include/libwebsockets/lws-lejp.h - platform/external/libwebsockets - Git at Google

 /*
  * libwebsockets - small server side websockets and web server implementation
  *
  * Copyright (C) 2010 - 2019 Andy Green <andy@warmcat.com>
  *
  * Permission is hereby granted, free of charge, to any person obtaining a copy
  * of this software and associated documentation files (the "Software"), to
  * deal in the Software without restriction, including without limitation the
  * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
  * sell copies of the Software, and to permit persons to whom the Software is
  * furnished to do so, subject to the following conditions:
  *
  * The above copyright notice and this permission notice shall be included in
  * all copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
  * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
  * IN THE SOFTWARE.
  */

 /** \defgroup lejp JSON parser
  * ##JSON parsing related functions
  * \ingroup lwsapi
  *
  * LEJP is an extremely lightweight JSON stream parser included in lws.
  */
 //@{
 struct lejp_ctx;

 #if !defined(LWS_ARRAY_SIZE)
 #define LWS_ARRAY_SIZE(_x) (sizeof(_x) / sizeof(_x[0]))
 #endif
 #define LEJP_FLAG_WS_KEEP 64
 #define LEJP_FLAG_WS_COMMENTLINE 32

 enum lejp_states {
 	LEJP_IDLE = 0,
 	LEJP_MEMBERS = 1,
 	LEJP_M_P = 2,
 	LEJP_MP_STRING = LEJP_FLAG_WS_KEEP | 3,
 	LEJP_MP_STRING_ESC = LEJP_FLAG_WS_KEEP | 4,
 	LEJP_MP_STRING_ESC_U1 = LEJP_FLAG_WS_KEEP | 5,
 	LEJP_MP_STRING_ESC_U2 = LEJP_FLAG_WS_KEEP | 6,
 	LEJP_MP_STRING_ESC_U3 = LEJP_FLAG_WS_KEEP | 7,
 	LEJP_MP_STRING_ESC_U4 = LEJP_FLAG_WS_KEEP | 8,
 	LEJP_MP_DELIM = 9,
 	LEJP_MP_VALUE = 10,
 	LEJP_MP_VALUE_NUM_INT = LEJP_FLAG_WS_KEEP | 11,
 	LEJP_MP_VALUE_NUM_EXP = LEJP_FLAG_WS_KEEP | 12,
 	LEJP_MP_VALUE_TOK = LEJP_FLAG_WS_KEEP | 13,
 	LEJP_MP_COMMA_OR_END = 14,
 	LEJP_MP_ARRAY_END = 15,
 };

 enum lejp_reasons {
 	LEJP_CONTINUE = -1,
 	LEJP_REJECT_IDLE_NO_BRACE = -2,
 	LEJP_REJECT_MEMBERS_NO_CLOSE = -3,
 	LEJP_REJECT_MP_NO_OPEN_QUOTE = -4,
 	LEJP_REJECT_MP_STRING_UNDERRUN = -5,
 	LEJP_REJECT_MP_ILLEGAL_CTRL = -6,
 	LEJP_REJECT_MP_STRING_ESC_ILLEGAL_ESC = -7,
 	LEJP_REJECT_ILLEGAL_HEX = -8,
 	LEJP_REJECT_MP_DELIM_MISSING_COLON = -9,
 	LEJP_REJECT_MP_DELIM_BAD_VALUE_START = -10,
 	LEJP_REJECT_MP_VAL_NUM_INT_NO_FRAC = -11,
 	LEJP_REJECT_MP_VAL_NUM_FORMAT = -12,
 	LEJP_REJECT_MP_VAL_NUM_EXP_BAD_EXP = -13,
 	LEJP_REJECT_MP_VAL_TOK_UNKNOWN = -14,
 	LEJP_REJECT_MP_C_OR_E_UNDERF = -15,
 	LEJP_REJECT_MP_C_OR_E_NOTARRAY = -16,
 	LEJP_REJECT_MP_ARRAY_END_MISSING = -17,
 	LEJP_REJECT_STACK_OVERFLOW = -18,
 	LEJP_REJECT_MP_DELIM_ISTACK = -19,
 	LEJP_REJECT_NUM_TOO_LONG = -20,
 	LEJP_REJECT_MP_C_OR_E_NEITHER = -21,
 	LEJP_REJECT_UNKNOWN = -22,
 	LEJP_REJECT_CALLBACK = -23
 };

 #define LEJP_FLAG_CB_IS_VALUE 64

 enum lejp_callbacks {
 	LEJPCB_CONSTRUCTED	= 0,
 	LEJPCB_DESTRUCTED	= 1,

 	LEJPCB_START		= 2,
 	LEJPCB_COMPLETE		= 3,
 	LEJPCB_FAILED		= 4,

 	LEJPCB_PAIR_NAME	= 5,

 	LEJPCB_VAL_TRUE		= LEJP_FLAG_CB_IS_VALUE | 6,
 	LEJPCB_VAL_FALSE	= LEJP_FLAG_CB_IS_VALUE | 7,
 	LEJPCB_VAL_NULL		= LEJP_FLAG_CB_IS_VALUE | 8,
 	LEJPCB_VAL_NUM_INT	= LEJP_FLAG_CB_IS_VALUE | 9,
 	LEJPCB_VAL_NUM_FLOAT	= LEJP_FLAG_CB_IS_VALUE | 10,
 	LEJPCB_VAL_STR_START	= 11, /* notice handle separately */
 	LEJPCB_VAL_STR_CHUNK	= LEJP_FLAG_CB_IS_VALUE | 12,
 	LEJPCB_VAL_STR_END	= LEJP_FLAG_CB_IS_VALUE | 13,

 	LEJPCB_ARRAY_START	= 14,
 	LEJPCB_ARRAY_END	= 15,

 	LEJPCB_OBJECT_START	= 16,
 	LEJPCB_OBJECT_END	= 17,
 };

 /**
  * _lejp_callback() - User parser actions
  * \param ctx:	LEJP context
  * \param reason:	Callback reason
  *
  *	Your user callback is associated with the context at construction time,
  *	and receives calls as the parsing progresses.
  *
  *	All of the callbacks may be ignored and just return 0.
  *
  *	The reasons it might get called, found in @reason, are:
  *
  *  LEJPCB_CONSTRUCTED:  The context was just constructed... you might want to
  *		perform one-time allocation for the life of the context.
  *
  *  LEJPCB_DESTRUCTED:	The context is being destructed... if you made any
  *		allocations at construction-time, you can free them now
  *
  *  LEJPCB_START:	Parsing is beginning at the first byte of input
  *
  *  LEJPCB_COMPLETE:	Parsing has completed successfully.  You'll get a 0 or
  *			positive return code from lejp_parse indicating the
  *			amount of unused bytes left in the input buffer
  *
  *  LEJPCB_FAILED:	Parsing failed.  You'll get a negative error code
  *  			returned from lejp_parse
  *
  *  LEJPCB_PAIR_NAME:	When a "name":"value" pair has had the name parsed,
  *			this callback occurs.  You can find the new name at
  *			the end of ctx->path[]
  *
  *  LEJPCB_VAL_TRUE:	The "true" value appeared
  *
  *  LEJPCB_VAL_FALSE:	The "false" value appeared
  *
  *  LEJPCB_VAL_NULL:	The "null" value appeared
  *
  *  LEJPCB_VAL_NUM_INT:	A string representing an integer is in ctx->buf
  *
  *  LEJPCB_VAL_NUM_FLOAT: A string representing a float is in ctx->buf
  *
  *  LEJPCB_VAL_STR_START: We are starting to parse a string, no data yet
  *
  *  LEJPCB_VAL_STR_CHUNK: We filled the string buffer in the ctx, but it's not
  *			  the end of the string.  We produce this to spill the
  *			  intermediate buffer to the user code, so we can handle
  *			  huge JSON strings using only the small buffer in the
  *			  ctx.  If the whole JSON string fits in the ctx buffer,
  *			  you won't get these callbacks.
  *
  *  LEJPCB_VAL_STR_END:	String parsing has completed, the last chunk of the
  *			string is in ctx->buf.
  *
  *  LEJPCB_ARRAY_START:	An array started
  *
  *  LEJPCB_ARRAY_END:	An array ended
  *
  *  LEJPCB_OBJECT_START: An object started
  *
  *  LEJPCB_OBJECT_END:	An object ended
  */
 LWS_EXTERN signed char _lejp_callback(struct lejp_ctx *ctx, char reason);

 typedef signed char (*lejp_callback)(struct lejp_ctx *ctx, char reason);

 #ifndef LEJP_MAX_PARSING_STACK_DEPTH
 #define LEJP_MAX_PARSING_STACK_DEPTH 5
 #endif
 #ifndef LEJP_MAX_DEPTH
 #define LEJP_MAX_DEPTH 12
 #endif
 #ifndef LEJP_MAX_INDEX_DEPTH
 #define LEJP_MAX_INDEX_DEPTH 8
 #endif
 #ifndef LEJP_MAX_PATH
 #define LEJP_MAX_PATH 128
 #endif
 #ifndef LEJP_STRING_CHUNK
 /* must be >= 30 to assemble floats */
 #define LEJP_STRING_CHUNK 254
 #endif

 enum num_flags {
 	LEJP_SEEN_MINUS		= (1 << 0),
 	LEJP_SEEN_POINT		= (1 << 1),
 	LEJP_SEEN_POST_POINT	= (1 << 2),
 	LEJP_SEEN_EXP		= (1 << 3)
 };

 struct _lejp_stack {
 	char			s; /* lejp_state stack*/
 	char			p;	/* path length */
 	char			i; /* index array length */
 	char			b; /* user bitfield */
 };

 struct _lejp_parsing_stack {
 	void			*user;	/* private to the stack level */
 	signed char 		(*callback)(struct lejp_ctx *ctx, char reason);
 	const char * const	*paths;
 	uint8_t			count_paths;
 	uint8_t			ppos;
 	uint8_t			path_match;
 };

 struct lejp_ctx {

 	/* sorted by type for most compact alignment
 	 *
 	 * pointers
 	 */
 	void *user;

 	/* arrays */

 	struct _lejp_parsing_stack pst[LEJP_MAX_PARSING_STACK_DEPTH];
 	struct _lejp_stack st[LEJP_MAX_DEPTH];
 	uint16_t i[LEJP_MAX_INDEX_DEPTH]; /* index array */
 	uint16_t wild[LEJP_MAX_INDEX_DEPTH]; /* index array */
 	char path[LEJP_MAX_PATH];
 	char buf[LEJP_STRING_CHUNK + 1];

 	/* size_t */

 	size_t path_stride; /* 0 means default ptr size, else stride */

 	/* int */

 	uint32_t line;

 	/* short */

 	uint16_t uni;

 	/* char */

 	uint8_t npos;
 	uint8_t dcount;
 	uint8_t f;
 	uint8_t sp; /* stack head */
 	uint8_t ipos; /* index stack depth */
 	uint8_t count_paths;
 	uint8_t path_match;
 	uint8_t path_match_len;
 	uint8_t wildcount;
 	uint8_t pst_sp; /* parsing stack head */
 	uint8_t outer_array;
 };

 LWS_VISIBLE LWS_EXTERN void
 lejp_construct(struct lejp_ctx *ctx,
 	       signed char (*callback)(struct lejp_ctx *ctx, char reason),
 	       void *user, const char * const *paths, unsigned char paths_count);

 LWS_VISIBLE LWS_EXTERN void
 lejp_destruct(struct lejp_ctx *ctx);

 LWS_VISIBLE LWS_EXTERN int
 lejp_parse(struct lejp_ctx *ctx, const unsigned char *json, int len);

 LWS_VISIBLE LWS_EXTERN void
 lejp_change_callback(struct lejp_ctx *ctx,
 		     signed char (*callback)(struct lejp_ctx *ctx, char reason));

 /*
  * push the current paths / paths_count and lejp_cb to a stack in the ctx, and
  * start using the new ones
  */
 LWS_VISIBLE LWS_EXTERN int
 lejp_parser_push(struct lejp_ctx *ctx, void *user, const char * const *paths,
 		 unsigned char paths_count, lejp_callback lejp_cb);

 /*
  * pop the previously used paths / paths_count and lejp_cb, and continue
  * parsing using those as before
  */
 LWS_VISIBLE LWS_EXTERN int
 lejp_parser_pop(struct lejp_ctx *ctx);

 /* exported for use when reevaluating a path for use with a subcontext */
 LWS_VISIBLE LWS_EXTERN void
 lejp_check_path_match(struct lejp_ctx *ctx);

 LWS_VISIBLE LWS_EXTERN int
 lejp_get_wildcard(struct lejp_ctx *ctx, int wildcard, char *dest, int len);

 LWS_VISIBLE LWS_EXTERN const char *
 lejp_error_to_string(int e);
 //@}
	/*
	* libwebsockets - small server side websockets and web server implementation
	*
	* Copyright (C) 2010 - 2019 Andy Green <andy@warmcat.com>
	*
	* Permission is hereby granted, free of charge, to any person obtaining a copy
	* of this software and associated documentation files (the "Software"), to
	* deal in the Software without restriction, including without limitation the
	* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
	* sell copies of the Software, and to permit persons to whom the Software is
	* furnished to do so, subject to the following conditions:
	*
	* The above copyright notice and this permission notice shall be included in
	* all copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
	* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
	* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
	* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
	* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
	* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
	* IN THE SOFTWARE.
	*/

	/** \defgroup lejp JSON parser
	* ##JSON parsing related functions
	* \ingroup lwsapi
	*
	* LEJP is an extremely lightweight JSON stream parser included in lws.
	*/
	//@{
	struct lejp_ctx;

	#if !defined(LWS_ARRAY_SIZE)
	#define LWS_ARRAY_SIZE(_x) (sizeof(_x) / sizeof(_x[0]))
	#endif
	#define LEJP_FLAG_WS_KEEP 64
	#define LEJP_FLAG_WS_COMMENTLINE 32

	enum lejp_states {
	LEJP_IDLE = 0,
	LEJP_MEMBERS = 1,
	LEJP_M_P = 2,
	LEJP_MP_STRING = LEJP_FLAG_WS_KEEP \| 3,
	LEJP_MP_STRING_ESC = LEJP_FLAG_WS_KEEP \| 4,
	LEJP_MP_STRING_ESC_U1 = LEJP_FLAG_WS_KEEP \| 5,
	LEJP_MP_STRING_ESC_U2 = LEJP_FLAG_WS_KEEP \| 6,
	LEJP_MP_STRING_ESC_U3 = LEJP_FLAG_WS_KEEP \| 7,
	LEJP_MP_STRING_ESC_U4 = LEJP_FLAG_WS_KEEP \| 8,
	LEJP_MP_DELIM = 9,
	LEJP_MP_VALUE = 10,
	LEJP_MP_VALUE_NUM_INT = LEJP_FLAG_WS_KEEP \| 11,
	LEJP_MP_VALUE_NUM_EXP = LEJP_FLAG_WS_KEEP \| 12,
	LEJP_MP_VALUE_TOK = LEJP_FLAG_WS_KEEP \| 13,
	LEJP_MP_COMMA_OR_END = 14,
	LEJP_MP_ARRAY_END = 15,
	};

	enum lejp_reasons {
	LEJP_CONTINUE = -1,
	LEJP_REJECT_IDLE_NO_BRACE = -2,
	LEJP_REJECT_MEMBERS_NO_CLOSE = -3,
	LEJP_REJECT_MP_NO_OPEN_QUOTE = -4,
	LEJP_REJECT_MP_STRING_UNDERRUN = -5,
	LEJP_REJECT_MP_ILLEGAL_CTRL = -6,
	LEJP_REJECT_MP_STRING_ESC_ILLEGAL_ESC = -7,
	LEJP_REJECT_ILLEGAL_HEX = -8,
	LEJP_REJECT_MP_DELIM_MISSING_COLON = -9,
	LEJP_REJECT_MP_DELIM_BAD_VALUE_START = -10,
	LEJP_REJECT_MP_VAL_NUM_INT_NO_FRAC = -11,
	LEJP_REJECT_MP_VAL_NUM_FORMAT = -12,
	LEJP_REJECT_MP_VAL_NUM_EXP_BAD_EXP = -13,
	LEJP_REJECT_MP_VAL_TOK_UNKNOWN = -14,
	LEJP_REJECT_MP_C_OR_E_UNDERF = -15,
	LEJP_REJECT_MP_C_OR_E_NOTARRAY = -16,
	LEJP_REJECT_MP_ARRAY_END_MISSING = -17,
	LEJP_REJECT_STACK_OVERFLOW = -18,
	LEJP_REJECT_MP_DELIM_ISTACK = -19,
	LEJP_REJECT_NUM_TOO_LONG = -20,
	LEJP_REJECT_MP_C_OR_E_NEITHER = -21,
	LEJP_REJECT_UNKNOWN = -22,
	LEJP_REJECT_CALLBACK = -23
	};

	#define LEJP_FLAG_CB_IS_VALUE 64

	enum lejp_callbacks {
	LEJPCB_CONSTRUCTED = 0,
	LEJPCB_DESTRUCTED = 1,

	LEJPCB_START = 2,
	LEJPCB_COMPLETE = 3,
	LEJPCB_FAILED = 4,

	LEJPCB_PAIR_NAME = 5,

	LEJPCB_VAL_TRUE = LEJP_FLAG_CB_IS_VALUE \| 6,
	LEJPCB_VAL_FALSE = LEJP_FLAG_CB_IS_VALUE \| 7,
	LEJPCB_VAL_NULL = LEJP_FLAG_CB_IS_VALUE \| 8,
	LEJPCB_VAL_NUM_INT = LEJP_FLAG_CB_IS_VALUE \| 9,
	LEJPCB_VAL_NUM_FLOAT = LEJP_FLAG_CB_IS_VALUE \| 10,
	LEJPCB_VAL_STR_START = 11, /* notice handle separately */
	LEJPCB_VAL_STR_CHUNK = LEJP_FLAG_CB_IS_VALUE \| 12,
	LEJPCB_VAL_STR_END = LEJP_FLAG_CB_IS_VALUE \| 13,

	LEJPCB_ARRAY_START = 14,
	LEJPCB_ARRAY_END = 15,

	LEJPCB_OBJECT_START = 16,
	LEJPCB_OBJECT_END = 17,
	};

	/**
	* _lejp_callback() - User parser actions
	* \param ctx: LEJP context
	* \param reason: Callback reason
	*
	* Your user callback is associated with the context at construction time,
	* and receives calls as the parsing progresses.
	*
	* All of the callbacks may be ignored and just return 0.
	*
	* The reasons it might get called, found in @reason, are:
	*
	* LEJPCB_CONSTRUCTED: The context was just constructed... you might want to
	* perform one-time allocation for the life of the context.
	*
	* LEJPCB_DESTRUCTED: The context is being destructed... if you made any
	* allocations at construction-time, you can free them now
	*
	* LEJPCB_START: Parsing is beginning at the first byte of input
	*
	* LEJPCB_COMPLETE: Parsing has completed successfully. You'll get a 0 or
	* positive return code from lejp_parse indicating the
	* amount of unused bytes left in the input buffer
	*
	* LEJPCB_FAILED: Parsing failed. You'll get a negative error code
	* returned from lejp_parse
	*
	* LEJPCB_PAIR_NAME: When a "name":"value" pair has had the name parsed,
	* this callback occurs. You can find the new name at
	* the end of ctx->path[]
	*
	* LEJPCB_VAL_TRUE: The "true" value appeared
	*
	* LEJPCB_VAL_FALSE: The "false" value appeared
	*
	* LEJPCB_VAL_NULL: The "null" value appeared
	*
	* LEJPCB_VAL_NUM_INT: A string representing an integer is in ctx->buf
	*
	* LEJPCB_VAL_NUM_FLOAT: A string representing a float is in ctx->buf
	*
	* LEJPCB_VAL_STR_START: We are starting to parse a string, no data yet
	*
	* LEJPCB_VAL_STR_CHUNK: We filled the string buffer in the ctx, but it's not
	* the end of the string. We produce this to spill the
	* intermediate buffer to the user code, so we can handle
	* huge JSON strings using only the small buffer in the
	* ctx. If the whole JSON string fits in the ctx buffer,
	* you won't get these callbacks.
	*
	* LEJPCB_VAL_STR_END: String parsing has completed, the last chunk of the
	* string is in ctx->buf.
	*
	* LEJPCB_ARRAY_START: An array started
	*
	* LEJPCB_ARRAY_END: An array ended
	*
	* LEJPCB_OBJECT_START: An object started
	*
	* LEJPCB_OBJECT_END: An object ended
	*/
	LWS_EXTERN signed char _lejp_callback(struct lejp_ctx *ctx, char reason);

	typedef signed char (lejp_callback)(struct lejp_ctx ctx, char reason);

	#ifndef LEJP_MAX_PARSING_STACK_DEPTH
	#define LEJP_MAX_PARSING_STACK_DEPTH 5
	#endif
	#ifndef LEJP_MAX_DEPTH
	#define LEJP_MAX_DEPTH 12
	#endif
	#ifndef LEJP_MAX_INDEX_DEPTH
	#define LEJP_MAX_INDEX_DEPTH 8
	#endif
	#ifndef LEJP_MAX_PATH
	#define LEJP_MAX_PATH 128
	#endif
	#ifndef LEJP_STRING_CHUNK
	/* must be >= 30 to assemble floats */
	#define LEJP_STRING_CHUNK 254
	#endif

	enum num_flags {
	LEJP_SEEN_MINUS = (1 << 0),
	LEJP_SEEN_POINT = (1 << 1),
	LEJP_SEEN_POST_POINT = (1 << 2),
	LEJP_SEEN_EXP = (1 << 3)
	};

	struct _lejp_stack {
	char s; /* lejp_state stack*/
	char p; /* path length */
	char i; /* index array length */
	char b; /* user bitfield */
	};

	struct _lejp_parsing_stack {
	void user; / private to the stack level */
	signed char (callback)(struct lejp_ctx ctx, char reason);
	const char * const *paths;
	uint8_t count_paths;
	uint8_t ppos;
	uint8_t path_match;
	};

	struct lejp_ctx {

	/* sorted by type for most compact alignment
	*
	* pointers
	*/
	void *user;

	/* arrays */

	struct _lejp_parsing_stack pst[LEJP_MAX_PARSING_STACK_DEPTH];
	struct _lejp_stack st[LEJP_MAX_DEPTH];
	uint16_t i[LEJP_MAX_INDEX_DEPTH]; /* index array */
	uint16_t wild[LEJP_MAX_INDEX_DEPTH]; /* index array */
	char path[LEJP_MAX_PATH];
	char buf[LEJP_STRING_CHUNK + 1];

	/* size_t */

	size_t path_stride; /* 0 means default ptr size, else stride */

	/* int */

	uint32_t line;

	/* short */

	uint16_t uni;

	/* char */

	uint8_t npos;
	uint8_t dcount;
	uint8_t f;
	uint8_t sp; /* stack head */
	uint8_t ipos; /* index stack depth */
	uint8_t count_paths;
	uint8_t path_match;
	uint8_t path_match_len;
	uint8_t wildcount;
	uint8_t pst_sp; /* parsing stack head */
	uint8_t outer_array;
	};

	LWS_VISIBLE LWS_EXTERN void
	lejp_construct(struct lejp_ctx *ctx,
	signed char (callback)(struct lejp_ctx ctx, char reason),
	void user, const char const *paths, unsigned char paths_count);

	LWS_VISIBLE LWS_EXTERN void
	lejp_destruct(struct lejp_ctx *ctx);

	LWS_VISIBLE LWS_EXTERN int
	lejp_parse(struct lejp_ctx ctx, const unsigned char json, int len);

	LWS_VISIBLE LWS_EXTERN void
	lejp_change_callback(struct lejp_ctx *ctx,
	signed char (callback)(struct lejp_ctx ctx, char reason));

	/*
	* push the current paths / paths_count and lejp_cb to a stack in the ctx, and
	* start using the new ones
	*/
	LWS_VISIBLE LWS_EXTERN int
	lejp_parser_push(struct lejp_ctx ctx, void user, const char * const *paths,
	unsigned char paths_count, lejp_callback lejp_cb);

	/*
	* pop the previously used paths / paths_count and lejp_cb, and continue
	* parsing using those as before
	*/
	LWS_VISIBLE LWS_EXTERN int
	lejp_parser_pop(struct lejp_ctx *ctx);

	/* exported for use when reevaluating a path for use with a subcontext */
	LWS_VISIBLE LWS_EXTERN void
	lejp_check_path_match(struct lejp_ctx *ctx);

	LWS_VISIBLE LWS_EXTERN int
	lejp_get_wildcard(struct lejp_ctx ctx, int wildcard, char dest, int len);

	LWS_VISIBLE LWS_EXTERN const char *
	lejp_error_to_string(int e);
	//@}