subsys/net/l2/ppp/ppp_internal.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /** @file
  @brief PPP private header

  This is not to be included by the application.
  */

 /*
  * Copyright (c) 2019 Intel Corporation
  *
  * SPDX-License-Identifier: Apache-2.0
  */

 #include <zephyr/net/ppp.h>

 /**
  * FSM flags that control how it operates.
  */
 #define FSM_RESTART    BIT(0) /**< Treat 2nd OPEN as DOWN followed by UP    */

 /**
  * PPP packet format.
  */
 struct ppp_packet {
 	uint8_t code;
 	uint8_t id;
 	uint16_t length;
 } __packed;

 /** Max Terminate-Request transmissions */
 #define MAX_TERMINATE_REQ  CONFIG_NET_L2_PPP_MAX_TERMINATE_REQ_RETRANSMITS

 /** Max Configure-Request transmissions */
 #define MAX_CONFIGURE_REQ CONFIG_NET_L2_PPP_MAX_CONFIGURE_REQ_RETRANSMITS

 #define PPP_BUF_ALLOC_TIMEOUT	K_MSEC(100)

 /** Protocol handler information. */
 struct ppp_protocol_handler {
 	/** Protocol init function */
 	void (*init)(struct ppp_context *ctx);

 	/** Process a received packet */
 	enum net_verdict (*handler)(struct ppp_context *ctx,
 				    struct net_if *iface,
 				    struct net_pkt *pkt);

 	/** Lower layer up */
 	void (*lower_up)(struct ppp_context *ctx);

 	/** Lower layer down */
 	void (*lower_down)(struct ppp_context *ctx);

 	/** Enable this protocol */
 	void (*open)(struct ppp_context *ctx);

 	/** Disable this protocol */
 	void (*close)(struct ppp_context *ctx, const uint8_t *reason);

 	/** PPP protocol number */
 	uint16_t protocol;
 };

 struct ppp_peer_option_info {
 	uint8_t code;
 	int (*parse)(struct ppp_fsm *fsm, struct net_pkt *pkt,
 		     void *user_data);
 	int (*nack)(struct ppp_fsm *fsm, struct net_pkt *ret_pkt,
 		    void *user_data);
 };

 #define PPP_PEER_OPTION(_code, _parse, _nack)	\
 	{					\
 		.code = _code,			\
 		.parse = _parse,		\
 		.nack = _nack,			\
 	}

 int ppp_config_info_req(struct ppp_fsm *fsm,
 			struct net_pkt *pkt,
 			uint16_t length,
 			struct net_pkt *ret_pkt,
 			enum ppp_protocol_type protocol,
 			const struct ppp_peer_option_info *options_info,
 			size_t num_options_info,
 			void *user_data);

 #define PPP_PROTO_GET_NAME(proto_name)		\
 	(ppp_protocol_handler_##proto_name)

 #define PPP_PROTOCOL_REGISTER(name, proto, init_func, proto_handler,	\
 			      proto_lower_up, proto_lower_down,		\
 			      proto_open, proto_close)			\
 	static const STRUCT_SECTION_ITERABLE(ppp_protocol_handler,	\
 					PPP_PROTO_GET_NAME(name)) = {	\
 		.protocol = proto,					\
 		.init = init_func,					\
 		.handler = proto_handler,				\
 		.lower_up = proto_lower_up,				\
 		.lower_down = proto_lower_down,				\
 		.open = proto_open,					\
 		.close = proto_close,					\
 	}

 void ppp_queue_pkt(struct net_pkt *pkt);
 const char *ppp_phase_str(enum ppp_phase phase);
 const char *ppp_state_str(enum ppp_state state);
 const char *ppp_proto2str(uint16_t proto);
 const char *ppp_pkt_type2str(enum ppp_packet_type type);
 const char *ppp_option2str(enum ppp_protocol_type protocol, int type);
 void ppp_fsm_name_set(struct ppp_fsm *fsm, const char *name);

 #if CONFIG_NET_L2_PPP_LOG_LEVEL < LOG_LEVEL_DBG
 void ppp_change_phase(struct ppp_context *ctx, enum ppp_phase new_phase);
 void ppp_change_state(struct ppp_fsm *fsm, enum ppp_state new_state);
 #else
 void ppp_change_phase_debug(struct ppp_context *ctx,
 			    enum ppp_phase new_phase,
 			    const char *caller, int line);

 #define ppp_change_phase(ctx, state)				\
 	ppp_change_phase_debug(ctx, state, __func__, __LINE__)

 #define ppp_change_state(fsm, state)				\
 	ppp_change_state_debug(fsm, state, __func__, __LINE__)

 void ppp_change_state_debug(struct ppp_fsm *fsm, enum ppp_state new_state,
 			    const char *caller, int line);
 #endif

 struct ppp_context *ppp_fsm_ctx(struct ppp_fsm *fsm);
 struct net_if *ppp_fsm_iface(struct ppp_fsm *fsm);
 int ppp_send_pkt(struct ppp_fsm *fsm, struct net_if *iface,
 		 enum ppp_packet_type type, uint8_t id,
 		 void *data, uint32_t data_len);
 void ppp_send_proto_rej(struct net_if *iface, struct net_pkt *pkt,
 			uint16_t protocol);

 void ppp_fsm_init(struct ppp_fsm *fsm, uint16_t protocol);
 void ppp_fsm_lower_up(struct ppp_fsm *fsm);
 void ppp_fsm_lower_down(struct ppp_fsm *fsm);
 void ppp_fsm_open(struct ppp_fsm *fsm);
 void ppp_fsm_close(struct ppp_fsm *fsm, const uint8_t *reason);
 void ppp_fsm_proto_reject(struct ppp_fsm *fsm);
 enum net_verdict ppp_fsm_input(struct ppp_fsm *fsm, uint16_t proto,
 			       struct net_pkt *pkt);
 enum net_verdict ppp_fsm_recv_protocol_rej(struct ppp_fsm *fsm,
 					   uint8_t id,
 					   struct net_pkt *pkt);
 enum net_verdict ppp_fsm_recv_echo_req(struct ppp_fsm *fsm,
 				       uint8_t id,
 				       struct net_pkt *pkt);
 enum net_verdict ppp_fsm_recv_echo_reply(struct ppp_fsm *fsm,
 					 uint8_t id,
 					 struct net_pkt *pkt);
 enum net_verdict ppp_fsm_recv_discard_req(struct ppp_fsm *fsm,
 					  uint8_t id,
 					  struct net_pkt *pkt);

 const struct ppp_protocol_handler *ppp_lcp_get(void);
 int ppp_parse_options(struct ppp_fsm *fsm, struct net_pkt *pkt,
 		      uint16_t length,
 		      int (*parse)(struct net_pkt *pkt, uint8_t code,
 				   uint8_t len, void *user_data),
 		      void *user_data);

 void ppp_link_established(struct ppp_context *ctx, struct ppp_fsm *fsm);
 void ppp_link_authenticated(struct ppp_context *ctx);
 void ppp_link_terminated(struct ppp_context *ctx);
 void ppp_link_down(struct ppp_context *ctx);
 void ppp_link_needed(struct ppp_context *ctx);

 void ppp_network_up(struct ppp_context *ctx, int proto);
 void ppp_network_down(struct ppp_context *ctx, int proto);
 void ppp_network_done(struct ppp_context *ctx, int proto);
 void ppp_network_all_down(struct ppp_context *ctx);

 struct ppp_my_option_info {
 	uint8_t code;
 	int (*conf_req_add)(struct ppp_context *ctx, struct net_pkt *pkt);
 	int (*conf_ack_handle)(struct ppp_context *ctx, struct net_pkt *pkt,
 			       uint8_t oplen);
 	int (*conf_nak_handle)(struct ppp_context *ctx, struct net_pkt *pkt,
 			       uint8_t oplen);
 };

 #define PPP_MY_OPTION(_code, _req_add, _handle_ack, _handle_nak)	\
 	{								\
 		.code = _code,						\
 		.conf_req_add = _req_add,				\
 		.conf_ack_handle = _handle_ack,				\
 		.conf_nak_handle = _handle_nak,				\
 	}

 struct net_pkt *ppp_my_options_add(struct ppp_fsm *fsm, size_t packet_len);

 int ppp_my_options_parse_conf_ack(struct ppp_fsm *fsm,
 				  struct net_pkt *pkt,
 				  uint16_t length);

 int ppp_my_options_parse_conf_nak(struct ppp_fsm *fsm,
 				  struct net_pkt *pkt,
 				  uint16_t length);

 int ppp_my_options_parse_conf_rej(struct ppp_fsm *fsm,
 				  struct net_pkt *pkt,
 				  uint16_t length);

 uint32_t ppp_my_option_flags(struct ppp_fsm *fsm, uint8_t code);

 static inline bool ppp_my_option_is_acked(struct ppp_fsm *fsm,
 					  uint8_t code)
 {
 	return ppp_my_option_flags(fsm, code) & PPP_MY_OPTION_ACKED;
 }
	/** @file
	@brief PPP private header

	This is not to be included by the application.
	*/

	/*
	* Copyright (c) 2019 Intel Corporation
	*
	* SPDX-License-Identifier: Apache-2.0
	*/

	#include <zephyr/net/ppp.h>

	/**
	* FSM flags that control how it operates.
	*/
	#define FSM_RESTART BIT(0) /*< Treat 2nd OPEN as DOWN followed by UP /

	/**
	* PPP packet format.
	*/
	struct ppp_packet {
	uint8_t code;
	uint8_t id;
	uint16_t length;
	} __packed;

	/** Max Terminate-Request transmissions */
	#define MAX_TERMINATE_REQ CONFIG_NET_L2_PPP_MAX_TERMINATE_REQ_RETRANSMITS

	/** Max Configure-Request transmissions */
	#define MAX_CONFIGURE_REQ CONFIG_NET_L2_PPP_MAX_CONFIGURE_REQ_RETRANSMITS

	#define PPP_BUF_ALLOC_TIMEOUT K_MSEC(100)

	/** Protocol handler information. */
	struct ppp_protocol_handler {
	/** Protocol init function */
	void (init)(struct ppp_context ctx);

	/** Process a received packet */
	enum net_verdict (handler)(struct ppp_context ctx,
	struct net_if *iface,
	struct net_pkt *pkt);

	/** Lower layer up */
	void (lower_up)(struct ppp_context ctx);

	/** Lower layer down */
	void (lower_down)(struct ppp_context ctx);

	/** Enable this protocol */
	void (open)(struct ppp_context ctx);

	/** Disable this protocol */
	void (close)(struct ppp_context ctx, const uint8_t *reason);

	/** PPP protocol number */
	uint16_t protocol;
	};

	struct ppp_peer_option_info {
	uint8_t code;
	int (parse)(struct ppp_fsm fsm, struct net_pkt *pkt,
	void *user_data);
	int (nack)(struct ppp_fsm fsm, struct net_pkt *ret_pkt,
	void *user_data);
	};

	#define PPP_PEER_OPTION(_code, _parse, _nack) \
	{ \
	.code = _code, \
	.parse = _parse, \
	.nack = _nack, \
	}

	int ppp_config_info_req(struct ppp_fsm *fsm,
	struct net_pkt *pkt,
	uint16_t length,
	struct net_pkt *ret_pkt,
	enum ppp_protocol_type protocol,
	const struct ppp_peer_option_info *options_info,
	size_t num_options_info,
	void *user_data);

	#define PPP_PROTO_GET_NAME(proto_name) \
	(ppp_protocol_handler_##proto_name)

	#define PPP_PROTOCOL_REGISTER(name, proto, init_func, proto_handler, \
	proto_lower_up, proto_lower_down, \
	proto_open, proto_close) \
	static const STRUCT_SECTION_ITERABLE(ppp_protocol_handler, \
	PPP_PROTO_GET_NAME(name)) = { \
	.protocol = proto, \
	.init = init_func, \
	.handler = proto_handler, \
	.lower_up = proto_lower_up, \
	.lower_down = proto_lower_down, \
	.open = proto_open, \
	.close = proto_close, \
	}

	void ppp_queue_pkt(struct net_pkt *pkt);
	const char *ppp_phase_str(enum ppp_phase phase);
	const char *ppp_state_str(enum ppp_state state);
	const char *ppp_proto2str(uint16_t proto);
	const char *ppp_pkt_type2str(enum ppp_packet_type type);
	const char *ppp_option2str(enum ppp_protocol_type protocol, int type);
	void ppp_fsm_name_set(struct ppp_fsm fsm, const char name);

	#if CONFIG_NET_L2_PPP_LOG_LEVEL < LOG_LEVEL_DBG
	void ppp_change_phase(struct ppp_context *ctx, enum ppp_phase new_phase);
	void ppp_change_state(struct ppp_fsm *fsm, enum ppp_state new_state);
	#else
	void ppp_change_phase_debug(struct ppp_context *ctx,
	enum ppp_phase new_phase,
	const char *caller, int line);

	#define ppp_change_phase(ctx, state) \
	ppp_change_phase_debug(ctx, state, __func__, __LINE__)

	#define ppp_change_state(fsm, state) \
	ppp_change_state_debug(fsm, state, __func__, __LINE__)

	void ppp_change_state_debug(struct ppp_fsm *fsm, enum ppp_state new_state,
	const char *caller, int line);
	#endif

	struct ppp_context ppp_fsm_ctx(struct ppp_fsm fsm);
	struct net_if ppp_fsm_iface(struct ppp_fsm fsm);
	int ppp_send_pkt(struct ppp_fsm fsm, struct net_if iface,
	enum ppp_packet_type type, uint8_t id,
	void *data, uint32_t data_len);
	void ppp_send_proto_rej(struct net_if iface, struct net_pkt pkt,
	uint16_t protocol);

	void ppp_fsm_init(struct ppp_fsm *fsm, uint16_t protocol);
	void ppp_fsm_lower_up(struct ppp_fsm *fsm);
	void ppp_fsm_lower_down(struct ppp_fsm *fsm);
	void ppp_fsm_open(struct ppp_fsm *fsm);
	void ppp_fsm_close(struct ppp_fsm fsm, const uint8_t reason);
	void ppp_fsm_proto_reject(struct ppp_fsm *fsm);
	enum net_verdict ppp_fsm_input(struct ppp_fsm *fsm, uint16_t proto,
	struct net_pkt *pkt);
	enum net_verdict ppp_fsm_recv_protocol_rej(struct ppp_fsm *fsm,
	uint8_t id,
	struct net_pkt *pkt);
	enum net_verdict ppp_fsm_recv_echo_req(struct ppp_fsm *fsm,
	uint8_t id,
	struct net_pkt *pkt);
	enum net_verdict ppp_fsm_recv_echo_reply(struct ppp_fsm *fsm,
	uint8_t id,
	struct net_pkt *pkt);
	enum net_verdict ppp_fsm_recv_discard_req(struct ppp_fsm *fsm,
	uint8_t id,
	struct net_pkt *pkt);

	const struct ppp_protocol_handler *ppp_lcp_get(void);
	int ppp_parse_options(struct ppp_fsm fsm, struct net_pkt pkt,
	uint16_t length,
	int (parse)(struct net_pkt pkt, uint8_t code,
	uint8_t len, void *user_data),
	void *user_data);

	void ppp_link_established(struct ppp_context ctx, struct ppp_fsm fsm);
	void ppp_link_authenticated(struct ppp_context *ctx);
	void ppp_link_terminated(struct ppp_context *ctx);
	void ppp_link_down(struct ppp_context *ctx);
	void ppp_link_needed(struct ppp_context *ctx);

	void ppp_network_up(struct ppp_context *ctx, int proto);
	void ppp_network_down(struct ppp_context *ctx, int proto);
	void ppp_network_done(struct ppp_context *ctx, int proto);
	void ppp_network_all_down(struct ppp_context *ctx);

	struct ppp_my_option_info {
	uint8_t code;
	int (conf_req_add)(struct ppp_context ctx, struct net_pkt *pkt);
	int (conf_ack_handle)(struct ppp_context ctx, struct net_pkt *pkt,
	uint8_t oplen);
	int (conf_nak_handle)(struct ppp_context ctx, struct net_pkt *pkt,
	uint8_t oplen);
	};

	#define PPP_MY_OPTION(_code, _req_add, _handle_ack, _handle_nak) \
	{ \
	.code = _code, \
	.conf_req_add = _req_add, \
	.conf_ack_handle = _handle_ack, \
	.conf_nak_handle = _handle_nak, \
	}

	struct net_pkt ppp_my_options_add(struct ppp_fsm fsm, size_t packet_len);

	int ppp_my_options_parse_conf_ack(struct ppp_fsm *fsm,
	struct net_pkt *pkt,
	uint16_t length);

	int ppp_my_options_parse_conf_nak(struct ppp_fsm *fsm,
	struct net_pkt *pkt,
	uint16_t length);

	int ppp_my_options_parse_conf_rej(struct ppp_fsm *fsm,
	struct net_pkt *pkt,
	uint16_t length);

	uint32_t ppp_my_option_flags(struct ppp_fsm *fsm, uint8_t code);

	static inline bool ppp_my_option_is_acked(struct ppp_fsm *fsm,
	uint8_t code)
	{
	return ppp_my_option_flags(fsm, code) & PPP_MY_OPTION_ACKED;
	}