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bacnet_stack/ports/bdk-atxx4-mstp/device.c
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/**************************************************************************
*
* Copyright (C) 2007 Steve Karg <skarg@users.sourceforge.net>
*
* SPDX-License-Identifier: MIT
*
*********************************************************************/
#include <stdbool.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include "bacnet/bacdef.h"
#include "bacnet/bacdcode.h"
#include "bacnet/bacstr.h"
#include "bacnet/bacenum.h"
#include "bacnet/apdu.h"
#include "bacnet/dcc.h"
#include "bacnet/datalink/datalink.h"
#include "rs485.h"
#include "bacnet/version.h"
#include "nvdata.h"
#include "stack.h"
#include "bacnet/basic/services.h"
#include "bname.h"
#include "bacnet/proplist.h"
/* objects */
#include "bacnet/basic/object/device.h"
#if (BACNET_PROTOCOL_REVISION >= 17)
#include "bacnet/basic/object/netport.h"
#endif
#include "bacnet/basic/object/ai.h"
#include "bacnet/basic/object/av.h"
#include "bacnet/basic/object/bi.h"
#include "bacnet/basic/object/bo.h"
/* current version of the BACnet stack */
static const char *BACnet_Version = BACNET_VERSION_TEXT;
/* forward prototype */
int Device_Read_Property_Local(BACNET_READ_PROPERTY_DATA *rpdata);
bool Device_Write_Property_Local(BACNET_WRITE_PROPERTY_DATA *wp_data);
static struct my_object_functions {
BACNET_OBJECT_TYPE Object_Type;
object_init_function Object_Init;
object_count_function Object_Count;
object_index_to_instance_function Object_Index_To_Instance;
object_valid_instance_function Object_Valid_Instance;
object_name_function Object_Name;
read_property_function Object_Read_Property;
write_property_function Object_Write_Property;
rpm_property_lists_function Object_RPM_List;
} Object_Table[] = { { OBJECT_DEVICE, NULL, /* don't init - recursive! */
Device_Count, Device_Index_To_Instance,
Device_Valid_Object_Instance_Number,
Device_Object_Name, Device_Read_Property_Local,
Device_Write_Property_Local, Device_Property_Lists },
{ OBJECT_ANALOG_INPUT, Analog_Input_Init, Analog_Input_Count,
Analog_Input_Index_To_Instance, Analog_Input_Valid_Instance,
Analog_Input_Object_Name, Analog_Input_Read_Property, NULL,
Analog_Input_Property_Lists },
{ OBJECT_ANALOG_VALUE, Analog_Value_Init, Analog_Value_Count,
Analog_Value_Index_To_Instance, Analog_Value_Valid_Instance,
Analog_Value_Object_Name, Analog_Value_Read_Property,
Analog_Value_Write_Property, Analog_Value_Property_Lists },
{ OBJECT_BINARY_INPUT, Binary_Input_Init, Binary_Input_Count,
Binary_Input_Index_To_Instance, Binary_Input_Valid_Instance,
Binary_Input_Object_Name, Binary_Input_Read_Property, NULL,
Binary_Input_Property_Lists },
{ OBJECT_BINARY_OUTPUT, Binary_Output_Init, Binary_Output_Count,
Binary_Output_Index_To_Instance, Binary_Output_Valid_Instance,
Binary_Output_Object_Name, Binary_Output_Read_Property,
Binary_Output_Write_Property, Binary_Output_Property_Lists },
#if (BACNET_PROTOCOL_REVISION >= 17)
{ OBJECT_NETWORK_PORT, Network_Port_Init, Network_Port_Count,
Network_Port_Index_To_Instance, Network_Port_Valid_Instance,
Network_Port_Object_Name, Network_Port_Read_Property,
Network_Port_Write_Property, Network_Port_Property_Lists },
#endif
{ MAX_BACNET_OBJECT_TYPE, NULL, NULL, NULL, NULL, NULL, NULL, NULL } };
/* note: you really only need to define variables for
properties that are writable or that may change.
The properties that are constant can be hard coded
into the read-property encoding. */
static uint32_t Object_Instance_Number;
static BACNET_DEVICE_STATUS System_Status = STATUS_OPERATIONAL;
static uint32_t Database_Revision;
static BACNET_REINITIALIZED_STATE Reinitialize_State = BACNET_REINIT_IDLE;
static const char *Reinit_Password = "rehmite";
/* These three arrays are used by the ReadPropertyMultiple handler */
static const int Device_Properties_Required[] = { PROP_OBJECT_IDENTIFIER,
PROP_OBJECT_NAME, PROP_OBJECT_TYPE, PROP_SYSTEM_STATUS, PROP_VENDOR_NAME,
PROP_VENDOR_IDENTIFIER, PROP_MODEL_NAME, PROP_FIRMWARE_REVISION,
PROP_APPLICATION_SOFTWARE_VERSION, PROP_PROTOCOL_VERSION,
PROP_PROTOCOL_REVISION, PROP_PROTOCOL_SERVICES_SUPPORTED,
PROP_PROTOCOL_OBJECT_TYPES_SUPPORTED, PROP_OBJECT_LIST,
PROP_MAX_APDU_LENGTH_ACCEPTED, PROP_SEGMENTATION_SUPPORTED,
PROP_APDU_TIMEOUT, PROP_NUMBER_OF_APDU_RETRIES, PROP_DEVICE_ADDRESS_BINDING,
PROP_DATABASE_REVISION, -1 };
static const int Device_Properties_Optional[] = { PROP_MAX_MASTER,
PROP_MAX_INFO_FRAMES, PROP_DESCRIPTION, PROP_LOCATION, -1 };
static const int Device_Properties_Proprietary[] = { 512, 513, 9600, -1 };
static struct my_object_functions *Device_Objects_Find_Functions(
BACNET_OBJECT_TYPE Object_Type)
{
struct my_object_functions *pObject = NULL;
pObject = &Object_Table[0];
while (pObject->Object_Type < MAX_BACNET_OBJECT_TYPE) {
/* handle each object type */
if (pObject->Object_Type == Object_Type) {
return (pObject);
}
pObject++;
}
return (NULL);
}
/* Encodes the property APDU and returns the length,
or sets the error, and returns BACNET_STATUS_ERROR */
int Device_Read_Property(BACNET_READ_PROPERTY_DATA *rpdata)
{
int apdu_len = BACNET_STATUS_ERROR;
struct my_object_functions *pObject = NULL;
#if (BACNET_PROTOCOL_REVISION >= 14)
struct special_property_list_t property_list;
#endif
/* initialize the default return values */
rpdata->error_class = ERROR_CLASS_OBJECT;
rpdata->error_code = ERROR_CODE_UNKNOWN_OBJECT;
pObject = Device_Objects_Find_Functions(rpdata->object_type);
if (pObject != NULL) {
if (pObject->Object_Valid_Instance &&
pObject->Object_Valid_Instance(rpdata->object_instance)) {
if (pObject->Object_Read_Property) {
#if (BACNET_PROTOCOL_REVISION >= 14)
if ((int)rpdata->object_property == PROP_PROPERTY_LIST) {
Device_Objects_Property_List(rpdata->object_type,
rpdata->object_instance, &property_list);
apdu_len = property_list_encode(rpdata,
property_list.Required.pList,
property_list.Optional.pList,
property_list.Proprietary.pList);
} else
#endif
{
apdu_len = pObject->Object_Read_Property(rpdata);
}
}
}
}
return apdu_len;
}
/**
* @brief Handles the writing of the object name property
* @param wp_data [in,out] WriteProperty data structure
* @param Object_Write_Property object specific function to write the property
* @return True on success, else False if there is an error.
*/
static bool Device_Write_Property_Object_Name(
BACNET_WRITE_PROPERTY_DATA *wp_data,
write_property_function Object_Write_Property)
{
bool status = false; /* return value */
int len = 0;
BACNET_CHARACTER_STRING value;
BACNET_OBJECT_TYPE object_type = OBJECT_NONE;
uint32_t object_instance = 0;
int apdu_size = 0;
uint8_t *apdu = NULL;
if (!wp_data) {
return false;
}
apdu = wp_data->application_data;
apdu_size = wp_data->application_data_len;
len = bacnet_character_string_application_decode(apdu, apdu_size, &value);
if (len > 0) {
if ((characterstring_encoding(&value) != CHARACTER_ANSI_X34) ||
(characterstring_length(&value) == 0) ||
(!characterstring_printable(&value))) {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_VALUE_OUT_OF_RANGE;
} else {
status = true;
}
} else if (len == 0) {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_INVALID_DATA_TYPE;
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_VALUE_OUT_OF_RANGE;
}
if (status) {
/* All the object names in a device must be unique */
if (Device_Valid_Object_Name(&value, &object_type, &object_instance)) {
if ((object_type == wp_data->object_type) &&
(object_instance == wp_data->object_instance)) {
/* writing same name to same object */
status = true;
} else {
/* name already exists in some object */
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_DUPLICATE_NAME;
status = false;
}
} else {
status = Object_Write_Property(wp_data);
}
}
return status;
}
bool Device_Write_Property(BACNET_WRITE_PROPERTY_DATA *wp_data)
{
bool status = false;
struct my_object_functions *pObject = NULL;
/* initialize the default return values */
pObject = Device_Objects_Find_Functions(wp_data->object_type);
if (pObject) {
if (pObject->Object_Valid_Instance &&
pObject->Object_Valid_Instance(wp_data->object_instance)) {
if (pObject->Object_Write_Property) {
#if (BACNET_PROTOCOL_REVISION >= 14)
if (wp_data->object_property == PROP_PROPERTY_LIST) {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_WRITE_ACCESS_DENIED;
return false;
}
#endif
if (wp_data->object_property == PROP_OBJECT_NAME) {
status = Device_Write_Property_Object_Name(
wp_data, pObject->Object_Write_Property);
} else {
status = pObject->Object_Write_Property(wp_data);
}
} else {
if (Device_Objects_Property_List_Member(wp_data->object_type,
wp_data->object_instance, wp_data->object_property)) {
/* this property is not writable */
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_WRITE_ACCESS_DENIED;
} else {
/* this property is not supported */
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_UNKNOWN_PROPERTY;
}
}
} else {
wp_data->error_class = ERROR_CLASS_OBJECT;
wp_data->error_code = ERROR_CODE_UNKNOWN_OBJECT;
}
} else {
wp_data->error_class = ERROR_CLASS_OBJECT;
wp_data->error_code = ERROR_CODE_UNKNOWN_OBJECT;
}
return status;
}
static unsigned my_property_list_count(const int *pList)
{
unsigned property_count = 0;
if (pList) {
while (*pList != -1) {
property_count++;
pList++;
}
}
return property_count;
}
/* for a given object type, returns the special property list */
void Device_Objects_Property_List(BACNET_OBJECT_TYPE object_type,
uint32_t object_instance,
struct special_property_list_t *pPropertyList)
{
struct my_object_functions *pObject = NULL;
(void)object_instance;
pPropertyList->Required.pList = NULL;
pPropertyList->Optional.pList = NULL;
pPropertyList->Proprietary.pList = NULL;
/* If we can find an entry for the required object type
* and there is an Object_List_RPM fn ptr then call it
* to populate the pointers to the individual list counters.
*/
pObject = Device_Objects_Find_Functions(object_type);
if ((pObject != NULL) && (pObject->Object_RPM_List != NULL)) {
pObject->Object_RPM_List(&pPropertyList->Required.pList,
&pPropertyList->Optional.pList, &pPropertyList->Proprietary.pList);
}
/* Fetch the counts if available otherwise zero them */
pPropertyList->Required.count = pPropertyList->Required.pList == NULL
? 0
: my_property_list_count(pPropertyList->Required.pList);
pPropertyList->Optional.count = pPropertyList->Optional.pList == NULL
? 0
: my_property_list_count(pPropertyList->Optional.pList);
pPropertyList->Proprietary.count = pPropertyList->Proprietary.pList == NULL
? 0
: my_property_list_count(pPropertyList->Proprietary.pList);
return;
}
/**
* @brief Determine if the object property is a member of this object instance
* @param object_type - object type of the object
* @param object_instance - object-instance number of the object
* @param object_property - object-property to be checked
* @return true if the property is a member of this object instance
*/
bool Device_Objects_Property_List_Member(
BACNET_OBJECT_TYPE object_type,
uint32_t object_instance,
BACNET_PROPERTY_ID object_property)
{
bool found = false;
struct special_property_list_t property_list = { 0 };
Device_Objects_Property_List(object_type, object_instance, &property_list);
found = property_list_member(property_list.Required.pList, object_property);
if (!found) {
found =
property_list_member(property_list.Optional.pList, object_property);
}
if (!found) {
found = property_list_member(
property_list.Proprietary.pList, object_property);
}
return found;
}
void Device_Property_Lists(
const int **pRequired, const int **pOptional, const int **pProprietary)
{
if (pRequired)
*pRequired = Device_Properties_Required;
if (pOptional)
*pOptional = Device_Properties_Optional;
if (pProprietary)
*pProprietary = Device_Properties_Proprietary;
return;
}
unsigned Device_Count(void)
{
return 1;
}
uint32_t Device_Index_To_Instance(unsigned index)
{
index = index;
return Object_Instance_Number;
}
static char *Device_Name_Default(void)
{
static char text[32]; /* okay for single thread */
snprintf(text, sizeof(text), "DEVICE-%lu",
(unsigned long)Object_Instance_Number);
return text;
}
bool Device_Object_Name(
uint32_t object_instance, BACNET_CHARACTER_STRING *object_name)
{
bool status = false;
if (object_instance == Object_Instance_Number) {
bacnet_name(NV_EEPROM_DEVICE_NAME, object_name, Device_Name_Default());
status = true;
}
return status;
}
/**
* @brief Sets the ReinitializeDevice password
*
* The password shall be a null terminated C string of up to
* 20 ASCII characters for those devices that require the password.
*
* For those devices that do not require a password, set to NULL or
* point to a zero length C string (null terminated).
*
* @param the ReinitializeDevice password; can be NULL or empty string
*/
bool Device_Reinitialize_Password_Set(const char *password)
{
Reinit_Password = password;
return true;
}
/**
* @brief Commands a Device re-initialization, to a given state.
* The request's password must match for the operation to succeed.
* This implementation provides a framework, but doesn't
* actually *DO* anything.
* @note You could use a mix of states and passwords to multiple outcomes.
* @note You probably want to restart *after* the simple ack has been sent
* from the return handler, so just set a local flag here.
* @ingroup ObjIntf
*
* @param rd_data [in,out] The information from the RD request.
* On failure, the error class and code will be set.
* @return True if succeeds (password is correct), else False.
*/
bool Device_Reinitialize(BACNET_REINITIALIZE_DEVICE_DATA *rd_data)
{
bool status = false;
bool password_success = false;
/* From 16.4.1.1.2 Password
This optional parameter shall be a CharacterString of up to
20 characters. For those devices that require the password as a
protection, the service request shall be denied if the parameter
is absent or if the password is incorrect. For those devices that
do not require a password, this parameter shall be ignored.*/
if (Reinit_Password && strlen(Reinit_Password) > 0) {
if (characterstring_length(&rd_data->password) > 20) {
rd_data->error_class = ERROR_CLASS_SERVICES;
rd_data->error_code = ERROR_CODE_PARAMETER_OUT_OF_RANGE;
} else if (characterstring_ansi_same(
&rd_data->password, Reinit_Password)) {
password_success = true;
} else {
rd_data->error_class = ERROR_CLASS_SECURITY;
rd_data->error_code = ERROR_CODE_PASSWORD_FAILURE;
}
} else {
password_success = true;
}
if (password_success) {
switch (rd_data->state) {
case BACNET_REINIT_COLDSTART:
case BACNET_REINIT_WARMSTART:
dcc_set_status_duration(COMMUNICATION_ENABLE, 0);
/* note: you probably want to restart *after* the
simple ack has been sent from the return handler
so just set a flag from here */
Reinitialize_State = rd_data->state;
status = true;
break;
case BACNET_REINIT_STARTBACKUP:
case BACNET_REINIT_ENDBACKUP:
case BACNET_REINIT_STARTRESTORE:
case BACNET_REINIT_ENDRESTORE:
case BACNET_REINIT_ABORTRESTORE:
if (dcc_communication_disabled()) {
rd_data->error_class = ERROR_CLASS_SERVICES;
rd_data->error_code = ERROR_CODE_COMMUNICATION_DISABLED;
} else {
rd_data->error_class = ERROR_CLASS_SERVICES;
rd_data->error_code =
ERROR_CODE_OPTIONAL_FUNCTIONALITY_NOT_SUPPORTED;
}
break;
default:
rd_data->error_class = ERROR_CLASS_SERVICES;
rd_data->error_code = ERROR_CODE_PARAMETER_OUT_OF_RANGE;
break;
}
}
return status;
}
BACNET_REINITIALIZED_STATE Device_Reinitialized_State(void)
{
return Reinitialize_State;
}
void Device_Init(object_functions_t *object_table)
{
struct my_object_functions *pObject = NULL;
/* we don't use the object table passed in
since there is extra stuff we don't need in there. */
(void)object_table;
/* our local object table */
pObject = &Object_Table[0];
while (pObject->Object_Type < MAX_BACNET_OBJECT_TYPE) {
if (pObject->Object_Init) {
pObject->Object_Init();
}
pObject++;
}
dcc_set_status_duration(COMMUNICATION_ENABLE, 0);
}
/* methods to manipulate the data */
uint32_t Device_Object_Instance_Number(void)
{
return Object_Instance_Number;
}
bool Device_Set_Object_Instance_Number(uint32_t object_id)
{
bool status = true; /* return value */
if (object_id <= BACNET_MAX_INSTANCE) {
if (object_id != Object_Instance_Number) {
Device_Inc_Database_Revision();
Object_Instance_Number = object_id;
}
} else
status = false;
return status;
}
bool Device_Valid_Object_Instance_Number(uint32_t object_id)
{
return (Object_Instance_Number == object_id);
}
BACNET_DEVICE_STATUS Device_System_Status(void)
{
return System_Status;
}
int Device_Set_System_Status(BACNET_DEVICE_STATUS status, bool local)
{
/*return value - 0 = ok, -1 = bad value, -2 = not allowed */
int result = -1;
if (status < MAX_DEVICE_STATUS) {
System_Status = status;
result = 0;
}
return result;
}
uint16_t Device_Vendor_Identifier(void)
{
return BACNET_VENDOR_ID;
}
BACNET_SEGMENTATION Device_Segmentation_Supported(void)
{
return SEGMENTATION_NONE;
}
uint32_t Device_Database_Revision(void)
{
return Database_Revision;
}
void Device_Inc_Database_Revision(void)
{
Database_Revision++;
}
/* Since many network clients depend on the object list */
/* for discovery, it must be consistent! */
unsigned Device_Object_List_Count(void)
{
unsigned count = 0; /* number of objects */
struct my_object_functions *pObject = NULL;
/* initialize the default return values */
pObject = &Object_Table[0];
while (pObject->Object_Type < MAX_BACNET_OBJECT_TYPE) {
if (pObject->Object_Count) {
count += pObject->Object_Count();
}
pObject++;
}
return count;
}
bool Device_Object_List_Identifier(
uint32_t array_index, BACNET_OBJECT_TYPE *object_type, uint32_t *instance)
{
bool status = false;
uint32_t count = 0;
uint32_t object_index = 0;
struct my_object_functions *pObject = NULL;
/* array index zero is length - so invalid */
if (array_index == 0) {
return status;
}
object_index = array_index - 1;
/* initialize the default return values */
pObject = &Object_Table[0];
while (pObject->Object_Type < MAX_BACNET_OBJECT_TYPE) {
if (pObject->Object_Count && pObject->Object_Index_To_Instance) {
object_index -= count;
count = pObject->Object_Count();
if (object_index < count) {
*object_type = pObject->Object_Type;
*instance = pObject->Object_Index_To_Instance(object_index);
status = true;
break;
}
}
pObject++;
}
return status;
}
/**
* @brief Encode a BACnetARRAY property element
* @param object_instance [in] BACnet network port object instance number
* @param array_index [in] array index requested:
* 0 to N for individual array members
* @param apdu [out] Buffer in which the APDU contents are built, or NULL to
* return the length of buffer if it had been built
* @return The length of the apdu encoded or
* BACNET_STATUS_ERROR for ERROR_CODE_INVALID_ARRAY_INDEX
*/
int Device_Object_List_Element_Encode(
uint32_t object_instance, BACNET_ARRAY_INDEX array_index, uint8_t *apdu)
{
int apdu_len = BACNET_STATUS_ERROR;
BACNET_OBJECT_TYPE object_type;
uint32_t instance;
bool found;
if (object_instance == Device_Object_Instance_Number()) {
/* single element is zero based, add 1 for BACnetARRAY which is one
* based */
array_index++;
found =
Device_Object_List_Identifier(array_index, &object_type, &instance);
if (found) {
apdu_len =
encode_application_object_id(apdu, object_type, instance);
}
}
return apdu_len;
}
bool Device_Valid_Object_Name(const BACNET_CHARACTER_STRING *object_name1,
BACNET_OBJECT_TYPE *object_type,
uint32_t *object_instance)
{
bool found = false;
BACNET_OBJECT_TYPE type = OBJECT_NONE;
uint32_t instance;
uint32_t max_objects = 0, i = 0;
bool check_id = false;
BACNET_CHARACTER_STRING object_name2;
struct my_object_functions *pObject = NULL;
max_objects = Device_Object_List_Count();
for (i = 1; i <= max_objects; i++) {
check_id = Device_Object_List_Identifier(i, &type, &instance);
if (check_id) {
pObject = Device_Objects_Find_Functions((BACNET_OBJECT_TYPE)type);
if ((pObject != NULL) && (pObject->Object_Name != NULL) &&
(pObject->Object_Name(instance, &object_name2) &&
characterstring_same(object_name1, &object_name2))) {
found = true;
if (object_type) {
*object_type = type;
}
if (object_instance) {
*object_instance = instance;
}
break;
}
}
}
return found;
}
bool Device_Valid_Object_Id(
BACNET_OBJECT_TYPE object_type, uint32_t object_instance)
{
bool status = false; /* return value */
struct my_object_functions *pObject = NULL;
pObject = Device_Objects_Find_Functions((BACNET_OBJECT_TYPE)object_type);
if ((pObject != NULL) && (pObject->Object_Valid_Instance != NULL)) {
status = pObject->Object_Valid_Instance(object_instance);
}
return status;
}
bool Device_Object_Name_Copy(BACNET_OBJECT_TYPE object_type,
uint32_t object_instance,
BACNET_CHARACTER_STRING *object_name)
{
struct my_object_functions *pObject = NULL;
bool found = false;
if (pObject != NULL) {
if (pObject->Object_Valid_Instance &&
pObject->Object_Valid_Instance(object_instance)) {
if (pObject->Object_Name) {
found = pObject->Object_Name(object_instance, object_name);
}
}
}
return found;
}
/* return the length of the apdu encoded or BACNET_STATUS_ERROR for error */
int Device_Read_Property_Local(BACNET_READ_PROPERTY_DATA *rpdata)
{
int apdu_len = 0; /* return value */
BACNET_BIT_STRING bit_string = { 0 };
BACNET_CHARACTER_STRING char_string = { 0 };
uint32_t i = 0;
uint32_t count = 0;
uint8_t *apdu = NULL;
int apdu_max = 0;
struct my_object_functions *pObject = NULL;
if ((rpdata->application_data == NULL) ||
(rpdata->application_data_len == 0)) {
return 0;
}
apdu = rpdata->application_data;
apdu_max = rpdata->application_data_len;
switch ((int)rpdata->object_property) {
case PROP_OBJECT_IDENTIFIER:
apdu_len = encode_application_object_id(
&apdu[0], rpdata->object_type, rpdata->object_instance);
break;
case PROP_OBJECT_NAME:
Device_Object_Name(rpdata->object_instance, &char_string);
apdu_len =
encode_application_character_string(&apdu[0], &char_string);
break;
case PROP_OBJECT_TYPE:
apdu_len =
encode_application_enumerated(&apdu[0], rpdata->object_type);
break;
case PROP_DESCRIPTION:
bacnet_name(NV_EEPROM_DEVICE_DESCRIPTION, &char_string,
"BACnet Development Kit");
apdu_len =
encode_application_character_string(&apdu[0], &char_string);
break;
case PROP_LOCATION:
bacnet_name(
NV_EEPROM_DEVICE_LOCATION, &char_string, "default location");
apdu_len =
encode_application_character_string(&apdu[0], &char_string);
break;
case PROP_SYSTEM_STATUS:
apdu_len =
encode_application_enumerated(&apdu[0], Device_System_Status());
break;
case PROP_VENDOR_NAME:
characterstring_init_ansi(&char_string, BACNET_VENDOR_NAME);
apdu_len =
encode_application_character_string(&apdu[0], &char_string);
break;
case PROP_VENDOR_IDENTIFIER:
apdu_len = encode_application_unsigned(&apdu[0], BACNET_VENDOR_ID);
break;
case PROP_MODEL_NAME:
characterstring_init_ansi(&char_string, "bdk-atxx4-mstp");
apdu_len =
encode_application_character_string(&apdu[0], &char_string);
break;
case PROP_FIRMWARE_REVISION:
characterstring_init_ansi(&char_string, BACnet_Version);
apdu_len =
encode_application_character_string(&apdu[0], &char_string);
break;
case PROP_APPLICATION_SOFTWARE_VERSION:
characterstring_init_ansi(&char_string, "1.0");
apdu_len =
encode_application_character_string(&apdu[0], &char_string);
break;
case PROP_PROTOCOL_VERSION:
apdu_len =
encode_application_unsigned(&apdu[0], BACNET_PROTOCOL_VERSION);
break;
case PROP_PROTOCOL_REVISION:
apdu_len =
encode_application_unsigned(&apdu[0], BACNET_PROTOCOL_REVISION);
break;
case PROP_PROTOCOL_SERVICES_SUPPORTED:
/* Note: list of services that are executed, not initiated. */
bitstring_init(&bit_string);
for (i = 0; i < MAX_BACNET_SERVICES_SUPPORTED; i++) {
/* automatic lookup based on handlers set */
bitstring_set_bit(&bit_string, (uint8_t)i,
apdu_service_supported((BACNET_SERVICES_SUPPORTED)i));
}
apdu_len = encode_application_bitstring(&apdu[0], &bit_string);
break;
case PROP_PROTOCOL_OBJECT_TYPES_SUPPORTED:
/* Note: this is the list of objects that can be in this device,
not a list of objects that this device can access */
bitstring_init(&bit_string);
for (i = 0; i < MAX_ASHRAE_OBJECT_TYPE; i++) {
/* initialize all the object types to not-supported */
bitstring_set_bit(&bit_string, (uint8_t)i, false);
}
/* set the object types with objects to supported */
i = 0;
pObject = &Object_Table[i];
while (pObject->Object_Type < MAX_BACNET_OBJECT_TYPE) {
if ((pObject->Object_Count) && (pObject->Object_Count() > 0)) {
bitstring_set_bit(&bit_string, pObject->Object_Type, true);
}
pObject++;
}
apdu_len = encode_application_bitstring(&apdu[0], &bit_string);
break;
case PROP_OBJECT_LIST:
count = Device_Object_List_Count();
apdu_len = bacnet_array_encode(rpdata->object_instance,
rpdata->array_index, Device_Object_List_Element_Encode, count,
apdu, apdu_max);
if (apdu_len == BACNET_STATUS_ABORT) {
rpdata->error_code =
ERROR_CODE_ABORT_SEGMENTATION_NOT_SUPPORTED;
} else if (apdu_len == BACNET_STATUS_ERROR) {
rpdata->error_class = ERROR_CLASS_PROPERTY;
rpdata->error_code = ERROR_CODE_INVALID_ARRAY_INDEX;
}
break;
case PROP_MAX_APDU_LENGTH_ACCEPTED:
apdu_len = encode_application_unsigned(&apdu[0], MAX_APDU);
break;
case PROP_SEGMENTATION_SUPPORTED:
apdu_len = encode_application_enumerated(
&apdu[0], Device_Segmentation_Supported());
break;
case PROP_APDU_TIMEOUT:
apdu_len = encode_application_unsigned(&apdu[0], apdu_timeout());
break;
case PROP_NUMBER_OF_APDU_RETRIES:
apdu_len = encode_application_unsigned(&apdu[0], apdu_retries());
break;
case PROP_DEVICE_ADDRESS_BINDING:
/* FIXME: encode the list here, if it exists */
break;
case PROP_DATABASE_REVISION:
apdu_len = encode_application_unsigned(
&apdu[0], Device_Database_Revision());
break;
case PROP_MAX_INFO_FRAMES:
apdu_len =
encode_application_unsigned(&apdu[0], dlmstp_max_info_frames());
break;
case PROP_MAX_MASTER:
apdu_len =
encode_application_unsigned(&apdu[0], dlmstp_max_master());
break;
case 512:
apdu_len = encode_application_unsigned(&apdu[0], stack_size());
break;
case 513:
apdu_len = encode_application_unsigned(&apdu[0], stack_unused());
break;
case 9600:
apdu_len = encode_application_unsigned(&apdu[0], rs485_baud_rate());
break;
default:
rpdata->error_class = ERROR_CLASS_PROPERTY;
rpdata->error_code = ERROR_CODE_UNKNOWN_PROPERTY;
apdu_len = BACNET_STATUS_ERROR;
break;
}
return apdu_len;
}
bool Device_Write_Property_Local(BACNET_WRITE_PROPERTY_DATA *wp_data)
{
bool status = false; /* return value - false=error */
int len = 0;
BACNET_APPLICATION_DATA_VALUE value = { 0 };
uint8_t max_master = 0;
/* decode the some of the request */
len = bacapp_decode_application_data(
wp_data->application_data, wp_data->application_data_len, &value);
/* FIXME: len < application_data_len: more data? */
if (len < 0) {
/* error while decoding - a value larger than we can handle */
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_VALUE_OUT_OF_RANGE;
return false;
}
switch ((int)wp_data->object_property) {
case PROP_OBJECT_IDENTIFIER:
if (value.tag == BACNET_APPLICATION_TAG_OBJECT_ID) {
if ((value.type.Object_Id.type == OBJECT_DEVICE) &&
(Device_Set_Object_Instance_Number(
value.type.Object_Id.instance))) {
eeprom_bytes_write(NV_EEPROM_DEVICE_0,
(uint8_t *)&value.type.Object_Id.instance, 4);
/* we could send an I-Am broadcast to let the world know */
status = true;
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_VALUE_OUT_OF_RANGE;
}
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_INVALID_DATA_TYPE;
}
break;
case PROP_MAX_INFO_FRAMES:
if (value.tag == BACNET_APPLICATION_TAG_UNSIGNED_INT) {
if (value.type.Unsigned_Int <= 255) {
dlmstp_set_max_info_frames(value.type.Unsigned_Int);
status = true;
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_VALUE_OUT_OF_RANGE;
}
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_INVALID_DATA_TYPE;
}
break;
case PROP_MAX_MASTER:
if (value.tag == BACNET_APPLICATION_TAG_UNSIGNED_INT) {
if ((value.type.Unsigned_Int > 0) &&
(value.type.Unsigned_Int <= 127)) {
max_master = value.type.Unsigned_Int;
dlmstp_set_max_master(max_master);
eeprom_bytes_write(NV_EEPROM_MAX_MASTER, &max_master, 1);
status = true;
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_VALUE_OUT_OF_RANGE;
}
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_INVALID_DATA_TYPE;
}
break;
case PROP_OBJECT_NAME:
if (value.tag == BACNET_APPLICATION_TAG_CHARACTER_STRING) {
status = bacnet_name_write_unique(NV_EEPROM_DEVICE_NAME,
wp_data->object_type, wp_data->object_instance,
&value.type.Character_String, &wp_data->error_class,
&wp_data->error_code);
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_INVALID_DATA_TYPE;
}
break;
case PROP_DESCRIPTION:
if (value.tag == BACNET_APPLICATION_TAG_CHARACTER_STRING) {
status = bacnet_name_write(NV_EEPROM_DEVICE_DESCRIPTION,
&value.type.Character_String, &wp_data->error_class,
&wp_data->error_code);
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_INVALID_DATA_TYPE;
}
break;
case PROP_LOCATION:
if (value.tag == BACNET_APPLICATION_TAG_CHARACTER_STRING) {
status = bacnet_name_write(NV_EEPROM_DEVICE_LOCATION,
&value.type.Character_String, &wp_data->error_class,
&wp_data->error_code);
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_INVALID_DATA_TYPE;
}
break;
case 9600:
if (value.tag == BACNET_APPLICATION_TAG_UNSIGNED_INT) {
if ((value.type.Unsigned_Int <= 115200) &&
(rs485_baud_rate_set(value.type.Unsigned_Int))) {
status = true;
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_VALUE_OUT_OF_RANGE;
}
} else {
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_INVALID_DATA_TYPE;
}
break;
case PROP_OBJECT_TYPE:
case PROP_VENDOR_NAME:
case PROP_FIRMWARE_REVISION:
case PROP_APPLICATION_SOFTWARE_VERSION:
case PROP_DAYLIGHT_SAVINGS_STATUS:
case PROP_PROTOCOL_VERSION:
case PROP_PROTOCOL_REVISION:
case PROP_PROTOCOL_SERVICES_SUPPORTED:
case PROP_PROTOCOL_OBJECT_TYPES_SUPPORTED:
case PROP_OBJECT_LIST:
case PROP_MAX_APDU_LENGTH_ACCEPTED:
case PROP_SEGMENTATION_SUPPORTED:
case PROP_DEVICE_ADDRESS_BINDING:
case PROP_DATABASE_REVISION:
case 512:
case 513:
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_WRITE_ACCESS_DENIED;
break;
default:
wp_data->error_class = ERROR_CLASS_PROPERTY;
wp_data->error_code = ERROR_CODE_UNKNOWN_PROPERTY;
break;
}
return status;
}
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