From 28ec9a1fa0f9b1d741920dfa8afc91fa2532c43d Mon Sep 17 00:00:00 2001 From: Joshua Haberman Date: Fri, 9 Jul 2010 20:20:33 -0700 Subject: Split src/ into core/ and stream/. --- src/upb_encoder.c | 420 ------------------------------------------------------ 1 file changed, 420 deletions(-) delete mode 100644 src/upb_encoder.c (limited to 'src/upb_encoder.c') diff --git a/src/upb_encoder.c b/src/upb_encoder.c deleted file mode 100644 index 304a423..0000000 --- a/src/upb_encoder.c +++ /dev/null @@ -1,420 +0,0 @@ -/* - * upb - a minimalist implementation of protocol buffers. - * - * Copyright (c) 2009 Joshua Haberman. See LICENSE for details. - */ - -#include "upb_encoder.h" - -#include -#include "descriptor.h" - -/* Functions for calculating sizes of wire values. ****************************/ - -static size_t upb_v_uint64_t_size(uint64_t val) { -#ifdef __GNUC__ - int high_bit = 63 - __builtin_clzll(val); // 0-based, undef if val == 0. -#else - int high_bit = 0; - uint64_t tmp = val; - while(tmp >>= 1) high_bit++; -#endif - return val == 0 ? 1 : high_bit / 7 + 1; -} - -static size_t upb_v_int32_t_size(int32_t val) { - // v_uint32's are sign-extended to maintain wire compatibility with int64s. - return upb_v_uint64_t_size((int64_t)val); -} -static size_t upb_v_uint32_t_size(uint32_t val) { - return upb_v_uint64_t_size(val); -} -static size_t upb_f_uint64_t_size(uint64_t val) { - (void)val; // Length is independent of value. - return sizeof(uint64_t); -} -static size_t upb_f_uint32_t_size(uint32_t val) { - (void)val; // Length is independent of value. - return sizeof(uint32_t); -} - - -/* Functions to write wire values. ********************************************/ - -// Since we know in advance the longest that the value could be, we always make -// sure that our buffer is long enough. This saves us from having to perform -// bounds checks. - -// Puts a varint (wire type: UPB_WIRE_TYPE_VARINT). -static uint8_t *upb_put_v_uint64_t(uint8_t *buf, uint64_t val) -{ - do { - uint8_t byte = val & 0x7f; - val >>= 7; - if(val) byte |= 0x80; - *buf++ = byte; - } while(val); - return buf; -} - -// Puts an unsigned 32-bit varint, verbatim. Never uses the high 64 bits. -static uint8_t *upb_put_v_uint32_t(uint8_t *buf, uint32_t val) -{ - return upb_put_v_uint64_t(buf, val); -} - -// Puts a signed 32-bit varint, first sign-extending to 64-bits. We do this to -// maintain wire-compatibility with 64-bit signed integers. -static uint8_t *upb_put_v_int32_t(uint8_t *buf, int32_t val) -{ - return upb_put_v_uint64_t(buf, (int64_t)val); -} - -static void upb_put32(uint8_t *buf, uint32_t val) { - buf[0] = val & 0xff; - buf[1] = (val >> 8) & 0xff; - buf[2] = (val >> 16) & 0xff; - buf[3] = (val >> 24); -} - -// Puts a fixed-length 32-bit integer (wire type: UPB_WIRE_TYPE_32BIT). -static uint8_t *upb_put_f_uint32_t(uint8_t *buf, uint32_t val) -{ - uint8_t *uint32_end = buf + sizeof(uint32_t); -#if UPB_UNALIGNED_READS_OK - *(uint32_t*)buf = val; -#else - upb_put32(buf, val); -#endif - return uint32_end; -} - -// Puts a fixed-length 64-bit integer (wire type: UPB_WIRE_TYPE_64BIT). -static uint8_t *upb_put_f_uint64_t(uint8_t *buf, uint64_t val) -{ - uint8_t *uint64_end = buf + sizeof(uint64_t); -#if UPB_UNALIGNED_READS_OK - *(uint64_t*)buf = val; -#else - upb_put32(buf, (uint32_t)val); - upb_put32(buf, (uint32_t)(val >> 32)); -#endif - return uint64_end; -} - -/* Functions to write and calculate sizes for .proto values. ******************/ - -// Performs zig-zag encoding, which is used by sint32 and sint64. -static uint32_t upb_zzenc_32(int32_t n) { return (n << 1) ^ (n >> 31); } -static uint64_t upb_zzenc_64(int64_t n) { return (n << 1) ^ (n >> 63); } - -/* Use macros to define a set of two functions for each .proto type: - * - * // Converts and writes a .proto value into buf. "end" indicates the end - * // of the current available buffer (if the buffer does not contain enough - * // space UPB_STATUS_NEED_MORE_DATA is returned). On success, *outbuf will - * // point one past the data that was written. - * uint8_t *upb_put_INT32(uint8_t *buf, int32_t val); - * - * // Returns the number of bytes required to encode val. - * size_t upb_get_INT32_size(int32_t val); - * - * // Given a .proto value s (source) convert it to a wire value. - * uint32_t upb_vtowv_INT32(int32_t s); - */ - -#define VTOWV(type, wire_t, val_t) \ - static wire_t upb_vtowv_ ## type(val_t s) - -#define PUT(type, v_or_f, wire_t, val_t, member_name) \ - static uint8_t *upb_put_ ## type(uint8_t *buf, val_t val) { \ - wire_t tmp = upb_vtowv_ ## type(val); \ - return upb_put_ ## v_or_f ## _ ## wire_t(buf, tmp); \ - } - -#define T(type, v_or_f, wire_t, val_t, member_name) \ - static size_t upb_get_ ## type ## _size(val_t val) { \ - return upb_ ## v_or_f ## _ ## wire_t ## _size(val); \ - } \ - VTOWV(type, wire_t, val_t); /* prototype for PUT below */ \ - PUT(type, v_or_f, wire_t, val_t, member_name) \ - VTOWV(type, wire_t, val_t) - -T(INT32, v, int32_t, int32_t, int32) { return (uint32_t)s; } -T(INT64, v, uint64_t, int64_t, int64) { return (uint64_t)s; } -T(UINT32, v, uint32_t, uint32_t, uint32) { return s; } -T(UINT64, v, uint64_t, uint64_t, uint64) { return s; } -T(SINT32, v, uint32_t, int32_t, int32) { return upb_zzenc_32(s); } -T(SINT64, v, uint64_t, int64_t, int64) { return upb_zzenc_64(s); } -T(FIXED32, f, uint32_t, uint32_t, uint32) { return s; } -T(FIXED64, f, uint64_t, uint64_t, uint64) { return s; } -T(SFIXED32, f, uint32_t, int32_t, int32) { return (uint32_t)s; } -T(SFIXED64, f, uint64_t, int64_t, int64) { return (uint64_t)s; } -T(BOOL, v, uint32_t, bool, _bool) { return (uint32_t)s; } -T(ENUM, v, uint32_t, int32_t, int32) { return (uint32_t)s; } -T(DOUBLE, f, uint64_t, double, _double) { - upb_value v; - v._double = s; - return v.uint64; -} -T(FLOAT, f, uint32_t, float, _float) { - upb_value v; - v._float = s; - return v.uint32; -} -#undef VTOWV -#undef PUT -#undef T - -static uint8_t *upb_encode_value(uint8_t *buf, upb_field_type_t ft, upb_value v) -{ -#define CASE(t, member_name) \ - case UPB_TYPE(t): return upb_put_ ## t(buf, v.member_name); - switch(ft) { - CASE(DOUBLE, _double) - CASE(FLOAT, _float) - CASE(INT32, int32) - CASE(INT64, int64) - CASE(UINT32, uint32) - CASE(UINT64, uint64) - CASE(SINT32, int32) - CASE(SINT64, int64) - CASE(FIXED32, uint32) - CASE(FIXED64, uint64) - CASE(SFIXED32, int32) - CASE(SFIXED64, int64) - CASE(BOOL, _bool) - CASE(ENUM, int32) - default: assert(false); return buf; - } -#undef CASE -} - -static uint32_t _upb_get_value_size(upb_field_type_t ft, upb_value v) -{ -#define CASE(t, member_name) \ - case UPB_TYPE(t): return upb_get_ ## t ## _size(v.member_name); - switch(ft) { - CASE(DOUBLE, _double) - CASE(FLOAT, _float) - CASE(INT32, int32) - CASE(INT64, int64) - CASE(UINT32, uint32) - CASE(UINT64, uint64) - CASE(SINT32, int32) - CASE(SINT64, int64) - CASE(FIXED32, uint32) - CASE(FIXED64, uint64) - CASE(SFIXED32, int32) - CASE(SFIXED64, int64) - CASE(BOOL, _bool) - CASE(ENUM, int32) - default: assert(false); return 0; - } -#undef CASE -} - -static uint8_t *_upb_put_tag(uint8_t *buf, upb_field_number_t num, - upb_wire_type_t wt) -{ - return upb_put_UINT32(buf, wt | (num << 3)); -} - -static uint32_t _upb_get_tag_size(upb_field_number_t num) -{ - return upb_get_UINT32_size(num << 3); -} - - -/* upb_sizebuilder ************************************************************/ - -struct upb_sizebuilder { - // Accumulating size for the current level. - uint32_t size; - - // Stack of sizes for our current nesting. - uint32_t stack[UPB_MAX_NESTING], *top; - - // Vector of sizes. - uint32_t *sizes; - int sizes_len; - int sizes_size; - - upb_status status; -}; - -// upb_sink callbacks. -static upb_sink_status _upb_sizebuilder_valuecb(upb_sink *sink, upb_fielddef *f, - upb_value val, - upb_status *status) -{ - (void)status; - upb_sizebuilder *sb = (upb_sizebuilder*)sink; - uint32_t size = 0; - size += _upb_get_tag_size(f->number); - size += _upb_get_value_size(f->type, val); - sb->size += size; - return UPB_SINK_CONTINUE; -} - -static upb_sink_status _upb_sizebuilder_strcb(upb_sink *sink, upb_fielddef *f, - upb_strptr str, - int32_t start, uint32_t end, - upb_status *status) -{ - (void)status; - (void)str; // String data itself is not used. - upb_sizebuilder *sb = (upb_sizebuilder*)sink; - if(start >= 0) { - uint32_t size = 0; - size += _upb_get_tag_size(f->number); - size += upb_get_UINT32_size(end - start); - sb->size += size; - } - return UPB_SINK_CONTINUE; -} - -static upb_sink_status _upb_sizebuilder_startcb(upb_sink *sink, upb_fielddef *f, - upb_status *status) -{ - (void)status; - (void)f; // Unused (we calculate tag size and delimiter in endcb). - upb_sizebuilder *sb = (upb_sizebuilder*)sink; - if(f->type == UPB_TYPE(MESSAGE)) { - *sb->top = sb->size; - sb->top++; - sb->size = 0; - } else { - assert(f->type == UPB_TYPE(GROUP)); - sb->size += _upb_get_tag_size(f->number); - } - return UPB_SINK_CONTINUE; -} - -static upb_sink_status _upb_sizebuilder_endcb(upb_sink *sink, upb_fielddef *f, - upb_status *status) -{ - (void)status; - upb_sizebuilder *sb = (upb_sizebuilder*)sink; - if(f->type == UPB_TYPE(MESSAGE)) { - sb->top--; - if(sb->sizes_len == sb->sizes_size) { - sb->sizes_size *= 2; - sb->sizes = realloc(sb->sizes, sb->sizes_size * sizeof(*sb->sizes)); - } - uint32_t child_size = sb->size; - uint32_t parent_size = *sb->top; - sb->sizes[sb->sizes_len++] = child_size; - // The size according to the parent includes the tag size and delimiter of - // the submessage. - parent_size += upb_get_UINT32_size(child_size); - parent_size += _upb_get_tag_size(f->number); - // Include size accumulated in parent before child began. - sb->size = child_size + parent_size; - } else { - assert(f->type == UPB_TYPE(GROUP)); - // As an optimization, we could just add this number twice in startcb, to - // avoid having to recalculate it. - sb->size += _upb_get_tag_size(f->number); - } - return UPB_SINK_CONTINUE; -} - -upb_sink_callbacks _upb_sizebuilder_sink_vtbl = { - _upb_sizebuilder_valuecb, - _upb_sizebuilder_strcb, - _upb_sizebuilder_startcb, - _upb_sizebuilder_endcb -}; - - -/* upb_sink callbacks *********************************************************/ - -struct upb_encoder { - upb_sink base; - //upb_bytesink *bytesink; - uint32_t *sizes; - int size_offset; -}; - - -// Within one callback we may need to encode up to two separate values. -#define UPB_ENCODER_BUFSIZE (UPB_MAX_ENCODED_SIZE * 2) - -static upb_sink_status _upb_encoder_push_buf(upb_encoder *s, const uint8_t *buf, - size_t len, upb_status *status) -{ - // TODO: conjure a upb_strptr that points to buf. - //upb_strptr ptr; - (void)s; - (void)buf; - (void)status; - size_t written = 5;// = upb_bytesink_onbytes(s->bytesink, ptr); - if(written < len) { - // TODO: mark to skip "written" bytes next time. - return UPB_SINK_STOP; - } else { - return UPB_SINK_CONTINUE; - } -} - -static upb_sink_status _upb_encoder_valuecb(upb_sink *sink, upb_fielddef *f, - upb_value val, upb_status *status) -{ - upb_encoder *s = (upb_encoder*)sink; - uint8_t buf[UPB_ENCODER_BUFSIZE], *ptr = buf; - upb_wire_type_t wt = upb_types[f->type].expected_wire_type; - // TODO: handle packed encoding. - ptr = _upb_put_tag(ptr, f->number, wt); - ptr = upb_encode_value(ptr, f->type, val); - return _upb_encoder_push_buf(s, buf, ptr - buf, status); -} - -static upb_sink_status _upb_encoder_strcb(upb_sink *sink, upb_fielddef *f, - upb_strptr str, - int32_t start, uint32_t end, - upb_status *status) -{ - upb_encoder *s = (upb_encoder*)sink; - uint8_t buf[UPB_ENCODER_BUFSIZE], *ptr = buf; - if(start >= 0) { - ptr = _upb_put_tag(ptr, f->number, UPB_WIRE_TYPE_DELIMITED); - ptr = upb_put_UINT32(ptr, end - start); - } - // TODO: properly handle partially consumed strings and partially supplied - // strings. - _upb_encoder_push_buf(s, buf, ptr - buf, status); - return _upb_encoder_push_buf(s, (uint8_t*)upb_string_getrobuf(str), end - start, status); -} - -static upb_sink_status _upb_encoder_startcb(upb_sink *sink, upb_fielddef *f, - upb_status *status) -{ - upb_encoder *s = (upb_encoder*)sink; - uint8_t buf[UPB_ENCODER_BUFSIZE], *ptr = buf; - if(f->type == UPB_TYPE(GROUP)) { - ptr = _upb_put_tag(ptr, f->number, UPB_WIRE_TYPE_START_GROUP); - } else { - ptr = _upb_put_tag(ptr, f->number, UPB_WIRE_TYPE_DELIMITED); - ptr = upb_put_UINT32(ptr, s->sizes[--s->size_offset]); - } - return _upb_encoder_push_buf(s, buf, ptr - buf, status); -} - -static upb_sink_status _upb_encoder_endcb(upb_sink *sink, upb_fielddef *f, - upb_status *status) -{ - upb_encoder *s = (upb_encoder*)sink; - uint8_t buf[UPB_ENCODER_BUFSIZE], *ptr = buf; - if(f->type != UPB_TYPE(GROUP)) return UPB_SINK_CONTINUE; - ptr = _upb_put_tag(ptr, f->number, UPB_WIRE_TYPE_END_GROUP); - return _upb_encoder_push_buf(s, buf, ptr - buf, status); -} - -upb_sink_callbacks _upb_encoder_sink_vtbl = { - _upb_encoder_valuecb, - _upb_encoder_strcb, - _upb_encoder_startcb, - _upb_encoder_endcb -}; - -- cgit v1.2.3