Protocol Buffers - Google's data interchange format (grpc依赖)
https://developers.google.com/protocol-buffers/
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919 lines
28 KiB
919 lines
28 KiB
/* |
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** protobuf decoder bytecode compiler |
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** |
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** Code to compile a upb::Handlers into bytecode for decoding a protobuf |
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** according to that specific schema and destination handlers. |
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** |
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** Bytecode definition is in decoder.int.h. |
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*/ |
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#include <stdarg.h> |
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#include "upb/pb/decoder.int.h" |
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#include "upb/pb/varint.int.h" |
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#ifdef UPB_DUMP_BYTECODE |
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#include <stdio.h> |
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#endif |
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#include "upb/port_def.inc" |
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#define MAXLABEL 5 |
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#define EMPTYLABEL -1 |
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/* upb_pbdecodermethod ********************************************************/ |
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static void freemethod(upb_pbdecodermethod *method) { |
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upb_inttable_uninit(&method->dispatch); |
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upb_gfree(method); |
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} |
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static upb_pbdecodermethod *newmethod(const upb_handlers *dest_handlers, |
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mgroup *group) { |
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upb_pbdecodermethod *ret = upb_gmalloc(sizeof(*ret)); |
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upb_byteshandler_init(&ret->input_handler_); |
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ret->group = group; |
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ret->dest_handlers_ = dest_handlers; |
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upb_inttable_init(&ret->dispatch, UPB_CTYPE_UINT64); |
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return ret; |
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} |
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const upb_handlers *upb_pbdecodermethod_desthandlers( |
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const upb_pbdecodermethod *m) { |
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return m->dest_handlers_; |
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} |
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const upb_byteshandler *upb_pbdecodermethod_inputhandler( |
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const upb_pbdecodermethod *m) { |
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return &m->input_handler_; |
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} |
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bool upb_pbdecodermethod_isnative(const upb_pbdecodermethod *m) { |
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return m->is_native_; |
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} |
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/* mgroup *********************************************************************/ |
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static void freegroup(mgroup *g) { |
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upb_inttable_iter i; |
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upb_inttable_begin(&i, &g->methods); |
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for(; !upb_inttable_done(&i); upb_inttable_next(&i)) { |
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freemethod(upb_value_getptr(upb_inttable_iter_value(&i))); |
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} |
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upb_inttable_uninit(&g->methods); |
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upb_gfree(g->bytecode); |
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upb_gfree(g); |
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} |
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mgroup *newgroup(void) { |
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mgroup *g = upb_gmalloc(sizeof(*g)); |
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upb_inttable_init(&g->methods, UPB_CTYPE_PTR); |
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g->bytecode = NULL; |
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g->bytecode_end = NULL; |
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return g; |
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} |
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/* bytecode compiler **********************************************************/ |
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/* Data used only at compilation time. */ |
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typedef struct { |
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mgroup *group; |
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uint32_t *pc; |
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int fwd_labels[MAXLABEL]; |
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int back_labels[MAXLABEL]; |
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/* For fields marked "lazy", parse them lazily or eagerly? */ |
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bool lazy; |
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} compiler; |
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static compiler *newcompiler(mgroup *group, bool lazy) { |
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compiler *ret = upb_gmalloc(sizeof(*ret)); |
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int i; |
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ret->group = group; |
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ret->lazy = lazy; |
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for (i = 0; i < MAXLABEL; i++) { |
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ret->fwd_labels[i] = EMPTYLABEL; |
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ret->back_labels[i] = EMPTYLABEL; |
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} |
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return ret; |
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} |
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static void freecompiler(compiler *c) { |
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upb_gfree(c); |
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} |
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const size_t ptr_words = sizeof(void*) / sizeof(uint32_t); |
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/* How many words an instruction is. */ |
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static int instruction_len(uint32_t instr) { |
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switch (getop(instr)) { |
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case OP_SETDISPATCH: return 1 + ptr_words; |
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case OP_TAGN: return 3; |
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case OP_SETBIGGROUPNUM: return 2; |
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default: return 1; |
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} |
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} |
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bool op_has_longofs(int32_t instruction) { |
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switch (getop(instruction)) { |
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case OP_CALL: |
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case OP_BRANCH: |
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case OP_CHECKDELIM: |
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return true; |
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/* The "tag" instructions only have 8 bytes available for the jump target, |
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* but that is ok because these opcodes only require short jumps. */ |
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case OP_TAG1: |
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case OP_TAG2: |
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case OP_TAGN: |
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return false; |
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default: |
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UPB_ASSERT(false); |
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return false; |
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} |
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} |
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static int32_t getofs(uint32_t instruction) { |
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if (op_has_longofs(instruction)) { |
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return (int32_t)instruction >> 8; |
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} else { |
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return (int8_t)(instruction >> 8); |
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} |
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} |
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static void setofs(uint32_t *instruction, int32_t ofs) { |
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if (op_has_longofs(*instruction)) { |
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*instruction = getop(*instruction) | (uint32_t)ofs << 8; |
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} else { |
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*instruction = (*instruction & ~0xff00) | ((ofs & 0xff) << 8); |
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} |
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UPB_ASSERT(getofs(*instruction) == ofs); /* Would fail in cases of overflow. */ |
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} |
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static uint32_t pcofs(compiler *c) { return c->pc - c->group->bytecode; } |
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/* Defines a local label at the current PC location. All previous forward |
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* references are updated to point to this location. The location is noted |
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* for any future backward references. */ |
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static void label(compiler *c, unsigned int label) { |
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int val; |
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uint32_t *codep; |
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UPB_ASSERT(label < MAXLABEL); |
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val = c->fwd_labels[label]; |
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codep = (val == EMPTYLABEL) ? NULL : c->group->bytecode + val; |
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while (codep) { |
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int ofs = getofs(*codep); |
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setofs(codep, c->pc - codep - instruction_len(*codep)); |
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codep = ofs ? codep + ofs : NULL; |
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} |
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c->fwd_labels[label] = EMPTYLABEL; |
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c->back_labels[label] = pcofs(c); |
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} |
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/* Creates a reference to a numbered label; either a forward reference |
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* (positive arg) or backward reference (negative arg). For forward references |
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* the value returned now is actually a "next" pointer into a linked list of all |
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* instructions that use this label and will be patched later when the label is |
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* defined with label(). |
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* |
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* The returned value is the offset that should be written into the instruction. |
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*/ |
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static int32_t labelref(compiler *c, int label) { |
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UPB_ASSERT(label < MAXLABEL); |
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if (label == LABEL_DISPATCH) { |
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/* No resolving required. */ |
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return 0; |
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} else if (label < 0) { |
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/* Backward local label. Relative to the next instruction. */ |
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uint32_t from = (c->pc + 1) - c->group->bytecode; |
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return c->back_labels[-label] - from; |
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} else { |
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/* Forward local label: prepend to (possibly-empty) linked list. */ |
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int *lptr = &c->fwd_labels[label]; |
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int32_t ret = (*lptr == EMPTYLABEL) ? 0 : *lptr - pcofs(c); |
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*lptr = pcofs(c); |
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return ret; |
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} |
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} |
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static void put32(compiler *c, uint32_t v) { |
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mgroup *g = c->group; |
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if (c->pc == g->bytecode_end) { |
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int ofs = pcofs(c); |
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size_t oldsize = g->bytecode_end - g->bytecode; |
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size_t newsize = UPB_MAX(oldsize * 2, 64); |
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/* TODO(haberman): handle OOM. */ |
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g->bytecode = upb_grealloc(g->bytecode, oldsize * sizeof(uint32_t), |
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newsize * sizeof(uint32_t)); |
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g->bytecode_end = g->bytecode + newsize; |
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c->pc = g->bytecode + ofs; |
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} |
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*c->pc++ = v; |
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} |
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static void putop(compiler *c, int op, ...) { |
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va_list ap; |
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va_start(ap, op); |
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switch (op) { |
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case OP_SETDISPATCH: { |
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uintptr_t ptr = (uintptr_t)va_arg(ap, void*); |
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put32(c, OP_SETDISPATCH); |
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put32(c, ptr); |
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if (sizeof(uintptr_t) > sizeof(uint32_t)) |
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put32(c, (uint64_t)ptr >> 32); |
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break; |
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} |
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case OP_STARTMSG: |
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case OP_ENDMSG: |
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case OP_PUSHLENDELIM: |
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case OP_POP: |
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case OP_SETDELIM: |
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case OP_HALT: |
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case OP_RET: |
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case OP_DISPATCH: |
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put32(c, op); |
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break; |
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case OP_PARSE_DOUBLE: |
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case OP_PARSE_FLOAT: |
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case OP_PARSE_INT64: |
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case OP_PARSE_UINT64: |
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case OP_PARSE_INT32: |
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case OP_PARSE_FIXED64: |
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case OP_PARSE_FIXED32: |
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case OP_PARSE_BOOL: |
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case OP_PARSE_UINT32: |
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case OP_PARSE_SFIXED32: |
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case OP_PARSE_SFIXED64: |
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case OP_PARSE_SINT32: |
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case OP_PARSE_SINT64: |
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case OP_STARTSEQ: |
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case OP_ENDSEQ: |
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case OP_STARTSUBMSG: |
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case OP_ENDSUBMSG: |
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case OP_STARTSTR: |
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case OP_STRING: |
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case OP_ENDSTR: |
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case OP_PUSHTAGDELIM: |
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put32(c, op | va_arg(ap, upb_selector_t) << 8); |
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break; |
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case OP_SETBIGGROUPNUM: |
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put32(c, op); |
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put32(c, va_arg(ap, int)); |
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break; |
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case OP_CALL: { |
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const upb_pbdecodermethod *method = va_arg(ap, upb_pbdecodermethod *); |
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put32(c, op | (method->code_base.ofs - (pcofs(c) + 1)) << 8); |
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break; |
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} |
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case OP_CHECKDELIM: |
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case OP_BRANCH: { |
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uint32_t instruction = op; |
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int label = va_arg(ap, int); |
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setofs(&instruction, labelref(c, label)); |
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put32(c, instruction); |
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break; |
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} |
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case OP_TAG1: |
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case OP_TAG2: { |
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int label = va_arg(ap, int); |
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uint64_t tag = va_arg(ap, uint64_t); |
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uint32_t instruction = op | (tag << 16); |
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UPB_ASSERT(tag <= 0xffff); |
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setofs(&instruction, labelref(c, label)); |
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put32(c, instruction); |
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break; |
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} |
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case OP_TAGN: { |
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int label = va_arg(ap, int); |
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uint64_t tag = va_arg(ap, uint64_t); |
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uint32_t instruction = op | (upb_value_size(tag) << 16); |
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setofs(&instruction, labelref(c, label)); |
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put32(c, instruction); |
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put32(c, tag); |
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put32(c, tag >> 32); |
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break; |
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} |
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} |
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va_end(ap); |
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} |
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#if defined(UPB_DUMP_BYTECODE) |
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const char *upb_pbdecoder_getopname(unsigned int op) { |
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#define QUOTE(x) #x |
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#define EXPAND_AND_QUOTE(x) QUOTE(x) |
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#define OPNAME(x) OP_##x |
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#define OP(x) case OPNAME(x): return EXPAND_AND_QUOTE(OPNAME(x)); |
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#define T(x) OP(PARSE_##x) |
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/* Keep in sync with list in decoder.int.h. */ |
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switch ((opcode)op) { |
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T(DOUBLE) T(FLOAT) T(INT64) T(UINT64) T(INT32) T(FIXED64) T(FIXED32) |
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T(BOOL) T(UINT32) T(SFIXED32) T(SFIXED64) T(SINT32) T(SINT64) |
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OP(STARTMSG) OP(ENDMSG) OP(STARTSEQ) OP(ENDSEQ) OP(STARTSUBMSG) |
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OP(ENDSUBMSG) OP(STARTSTR) OP(STRING) OP(ENDSTR) OP(CALL) OP(RET) |
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OP(PUSHLENDELIM) OP(PUSHTAGDELIM) OP(SETDELIM) OP(CHECKDELIM) |
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OP(BRANCH) OP(TAG1) OP(TAG2) OP(TAGN) OP(SETDISPATCH) OP(POP) |
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OP(SETBIGGROUPNUM) OP(DISPATCH) OP(HALT) |
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} |
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return "<unknown op>"; |
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#undef OP |
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#undef T |
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} |
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#endif |
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#ifdef UPB_DUMP_BYTECODE |
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static void dumpbc(uint32_t *p, uint32_t *end, FILE *f) { |
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uint32_t *begin = p; |
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while (p < end) { |
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fprintf(f, "%p %8tx", p, p - begin); |
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uint32_t instr = *p++; |
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uint8_t op = getop(instr); |
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fprintf(f, " %s", upb_pbdecoder_getopname(op)); |
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switch ((opcode)op) { |
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case OP_SETDISPATCH: { |
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const upb_inttable *dispatch; |
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memcpy(&dispatch, p, sizeof(void*)); |
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p += ptr_words; |
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const upb_pbdecodermethod *method = |
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(void *)((char *)dispatch - |
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offsetof(upb_pbdecodermethod, dispatch)); |
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fprintf(f, " %s", upb_msgdef_fullname( |
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upb_handlers_msgdef(method->dest_handlers_))); |
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break; |
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} |
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case OP_DISPATCH: |
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case OP_STARTMSG: |
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case OP_ENDMSG: |
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case OP_PUSHLENDELIM: |
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case OP_POP: |
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case OP_SETDELIM: |
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case OP_HALT: |
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case OP_RET: |
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break; |
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case OP_PARSE_DOUBLE: |
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case OP_PARSE_FLOAT: |
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case OP_PARSE_INT64: |
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case OP_PARSE_UINT64: |
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case OP_PARSE_INT32: |
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case OP_PARSE_FIXED64: |
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case OP_PARSE_FIXED32: |
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case OP_PARSE_BOOL: |
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case OP_PARSE_UINT32: |
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case OP_PARSE_SFIXED32: |
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case OP_PARSE_SFIXED64: |
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case OP_PARSE_SINT32: |
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case OP_PARSE_SINT64: |
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case OP_STARTSEQ: |
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case OP_ENDSEQ: |
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case OP_STARTSUBMSG: |
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case OP_ENDSUBMSG: |
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case OP_STARTSTR: |
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case OP_STRING: |
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case OP_ENDSTR: |
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case OP_PUSHTAGDELIM: |
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fprintf(f, " %d", instr >> 8); |
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break; |
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case OP_SETBIGGROUPNUM: |
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fprintf(f, " %d", *p++); |
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break; |
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case OP_CHECKDELIM: |
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case OP_CALL: |
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case OP_BRANCH: |
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fprintf(f, " =>0x%tx", p + getofs(instr) - begin); |
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break; |
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case OP_TAG1: |
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case OP_TAG2: { |
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fprintf(f, " tag:0x%x", instr >> 16); |
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if (getofs(instr)) { |
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fprintf(f, " =>0x%tx", p + getofs(instr) - begin); |
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} |
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break; |
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} |
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case OP_TAGN: { |
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uint64_t tag = *p++; |
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tag |= (uint64_t)*p++ << 32; |
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fprintf(f, " tag:0x%llx", (long long)tag); |
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fprintf(f, " n:%d", instr >> 16); |
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if (getofs(instr)) { |
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fprintf(f, " =>0x%tx", p + getofs(instr) - begin); |
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} |
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break; |
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} |
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} |
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fputs("\n", f); |
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} |
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} |
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#endif |
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static uint64_t get_encoded_tag(const upb_fielddef *f, int wire_type) { |
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uint32_t tag = (upb_fielddef_number(f) << 3) | wire_type; |
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uint64_t encoded_tag = upb_vencode32(tag); |
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/* No tag should be greater than 5 bytes. */ |
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UPB_ASSERT(encoded_tag <= 0xffffffffff); |
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return encoded_tag; |
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} |
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static void putchecktag(compiler *c, const upb_fielddef *f, |
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int wire_type, int dest) { |
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uint64_t tag = get_encoded_tag(f, wire_type); |
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switch (upb_value_size(tag)) { |
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case 1: |
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putop(c, OP_TAG1, dest, tag); |
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break; |
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case 2: |
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putop(c, OP_TAG2, dest, tag); |
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break; |
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default: |
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putop(c, OP_TAGN, dest, tag); |
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break; |
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} |
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} |
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static upb_selector_t getsel(const upb_fielddef *f, upb_handlertype_t type) { |
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upb_selector_t selector; |
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bool ok = upb_handlers_getselector(f, type, &selector); |
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UPB_ASSERT(ok); |
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return selector; |
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} |
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|
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/* Takes an existing, primary dispatch table entry and repacks it with a |
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* different alternate wire type. Called when we are inserting a secondary |
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* dispatch table entry for an alternate wire type. */ |
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static uint64_t repack(uint64_t dispatch, int new_wt2) { |
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uint64_t ofs; |
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uint8_t wt1; |
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uint8_t old_wt2; |
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upb_pbdecoder_unpackdispatch(dispatch, &ofs, &wt1, &old_wt2); |
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UPB_ASSERT(old_wt2 == NO_WIRE_TYPE); /* wt2 should not be set yet. */ |
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return upb_pbdecoder_packdispatch(ofs, wt1, new_wt2); |
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} |
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|
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/* Marks the current bytecode position as the dispatch target for this message, |
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* field, and wire type. */ |
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static void dispatchtarget(compiler *c, upb_pbdecodermethod *method, |
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const upb_fielddef *f, int wire_type) { |
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/* Offset is relative to msg base. */ |
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uint64_t ofs = pcofs(c) - method->code_base.ofs; |
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uint32_t fn = upb_fielddef_number(f); |
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upb_inttable *d = &method->dispatch; |
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upb_value v; |
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if (upb_inttable_remove(d, fn, &v)) { |
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/* TODO: prioritize based on packed setting in .proto file. */ |
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uint64_t repacked = repack(upb_value_getuint64(v), wire_type); |
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upb_inttable_insert(d, fn, upb_value_uint64(repacked)); |
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upb_inttable_insert(d, fn + UPB_MAX_FIELDNUMBER, upb_value_uint64(ofs)); |
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} else { |
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uint64_t val = upb_pbdecoder_packdispatch(ofs, wire_type, NO_WIRE_TYPE); |
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upb_inttable_insert(d, fn, upb_value_uint64(val)); |
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} |
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} |
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|
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static void putpush(compiler *c, const upb_fielddef *f) { |
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if (upb_fielddef_descriptortype(f) == UPB_DESCRIPTOR_TYPE_MESSAGE) { |
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putop(c, OP_PUSHLENDELIM); |
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} else { |
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uint32_t fn = upb_fielddef_number(f); |
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if (fn >= 1 << 24) { |
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putop(c, OP_PUSHTAGDELIM, 0); |
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putop(c, OP_SETBIGGROUPNUM, fn); |
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} else { |
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putop(c, OP_PUSHTAGDELIM, fn); |
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} |
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} |
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} |
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|
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static upb_pbdecodermethod *find_submethod(const compiler *c, |
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const upb_pbdecodermethod *method, |
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const upb_fielddef *f) { |
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const upb_handlers *sub = |
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upb_handlers_getsubhandlers(method->dest_handlers_, f); |
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upb_value v; |
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return upb_inttable_lookupptr(&c->group->methods, sub, &v) |
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? upb_value_getptr(v) |
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: NULL; |
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} |
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|
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static void putsel(compiler *c, opcode op, upb_selector_t sel, |
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const upb_handlers *h) { |
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if (upb_handlers_gethandler(h, sel, NULL)) { |
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putop(c, op, sel); |
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} |
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} |
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|
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/* Puts an opcode to call a callback, but only if a callback actually exists for |
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* this field and handler type. */ |
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static void maybeput(compiler *c, opcode op, const upb_handlers *h, |
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const upb_fielddef *f, upb_handlertype_t type) { |
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putsel(c, op, getsel(f, type), h); |
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} |
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|
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static bool haslazyhandlers(const upb_handlers *h, const upb_fielddef *f) { |
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if (!upb_fielddef_lazy(f)) |
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return false; |
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|
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return upb_handlers_gethandler(h, getsel(f, UPB_HANDLER_STARTSTR), NULL) || |
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upb_handlers_gethandler(h, getsel(f, UPB_HANDLER_STRING), NULL) || |
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upb_handlers_gethandler(h, getsel(f, UPB_HANDLER_ENDSTR), NULL); |
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} |
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|
|
|
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/* bytecode compiler code generation ******************************************/ |
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|
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/* Symbolic names for our local labels. */ |
|
#define LABEL_LOOPSTART 1 /* Top of a repeated field loop. */ |
|
#define LABEL_LOOPBREAK 2 /* To jump out of a repeated loop */ |
|
#define LABEL_FIELD 3 /* Jump backward to find the most recent field. */ |
|
#define LABEL_ENDMSG 4 /* To reach the OP_ENDMSG instr for this msg. */ |
|
|
|
/* Generates bytecode to parse a single non-lazy message field. */ |
|
static void generate_msgfield(compiler *c, const upb_fielddef *f, |
|
upb_pbdecodermethod *method) { |
|
const upb_handlers *h = upb_pbdecodermethod_desthandlers(method); |
|
const upb_pbdecodermethod *sub_m = find_submethod(c, method, f); |
|
int wire_type; |
|
|
|
if (!sub_m) { |
|
/* Don't emit any code for this field at all; it will be parsed as an |
|
* unknown field. |
|
* |
|
* TODO(haberman): we should change this to parse it as a string field |
|
* instead. It will probably be faster, but more importantly, once we |
|
* start vending unknown fields, a field shouldn't be treated as unknown |
|
* just because it doesn't have subhandlers registered. */ |
|
return; |
|
} |
|
|
|
label(c, LABEL_FIELD); |
|
|
|
wire_type = |
|
(upb_fielddef_descriptortype(f) == UPB_DESCRIPTOR_TYPE_MESSAGE) |
|
? UPB_WIRE_TYPE_DELIMITED |
|
: UPB_WIRE_TYPE_START_GROUP; |
|
|
|
if (upb_fielddef_isseq(f)) { |
|
putop(c, OP_CHECKDELIM, LABEL_ENDMSG); |
|
putchecktag(c, f, wire_type, LABEL_DISPATCH); |
|
dispatchtarget(c, method, f, wire_type); |
|
putop(c, OP_PUSHTAGDELIM, 0); |
|
putop(c, OP_STARTSEQ, getsel(f, UPB_HANDLER_STARTSEQ)); |
|
label(c, LABEL_LOOPSTART); |
|
putpush(c, f); |
|
putop(c, OP_STARTSUBMSG, getsel(f, UPB_HANDLER_STARTSUBMSG)); |
|
putop(c, OP_CALL, sub_m); |
|
putop(c, OP_POP); |
|
maybeput(c, OP_ENDSUBMSG, h, f, UPB_HANDLER_ENDSUBMSG); |
|
if (wire_type == UPB_WIRE_TYPE_DELIMITED) { |
|
putop(c, OP_SETDELIM); |
|
} |
|
putop(c, OP_CHECKDELIM, LABEL_LOOPBREAK); |
|
putchecktag(c, f, wire_type, LABEL_LOOPBREAK); |
|
putop(c, OP_BRANCH, -LABEL_LOOPSTART); |
|
label(c, LABEL_LOOPBREAK); |
|
putop(c, OP_POP); |
|
maybeput(c, OP_ENDSEQ, h, f, UPB_HANDLER_ENDSEQ); |
|
} else { |
|
putop(c, OP_CHECKDELIM, LABEL_ENDMSG); |
|
putchecktag(c, f, wire_type, LABEL_DISPATCH); |
|
dispatchtarget(c, method, f, wire_type); |
|
putpush(c, f); |
|
putop(c, OP_STARTSUBMSG, getsel(f, UPB_HANDLER_STARTSUBMSG)); |
|
putop(c, OP_CALL, sub_m); |
|
putop(c, OP_POP); |
|
maybeput(c, OP_ENDSUBMSG, h, f, UPB_HANDLER_ENDSUBMSG); |
|
if (wire_type == UPB_WIRE_TYPE_DELIMITED) { |
|
putop(c, OP_SETDELIM); |
|
} |
|
} |
|
} |
|
|
|
/* Generates bytecode to parse a single string or lazy submessage field. */ |
|
static void generate_delimfield(compiler *c, const upb_fielddef *f, |
|
upb_pbdecodermethod *method) { |
|
const upb_handlers *h = upb_pbdecodermethod_desthandlers(method); |
|
|
|
label(c, LABEL_FIELD); |
|
if (upb_fielddef_isseq(f)) { |
|
putop(c, OP_CHECKDELIM, LABEL_ENDMSG); |
|
putchecktag(c, f, UPB_WIRE_TYPE_DELIMITED, LABEL_DISPATCH); |
|
dispatchtarget(c, method, f, UPB_WIRE_TYPE_DELIMITED); |
|
putop(c, OP_PUSHTAGDELIM, 0); |
|
putop(c, OP_STARTSEQ, getsel(f, UPB_HANDLER_STARTSEQ)); |
|
label(c, LABEL_LOOPSTART); |
|
putop(c, OP_PUSHLENDELIM); |
|
putop(c, OP_STARTSTR, getsel(f, UPB_HANDLER_STARTSTR)); |
|
/* Need to emit even if no handler to skip past the string. */ |
|
putop(c, OP_STRING, getsel(f, UPB_HANDLER_STRING)); |
|
maybeput(c, OP_ENDSTR, h, f, UPB_HANDLER_ENDSTR); |
|
putop(c, OP_POP); |
|
putop(c, OP_SETDELIM); |
|
putop(c, OP_CHECKDELIM, LABEL_LOOPBREAK); |
|
putchecktag(c, f, UPB_WIRE_TYPE_DELIMITED, LABEL_LOOPBREAK); |
|
putop(c, OP_BRANCH, -LABEL_LOOPSTART); |
|
label(c, LABEL_LOOPBREAK); |
|
putop(c, OP_POP); |
|
maybeput(c, OP_ENDSEQ, h, f, UPB_HANDLER_ENDSEQ); |
|
} else { |
|
putop(c, OP_CHECKDELIM, LABEL_ENDMSG); |
|
putchecktag(c, f, UPB_WIRE_TYPE_DELIMITED, LABEL_DISPATCH); |
|
dispatchtarget(c, method, f, UPB_WIRE_TYPE_DELIMITED); |
|
putop(c, OP_PUSHLENDELIM); |
|
putop(c, OP_STARTSTR, getsel(f, UPB_HANDLER_STARTSTR)); |
|
putop(c, OP_STRING, getsel(f, UPB_HANDLER_STRING)); |
|
maybeput(c, OP_ENDSTR, h, f, UPB_HANDLER_ENDSTR); |
|
putop(c, OP_POP); |
|
putop(c, OP_SETDELIM); |
|
} |
|
} |
|
|
|
/* Generates bytecode to parse a single primitive field. */ |
|
static void generate_primitivefield(compiler *c, const upb_fielddef *f, |
|
upb_pbdecodermethod *method) { |
|
const upb_handlers *h = upb_pbdecodermethod_desthandlers(method); |
|
upb_descriptortype_t descriptor_type = upb_fielddef_descriptortype(f); |
|
opcode parse_type; |
|
upb_selector_t sel; |
|
int wire_type; |
|
|
|
label(c, LABEL_FIELD); |
|
|
|
/* From a decoding perspective, ENUM is the same as INT32. */ |
|
if (descriptor_type == UPB_DESCRIPTOR_TYPE_ENUM) |
|
descriptor_type = UPB_DESCRIPTOR_TYPE_INT32; |
|
|
|
parse_type = (opcode)descriptor_type; |
|
|
|
/* TODO(haberman): generate packed or non-packed first depending on "packed" |
|
* setting in the fielddef. This will favor (in speed) whichever was |
|
* specified. */ |
|
|
|
UPB_ASSERT((int)parse_type >= 0 && parse_type <= OP_MAX); |
|
sel = getsel(f, upb_handlers_getprimitivehandlertype(f)); |
|
wire_type = upb_pb_native_wire_types[upb_fielddef_descriptortype(f)]; |
|
if (upb_fielddef_isseq(f)) { |
|
putop(c, OP_CHECKDELIM, LABEL_ENDMSG); |
|
putchecktag(c, f, UPB_WIRE_TYPE_DELIMITED, LABEL_DISPATCH); |
|
dispatchtarget(c, method, f, UPB_WIRE_TYPE_DELIMITED); |
|
putop(c, OP_PUSHLENDELIM); |
|
putop(c, OP_STARTSEQ, getsel(f, UPB_HANDLER_STARTSEQ)); /* Packed */ |
|
label(c, LABEL_LOOPSTART); |
|
putop(c, parse_type, sel); |
|
putop(c, OP_CHECKDELIM, LABEL_LOOPBREAK); |
|
putop(c, OP_BRANCH, -LABEL_LOOPSTART); |
|
dispatchtarget(c, method, f, wire_type); |
|
putop(c, OP_PUSHTAGDELIM, 0); |
|
putop(c, OP_STARTSEQ, getsel(f, UPB_HANDLER_STARTSEQ)); /* Non-packed */ |
|
label(c, LABEL_LOOPSTART); |
|
putop(c, parse_type, sel); |
|
putop(c, OP_CHECKDELIM, LABEL_LOOPBREAK); |
|
putchecktag(c, f, wire_type, LABEL_LOOPBREAK); |
|
putop(c, OP_BRANCH, -LABEL_LOOPSTART); |
|
label(c, LABEL_LOOPBREAK); |
|
putop(c, OP_POP); /* Packed and non-packed join. */ |
|
maybeput(c, OP_ENDSEQ, h, f, UPB_HANDLER_ENDSEQ); |
|
putop(c, OP_SETDELIM); /* Could remove for non-packed by dup ENDSEQ. */ |
|
} else { |
|
putop(c, OP_CHECKDELIM, LABEL_ENDMSG); |
|
putchecktag(c, f, wire_type, LABEL_DISPATCH); |
|
dispatchtarget(c, method, f, wire_type); |
|
putop(c, parse_type, sel); |
|
} |
|
} |
|
|
|
/* Adds bytecode for parsing the given message to the given decoderplan, |
|
* while adding all dispatch targets to this message's dispatch table. */ |
|
static void compile_method(compiler *c, upb_pbdecodermethod *method) { |
|
const upb_handlers *h; |
|
const upb_msgdef *md; |
|
uint32_t* start_pc; |
|
upb_msg_field_iter i; |
|
upb_value val; |
|
|
|
UPB_ASSERT(method); |
|
|
|
/* Clear all entries in the dispatch table. */ |
|
upb_inttable_uninit(&method->dispatch); |
|
upb_inttable_init(&method->dispatch, UPB_CTYPE_UINT64); |
|
|
|
h = upb_pbdecodermethod_desthandlers(method); |
|
md = upb_handlers_msgdef(h); |
|
|
|
method->code_base.ofs = pcofs(c); |
|
putop(c, OP_SETDISPATCH, &method->dispatch); |
|
putsel(c, OP_STARTMSG, UPB_STARTMSG_SELECTOR, h); |
|
label(c, LABEL_FIELD); |
|
start_pc = c->pc; |
|
for(upb_msg_field_begin(&i, md); |
|
!upb_msg_field_done(&i); |
|
upb_msg_field_next(&i)) { |
|
const upb_fielddef *f = upb_msg_iter_field(&i); |
|
upb_fieldtype_t type = upb_fielddef_type(f); |
|
|
|
if (type == UPB_TYPE_MESSAGE && !(haslazyhandlers(h, f) && c->lazy)) { |
|
generate_msgfield(c, f, method); |
|
} else if (type == UPB_TYPE_STRING || type == UPB_TYPE_BYTES || |
|
type == UPB_TYPE_MESSAGE) { |
|
generate_delimfield(c, f, method); |
|
} else { |
|
generate_primitivefield(c, f, method); |
|
} |
|
} |
|
|
|
/* If there were no fields, or if no handlers were defined, we need to |
|
* generate a non-empty loop body so that we can at least dispatch for unknown |
|
* fields and check for the end of the message. */ |
|
if (c->pc == start_pc) { |
|
/* Check for end-of-message. */ |
|
putop(c, OP_CHECKDELIM, LABEL_ENDMSG); |
|
/* Unconditionally dispatch. */ |
|
putop(c, OP_DISPATCH, 0); |
|
} |
|
|
|
/* For now we just loop back to the last field of the message (or if none, |
|
* the DISPATCH opcode for the message). */ |
|
putop(c, OP_BRANCH, -LABEL_FIELD); |
|
|
|
/* Insert both a label and a dispatch table entry for this end-of-msg. */ |
|
label(c, LABEL_ENDMSG); |
|
val = upb_value_uint64(pcofs(c) - method->code_base.ofs); |
|
upb_inttable_insert(&method->dispatch, DISPATCH_ENDMSG, val); |
|
|
|
putsel(c, OP_ENDMSG, UPB_ENDMSG_SELECTOR, h); |
|
putop(c, OP_RET); |
|
|
|
upb_inttable_compact(&method->dispatch); |
|
} |
|
|
|
/* Populate "methods" with new upb_pbdecodermethod objects reachable from "h". |
|
* Returns the method for these handlers. |
|
* |
|
* Generates a new method for every destination handlers reachable from "h". */ |
|
static void find_methods(compiler *c, const upb_handlers *h) { |
|
upb_value v; |
|
upb_msg_field_iter i; |
|
const upb_msgdef *md; |
|
upb_pbdecodermethod *method; |
|
|
|
if (upb_inttable_lookupptr(&c->group->methods, h, &v)) |
|
return; |
|
|
|
method = newmethod(h, c->group); |
|
upb_inttable_insertptr(&c->group->methods, h, upb_value_ptr(method)); |
|
|
|
/* Find submethods. */ |
|
md = upb_handlers_msgdef(h); |
|
for(upb_msg_field_begin(&i, md); |
|
!upb_msg_field_done(&i); |
|
upb_msg_field_next(&i)) { |
|
const upb_fielddef *f = upb_msg_iter_field(&i); |
|
const upb_handlers *sub_h; |
|
if (upb_fielddef_type(f) == UPB_TYPE_MESSAGE && |
|
(sub_h = upb_handlers_getsubhandlers(h, f)) != NULL) { |
|
/* We only generate a decoder method for submessages with handlers. |
|
* Others will be parsed as unknown fields. */ |
|
find_methods(c, sub_h); |
|
} |
|
} |
|
} |
|
|
|
/* (Re-)compile bytecode for all messages in "msgs." |
|
* Overwrites any existing bytecode in "c". */ |
|
static void compile_methods(compiler *c) { |
|
upb_inttable_iter i; |
|
|
|
/* Start over at the beginning of the bytecode. */ |
|
c->pc = c->group->bytecode; |
|
|
|
upb_inttable_begin(&i, &c->group->methods); |
|
for(; !upb_inttable_done(&i); upb_inttable_next(&i)) { |
|
upb_pbdecodermethod *method = upb_value_getptr(upb_inttable_iter_value(&i)); |
|
compile_method(c, method); |
|
} |
|
} |
|
|
|
static void set_bytecode_handlers(mgroup *g) { |
|
upb_inttable_iter i; |
|
upb_inttable_begin(&i, &g->methods); |
|
for(; !upb_inttable_done(&i); upb_inttable_next(&i)) { |
|
upb_pbdecodermethod *m = upb_value_getptr(upb_inttable_iter_value(&i)); |
|
upb_byteshandler *h = &m->input_handler_; |
|
|
|
m->code_base.ptr = g->bytecode + m->code_base.ofs; |
|
|
|
upb_byteshandler_setstartstr(h, upb_pbdecoder_startbc, m->code_base.ptr); |
|
upb_byteshandler_setstring(h, upb_pbdecoder_decode, g); |
|
upb_byteshandler_setendstr(h, upb_pbdecoder_end, m); |
|
} |
|
} |
|
|
|
|
|
/* TODO(haberman): allow this to be constructed for an arbitrary set of dest |
|
* handlers and other mgroups (but verify we have a transitive closure). */ |
|
const mgroup *mgroup_new(const upb_handlers *dest, bool lazy) { |
|
mgroup *g; |
|
compiler *c; |
|
|
|
g = newgroup(); |
|
c = newcompiler(g, lazy); |
|
find_methods(c, dest); |
|
|
|
/* We compile in two passes: |
|
* 1. all messages are assigned relative offsets from the beginning of the |
|
* bytecode (saved in method->code_base). |
|
* 2. forwards OP_CALL instructions can be correctly linked since message |
|
* offsets have been previously assigned. |
|
* |
|
* Could avoid the second pass by linking OP_CALL instructions somehow. */ |
|
compile_methods(c); |
|
compile_methods(c); |
|
g->bytecode_end = c->pc; |
|
freecompiler(c); |
|
|
|
#ifdef UPB_DUMP_BYTECODE |
|
{ |
|
FILE *f = fopen("/tmp/upb-bytecode", "w"); |
|
UPB_ASSERT(f); |
|
dumpbc(g->bytecode, g->bytecode_end, stderr); |
|
dumpbc(g->bytecode, g->bytecode_end, f); |
|
fclose(f); |
|
|
|
f = fopen("/tmp/upb-bytecode.bin", "wb"); |
|
UPB_ASSERT(f); |
|
fwrite(g->bytecode, 1, g->bytecode_end - g->bytecode, f); |
|
fclose(f); |
|
} |
|
#endif |
|
|
|
set_bytecode_handlers(g); |
|
return g; |
|
} |
|
|
|
|
|
/* upb_pbcodecache ************************************************************/ |
|
|
|
upb_pbcodecache *upb_pbcodecache_new(upb_handlercache *dest) { |
|
upb_pbcodecache *c = upb_gmalloc(sizeof(*c)); |
|
|
|
if (!c) return NULL; |
|
|
|
c->dest = dest; |
|
c->lazy = false; |
|
|
|
c->arena = upb_arena_new(); |
|
if (!upb_inttable_init(&c->groups, UPB_CTYPE_CONSTPTR)) return NULL; |
|
|
|
return c; |
|
} |
|
|
|
void upb_pbcodecache_free(upb_pbcodecache *c) { |
|
upb_inttable_iter i; |
|
|
|
upb_inttable_begin(&i, &c->groups); |
|
for(; !upb_inttable_done(&i); upb_inttable_next(&i)) { |
|
upb_value val = upb_inttable_iter_value(&i); |
|
freegroup((void*)upb_value_getconstptr(val)); |
|
} |
|
|
|
upb_inttable_uninit(&c->groups); |
|
upb_arena_free(c->arena); |
|
upb_gfree(c); |
|
} |
|
|
|
void upb_pbdecodermethodopts_setlazy(upb_pbcodecache *c, bool lazy) { |
|
UPB_ASSERT(upb_inttable_count(&c->groups) == 0); |
|
c->lazy = lazy; |
|
} |
|
|
|
const upb_pbdecodermethod *upb_pbcodecache_get(upb_pbcodecache *c, |
|
const upb_msgdef *md) { |
|
upb_value v; |
|
bool ok; |
|
const upb_handlers *h; |
|
const mgroup *g; |
|
|
|
h = upb_handlercache_get(c->dest, md); |
|
if (upb_inttable_lookupptr(&c->groups, md, &v)) { |
|
g = upb_value_getconstptr(v); |
|
} else { |
|
g = mgroup_new(h, c->lazy); |
|
ok = upb_inttable_insertptr(&c->groups, md, upb_value_constptr(g)); |
|
UPB_ASSUME(ok); |
|
} |
|
|
|
ok = upb_inttable_lookupptr(&g->methods, h, &v); |
|
UPB_ASSUME(ok); |
|
return upb_value_getptr(v); |
|
}
|
|
|