#ifndef CN_ENCODER_C #define CN_ENCODER_C #ifdef __cplusplus extern "C" { #endif #ifdef EMACS_INDENTATION_HELPER } /* Duh. */ #endif #include #include #include #include #include #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->offset<0) || (ws->offset + (sz) >= ws->size)) { \ ws->offset = -1; \ return; \ } #define write_byte_and_data(b, data, sz) \ ws->buf[ws->offset++] = (b); \ memcpy(ws->buf+ws->offset, (data), (sz)); \ ws->offset += sz; #define write_byte(b) \ ws->buf[ws->offset++] = (b); \ #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 | 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); 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); static 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 if (is_indefinite(p)) { breaker(p->parent, depth, context); } if (p->next) { p = p->next; } else { while (p->parent) { depth--; if (is_indefinite(p->parent)) { breaker(p->parent, depth, context); } 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); 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; case CN_CBOR_DOUBLE: #ifndef CBOR_NO_FLOAT CHECK(_write_double(ws, cb->v.dbl)); #endif /* CBOR_NO_FLOAT */ break; case CN_CBOR_FLOAT: #ifndef CBOR_NO_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); write_byte_ensured(IB_BREAK); } 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 }; _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 */