hyperion.ng/dependencies/include/tinkerforge/ip_connection.h
penfold42 e8207cfe31 fix more "dos" line endings (#673)
* Removed -HUP so the default -TERM signal is sent instead.
- hyperiond only listens for TERM and INT. HUP is often used to get an exe to reread its config

Changed pgrep to add '-x' so it wont partial match on the exe name.
- I have multiple instances with multiple hyperiond-instance1 names
- this ensures the service script only kills the right process

* reversing errant change to hyperion.systemd.sh

* cleaned up a couple of compiler warnings

* moved bitpair_to_byte initialiser to (hopefully) work with older GCC

* compiler warning in udp driver
removed some tabs in ws2812b.cpp

* formatting - spaces to tabs

* moved rpi_281x to tag sk6812-v1.0

* moving to my fork of rpi_281x

* removed dos line endings

* Found some more "dos" line ending files


Former-commit-id: c756e3ccc153fd36e23a26eff37a1230bdd4b9b4
2016-06-03 16:46:45 +02:00

631 lines
13 KiB
C

/*
* Copyright (C) 2012-2013 Matthias Bolte <matthias@tinkerforge.com>
* Copyright (C) 2011 Olaf Lüke <olaf@tinkerforge.com>
*
* Redistribution and use in source and binary forms of this file,
* with or without modification, are permitted.
*/
#ifndef IP_CONNECTION_H
#define IP_CONNECTION_H
/**
* \defgroup IPConnection IP Connection
*/
#ifndef __STDC_LIMIT_MACROS
#define __STDC_LIMIT_MACROS
#endif
#include <stdint.h>
#include <string.h>
#include <stdlib.h>
#if !defined __cplusplus && defined __GNUC__
#include <stdbool.h>
#endif
#ifdef _WIN32
#ifndef WIN32_LEAN_AND_MEAN
#define WIN32_LEAN_AND_MEAN
#endif
#include <windows.h>
#else
#include <pthread.h>
#include <semaphore.h>
#endif
enum {
E_OK = 0,
E_TIMEOUT = -1,
E_NO_STREAM_SOCKET = -2,
E_HOSTNAME_INVALID = -3,
E_NO_CONNECT = -4,
E_NO_THREAD = -5,
E_NOT_ADDED = -6, // unused since v2.0
E_ALREADY_CONNECTED = -7,
E_NOT_CONNECTED = -8,
E_INVALID_PARAMETER = -9, // error response from device
E_NOT_SUPPORTED = -10, // error response from device
E_UNKNOWN_ERROR_CODE = -11 // error response from device
};
#ifdef IPCON_EXPOSE_INTERNALS
typedef struct _Socket Socket;
typedef struct {
#ifdef _WIN32
CRITICAL_SECTION handle;
#else
pthread_mutex_t handle;
#endif
} Mutex;
void mutex_create(Mutex *mutex);
void mutex_destroy(Mutex *mutex);
void mutex_lock(Mutex *mutex);
void mutex_unlock(Mutex *mutex);
typedef struct {
#ifdef _WIN32
HANDLE handle;
#else
pthread_cond_t condition;
pthread_mutex_t mutex;
bool flag;
#endif
} Event;
typedef struct {
#ifdef _WIN32
HANDLE handle;
#else
sem_t object;
sem_t *pointer;
#endif
} Semaphore;
typedef void (*ThreadFunction)(void *opaque);
typedef struct {
#ifdef _WIN32
HANDLE handle;
DWORD id;
#else
pthread_t handle;
#endif
ThreadFunction function;
void *opaque;
} Thread;
typedef struct {
Mutex mutex;
int used;
int allocated;
uint32_t *keys;
void **values;
} Table;
typedef struct _QueueItem {
struct _QueueItem *next;
int kind;
void *data;
int length;
} QueueItem;
typedef struct {
Mutex mutex;
Semaphore semaphore;
QueueItem *head;
QueueItem *tail;
} Queue;
#if defined _MSC_VER || defined __BORLANDC__
#pragma pack(push)
#pragma pack(1)
#define ATTRIBUTE_PACKED
#elif defined __GNUC__
#ifdef _WIN32
// workaround struct packing bug in GCC 4.7 on Windows
// http://gcc.gnu.org/bugzilla/show_bug.cgi?id=52991
#define ATTRIBUTE_PACKED __attribute__((gcc_struct, packed))
#else
#define ATTRIBUTE_PACKED __attribute__((packed))
#endif
#else
#error unknown compiler, do not know how to enable struct packing
#endif
typedef struct {
uint32_t uid;
uint8_t length;
uint8_t function_id;
uint8_t sequence_number_and_options;
uint8_t error_code_and_future_use;
} ATTRIBUTE_PACKED PacketHeader;
typedef struct {
PacketHeader header;
uint8_t payload[64];
uint8_t optional_data[8];
} ATTRIBUTE_PACKED Packet;
#if defined _MSC_VER || defined __BORLANDC__
#pragma pack(pop)
#endif
#undef ATTRIBUTE_PACKED
#endif // IPCON_EXPOSE_INTERNALS
typedef struct _IPConnection IPConnection;
typedef struct _IPConnectionPrivate IPConnectionPrivate;
typedef struct _Device Device;
typedef struct _DevicePrivate DevicePrivate;
#ifdef IPCON_EXPOSE_INTERNALS
typedef struct _CallbackContext CallbackContext;
#endif
typedef void (*EnumerateCallbackFunction)(const char *uid,
const char *connected_uid,
char position,
uint8_t hardware_version[3],
uint8_t firmware_version[3],
uint16_t device_identifier,
uint8_t enumeration_type,
void *user_data);
typedef void (*ConnectedCallbackFunction)(uint8_t connect_reason,
void *user_data);
typedef void (*DisconnectedCallbackFunction)(uint8_t disconnect_reason,
void *user_data);
#ifdef IPCON_EXPOSE_INTERNALS
typedef void (*CallbackWrapperFunction)(DevicePrivate *device_p, Packet *packet);
#endif
/**
* \internal
*/
struct _Device {
DevicePrivate *p;
};
#ifdef IPCON_EXPOSE_INTERNALS
#define DEVICE_NUM_FUNCTION_IDS 256
/**
* \internal
*/
struct _DevicePrivate {
uint32_t uid;
IPConnectionPrivate *ipcon_p;
uint8_t api_version[3];
Mutex request_mutex;
uint8_t expected_response_function_id; // protected by request_mutex
uint8_t expected_response_sequence_number; // protected by request_mutex
Mutex response_mutex;
Packet response_packet; // protected by response_mutex
Event response_event;
int response_expected[DEVICE_NUM_FUNCTION_IDS];
void *registered_callbacks[DEVICE_NUM_FUNCTION_IDS];
void *registered_callback_user_data[DEVICE_NUM_FUNCTION_IDS];
CallbackWrapperFunction callback_wrappers[DEVICE_NUM_FUNCTION_IDS];
};
/**
* \internal
*/
enum {
DEVICE_RESPONSE_EXPECTED_INVALID_FUNCTION_ID = 0,
DEVICE_RESPONSE_EXPECTED_ALWAYS_TRUE, // getter
DEVICE_RESPONSE_EXPECTED_ALWAYS_FALSE, // callback
DEVICE_RESPONSE_EXPECTED_TRUE, // setter
DEVICE_RESPONSE_EXPECTED_FALSE // setter, default
};
/**
* \internal
*/
void device_create(Device *device, const char *uid,
IPConnectionPrivate *ipcon_p, uint8_t api_version_major,
uint8_t api_version_minor, uint8_t api_version_release);
/**
* \internal
*/
void device_destroy(Device *device);
/**
* \internal
*/
int device_get_response_expected(DevicePrivate *device_p, uint8_t function_id,
bool *ret_response_expected);
/**
* \internal
*/
int device_set_response_expected(DevicePrivate *device_p, uint8_t function_id,
bool response_expected);
/**
* \internal
*/
int device_set_response_expected_all(DevicePrivate *device_p, bool response_expected);
/**
* \internal
*/
void device_register_callback(DevicePrivate *device_p, uint8_t id, void *callback,
void *user_data);
/**
* \internal
*/
int device_get_api_version(DevicePrivate *device_p, uint8_t ret_api_version[3]);
/**
* \internal
*/
int device_send_request(DevicePrivate *device_p, Packet *request, Packet *response);
#endif // IPCON_EXPOSE_INTERNALS
/**
* \ingroup IPConnection
*
* Possible IDs for ipcon_register_callback.
*/
enum {
IPCON_CALLBACK_ENUMERATE = 253,
IPCON_CALLBACK_CONNECTED = 0,
IPCON_CALLBACK_DISCONNECTED = 1
};
/**
* \ingroup IPConnection
*
* Possible values for enumeration_type parameter of EnumerateCallback.
*/
enum {
IPCON_ENUMERATION_TYPE_AVAILABLE = 0,
IPCON_ENUMERATION_TYPE_CONNECTED = 1,
IPCON_ENUMERATION_TYPE_DISCONNECTED = 2
};
/**
* \ingroup IPConnection
*
* Possible values for connect_reason parameter of ConnectedCallback.
*/
enum {
IPCON_CONNECT_REASON_REQUEST = 0,
IPCON_CONNECT_REASON_AUTO_RECONNECT = 1
};
/**
* \ingroup IPConnection
*
* Possible values for disconnect_reason parameter of DisconnectedCallback.
*/
enum {
IPCON_DISCONNECT_REASON_REQUEST = 0,
IPCON_DISCONNECT_REASON_ERROR = 1,
IPCON_DISCONNECT_REASON_SHUTDOWN = 2
};
/**
* \ingroup IPConnection
*
* Possible return values of ipcon_get_connection_state.
*/
enum {
IPCON_CONNECTION_STATE_DISCONNECTED = 0,
IPCON_CONNECTION_STATE_CONNECTED = 1,
IPCON_CONNECTION_STATE_PENDING = 2 // auto-reconnect in progress
};
/**
* \internal
*/
struct _IPConnection {
IPConnectionPrivate *p;
};
#ifdef IPCON_EXPOSE_INTERNALS
#define IPCON_NUM_CALLBACK_IDS 256
/**
* \internal
*/
struct _IPConnectionPrivate {
#ifdef _WIN32
bool wsa_startup_done; // protected by socket_mutex
#endif
char *host;
uint16_t port;
uint32_t timeout; // in msec
bool auto_reconnect;
bool auto_reconnect_allowed;
bool auto_reconnect_pending;
Mutex sequence_number_mutex;
uint8_t next_sequence_number; // protected by sequence_number_mutex
Table devices;
void *registered_callbacks[IPCON_NUM_CALLBACK_IDS];
void *registered_callback_user_data[IPCON_NUM_CALLBACK_IDS];
Mutex socket_mutex;
Socket *socket; // protected by socket_mutex
uint64_t socket_id; // protected by socket_mutex
bool receive_flag;
Thread receive_thread; // protected by socket_mutex
CallbackContext *callback;
bool disconnect_probe_flag;
Thread disconnect_probe_thread; // protected by socket_mutex
Event disconnect_probe_event;
Semaphore wait;
};
#endif // IPCON_EXPOSE_INTERNALS
/**
* \ingroup IPConnection
*
* Creates an IP Connection object that can be used to enumerate the available
* devices. It is also required for the constructor of Bricks and Bricklets.
*/
void ipcon_create(IPConnection *ipcon);
/**
* \ingroup IPConnection
*
* Destroys the IP Connection object. Calls ipcon_disconnect internally.
* The connection to the Brick Daemon gets closed and the threads of the
* IP Connection are terminated.
*/
void ipcon_destroy(IPConnection *ipcon);
/**
* \ingroup IPConnection
*
* Creates a TCP/IP connection to the given \c host and c\ port. The host and
* port can point to a Brick Daemon or to a WIFI/Ethernet Extension.
*
* Devices can only be controlled when the connection was established
* successfully.
*
* Blocks until the connection is established and returns an error code if
* there is no Brick Daemon or WIFI/Ethernet Extension listening at the given
* host and port.
*/
int ipcon_connect(IPConnection *ipcon, const char *host, uint16_t port);
/**
* \ingroup IPConnection
*
* Disconnects the TCP/IP connection from the Brick Daemon or the WIFI/Ethernet
* Extension.
*/
int ipcon_disconnect(IPConnection *ipcon);
/**
* \ingroup IPConnection
*
* Can return the following states:
*
* - IPCON_CONNECTION_STATE_DISCONNECTED: No connection is established.
* - IPCON_CONNECTION_STATE_CONNECTED: A connection to the Brick Daemon or
* the WIFI/Ethernet Extension is established.
* - IPCON_CONNECTION_STATE_PENDING: IP Connection is currently trying to
* connect.
*/
int ipcon_get_connection_state(IPConnection *ipcon);
/**
* \ingroup IPConnection
*
* Enables or disables auto-reconnect. If auto-reconnect is enabled,
* the IP Connection will try to reconnect to the previously given
* host and port, if the connection is lost.
*
* Default value is *true*.
*/
void ipcon_set_auto_reconnect(IPConnection *ipcon, bool auto_reconnect);
/**
* \ingroup IPConnection
*
* Returns *true* if auto-reconnect is enabled, *false* otherwise.
*/
bool ipcon_get_auto_reconnect(IPConnection *ipcon);
/**
* \ingroup IPConnection
*
* Sets the timeout in milliseconds for getters and for setters for which the
* response expected flag is activated.
*
* Default timeout is 2500.
*/
void ipcon_set_timeout(IPConnection *ipcon, uint32_t timeout);
/**
* \ingroup IPConnection
*
* Returns the timeout as set by ipcon_set_timeout.
*/
uint32_t ipcon_get_timeout(IPConnection *ipcon);
/**
* \ingroup IPConnection
*
* Broadcasts an enumerate request. All devices will respond with an enumerate
* callback.
*/
int ipcon_enumerate(IPConnection *ipcon);
/**
* \ingroup IPConnection
*
* Stops the current thread until ipcon_unwait is called.
*
* This is useful if you rely solely on callbacks for events, if you want
* to wait for a specific callback or if the IP Connection was created in
* a thread.
*
* ipcon_wait and ipcon_unwait act in the same way as "acquire" and "release"
* of a semaphore.
*/
void ipcon_wait(IPConnection *ipcon);
/**
* \ingroup IPConnection
*
* Unwaits the thread previously stopped by ipcon_wait.
*
* ipcon_wait and ipcon_unwait act in the same way as "acquire" and "release"
* of a semaphore.
*/
void ipcon_unwait(IPConnection *ipcon);
/**
* \ingroup IPConnection
*
* Registers a callback for a given ID.
*/
void ipcon_register_callback(IPConnection *ipcon, uint8_t id,
void *callback, void *user_data);
#ifdef IPCON_EXPOSE_INTERNALS
/**
* \internal
*/
int packet_header_create(PacketHeader *header, uint8_t length,
uint8_t function_id, IPConnectionPrivate *ipcon_p,
DevicePrivate *device_p);
/**
* \internal
*/
uint8_t packet_header_get_sequence_number(PacketHeader *header);
/**
* \internal
*/
void packet_header_set_sequence_number(PacketHeader *header,
uint8_t sequence_number);
/**
* \internal
*/
uint8_t packet_header_get_response_expected(PacketHeader *header);
/**
* \internal
*/
void packet_header_set_response_expected(PacketHeader *header,
uint8_t response_expected);
/**
* \internal
*/
uint8_t packet_header_get_error_code(PacketHeader *header);
/**
* \internal
*/
int16_t leconvert_int16_to(int16_t native);
/**
* \internal
*/
uint16_t leconvert_uint16_to(uint16_t native);
/**
* \internal
*/
int32_t leconvert_int32_to(int32_t native);
/**
* \internal
*/
uint32_t leconvert_uint32_to(uint32_t native);
/**
* \internal
*/
int64_t leconvert_int64_to(int64_t native);
/**
* \internal
*/
uint64_t leconvert_uint64_to(uint64_t native);
/**
* \internal
*/
float leconvert_float_to(float native);
/**
* \internal
*/
int16_t leconvert_int16_from(int16_t little);
/**
* \internal
*/
uint16_t leconvert_uint16_from(uint16_t little);
/**
* \internal
*/
int32_t leconvert_int32_from(int32_t little);
/**
* \internal
*/
uint32_t leconvert_uint32_from(uint32_t little);
/**
* \internal
*/
int64_t leconvert_int64_from(int64_t little);
/**
* \internal
*/
uint64_t leconvert_uint64_from(uint64_t little);
/**
* \internal
*/
float leconvert_float_from(float little);
#endif // IPCON_EXPOSE_INTERNALS
#endif