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/*
* Copyright (c) 2018 Intel Corporation
* Copyright (c) 2021 Nordic Semiconductor
*
* SPDX-License-Identifier: Apache-2.0
*/
/**
* @file
*
* @brief CoAP implementation for Zephyr.
*/
#ifndef ZEPHYR_INCLUDE_NET_COAP_H_
#define ZEPHYR_INCLUDE_NET_COAP_H_
/**
* @brief COAP library
* @defgroup coap COAP Library
* @ingroup networking
* @{
*/
#include <zephyr/types.h>
#include <stddef.h>
#include <stdbool.h>
#include <net/net_ip.h>
#include <sys/slist.h>
#ifdef __cplusplus
extern "C" {
#endif
/**
* @brief Set of CoAP packet options we are aware of.
*
* Users may add options other than these to their packets, provided
* they know how to format them correctly. The only restriction is
* that all options must be added to a packet in numeric order.
*
* Refer to RFC 7252, section 12.2 for more information.
*/
enum coap_option_num {
COAP_OPTION_IF_MATCH = 1,
COAP_OPTION_URI_HOST = 3,
COAP_OPTION_ETAG = 4,
COAP_OPTION_IF_NONE_MATCH = 5,
COAP_OPTION_OBSERVE = 6,
COAP_OPTION_URI_PORT = 7,
COAP_OPTION_LOCATION_PATH = 8,
COAP_OPTION_URI_PATH = 11,
COAP_OPTION_CONTENT_FORMAT = 12,
COAP_OPTION_MAX_AGE = 14,
COAP_OPTION_URI_QUERY = 15,
COAP_OPTION_ACCEPT = 17,
COAP_OPTION_LOCATION_QUERY = 20,
COAP_OPTION_BLOCK2 = 23,
COAP_OPTION_BLOCK1 = 27,
COAP_OPTION_SIZE2 = 28,
COAP_OPTION_PROXY_URI = 35,
COAP_OPTION_PROXY_SCHEME = 39,
COAP_OPTION_SIZE1 = 60,
};
/**
* @brief Available request methods.
*
* To be used when creating a request or a response.
*/
enum coap_method {
COAP_METHOD_GET = 1,
COAP_METHOD_POST = 2,
COAP_METHOD_PUT = 3,
COAP_METHOD_DELETE = 4,
COAP_METHOD_FETCH = 5,
COAP_METHOD_PATCH = 6,
COAP_METHOD_IPATCH = 7,
};
#define COAP_REQUEST_MASK 0x07
#define COAP_VERSION_1 1U
/**
* @brief CoAP packets may be of one of these types.
*/
enum coap_msgtype {
/**
* Confirmable message.
*
* The packet is a request or response the destination end-point must
* acknowledge.
*/
COAP_TYPE_CON = 0,
/**
* Non-confirmable message.
*
* The packet is a request or response that doesn't
* require acknowledgements.
*/
COAP_TYPE_NON_CON = 1,
/**
* Acknowledge.
*
* Response to a confirmable message.
*/
COAP_TYPE_ACK = 2,
/**
* Reset.
*
* Rejecting a packet for any reason is done by sending a message
* of this type.
*/
COAP_TYPE_RESET = 3
};
#define coap_make_response_code(class, det) ((class << 5) | (det))
/**
* @brief Set of response codes available for a response packet.
*
* To be used when creating a response.
*/
enum coap_response_code {
COAP_RESPONSE_CODE_OK = coap_make_response_code(2, 0),
COAP_RESPONSE_CODE_CREATED = coap_make_response_code(2, 1),
COAP_RESPONSE_CODE_DELETED = coap_make_response_code(2, 2),
COAP_RESPONSE_CODE_VALID = coap_make_response_code(2, 3),
COAP_RESPONSE_CODE_CHANGED = coap_make_response_code(2, 4),
COAP_RESPONSE_CODE_CONTENT = coap_make_response_code(2, 5),
COAP_RESPONSE_CODE_CONTINUE = coap_make_response_code(2, 31),
COAP_RESPONSE_CODE_BAD_REQUEST = coap_make_response_code(4, 0),
COAP_RESPONSE_CODE_UNAUTHORIZED = coap_make_response_code(4, 1),
COAP_RESPONSE_CODE_BAD_OPTION = coap_make_response_code(4, 2),
COAP_RESPONSE_CODE_FORBIDDEN = coap_make_response_code(4, 3),
COAP_RESPONSE_CODE_NOT_FOUND = coap_make_response_code(4, 4),
COAP_RESPONSE_CODE_NOT_ALLOWED = coap_make_response_code(4, 5),
COAP_RESPONSE_CODE_NOT_ACCEPTABLE = coap_make_response_code(4, 6),
COAP_RESPONSE_CODE_INCOMPLETE = coap_make_response_code(4, 8),
COAP_RESPONSE_CODE_CONFLICT = coap_make_response_code(4, 9),
COAP_RESPONSE_CODE_PRECONDITION_FAILED = coap_make_response_code(4, 12),
COAP_RESPONSE_CODE_REQUEST_TOO_LARGE = coap_make_response_code(4, 13),
COAP_RESPONSE_CODE_UNSUPPORTED_CONTENT_FORMAT =
coap_make_response_code(4, 15),
COAP_RESPONSE_CODE_UNPROCESSABLE_ENTITY = coap_make_response_code(4, 22),
COAP_RESPONSE_CODE_TOO_MANY_REQUESTS = coap_make_response_code(4, 29),
COAP_RESPONSE_CODE_INTERNAL_ERROR = coap_make_response_code(5, 0),
COAP_RESPONSE_CODE_NOT_IMPLEMENTED = coap_make_response_code(5, 1),
COAP_RESPONSE_CODE_BAD_GATEWAY = coap_make_response_code(5, 2),
COAP_RESPONSE_CODE_SERVICE_UNAVAILABLE = coap_make_response_code(5, 3),
COAP_RESPONSE_CODE_GATEWAY_TIMEOUT = coap_make_response_code(5, 4),
COAP_RESPONSE_CODE_PROXYING_NOT_SUPPORTED =
coap_make_response_code(5, 5)
};
#define COAP_CODE_EMPTY (0)
#define COAP_TOKEN_MAX_LEN 8UL
/**
* @brief Set of Content-Format option values for CoAP.
*
* To be used when encoding or decoding a Content-Format option.
*/
enum coap_content_format {
COAP_CONTENT_FORMAT_TEXT_PLAIN = 0, /* charset=urf-8 */
COAP_CONTENT_FORMAT_APP_LINK_FORMAT = 40,
COAP_CONTENT_FORMAT_APP_XML = 41,
COAP_CONTENT_FORMAT_APP_OCTET_STREAM = 42,
COAP_CONTENT_FORMAT_APP_EXI = 47,
COAP_CONTENT_FORMAT_APP_JSON = 50,
COAP_CONTENT_FORMAT_APP_JSON_PATCH_JSON = 51,
COAP_CONTENT_FORMAT_APP_MERGE_PATCH_JSON = 52,
COAP_CONTENT_FORMAT_APP_CBOR = 60,
};
/* block option helper */
#define GET_BLOCK_NUM(v) ((v) >> 4)
#define GET_BLOCK_SIZE(v) (((v) & 0x7))
#define GET_MORE(v) (!!((v) & 0x08))
struct coap_observer;
struct coap_packet;
struct coap_pending;
struct coap_reply;
struct coap_resource;
/**
* @typedef coap_method_t
* @brief Type of the callback being called when a resource's method is
* invoked by the remote entity.
*/
typedef int (*coap_method_t)(struct coap_resource *resource,
struct coap_packet *request,
struct sockaddr *addr, socklen_t addr_len);
/**
* @typedef coap_notify_t
* @brief Type of the callback being called when a resource's has observers
* to be informed when an update happens.
*/
typedef void (*coap_notify_t)(struct coap_resource *resource,
struct coap_observer *observer);
/**
* @brief Description of CoAP resource.
*
* CoAP servers often want to register resources, so that clients can act on
* them, by fetching their state or requesting updates to them.
*/
struct coap_resource {
/** Which function to be called for each CoAP method */
coap_method_t get, post, put, del, fetch, patch, ipatch;
coap_notify_t notify;
const char * const *path;
void *user_data;
sys_slist_t observers;
int age;
};
/**
* @brief Represents a remote device that is observing a local resource.
*/
struct coap_observer {
sys_snode_t list;
struct sockaddr addr;
uint8_t token[8];
uint8_t tkl;
};
/**
* @brief Representation of a CoAP Packet.
*/
struct coap_packet {
uint8_t *data; /* User allocated buffer */
uint16_t offset; /* CoAP lib maintains offset while adding data */
uint16_t max_len; /* Max CoAP packet data length */
uint8_t hdr_len; /* CoAP header length */
uint16_t opt_len; /* Total options length (delta + len + value) */
uint16_t delta; /* Used for delta calculation in CoAP packet */
#if defined(CONFIG_COAP_KEEP_USER_DATA)
void *user_data; /* Application specific user data */
#endif
};
struct coap_option {
uint16_t delta;
#if defined(CONFIG_COAP_EXTENDED_OPTIONS_LEN)
uint16_t len;
uint8_t value[CONFIG_COAP_EXTENDED_OPTIONS_LEN_VALUE];
#else
uint8_t len;
uint8_t value[12];
#endif
};
/**
* @typedef coap_reply_t
* @brief Helper function to be called when a response matches the
* a pending request.
*/
typedef int (*coap_reply_t)(const struct coap_packet *response,
struct coap_reply *reply,
const struct sockaddr *from);
#define COAP_DEFAULT_MAX_RETRANSMIT 4
#define COAP_DEFAULT_ACK_RANDOM_FACTOR 1.5
/**
* @brief Represents a request awaiting for an acknowledgment (ACK).
*/
struct coap_pending {
struct sockaddr addr;
uint32_t t0;
uint32_t timeout;
uint16_t id;
uint8_t *data;
uint16_t len;
uint8_t retries;
};
/**
* @brief Represents the handler for the reply of a request, it is
* also used when observing resources.
*/
struct coap_reply {
coap_reply_t reply;
void *user_data;
int age;
uint16_t id;
uint8_t token[8];
uint8_t tkl;
};
/**
* @brief Returns the version present in a CoAP packet.
*
* @param cpkt CoAP packet representation
*
* @return the CoAP version in packet
*/
uint8_t coap_header_get_version(const struct coap_packet *cpkt);
/**
* @brief Returns the type of the CoAP packet.
*
* @param cpkt CoAP packet representation
*
* @return the type of the packet
*/
uint8_t coap_header_get_type(const struct coap_packet *cpkt);
/**
* @brief Returns the token (if any) in the CoAP packet.
*
* @param cpkt CoAP packet representation
* @param token Where to store the token, must point to a buffer containing
* at least COAP_TOKEN_MAX_LEN bytes
*
* @return Token length in the CoAP packet (0 - COAP_TOKEN_MAX_LEN).
*/
uint8_t coap_header_get_token(const struct coap_packet *cpkt, uint8_t *token);
/**
* @brief Returns the code of the CoAP packet.
*
* @param cpkt CoAP packet representation
*
* @return the code present in the packet
*/
uint8_t coap_header_get_code(const struct coap_packet *cpkt);
/**
* @brief Returns the message id associated with the CoAP packet.
*
* @param cpkt CoAP packet representation
*
* @return the message id present in the packet
*/
uint16_t coap_header_get_id(const struct coap_packet *cpkt);
/**
* @brief Returns the data pointer and length of the CoAP packet.
*
* @param cpkt CoAP packet representation
* @param len Total length of CoAP payload
*
* @return data pointer and length if payload exists
* NULL pointer and length set to 0 in case there is no payload
*/
const uint8_t *coap_packet_get_payload(const struct coap_packet *cpkt,
uint16_t *len);
/**
* @brief Parses the CoAP packet in data, validating it and
* initializing @a cpkt. @a data must remain valid while @a cpkt is used.
*
* @param cpkt Packet to be initialized from received @a data.
* @param data Data containing a CoAP packet, its @a data pointer is
* positioned on the start of the CoAP packet.
* @param len Length of the data
* @param options Parse options and cache its details.
* @param opt_num Number of options
*
* @return 0 in case of success or negative in case of error.
*/
int coap_packet_parse(struct coap_packet *cpkt, uint8_t *data, uint16_t len,
struct coap_option *options, uint8_t opt_num);
/**
* @brief Creates a new CoAP Packet from input data.
*
* @param cpkt New packet to be initialized using the storage from @a data.
* @param data Data that will contain a CoAP packet information
* @param max_len Maximum allowable length of data
* @param ver CoAP header version
* @param type CoAP header type
* @param token_len CoAP header token length
* @param token CoAP header token
* @param code CoAP header code
* @param id CoAP header message id
*
* @return 0 in case of success or negative in case of error.
*/
int coap_packet_init(struct coap_packet *cpkt, uint8_t *data, uint16_t max_len,
uint8_t ver, uint8_t type, uint8_t token_len,
const uint8_t *token, uint8_t code, uint16_t id);
/**
* @brief Create a new CoAP Acknowledgment message for given request.
*
* This function works like @ref coap_packet_init, filling CoAP header type,
* CoAP header token, and CoAP header message id fields according to
* acknowledgment rules.
*
* @param cpkt New packet to be initialized using the storage from @a data.
* @param req CoAP request packet that is being acknowledged
* @param data Data that will contain a CoAP packet information
* @param max_len Maximum allowable length of data
* @param code CoAP header code
*
* @return 0 in case of success or negative in case of error.
*/
int coap_ack_init(struct coap_packet *cpkt, const struct coap_packet *req,
uint8_t *data, uint16_t max_len, uint8_t code);
/**
* @brief Returns a randomly generated array of 8 bytes, that can be
* used as a message's token.
*
* @return a 8-byte pseudo-random token.
*/
uint8_t *coap_next_token(void);
/**
* @brief Helper to generate message ids
*
* @return a new message id
*/
uint16_t coap_next_id(void);
/**
* @brief Return the values associated with the option of value @a
* code.
*
* @param cpkt CoAP packet representation
* @param code Option number to look for
* @param options Array of #coap_option where to store the value
* of the options found
* @param veclen Number of elements in the options array
*
* @return The number of options found in packet matching code,
* negative on error.
*/
int coap_find_options(const struct coap_packet *cpkt, uint16_t code,
struct coap_option *options, uint16_t veclen);
/**
* @brief Appends an option to the packet.
*
* Note: options must be added in numeric order of their codes. Otherwise
* error will be returned.
* TODO: Add support for placing options according to its delta value.
*
* @param cpkt Packet to be updated
* @param code Option code to add to the packet, see #coap_option_num
* @param value Pointer to the value of the option, will be copied to the
* packet
* @param len Size of the data to be added
*
* @return 0 in case of success or negative in case of error.
*/
int coap_packet_append_option(struct coap_packet *cpkt, uint16_t code,
const uint8_t *value, uint16_t len);
/**
* @brief Converts an option to its integer representation.
*
* Assumes that the number is encoded in the network byte order in the
* option.
*
* @param option Pointer to the option value, retrieved by
* coap_find_options()
*
* @return The integer representation of the option
*/
unsigned int coap_option_value_to_int(const struct coap_option *option);
/**
* @brief Appends an integer value option to the packet.
*
* The option must be added in numeric order of their codes, and the
* least amount of bytes will be used to encode the value.
*
* @param cpkt Packet to be updated
* @param code Option code to add to the packet, see #coap_option_num
* @param val Integer value to be added
*
* @return 0 in case of success or negative in case of error.
*/
int coap_append_option_int(struct coap_packet *cpkt, uint16_t code,
unsigned int val);
/**
* @brief Append payload marker to CoAP packet
*
* @param cpkt Packet to append the payload marker (0xFF)
*
* @return 0 in case of success or negative in case of error.
*/
int coap_packet_append_payload_marker(struct coap_packet *cpkt);
/**
* @brief Append payload to CoAP packet
*
* @param cpkt Packet to append the payload
* @param payload CoAP packet payload
* @param payload_len CoAP packet payload len
*
* @return 0 in case of success or negative in case of error.
*/
int coap_packet_append_payload(struct coap_packet *cpkt, const uint8_t *payload,
uint16_t payload_len);
/**
* @brief When a request is received, call the appropriate methods of
* the matching resources.
*
* @param cpkt Packet received
* @param resources Array of known resources
* @param options Parsed options from coap_packet_parse()
* @param opt_num Number of options
* @param addr Peer address
* @param addr_len Peer address length
*
* @return 0 in case of success or negative in case of error.
*/
int coap_handle_request(struct coap_packet *cpkt,
struct coap_resource *resources,
struct coap_option *options,
uint8_t opt_num,
struct sockaddr *addr, socklen_t addr_len);
/**
* Represents the size of each block that will be transferred using
* block-wise transfers [RFC7959]:
*
* Each entry maps directly to the value that is used in the wire.
*
* https://tools.ietf.org/html/rfc7959
*/
enum coap_block_size {
COAP_BLOCK_16,
COAP_BLOCK_32,
COAP_BLOCK_64,
COAP_BLOCK_128,
COAP_BLOCK_256,
COAP_BLOCK_512,
COAP_BLOCK_1024,
};
/**
* @brief Helper for converting the enumeration to the size expressed
* in bytes.
*
* @param block_size The block size to be converted
*
* @return The size in bytes that the block_size represents
*/
static inline uint16_t coap_block_size_to_bytes(
enum coap_block_size block_size)
{
return (1 << (block_size + 4));
}
/**
* @brief Represents the current state of a block-wise transaction.
*/
struct coap_block_context {
size_t total_size;
size_t current;
enum coap_block_size block_size;
};
/**
* @brief Initializes the context of a block-wise transfer.
*
* @param ctx The context to be initialized
* @param block_size The size of the block
* @param total_size The total size of the transfer, if known
*
* @return 0 in case of success or negative in case of error.
*/
int coap_block_transfer_init(struct coap_block_context *ctx,
enum coap_block_size block_size,
size_t total_size);
/**
* @brief Append BLOCK1 option to the packet.
*
* @param cpkt Packet to be updated
* @param ctx Block context from which to retrieve the
* information for the Block1 option
*
* @return 0 in case of success or negative in case of error.
*/
int coap_append_block1_option(struct coap_packet *cpkt,
struct coap_block_context *ctx);
/**
* @brief Append BLOCK2 option to the packet.
*
* @param cpkt Packet to be updated
* @param ctx Block context from which to retrieve the
* information for the Block2 option
*
* @return 0 in case of success or negative in case of error.
*/
int coap_append_block2_option(struct coap_packet *cpkt,
struct coap_block_context *ctx);
/**
* @brief Append SIZE1 option to the packet.
*
* @param cpkt Packet to be updated
* @param ctx Block context from which to retrieve the
* information for the Size1 option
*
* @return 0 in case of success or negative in case of error.
*/
int coap_append_size1_option(struct coap_packet *cpkt,
struct coap_block_context *ctx);
/**
* @brief Append SIZE2 option to the packet.
*
* @param cpkt Packet to be updated
* @param ctx Block context from which to retrieve the
* information for the Size2 option
*
* @return 0 in case of success or negative in case of error.
*/
int coap_append_size2_option(struct coap_packet *cpkt,
struct coap_block_context *ctx);
/**
* @brief Get the integer representation of a CoAP option.
*
* @param cpkt Packet to be inspected
* @param code CoAP option code
*
* @return Integer value >= 0 in case of success or negative in case
* of error.
*/
int coap_get_option_int(const struct coap_packet *cpkt, uint16_t code);
/**
* @brief Retrieves BLOCK{1,2} and SIZE{1,2} from @a cpkt and updates
* @a ctx accordingly.
*
* @param cpkt Packet in which to look for block-wise transfers options
* @param ctx Block context to be updated
*
* @return 0 in case of success or negative in case of error.
*/
int coap_update_from_block(const struct coap_packet *cpkt,
struct coap_block_context *ctx);
/**
* @brief Updates @a ctx according to @a option set in @a cpkt
* so after this is called the current entry indicates the correct
* offset in the body of data being transferred.
*
* @param cpkt Packet in which to look for block-wise transfers options
* @param ctx Block context to be updated
* @param option Either COAP_OPTION_BLOCK1 or COAP_OPTION_BLOCK2
*
* @return The offset in the block-wise transfer, 0 if the transfer
* has finished or a negative value in case of an error.
*/
int coap_next_block_for_option(const struct coap_packet *cpkt,
struct coap_block_context *ctx,
enum coap_option_num option);
/**
* @brief Updates @a ctx so after this is called the current entry
* indicates the correct offset in the body of data being
* transferred.
*
* @param cpkt Packet in which to look for block-wise transfers options
* @param ctx Block context to be updated
*
* @return The offset in the block-wise transfer, 0 if the transfer
* has finished.
*/
size_t coap_next_block(const struct coap_packet *cpkt,
struct coap_block_context *ctx);
/**
* @brief Indicates that the remote device referenced by @a addr, with
* @a request, wants to observe a resource.
*
* @param observer Observer to be initialized
* @param request Request on which the observer will be based
* @param addr Address of the remote device
*/
void coap_observer_init(struct coap_observer *observer,
const struct coap_packet *request,
const struct sockaddr *addr);
/**
* @brief After the observer is initialized, associate the observer
* with an resource.
*
* @param resource Resource to add an observer
* @param observer Observer to be added
*
* @return true if this is the first observer added to this resource.
*/
bool coap_register_observer(struct coap_resource *resource,
struct coap_observer *observer);
/**
* @brief Remove this observer from the list of registered observers
* of that resource.
*
* @param resource Resource in which to remove the observer
* @param observer Observer to be removed
*/
void coap_remove_observer(struct coap_resource *resource,
struct coap_observer *observer);
/**
* @brief Returns the observer that matches address @a addr.
*
* @param observers Pointer to the array of observers
* @param len Size of the array of observers
* @param addr Address of the endpoint observing a resource
*
* @return A pointer to a observer if a match is found, NULL
* otherwise.
*/
struct coap_observer *coap_find_observer_by_addr(
struct coap_observer *observers, size_t len,
const struct sockaddr *addr);
/**
* @brief Returns the next available observer representation.
*
* @param observers Pointer to the array of observers
* @param len Size of the array of observers
*
* @return A pointer to a observer if there's an available observer,
* NULL otherwise.
*/
struct coap_observer *coap_observer_next_unused(
struct coap_observer *observers, size_t len);
/**
* @brief Indicates that a reply is expected for @a request.
*
* @param reply Reply structure to be initialized
* @param request Request from which @a reply will be based
*/
void coap_reply_init(struct coap_reply *reply,
const struct coap_packet *request);
/**
* @brief Initialize a pending request with a request.
*
* The request's fields are copied into the pending struct, so @a
* request doesn't have to live for as long as the pending struct
* lives, but "data" that needs to live for at least that long.
*
* @param pending Structure representing the waiting for a
* confirmation message, initialized with data from @a request
* @param request Message waiting for confirmation
* @param addr Address to send the retransmission
* @param retries Maximum number of retransmissions of the message.
*
* @return 0 in case of success or negative in case of error.
*/
int coap_pending_init(struct coap_pending *pending,
const struct coap_packet *request,
const struct sockaddr *addr,
uint8_t retries);
/**
* @brief Returns the next available pending struct, that can be used
* to track the retransmission status of a request.
*
* @param pendings Pointer to the array of #coap_pending structures
* @param len Size of the array of #coap_pending structures
*
* @return pointer to a free #coap_pending structure, NULL in case
* none could be found.
*/
struct coap_pending *coap_pending_next_unused(
struct coap_pending *pendings, size_t len);
/**
* @brief Returns the next available reply struct, so it can be used
* to track replies and notifications received.
*
* @param replies Pointer to the array of #coap_reply structures
* @param len Size of the array of #coap_reply structures
*
* @return pointer to a free #coap_reply structure, NULL in case
* none could be found.
*/
struct coap_reply *coap_reply_next_unused(
struct coap_reply *replies, size_t len);
/**
* @brief After a response is received, returns if there is any
* matching pending request exits. User has to clear all pending
* retransmissions related to that response by calling
* coap_pending_clear().
*
* @param response The received response
* @param pendings Pointer to the array of #coap_reply structures
* @param len Size of the array of #coap_reply structures
*
* @return pointer to the associated #coap_pending structure, NULL in
* case none could be found.
*/
struct coap_pending *coap_pending_received(
const struct coap_packet *response,
struct coap_pending *pendings, size_t len);
/**
* @brief After a response is received, call coap_reply_t handler
* registered in #coap_reply structure
*
* @param response A response received
* @param from Address from which the response was received
* @param replies Pointer to the array of #coap_reply structures
* @param len Size of the array of #coap_reply structures
*
* @return Pointer to the reply matching the packet received, NULL if
* none could be found.
*/
struct coap_reply *coap_response_received(
const struct coap_packet *response,
const struct sockaddr *from,
struct coap_reply *replies, size_t len);
/**
* @brief Returns the next pending about to expire, pending->timeout
* informs how many ms to next expiration.
*
* @param pendings Pointer to the array of #coap_pending structures
* @param len Size of the array of #coap_pending structures
*
* @return The next #coap_pending to expire, NULL if none is about to
* expire.
*/
struct coap_pending *coap_pending_next_to_expire(
struct coap_pending *pendings, size_t len);
/**
* @brief After a request is sent, user may want to cycle the pending
* retransmission so the timeout is updated.
*
* @param pending Pending representation to have its timeout updated
*
* @return false if this is the last retransmission.
*/
bool coap_pending_cycle(struct coap_pending *pending);
/**
* @brief Cancels the pending retransmission, so it again becomes
* available.
*
* @param pending Pending representation to be canceled
*/
void coap_pending_clear(struct coap_pending *pending);
/**
* @brief Cancels all pending retransmissions, so they become
* available again.
*
* @param pendings Pointer to the array of #coap_pending structures
* @param len Size of the array of #coap_pending structures
*/
void coap_pendings_clear(struct coap_pending *pendings, size_t len);
/**
* @brief Cancels awaiting for this reply, so it becomes available
* again. User responsibility to free the memory associated with data.
*
* @param reply The reply to be canceled
*/
void coap_reply_clear(struct coap_reply *reply);
/**
* @brief Cancels all replies, so they become available again.
*
* @param replies Pointer to the array of #coap_reply structures
* @param len Size of the array of #coap_reply structures
*/
void coap_replies_clear(struct coap_reply *replies, size_t len);
/**
* @brief Indicates that this resource was updated and that the @a
* notify callback should be called for every registered observer.
*
* @param resource Resource that was updated
*
* @return 0 in case of success or negative in case of error.
*/
int coap_resource_notify(struct coap_resource *resource);
/**
* @brief Returns if this request is enabling observing a resource.
*
* @param request Request to be checked
*
* @return True if the request is enabling observing a resource, False
* otherwise
*/
bool coap_request_is_observe(const struct coap_packet *request);
#ifdef __cplusplus
}
#endif
/**
* @}
*/
#endif /* ZEPHYR_INCLUDE_NET_COAP_H_ */