/usr/include/ola/rdm/RDMAPI.h is in libola-dev 0.9.8-1.
This file is owned by root:root, with mode 0o644.
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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 | /*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* RDMAPI.h
* Provide a generic RDM API that can use different implementations.
* Copyright (C) 2010 Simon Newton
*
* This class provides a high level C++ RDM API for PIDs defined in
* E1.20. It includes errors checking for out-of-range arguments. Each RDM
* method takes a pointer to a string, which will be populated with an English
* error message if the command fails.
*/
/**
* @addtogroup rdm_api
* @{
* @file RDMAPI.h
* @brief Provide a generic RDM API that can use different implementations.
*
* This class provides a high level C++ RDM API for PIDS defined in E1.20. It
* includes error checking for out-of-range arguments. Each RDM method takes a
* pointer to a string, which will be populated with an english error message
* if the command fails.
* @}
*
*/
#ifndef INCLUDE_OLA_RDM_RDMAPI_H_
#define INCLUDE_OLA_RDM_RDMAPI_H_
#include <stdint.h>
#include <ola/Callback.h>
#include <ola/base/Macro.h>
#include <ola/rdm/RDMAPIImplInterface.h>
#include <ola/rdm/RDMEnums.h>
#include <ola/rdm/UID.h>
#include <map>
#include <string>
#include <vector>
namespace ola {
namespace rdm {
/*
* Represents a Status Message
*/
typedef struct {
uint16_t sub_device;
uint16_t status_message_id;
int16_t value1;
int16_t value2;
uint8_t status_type;
} StatusMessage;
/*
* Represents the description for a parameter
*/
typedef struct {
uint16_t pid;
uint8_t pdl_size;
uint8_t data_type;
uint8_t command_class;
uint8_t unit;
uint8_t prefix;
uint32_t min_value;
uint32_t default_value;
uint32_t max_value;
std::string description;
} ParameterDescriptor;
/*
* Represents a DeviceDescriptor reply
*/
PACK(
struct device_info_s {
uint8_t protocol_version_high;
uint8_t protocol_version_low;
uint16_t device_model;
uint16_t product_category;
uint32_t software_version;
uint16_t dmx_footprint;
uint8_t current_personality;
uint8_t personality_count;
uint16_t dmx_start_address;
uint16_t sub_device_count;
uint8_t sensor_count;
});
typedef struct device_info_s DeviceDescriptor;
/*
* Information about a DMX slot
*/
PACK(
struct slot_info_s {
uint16_t slot_offset;
uint8_t slot_type;
uint16_t slot_label;
});
typedef struct slot_info_s SlotDescriptor;
/*
* The default values for a slot
*/
PACK(
struct slot_default_s {
uint16_t slot_offset;
uint8_t default_value;
});
typedef struct slot_default_s SlotDefault;
/*
* Sensor definition
*/
typedef struct {
uint8_t sensor_number;
uint8_t type;
uint8_t unit;
uint8_t prefix;
int16_t range_min;
int16_t range_max;
int16_t normal_min;
int16_t normal_max;
uint8_t recorded_value_support;
std::string description;
} SensorDescriptor;
/*
* Sensor values
*/
PACK(
struct sensor_values_s {
uint8_t sensor_number;
int16_t present_value;
int16_t lowest;
int16_t highest;
int16_t recorded;
});
typedef struct sensor_values_s SensorValueDescriptor;
/*
* Clock structure
*/
PACK(
struct clock_value_s {
uint16_t year;
uint8_t month;
uint8_t day;
uint8_t hour;
uint8_t minute;
uint8_t second;
});
typedef struct clock_value_s ClockValue;
/*
* The interface for objects which deal with queued messages
*/
class QueuedMessageHandler {
public:
virtual ~QueuedMessageHandler() {}
virtual void ProxiedDeviceCount(const ResponseStatus &status,
uint16_t device_count,
bool list_changed) = 0;
virtual void ProxiedDevices(const ResponseStatus &status,
const std::vector<UID> &uids) = 0;
virtual void CommStatus(const ResponseStatus &status,
uint16_t short_message,
uint16_t length_mismatch,
uint16_t checksum_fail) = 0;
virtual void StatusMessages(const ResponseStatus &status,
const std::vector<StatusMessage> &messages) = 0;
virtual void StatusIdDescription(const ResponseStatus &status,
const std::string &status_id) = 0;
virtual void SubDeviceReporting(const ResponseStatus &status,
uint8_t status_type) = 0;
virtual void SupportedParameters(
const ResponseStatus &status,
const std::vector<uint16_t> ¶meters) = 0;
virtual void ParameterDescription(
const ResponseStatus &status,
const ParameterDescriptor &description) = 0;
virtual void DeviceInfo(const ResponseStatus &status,
const DeviceDescriptor &device_info) = 0;
virtual void ProductDetailIdList(const ResponseStatus &status,
const std::vector<uint16_t> &ids) = 0;
virtual void DeviceModelDescription(const ResponseStatus &status,
const std::string &description) = 0;
virtual void ManufacturerLabel(const ResponseStatus &status,
const std::string &label) = 0;
virtual void DeviceLabel(const ResponseStatus &status,
const std::string &label) = 0;
virtual void FactoryDefaults(const ResponseStatus &status,
bool using_defaults) = 0;
virtual void LanguageCapabilities(
const ResponseStatus &status,
const std::vector<std::string> &langs) = 0;
virtual void Language(const ResponseStatus &status,
const std::string &language) = 0;
virtual void SoftwareVersionLabel(const ResponseStatus &status,
const std::string &label) = 0;
virtual void BootSoftwareVersion(const ResponseStatus &status,
uint32_t version) = 0;
virtual void BootSoftwareVersionLabel(const ResponseStatus &status,
const std::string &label) = 0;
virtual void DMXPersonality(const ResponseStatus &status,
uint8_t current_personality,
uint8_t personality_count) = 0;
virtual void DMXPersonalityDescription(const ResponseStatus &status,
uint8_t personality,
uint16_t slots_requires,
const std::string &label) = 0;
virtual void DMXAddress(const ResponseStatus &status,
uint16_t start_address) = 0;
virtual void SlotInfo(const ResponseStatus &status,
const std::vector<SlotDescriptor> &slots) = 0;
virtual void SlotDescription(const ResponseStatus &status,
uint16_t slot_offset,
const std::string &description) = 0;
virtual void SlotDefaultValues(
const ResponseStatus &status,
const std::vector<SlotDefault> &defaults) = 0;
virtual void SensorDefinition(const ResponseStatus &status,
const SensorDescriptor &descriptor) = 0;
virtual void SensorValue(const ResponseStatus &status,
const SensorValueDescriptor &descriptor) = 0;
virtual void DeviceHours(const ResponseStatus &status,
uint32_t hours) = 0;
virtual void LampHours(const ResponseStatus &status,
uint32_t hours) = 0;
virtual void LampStrikes(const ResponseStatus &status,
uint32_t hours) = 0;
virtual void LampState(const ResponseStatus &status,
uint8_t state) = 0;
virtual void LampMode(const ResponseStatus &status,
uint8_t mode) = 0;
virtual void DevicePowerCycles(const ResponseStatus &status,
uint32_t hours) = 0;
virtual void DisplayInvert(const ResponseStatus &status,
uint8_t invert_mode) = 0;
virtual void DisplayLevel(const ResponseStatus &status,
uint8_t level) = 0;
virtual void PanInvert(const ResponseStatus &status,
uint8_t inverted) = 0;
virtual void TiltInvert(const ResponseStatus &status,
uint8_t inverted) = 0;
virtual void PanTiltSwap(const ResponseStatus &status,
uint8_t inverted) = 0;
virtual void IdentifyDevice(const ResponseStatus &status,
bool mode) = 0;
virtual void Clock(const ResponseStatus &status,
const ClockValue &clock) = 0;
virtual void PowerState(const ResponseStatus &status,
uint8_t power_state) = 0;
virtual void ResetDevice(const ResponseStatus &status,
uint8_t reset_device) = 0;
virtual void SelfTestEnabled(const ResponseStatus &status,
bool is_enabled) = 0;
virtual void SelfTestDescription(const ResponseStatus &status,
uint8_t self_test_number,
const std::string &description) = 0;
virtual void PresetPlaybackMode(const ResponseStatus &status,
uint16_t preset_mode,
uint8_t level) = 0;
virtual void DefaultHandler(const ResponseStatus &status,
uint16_t pid,
const std::string &data) = 0;
};
/*
* The high level RDM API.
*/
class RDMAPI {
public:
explicit RDMAPI(class RDMAPIImplInterface *impl):
m_impl(impl) {
}
~RDMAPI() {}
// This is used to check for queued messages
uint8_t OutstandingMessagesCount(const UID &uid);
// Proxy methods
bool GetProxiedDeviceCount(
unsigned int universe,
const UID &uid,
ola::SingleUseCallback3<void,
const ResponseStatus&,
uint16_t,
bool> *callback,
std::string *error);
bool GetProxiedDevices(
unsigned int universe,
const UID &uid,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<UID>&> *callback,
std::string *error);
// Network Managment Methods
bool GetCommStatus(
unsigned int universe,
const UID &uid,
ola::SingleUseCallback4<void,
const ResponseStatus&,
uint16_t,
uint16_t,
uint16_t> *callback,
std::string *error);
bool ClearCommStatus(
unsigned int universe,
const UID &uid,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
// There are two types of queued message calls, one that takes a
// QueuedMessageHandler and the other than just takes a callback.
// When complete, the appropriate method will be called on the handler.
bool GetQueuedMessage(
unsigned int universe,
const UID &uid,
rdm_status_type status_type,
QueuedMessageHandler *handler,
std::string *error);
// When complete, the callback will be run. It's up to the caller to unpack
// the message.
bool GetQueuedMessage(
unsigned int universe,
const UID &uid,
rdm_status_type status_type,
ola::SingleUseCallback3<void,
const ResponseStatus&,
uint16_t,
const std::string&> *callback,
std::string *error);
bool GetStatusMessage(
unsigned int universe,
const UID &uid,
rdm_status_type status_type,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<StatusMessage>&> *callback,
std::string *error);
bool GetStatusIdDescription(
unsigned int universe,
const UID &uid,
uint16_t status_id,
ola::SingleUseCallback2<void, const ResponseStatus&,
const std::string&> *callback,
std::string *error);
bool ClearStatusId(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetSubDeviceReporting(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint8_t> *callback,
std::string *error);
bool SetSubDeviceReporting(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
rdm_status_type status_type,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
// Information Methods
bool GetSupportedParameters(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<uint16_t> &> *callback,
std::string *error);
bool GetParameterDescription(
unsigned int universe,
const UID &uid,
uint16_t pid,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const ParameterDescriptor&> *callback,
std::string *error);
bool GetDeviceInfo(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const DeviceDescriptor&> *callback,
std::string *error);
bool GetProductDetailIdList(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<uint16_t> &> *callback,
std::string *error);
bool GetDeviceModelDescription(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::string&> *callback,
std::string *error);
bool GetManufacturerLabel(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::string&> *callback,
std::string *error);
bool GetDeviceLabel(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::string&> *callback,
std::string *error);
bool SetDeviceLabel(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
const std::string &label,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetFactoryDefaults(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
bool> *callback,
std::string *error);
bool ResetToFactoryDefaults(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetLanguageCapabilities(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<std::string>&> *callback,
std::string *error);
bool GetLanguage(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::string&> *callback,
std::string *error);
bool SetLanguage(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
const std::string &language,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetSoftwareVersionLabel(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::string&> *callback,
std::string *error);
bool GetBootSoftwareVersion(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint32_t> *callback,
std::string *error);
bool GetBootSoftwareVersionLabel(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::string&> *callback,
std::string *error);
bool GetDMXPersonality(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback3<void,
const ResponseStatus&,
uint8_t,
uint8_t> *callback,
std::string *error);
bool SetDMXPersonality(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t personality,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetDMXPersonalityDescription(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t personality,
ola::SingleUseCallback4<void,
const ResponseStatus&,
uint8_t,
uint16_t,
const std::string&> *callback,
std::string *error);
bool GetDMXAddress(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint16_t> *callback,
std::string *error);
bool SetDMXAddress(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint16_t start_address,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetSlotInfo(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<SlotDescriptor>&> *callback,
std::string *error);
bool GetSlotDescription(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint16_t slot_offset,
ola::SingleUseCallback3<void,
const ResponseStatus&,
uint16_t,
const std::string&> *callback,
std::string *error);
bool GetSlotDefaultValues(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<SlotDefault>&> *callback,
std::string *error);
bool GetSensorDefinition(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t sensor_number,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const SensorDescriptor&> *callback,
std::string *error);
bool GetSensorValue(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t sensor_number,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const SensorValueDescriptor&> *callback,
std::string *error);
bool SetSensorValue(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t sensor_number,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const SensorValueDescriptor&> *callback,
std::string *error);
bool RecordSensors(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t sensor_number,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetDeviceHours(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint32_t> *callback,
std::string *error);
bool SetDeviceHours(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint32_t device_hours,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetLampHours(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint32_t> *callback,
std::string *error);
bool SetLampHours(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint32_t lamp_hours,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetLampStrikes(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint32_t> *callback,
std::string *error);
bool SetLampStrikes(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint32_t lamp_strikes,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetLampState(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void, const ResponseStatus&, uint8_t> *callback,
std::string *error);
bool SetLampState(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t lamp_state,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetLampMode(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void, const ResponseStatus&, uint8_t> *callback,
std::string *error);
bool SetLampMode(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t lamp_mode,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetDevicePowerCycles(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint32_t> *callback,
std::string *error);
bool SetDevicePowerCycles(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint32_t power_cycles,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetDisplayInvert(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void, const ResponseStatus&, uint8_t> *callback,
std::string *error);
bool SetDisplayInvert(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t display_invert,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetDisplayLevel(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void, const ResponseStatus&, uint8_t> *callback,
std::string *error);
bool SetDisplayLevel(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t display_level,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetPanInvert(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void, const ResponseStatus&, uint8_t> *callback,
std::string *error);
bool SetPanInvert(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t invert,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetTiltInvert(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void, const ResponseStatus&, uint8_t> *callback,
std::string *error);
bool SetTiltInvert(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t invert,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetPanTiltSwap(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void, const ResponseStatus&, uint8_t> *callback,
std::string *error);
bool SetPanTiltSwap(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t swap,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetClock(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const ClockValue&> *callback,
std::string *error);
bool SetClock(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
const ClockValue &clock,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetIdentifyDevice(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void, const ResponseStatus&, bool> *callback,
std::string *error);
bool IdentifyDevice(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
bool mode,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool ResetDevice(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
bool warm_reset,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetPowerState(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void, const ResponseStatus&, uint8_t> *callback,
std::string *error);
bool SetPowerState(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
rdm_power_state power_state,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool SetResetDevice(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
rdm_reset_device_mode reset_device,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetDnsHostname(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::string&> *callback,
std::string *error);
bool SetDnsHostname(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
const std::string &label,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool GetDnsDomainName(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::string&> *callback,
std::string *error);
bool SetDnsDomainName(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
const std::string &label,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool SelfTestEnabled(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void, const ResponseStatus&, bool> *callback,
std::string *error);
bool PerformSelfTest(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t self_test_number,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool SelfTestDescription(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t self_test_number,
ola::SingleUseCallback3<void,
const ResponseStatus&,
uint8_t,
const std::string&> *callback,
std::string *error);
bool CapturePreset(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint16_t scene,
uint16_t fade_up_time,
uint16_t fade_down_time,
uint16_t wait_time,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
bool PresetPlaybackMode(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback3<void,
const ResponseStatus&,
uint16_t,
uint8_t> *callback,
std::string *error);
bool SetPresetPlaybackMode(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint16_t playback_mode,
uint8_t level,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
std::string *error);
// Handlers, these are called by the RDMAPIImpl.
// Generic handlers
void _HandleCustomLengthLabelResponse(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::string&> *callback,
uint8_t length,
const ResponseStatus &status,
const std::string &data);
void _HandleLabelResponse(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::string&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleBoolResponse(
ola::SingleUseCallback2<void,
const ResponseStatus&,
bool> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleU8Response(
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint8_t> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleU32Response(
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint32_t> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleEmptyResponse(
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
const ResponseStatus &status,
const std::string &data);
// specific handlers follow
void _HandleGetProxiedDeviceCount(
ola::SingleUseCallback3<void,
const ResponseStatus&,
uint16_t,
bool> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetProxiedDevices(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<UID>&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetCommStatus(
ola::SingleUseCallback4<void,
const ResponseStatus&,
uint16_t,
uint16_t,
uint16_t> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleQueuedMessage(
QueuedMessageHandler *handler,
const ResponseStatus &status,
uint16_t pid,
const std::string &data);
void _HandleGetStatusMessage(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<StatusMessage>&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetSubDeviceReporting(
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint8_t> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetSupportedParameters(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<uint16_t>&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetParameterDescriptor(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const ParameterDescriptor&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetDeviceDescriptor(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const DeviceDescriptor&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetProductDetailIdList(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<uint16_t>&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetLanguageCapabilities(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<std::string>&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetLanguage(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::string&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetBootSoftwareVersion(
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint32_t> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetDMXPersonality(
ola::SingleUseCallback3<void,
const ResponseStatus&,
uint8_t,
uint8_t> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetDMXPersonalityDescription(
ola::SingleUseCallback4<void,
const ResponseStatus&,
uint8_t,
uint16_t,
const std::string&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetDMXAddress(
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint16_t> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetSlotInfo(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<SlotDescriptor>&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetSlotDescription(
ola::SingleUseCallback3<void,
const ResponseStatus&,
uint16_t,
const std::string&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetSlotDefaultValues(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const std::vector<SlotDefault>&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleGetSensorDefinition(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const SensorDescriptor&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleSensorValue(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const SensorValueDescriptor&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleClock(
ola::SingleUseCallback2<void,
const ResponseStatus&,
const ClockValue&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandleSelfTestDescription(
ola::SingleUseCallback3<void,
const ResponseStatus&,
uint8_t,
const std::string&> *callback,
const ResponseStatus &status,
const std::string &data);
void _HandlePlaybackMode(
ola::SingleUseCallback3<void,
const ResponseStatus&,
uint16_t,
uint8_t> *callback,
const ResponseStatus &status,
const std::string &data);
private:
class RDMAPIImplInterface *m_impl;
std::map<UID, uint8_t> m_outstanding_messages;
bool GenericGetU8(
unsigned int universe,
const UID &uid,
uint8_t sub_device,
ola::SingleUseCallback2<void, const ResponseStatus&, uint8_t> *callback,
uint16_t pid,
std::string *error);
bool GenericSetU8(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint8_t value,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
uint16_t pid,
std::string *error);
bool GenericGetU32(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
ola::SingleUseCallback2<void,
const ResponseStatus&,
uint32_t> *callback,
uint16_t pid,
std::string *error);
bool GenericSetU32(
unsigned int universe,
const UID &uid,
uint16_t sub_device,
uint32_t value,
ola::SingleUseCallback1<void, const ResponseStatus&> *callback,
uint16_t pid,
std::string *error);
// Check that a callback is not null
template <typename callback_type>
bool CheckCallback(std::string *error, const callback_type *cb) {
if (cb == NULL) {
if (error)
*error = "Callback is null, this is a programming error";
return true;
}
return false;
}
// Check that a UID is not a broadcast address
template <typename callback_type>
bool CheckNotBroadcast(const UID &uid, std::string *error,
const callback_type *cb) {
if (uid.IsBroadcast()) {
if (error)
*error = "Cannot send to broadcast address";
delete cb;
return true;
}
return false;
}
// Check the subdevice value is valid
template <typename callback_type>
bool CheckValidSubDevice(uint16_t sub_device,
bool broadcast_allowed,
std::string *error,
const callback_type *cb) {
if (sub_device <= 0x0200)
return false;
if (broadcast_allowed && sub_device == ALL_RDM_SUBDEVICES)
return false;
if (error) {
*error = "Sub device must be <= 0x0200";
if (broadcast_allowed)
*error += " or 0xffff";
}
delete cb;
return true;
}
bool CheckReturnStatus(bool status, std::string *error);
void SetIncorrectPDL(ResponseStatus *status,
unsigned int actual,
unsigned int expected);
};
} // namespace rdm
} // namespace ola
#endif // INCLUDE_OLA_RDM_RDMAPI_H_
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