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|
/* $Id$ */
/* Pluto - Heavy-duty persistence for Lua
* Copyright (C) 2004 by Ben Sunshine-Hill, and released into the public
* domain. People making use of this software as part of an application
* are politely requested to email the author at sneftel@gmail.com
* with a brief description of the application, primarily to satisfy his
* curiosity.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY
* CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
* SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*/
#include "sword25/util/lua/lua.h"
#include "pluto.h"
#define USE_PDEP
#ifdef USE_PDEP
#include "pdep/pdep.h"
#define LIF(prefix, name) pdep ## _ ## name
#else
#include "lapi.h"
#include "ldo.h"
#include "lfunc.h"
#include "lgc.h"
#include "llimits.h"
#include "lmem.h"
#include "lobject.h"
#include "lopcodes.h"
#include "lstate.h"
#include "lstring.h"
#include "lauxlib.h"
#define LIF(prefix, name) lua ## prefix ## _ ## name
#endif
#include <string.h>
/* #define PLUTO_DEBUG */
#ifdef PLUTO_DEBUG
#include <stdio.h>
#endif
#define PLUTO_TPERMANENT 101
#define verify(x) { int v = (int)((x)); v=v; lua_assert(v); }
typedef struct PersistInfo_t {
lua_State *L;
int counter;
lua_Chunkwriter writer;
void *ud;
#ifdef PLUTO_DEBUG
int level;
#endif
} PersistInfo;
#ifdef PLUTO_DEBUG
void printindent(int indent)
{
int il;
for(il=0; il<indent; il++) {
printf(" ");
}
}
#endif
/* Mutual recursion requires prototype */
static void persist(PersistInfo *pi);
/* A simple reimplementation of the unfortunately static function luaA_index.
* Does not support the global table, registry, or upvalues. */
static StkId getobject(lua_State *L, int stackpos)
{
if(stackpos > 0) {
lua_assert(L->base+stackpos-1 < L->top);
return L->base+stackpos-1;
} else {
lua_assert(L->top-stackpos >= L->base);
return L->top+stackpos;
}
}
/* Choose whether to do a regular or special persistence based on an object's
* metatable. "default" is whether the object, if it doesn't have a __persist
* entry, is literally persistable or not.
* Pushes the unpersist closure and returns true if special persistence is
* used. */
static int persistspecialobject(PersistInfo *pi, int defaction)
{
/* perms reftbl ... obj */
lua_checkstack(pi->L, 4);
/* Check whether we should persist literally, or via the __persist
* metafunction */
if(!lua_getmetatable(pi->L, -1)) {
if(defaction) {
{
int zero = 0;
pi->writer(pi->L, &zero, sizeof(int), pi->ud);
}
return 0;
} else {
lua_pushstring(pi->L, "Type not literally persistable by default");
lua_error(pi->L);
}
}
/* perms reftbl sptbl ... obj mt */
lua_pushstring(pi->L, "__persist");
/* perms reftbl sptbl ... obj mt "__persist" */
lua_rawget(pi->L, -2);
/* perms reftbl sptbl ... obj mt __persist? */
if(lua_isnil(pi->L, -1)) {
/* perms reftbl sptbl ... obj mt nil */
lua_pop(pi->L, 2);
/* perms reftbl sptbl ... obj */
if(defaction) {
{
int zero = 0;
pi->writer(pi->L, &zero, sizeof(int), pi->ud);
}
return 0;
} else {
lua_pushstring(pi->L, "Type not literally persistable by default");
lua_error(pi->L);
return 0; /* not reached */
}
} else if(lua_isboolean(pi->L, -1)) {
/* perms reftbl sptbl ... obj mt bool */
if(lua_toboolean(pi->L, -1)) {
/* perms reftbl sptbl ... obj mt true */
lua_pop(pi->L, 2);
/* perms reftbl sptbl ... obj */
{
int zero = 0;
pi->writer(pi->L, &zero, sizeof(int), pi->ud);
}
return 0;
} else {
lua_pushstring(pi->L, "Metatable forbade persistence");
lua_error(pi->L);
return 0; /* not reached */
}
} else if(!lua_isfunction(pi->L, -1)) {
lua_pushstring(pi->L, "__persist not nil, boolean, or function");
lua_error(pi->L);
}
/* perms reftbl ... obj mt __persist */
lua_pushvalue(pi->L, -3);
/* perms reftbl ... obj mt __persist obj */
#ifdef PLUTO_PASS_USERDATA_TO_PERSIST
lua_pushlightuserdata(pi->L, (void*)pi->writer);
lua_pushlightuserdata(pi->L, pi->ud);
/* perms reftbl ... obj mt __persist obj ud */
lua_call(pi->L, 3, 1);
/* perms reftbl ... obj mt func? */
#else
lua_call(pi->L, 1, 1);
/* perms reftbl ... obj mt func? */
#endif
/* perms reftbl ... obj mt func? */
if(!lua_isfunction(pi->L, -1)) {
lua_pushstring(pi->L, "__persist function did not return a function");
lua_error(pi->L);
}
/* perms reftbl ... obj mt func */
{
int one = 1;
pi->writer(pi->L, &one, sizeof(int), pi->ud);
}
persist(pi);
/* perms reftbl ... obj mt func */
lua_pop(pi->L, 2);
/* perms reftbl ... obj */
return 1;
}
static void persisttable(PersistInfo *pi)
{
/* perms reftbl ... tbl */
lua_checkstack(pi->L, 3);
if(persistspecialobject(pi, 1)) {
/* perms reftbl ... tbl */
return;
}
/* perms reftbl ... tbl */
/* First, persist the metatable (if any) */
if(!lua_getmetatable(pi->L, -1)) {
lua_pushnil(pi->L);
}
/* perms reftbl ... tbl mt/nil */
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... tbl */
/* Now, persist all k/v pairs */
lua_pushnil(pi->L);
/* perms reftbl ... tbl nil */
while(lua_next(pi->L, -2)) {
/* perms reftbl ... tbl k v */
lua_pushvalue(pi->L, -2);
/* perms reftbl ... tbl k v k */
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... tbl k v */
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... tbl k */
}
/* perms reftbl ... tbl */
/* Terminate list */
lua_pushnil(pi->L);
/* perms reftbl ... tbl nil */
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... tbl */
}
static void persistuserdata(PersistInfo *pi) {
/* perms reftbl ... udata */
lua_checkstack(pi->L, 2);
if(persistspecialobject(pi, 0)) {
/* perms reftbl ... udata */
return;
} else {
/* Use literal persistence */
size_t length = uvalue(getobject(pi->L, -1))->len;
pi->writer(pi->L, &length, sizeof(size_t), pi->ud);
pi->writer(pi->L, lua_touserdata(pi->L, -1), length, pi->ud);
if(!lua_getmetatable(pi->L, -1)) {
/* perms reftbl ... udata */
lua_pushnil(pi->L);
/* perms reftbl ... udata mt/nil */
}
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... udata */
}
}
static Proto *toproto(lua_State *L, int stackpos)
{
return gco2p(getobject(L, stackpos)->value.gc);
}
static UpVal *toupval(lua_State *L, int stackpos)
{
lua_assert(ttype(getobject(L, stackpos)) == LUA_TUPVAL);
return gco2uv(getobject(L, stackpos)->value.gc);
}
static void pushproto(lua_State *L, Proto *proto)
{
TValue o;
setptvalue(L, &o, proto);
LIF(A,pushobject)(L, &o);
}
#define setuvvalue(L,obj,x) \
{ TValue *i_o=(obj); \
i_o->value.gc=cast(GCObject *, (x)); i_o->tt=LUA_TUPVAL; \
checkliveness(G(L),i_o); }
static void pushupval(lua_State *L, UpVal *upval)
{
TValue o;
setuvvalue(L, &o, upval);
LIF(A,pushobject)(L, &o);
}
static void pushclosure(lua_State *L, Closure *closure)
{
TValue o;
setclvalue(L, &o, closure);
LIF(A,pushobject)(L, &o);
}
static void pushstring(lua_State *L, TString *s)
{
TValue o;
setsvalue(L, &o, s);
LIF(A,pushobject)(L, &o);
}
static void persistfunction(PersistInfo *pi)
{
/* perms reftbl ... func */
Closure *cl = clvalue(getobject(pi->L, -1));
lua_checkstack(pi->L, 2);
if(cl->c.isC) {
/* It's a C function. For now, we aren't going to allow
* persistence of C closures, even if the "C proto" is
* already in the permanents table. */
lua_pushstring(pi->L, "Attempt to persist a C function");
lua_error(pi->L);
} else {
/* It's a Lua closure. */
{
/* We don't really _NEED_ the number of upvals,
* but it'll simplify things a bit */
pi->writer(pi->L, &cl->l.p->nups, sizeof(lu_byte), pi->ud);
}
/* Persist prototype */
{
pushproto(pi->L, cl->l.p);
/* perms reftbl ... func proto */
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... func */
}
/* Persist upvalue values (not the upvalue objects
* themselves) */
{
int i;
for(i=0; i<cl->l.p->nups; i++) {
/* perms reftbl ... func */
pushupval(pi->L, cl->l.upvals[i]);
/* perms reftbl ... func upval */
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... func */
}
/* perms reftbl ... func */
}
/* Persist function environment */
{
lua_getfenv(pi->L, -1);
/* perms reftbl ... func fenv */
if(lua_equal(pi->L, -1, LUA_GLOBALSINDEX)) {
/* Function has the default fenv */
/* perms reftbl ... func _G */
lua_pop(pi->L, 1);
/* perms reftbl ... func */
lua_pushnil(pi->L);
/* perms reftbl ... func nil */
}
/* perms reftbl ... func fenv/nil */
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... func */
}
}
}
/* Upvalues are tricky. Here's why.
*
* A particular upvalue may be either "open", in which case its member v
* points into a thread's stack, or "closed" in which case it points to the
* upvalue itself. An upvalue is closed under any of the following conditions:
* -- The function that initially declared the variable "local" returns
* -- The thread in which the closure was created is garbage collected
*
* To make things wackier, just because a thread is reachable by Lua doesn't
* mean it's in our root set. We need to be able to treat an open upvalue
* from an unreachable thread as a closed upvalue.
*
* The solution:
* (a) For the purposes of persisting, don't indicate whether an upvalue is
* closed or not.
* (b) When unpersisting, pretend that all upvalues are closed.
* (c) When persisting, persist all open upvalues referenced by a thread
* that is persisted, and tag each one with the corresponding stack position
* (d) When unpersisting, "reopen" each of these upvalues as the thread is
* unpersisted
*/
static void persistupval(PersistInfo *pi)
{
/* perms reftbl ... upval */
UpVal *uv = toupval(pi->L, -1);
lua_checkstack(pi->L, 1);
/* We can't permit the upval to linger around on the stack, as Lua
* will bail if its GC finds it. */
lua_pop(pi->L, 1);
/* perms reftbl ... */
LIF(A,pushobject)(pi->L, uv->v);
/* perms reftbl ... obj */
persist(pi);
/* perms reftbl ... obj */
}
static void persistproto(PersistInfo *pi)
{
/* perms reftbl ... proto */
Proto *p = toproto(pi->L, -1);
lua_checkstack(pi->L, 2);
/* Persist constant refs */
{
int i;
pi->writer(pi->L, &p->sizek, sizeof(int), pi->ud);
for(i=0; i<p->sizek; i++) {
LIF(A,pushobject)(pi->L, &p->k[i]);
/* perms reftbl ... proto const */
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... proto */
}
}
/* perms reftbl ... proto */
/* serialize inner Proto refs */
{
int i;
pi->writer(pi->L, &p->sizep, sizeof(int), pi->ud);
for(i=0; i<p->sizep; i++)
{
pushproto(pi->L, p->p[i]);
/* perms reftbl ... proto subproto */
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... proto */
}
}
/* perms reftbl ... proto */
/* Serialize code */
{
pi->writer(pi->L, &p->sizecode, sizeof(int), pi->ud);
pi->writer(pi->L, p->code, sizeof(Instruction) * p->sizecode, pi->ud);
}
/* Serialize upvalue names */
{
int i;
pi->writer(pi->L, &p->sizeupvalues, sizeof(int), pi->ud);
for(i=0; i<p->sizeupvalues; i++)
{
pushstring(pi->L, p->upvalues[i]);
persist(pi);
lua_pop(pi->L, 1);
}
}
/* Serialize local variable infos */
{
int i;
pi->writer(pi->L, &p->sizelocvars, sizeof(int), pi->ud);
for(i=0; i<p->sizelocvars; i++)
{
pushstring(pi->L, p->locvars[i].varname);
persist(pi);
lua_pop(pi->L, 1);
pi->writer(pi->L, &p->locvars[i].startpc, sizeof(int), pi->ud);
pi->writer(pi->L, &p->locvars[i].endpc, sizeof(int), pi->ud);
}
}
/* Serialize source string */
pushstring(pi->L, p->source);
persist(pi);
lua_pop(pi->L, 1);
/* Serialize line numbers */
{
pi->writer(pi->L, &p->sizelineinfo, sizeof(int), pi->ud);
if (p->sizelineinfo)
{
pi->writer(pi->L, p->lineinfo, sizeof(int) * p->sizelineinfo, pi->ud);
}
}
/* Serialize linedefined and lastlinedefined */
pi->writer(pi->L, &p->linedefined, sizeof(int), pi->ud);
pi->writer(pi->L, &p->lastlinedefined, sizeof(int), pi->ud);
/* Serialize misc values */
{
pi->writer(pi->L, &p->nups, sizeof(lu_byte), pi->ud);
pi->writer(pi->L, &p->numparams, sizeof(lu_byte), pi->ud);
pi->writer(pi->L, &p->is_vararg, sizeof(lu_byte), pi->ud);
pi->writer(pi->L, &p->maxstacksize, sizeof(lu_byte), pi->ud);
}
/* We do not currently persist upvalue names, local variable names,
* variable lifetimes, line info, or source code. */
}
/* Copies a stack, but the stack is reversed in the process
*/
static size_t revappendstack(lua_State *from, lua_State *to)
{
StkId o;
for(o=from->top-1; o>=from->stack; o--) {
setobj2s(to, to->top, o);
to->top++;
}
return from->top - from->stack;
}
/* Persist all stack members
*/
static void persistthread(PersistInfo *pi)
{
size_t posremaining;
lua_State *L2;
/* perms reftbl ... thr */
L2 = lua_tothread(pi->L, -1);
lua_checkstack(pi->L, L2->top - L2->stack + 1);
if(pi->L == L2) {
lua_pushstring(pi->L, "Can't persist currently running thread");
lua_error(pi->L);
return; /* not reached */
}
/* Persist the stack */
posremaining = revappendstack(L2, pi->L);
/* perms reftbl ... thr (rev'ed contents of L2) */
pi->writer(pi->L, &posremaining, sizeof(size_t), pi->ud);
for(; posremaining > 0; posremaining--) {
persist(pi);
lua_pop(pi->L, 1);
}
/* perms reftbl ... thr */
/* Now, persist the CallInfo stack. */
{
size_t i, numframes = (L2->ci - L2->base_ci) + 1;
pi->writer(pi->L, &numframes, sizeof(size_t), pi->ud);
for(i=0; i<numframes; i++) {
CallInfo *ci = L2->base_ci + i;
size_t stackbase = ci->base - L2->stack;
size_t stackfunc = ci->func - L2->stack;
size_t stacktop = ci->top - L2->stack;
size_t savedpc = (ci != L2->base_ci) ?
ci->savedpc - ci_func(ci)->l.p->code :
0;
pi->writer(pi->L, &stackbase, sizeof(size_t), pi->ud);
pi->writer(pi->L, &stackfunc, sizeof(size_t), pi->ud);
pi->writer(pi->L, &stacktop, sizeof(size_t), pi->ud);
pi->writer(pi->L, &ci->nresults, sizeof(int), pi->ud);
pi->writer(pi->L, &savedpc, sizeof(size_t), pi->ud);
}
}
/* Serialize the state's other parameters, with the exception of upval stuff */
{
size_t stackbase = L2->base - L2->stack;
size_t stacktop = L2->top - L2->stack;
lua_assert(L2->nCcalls <= 1);
pi->writer(pi->L, &L2->status, sizeof(lu_byte), pi->ud);
pi->writer(pi->L, &stackbase, sizeof(size_t), pi->ud);
pi->writer(pi->L, &stacktop, sizeof(size_t), pi->ud);
pi->writer(pi->L, &L2->errfunc, sizeof(ptrdiff_t), pi->ud);
}
/* Finally, record upvalues which need to be reopened */
/* See the comment above persistupval() for why we do this */
{
GCObject *gco;
UpVal *uv;
/* perms reftbl ... thr */
for(gco = L2->openupval; gco != NULL; gco = uv->next) {
size_t stackpos;
uv = gco2uv(gco);
/* Make sure upvalue is really open */
lua_assert(uv->v != &uv->u.value);
pushupval(pi->L, uv);
/* perms reftbl ... thr uv */
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... thr */
stackpos = uv->v - L2->stack;
pi->writer(pi->L, &stackpos, sizeof(size_t), pi->ud);
}
/* perms reftbl ... thr */
lua_pushnil(pi->L);
/* perms reftbl ... thr nil */
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... thr */
}
/* perms reftbl ... thr */
}
static void persistboolean(PersistInfo *pi)
{
int b = lua_toboolean(pi->L, -1);
pi->writer(pi->L, &b, sizeof(int), pi->ud);
}
static void persistlightuserdata(PersistInfo *pi)
{
void *p = lua_touserdata(pi->L, -1);
pi->writer(pi->L, &p, sizeof(void *), pi->ud);
}
static void persistnumber(PersistInfo *pi)
{
lua_Number n = lua_tonumber(pi->L, -1);
pi->writer(pi->L, &n, sizeof(lua_Number), pi->ud);
}
static void persiststring(PersistInfo *pi)
{
size_t length = lua_strlen(pi->L, -1);
pi->writer(pi->L, &length, sizeof(size_t), pi->ud);
pi->writer(pi->L, lua_tostring(pi->L, -1), length, pi->ud);
}
/* Top-level delegating persist function
*/
static void persist(PersistInfo *pi)
{
/* perms reftbl ... obj */
lua_checkstack(pi->L, 2);
/* If the object has already been written, write a reference to it */
lua_pushvalue(pi->L, -1);
/* perms reftbl ... obj obj */
lua_rawget(pi->L, 2);
/* perms reftbl ... obj ref? */
if(!lua_isnil(pi->L, -1)) {
/* perms reftbl ... obj ref */
int zero = 0;
// FIXME: Casting a pointer to an integer data type is a bad idea we
// should really get rid of this by fixing the design of this code.
// For now casting to size_t should silence most (all?) compilers,
// since size_t is supposedly the same size as a pointer on most
// (modern) architectures.
int ref = (int)(size_t)lua_touserdata(pi->L, -1);
pi->writer(pi->L, &zero, sizeof(int), pi->ud);
pi->writer(pi->L, &ref, sizeof(int), pi->ud);
lua_pop(pi->L, 1);
/* perms reftbl ... obj ref */
#ifdef PLUTO_DEBUG
printindent(pi->level);
printf("0 %d\n", ref);
#endif
return;
}
/* perms reftbl ... obj nil */
lua_pop(pi->L, 1);
/* perms reftbl ... obj */
/* If the object is nil, write the pseudoreference 0 */
if(lua_isnil(pi->L, -1)) {
int zero = 0;
/* firsttime */
pi->writer(pi->L, &zero, sizeof(int), pi->ud);
/* ref */
pi->writer(pi->L, &zero, sizeof(int), pi->ud);
#ifdef PLUTO_DEBUG
printindent(pi->level);
printf("0 0\n");
#endif
return;
}
{
/* indicate that it's the first time */
int one = 1;
pi->writer(pi->L, &one, sizeof(int), pi->ud);
}
lua_pushvalue(pi->L, -1);
/* perms reftbl ... obj obj */
lua_pushlightuserdata(pi->L, (void*)(++(pi->counter)));
/* perms reftbl ... obj obj ref */
lua_rawset(pi->L, 2);
/* perms reftbl ... obj */
pi->writer(pi->L, &pi->counter, sizeof(int), pi->ud);
/* At this point, we'll give the permanents table a chance to play. */
{
lua_pushvalue(pi->L, -1);
/* perms reftbl ... obj obj */
lua_gettable(pi->L, 1);
/* perms reftbl ... obj permkey? */
if(!lua_isnil(pi->L, -1)) {
/* perms reftbl ... obj permkey */
int type = PLUTO_TPERMANENT;
#ifdef PLUTO_DEBUG
printindent(pi->level);
printf("1 %d PERM\n", pi->counter);
pi->level++;
#endif
pi->writer(pi->L, &type, sizeof(int), pi->ud);
persist(pi);
lua_pop(pi->L, 1);
/* perms reftbl ... obj */
#ifdef PLUTO_DEBUG
pi->level--;
#endif
return;
} else {
/* perms reftbl ... obj nil */
lua_pop(pi->L, 1);
/* perms reftbl ... obj */
}
/* perms reftbl ... obj */
}
{
int type = lua_type(pi->L, -1);
pi->writer(pi->L, &type, sizeof(int), pi->ud);
#ifdef PLUTO_DEBUG
printindent(pi->level);
printf("1 %d %d\n", pi->counter, type);
pi->level++;
#endif
}
switch(lua_type(pi->L, -1)) {
case LUA_TBOOLEAN:
persistboolean(pi);
break;
case LUA_TLIGHTUSERDATA:
persistlightuserdata(pi);
break;
case LUA_TNUMBER:
persistnumber(pi);
break;
case LUA_TSTRING:
persiststring(pi);
break;
case LUA_TTABLE:
persisttable(pi);
break;
case LUA_TFUNCTION:
persistfunction(pi);
break;
case LUA_TTHREAD:
persistthread(pi);
break;
case LUA_TPROTO:
persistproto(pi);
break;
case LUA_TUPVAL:
persistupval(pi);
break;
case LUA_TUSERDATA:
persistuserdata(pi);
break;
default:
lua_assert(0);
}
#ifdef PLUTO_DEBUG
pi->level--;
#endif
}
void pluto_persist(lua_State *L, lua_Chunkwriter writer, void *ud)
{
PersistInfo pi;
pi.counter = 0;
pi.L = L;
pi.writer = writer;
pi.ud = ud;
#ifdef PLUTO_DEBUG
pi.level = 0;
#endif
lua_checkstack(L, 4);
/* perms? rootobj? ...? */
lua_assert(lua_gettop(L) == 2);
/* perms rootobj */
lua_assert(!lua_isnil(L, 2));
/* perms rootobj */
lua_newtable(L);
/* perms rootobj reftbl */
/* Now we're going to make the table weakly keyed. This prevents the
* GC from visiting it and trying to mark things it doesn't want to
* mark in tables, e.g. upvalues. All objects in the table are
* a priori reachable, so it doesn't matter that we do this. */
lua_newtable(L);
/* perms rootobj reftbl mt */
lua_pushstring(L, "__mode");
/* perms rootobj reftbl mt "__mode" */
lua_pushstring(L, "k");
/* perms rootobj reftbl mt "__mode" "k" */
lua_settable(L, 4);
/* perms rootobj reftbl mt */
lua_setmetatable(L, 3);
/* perms rootobj reftbl */
lua_insert(L, 2);
/* perms reftbl rootobj */
persist(&pi);
/* perms reftbl rootobj */
lua_remove(L, 2);
/* perms rootobj */
}
typedef struct WriterInfo_t {
char* buf;
size_t buflen;
} WriterInfo;
static int bufwriter (lua_State *L, const void* p, size_t sz, void* ud) {
const char* cp = (const char*)p;
WriterInfo *wi = (WriterInfo *)ud;
LIF(M,reallocvector)(L, wi->buf, wi->buflen, wi->buflen+sz, char);
while(sz)
{
/* how dearly I love ugly C pointer twiddling */
wi->buf[wi->buflen++] = *cp++;
sz--;
}
return 0;
}
int persist_l(lua_State *L)
{
/* perms? rootobj? ...? */
WriterInfo wi;
wi.buf = NULL;
wi.buflen = 0;
lua_settop(L, 2);
/* perms? rootobj? */
luaL_checktype(L, 1, LUA_TTABLE);
/* perms rootobj? */
luaL_checktype(L, 1, LUA_TTABLE);
/* perms rootobj */
pluto_persist(L, bufwriter, &wi);
lua_settop(L, 0);
/* (empty) */
lua_pushlstring(L, wi.buf, wi.buflen);
/* str */
pdep_freearray(L, wi.buf, wi.buflen, char);
return 1;
}
typedef struct UnpersistInfo_t {
lua_State *L;
ZIO zio;
#ifdef PLUTO_DEBUG
int level;
#endif
} UnpersistInfo;
static void unpersist(UnpersistInfo *upi);
/* The object is left on the stack. This is primarily used by unpersist, but
* may be used by GCed objects that may incur cycles in order to preregister
* the object. */
static void registerobject(int ref, UnpersistInfo *upi)
{
/* perms reftbl ... obj */
lua_checkstack(upi->L, 2);
lua_pushlightuserdata(upi->L, (void*)ref);
/* perms reftbl ... obj ref */
lua_pushvalue(upi->L, -2);
/* perms reftbl ... obj ref obj */
lua_settable(upi->L, 2);
/* perms reftbl ... obj */
}
static void unpersistboolean(UnpersistInfo *upi)
{
/* perms reftbl ... */
int b;
lua_checkstack(upi->L, 1);
verify(LIF(Z,read)(&upi->zio, &b, sizeof(int)) == 0);
lua_pushboolean(upi->L, b);
/* perms reftbl ... bool */
}
static void unpersistlightuserdata(UnpersistInfo *upi)
{
/* perms reftbl ... */
void *p;
lua_checkstack(upi->L, 1);
verify(LIF(Z,read)(&upi->zio, &p, sizeof(void *)) == 0);
lua_pushlightuserdata(upi->L, p);
/* perms reftbl ... ludata */
}
static void unpersistnumber(UnpersistInfo *upi)
{
/* perms reftbl ... */
lua_Number n;
lua_checkstack(upi->L, 1);
verify(LIF(Z,read)(&upi->zio, &n, sizeof(lua_Number)) == 0);
lua_pushnumber(upi->L, n);
/* perms reftbl ... num */
}
static void unpersiststring(UnpersistInfo *upi)
{
/* perms reftbl sptbl ref */
int length;
char* string;
lua_checkstack(upi->L, 1);
verify(LIF(Z,read)(&upi->zio, &length, sizeof(int)) == 0);
string = pdep_newvector(upi->L, length, char);
verify(LIF(Z,read)(&upi->zio, string, length) == 0);
lua_pushlstring(upi->L, string, length);
/* perms reftbl sptbl ref str */
pdep_freearray(upi->L, string, length, char);
}
static void unpersistspecialtable(int ref, UnpersistInfo *upi)
{
/* perms reftbl ... */
lua_checkstack(upi->L, 1);
unpersist(upi);
/* perms reftbl ... spfunc? */
lua_assert(lua_isfunction(upi->L, -1));
/* perms reftbl ... spfunc */
lua_call(upi->L, 0, 1);
/* perms reftbl ... tbl? */
lua_assert(lua_istable(upi->L, -1));
/* perms reftbl ... tbl */
}
static void unpersistliteraltable(int ref, UnpersistInfo *upi)
{
/* perms reftbl ... */
lua_checkstack(upi->L, 3);
/* Preregister table for handling of cycles */
lua_newtable(upi->L);
/* perms reftbl ... tbl */
registerobject(ref, upi);
/* perms reftbl ... tbl */
/* Unpersist metatable */
{
unpersist(upi);
/* perms reftbl ... tbl mt/nil? */
if(lua_istable(upi->L, -1)) {
/* perms reftbl ... tbl mt */
lua_setmetatable(upi->L, -2);
/* perms reftbl ... tbl */
} else {
/* perms reftbl ... tbl nil? */
lua_assert(lua_isnil(upi->L, -1));
/* perms reftbl ... tbl nil */
lua_pop(upi->L, 1);
/* perms reftbl ... tbl */
}
/* perms reftbl ... tbl */
}
while(1)
{
/* perms reftbl ... tbl */
unpersist(upi);
/* perms reftbl ... tbl key/nil */
if(lua_isnil(upi->L, -1)) {
/* perms reftbl ... tbl nil */
lua_pop(upi->L, 1);
/* perms reftbl ... tbl */
break;
}
/* perms reftbl ... tbl key */
unpersist(upi);
/* perms reftbl ... tbl key value? */
lua_assert(!lua_isnil(upi->L, -1));
/* perms reftbl ... tbl key value */
lua_rawset(upi->L, -3);
/* perms reftbl ... tbl */
}
}
static void unpersisttable(int ref, UnpersistInfo *upi)
{
/* perms reftbl ... */
lua_checkstack(upi->L, 1);
{
int isspecial;
verify(LIF(Z,read)(&upi->zio, &isspecial, sizeof(int)) == 0);
if(isspecial) {
unpersistspecialtable(ref, upi);
/* perms reftbl ... tbl */
} else {
unpersistliteraltable(ref, upi);
/* perms reftbl ... tbl */
}
/* perms reftbl ... tbl */
}
}
static UpVal *makeupval(lua_State *L, int stackpos)
{
UpVal *uv = pdep_new(L, UpVal);
pdep_link(L, (GCObject*)uv, LUA_TUPVAL);
uv->tt = LUA_TUPVAL;
uv->v = &uv->u.value;
uv->u.l.prev = NULL;
uv->u.l.next = NULL;
setobj(L, uv->v, getobject(L, stackpos));
return uv;
}
static Proto *makefakeproto(lua_State *L, lu_byte nups)
{
Proto *p = pdep_newproto(L);
p->sizelineinfo = 1;
p->lineinfo = pdep_newvector(L, 1, int);
p->lineinfo[0] = 1;
p->sizecode = 1;
p->code = pdep_newvector(L, 1, Instruction);
p->code[0] = CREATE_ABC(OP_RETURN, 0, 1, 0);
p->source = pdep_newlstr(L, "", 0);
p->maxstacksize = 2;
p->nups = nups;
p->sizek = 0;
p->sizep = 0;
return p;
}
/* The GC is not fond of finding upvalues in tables. We get around this
* during persistence using a weakly keyed table, so that the GC doesn't
* bother to mark them. This won't work in unpersisting, however, since
* if we make the values weak they'll be collected (since nothing else
* references them). Our solution, during unpersisting, is to represent
* upvalues as dummy functions, each with one upvalue. */
static void boxupval_start(lua_State *L)
{
LClosure *lcl;
lcl = (LClosure*)pdep_newLclosure(L, 1, hvalue(&L->l_gt));
pushclosure(L, (Closure*)lcl);
/* ... func */
lcl->p = makefakeproto(L, 1);
/* Temporarily initialize the upvalue to nil */
lua_pushnil(L);
lcl->upvals[0] = makeupval(L, -1);
lua_pop(L, 1);
}
static void boxupval_finish(lua_State *L)
{
/* ... func obj */
LClosure *lcl = (LClosure *) clvalue(getobject(L, -2));
lcl->upvals[0]->u.value = *getobject(L, -1);
lua_pop(L, 1);
}
static void unboxupval(lua_State *L)
{
/* ... func */
LClosure *lcl;
UpVal *uv;
lcl = (LClosure*)clvalue(getobject(L, -1));
uv = lcl->upvals[0];
lua_pop(L, 1);
/* ... */
pushupval(L, uv);
/* ... upval */
}
static void unpersistfunction(int ref, UnpersistInfo *upi)
{
/* perms reftbl ... */
LClosure *lcl;
int i;
lu_byte nupvalues;
lua_checkstack(upi->L, 2);
verify(LIF(Z,read)(&upi->zio, &nupvalues, sizeof(lu_byte)) == 0);
lcl = (LClosure*)pdep_newLclosure(upi->L, nupvalues, hvalue(&upi->L->l_gt));
pushclosure(upi->L, (Closure*)lcl);
/* perms reftbl ... func */
/* Put *some* proto in the closure, before the GC can find it */
lcl->p = makefakeproto(upi->L, nupvalues);
/* Also, we need to temporarily fill the upvalues */
lua_pushnil(upi->L);
/* perms reftbl ... func nil */
for(i=0; i<nupvalues; i++) {
lcl->upvals[i] = makeupval(upi->L, -1);
}
lua_pop(upi->L, 1);
/* perms reftbl ... func */
/* I can't see offhand how a function would ever get to be self-
* referential, but just in case let's register it early */
registerobject(ref, upi);
/* Now that it's safe, we can get the real proto */
unpersist(upi);
/* perms reftbl ... func proto? */
lua_assert(lua_type(upi->L, -1) == LUA_TPROTO);
/* perms reftbl ... func proto */
lcl->p = toproto(upi->L, -1);
lua_pop(upi->L, 1);
/* perms reftbl ... func */
for(i=0; i<nupvalues; i++) {
/* perms reftbl ... func */
unpersist(upi);
/* perms reftbl ... func func2 */
unboxupval(upi->L);
/* perms reftbl ... func upval */
lcl->upvals[i] = toupval(upi->L, -1);
lua_pop(upi->L, 1);
/* perms reftbl ... func */
}
/* perms reftbl ... func */
/* Finally, the fenv */
unpersist(upi);
/* perms reftbl ... func fenv/nil? */
lua_assert(lua_type(upi->L, -1) == LUA_TNIL ||
lua_type(upi->L, -1) == LUA_TTABLE);
/* perms reftbl ... func fenv/nil */
if(!lua_isnil(upi->L, -1)) {
/* perms reftbl ... func fenv */
lua_setfenv(upi->L, -2);
/* perms reftbl ... func */
} else {
/* perms reftbl ... func nil */
lua_pop(upi->L, 1);
/* perms reftbl ... func */
}
/* perms reftbl ... func */
}
static void unpersistupval(int ref, UnpersistInfo *upi)
{
/* perms reftbl ... */
lua_checkstack(upi->L, 2);
boxupval_start(upi->L);
/* perms reftbl ... func */
registerobject(ref, upi);
unpersist(upi);
/* perms reftbl ... func obj */
boxupval_finish(upi->L);
/* perms reftbl ... func */
}
static void unpersistproto(int ref, UnpersistInfo *upi)
{
/* perms reftbl ... */
Proto *p;
int i;
int sizep, sizek;
/* We have to be careful. The GC expects a lot out of protos. In
* particular, we need to give the function a valid string for its
* source, and valid code, even before we actually read in the real
* code. */
TString *source = pdep_newlstr(upi->L, "", 0);
p = pdep_newproto(upi->L);
p->source = source;
p->sizecode=1;
p->code = pdep_newvector(upi->L, 1, Instruction);
p->code[0] = CREATE_ABC(OP_RETURN, 0, 1, 0);
p->maxstacksize = 2;
p->sizek = 0;
p->sizep = 0;
lua_checkstack(upi->L, 2);
pushproto(upi->L, p);
/* perms reftbl ... proto */
/* We don't need to register early, since protos can never ever be
* involved in cyclic references */
/* Read in constant references */
{
verify(LIF(Z,read)(&upi->zio, &sizek, sizeof(int)) == 0);
LIF(M,reallocvector)(upi->L, p->k, 0, sizek, TValue);
for(i=0; i<sizek; i++) {
/* perms reftbl ... proto */
unpersist(upi);
/* perms reftbl ... proto k */
setobj2s(upi->L, &p->k[i], getobject(upi->L, -1));
p->sizek++;
lua_pop(upi->L, 1);
/* perms reftbl ... proto */
}
/* perms reftbl ... proto */
}
/* Read in sub-proto references */
{
verify(LIF(Z,read)(&upi->zio, &sizep, sizeof(int)) == 0);
LIF(M,reallocvector)(upi->L, p->p, 0, sizep, Proto*);
for(i=0; i<sizep; i++) {
/* perms reftbl ... proto */
unpersist(upi);
/* perms reftbl ... proto subproto */
p->p[i] = toproto(upi->L, -1);
p->sizep++;
lua_pop(upi->L, 1);
/* perms reftbl ... proto */
}
/* perms reftbl ... proto */
}
/* Read in code */
{
verify(LIF(Z,read)(&upi->zio, &p->sizecode, sizeof(int)) == 0);
LIF(M,reallocvector)(upi->L, p->code, 1, p->sizecode, Instruction);
verify(LIF(Z,read)(&upi->zio, p->code,
sizeof(Instruction) * p->sizecode) == 0);
}
/* Read in upvalue names */
{
verify(LIF(Z,read)(&upi->zio, &p->sizeupvalues, sizeof(int)) == 0);
if (p->sizeupvalues)
{
LIF(M,reallocvector)(upi->L, p->upvalues, 0, p->sizeupvalues, TString *);
for(i=0; i<p->sizeupvalues; i++)
{
unpersist(upi);
p->upvalues[i] = pdep_newlstr(upi->L, lua_tostring(upi->L, -1), strlen(lua_tostring(upi->L, -1)));
lua_pop(upi->L, 1);
}
}
}
/* Read in local variable infos */
{
verify(LIF(Z,read)(&upi->zio, &p->sizelocvars, sizeof(int)) == 0);
if (p->sizelocvars)
{
LIF(M,reallocvector)(upi->L, p->locvars, 0, p->sizelocvars, LocVar);
for(i=0; i<p->sizelocvars; i++)
{
unpersist(upi);
p->locvars[i].varname = pdep_newlstr(upi->L, lua_tostring(upi->L, -1), strlen(lua_tostring(upi->L, -1)));
lua_pop(upi->L, 1);
verify(LIF(Z,read)(&upi->zio, &p->locvars[i].startpc, sizeof(int)) == 0);
verify(LIF(Z,read)(&upi->zio, &p->locvars[i].endpc, sizeof(int)) == 0);
}
}
}
/* Read in source string*/
unpersist(upi);
p->source = pdep_newlstr(upi->L, lua_tostring(upi->L, -1), strlen(lua_tostring(upi->L, -1)));
lua_pop(upi->L, 1);
/* Read in line numbers */
{
verify(LIF(Z,read)(&upi->zio, &p->sizelineinfo, sizeof(int)) == 0);
if (p->sizelineinfo)
{
LIF(M,reallocvector)(upi->L, p->lineinfo, 0, p->sizelineinfo, int);
verify(LIF(Z,read)(&upi->zio, p->lineinfo,
sizeof(int) * p->sizelineinfo) == 0);
}
}
/* Read in linedefined and lastlinedefined */
verify(LIF(Z,read)(&upi->zio, &p->linedefined, sizeof(int)) == 0);
verify(LIF(Z,read)(&upi->zio, &p->lastlinedefined, sizeof(int)) == 0);
/* Read in misc values */
{
verify(LIF(Z,read)(&upi->zio, &p->nups, sizeof(lu_byte)) == 0);
verify(LIF(Z,read)(&upi->zio, &p->numparams, sizeof(lu_byte)) == 0);
verify(LIF(Z,read)(&upi->zio, &p->is_vararg, sizeof(lu_byte)) == 0);
verify(LIF(Z,read)(&upi->zio, &p->maxstacksize, sizeof(lu_byte)) == 0);
}
}
/* Does basically the opposite of luaC_link().
* Right now this function is rather inefficient; it requires traversing the
* entire root GC set in order to find one object. If the GC list were doubly
* linked this would be much easier, but there's no reason for Lua to have
* that. */
static void gcunlink(lua_State *L, GCObject *gco)
{
GCObject *prevslot;
if(G(L)->rootgc == gco) {
G(L)->rootgc = G(L)->rootgc->gch.next;
return;
}
prevslot = G(L)->rootgc;
while(prevslot->gch.next != gco) {
lua_assert(prevslot->gch.next != NULL);
prevslot = prevslot->gch.next;
}
prevslot->gch.next = prevslot->gch.next->gch.next;
}
/* FIXME __ALL__ field ordering */
static void unpersistthread(int ref, UnpersistInfo *upi)
{
/* perms reftbl ... */
lua_State *L2;
size_t stacklimit = 0;
L2 = lua_newthread(upi->L);
lua_checkstack(upi->L, 3);
/* L1: perms reftbl ... thr */
/* L2: (empty) */
registerobject(ref, upi);
/* First, deserialize the object stack. */
{
size_t i, stacksize;
verify(LIF(Z,read)(&upi->zio, &stacksize, sizeof(size_t)) == 0);
LIF(D,growstack)(L2, (int)stacksize);
/* Make sure that the first stack element (a nil, representing
* the imaginary top-level C function) is written to the very,
* very bottom of the stack */
L2->top--;
for(i=0; i<stacksize; i++) {
unpersist(upi);
/* L1: perms reftbl ... thr obj* */
}
lua_xmove(upi->L, L2, stacksize);
/* L1: perms reftbl ... thr */
/* L2: obj* */
}
/* (hereafter, stacks refer to L1) */
/* Now, deserialize the CallInfo stack. */
{
size_t i, numframes;
verify(LIF(Z,read)(&upi->zio, &numframes, sizeof(size_t)) == 0);
LIF(D,reallocCI)(L2,numframes*2);
for(i=0; i<numframes; i++) {
CallInfo *ci = L2->base_ci + i;
size_t stackbase, stackfunc, stacktop, savedpc;
verify(LIF(Z,read)(&upi->zio, &stackbase, sizeof(size_t)) == 0);
verify(LIF(Z,read)(&upi->zio, &stackfunc, sizeof(size_t)) == 0);
verify(LIF(Z,read)(&upi->zio, &stacktop, sizeof(size_t)) == 0);
verify(LIF(Z,read)(&upi->zio, &ci->nresults, sizeof(int)) == 0);
verify(LIF(Z,read)(&upi->zio, &savedpc, sizeof(size_t)) == 0);
if(stacklimit < stacktop)
stacklimit = stacktop;
ci->base = L2->stack+stackbase;
ci->func = L2->stack+stackfunc;
ci->top = L2->stack+stacktop;
ci->savedpc = (ci != L2->base_ci) ?
ci_func(ci)->l.p->code+savedpc :
0;
ci->tailcalls = 0;
/* Update the pointer each time, to keep the GC
* happy*/
L2->ci = ci;
}
}
/* perms reftbl ... thr */
/* Deserialize the state's other parameters, with the exception of upval stuff */
{
size_t stackbase, stacktop;
L2->savedpc = L2->ci->savedpc;
verify(LIF(Z,read)(&upi->zio, &L2->status, sizeof(lu_byte)) == 0);
verify(LIF(Z,read)(&upi->zio, &stackbase, sizeof(size_t)) == 0);
verify(LIF(Z,read)(&upi->zio, &stacktop, sizeof(size_t)) == 0);
verify(LIF(Z,read)(&upi->zio, &L2->errfunc, sizeof(ptrdiff_t)) == 0);
L2->base = L2->stack + stackbase;
L2->top = L2->stack + stacktop;
}
/* Finally, "reopen" upvalues (see persistupval() for why) */
{
UpVal* uv;
GCObject **nextslot = &L2->openupval;
global_State *g = G(L2);
while(1) {
size_t stackpos;
unpersist(upi);
/* perms reftbl ... thr uv/nil */
if(lua_isnil(upi->L, -1)) {
/* perms reftbl ... thr nil */
lua_pop(upi->L, 1);
/* perms reftbl ... thr */
break;
}
/* perms reftbl ... thr boxeduv */
unboxupval(upi->L);
/* perms reftbl ... thr uv */
uv = toupval(upi->L, -1);
lua_pop(upi->L, 1);
/* perms reftbl ... thr */
verify(LIF(Z,read)(&upi->zio, &stackpos, sizeof(size_t)) == 0);
uv->v = L2->stack + stackpos;
gcunlink(upi->L, (GCObject*)uv);
uv->marked = luaC_white(g);
*nextslot = (GCObject*)uv;
nextslot = &uv->next;
uv->u.l.prev = &G(L2)->uvhead;
uv->u.l.next = G(L2)->uvhead.u.l.next;
uv->u.l.next->u.l.prev = uv;
G(L2)->uvhead.u.l.next = uv;
lua_assert(uv->u.l.next->u.l.prev == uv && uv->u.l.prev->u.l.next == uv);
}
*nextslot = NULL;
}
/* The stack must be valid at least to the highest value among the CallInfos */
/* 'top' and the values up to there must be filled with 'nil' */
{
StkId o;
LIF(D,checkstack)(L2, (int)stacklimit);
for (o = L2->top; o <= L2->top + stacklimit; o++)
setnilvalue(o);
}
}
static void unpersistuserdata(int ref, UnpersistInfo *upi)
{
/* perms reftbl ... */
int isspecial;
lua_checkstack(upi->L, 2);
verify(LIF(Z,read)(&upi->zio, &isspecial, sizeof(int)) == 0);
if(isspecial) {
unpersist(upi);
/* perms reftbl ... spfunc? */
lua_assert(lua_isfunction(upi->L, -1));
/* perms reftbl ... spfunc */
#ifdef PLUTO_PASS_USERDATA_TO_PERSIST
lua_pushlightuserdata(upi->L, &upi->zio);
lua_call(upi->L, 1, 1);
#else
lua_call(upi->L, 0, 1);
#endif
/* perms reftbl ... udata? */
/* This assertion might not be necessary; it's conceivable, for
* example, that the SP function might decide to return a table
* with equivalent functionality. For the time being, we'll
* ignore this possibility in favor of stricter and more testable
* requirements. */
lua_assert(lua_isuserdata(upi->L, -1));
/* perms reftbl ... udata */
} else {
size_t length;
verify(LIF(Z,read)(&upi->zio, &length, sizeof(size_t)) == 0);
lua_newuserdata(upi->L, length);
/* perms reftbl ... udata */
registerobject(ref, upi);
verify(LIF(Z,read)(&upi->zio, lua_touserdata(upi->L, -1), length) == 0);
unpersist(upi);
/* perms reftbl ... udata mt/nil? */
lua_assert(lua_istable(upi->L, -1) || lua_isnil(upi->L, -1));
/* perms reftbl ... udata mt/nil */
lua_setmetatable(upi->L, -2);
/* perms reftbl ... udata */
}
/* perms reftbl ... udata */
}
static void unpersistpermanent(int ref, UnpersistInfo *upi)
{
/* perms reftbl ... */
lua_checkstack(upi->L, 2);
unpersist(upi);
/* perms reftbl permkey */
lua_gettable(upi->L, 1);
/* perms reftbl perm? */
/* We assume currently that the substituted permanent value
* shouldn't be nil. This may be a bad assumption. Real-life
* experience is needed to evaluate this. */
lua_assert(!lua_isnil(upi->L, -1));
/* perms reftbl perm */
}
#if 0
/* For debugging only; not called when lua_assert is empty */
static int inreftable(lua_State *L, int ref)
{
int res;
lua_checkstack(L, 1);
/* perms reftbl ... */
lua_pushlightuserdata(L, (void*)ref);
/* perms reftbl ... ref */
lua_gettable(L, 2);
/* perms reftbl ... obj? */
res = !lua_isnil(L, -1);
lua_pop(L, 1);
/* perms reftbl ... */
return res;
}
#endif
static void unpersist(UnpersistInfo *upi)
{
/* perms reftbl ... */
int firstTime;
int stacksize = lua_gettop(upi->L); stacksize = stacksize; /* DEBUG */
lua_checkstack(upi->L, 2);
LIF(Z,read)(&upi->zio, &firstTime, sizeof(int));
if(firstTime) {
int ref;
int type;
LIF(Z,read)(&upi->zio, &ref, sizeof(int));
lua_assert(!inreftable(upi->L, ref));
LIF(Z,read)(&upi->zio, &type, sizeof(int));
#ifdef PLUTO_DEBUG
printindent(upi->level);
printf("1 %d %d\n", ref, type);
upi->level++;
#endif
switch(type) {
case LUA_TBOOLEAN:
unpersistboolean(upi);
break;
case LUA_TLIGHTUSERDATA:
unpersistlightuserdata(upi);
break;
case LUA_TNUMBER:
unpersistnumber(upi);
break;
case LUA_TSTRING:
unpersiststring(upi);
break;
case LUA_TTABLE:
unpersisttable(ref, upi);
break;
case LUA_TFUNCTION:
unpersistfunction(ref, upi);
break;
case LUA_TTHREAD:
unpersistthread(ref, upi);
break;
case LUA_TPROTO:
unpersistproto(ref, upi);
break;
case LUA_TUPVAL:
unpersistupval(ref, upi);
break;
case LUA_TUSERDATA:
unpersistuserdata(ref, upi);
break;
case PLUTO_TPERMANENT:
unpersistpermanent(ref, upi);
break;
default:
lua_assert(0);
}
/* perms reftbl ... obj */
lua_assert(lua_type(upi->L, -1) == type ||
type == PLUTO_TPERMANENT ||
/* Remember, upvalues get a special dispensation, as
* described in boxupval */
(lua_type(upi->L, -1) == LUA_TFUNCTION &&
type == LUA_TUPVAL));
registerobject(ref, upi);
/* perms reftbl ... obj */
#ifdef PLUTO_DEBUG
upi->level--;
#endif
} else {
int ref;
LIF(Z,read)(&upi->zio, &ref, sizeof(int));
#ifdef PLUTO_DEBUG
printindent(upi->level);
printf("0 %d\n", ref);
#endif
if(ref == 0) {
lua_pushnil(upi->L);
/* perms reftbl ... nil */
} else {
lua_pushlightuserdata(upi->L, (void*)ref);
/* perms reftbl ... ref */
lua_gettable(upi->L, 2);
/* perms reftbl ... obj? */
lua_assert(!lua_isnil(upi->L, -1));
}
/* perms reftbl ... obj/nil */
}
/* perms reftbl ... obj/nil */
lua_assert(lua_gettop(upi->L) == stacksize + 1);
}
void pluto_unpersist(lua_State *L, lua_Chunkreader reader, void *ud)
{
/* We use the graciously provided ZIO (what the heck does the Z stand
* for?) library so that we don't have to deal with the reader directly.
* Letting the reader function decide how much data to return can be
* very unpleasant.
*/
UnpersistInfo upi;
upi.L = L;
#ifdef PLUTO_DEBUG
upi.level = 0;
#endif
lua_checkstack(L, 3);
LIF(Z,init)(L, &upi.zio, reader, ud);
/* perms */
lua_newtable(L);
/* perms reftbl */
lua_gc(L, LUA_GCSTOP, 0);
unpersist(&upi);
lua_gc(L, LUA_GCRESTART, 0);
/* perms reftbl rootobj */
lua_replace(L, 2);
/* perms rootobj */
}
typedef struct LoadInfo_t {
char *buf;
size_t size;
} LoadInfo;
static const char *bufreader(lua_State *L, void *ud, size_t *sz) {
LoadInfo *li = (LoadInfo *)ud;
if(li->size == 0) {
return NULL;
}
*sz = li->size;
li->size = 0;
return li->buf;
}
int unpersist_l(lua_State *L)
{
LoadInfo li;
char const *origbuf;
char *tempbuf;
size_t bufsize;
/* perms? str? ...? */
lua_settop(L, 2);
/* perms? str? */
origbuf = luaL_checklstring(L, 2, &bufsize);
tempbuf = LIF(M,newvector)(L, bufsize, char);
memcpy(tempbuf, origbuf, bufsize);
li.buf = tempbuf;
li.size = bufsize;
/* perms? str */
lua_pop(L, 1);
/* perms? */
luaL_checktype(L, 1, LUA_TTABLE);
/* perms */
pluto_unpersist(L, bufreader, &li);
/* perms rootobj */
LIF(M,freearray)(L, tempbuf, bufsize, char);
return 1;
}
static luaL_reg pluto_reg[] = {
{ "persist", persist_l },
{ "unpersist", unpersist_l },
{ NULL, NULL }
};
LUALIB_API int luaopen_pluto(lua_State *L) {
luaL_openlib(L, "pluto", pluto_reg, 0);
return 1;
}
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