| 1 | /* |
|---|---|
| 2 | ** $Id: lundump.c $ |
| 3 | ** load precompiled Lua chunks |
| 4 | ** See Copyright Notice in lua.h |
| 5 | */ |
| 6 | |
| 7 | #define lundump_c |
| 8 | #define LUA_CORE |
| 9 | |
| 10 | #include "lprefix.h" |
| 11 | |
| 12 | |
| 13 | #include <limits.h> |
| 14 | #include <string.h> |
| 15 | |
| 16 | #include "lua.h" |
| 17 | |
| 18 | #include "ldebug.h" |
| 19 | #include "ldo.h" |
| 20 | #include "lfunc.h" |
| 21 | #include "lmem.h" |
| 22 | #include "lobject.h" |
| 23 | #include "lstring.h" |
| 24 | #include "lundump.h" |
| 25 | #include "lzio.h" |
| 26 | |
| 27 | |
| 28 | #if !defined(luai_verifycode) |
| 29 | #define luai_verifycode(L,f) /* empty */ |
| 30 | #endif |
| 31 | |
| 32 | |
| 33 | typedef struct { |
| 34 | lua_State *L; |
| 35 | ZIO *Z; |
| 36 | const char *name; |
| 37 | } LoadState; |
| 38 | |
| 39 | |
| 40 | static l_noret error (LoadState *S, const char *why) { |
| 41 | luaO_pushfstring(S->L, "%s: bad binary format (%s)", S->name, why); |
| 42 | luaD_throw(S->L, LUA_ERRSYNTAX); |
| 43 | } |
| 44 | |
| 45 | |
| 46 | /* |
| 47 | ** All high-level loads go through loadVector; you can change it to |
| 48 | ** adapt to the endianness of the input |
| 49 | */ |
| 50 | #define loadVector(S,b,n) loadBlock(S,b,(n)*sizeof((b)[0])) |
| 51 | |
| 52 | static void loadBlock (LoadState *S, void *b, size_t size) { |
| 53 | if (luaZ_read(S->Z, b, size) != 0) |
| 54 | error(S, "truncated chunk"); |
| 55 | } |
| 56 | |
| 57 | |
| 58 | #define loadVar(S,x) loadVector(S,&x,1) |
| 59 | |
| 60 | |
| 61 | static lu_byte loadByte (LoadState *S) { |
| 62 | int b = zgetc(S->Z); |
| 63 | if (b == EOZ) |
| 64 | error(S, "truncated chunk"); |
| 65 | return cast_byte(b); |
| 66 | } |
| 67 | |
| 68 | |
| 69 | static size_t loadUnsigned (LoadState *S, size_t limit) { |
| 70 | size_t x = 0; |
| 71 | int b; |
| 72 | limit >>= 7; |
| 73 | do { |
| 74 | b = loadByte(S); |
| 75 | if (x >= limit) |
| 76 | error(S, "integer overflow"); |
| 77 | x = (x << 7) | (b & 0x7f); |
| 78 | } while ((b & 0x80) == 0); |
| 79 | return x; |
| 80 | } |
| 81 | |
| 82 | |
| 83 | static size_t loadSize (LoadState *S) { |
| 84 | return loadUnsigned(S, ~(size_t)0); |
| 85 | } |
| 86 | |
| 87 | |
| 88 | static int loadInt (LoadState *S) { |
| 89 | return cast_int(loadUnsigned(S, INT_MAX)); |
| 90 | } |
| 91 | |
| 92 | |
| 93 | static lua_Number loadNumber (LoadState *S) { |
| 94 | lua_Number x; |
| 95 | loadVar(S, x); |
| 96 | return x; |
| 97 | } |
| 98 | |
| 99 | |
| 100 | static lua_Integer loadInteger (LoadState *S) { |
| 101 | lua_Integer x; |
| 102 | loadVar(S, x); |
| 103 | return x; |
| 104 | } |
| 105 | |
| 106 | |
| 107 | /* |
| 108 | ** Load a nullable string into prototype 'p'. |
| 109 | */ |
| 110 | static TString *loadStringN (LoadState *S, Proto *p) { |
| 111 | lua_State *L = S->L; |
| 112 | TString *ts; |
| 113 | size_t size = loadSize(S); |
| 114 | if (size == 0) /* no string? */ |
| 115 | return NULL; |
| 116 | else if (--size <= LUAI_MAXSHORTLEN) { /* short string? */ |
| 117 | char buff[LUAI_MAXSHORTLEN]; |
| 118 | loadVector(S, buff, size); /* load string into buffer */ |
| 119 | ts = luaS_newlstr(L, buff, size); /* create string */ |
| 120 | } |
| 121 | else { /* long string */ |
| 122 | ts = luaS_createlngstrobj(L, size); /* create string */ |
| 123 | setsvalue2s(L, L->top, ts); /* anchor it ('loadVector' can GC) */ |
| 124 | luaD_inctop(L); |
| 125 | loadVector(S, getstr(ts), size); /* load directly in final place */ |
| 126 | L->top--; /* pop string */ |
| 127 | } |
| 128 | luaC_objbarrier(L, p, ts); |
| 129 | return ts; |
| 130 | } |
| 131 | |
| 132 | |
| 133 | /* |
| 134 | ** Load a non-nullable string into prototype 'p'. |
| 135 | */ |
| 136 | static TString *loadString (LoadState *S, Proto *p) { |
| 137 | TString *st = loadStringN(S, p); |
| 138 | if (st == NULL) |
| 139 | error(S, "bad format for constant string"); |
| 140 | return st; |
| 141 | } |
| 142 | |
| 143 | |
| 144 | static void loadCode (LoadState *S, Proto *f) { |
| 145 | int n = loadInt(S); |
| 146 | f->code = luaM_newvectorchecked(S->L, n, Instruction); |
| 147 | f->sizecode = n; |
| 148 | loadVector(S, f->code, n); |
| 149 | } |
| 150 | |
| 151 | |
| 152 | static void loadFunction(LoadState *S, Proto *f, TString *psource); |
| 153 | |
| 154 | |
| 155 | static void loadConstants (LoadState *S, Proto *f) { |
| 156 | int i; |
| 157 | int n = loadInt(S); |
| 158 | f->k = luaM_newvectorchecked(S->L, n, TValue); |
| 159 | f->sizek = n; |
| 160 | for (i = 0; i < n; i++) |
| 161 | setnilvalue(&f->k[i]); |
| 162 | for (i = 0; i < n; i++) { |
| 163 | TValue *o = &f->k[i]; |
| 164 | int t = loadByte(S); |
| 165 | switch (t) { |
| 166 | case LUA_VNIL: |
| 167 | setnilvalue(o); |
| 168 | break; |
| 169 | case LUA_VFALSE: |
| 170 | setbfvalue(o); |
| 171 | break; |
| 172 | case LUA_VTRUE: |
| 173 | setbtvalue(o); |
| 174 | break; |
| 175 | case LUA_VNUMFLT: |
| 176 | setfltvalue(o, loadNumber(S)); |
| 177 | break; |
| 178 | case LUA_VNUMINT: |
| 179 | setivalue(o, loadInteger(S)); |
| 180 | break; |
| 181 | case LUA_VSHRSTR: |
| 182 | case LUA_VLNGSTR: |
| 183 | setsvalue2n(S->L, o, loadString(S, f)); |
| 184 | break; |
| 185 | default: lua_assert(0); |
| 186 | } |
| 187 | } |
| 188 | } |
| 189 | |
| 190 | |
| 191 | static void loadProtos (LoadState *S, Proto *f) { |
| 192 | int i; |
| 193 | int n = loadInt(S); |
| 194 | f->p = luaM_newvectorchecked(S->L, n, Proto *); |
| 195 | f->sizep = n; |
| 196 | for (i = 0; i < n; i++) |
| 197 | f->p[i] = NULL; |
| 198 | for (i = 0; i < n; i++) { |
| 199 | f->p[i] = luaF_newproto(S->L); |
| 200 | luaC_objbarrier(S->L, f, f->p[i]); |
| 201 | loadFunction(S, f->p[i], f->source); |
| 202 | } |
| 203 | } |
| 204 | |
| 205 | |
| 206 | /* |
| 207 | ** Load the upvalues for a function. The names must be filled first, |
| 208 | ** because the filling of the other fields can raise read errors and |
| 209 | ** the creation of the error message can call an emergency collection; |
| 210 | ** in that case all prototypes must be consistent for the GC. |
| 211 | */ |
| 212 | static void loadUpvalues (LoadState *S, Proto *f) { |
| 213 | int i, n; |
| 214 | n = loadInt(S); |
| 215 | f->upvalues = luaM_newvectorchecked(S->L, n, Upvaldesc); |
| 216 | f->sizeupvalues = n; |
| 217 | for (i = 0; i < n; i++) /* make array valid for GC */ |
| 218 | f->upvalues[i].name = NULL; |
| 219 | for (i = 0; i < n; i++) { /* following calls can raise errors */ |
| 220 | f->upvalues[i].instack = loadByte(S); |
| 221 | f->upvalues[i].idx = loadByte(S); |
| 222 | f->upvalues[i].kind = loadByte(S); |
| 223 | } |
| 224 | } |
| 225 | |
| 226 | |
| 227 | static void loadDebug (LoadState *S, Proto *f) { |
| 228 | int i, n; |
| 229 | n = loadInt(S); |
| 230 | f->lineinfo = luaM_newvectorchecked(S->L, n, ls_byte); |
| 231 | f->sizelineinfo = n; |
| 232 | loadVector(S, f->lineinfo, n); |
| 233 | n = loadInt(S); |
| 234 | f->abslineinfo = luaM_newvectorchecked(S->L, n, AbsLineInfo); |
| 235 | f->sizeabslineinfo = n; |
| 236 | for (i = 0; i < n; i++) { |
| 237 | f->abslineinfo[i].pc = loadInt(S); |
| 238 | f->abslineinfo[i].line = loadInt(S); |
| 239 | } |
| 240 | n = loadInt(S); |
| 241 | f->locvars = luaM_newvectorchecked(S->L, n, LocVar); |
| 242 | f->sizelocvars = n; |
| 243 | for (i = 0; i < n; i++) |
| 244 | f->locvars[i].varname = NULL; |
| 245 | for (i = 0; i < n; i++) { |
| 246 | f->locvars[i].varname = loadStringN(S, f); |
| 247 | f->locvars[i].startpc = loadInt(S); |
| 248 | f->locvars[i].endpc = loadInt(S); |
| 249 | } |
| 250 | n = loadInt(S); |
| 251 | for (i = 0; i < n; i++) |
| 252 | f->upvalues[i].name = loadStringN(S, f); |
| 253 | } |
| 254 | |
| 255 | |
| 256 | static void loadFunction (LoadState *S, Proto *f, TString *psource) { |
| 257 | f->source = loadStringN(S, f); |
| 258 | if (f->source == NULL) /* no source in dump? */ |
| 259 | f->source = psource; /* reuse parent's source */ |
| 260 | f->linedefined = loadInt(S); |
| 261 | f->lastlinedefined = loadInt(S); |
| 262 | f->numparams = loadByte(S); |
| 263 | f->is_vararg = loadByte(S); |
| 264 | f->maxstacksize = loadByte(S); |
| 265 | loadCode(S, f); |
| 266 | loadConstants(S, f); |
| 267 | loadUpvalues(S, f); |
| 268 | loadProtos(S, f); |
| 269 | loadDebug(S, f); |
| 270 | } |
| 271 | |
| 272 | |
| 273 | static void checkliteral (LoadState *S, const char *s, const char *msg) { |
| 274 | char buff[sizeof(LUA_SIGNATURE) + sizeof(LUAC_DATA)]; /* larger than both */ |
| 275 | size_t len = strlen(s); |
| 276 | loadVector(S, buff, len); |
| 277 | if (memcmp(s, buff, len) != 0) |
| 278 | error(S, msg); |
| 279 | } |
| 280 | |
| 281 | |
| 282 | static void fchecksize (LoadState *S, size_t size, const char *tname) { |
| 283 | if (loadByte(S) != size) |
| 284 | error(S, luaO_pushfstring(S->L, "%s size mismatch", tname)); |
| 285 | } |
| 286 | |
| 287 | |
| 288 | #define checksize(S,t) fchecksize(S,sizeof(t),#t) |
| 289 | |
| 290 | static void checkHeader (LoadState *S) { |
| 291 | /* skip 1st char (already read and checked) */ |
| 292 | checkliteral(S, &LUA_SIGNATURE[1], "not a binary chunk"); |
| 293 | if (loadByte(S) != LUAC_VERSION) |
| 294 | error(S, "version mismatch"); |
| 295 | if (loadByte(S) != LUAC_FORMAT) |
| 296 | error(S, "format mismatch"); |
| 297 | checkliteral(S, LUAC_DATA, "corrupted chunk"); |
| 298 | checksize(S, Instruction); |
| 299 | checksize(S, lua_Integer); |
| 300 | checksize(S, lua_Number); |
| 301 | if (loadInteger(S) != LUAC_INT) |
| 302 | error(S, "integer format mismatch"); |
| 303 | if (loadNumber(S) != LUAC_NUM) |
| 304 | error(S, "float format mismatch"); |
| 305 | } |
| 306 | |
| 307 | |
| 308 | /* |
| 309 | ** Load precompiled chunk. |
| 310 | */ |
| 311 | LClosure *luaU_undump(lua_State *L, ZIO *Z, const char *name) { |
| 312 | LoadState S; |
| 313 | LClosure *cl; |
| 314 | if (*name == '@' || *name == '=') |
| 315 | S.name = name + 1; |
| 316 | else if (*name == LUA_SIGNATURE[0]) |
| 317 | S.name = "binary string"; |
| 318 | else |
| 319 | S.name = name; |
| 320 | S.L = L; |
| 321 | S.Z = Z; |
| 322 | checkHeader(&S); |
| 323 | cl = luaF_newLclosure(L, loadByte(&S)); |
| 324 | setclLvalue2s(L, L->top, cl); |
| 325 | luaD_inctop(L); |
| 326 | cl->p = luaF_newproto(L); |
| 327 | luaC_objbarrier(L, cl, cl->p); |
| 328 | loadFunction(&S, cl->p, NULL); |
| 329 | lua_assert(cl->nupvalues == cl->p->sizeupvalues); |
| 330 | luai_verifycode(L, cl->p); |
| 331 | return cl; |
| 332 | } |
| 333 | |
| 334 |
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