From 6523585c66c04cea54df50013df8886b589847d8 Mon Sep 17 00:00:00 2001 From: David Walter Seikel Date: Mon, 23 Jan 2012 23:36:30 +1000 Subject: Add luaproc and LuaJIT libraries. Two versions of LuaJIT, the stable release, and the dev version. Try the dev version first, until ih fails badly. --- libraries/luajit-2.0/src/lj_bcwrite.c | 389 ++++++++++++++++++++++++++++++++++ 1 file changed, 389 insertions(+) create mode 100644 libraries/luajit-2.0/src/lj_bcwrite.c (limited to 'libraries/luajit-2.0/src/lj_bcwrite.c') diff --git a/libraries/luajit-2.0/src/lj_bcwrite.c b/libraries/luajit-2.0/src/lj_bcwrite.c new file mode 100644 index 0000000..de9b4cf --- /dev/null +++ b/libraries/luajit-2.0/src/lj_bcwrite.c @@ -0,0 +1,389 @@ +/* +** Bytecode writer. +** Copyright (C) 2005-2011 Mike Pall. See Copyright Notice in luajit.h +*/ + +#define lj_bcwrite_c +#define LUA_CORE + +#include "lj_obj.h" +#include "lj_gc.h" +#include "lj_str.h" +#include "lj_bc.h" +#if LJ_HASFFI +#include "lj_ctype.h" +#endif +#if LJ_HASJIT +#include "lj_dispatch.h" +#include "lj_jit.h" +#endif +#include "lj_bcdump.h" +#include "lj_vm.h" + +/* Context for bytecode writer. */ +typedef struct BCWriteCtx { + SBuf sb; /* Output buffer. */ + lua_State *L; /* Lua state. */ + GCproto *pt; /* Root prototype. */ + lua_Writer wfunc; /* Writer callback. */ + void *wdata; /* Writer callback data. */ + int strip; /* Strip debug info. */ + int status; /* Status from writer callback. */ +} BCWriteCtx; + +/* -- Output buffer handling ---------------------------------------------- */ + +/* Resize buffer if needed. */ +static LJ_NOINLINE void bcwrite_resize(BCWriteCtx *ctx, MSize len) +{ + MSize sz = ctx->sb.sz * 2; + while (ctx->sb.n + len > sz) sz = sz * 2; + lj_str_resizebuf(ctx->L, &ctx->sb, sz); +} + +/* Need a certain amount of buffer space. */ +static LJ_AINLINE void bcwrite_need(BCWriteCtx *ctx, MSize len) +{ + if (LJ_UNLIKELY(ctx->sb.n + len > ctx->sb.sz)) + bcwrite_resize(ctx, len); +} + +/* Add memory block to buffer. */ +static void bcwrite_block(BCWriteCtx *ctx, const void *p, MSize len) +{ + uint8_t *q = (uint8_t *)(ctx->sb.buf + ctx->sb.n); + MSize i; + ctx->sb.n += len; + for (i = 0; i < len; i++) q[i] = ((uint8_t *)p)[i]; +} + +/* Add byte to buffer. */ +static LJ_AINLINE void bcwrite_byte(BCWriteCtx *ctx, uint8_t b) +{ + ctx->sb.buf[ctx->sb.n++] = b; +} + +/* Add ULEB128 value to buffer. */ +static void bcwrite_uleb128(BCWriteCtx *ctx, uint32_t v) +{ + MSize n = ctx->sb.n; + uint8_t *p = (uint8_t *)ctx->sb.buf; + for (; v >= 0x80; v >>= 7) + p[n++] = (uint8_t)((v & 0x7f) | 0x80); + p[n++] = (uint8_t)v; + ctx->sb.n = n; +} + +/* -- Bytecode writer ----------------------------------------------------- */ + +/* Write a single constant key/value of a template table. */ +static void bcwrite_ktabk(BCWriteCtx *ctx, cTValue *o, int narrow) +{ + bcwrite_need(ctx, 1+10); + if (tvisstr(o)) { + const GCstr *str = strV(o); + MSize len = str->len; + bcwrite_need(ctx, 5+len); + bcwrite_uleb128(ctx, BCDUMP_KTAB_STR+len); + bcwrite_block(ctx, strdata(str), len); + } else if (tvisint(o)) { + bcwrite_byte(ctx, BCDUMP_KTAB_INT); + bcwrite_uleb128(ctx, intV(o)); + } else if (tvisnum(o)) { + if (!LJ_DUALNUM && narrow) { /* Narrow number constants to integers. */ + lua_Number num = numV(o); + int32_t k = lj_num2int(num); + if (num == (lua_Number)k) { /* -0 is never a constant. */ + bcwrite_byte(ctx, BCDUMP_KTAB_INT); + bcwrite_uleb128(ctx, k); + return; + } + } + bcwrite_byte(ctx, BCDUMP_KTAB_NUM); + bcwrite_uleb128(ctx, o->u32.lo); + bcwrite_uleb128(ctx, o->u32.hi); + } else { + lua_assert(tvispri(o)); + bcwrite_byte(ctx, BCDUMP_KTAB_NIL+~itype(o)); + } +} + +/* Write a template table. */ +static void bcwrite_ktab(BCWriteCtx *ctx, const GCtab *t) +{ + MSize narray = 0, nhash = 0; + if (t->asize > 0) { /* Determine max. length of array part. */ + ptrdiff_t i; + TValue *array = tvref(t->array); + for (i = (ptrdiff_t)t->asize-1; i >= 0; i--) + if (!tvisnil(&array[i])) + break; + narray = (MSize)(i+1); + } + if (t->hmask > 0) { /* Count number of used hash slots. */ + MSize i, hmask = t->hmask; + Node *node = noderef(t->node); + for (i = 0; i <= hmask; i++) + nhash += !tvisnil(&node[i].val); + } + /* Write number of array slots and hash slots. */ + bcwrite_uleb128(ctx, narray); + bcwrite_uleb128(ctx, nhash); + if (narray) { /* Write array entries (may contain nil). */ + MSize i; + TValue *o = tvref(t->array); + for (i = 0; i < narray; i++, o++) + bcwrite_ktabk(ctx, o, 1); + } + if (nhash) { /* Write hash entries. */ + MSize i = nhash; + Node *node = noderef(t->node) + t->hmask; + for (;; node--) + if (!tvisnil(&node->val)) { + bcwrite_ktabk(ctx, &node->key, 0); + bcwrite_ktabk(ctx, &node->val, 1); + if (--i == 0) break; + } + } +} + +/* Write GC constants of a prototype. */ +static void bcwrite_kgc(BCWriteCtx *ctx, GCproto *pt) +{ + MSize i, sizekgc = pt->sizekgc; + GCRef *kr = mref(pt->k, GCRef) - (ptrdiff_t)sizekgc; + for (i = 0; i < sizekgc; i++, kr++) { + GCobj *o = gcref(*kr); + MSize tp, need = 1; + /* Determine constant type and needed size. */ + if (o->gch.gct == ~LJ_TSTR) { + tp = BCDUMP_KGC_STR + gco2str(o)->len; + need = 5+gco2str(o)->len; + } else if (o->gch.gct == ~LJ_TPROTO) { + lua_assert((pt->flags & PROTO_CHILD)); + tp = BCDUMP_KGC_CHILD; +#if LJ_HASFFI + } else if (o->gch.gct == ~LJ_TCDATA) { + CTypeID id = gco2cd(o)->typeid; + need = 1+4*5; + if (id == CTID_INT64) { + tp = BCDUMP_KGC_I64; + } else if (id == CTID_UINT64) { + tp = BCDUMP_KGC_U64; + } else { + lua_assert(id == CTID_COMPLEX_DOUBLE); + tp = BCDUMP_KGC_COMPLEX; + } +#endif + } else { + lua_assert(o->gch.gct == ~LJ_TTAB); + tp = BCDUMP_KGC_TAB; + } + /* Write constant type. */ + bcwrite_need(ctx, need); + bcwrite_uleb128(ctx, tp); + /* Write constant data (if any). */ + if (tp >= BCDUMP_KGC_STR) { + bcwrite_block(ctx, strdata(gco2str(o)), gco2str(o)->len); + } else if (tp == BCDUMP_KGC_TAB) { + bcwrite_ktab(ctx, gco2tab(o)); +#if LJ_HASFFI + } else if (tp != BCDUMP_KGC_CHILD) { + cTValue *p = (TValue *)cdataptr(gco2cd(o)); + bcwrite_uleb128(ctx, p[0].u32.lo); + bcwrite_uleb128(ctx, p[0].u32.hi); + if (tp == BCDUMP_KGC_COMPLEX) { + bcwrite_uleb128(ctx, p[1].u32.lo); + bcwrite_uleb128(ctx, p[1].u32.hi); + } +#endif + } + } +} + +/* Write number constants of a prototype. */ +static void bcwrite_knum(BCWriteCtx *ctx, GCproto *pt) +{ + MSize i, sizekn = pt->sizekn; + cTValue *o = mref(pt->k, TValue); + bcwrite_need(ctx, 10*sizekn); + for (i = 0; i < sizekn; i++, o++) { + int32_t k; + if (tvisint(o)) { + k = intV(o); + goto save_int; + } else { + /* Write a 33 bit ULEB128 for the int (lsb=0) or loword (lsb=1). */ + if (!LJ_DUALNUM) { /* Narrow number constants to integers. */ + lua_Number num = numV(o); + k = lj_num2int(num); + if (num == (lua_Number)k) { /* -0 is never a constant. */ + save_int: + bcwrite_uleb128(ctx, 2*(uint32_t)k); + if (k < 0) ctx->sb.buf[ctx->sb.n-1] |= 0x10; + continue; + } + } + bcwrite_uleb128(ctx, 1+2*o->u32.lo); + if (o->u32.lo >= 0x80000000u) ctx->sb.buf[ctx->sb.n-1] |= 0x10; + bcwrite_uleb128(ctx, o->u32.hi); + } + } +} + +/* Write bytecode instructions. */ +static void bcwrite_bytecode(BCWriteCtx *ctx, GCproto *pt) +{ + MSize nbc = pt->sizebc-1; /* Omit the [JI]FUNC* header. */ +#if LJ_HASJIT + uint8_t *p = (uint8_t *)&ctx->sb.buf[ctx->sb.n]; +#endif + bcwrite_block(ctx, proto_bc(pt)+1, nbc*(MSize)sizeof(BCIns)); +#if LJ_HASJIT + /* Unpatch modified bytecode containing ILOOP/JLOOP etc. */ + if ((pt->flags & PROTO_ILOOP) || pt->trace) { + jit_State *J = L2J(ctx->L); + MSize i; + for (i = 0; i < nbc; i++, p += sizeof(BCIns)) { + BCOp op = (BCOp)p[LJ_ENDIAN_SELECT(0, 3)]; + if (op == BC_IFORL || op == BC_IITERL || op == BC_ILOOP || + op == BC_JFORI) { + p[LJ_ENDIAN_SELECT(0, 3)] = (uint8_t)(op-BC_IFORL+BC_FORL); + } else if (op == BC_JFORL || op == BC_JITERL || op == BC_JLOOP) { + BCReg rd = p[LJ_ENDIAN_SELECT(2, 1)] + (p[LJ_ENDIAN_SELECT(3, 0)] << 8); + BCIns ins = traceref(J, rd)->startins; + p[LJ_ENDIAN_SELECT(0, 3)] = (uint8_t)(op-BC_JFORL+BC_FORL); + p[LJ_ENDIAN_SELECT(2, 1)] = bc_c(ins); + p[LJ_ENDIAN_SELECT(3, 0)] = bc_b(ins); + } + } + } +#endif +} + +/* Write prototype. */ +static void bcwrite_proto(BCWriteCtx *ctx, GCproto *pt) +{ + MSize sizedbg = 0; + + /* Recursively write children of prototype. */ + if ((pt->flags & PROTO_CHILD)) { + ptrdiff_t i, n = pt->sizekgc; + GCRef *kr = mref(pt->k, GCRef) - 1; + for (i = 0; i < n; i++, kr--) { + GCobj *o = gcref(*kr); + if (o->gch.gct == ~LJ_TPROTO) + bcwrite_proto(ctx, gco2pt(o)); + } + } + + /* Start writing the prototype info to a buffer. */ + lj_str_resetbuf(&ctx->sb); + ctx->sb.n = 5; /* Leave room for final size. */ + bcwrite_need(ctx, 4+6*5+(pt->sizebc-1)*(MSize)sizeof(BCIns)+pt->sizeuv*2); + + /* Write prototype header. */ + bcwrite_byte(ctx, (pt->flags & (PROTO_CHILD|PROTO_VARARG|PROTO_FFI))); + bcwrite_byte(ctx, pt->numparams); + bcwrite_byte(ctx, pt->framesize); + bcwrite_byte(ctx, pt->sizeuv); + bcwrite_uleb128(ctx, pt->sizekgc); + bcwrite_uleb128(ctx, pt->sizekn); + bcwrite_uleb128(ctx, pt->sizebc-1); + if (!ctx->strip) { + if (proto_lineinfo(pt)) + sizedbg = pt->sizept - (MSize)((char *)proto_lineinfo(pt) - (char *)pt); + bcwrite_uleb128(ctx, sizedbg); + if (sizedbg) { + bcwrite_uleb128(ctx, pt->firstline); + bcwrite_uleb128(ctx, pt->numline); + } + } + + /* Write bytecode instructions and upvalue refs. */ + bcwrite_bytecode(ctx, pt); + bcwrite_block(ctx, proto_uv(pt), pt->sizeuv*2); + + /* Write constants. */ + bcwrite_kgc(ctx, pt); + bcwrite_knum(ctx, pt); + + /* Write debug info, if not stripped. */ + if (sizedbg) { + bcwrite_need(ctx, sizedbg); + bcwrite_block(ctx, proto_lineinfo(pt), sizedbg); + } + + /* Pass buffer to writer function. */ + if (ctx->status == 0) { + MSize n = ctx->sb.n - 5; + MSize nn = 1 + lj_fls(n)/7; + ctx->sb.n = 5 - nn; + bcwrite_uleb128(ctx, n); /* Fill in final size. */ + lua_assert(ctx->sb.n == 5); + ctx->status = ctx->wfunc(ctx->L, ctx->sb.buf+5-nn, nn+n, ctx->wdata); + } +} + +/* Write header of bytecode dump. */ +static void bcwrite_header(BCWriteCtx *ctx) +{ + GCstr *chunkname = proto_chunkname(ctx->pt); + const char *name = strdata(chunkname); + MSize len = chunkname->len; + lj_str_resetbuf(&ctx->sb); + bcwrite_need(ctx, 5+5+len); + bcwrite_byte(ctx, BCDUMP_HEAD1); + bcwrite_byte(ctx, BCDUMP_HEAD2); + bcwrite_byte(ctx, BCDUMP_HEAD3); + bcwrite_byte(ctx, BCDUMP_VERSION); + bcwrite_byte(ctx, (ctx->strip ? BCDUMP_F_STRIP : 0) + + (LJ_BE ? BCDUMP_F_BE : 0) + + ((ctx->pt->flags & PROTO_FFI) ? BCDUMP_F_FFI : 0)); + if (!ctx->strip) { + bcwrite_uleb128(ctx, len); + bcwrite_block(ctx, name, len); + } + ctx->status = ctx->wfunc(ctx->L, ctx->sb.buf, ctx->sb.n, ctx->wdata); +} + +/* Write footer of bytecode dump. */ +static void bcwrite_footer(BCWriteCtx *ctx) +{ + if (ctx->status == 0) { + uint8_t zero = 0; + ctx->status = ctx->wfunc(ctx->L, &zero, 1, ctx->wdata); + } +} + +/* Protected callback for bytecode writer. */ +static TValue *cpwriter(lua_State *L, lua_CFunction dummy, void *ud) +{ + BCWriteCtx *ctx = (BCWriteCtx *)ud; + UNUSED(dummy); + lj_str_resizebuf(L, &ctx->sb, 1024); /* Avoids resize for most prototypes. */ + bcwrite_header(ctx); + bcwrite_proto(ctx, ctx->pt); + bcwrite_footer(ctx); + return NULL; +} + +/* Write bytecode for a prototype. */ +int lj_bcwrite(lua_State *L, GCproto *pt, lua_Writer writer, void *data, + int strip) +{ + BCWriteCtx ctx; + int status; + ctx.L = L; + ctx.pt = pt; + ctx.wfunc = writer; + ctx.wdata = data; + ctx.strip = strip; + ctx.status = 0; + lj_str_initbuf(&ctx.sb); + status = lj_vm_cpcall(L, NULL, &ctx, cpwriter); + if (status == 0) status = ctx.status; + lj_str_freebuf(G(ctx.L), &ctx.sb); + return status; +} + -- cgit v1.1