Protocol Buffers - Google's data interchange format (grpc依赖)
https://developers.google.com/protocol-buffers/
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370 lines
11 KiB
370 lines
11 KiB
/* |
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* upb - a minimalist implementation of protocol buffers. |
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* |
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* Copyright (c) 2013 Google Inc. See LICENSE for details. |
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* Author: Josh Haberman <jhaberman@gmail.com> |
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* |
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* Driver code for the x64 JIT compiler. |
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*/ |
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#include <dlfcn.h> |
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#include <stdio.h> |
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#include <sys/mman.h> |
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#include "upb/pb/decoder.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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#include "upb/shim/shim.h" |
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// These defines are necessary for DynASM codegen. |
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// See dynasm/dasm_proto.h for more info. |
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#define Dst_DECL jitcompiler *jc |
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#define Dst_REF (jc->dynasm) |
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#define Dst (jc) |
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// In debug mode, make DynASM do internal checks (must be defined before any |
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// dasm header is included. |
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#ifndef NDEBUG |
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#define DASM_CHECKS |
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#endif |
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#ifndef MAP_ANONYMOUS |
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#define MAP_ANONYMOUS MAP_ANON |
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#endif |
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#define DECODE_EOF -3 |
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typedef struct { |
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upb_pbdecoderplan *plan; |
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uint32_t *pc; |
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// This pointer is allocated by dasm_init() and freed by dasm_free(). |
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struct dasm_State *dynasm; |
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// Maps bytecode pc location -> pclabel. |
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upb_inttable pclabels; |
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upb_inttable pcdefined; |
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// For marking labels that should go into the generated code. |
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// Maps pclabel -> char* label (string is owned by the table). |
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upb_inttable asmlabels; |
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// For checking that two asmlabels aren't defined for the same byte. |
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int lastlabelofs; |
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// The total number of pclabels currently defined. |
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uint32_t pclabel_count; |
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// Used by DynASM to store globals. |
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void **globals; |
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bool usefp; |
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bool chkret; |
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} jitcompiler; |
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// Functions called by codegen. |
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static int pclabel(jitcompiler *jc, const void *here); |
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static int define_pclabel(jitcompiler *jc, const void *here); |
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static void asmlabel(jitcompiler *jc, const char *fmt, ...); |
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#include "dynasm/dasm_proto.h" |
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#include "dynasm/dasm_x86.h" |
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#include "upb/pb/compile_decoder_x64.h" |
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static jitcompiler *newjitcompiler(upb_pbdecoderplan *plan) { |
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jitcompiler *jc = malloc(sizeof(jitcompiler)); |
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jc->usefp = false; |
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jc->chkret = false; |
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jc->plan = plan; |
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jc->pclabel_count = 0; |
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jc->lastlabelofs = -1; |
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upb_inttable_init(&jc->pclabels, UPB_CTYPE_UINT32); |
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upb_inttable_init(&jc->pcdefined, UPB_CTYPE_BOOL); |
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upb_inttable_init(&jc->asmlabels, UPB_CTYPE_PTR); |
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jc->globals = malloc(UPB_JIT_GLOBAL__MAX * sizeof(*jc->globals)); |
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dasm_init(jc, 1); |
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dasm_setupglobal(jc, jc->globals, UPB_JIT_GLOBAL__MAX); |
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dasm_setup(jc, upb_jit_actionlist); |
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return jc; |
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} |
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static void freejitcompiler(jitcompiler *jc) { |
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upb_inttable_iter i; |
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upb_inttable_begin(&i, &jc->asmlabels); |
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for (; !upb_inttable_done(&i); upb_inttable_next(&i)) { |
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free(upb_value_getptr(upb_inttable_iter_value(&i))); |
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} |
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upb_inttable_uninit(&jc->asmlabels); |
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upb_inttable_uninit(&jc->pclabels); |
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upb_inttable_uninit(&jc->pcdefined); |
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dasm_free(jc); |
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free(jc->globals); |
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free(jc); |
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} |
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// Returns a pclabel associated with the given arbitrary pointer. |
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static int pclabel(jitcompiler *jc, const void *here) { |
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upb_value v; |
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bool found = upb_inttable_lookupptr(&jc->pclabels, here, &v); |
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if (!found) { |
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upb_value_setuint32(&v, jc->pclabel_count++); |
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dasm_growpc(jc, jc->pclabel_count); |
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upb_inttable_insertptr(&jc->pclabels, here, v); |
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} |
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return upb_value_getuint32(v); |
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} |
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// Defines a pclabel associated with the given arbitrary pointer. |
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// May only be called once (to avoid redefining the pclabel). |
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static int define_pclabel(jitcompiler *jc, const void *here) { |
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// Will assert-fail if it already exists. |
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upb_inttable_insertptr(&jc->pcdefined, here, upb_value_bool(true)); |
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return pclabel(jc, here); |
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} |
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static void upb_reg_jit_gdb(jitcompiler *jc); |
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// Given a pcofs relative to method, returns the machine code offset for it |
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// (relative to the beginning of the machine code). |
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int nativeofs(jitcompiler *jc, const upb_pbdecodermethod *method, int pcofs) { |
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void *target = jc->plan->code + method->base.ofs + pcofs; |
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return dasm_getpclabel(jc, pclabel(jc, target)); |
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} |
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// Given a pcofs relative to this method's base, returns a machine code offset |
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// relative to pclabel(dispatch->array) (which is used in jitdispatch as the |
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// machine code base for dispatch table lookups). |
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uint32_t dispatchofs(jitcompiler *jc, const upb_pbdecodermethod *method, |
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int pcofs) { |
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int ofs1 = dasm_getpclabel(jc, pclabel(jc, method->dispatch.array)); |
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int ofs2 = nativeofs(jc, method, pcofs); |
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assert(ofs1 > 0); |
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assert(ofs2 > 0); |
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int ret = ofs2 - ofs1; |
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assert(ret > 0); |
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return ret; |
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} |
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// Rewrites the dispatch tables into machine code offsets. |
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static void patchdispatch(jitcompiler *jc) { |
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upb_inttable_iter i; |
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upb_inttable_begin(&i, &jc->plan->methods); |
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for (; !upb_inttable_done(&i); upb_inttable_next(&i)) { |
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upb_pbdecodermethod *method = upb_value_getptr(upb_inttable_iter_value(&i)); |
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upb_inttable *dispatch = &method->dispatch; |
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upb_inttable_iter i2; |
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upb_inttable_begin(&i2, dispatch); |
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for (; !upb_inttable_done(&i2); upb_inttable_next(&i2)) { |
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uintptr_t key = upb_inttable_iter_key(&i2); |
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if (key == 0) continue; |
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uint64_t val = upb_value_getuint64(upb_inttable_iter_value(&i2)); |
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uint64_t newval; |
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if (key <= UPB_MAX_FIELDNUMBER) { |
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// Primary slot. |
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uint64_t oldofs = val >> 16; |
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uint64_t newofs = dispatchofs(jc, method, oldofs); |
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newval = (val & 0xffff) | (newofs << 16); |
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assert((int64_t)newval > 0); |
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} else { |
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// Secondary slot. Since we have 64 bits for the value, we use an |
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// absolute offset. |
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newval = (uint64_t)(jc->plan->jit_code + nativeofs(jc, method, val)); |
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} |
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bool ok = upb_inttable_replace(dispatch, key, upb_value_uint64(newval)); |
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UPB_ASSERT_VAR(ok, ok); |
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} |
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} |
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} |
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// Define for JIT debugging. |
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#ifdef UPB_JIT_LOAD_SO |
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static void load_so(jitcompiler *jc) { |
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// Dump to a .so file in /tmp and load that, so all the tooling works right |
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// (for example, debuggers and profilers will see symbol names for the JIT-ted |
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// code). This is the same goal of the GDB JIT code below, but the GDB JIT |
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// interface is only used/understood by GDB. Hopefully a standard will |
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// develop for registering JIT-ted code that all tools will recognize, |
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// rendering this obsolete. |
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// |
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// Requires that gcc is available from the command-line. |
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// Convert all asm labels from pclabel offsets to machine code offsets. |
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upb_inttable_iter i; |
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upb_inttable mclabels; |
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upb_inttable_init(&mclabels, UPB_CTYPE_PTR); |
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upb_inttable_begin(&i, &jc->asmlabels); |
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for (; !upb_inttable_done(&i); upb_inttable_next(&i)) { |
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upb_inttable_insert(&mclabels, |
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dasm_getpclabel(jc, upb_inttable_iter_key(&i)), |
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upb_inttable_iter_value(&i)); |
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} |
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FILE *f = fopen("/tmp/upb-jit-code.s", "w"); |
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if (f) { |
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fputs(" .text\n\n", f); |
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size_t linelen = 0; |
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for (size_t i = 0; i < jc->plan->jit_size; i++) { |
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upb_value v; |
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if (upb_inttable_lookup(&mclabels, i, &v)) { |
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const char *label = upb_value_getptr(v); |
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// "X." makes our JIT syms recognizable as such, which we build into |
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// other tooling. |
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fprintf(f, "\n\nX.%s:\n", label); |
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fprintf(f, " .globl X.%s", label); |
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linelen = 1000; |
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} |
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if (linelen >= 77) { |
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linelen = fprintf(f, "\n .byte %u", jit_code[i]); |
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} else { |
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linelen += fprintf(f, ",%u", jit_code[i]); |
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} |
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} |
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fputs("\n", f); |
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fclose(f); |
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} else { |
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fprintf(stderr, "Couldn't open /tmp/upb-jit-code.s for writing/\n"); |
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} |
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// TODO: racy |
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if (system("gcc -shared -o /tmp/upb-jit-code.so /tmp/upb-jit-code.s") != 0) { |
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abort(); |
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} |
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jc->dl = dlopen("/tmp/upb-jit-code.so", RTLD_LAZY); |
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if (!jc->dl) { |
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fprintf(stderr, "Couldn't dlopen(): %s\n", dlerror()); |
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abort(); |
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} |
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munmap(jit_code, jc->plan->jit_size); |
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jit_code = dlsym(jc->dl, "X.enterjit"); |
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if (!jit_code) { |
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fprintf(stderr, "Couldn't find enterjit sym\n"); |
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abort(); |
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} |
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upb_inttable_uninit(&mclabels); |
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} |
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#endif |
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void upb_pbdecoder_jit(upb_pbdecoderplan *plan) { |
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plan->debug_info = NULL; |
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plan->dl = NULL; |
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jitcompiler *jc = newjitcompiler(plan); |
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emit_static_asm(jc); |
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jitbytecode(jc); |
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int dasm_status = dasm_link(jc, &jc->plan->jit_size); |
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if (dasm_status != DASM_S_OK) { |
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fprintf(stderr, "DynASM error; returned status: 0x%08x\n", dasm_status); |
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abort(); |
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} |
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char *jit_code = mmap(NULL, jc->plan->jit_size, PROT_READ | PROT_WRITE, |
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MAP_ANONYMOUS | MAP_PRIVATE, 0, 0); |
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dasm_encode(jc, jit_code); |
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mprotect(jit_code, jc->plan->jit_size, PROT_EXEC | PROT_READ); |
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upb_reg_jit_gdb(jc); |
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#ifdef UPB_JIT_LOAD_SO |
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load_so(jc); |
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#endif |
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jc->plan->jit_code = (upb_string_handler *)jit_code; |
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patchdispatch(jc); |
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freejitcompiler(jc); |
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} |
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void upb_pbdecoder_freejit(upb_pbdecoderplan *plan) { |
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if (!plan->jit_code) return; |
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if (plan->dl) { |
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#ifdef UPB_JIT_LOAD_SO |
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dlclose(plan->dl); |
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#endif |
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} else { |
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munmap(plan->jit_code, plan->jit_size); |
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} |
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free(plan->debug_info); |
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// TODO: unregister GDB JIT interface. |
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} |
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// To debug JIT-ted code with GDB we need to tell GDB about the JIT-ted code |
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// at runtime. GDB 7.x+ has defined an interface for doing this, and these |
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// structure/function defintions are copied out of gdb/jit.h |
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// |
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// We need to give GDB an ELF file at runtime describing the symbols we have |
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// generated. To avoid implementing the ELF format, we generate an ELF file |
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// at compile-time and compile it in as a character string. We can replace |
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// a few key constants (address of JIT-ted function and its size) by looking |
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// for a few magic numbers and doing a dumb string replacement. |
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// |
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// Unfortunately this approach is showing its limits; we can only define one |
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// symbol, and this approach only works with GDB. The .so approach above is |
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// more reliable. |
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#ifndef __APPLE__ |
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const unsigned char upb_jit_debug_elf_file[] = { |
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#include "upb/pb/jit_debug_elf_file.h" |
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}; |
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typedef enum { |
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GDB_JIT_NOACTION = 0, |
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GDB_JIT_REGISTER, |
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GDB_JIT_UNREGISTER |
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} jit_actions_t; |
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typedef struct gdb_jit_entry { |
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struct gdb_jit_entry *next_entry; |
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struct gdb_jit_entry *prev_entry; |
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const char *symfile_addr; |
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uint64_t symfile_size; |
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} gdb_jit_entry; |
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typedef struct { |
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uint32_t version; |
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uint32_t action_flag; |
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gdb_jit_entry *relevant_entry; |
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gdb_jit_entry *first_entry; |
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} gdb_jit_descriptor; |
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gdb_jit_descriptor __jit_debug_descriptor = {1, GDB_JIT_NOACTION, NULL, NULL}; |
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void __attribute__((noinline)) __jit_debug_register_code() { |
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__asm__ __volatile__(""); |
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} |
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static void upb_reg_jit_gdb(jitcompiler *jc) { |
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// Create debug info. |
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size_t elf_len = sizeof(upb_jit_debug_elf_file); |
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jc->plan->debug_info = malloc(elf_len); |
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memcpy(jc->plan->debug_info, upb_jit_debug_elf_file, elf_len); |
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uint64_t *p = (void *)jc->plan->debug_info; |
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for (; (void *)(p + 1) <= (void *)jc->plan->debug_info + elf_len; ++p) { |
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if (*p == 0x12345678) { |
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*p = (uintptr_t)jc->plan->jit_code; |
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} |
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if (*p == 0x321) { |
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*p = jc->plan->jit_size; |
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} |
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} |
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// Register the JIT-ted code with GDB. |
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gdb_jit_entry *e = malloc(sizeof(gdb_jit_entry)); |
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e->next_entry = __jit_debug_descriptor.first_entry; |
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e->prev_entry = NULL; |
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if (e->next_entry) e->next_entry->prev_entry = e; |
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e->symfile_addr = jc->plan->debug_info; |
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e->symfile_size = elf_len; |
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__jit_debug_descriptor.first_entry = e; |
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__jit_debug_descriptor.relevant_entry = e; |
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__jit_debug_descriptor.action_flag = GDB_JIT_REGISTER; |
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__jit_debug_register_code(); |
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} |
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#else |
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static void upb_reg_jit_gdb(jitcompiler *jc) { (void)jc; } |
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#endif
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