a752c7ab
elopes
add first test an...
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/*
* Copyright (c) 2015-2016 Ken Bannister. All rights reserved.
* 2017 Freie Universitรคt Berlin
*
* This file is subject to the terms and conditions of the GNU Lesser
* General Public License v2.1. See the file LICENSE in the top level
* directory for more details.
*/
/**
* @defgroup net_gcoap CoAP
* @ingroup net
* @brief High-level interface to CoAP messaging
*
* gcoap provides a high-level interface for writing CoAP messages via RIOT's
* sock networking API. gcoap internalizes network event processing so an
* application only needs to focus on request/response handling. For a server,
* gcoap accepts a list of resource paths with callbacks for writing the
* response. For a client, gcoap provides a function to send a request, with a
* callback for reading the server response. Generation of the request or
* response requires from one to three well-defined steps, depending on
* inclusion of a payload.
*
* gcoap allocates a RIOT message processing thread, so a single instance can
* serve multiple applications. This approach also means gcoap uses a single UDP
* port, which supports RFC 6282 compression. Internally, gcoap depends on the
* nanocoap package for base level structs and functionality.
*
* gcoap also supports the Observe extension (RFC 7641) for a server. gcoap
* provides functions to generate and send an observe notification that are
* similar to the functions to send a client request.
*
* *Contents*
*
* - Server Operation
* - Client Operation
* - Observe Server Operation
* - Implementation Notes
* - Implementation Status
*
* ## Server Operation ##
*
* gcoap listens for requests on GCOAP_PORT, 5683 by default. You can redefine
* this by uncommenting the appropriate lines in gcoap's make file.
*
* gcoap allows an application to specify a collection of request resource paths
* it wants to be notified about. Create an array of resources, coap_resource_t
* structs. Use gcoap_register_listener() at application startup to pass in
* these resources, wrapped in a gcoap_listener_t.
*
* gcoap itself defines a resource for `/.well-known/core` discovery, which
* lists all of the registered paths.
*
* ### Creating a response ###
*
* An application resource includes a callback function, a coap_handler_t. After
* reading the request, the callback must use one or two functions provided by
* gcoap to format the response, as described below. The callback *must* read
* the request thoroughly before calling the functions, because the response
* buffer likely reuses the request buffer. See `examples/gcoap/gcoap_cli.c`
* for a simple example of a callback.
*
* Here is the expected sequence for a callback function:
*
* Read request completely and parse request payload, if any. Use the
* coap_pkt_t _payload_ and _payload_len_ attributes.
*
* If there is a payload, follow the three steps below.
*
* -# Call gcoap_resp_init() to initialize the response.
* -# Write the response payload, starting at the updated _payload_ pointer
* in the coap_pkt_t. If some error occurs, return a negative errno
* code from the handler, and gcoap will send a server error (5.00).
* -# Call gcoap_finish() to complete the PDU after writing the payload,
* and return the result. gcoap will send the message.
*
* If no payload, call only gcoap_response() to write the full response.
* Alternatively, you still can use gcoap_resp_init() and gcoap_finish(), as
* described above. In fact, the gcoap_response() function is inline, and uses
* those two functions.
*
* ## Client Operation ##
*
* Client operation includes two phases: creating and sending a request, and
* handling the response aynchronously in a client supplied callback. See
* `examples/gcoap/gcoap_cli.c` for a simple example of sending a request and
* reading the response.
*
* ### Creating a request ###
*
* Here is the expected sequence to prepare and send a request:
*
* Allocate a buffer and a coap_pkt_t for the request.
*
* If there is a payload, follow the three steps below.
*
* -# Call gcoap_req_init() to initialize the request.
* -# Write the request payload, starting at the updated _payload_ pointer
* in the coap_pkt_t.
* -# Call gcoap_finish(), which updates the packet for the payload.
*
* If no payload, call only gcoap_request() to write the full request.
* Alternatively, you still can use gcoap_req_init() and gcoap_finish(),
* as described above. The gcoap_request() function is inline, and uses those
* two functions.
*
* Finally, call gcoap_req_send2() for the destination endpoint, as well as a
* callback function for the host's response.
*
* ### Handling the response ###
*
* When gcoap receives the response to a request, it executes the callback from
* the request. gcoap also executes the callback when a response is not
* received within GCOAP_RESPONSE_TIMEOUT.
*
* Here is the expected sequence for handling a response in the callback.
*
* -# Test for a server response or timeout in the _req_state_ callback
* parameter. See the GCOAP_MEMO... constants.
* -# Test the response with coap_get_code_class() and coap_get_code_detail().
* -# Test the response payload with the coap_pkt_t _payload_len_ and
* _content_type_ attributes.
* -# Read the payload, if any.
*
* ## Observe Server Operation
*
* A CoAP client may register for Observe notifications for any resource that
* an application has registered with gcoap. An application does not need to
* take any action to support Observe client registration. However, gcoap
* limits registration for a given resource to a _single_ observer.
*
* An Observe notification is considered a response to the original client
* registration request. So, the Observe server only needs to create and send
* the notification -- no further communication or callbacks are required.
*
* ### Creating a notification ###
*
* Here is the expected sequence to prepare and send a notification:
*
* Allocate a buffer and a coap_pkt_t for the notification, then follow the
* steps below.
*
* -# Call gcoap_obs_init() to initialize the notification for a resource.
* Test the return value, which may indicate there is not an observer for
* the resource. If so, you are done.
* -# Write the notification payload, starting at the updated _payload_ pointer
* in the coap_pkt_t.
* -# Call gcoap_finish(), which updates the packet for the payload.
*
* Finally, call gcoap_obs_send() for the resource.
*
* ### Other considerations ###
*
* By default, the value for the Observe option in a notification is three
* bytes long. For resources that change slowly, this length can be reduced via
* GCOAP_OBS_VALUE_WIDTH.
*
* To cancel a notification, the server expects to receive a GET request with
* the Observe option value set to 1. The server does not support cancellation
* via a reset (RST) response to a non-confirmable notification.
*
* ## Implementation Notes ##
*
* ### Building a packet ###
*
* The sequence and functions described above to build a request or response
* is designed to provide a relatively simple API for the user.
*
* The structure of a CoAP PDU requires that options are placed between the
* header and the payload. So, gcoap provides space in the buffer for them in
* the request/response ...init() function, and then writes them during
* gcoap_finish(). We trade some inefficiency/work in the buffer for
* simplicity in the API.
*
* ### Waiting for a response ###
*
* We take advantage of RIOT's asynchronous messaging by using an xtimer to wait
* for a response, so the gcoap thread does not block while waiting. The user is
* notified via the same callback, whether the message is received or the wait
* times out. We track the response with an entry in the
* `_coap_state.open_reqs` array.
*
* ## Implementation Status ##
* gcoap includes server and client capability. Available features include:
*
* - Message Type: Supports non-confirmable (NON) messaging. Additionally
* provides a callback on timeout. Provides piggybacked ACK response to a
* confirmable (CON) request.
* - Observe extension: Provides server-side registration and notifications.
* - Server and Client provide helper functions for writing the
* response/request. See the CoAP topic in the source documentation for
* details. See the gcoap example for sample implementations.
* - Server allows an application to register a 'listener', which includes an
* array of endpoint paths and function callbacks used to write a response.
* - Server listens on a port at startup; defaults to 5683.
* - Client operates asynchronously; sends request and then handles response
* in a user provided callback.
* - Client generates token; length defined at compile time.
* - Options: Supports Content-Format for payload.
*
* @{
*
* @file
* @brief gcoap definition
*
* @author Ken Bannister <kb2ma@runbox.com>
* @author Hauke Petersen <hauke.petersen@fu-berlin.de>
*/
#ifndef NET_GCOAP_H
#define NET_GCOAP_H
#include <stdint.h>
#include <stdatomic.h>
#include "net/sock/udp.h"
#include "mutex.h"
#include "nanocoap.h"
#include "xtimer.h"
#ifdef __cplusplus
extern "C" {
#endif
/**
* @brief Size for module message queue
*/
#define GCOAP_MSG_QUEUE_SIZE (4)
/**
* @brief Server port; use RFC 7252 default if not defined
*/
#ifndef GCOAP_PORT
#define GCOAP_PORT (5683)
#endif
/**
* @brief Size of the buffer used to build a CoAP request or response
*/
#ifndef GCOAP_PDU_BUF_SIZE
#define GCOAP_PDU_BUF_SIZE (128)
#endif
/**
* @brief Size of the buffer used to write options, other than Uri-Path, in a
* request
*
* Accommodates Content-Format and Uri-Queries
*/
#define GCOAP_REQ_OPTIONS_BUF (40)
/**
* @brief Size of the buffer used to write options in a response
*
* Accommodates Content-Format.
*/
#define GCOAP_RESP_OPTIONS_BUF (8)
/**
* @brief Size of the buffer used to write options in an Observe notification
*
* Accommodates Content-Format and Observe.
*/
#define GCOAP_OBS_OPTIONS_BUF (8)
/**
* @brief Maximum number of requests awaiting a response
*/
#ifndef GCOAP_REQ_WAITING_MAX
#define GCOAP_REQ_WAITING_MAX (2)
#endif
/**
* @brief Maximum length in bytes for a token
*/
#define GCOAP_TOKENLEN_MAX (8)
/**
* @brief Maximum length in bytes for a header, including the token
*/
#define GCOAP_HEADER_MAXLEN (sizeof(coap_hdr_t) + GCOAP_TOKENLEN_MAX)
/**
* @brief Length in bytes for a token; use 2 if not defined
*/
#ifndef GCOAP_TOKENLEN
#define GCOAP_TOKENLEN (2)
#endif
/**
* @brief Marks the boundary between header and payload
*/
#define GCOAP_PAYLOAD_MARKER (0xFF)
/**
* @name States for the memo used to track waiting for a response
* @{
*/
#define GCOAP_MEMO_UNUSED (0) /**< This memo is unused */
#define GCOAP_MEMO_WAIT (1) /**< Request sent; awaiting response */
#define GCOAP_MEMO_RESP (2) /**< Got response */
#define GCOAP_MEMO_TIMEOUT (3) /**< Timeout waiting for response */
#define GCOAP_MEMO_ERR (4) /**< Error processing response packet */
/** @} */
/**
* @brief Time in usec that the event loop waits for an incoming CoAP message
*/
#ifndef GCOAP_RECV_TIMEOUT
#define GCOAP_RECV_TIMEOUT (1 * US_PER_SEC)
#endif
/**
* @brief Default time to wait for a non-confirmable response [in usec]
*
* Set to 0 to disable timeout.
*/
#ifndef GCOAP_NON_TIMEOUT
#define GCOAP_NON_TIMEOUT (5000000U)
#endif
/**
* @brief Identifies waiting timed out for a response to a sent message
*/
#define GCOAP_MSG_TYPE_TIMEOUT (0x1501)
/**
* @brief Identifies a request to interrupt listening for an incoming message
* on a sock
*
* Allows the event loop to process IPC messages.
*/
#define GCOAP_MSG_TYPE_INTR (0x1502)
/**
* @brief Maximum number of Observe clients; use 2 if not defined
*/
#ifndef GCOAP_OBS_CLIENTS_MAX
#define GCOAP_OBS_CLIENTS_MAX (2)
#endif
/**
* @brief Maximum number of registrations for Observable resources; use 2 if
* not defined
*/
#ifndef GCOAP_OBS_REGISTRATIONS_MAX
#define GCOAP_OBS_REGISTRATIONS_MAX (2)
#endif
/**
* @name States for the memo used to track Observe registrations
* @{
*/
#define GCOAP_OBS_MEMO_UNUSED (0) /**< This memo is unused */
#define GCOAP_OBS_MEMO_IDLE (1) /**< Registration OK; no current activity */
#define GCOAP_OBS_MEMO_PENDING (2) /**< Resource changed; notification pending */
/** @} */
/**
* @brief Width in bytes of the Observe option value for a notification
*
* This width is used to determine the length of the 'tick' used to measure
* the time between observable changes to a resource. A tick is expressed
* internally as GCOAP_OBS_TICK_EXPONENT, which is the base-2 log value of the
* tick length in microseconds.
*
* The canonical setting for the value width is 3 (exponent 5), which results
* in a tick length of 32 usec, per sec. 3.4, 4.4 of the RFC. Width 2
* (exponent 16) results in a tick length of ~65 msec, and width 1 (exponent
* 24) results in a tick length of ~17 sec.
*
* The tick length must be short enough so that the Observe value strictly
* increases for each new notification. The purpose of the value is to allow a
* client to detect message reordering within the network latency period (128
* sec). For resources that change only slowly, the reduced message length is
* useful when packet size is limited.
*/
#ifndef GCOAP_OBS_VALUE_WIDTH
#define GCOAP_OBS_VALUE_WIDTH (3)
#endif
/**
* @brief See GCOAP_OBS_VALUE_WIDTH
*/
#if (GCOAP_OBS_VALUE_WIDTH == 3)
#define GCOAP_OBS_TICK_EXPONENT (5)
#elif (GCOAP_OBS_VALUE_WIDTH == 2)
#define GCOAP_OBS_TICK_EXPONENT (16)
#elif (GCOAP_OBS_VALUE_WIDTH == 1)
#define GCOAP_OBS_TICK_EXPONENT (24)
#endif
/**
* @name Return values for gcoap_obs_init()
* @{
*/
#define GCOAP_OBS_INIT_OK (0)
#define GCOAP_OBS_INIT_ERR (-1)
#define GCOAP_OBS_INIT_UNUSED (-2)
/** @} */
/**
* @brief Stack size for module thread
*/
#ifndef GCOAP_STACK_SIZE
#define GCOAP_STACK_SIZE (THREAD_STACKSIZE_DEFAULT + DEBUG_EXTRA_STACKSIZE)
#endif
/**
* @brief A modular collection of resources for a server
*/
typedef struct gcoap_listener {
coap_resource_t *resources; /**< First element in the array of
* resources; must order alphabetically */
size_t resources_len; /**< Length of array */
struct gcoap_listener *next; /**< Next listener in list */
} gcoap_listener_t;
/**
* @brief Handler function for a server response, including the state for the
* originating request
*
* If request timed out, the packet header is for the request.
*/
typedef void (*gcoap_resp_handler_t)(unsigned req_state, coap_pkt_t* pdu,
sock_udp_ep_t *remote);
/**
* @brief Memo to handle a response for a request
*/
typedef struct {
unsigned state; /**< State of this memo, a GCOAP_MEMO... */
uint8_t hdr_buf[GCOAP_HEADER_MAXLEN];
/**< Stores a copy of the request header */
gcoap_resp_handler_t resp_handler; /**< Callback for the response */
xtimer_t response_timer; /**< Limits wait for response */
msg_t timeout_msg; /**< For response timer */
} gcoap_request_memo_t;
/**
* @brief Memo for Observe registration and notifications
*/
typedef struct {
sock_udp_ep_t *observer; /**< Client endpoint; unused if null */
coap_resource_t *resource; /**< Entity being observed */
uint8_t token[GCOAP_TOKENLEN_MAX]; /**< Client token for notifications */
unsigned token_len; /**< Actual length of token attribute */
} gcoap_observe_memo_t;
/**
* @brief Container for the state of gcoap itself
*/
typedef struct {
mutex_t lock; /**< Shares state attributes safely */
gcoap_listener_t *listeners; /**< List of registered listeners */
gcoap_request_memo_t open_reqs[GCOAP_REQ_WAITING_MAX];
/**< Storage for open requests; if first
byte of an entry is zero, the entry
is available */
atomic_uint next_message_id; /**< Next message ID to use */
sock_udp_ep_t observers[GCOAP_OBS_CLIENTS_MAX];
/**< Observe clients; allows reuse for
observe memos */
gcoap_observe_memo_t observe_memos[GCOAP_OBS_REGISTRATIONS_MAX];
/**< Observed resource registrations */
} gcoap_state_t;
/**
* @brief Initializes the gcoap thread and device
*
* Must call once before first use.
*
* @return PID of the gcoap thread on success.
* @return -EEXIST, if thread already has been created.
* @return -EINVAL, if the IP port already is in use.
*/
kernel_pid_t gcoap_init(void);
/**
* @brief Starts listening for resource paths
*
* @param[in] listener Listener containing the resources.
*/
void gcoap_register_listener(gcoap_listener_t *listener);
/**
* @brief Initializes a CoAP request PDU on a buffer.
*
* @param[out] pdu Request metadata
* @param[out] buf Buffer containing the PDU
* @param[in] len Length of the buffer
* @param[in] code Request code: GCOAP_[GET|POST|PUT|DELETE]
* @param[in] path Resource path, *must* start with '/'
*
* @return 0 on success
* @return < 0 on error
*/
int gcoap_req_init(coap_pkt_t *pdu, uint8_t *buf, size_t len,
unsigned code, char *path);
/**
* @brief Finishes formatting a CoAP PDU after the payload has been written
*
* Assumes the PDU has been initialized with gcoap_req_init() or
* gcoap_resp_init().
*
* @param[in,out] pdu Request metadata
* @param[in] payload_len Length of the payload, or 0 if none
* @param[in] format Format code for the payload; use COAP_FORMAT_NONE if
* not specified
*
* @return size of the PDU
* @return < 0 on error
*/
ssize_t gcoap_finish(coap_pkt_t *pdu, size_t payload_len, unsigned format);
/**
* @brief Writes a complete CoAP request PDU when there is not a payload
*
* @param[in,out] pdu Request metadata
* @param[in,out] buf Buffer containing the PDU
* @param[in] len Length of the buffer
* @param[in] code Request code: GCOAP_[GET|POST|PUT|DELETE]
* @param[in] path Resource path, *must* start with '/'
*
* @return size of the PDU within the buffer
* @return < 0 on error
*/
static inline ssize_t gcoap_request(coap_pkt_t *pdu, uint8_t *buf, size_t len,
unsigned code, char *path)
{
return (gcoap_req_init(pdu, buf, len, code, path) == 0)
? gcoap_finish(pdu, 0, COAP_FORMAT_NONE)
: -1;
}
/**
* @brief Sends a buffer containing a CoAP request to the provided endpoint
*
* @param[in] buf Buffer containing the PDU
* @param[in] len Length of the buffer
* @param[in] remote Destination for the packet
* @param[in] resp_handler Callback when response received
*
* @return length of the packet
* @return 0 if cannot send
*/
size_t gcoap_req_send2(const uint8_t *buf, size_t len,
const sock_udp_ep_t *remote,
gcoap_resp_handler_t resp_handler);
/**
* @brief Sends a buffer containing a CoAP request to the provided host/port
*
* @deprecated Please use @ref gcoap_req_send2() instead
*
* @param[in] buf Buffer containing the PDU
* @param[in] len Length of the buffer
* @param[in] addr Destination for the packet
* @param[in] port Port at the destination
* @param[in] resp_handler Callback when response received
*
* @return length of the packet
* @return 0 if cannot send
*/
size_t gcoap_req_send(const uint8_t *buf, size_t len, const ipv6_addr_t *addr,
uint16_t port, gcoap_resp_handler_t resp_handler);
/**
* @brief Initializes a CoAP response packet on a buffer
*
* Initializes payload location within the buffer based on packet setup.
*
* @param[out] pdu Response metadata
* @param[in] buf Buffer containing the PDU
* @param[in] len Length of the buffer
* @param[in] code Response code
*
* @return 0 on success
* @return < 0 on error
*/
int gcoap_resp_init(coap_pkt_t *pdu, uint8_t *buf, size_t len, unsigned code);
/**
* @brief Writes a complete CoAP response PDU when there is no payload
*
* @param[out] pdu Response metadata
* @param[out] buf Buffer containing the PDU
* @param[in] len Length of the buffer
* @param[in] code Response code
*
* @return size of the PDU within the buffer
* @return < 0 on error
*/
static inline ssize_t gcoap_response(coap_pkt_t *pdu, uint8_t *buf,
size_t len, unsigned code)
{
return (gcoap_resp_init(pdu, buf, len, code) == 0)
? gcoap_finish(pdu, 0, COAP_FORMAT_NONE)
: -1;
}
/**
* @brief Initializes a CoAP Observe notification packet on a buffer, for the
* observer registered for a resource
*
* First verifies that an observer has been registered for the resource.
*
* @param[out] pdu Notification metadata
* @param[out] buf Buffer containing the PDU
* @param[in] len Length of the buffer
* @param[in] resource Resource for the notification
*
* @return GCOAP_OBS_INIT_OK on success
* @return GCOAP_OBS_INIT_ERR on error
* @return GCOAP_OBS_INIT_UNUSED if no observer for resource
*/
int gcoap_obs_init(coap_pkt_t *pdu, uint8_t *buf, size_t len,
const coap_resource_t *resource);
/**
* @brief Sends a buffer containing a CoAP Observe notification to the
* observer registered for a resource
*
* Assumes a single observer for a resource.
*
* @param[in] buf Buffer containing the PDU
* @param[in] len Length of the buffer
* @param[in] resource Resource to send
*
* @return length of the packet
* @return 0 if cannot send
*/
size_t gcoap_obs_send(const uint8_t *buf, size_t len,
const coap_resource_t *resource);
/**
* @brief Provides important operational statistics
*
* Useful for monitoring.
*
* @return count of unanswered requests
*/
uint8_t gcoap_op_state(void);
/**
* @brief Get the resource list, currently only `CoRE Link Format`
* (COAP_FORMAT_LINK) supported
*
* If @p buf := NULL, nothing will be written but the size of the resulting
* resource list is computed and returned.
*
* @param[out] buf output buffer to write resource list into, my be NULL
* @param[in] maxlen length of @p buf, ignored if @p buf is NULL
* @param[in] cf content format to use for the resource list, currently
* only COAP_FORMAT_LINK supported
*
* @todo add support for `JSON CoRE Link Format`
* @todo add support for 'CBOR CoRE Link Format`
*
* @return the number of bytes written to @p buf
* @return -1 on error
*/
int gcoap_get_resource_list(void *buf, size_t maxlen, uint8_t cf);
/**
* @brief Adds a single Uri-Query option to a CoAP request
*
* To add multiple Uri-Query options, simply call this function multiple times.
* The Uri-Query options will be added in the order those calls.
*
* @param[out] pdu The package that is being build
* @param[in] key Key to add to the query string
* @param[in] val Value to assign to @p key (may be NULL)
*
* @pre ((pdu != NULL) && (key != NULL))
*
* @return overall length of new query string
* @return -1 on error
*/
int gcoap_add_qstring(coap_pkt_t *pdu, const char *key, const char *val);
#ifdef __cplusplus
}
#endif
#endif /* NET_GCOAP_H */
/** @} */
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