449 lines
13 KiB
C
449 lines
13 KiB
C
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/*
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** $Id: ldump.c,v 2.37.1.1 2017/04/19 17:20:42 roberto Exp $
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** save precompiled Lua chunks
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** See Copyright Notice in lua.h
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*/
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#define ldump_c
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#define LUA_CORE
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#include "lprefix.h"
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#include <stddef.h>
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#include "lua.h"
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#include "lapi.h"
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#include "lauxlib.h"
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#include "llex.h"
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#include "lgc.h"
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#include "lmem.h"
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#include "lobject.h"
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#include "lstate.h"
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#include "lstring.h"
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#include "ltable.h"
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#include "lundump.h"
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typedef struct {
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lua_State *L;
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lua_Writer writer;
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void *data;
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int strip;
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int status;
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#ifdef LUA_USE_HOST
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int useStrRefs;
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Table *stringIndex;
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int sTScnt;
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int lTScnt;
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int nFixed;
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#endif
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} DumpState;
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/*
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** To ensure that dump files are loadable onto the ESP architectures:
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** 1. Integers are in the range -2^31 .. 2^31-1 (sint32_t)
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** 2. Floats are the IEEE 4 or 8 byte format, with a 4 byte default.
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**
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** The file formats are also different to standard because of two add
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** additional goals:
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** 3. The file must be serially loadable into a programmable flash
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** memory through a file-write like API call.
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** 4. Compactness of dump files is a key design goal.
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*/
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#define DumpVector(v,n,D) DumpBlock(v,(n)*sizeof((v)[0]),D)
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#define DumpLiteral(s,D) DumpBlock(s, sizeof(s) - sizeof(char), D)
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static void DumpBlock (const void *b, size_t size, DumpState *D) {
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if (D->status == 0 && size > 0) {
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lua_unlock(D->L);
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D->status = (*D->writer)(D->L, b, size, D->data);
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lua_lock(D->L);
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}
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}
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#define DumpVar(x,D) DumpVector(&x,1,D)
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static void DumpByte (lu_byte x, DumpState *D) {
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DumpVar(x, D);
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}
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/*
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** Dump (unsigned) int 0..MAXINT using multibyte encoding (MBE). DumpInt
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** is used for context dependent counts and sizes; no type information
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** is embedded.
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*/
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static void DumpInt (lua_Integer x, DumpState *D) {
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lu_byte buf[sizeof(lua_Integer) + 2];
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lu_byte *b = buf + sizeof(buf) - 1;
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lua_assert(x>=0);
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*b-- = x & 0x7f; x >>= 7;
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while(x) { *b-- = 0x80 + (x & 0x7f); x >>= 7; }
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b++;
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lua_assert (b >= buf);
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DumpVector(b, (buf - b) + sizeof(buf), D);
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}
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static void DumpNumber (lua_Number x, DumpState *D) {
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DumpByte(LUAU_TNUMFLT, D);
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DumpVar(x, D);
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}
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/*
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** DumpIntTT is MBE and embeds a type encoding for string length and integers.
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** It also handles negative integers by forcing the type to LUAU_TNUMNINT.
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** 0TTTNNNN or 1TTTNNNN (1NNNNNNN)* 0NNNNNNN
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*/
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static void DumpIntTT (lu_byte tt, lua_Integer y, DumpState *D) {
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int x = y < 0 ? -(y + 1) : y;
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lu_byte buf[sizeof(lua_Integer) + 3];
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lu_byte *b = buf + sizeof(buf) - 1;
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*b-- = x & 0x7f; x >>= 7;
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while(x) { *b-- = 0x80 + (x & 0x7f); x >>= 7; }
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b++;
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if (*b & cast(lu_byte, LUAU_TMASK) )/* Need an extra byte for the type bits? */
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*--b = 0x80;
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*b |= (y >= 0) ? tt: LUAU_TNUMNINT;
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lua_assert (b >= buf);
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DumpVector(b, (buf - b) + sizeof(buf), D);
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}
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#define DumpInteger(i, D) DumpIntTT(LUAU_TNUMPINT, i, D);
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/*
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** Strings are stored in LFS uniquely, any string references use this index.
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** The table at D->stringIndex is used to lookup this unique index.
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*/
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static void DumpString (const TString *s, DumpState *D) {
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if (s == NULL) {
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DumpByte(LUAU_TSSTRING + 0, D);
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} else {
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lu_byte tt = (gettt(s) == LUA_TSHRSTR) ? LUAU_TSSTRING : LUAU_TLSTRING;
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size_t l = tsslen(s);
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const char *str = getstr(s);
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#ifdef LUA_USE_HOST
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if (D->useStrRefs) {
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const TValue *o = luaH_getstr(D->stringIndex, cast(TString *,s));
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DumpIntTT(tt, ivalue(o), D);
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return;
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}
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#endif
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DumpIntTT(tt, l + 1, D); /* include trailing '\0' */
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DumpVector(str, l, D); /* no need to save '\0' */
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}
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}
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static void DumpCode (const Proto *f, DumpState *D) {
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DumpInt(f->sizecode, D);
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DumpVector(f->code, f->sizecode, D);
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}
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static void DumpFunction(const Proto *f, TString *psource, DumpState *D);
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static void DumpConstants (const Proto *f, DumpState *D) {
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int i;
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int n = f->sizek;
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DumpInt(n, D);
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for (i = 0; i < n; i++) {
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const TValue *o = &f->k[i];
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switch (ttype(o)) {
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case LUA_TNIL:
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DumpByte(LUAU_TNIL, D);
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break;
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case LUA_TBOOLEAN:
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DumpByte(LUAU_TBOOLEAN + bvalue(o), D);
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break;
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case LUA_TNUMFLT :
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DumpNumber(fltvalue(o), D);
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break;
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case LUA_TNUMINT:
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DumpInteger(ivalue(o), D);
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break;
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case LUA_TSHRSTR:
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case LUA_TLNGSTR:
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DumpString(tsvalue(o), D);
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break;
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default:
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lua_assert(0);
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}
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}
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}
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static void DumpProtos (const Proto *f, DumpState *D) {
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int i;
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int n = f->sizep;
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DumpInt(n, D);
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for (i = 0; i < n; i++)
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DumpFunction(f->p[i], f->source, D);
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}
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static void DumpUpvalues (const Proto *f, DumpState *D) {
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int i, n = f->sizeupvalues, nostrip = (D->strip == 0);
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DumpByte(nostrip, D);
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DumpInt(n, D);
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for (i = 0; i < n; i++) {
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if (nostrip)
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DumpString(f->upvalues[i].name, D);
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DumpByte(f->upvalues[i].instack, D);
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DumpByte(f->upvalues[i].idx, D);
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}
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}
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static void DumpDebug (const Proto *f, DumpState *D) {
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int i, keepli = (D->strip <= 1), keeplv = (D->strip == 0);
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int n = keepli ? f->sizelineinfo : 0;
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DumpInt(n, D);
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DumpVector(f->lineinfo, n, D);
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n = keeplv ? f->sizelocvars : 0;
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DumpInt(n, D);
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for (i = 0; i < n; i++) {
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DumpString(f->locvars[i].varname, D);
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DumpInt(f->locvars[i].startpc, D);
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DumpInt(f->locvars[i].endpc, D);
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}
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}
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static void DumpFunction (const Proto *f, TString *psource, DumpState *D) {
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if (f->source == psource)
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DumpString(NULL, D); /* same source as its parent */
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else
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DumpString(f->source, D);
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DumpInt(f->linedefined, D);
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DumpInt(f->lastlinedefined, D);
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DumpByte(getnumparams(f), D);
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DumpByte(getis_vararg(f), D);
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DumpByte(getmaxstacksize(f), D);
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DumpProtos(f, D);
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DumpCode(f, D);
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DumpConstants(f, D);
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DumpUpvalues(f, D);
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DumpDebug(f, D);
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}
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static void DumpHeader (DumpState *D, int format) {
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DumpLiteral(LUA_SIGNATURE, D);
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DumpByte(LUAC_VERSION, D);
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DumpByte(format, D);
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DumpLiteral(LUAC_DATA, D);
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DumpByte(sizeof(int), D);
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DumpByte(sizeof(Instruction), D);
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DumpByte(sizeof(lua_Integer), D);
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DumpByte(sizeof(lua_Number), D);
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/* Note that we multi-byte encoded integers so need to check size_t or endian */
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DumpNumber(LUAC_NUM, D);
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}
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/*
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** Dump Lua function as precompiled chunk
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*/
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int luaU_dump (lua_State *L, const Proto *f, lua_Writer w, void *data,
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int strip) {
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DumpState D = {0};
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D.L = L;
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D.writer = w;
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D.data = data;
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D.strip = strip;
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DumpHeader(&D, LUAC_FORMAT);
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DumpByte(f->sizeupvalues, &D);
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DumpFunction(f, NULL, &D);
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return D.status;
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}
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static int stripdebug (lua_State *L, Proto *f, int level) {
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int i, len = 0;
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switch (level) {
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case 2:
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if (f->lineinfo) {
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f->lineinfo = luaM_freearray(L, f->lineinfo, f->sizelineinfo);
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len += f->sizelineinfo;
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}
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case 1:
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for (i=0; i<f->sizeupvalues; i++)
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f->upvalues[i].name = NULL;
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f->locvars = luaM_freearray(L, f->locvars, f->sizelocvars);
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len += f->sizelocvars * sizeof(LocVar);
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f->sizelocvars = 0;
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}
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return len;
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}
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/* This is a recursive function so it's stack size has been kept to a minimum! */
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int luaU_stripdebug (lua_State *L, Proto *f, int level, int recv){
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int len = 0, i;
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if (recv != 0 && f->sizep != 0) {
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for(i=0;i<f->sizep;i++) len += luaU_stripdebug(L, f->p[i], level, recv);
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}
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len += stripdebug (L, f, level);
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return len;
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}
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/*============================================================================**
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**
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** NodeMCU extensions for LFS support and dumping. Note that to keep lua_lock
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** pairing for testing, this dump/unload functionality works within a locked
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** window and therefore has to use the core luaH, ..., APIs rather than the
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** public Lua and lauxlib APIs.
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**
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**============================================================================*/
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#ifdef LUA_USE_HOST
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/*
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** Add a TS found in the Proto Load to the table at the ToS. Note that this is
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** a unified table of {string = index} for both short and long TStrings.
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*/
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static void addTS (TString *ts, DumpState *D) {
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lua_State *L = D->L;
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if (!ts)
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return;
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if (ttisnil(luaH_getstr(D->stringIndex, ts))) {
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TValue k, v, *slot;
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gettt(ts)<=LUA_TSHRSTR ? D->sTScnt++ : D->lTScnt++;
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setsvalue(L, &k, ts);
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setivalue(&v, D->sTScnt + D->lTScnt);
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slot = luaH_set(L, D->stringIndex, &k);
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setobj2t(L, slot, &v);
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luaC_barrierback(L, D->stringIndex, &v);
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}
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}
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/*
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** Add the fixed TS that are created by the luaX and LuaT initialisation
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** and fixed so not collectable. This are always loaded into LFS to save
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** RAM and can be implicitly referenced in any Proto.
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*/
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static void addFixedStrings (DumpState *D) {
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int i;
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const char *p;
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for (i = 0; (p = luaX_getstr(i, 0))!=NULL; i++)
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addTS(luaS_new(D->L, p), D);
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addTS(G(D->L)->memerrmsg, D);
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addTS(luaS_new(D->L, LUA_ENV), D);
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for (i = 0; (p = luaT_getstr(i))!=NULL; i++)
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addTS(luaS_new(D->L, p), D);
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lua_assert(D->lTScnt == 0); /* all of these fixed strings should be short */
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D->nFixed = D->sTScnt; /* book mark for later skipping */
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}
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/*
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** Dump all LFS strings. If there are 71 fixed and 17 LFS strings, say, in
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** the stringIndex, then these fixed and LFS strings are numbered 1..71 and
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** 72..88 respectively; this numbering is swapped to 18..88 and 1..17. The
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** fixed strings are fixed and can be omitted from the LFS image.
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*/
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static void DumpLFSstrings(DumpState *D) {
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lua_State *L = D->L;
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int n = D->sTScnt + D->lTScnt;
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int i, maxlen = 0, nStrings = n - D->nFixed;
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Table *revT = luaH_new(L);
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sethvalue(L, L->top++, revT); /* Put on stack to prevent GC */
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luaH_resize(L, revT, n, 0);
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luaC_checkGC(L);
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/* luaH_next scan of stringIndex table using two top of stack entries */
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setnilvalue(L->top++);
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api_incr_top(L);
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while (luaH_next(L, D->stringIndex, L->top-2)) {
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/*
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* Update the value to swap fix and LFS order, then insert (v, k) into
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* the reverse index table. Note that luaC_barrier checks not required
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* for overwrites and non-collectable values.
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*/
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int len = tsslen(tsvalue(L->top-2));
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lua_Integer *i = &L->top[-1].value_.i;
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*i += *i > D->nFixed ? -D->nFixed : nStrings; /* recalc index and */
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luaH_set(L, D->stringIndex, L->top-2)->value_.i = *i; /* update table value */
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luaH_setint(L, revT, ivalue(L->top-1), L->top-2); /* Add str to reverse T */
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if (len > maxlen) maxlen = len; /* roll up maximum string size */
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}
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L->top -= 2; /* discard key and value stack slots */
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DumpInt(maxlen, D);
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DumpInt(D->sTScnt, D);
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DumpInt(D->lTScnt, D);
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DumpInt(nStrings, D);
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for (i = 1; i <= nStrings; i++) { /* dump out non-fixed strings in order */
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const TValue *o = luaH_getint(revT, i);
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DumpString(tsvalue(o), D);
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}
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L->top--; /* pop revT stack entry */
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luaC_checkGC(L);
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}
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/*
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** Recursive scan all of the Protos in the Proto hierarchy
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** to collect all referenced strings in 2 Lua Arrays at ToS.
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*/
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#define OVER(n) for (i = 0; i < (n); i++)
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static void scanProtoStrings(const Proto *f, DumpState *D) {
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int i;
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addTS(f->source, D);
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OVER(f->sizek) if (ttisstring(f->k + i))
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addTS(tsvalue(f->k + i), D);
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OVER(f->sizeupvalues) addTS(f->upvalues[i].name, D);
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OVER(f->sizelocvars) addTS(f->locvars[i].varname, D);
|
||
|
OVER(f->sizep) scanProtoStrings(f->p[i], D);
|
||
|
}
|
||
|
|
||
|
|
||
|
/*
|
||
|
** An LFS image comprises a prologue segment of all of the strings used in
|
||
|
** the image, followed by a set of Proto dumps. Each of these is essentially
|
||
|
** the same as standard lua_dump format, except that string constants don't
|
||
|
** contain the string inline, but are instead an index into the prologue.
|
||
|
** Separating out the strings in this way simplifies loading the image
|
||
|
** content into an LFS region.
|
||
|
**
|
||
|
** A dummy container Proto, main, is used to hold all of the Protos to go
|
||
|
** into the image. The Proto main itself is not callable; it is used as the
|
||
|
** image Proto index and only contains a Proto vector and a constant vector
|
||
|
** where each constant in the string names the corresponding Proto.
|
||
|
*/
|
||
|
int luaU_DumpAllProtos(lua_State *L, const Proto *m, lua_Writer w,
|
||
|
void *data, int strip) {
|
||
|
DumpState D = {0};
|
||
|
D.L = L;
|
||
|
D.writer = w;
|
||
|
D.data = data;
|
||
|
D.strip = strip;
|
||
|
|
||
|
lua_assert(L->stack_last - L->top > 5); /* This dump uses 5 stack slots */
|
||
|
DumpHeader(&D, LUAC_LFS_IMAGE_FORMAT);
|
||
|
DumpInteger(G(L)->seed, &D);
|
||
|
D.stringIndex = luaH_new(L);
|
||
|
sethvalue(L, L->top++, D.stringIndex); /* Put on stack to prevent GC */
|
||
|
/* Add fixed strings + strings used in the Protos, then swap fixed/added blocks */
|
||
|
addFixedStrings(&D);
|
||
|
scanProtoStrings(m, &D);
|
||
|
/* Dump out all non-fixed strings */
|
||
|
DumpLiteral(LUA_STRING_SIG, &D);
|
||
|
DumpLFSstrings(&D);
|
||
|
/* Switch to string reference mode and add the Protos themselves */
|
||
|
D.useStrRefs = 1;
|
||
|
DumpLiteral(LUA_PROTO_SIG, &D);
|
||
|
DumpProtos(m, &D);
|
||
|
DumpConstants(m, &D); /* Dump Function name vector */
|
||
|
L->top--;
|
||
|
return D.status;
|
||
|
}
|
||
|
#endif
|