from_buffer(&buffer_ptr, buffer_size, &isreadonly);
if (ret < 0)
goto buffer_exit;
password_data->is_enabled = isreadonly ? true : false;
buffer_exit:
return ret;
}
/**
* hp_populate_password_buffer_data()
* Populate all properties for an instance under password object attribute
*
* @buffer_ptr: Buffer pointer
* @buffer_size: Buffer size
* @instance_id: The instance to enumerate
* @attr_name_kobj: The parent kernel object
*/
int hp_populate_password_buffer_data(u8 *buffer_ptr, u32 *buffer_size, int instance_id,
struct kobject *attr_name_kobj)
{
struct password_data *password_data = &bioscfg_drv.password_data[instance_id];
int ret = 0;
password_data->attr_name_kobj = attr_name_kobj;
/* Populate Password attributes */
ret = hp_populate_password_elements_from_buffer(buffer_ptr, buffer_size,
instance_id);
if (ret < 0)
return ret;
hp_friendly_user_name_update(password_data->common.path,
attr_name_kobj->name,
password_data->common.display_name,
sizeof(password_data->common.display_name));
if (!strcmp(attr_name_kobj->name, SETUP_PASSWD))
return sysfs_create_group(attr_name_kobj, &password_attr_group);
return sysfs_create_group(attr_name_kobj, &password_attr_group);
}
/**
* hp_exit_password_attributes() - Clear all attribute data
*
* Clears all data allocated for this group of attributes
*/
void hp_exit_password_attributes(void)
{
int instance_id;
for (instance_id = 0; instance_id < bioscfg_drv.password_instances_count;
instance_id++) {
struct kobject *attr_name_kobj =
bioscfg_drv.password_data[instance_id].attr_name_kobj;
if (attr_name_kobj) {
if (!strcmp(attr_name_kobj->name, SETUP_PASSWD))
sysfs_remove_group(attr_name_kobj,
&password_attr_group);
else
sysfs_remove_group(attr_name_kobj,
&password_attr_group);
}
}
bioscfg_drv.password_instances_count = 0;
kfree(bioscfg_drv.password_data);
bioscfg_drv.password_data = NULL;
}
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