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/. --- stream/upb_decoder.c | 577 +++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 577 insertions(+) create mode 100644 stream/upb_decoder.c (limited to 'stream/upb_decoder.c') diff --git a/stream/upb_decoder.c b/stream/upb_decoder.c new file mode 100644 index 0000000..e3fdc49 --- /dev/null +++ b/stream/upb_decoder.c @@ -0,0 +1,577 @@ +/* + * upb - a minimalist implementation of protocol buffers. + * + * Copyright (c) 2008-2009 Joshua Haberman. See LICENSE for details. + */ + +#include "upb_decoder.h" + +#include +#include +#include + +#define UPB_GROUP_END_OFFSET UINT32_MAX + +// Returns true if the give wire type and field type combination is valid, +// taking into account both packed and non-packed encodings. +static bool upb_check_type(upb_wire_type_t wt, upb_field_type_t ft) { + return (1 << wt) & upb_types[ft].allowed_wire_types; +} + +// Performs zig-zag decoding, which is used by sint32 and sint64. +static int32_t upb_zzdec_32(uint32_t n) { return (n >> 1) ^ -(int32_t)(n & 1); } +static int64_t upb_zzdec_64(uint64_t n) { return (n >> 1) ^ -(int64_t)(n & 1); } + + +/* upb_decoder ****************************************************************/ + +// The decoder keeps a stack with one entry per level of recursion. +// upb_decoder_frame is one frame of that stack. +typedef struct { + upb_msgdef *msgdef; + upb_fielddef *field; + upb_strlen_t end_offset; // For groups, -1. +} upb_decoder_frame; + +struct upb_decoder { + upb_src src; // upb_decoder is a upb_src. + + upb_msgdef *toplevel_msgdef; + upb_bytesrc *bytesrc; + + // The buffer of input data. NULL is equivalent to the empty string. + upb_string *buf; + + // Holds residual bytes when fewer than UPB_MAX_ENCODED_SIZE bytes remain. + uint8_t tmpbuf[UPB_MAX_ENCODED_SIZE]; + + // The number of bytes we have yet to consume from "buf" or tmpbuf. This is + // always >= 0 unless we were just reset or are eof. + int32_t buf_bytesleft; + + // The offset within "buf" from where we are currently reading. This can be + // <0 if we are reading some residual bytes from the previous buffer, which + // are stored in tmpbuf and combined with bytes from "buf". + int32_t buf_offset; + + // The overall stream offset of the beginning of "buf". + uint32_t buf_stream_offset; + + // Fielddef for the key we just read. + upb_fielddef *field; + + // Wire type of the key we just read. + upb_wire_type_t wire_type; + + // Delimited length of the string field we are reading. + upb_strlen_t delimited_len; + + upb_strlen_t packed_end_offset; + + // We keep a stack of messages we have recursed into. + upb_decoder_frame *top, *limit, stack[UPB_MAX_NESTING]; +}; + + +/* upb_decoder buffering. *****************************************************/ + +static upb_strlen_t upb_decoder_offset(upb_decoder *d) +{ + return d->buf_stream_offset - d->buf_offset; +} + +static bool upb_decoder_nextbuf(upb_decoder *d) +{ + assert(d->buf_bytesleft < UPB_MAX_ENCODED_SIZE); + + // Copy residual bytes to temporary buffer. + if(d->buf_bytesleft > 0) { + memcpy(d->tmpbuf, upb_string_getrobuf(d->buf) + d->buf_offset, + d->buf_bytesleft); + } + + // Recycle old buffer. + if(d->buf) { + d->buf = upb_string_tryrecycle(d->buf); + d->buf_offset -= upb_string_len(d->buf); + d->buf_stream_offset += upb_string_len(d->buf); + } + + // Pull next buffer. + if(upb_bytesrc_get(d->bytesrc, d->buf, UPB_MAX_ENCODED_SIZE)) { + d->buf_bytesleft += upb_string_len(d->buf); + return true; + } else { + // Error or EOF. + if(!upb_bytesrc_eof(d->bytesrc)) { + // Error from bytesrc. + upb_copyerr(&d->src.status, upb_bytesrc_status(d->bytesrc)); + return false; + } else if(d->buf_bytesleft == 0) { + // EOF from bytesrc and we don't have any residual bytes left. + d->src.eof = true; + return false; + } else { + // No more data left from the bytesrc, but we still have residual bytes. + return true; + } + } +} + +static const uint8_t *upb_decoder_getbuf_full(upb_decoder *d, uint32_t *bytes) +{ + if(d->buf_bytesleft < UPB_MAX_ENCODED_SIZE) { + // GCC is currently complaining about use of an uninitialized value if we + // don't set this now. I think this is incorrect, but leaving this in + // to suppress the warning for now. + *bytes = 0; + if(!upb_decoder_nextbuf(d)) return NULL; + } + + assert(d->buf_bytesleft >= UPB_MAX_ENCODED_SIZE); + + if(d->buf_offset >= 0) { + // Common case: the main buffer contains at least UPB_MAX_ENCODED_SIZE + // contiguous bytes, so we can read directly out of it. + *bytes = d->buf_bytesleft; + return (uint8_t*)upb_string_getrobuf(d->buf) + d->buf_offset; + } else { + // We need to accumulate UPB_MAX_ENCODED_SIZE bytes; len is how many we + // have so far. + upb_strlen_t len = -d->buf_offset; + if(d->buf) { + upb_strlen_t to_copy = + UPB_MIN(UPB_MAX_ENCODED_SIZE - len, upb_string_len(d->buf)); + memcpy(d->tmpbuf + len, upb_string_getrobuf(d->buf), to_copy); + len += to_copy; + } + // Pad the buffer out to UPB_MAX_ENCODED_SIZE. + memset(d->tmpbuf + len, 0x80, UPB_MAX_ENCODED_SIZE - len); + *bytes = len; + return d->tmpbuf; + } +} + +// Returns a pointer to a buffer of data that is at least UPB_MAX_ENCODED_SIZE +// bytes long. This buffer contains the next bytes in the stream (even if +// those bytes span multiple buffers). *bytes is set to the number of actual +// stream bytes that are available in the returned buffer. If +// *bytes < UPB_MAX_ENCODED_SIZE, the buffer is padded with 0x80 bytes. +// +// After the data has been read, upb_decoder_consume() should be called to +// indicate how many bytes were consumed. +static const uint8_t *upb_decoder_getbuf(upb_decoder *d, uint32_t *bytes) +{ + if(d->buf_bytesleft >= UPB_MAX_ENCODED_SIZE && d->buf_offset >= 0) { + // Common case: the main buffer contains at least UPB_MAX_ENCODED_SIZE + // contiguous bytes, so we can read directly out of it. + *bytes = d->buf_bytesleft; + return (uint8_t*)upb_string_getrobuf(d->buf) + d->buf_offset; + } else { + return upb_decoder_getbuf_full(d, bytes); + } +} + +static bool upb_decoder_consume(upb_decoder *d, uint32_t bytes) +{ + assert(bytes <= UPB_MAX_ENCODED_SIZE); + d->buf_offset += bytes; + d->buf_bytesleft -= bytes; + if(d->buf_offset < 0) { + // We still have residual bytes we have not consumed. + memmove(d->tmpbuf, d->tmpbuf + bytes, -d->buf_offset); + } + assert(d->buf_bytesleft >= 0); + return true; +} + +static bool upb_decoder_skipbytes(upb_decoder *d, int32_t bytes) +{ + d->buf_offset += bytes; + d->buf_bytesleft -= bytes; + while(d->buf_bytesleft < 0) { + if(!upb_decoder_nextbuf(d)) return false; + } + return true; +} + + +/* Functions to read wire values. *********************************************/ + +// Parses remining bytes of a 64-bit varint that has already had its first byte +// parsed. +INLINE bool upb_decoder_readv64(upb_decoder *d, uint32_t *low, uint32_t *high) +{ + upb_strlen_t bytes_available; + const uint8_t *buf = upb_decoder_getbuf(d, &bytes_available); + const uint8_t *start = buf; + if(!buf) return false; + + *high = 0; + uint32_t b; + b = *(buf++); *low = (b & 0x7f) ; if(!(b & 0x80)) goto done; + b = *(buf++); *low |= (b & 0x7f) << 7; if(!(b & 0x80)) goto done; + b = *(buf++); *low |= (b & 0x7f) << 14; if(!(b & 0x80)) goto done; + b = *(buf++); *low |= (b & 0x7f) << 21; if(!(b & 0x80)) goto done; + b = *(buf++); *low |= (b & 0x7f) << 28; + *high = (b & 0x7f) >> 3; if(!(b & 0x80)) goto done; + b = *(buf++); *high |= (b & 0x7f) << 4; if(!(b & 0x80)) goto done; + b = *(buf++); *high |= (b & 0x7f) << 11; if(!(b & 0x80)) goto done; + b = *(buf++); *high |= (b & 0x7f) << 18; if(!(b & 0x80)) goto done; + b = *(buf++); *high |= (b & 0x7f) << 25; if(!(b & 0x80)) goto done; + + if(bytes_available >= 10) { + upb_seterr(&d->src.status, UPB_STATUS_ERROR, "Varint was unterminated " + "after 10 bytes, stream offset: %u", upb_decoder_offset(d)); + } else { + upb_seterr(&d->src.status, UPB_STATUS_ERROR, "Stream ended in the middle " + "of a varint, stream offset: %u", upb_decoder_offset(d)); + } + return false; + +done: + return upb_decoder_consume(d, buf - start); +} + +// Gets a varint -- called when we only need 32 bits of it. Note that a 32-bit +// varint is not a true wire type. +static bool upb_decoder_readv32(upb_decoder *d, uint32_t *val) +{ + uint32_t high; + if(!upb_decoder_readv64(d, val, &high)) return false; + + // We expect the high bits to be zero, except that signed 32-bit values are + // first sign-extended to be wire-compatible with 64 bits, in which case we + // expect the high bits to be all one. + // + // We could perform a slightly more sophisticated check by having the caller + // indicate whether a signed or unsigned value is being read. We could check + // that the high bits are all zeros for unsigned, and properly sign-extended + // for signed. + if(high != 0 && ~high != 0) { + upb_seterr(&d->src.status, UPB_STATUS_ERROR, "Read a 32-bit varint, but " + "the high bits contained data we should not truncate: " + "%ux, stream offset: %u", high, upb_decoder_offset(d)); + return false; + } + return true; +} + +// Gets a fixed-length 32-bit integer (wire type: UPB_WIRE_TYPE_32BIT). Caller +// promises that 4 bytes are available at buf. +static bool upb_decoder_readf32(upb_decoder *d, uint32_t *val) +{ + upb_strlen_t bytes_available; + const uint8_t *buf = upb_decoder_getbuf(d, &bytes_available); + if(!buf) return false; + if(bytes_available < 4) { + upb_seterr(&d->src.status, UPB_STATUS_ERROR, + "Stream ended in the middle of a 32-bit value"); + return false; + } + memcpy(val, buf, 4); + // TODO: byte swap if big-endian. + return upb_decoder_consume(d, 4); +} + +// Gets a fixed-length 64-bit integer (wire type: UPB_WIRE_TYPE_64BIT). Caller +// promises that 8 bytes are available at buf. +static bool upb_decoder_readf64(upb_decoder *d, uint64_t *val) +{ + upb_strlen_t bytes_available; + const uint8_t *buf = upb_decoder_getbuf(d, &bytes_available); + if(!buf) return false; + if(bytes_available < 8) { + upb_seterr(&d->src.status, UPB_STATUS_ERROR, + "Stream ended in the middle of a 64-bit value"); + return false; + } + memcpy(val, buf, 8); + // TODO: byte swap if big-endian. + return upb_decoder_consume(d, 8); +} + +// Returns the length of a varint (wire type: UPB_WIRE_TYPE_VARINT), allowing +// it to be easily skipped. Caller promises that 10 bytes are available at +// "buf". The function will return a maximum of 11 bytes before quitting. +static uint8_t upb_decoder_skipv64(upb_decoder *d) +{ + uint32_t bytes_available; + const uint8_t *buf = upb_decoder_getbuf(d, &bytes_available); + if(!buf) return false; + uint8_t i; + for(i = 0; i < 10 && buf[i] & 0x80; i++) + ; // empty loop body. + if(i > 10) { + upb_seterr(&d->src.status, UPB_STATUS_ERROR, "Unterminated varint."); + return false; + } + return upb_decoder_consume(d, i); +} + + +/* upb_src implementation for upb_decoder. ************************************/ + +bool upb_decoder_skipval(upb_decoder *d); + +upb_fielddef *upb_decoder_getdef(upb_decoder *d) +{ + // Detect end-of-submessage. + if(upb_decoder_offset(d) >= d->top->end_offset) { + d->src.eof = true; + return NULL; + } + + // Handles the packed field case. + if(d->field) return d->field; + + uint32_t key = 0; +again: + if(!upb_decoder_readv32(d, &key)) return NULL; + upb_wire_type_t wire_type = key & 0x7; + int32_t field_number = key >> 3; + + if(wire_type == UPB_WIRE_TYPE_DELIMITED) { + // For delimited wire values we parse the length now, since we need it in + // all cases. + if(!upb_decoder_readv32(d, &d->delimited_len)) return NULL; + } else if(wire_type == UPB_WIRE_TYPE_END_GROUP) { + if(d->top->end_offset == UPB_GROUP_END_OFFSET) { + d->src.eof = true; + } else { + upb_seterr(&d->src.status, UPB_STATUS_ERROR, "End group seen but current " + "message is not a group, byte offset: %zd", + upb_decoder_offset(d)); + } + return NULL; + } + + // Look up field by tag number. + upb_fielddef *f = upb_msg_itof(d->top->msgdef, field_number); + + if (!f) { + // Unknown field. If/when the upb_src interface supports reporting + // unknown fields we will implement that here. + upb_decoder_skipval(d); + goto again; + } else if (!upb_check_type(wire_type, f->type)) { + // This is a recoverable error condition. We skip the value but also + // return NULL and report the error. + upb_decoder_skipval(d); + // TODO: better error message. + upb_seterr(&d->src.status, UPB_STATUS_ERROR, "Incorrect wire type.\n"); + return NULL; + } + d->field = f; + d->wire_type = wire_type; + return f; +} + +bool upb_decoder_getval(upb_decoder *d, upb_valueptr val) +{ + switch(upb_types[d->field->type].native_wire_type) { + case UPB_WIRE_TYPE_VARINT: { + uint32_t low, high; + if(!upb_decoder_readv64(d, &low, &high)) return false; + uint64_t u64 = ((uint64_t)high << 32) | low; + if(d->field->type == UPB_TYPE(SINT64)) + *val.int64 = upb_zzdec_64(u64); + else + *val.uint64 = u64; + break; + } + case UPB_WIRE_TYPE_32BIT_VARINT: { + uint32_t u32; + if(!upb_decoder_readv32(d, &u32)) return false; + if(d->field->type == UPB_TYPE(SINT32)) + *val.int32 = upb_zzdec_32(u32); + else + *val.uint32 = u32; + break; + } + case UPB_WIRE_TYPE_64BIT: + if(!upb_decoder_readf64(d, val.uint64)) return false; + break; + case UPB_WIRE_TYPE_32BIT: + if(!upb_decoder_readf32(d, val.uint32)) return false; + break; + default: + upb_seterr(&d->src.status, UPB_STATUS_ERROR, + "Attempted to call getval on a group."); + return false; + } + // For a packed field where we have not reached the end, we leave the field + // in the decoder so we will return it again without parsing a key. + if(d->wire_type != UPB_WIRE_TYPE_DELIMITED || + upb_decoder_offset(d) >= d->packed_end_offset) { + d->field = NULL; + } + return true; +} + +bool upb_decoder_getstr(upb_decoder *d, upb_string *str) { + // A string, bytes, or a length-delimited submessage. The latter isn't + // technically a string, but can be gotten as one to perform lazy parsing. + const int32_t total_len = d->delimited_len; + if (d->buf_offset >= 0 && (int32_t)total_len <= d->buf_bytesleft) { + // The entire string is inside our current buffer, so we can just + // return a substring of the buffer without copying. + upb_string_substr(str, d->buf, + upb_string_len(d->buf) - d->buf_bytesleft, + total_len); + upb_decoder_skipbytes(d, total_len); + } else { + // The string spans buffers, so we must copy from the residual buffer + // (if any bytes are there), then the buffer, and finally from the bytesrc. + uint8_t *ptr = (uint8_t*)upb_string_getrwbuf( + str, UPB_MIN(total_len, d->buf_bytesleft)); + int32_t len = 0; + if(d->buf_offset < 0) { + // Residual bytes we need to copy from tmpbuf. + memcpy(ptr, d->tmpbuf, -d->buf_offset); + len += -d->buf_offset; + } + if(d->buf) { + // Bytes from the buffer. + memcpy(ptr + len, upb_string_getrobuf(d->buf) + d->buf_offset, + upb_string_len(str) - len); + } + upb_decoder_skipbytes(d, upb_string_len(str)); + if(len < total_len) { + // Bytes from the bytesrc. + if(!upb_bytesrc_append(d->bytesrc, str, total_len - len)) { + upb_copyerr(&d->src.status, upb_bytesrc_status(d->bytesrc)); + return false; + } + // Have to advance this since the buffering layer of the decoder will + // never see these bytes. + d->buf_stream_offset += total_len - len; + } + } + d->field = NULL; + return true; +} + +static bool upb_decoder_skipgroup(upb_decoder *d); + +bool upb_decoder_startmsg(upb_decoder *d) { + d->top->field = d->field; + if(++d->top >= d->limit) { + upb_seterr(&d->src.status, UPB_ERROR_MAX_NESTING_EXCEEDED, + "Nesting exceeded maximum (%d levels)\n", + UPB_MAX_NESTING); + return false; + } + upb_decoder_frame *frame = d->top; + frame->msgdef = upb_downcast_msgdef(d->field->def); + if(d->field->type == UPB_TYPE(GROUP)) { + frame->end_offset = UPB_GROUP_END_OFFSET; + } else { + frame->end_offset = upb_decoder_offset(d) + d->delimited_len; + } + return true; +} + +bool upb_decoder_endmsg(upb_decoder *d) { + if(d->top > d->stack) { + --d->top; + if(!d->src.eof) { + if(d->top->field->type == UPB_TYPE(GROUP)) + upb_decoder_skipgroup(d); + else + upb_decoder_skipbytes(d, d->top->end_offset - upb_decoder_offset(d)); + } + d->src.eof = false; + return true; + } else { + return false; + } +} + +bool upb_decoder_skipval(upb_decoder *d) { + upb_strlen_t bytes_to_skip; + switch(d->wire_type) { + case UPB_WIRE_TYPE_VARINT: { + return upb_decoder_skipv64(d); + } + case UPB_WIRE_TYPE_START_GROUP: + if(!upb_decoder_startmsg(d)) return false; + if(!upb_decoder_skipgroup(d)) return false; + if(!upb_decoder_endmsg(d)) return false; + return true; + default: + // Including UPB_WIRE_TYPE_END_GROUP. + assert(false); + upb_seterr(&d->src.status, UPB_STATUS_ERROR, "Tried to skip an end group"); + return false; + case UPB_WIRE_TYPE_64BIT: + bytes_to_skip = 8; + break; + case UPB_WIRE_TYPE_32BIT: + bytes_to_skip = 4; + break; + case UPB_WIRE_TYPE_DELIMITED: + // Works for both string/bytes *and* submessages. + bytes_to_skip = d->delimited_len; + break; + } + return upb_decoder_skipbytes(d, bytes_to_skip); +} + +static bool upb_decoder_skipgroup(upb_decoder *d) +{ + // This will be mututally recursive with upb_decoder_skipval() if the group + // has sub-groups. If we wanted to handle EAGAIN in the future, this + // approach would not work; we would need to track the group depth + // explicitly. + while(upb_decoder_getdef(d)) { + if(!upb_decoder_skipval(d)) return false; + } + // If we are at the end of the group like we want to be, then + // upb_decoder_getdef() returned NULL because of eof, not error. + if(!&d->src.eof) return false; + return true; +} + +upb_src_vtable upb_decoder_src_vtbl = { + (upb_src_getdef_fptr)&upb_decoder_getdef, + (upb_src_getval_fptr)&upb_decoder_getval, + (upb_src_skipval_fptr)&upb_decoder_skipval, + (upb_src_startmsg_fptr)&upb_decoder_startmsg, + (upb_src_endmsg_fptr)&upb_decoder_endmsg, +}; + + +/* upb_decoder construction/destruction. **************************************/ + +upb_decoder *upb_decoder_new(upb_msgdef *msgdef) +{ + upb_decoder *d = malloc(sizeof(*d)); + d->toplevel_msgdef = msgdef; + d->limit = &d->stack[UPB_MAX_NESTING]; + d->buf = NULL; + upb_src_init(&d->src, &upb_decoder_src_vtbl); + return d; +} + +void upb_decoder_free(upb_decoder *d) +{ + upb_string_unref(d->buf); + free(d); +} + +void upb_decoder_reset(upb_decoder *d, upb_bytesrc *bytesrc) +{ + upb_string_unref(d->buf); + d->top = d->stack; + d->top->msgdef = d->toplevel_msgdef; + // The top-level message is not delimited (we can keep receiving data for it + // indefinitely), so we set the end offset as high as possible, but not equal + // to UINT32_MAX so it doesn't equal UPB_GROUP_END_OFFSET. + d->top->end_offset = UINT32_MAX - 1; + d->bytesrc = bytesrc; + d->buf = NULL; + d->buf_bytesleft = 0; + d->buf_stream_offset = 0; + d->buf_offset = 0; +} -- cgit v1.2.3