src/cn-encoder.c - third_party/github/jimsch/cn-cbor - Git at Google

 #ifndef CN_ENCODER_C
 #define CN_ENCODER_C

 #ifdef __cplusplus
 extern "C" {
 #endif
 #ifdef EMACS_INDENTATION_HELPER
 } /* Duh. */
 #endif

 #ifdef _MSC_VER
 #include <WinSock2.h>
 #define inline _inline
 #else
 #ifndef __MBED__
 #include <arpa/inet.h>
 #endif
 #endif
 #include <string.h>
 #ifndef _MSC_VER
 #ifndef __MBED__
 #include <strings.h>
 #endif
 #endif
 #include <stdbool.h>
 #include <assert.h>

 #include "dll-export.h"
 #include "cn-cbor/cn-cbor.h"
 #include "cbor.h"

 #define hton8p(p) (*(uint8_t *)(p))
 #define hton16p(p) (htons(*(uint16_t *)(p)))
 #define hton32p(p) (htonl(*(uint32_t *)(p)))
 static uint64_t hton64p(const uint8_t *p)
 {
 	/* TODO: does this work on both BE and LE systems? */
 	uint64_t ret = hton32p(p);
 	ret <<= 32;
 	ret |= hton32p(p + 4);
 	return ret;
 }

 typedef struct _write_state {
 	uint8_t *buf;
 	ssize_t offset;
 	ssize_t size;
 } cn_write_state;

 #define ensure_writable(sz)                                                          \
 	if ((ws->buf != NULL) && ((ws->offset < 0) || (ws->offset + (sz) > ws->size))) { \
 		ws->offset = -1;                                                             \
 		return;                                                                      \
 	}

 #define write_byte_and_data(b, data, sz)            \
 	if (ws->buf) {                                  \
 		ws->buf[ws->offset++] = (b);                \
 		memcpy(ws->buf + ws->offset, (data), (sz)); \
 	}                                               \
 	else {                                          \
 		ws->offset++;                               \
 	}                                               \
 	ws->offset += sz;

 #define write_byte(b)                \
 	if (ws->buf) {                   \
 		ws->buf[ws->offset++] = (b); \
 	}                                \
 	else {                           \
 		ws->offset++;                \
 	}

 #define write_byte_ensured(b) \
 	ensure_writable(1);       \
 	write_byte(b);

 static uint8_t _xlate[] = {
 	IB_FALSE,	 /* CN_CBOR_FALSE */
 	IB_TRUE,	 /* CN_CBOR_TRUE */
 	IB_NIL,		 /* CN_CBOR_NULL */
 	IB_UNDEF,	 /* CN_CBOR_UNDEF */
 	IB_UNSIGNED, /* CN_CBOR_UINT */
 	IB_NEGATIVE, /* CN_CBOR_INT */
 	IB_BYTES,	 /* CN_CBOR_BYTES */
 	IB_TEXT,	 /* CN_CBOR_TEXT */
 	IB_BYTES,	 /* CN_CBOR_BYTES_CHUNKED */
 	IB_TEXT,	 /* CN_CBOR_TEXT_CHUNKED */
 	IB_ARRAY,	 /* CN_CBOR_ARRAY */
 	IB_MAP,		 /* CN_CBOR_MAP */
 	IB_TAG,		 /* CN_CBOR_TAG */
 	IB_PRIM,	 /* CN_CBOR_SIMPLE */
 	0xFF,		 /* CN_CBOR_DOUBLE */
 	0xFF		 /* CN_CBOR_INVALID */
 };

 static inline bool is_indefinite(const cn_cbor *cb)
 {
 	return (cb->flags & CN_CBOR_FL_INDEF) != 0;
 }

 static void _write_positive(cn_write_state *ws, cn_cbor_type typ, uint64_t val)
 {
 	uint8_t ib;

 	assert((size_t)typ < sizeof(_xlate));

 	ib = _xlate[typ];
 	if (ib == 0xFF) {
 		ws->offset = -1;
 		return;
 	}

 	if (val < 24) {
 		ensure_writable(1);
 		write_byte(ib | (uint8_t)val);
 	}
 	else if (val < 256) {
 		ensure_writable(2);
 		write_byte(ib | 24);
 		write_byte((uint8_t)val);
 	}
 	else if (val < 65536) {
 		uint16_t be16 = (uint16_t)val;
 		ensure_writable(3);
 		be16 = hton16p(&be16);
 		write_byte_and_data(ib | 25, (const void *)&be16, 2);
 	}
 	else if (val < 0x100000000L) {
 		uint32_t be32 = (uint32_t)val;
 		ensure_writable(5);
 		// be32 = hton32p(&be32);
 		be32 = htonl(be32);
 		write_byte_and_data(ib | 26, (const void *)&be32, 4);
 	}
 	else {
 		uint64_t be64;
 		ensure_writable(9);
 		be64 = hton64p((const uint8_t *)&val);
 		write_byte_and_data(ib | 27, (const void *)&be64, 8);
 	}
 }

 #ifndef CBOR_NO_FLOAT
 static void _write_double(cn_write_state *ws, double val)
 {
 	float float_val = val;
 	if (float_val == val) { /* 32 bits is enough and we aren't NaN */
 		uint32_t be32;
 		uint16_t be16, u16;
 		union {
 			float f;
 			uint32_t u;
 		} u32;
 		u32.f = float_val;
 		if ((u32.u & 0x1FFF) == 0) { /* worth trying half */
 			int s16 = (u32.u >> 16) & 0x8000;
 			int exp = (u32.u >> 23) & 0xff;
 			int mant = u32.u & 0x7fffff;
 			if (exp == 0 && mant == 0)
 				;							   /* 0.0, -0.0 */
 			else if (exp >= 113 && exp <= 142) /* normalized */
 				s16 += ((exp - 112) << 10) + (mant >> 13);
 			else if (exp >= 103 && exp < 113) { /* denorm, exp16 = 0 */
 				if (mant & ((1 << (126 - exp)) - 1))
 					goto float32; /* loss of precision */
 				s16 += ((mant + 0x800000) >> (126 - exp));
 			}
 			else if (exp == 255 && mant == 0) { /* Inf */
 				s16 += 0x7c00;
 			}
 			else
 				goto float32; /* loss of range */

 			ensure_writable(3);
 			u16 = s16;
 			be16 = hton16p((const uint8_t *)&u16);

 			write_byte_and_data(IB_PRIM | 25, (const void *)&be16, 2);
 			return;
 		}
 	float32:
 		ensure_writable(5);
 		be32 = hton32p((const uint8_t *)&u32.u);

 		write_byte_and_data(IB_PRIM | 26, (const void *)&be32, 4);
 	}
 	else if (val != val) { /* NaN -- we always write a half NaN*/
 		ensure_writable(3);
 		write_byte_and_data(IB_PRIM | 25, (const void *)"\x7e\x00", 2);
 	}
 	else {
 		uint64_t be64;
 		/* Copy the same problematic implementation from the decoder. */
 		union {
 			double d;
 			uint64_t u;
 		} u64;

 		u64.d = val;

 		ensure_writable(9);
 		be64 = hton64p((const uint8_t *)&u64.u);

 		write_byte_and_data(IB_PRIM | 27, (const void *)&be64, 8);
 	}
 }
 #endif /* CBOR_NO_FLOAT */

 // TODO: make public?
 typedef void (*cn_visit_func)(const cn_cbor *cb, int depth, void *context);
 void _visit(const cn_cbor *cb, cn_visit_func visitor, cn_visit_func breaker, void *context)
 {
 	const cn_cbor *p = cb;
 	int depth = 0;
 	while (p) {
 	visit:
 		visitor(p, depth, context);
 		if (p->first_child) {
 			p = p->first_child;
 			depth++;
 		}
 		else {
 			// Empty indefinite
 #ifdef CN_INCLUDE_DUMPER
 			breaker(p, depth, context);
 #else
 			if (is_indefinite(p)) {
 				breaker(p, depth, context);
 			}
 #endif
 			if (p->next) {
 				p = p->next;
 			}
 			else {
 				while (p->parent) {
 					depth--;
 #ifdef CN_INCLUDE_DUMPER
 					breaker(p->parent, depth, context);
 #else
 					if (is_indefinite(p->parent)) {
 						breaker(p->parent, depth, context);
 					}
 #endif
 					if (p->parent->next) {
 						p = p->parent->next;
 						goto visit;
 					}
 					p = p->parent;
 				}
 				return;
 			}
 		}
 	}
 }

 #define CHECK(st)         \
 	(st);                 \
 	if (ws->offset < 0) { \
 		return;           \
 	}

 void _encoder_visitor(const cn_cbor *cb, int depth, void *context)
 {
 	cn_write_state *ws = context;
 	UNUSED_PARAM(depth);

 	switch (cb->type) {
 		case CN_CBOR_ARRAY:
 			if (is_indefinite(cb)) {
 				write_byte_ensured(IB_ARRAY | AI_INDEF);
 			}
 			else {
 				CHECK(_write_positive(ws, CN_CBOR_ARRAY, cb->length));
 			}
 			break;
 		case CN_CBOR_MAP:
 			if (is_indefinite(cb)) {
 				write_byte_ensured(IB_MAP | AI_INDEF);
 			}
 			else {
 				CHECK(_write_positive(ws, CN_CBOR_MAP, cb->length / 2));
 			}
 			break;
 		case CN_CBOR_BYTES_CHUNKED:
 		case CN_CBOR_TEXT_CHUNKED:
 			write_byte_ensured(_xlate[cb->type] | AI_INDEF);
 			break;

 		case CN_CBOR_TEXT:
 		case CN_CBOR_BYTES:
 			CHECK(_write_positive(ws, cb->type, cb->length));
 			ensure_writable(cb->length);
 			if (ws->buf) {
 				memcpy(ws->buf + ws->offset, cb->v.str, cb->length);
 			}
 			ws->offset += cb->length;
 			break;

 		case CN_CBOR_FALSE:
 		case CN_CBOR_TRUE:
 		case CN_CBOR_NULL:
 		case CN_CBOR_UNDEF:
 			write_byte_ensured(_xlate[cb->type]);
 			break;

 		case CN_CBOR_TAG:
 		case CN_CBOR_UINT:
 		case CN_CBOR_SIMPLE:
 			CHECK(_write_positive(ws, cb->type, cb->v.uint));
 			break;

 		case CN_CBOR_INT:
 			assert(cb->v.sint < 0);
 			CHECK(_write_positive(ws, CN_CBOR_INT, ~(cb->v.sint)));
 			break;

 #ifndef CBOR_NO_FLOAT
 		case CN_CBOR_DOUBLE:
 			CHECK(_write_double(ws, cb->v.dbl));
 			break;

 		case CN_CBOR_FLOAT:
 			CHECK(_write_double(ws, cb->v.f));
 #endif /* CBOR_NO_FLOAT */
 			break;

 		case CN_CBOR_INVALID:
 			ws->offset = -1;
 			break;
 	}
 }

 void _encoder_breaker(const cn_cbor *cb, int depth, void *context)
 {
 	cn_write_state *ws = context;
 	UNUSED_PARAM(cb);
 	UNUSED_PARAM(depth);
 #ifdef CN_INCLUDE_DUMPER
 	if (is_indefinite(cb)) {
 #endif
 		write_byte_ensured(IB_BREAK);
 #ifdef CN_INCLUDE_DUMPER
 	}
 #endif
 }

 ssize_t cn_cbor_encoder_write(uint8_t *buf, size_t buf_offset, size_t buf_size, const cn_cbor *cb)
 {
 	cn_write_state ws = {buf, buf_offset, buf_size};
 	if (!ws.buf && ws.size <= 0) {
 		ws.size = (ssize_t)(((size_t)-1) / 2);
 	}
 	_visit(cb, _encoder_visitor, _encoder_breaker, &ws);
 	if (ws.offset < 0) {
 		return -1;
 	}
 	return ws.offset - buf_offset;
 }

 #ifdef __cplusplus
 }
 #endif

 #endif /* CN_CBOR_C */
	#ifndef CN_ENCODER_C
	#define CN_ENCODER_C

	#ifdef __cplusplus
	extern "C" {
	#endif
	#ifdef EMACS_INDENTATION_HELPER
	} /* Duh. */
	#endif

	#ifdef _MSC_VER
	#include <WinSock2.h>
	#define inline _inline
	#else
	#ifndef __MBED__
	#include <arpa/inet.h>
	#endif
	#endif
	#include <string.h>
	#ifndef _MSC_VER
	#ifndef __MBED__
	#include <strings.h>
	#endif
	#endif
	#include <stdbool.h>
	#include <assert.h>

	#include "dll-export.h"
	#include "cn-cbor/cn-cbor.h"
	#include "cbor.h"

	#define hton8p(p) ((uint8_t )(p))
	#define hton16p(p) (htons((uint16_t )(p)))
	#define hton32p(p) (htonl((uint32_t )(p)))
	static uint64_t hton64p(const uint8_t *p)
	{
	/* TODO: does this work on both BE and LE systems? */
	uint64_t ret = hton32p(p);
	ret <<= 32;
	ret \|= hton32p(p + 4);
	return ret;
	}

	typedef struct _write_state {
	uint8_t *buf;
	ssize_t offset;
	ssize_t size;
	} cn_write_state;

	#define ensure_writable(sz) \
	if ((ws->buf != NULL) && ((ws->offset < 0) \|\| (ws->offset + (sz) > ws->size))) { \
	ws->offset = -1; \
	return; \
	}

	#define write_byte_and_data(b, data, sz) \
	if (ws->buf) { \
	ws->buf[ws->offset++] = (b); \
	memcpy(ws->buf + ws->offset, (data), (sz)); \
	} \
	else { \
	ws->offset++; \
	} \
	ws->offset += sz;

	#define write_byte(b) \
	if (ws->buf) { \
	ws->buf[ws->offset++] = (b); \
	} \
	else { \
	ws->offset++; \
	}

	#define write_byte_ensured(b) \
	ensure_writable(1); \
	write_byte(b);

	static uint8_t _xlate[] = {
	IB_FALSE, /* CN_CBOR_FALSE */
	IB_TRUE, /* CN_CBOR_TRUE */
	IB_NIL, /* CN_CBOR_NULL */
	IB_UNDEF, /* CN_CBOR_UNDEF */
	IB_UNSIGNED, /* CN_CBOR_UINT */
	IB_NEGATIVE, /* CN_CBOR_INT */
	IB_BYTES, /* CN_CBOR_BYTES */
	IB_TEXT, /* CN_CBOR_TEXT */
	IB_BYTES, /* CN_CBOR_BYTES_CHUNKED */
	IB_TEXT, /* CN_CBOR_TEXT_CHUNKED */
	IB_ARRAY, /* CN_CBOR_ARRAY */
	IB_MAP, /* CN_CBOR_MAP */
	IB_TAG, /* CN_CBOR_TAG */
	IB_PRIM, /* CN_CBOR_SIMPLE */
	0xFF, /* CN_CBOR_DOUBLE */
	0xFF /* CN_CBOR_INVALID */
	};

	static inline bool is_indefinite(const cn_cbor *cb)
	{
	return (cb->flags & CN_CBOR_FL_INDEF) != 0;
	}

	static void _write_positive(cn_write_state *ws, cn_cbor_type typ, uint64_t val)
	{
	uint8_t ib;

	assert((size_t)typ < sizeof(_xlate));

	ib = _xlate[typ];
	if (ib == 0xFF) {
	ws->offset = -1;
	return;
	}

	if (val < 24) {
	ensure_writable(1);
	write_byte(ib \| (uint8_t)val);
	}
	else if (val < 256) {
	ensure_writable(2);
	write_byte(ib \| 24);
	write_byte((uint8_t)val);
	}
	else if (val < 65536) {
	uint16_t be16 = (uint16_t)val;
	ensure_writable(3);
	be16 = hton16p(&be16);
	write_byte_and_data(ib \| 25, (const void *)&be16, 2);
	}
	else if (val < 0x100000000L) {
	uint32_t be32 = (uint32_t)val;
	ensure_writable(5);
	// be32 = hton32p(&be32);
	be32 = htonl(be32);
	write_byte_and_data(ib \| 26, (const void *)&be32, 4);
	}
	else {
	uint64_t be64;
	ensure_writable(9);
	be64 = hton64p((const uint8_t *)&val);
	write_byte_and_data(ib \| 27, (const void *)&be64, 8);
	}
	}

	#ifndef CBOR_NO_FLOAT
	static void _write_double(cn_write_state *ws, double val)
	{
	float float_val = val;
	if (float_val == val) { /* 32 bits is enough and we aren't NaN */
	uint32_t be32;
	uint16_t be16, u16;
	union {
	float f;
	uint32_t u;
	} u32;
	u32.f = float_val;
	if ((u32.u & 0x1FFF) == 0) { /* worth trying half */
	int s16 = (u32.u >> 16) & 0x8000;
	int exp = (u32.u >> 23) & 0xff;
	int mant = u32.u & 0x7fffff;
	if (exp == 0 && mant == 0)
	; /* 0.0, -0.0 */
	else if (exp >= 113 && exp <= 142) /* normalized */
	s16 += ((exp - 112) << 10) + (mant >> 13);
	else if (exp >= 103 && exp < 113) { /* denorm, exp16 = 0 */
	if (mant & ((1 << (126 - exp)) - 1))
	goto float32; /* loss of precision */
	s16 += ((mant + 0x800000) >> (126 - exp));
	}
	else if (exp == 255 && mant == 0) { /* Inf */
	s16 += 0x7c00;
	}
	else
	goto float32; /* loss of range */

	ensure_writable(3);
	u16 = s16;
	be16 = hton16p((const uint8_t *)&u16);

	write_byte_and_data(IB_PRIM \| 25, (const void *)&be16, 2);
	return;
	}
	float32:
	ensure_writable(5);
	be32 = hton32p((const uint8_t *)&u32.u);

	write_byte_and_data(IB_PRIM \| 26, (const void *)&be32, 4);
	}
	else if (val != val) { /* NaN -- we always write a half NaN*/
	ensure_writable(3);
	write_byte_and_data(IB_PRIM \| 25, (const void *)"\x7e\x00", 2);
	}
	else {
	uint64_t be64;
	/* Copy the same problematic implementation from the decoder. */
	union {
	double d;
	uint64_t u;
	} u64;

	u64.d = val;

	ensure_writable(9);
	be64 = hton64p((const uint8_t *)&u64.u);

	write_byte_and_data(IB_PRIM \| 27, (const void *)&be64, 8);
	}
	}
	#endif /* CBOR_NO_FLOAT */

	// TODO: make public?
	typedef void (cn_visit_func)(const cn_cbor cb, int depth, void *context);
	void _visit(const cn_cbor cb, cn_visit_func visitor, cn_visit_func breaker, void context)
	{
	const cn_cbor *p = cb;
	int depth = 0;
	while (p) {
	visit:
	visitor(p, depth, context);
	if (p->first_child) {
	p = p->first_child;
	depth++;
	}
	else {
	// Empty indefinite
	#ifdef CN_INCLUDE_DUMPER
	breaker(p, depth, context);
	#else
	if (is_indefinite(p)) {
	breaker(p, depth, context);
	}
	#endif
	if (p->next) {
	p = p->next;
	}
	else {
	while (p->parent) {
	depth--;
	#ifdef CN_INCLUDE_DUMPER
	breaker(p->parent, depth, context);
	#else
	if (is_indefinite(p->parent)) {
	breaker(p->parent, depth, context);
	}
	#endif
	if (p->parent->next) {
	p = p->parent->next;
	goto visit;
	}
	p = p->parent;
	}
	return;
	}
	}
	}
	}

	#define CHECK(st) \
	(st); \
	if (ws->offset < 0) { \
	return; \
	}

	void _encoder_visitor(const cn_cbor cb, int depth, void context)
	{
	cn_write_state *ws = context;
	UNUSED_PARAM(depth);

	switch (cb->type) {
	case CN_CBOR_ARRAY:
	if (is_indefinite(cb)) {
	write_byte_ensured(IB_ARRAY \| AI_INDEF);
	}
	else {
	CHECK(_write_positive(ws, CN_CBOR_ARRAY, cb->length));
	}
	break;
	case CN_CBOR_MAP:
	if (is_indefinite(cb)) {
	write_byte_ensured(IB_MAP \| AI_INDEF);
	}
	else {
	CHECK(_write_positive(ws, CN_CBOR_MAP, cb->length / 2));
	}
	break;
	case CN_CBOR_BYTES_CHUNKED:
	case CN_CBOR_TEXT_CHUNKED:
	write_byte_ensured(_xlate[cb->type] \| AI_INDEF);
	break;

	case CN_CBOR_TEXT:
	case CN_CBOR_BYTES:
	CHECK(_write_positive(ws, cb->type, cb->length));
	ensure_writable(cb->length);
	if (ws->buf) {
	memcpy(ws->buf + ws->offset, cb->v.str, cb->length);
	}
	ws->offset += cb->length;
	break;

	case CN_CBOR_FALSE:
	case CN_CBOR_TRUE:
	case CN_CBOR_NULL:
	case CN_CBOR_UNDEF:
	write_byte_ensured(_xlate[cb->type]);
	break;

	case CN_CBOR_TAG:
	case CN_CBOR_UINT:
	case CN_CBOR_SIMPLE:
	CHECK(_write_positive(ws, cb->type, cb->v.uint));
	break;

	case CN_CBOR_INT:
	assert(cb->v.sint < 0);
	CHECK(_write_positive(ws, CN_CBOR_INT, ~(cb->v.sint)));
	break;

	#ifndef CBOR_NO_FLOAT
	case CN_CBOR_DOUBLE:
	CHECK(_write_double(ws, cb->v.dbl));
	break;

	case CN_CBOR_FLOAT:
	CHECK(_write_double(ws, cb->v.f));
	#endif /* CBOR_NO_FLOAT */
	break;

	case CN_CBOR_INVALID:
	ws->offset = -1;
	break;
	}
	}

	void _encoder_breaker(const cn_cbor cb, int depth, void context)
	{
	cn_write_state *ws = context;
	UNUSED_PARAM(cb);
	UNUSED_PARAM(depth);
	#ifdef CN_INCLUDE_DUMPER
	if (is_indefinite(cb)) {
	#endif
	write_byte_ensured(IB_BREAK);
	#ifdef CN_INCLUDE_DUMPER
	}
	#endif
	}

	ssize_t cn_cbor_encoder_write(uint8_t buf, size_t buf_offset, size_t buf_size, const cn_cbor cb)
	{
	cn_write_state ws = {buf, buf_offset, buf_size};
	if (!ws.buf && ws.size <= 0) {
	ws.size = (ssize_t)(((size_t)-1) / 2);
	}
	_visit(cb, _encoder_visitor, _encoder_breaker, &ws);
	if (ws.offset < 0) {
	return -1;
	}
	return ws.offset - buf_offset;
	}

	#ifdef __cplusplus
	}
	#endif

	#endif /* CN_CBOR_C */