/* -*- Mode: C; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * * ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla Communicator client code, released * March 31, 1998. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #include "jsstddef.h" #include "jsconfig.h" #if JS_HAS_XDR #include #include "jstypes.h" #include "jsutil.h" /* Added by JSIFY */ #include "jsdhash.h" #include "jsprf.h" #include "jsapi.h" #include "jscntxt.h" #include "jsnum.h" #include "jsobj.h" /* js_XDRObject */ #include "jsscript.h" /* js_XDRScript */ #include "jsstr.h" #include "jsxdrapi.h" #ifdef DEBUG #define DBG(x) x #else #define DBG(x) ((void)0) #endif typedef struct JSXDRMemState { JSXDRState state; char *base; uint32 count; uint32 limit; } JSXDRMemState; #define MEM_BLOCK 8192 #define MEM_PRIV(xdr) ((JSXDRMemState *)(xdr)) #define MEM_BASE(xdr) (MEM_PRIV(xdr)->base) #define MEM_COUNT(xdr) (MEM_PRIV(xdr)->count) #define MEM_LIMIT(xdr) (MEM_PRIV(xdr)->limit) #define MEM_LEFT(xdr, bytes) \ JS_BEGIN_MACRO \ if ((xdr)->mode == JSXDR_DECODE && \ MEM_COUNT(xdr) + bytes > MEM_LIMIT(xdr)) { \ JS_ReportErrorNumber((xdr)->cx, js_GetErrorMessage, NULL, \ JSMSG_END_OF_DATA); \ return 0; \ } \ JS_END_MACRO #define MEM_NEED(xdr, bytes) \ JS_BEGIN_MACRO \ if ((xdr)->mode == JSXDR_ENCODE) { \ if (MEM_LIMIT(xdr) && \ MEM_COUNT(xdr) + bytes > MEM_LIMIT(xdr)) { \ uint32 limit_ = JS_ROUNDUP(MEM_COUNT(xdr) + bytes, MEM_BLOCK);\ void *data_ = JS_realloc((xdr)->cx, MEM_BASE(xdr), limit_); \ if (!data_) \ return 0; \ MEM_BASE(xdr) = data_; \ MEM_LIMIT(xdr) = limit_; \ } \ } else { \ MEM_LEFT(xdr, bytes); \ } \ JS_END_MACRO #define MEM_DATA(xdr) ((void *)(MEM_BASE(xdr) + MEM_COUNT(xdr))) #define MEM_INCR(xdr,bytes) (MEM_COUNT(xdr) += (bytes)) static JSBool mem_get32(JSXDRState *xdr, uint32 *lp) { MEM_LEFT(xdr, 4); *lp = *(uint32 *)MEM_DATA(xdr); MEM_INCR(xdr, 4); return JS_TRUE; } static JSBool mem_set32(JSXDRState *xdr, uint32 *lp) { MEM_NEED(xdr, 4); *(uint32 *)MEM_DATA(xdr) = *lp; MEM_INCR(xdr, 4); return JS_TRUE; } static JSBool mem_getbytes(JSXDRState *xdr, char *bytes, uint32 len) { MEM_LEFT(xdr, len); memcpy(bytes, MEM_DATA(xdr), len); MEM_INCR(xdr, len); return JS_TRUE; } static JSBool mem_setbytes(JSXDRState *xdr, char *bytes, uint32 len) { MEM_NEED(xdr, len); memcpy(MEM_DATA(xdr), bytes, len); MEM_INCR(xdr, len); return JS_TRUE; } static void * mem_raw(JSXDRState *xdr, uint32 len) { void *data; if (xdr->mode == JSXDR_ENCODE) { MEM_NEED(xdr, len); } else if (xdr->mode == JSXDR_DECODE) { MEM_LEFT(xdr, len); } data = MEM_DATA(xdr); MEM_INCR(xdr, len); return data; } static JSBool mem_seek(JSXDRState *xdr, int32 offset, JSXDRWhence whence) { switch (whence) { case JSXDR_SEEK_CUR: if ((int32)MEM_COUNT(xdr) + offset < 0) { JS_ReportErrorNumber(xdr->cx, js_GetErrorMessage, NULL, JSMSG_SEEK_BEYOND_START); return JS_FALSE; } if (offset > 0) MEM_NEED(xdr, offset); MEM_COUNT(xdr) += offset; return JS_TRUE; case JSXDR_SEEK_SET: if (offset < 0) { JS_ReportErrorNumber(xdr->cx, js_GetErrorMessage, NULL, JSMSG_SEEK_BEYOND_START); return JS_FALSE; } if (xdr->mode == JSXDR_ENCODE) { if ((uint32)offset > MEM_COUNT(xdr)) MEM_NEED(xdr, offset - MEM_COUNT(xdr)); MEM_COUNT(xdr) = offset; } else { if ((uint32)offset > MEM_LIMIT(xdr)) { JS_ReportErrorNumber(xdr->cx, js_GetErrorMessage, NULL, JSMSG_SEEK_BEYOND_END); return JS_FALSE; } MEM_COUNT(xdr) = offset; } return JS_TRUE; case JSXDR_SEEK_END: if (offset >= 0 || xdr->mode == JSXDR_ENCODE || (int32)MEM_LIMIT(xdr) + offset < 0) { JS_ReportErrorNumber(xdr->cx, js_GetErrorMessage, NULL, JSMSG_END_SEEK); return JS_FALSE; } MEM_COUNT(xdr) = MEM_LIMIT(xdr) + offset; return JS_TRUE; default: { char numBuf[12]; JS_snprintf(numBuf, sizeof numBuf, "%d", whence); JS_ReportErrorNumber(xdr->cx, js_GetErrorMessage, NULL, JSMSG_WHITHER_WHENCE, numBuf); return JS_FALSE; } } } static uint32 mem_tell(JSXDRState *xdr) { return MEM_COUNT(xdr); } static void mem_finalize(JSXDRState *xdr) { JS_free(xdr->cx, MEM_BASE(xdr)); } static JSXDROps xdrmem_ops = { mem_get32, mem_set32, mem_getbytes, mem_setbytes, mem_raw, mem_seek, mem_tell, mem_finalize }; JS_PUBLIC_API(void) JS_XDRInitBase(JSXDRState *xdr, JSXDRMode mode, JSContext *cx) { xdr->mode = mode; xdr->cx = cx; xdr->registry = NULL; xdr->numclasses = xdr->maxclasses = 0; xdr->reghash = NULL; xdr->userdata = NULL; xdr->script = NULL; } JS_PUBLIC_API(JSXDRState *) JS_XDRNewMem(JSContext *cx, JSXDRMode mode) { JSXDRState *xdr = (JSXDRState *) JS_malloc(cx, sizeof(JSXDRMemState)); if (!xdr) return NULL; JS_XDRInitBase(xdr, mode, cx); if (mode == JSXDR_ENCODE) { if (!(MEM_BASE(xdr) = JS_malloc(cx, MEM_BLOCK))) { JS_free(cx, xdr); return NULL; } } else { /* XXXbe ok, so better not deref MEM_BASE(xdr) if not ENCODE */ MEM_BASE(xdr) = NULL; } xdr->ops = &xdrmem_ops; MEM_COUNT(xdr) = 0; MEM_LIMIT(xdr) = MEM_BLOCK; return xdr; } JS_PUBLIC_API(void *) JS_XDRMemGetData(JSXDRState *xdr, uint32 *lp) { if (xdr->ops != &xdrmem_ops) return NULL; *lp = MEM_COUNT(xdr); return MEM_BASE(xdr); } JS_PUBLIC_API(void) JS_XDRMemSetData(JSXDRState *xdr, void *data, uint32 len) { if (xdr->ops != &xdrmem_ops) return; MEM_LIMIT(xdr) = len; MEM_BASE(xdr) = data; MEM_COUNT(xdr) = 0; } JS_PUBLIC_API(uint32) JS_XDRMemDataLeft(JSXDRState *xdr) { if (xdr->ops != &xdrmem_ops) return 0; return MEM_LIMIT(xdr) - MEM_COUNT(xdr); } JS_PUBLIC_API(void) JS_XDRMemResetData(JSXDRState *xdr) { if (xdr->ops != &xdrmem_ops) return; MEM_COUNT(xdr) = 0; } JS_PUBLIC_API(void) JS_XDRDestroy(JSXDRState *xdr) { JSContext *cx = xdr->cx; xdr->ops->finalize(xdr); if (xdr->registry) { JS_free(cx, xdr->registry); if (xdr->reghash) JS_DHashTableDestroy(xdr->reghash); } JS_free(cx, xdr); } JS_PUBLIC_API(JSBool) JS_XDRUint8(JSXDRState *xdr, uint8 *b) { uint32 l = *b; if (!JS_XDRUint32(xdr, &l)) return JS_FALSE; *b = (uint8) l; return JS_TRUE; } JS_PUBLIC_API(JSBool) JS_XDRUint16(JSXDRState *xdr, uint16 *s) { uint32 l = *s; if (!JS_XDRUint32(xdr, &l)) return JS_FALSE; *s = (uint16) l; return JS_TRUE; } JS_PUBLIC_API(JSBool) JS_XDRUint32(JSXDRState *xdr, uint32 *lp) { JSBool ok = JS_TRUE; if (xdr->mode == JSXDR_ENCODE) { uint32 xl = JSXDR_SWAB32(*lp); ok = xdr->ops->set32(xdr, &xl); } else if (xdr->mode == JSXDR_DECODE) { ok = xdr->ops->get32(xdr, lp); *lp = JSXDR_SWAB32(*lp); } return ok; } JS_PUBLIC_API(JSBool) JS_XDRBytes(JSXDRState *xdr, char *bytes, uint32 len) { uint32 padlen; static char padbuf[JSXDR_ALIGN-1]; if (xdr->mode == JSXDR_ENCODE) { if (!xdr->ops->setbytes(xdr, bytes, len)) return JS_FALSE; } else { if (!xdr->ops->getbytes(xdr, bytes, len)) return JS_FALSE; } len = xdr->ops->tell(xdr); if (len % JSXDR_ALIGN) { padlen = JSXDR_ALIGN - (len % JSXDR_ALIGN); if (xdr->mode == JSXDR_ENCODE) { if (!xdr->ops->setbytes(xdr, padbuf, padlen)) return JS_FALSE; } else { if (!xdr->ops->seek(xdr, padlen, JSXDR_SEEK_CUR)) return JS_FALSE; } } return JS_TRUE; } /** * Convert between a C string and the XDR representation: * leading 32-bit count, then counted vector of chars, * then possibly \0 padding to multiple of 4. */ JS_PUBLIC_API(JSBool) JS_XDRCString(JSXDRState *xdr, char **sp) { uint32 len; if (xdr->mode == JSXDR_ENCODE) len = strlen(*sp); JS_XDRUint32(xdr, &len); if (xdr->mode == JSXDR_DECODE) { if (!(*sp = (char *) JS_malloc(xdr->cx, len + 1))) return JS_FALSE; } if (!JS_XDRBytes(xdr, *sp, len)) { if (xdr->mode == JSXDR_DECODE) JS_free(xdr->cx, *sp); return JS_FALSE; } if (xdr->mode == JSXDR_DECODE) { (*sp)[len] = '\0'; } else if (xdr->mode == JSXDR_FREE) { JS_free(xdr->cx, *sp); *sp = NULL; } return JS_TRUE; } JS_PUBLIC_API(JSBool) JS_XDRCStringOrNull(JSXDRState *xdr, char **sp) { uint32 null = (*sp == NULL); if (!JS_XDRUint32(xdr, &null)) return JS_FALSE; if (null) { *sp = NULL; return JS_TRUE; } return JS_XDRCString(xdr, sp); } static JSBool XDRChars(JSXDRState *xdr, jschar *chars, uint32 nchars) { uint32 i, padlen, nbytes; jschar *raw; nbytes = nchars * sizeof(jschar); padlen = nbytes % JSXDR_ALIGN; if (padlen) { padlen = JSXDR_ALIGN - padlen; nbytes += padlen; } if (!(raw = (jschar *) xdr->ops->raw(xdr, nbytes))) return JS_FALSE; if (xdr->mode == JSXDR_ENCODE) { for (i = 0; i != nchars; i++) raw[i] = JSXDR_SWAB16(chars[i]); if (padlen) memset((char *)raw + nbytes - padlen, 0, padlen); } else if (xdr->mode == JSXDR_DECODE) { for (i = 0; i != nchars; i++) chars[i] = JSXDR_SWAB16(raw[i]); } return JS_TRUE; } /* * Convert between a JS (Unicode) string and the XDR representation. */ JS_PUBLIC_API(JSBool) JS_XDRString(JSXDRState *xdr, JSString **strp) { uint32 nchars; jschar *chars; if (xdr->mode == JSXDR_ENCODE) nchars = JSSTRING_LENGTH(*strp); if (!JS_XDRUint32(xdr, &nchars)) return JS_FALSE; if (xdr->mode == JSXDR_DECODE) { chars = (jschar *) JS_malloc(xdr->cx, (nchars + 1) * sizeof(jschar)); if (!chars) return JS_FALSE; } else { chars = JSSTRING_CHARS(*strp); } if (!XDRChars(xdr, chars, nchars)) goto bad; if (xdr->mode == JSXDR_DECODE) { chars[nchars] = 0; *strp = JS_NewUCString(xdr->cx, chars, nchars); if (!*strp) goto bad; } return JS_TRUE; bad: if (xdr->mode == JSXDR_DECODE) JS_free(xdr->cx, chars); return JS_FALSE; } JS_PUBLIC_API(JSBool) JS_XDRStringOrNull(JSXDRState *xdr, JSString **strp) { uint32 null = (*strp == NULL); if (!JS_XDRUint32(xdr, &null)) return JS_FALSE; if (null) { *strp = NULL; return JS_TRUE; } return JS_XDRString(xdr, strp); } static JSBool XDRDoubleValue(JSXDRState *xdr, jsdouble *dp) { jsdpun u; if (xdr->mode == JSXDR_ENCODE) u.d = *dp; if (!JS_XDRUint32(xdr, &u.s.lo) || !JS_XDRUint32(xdr, &u.s.hi)) return JS_FALSE; if (xdr->mode == JSXDR_DECODE) *dp = u.d; return JS_TRUE; } JS_PUBLIC_API(JSBool) JS_XDRDouble(JSXDRState *xdr, jsdouble **dpp) { jsdouble d; if (xdr->mode == JSXDR_ENCODE) d = **dpp; if (!XDRDoubleValue(xdr, &d)) return JS_FALSE; if (xdr->mode == JSXDR_DECODE) { *dpp = JS_NewDouble(xdr->cx, d); if (!*dpp) return JS_FALSE; } return JS_TRUE; } /* These are magic pseudo-tags: see jsapi.h, near the top, for real tags. */ #define JSVAL_XDRNULL 0x8 #define JSVAL_XDRVOID 0xA static JSBool XDRValueBody(JSXDRState *xdr, uint32 type, jsval *vp) { switch (type) { case JSVAL_XDRNULL: *vp = JSVAL_NULL; break; case JSVAL_XDRVOID: *vp = JSVAL_VOID; break; case JSVAL_STRING: { JSString *str; if (xdr->mode == JSXDR_ENCODE) str = JSVAL_TO_STRING(*vp); if (!JS_XDRString(xdr, &str)) return JS_FALSE; if (xdr->mode == JSXDR_DECODE) *vp = STRING_TO_JSVAL(str); break; } case JSVAL_DOUBLE: { jsdouble *dp; if (xdr->mode == JSXDR_ENCODE) dp = JSVAL_TO_DOUBLE(*vp); if (!JS_XDRDouble(xdr, &dp)) return JS_FALSE; if (xdr->mode == JSXDR_DECODE) *vp = DOUBLE_TO_JSVAL(dp); break; } case JSVAL_OBJECT: { JSObject *obj; if (xdr->mode == JSXDR_ENCODE) obj = JSVAL_TO_OBJECT(*vp); if (!js_XDRObject(xdr, &obj)) return JS_FALSE; if (xdr->mode == JSXDR_DECODE) *vp = OBJECT_TO_JSVAL(obj); break; } case JSVAL_BOOLEAN: { uint32 b; if (xdr->mode == JSXDR_ENCODE) b = (uint32) JSVAL_TO_BOOLEAN(*vp); if (!JS_XDRUint32(xdr, &b)) return JS_FALSE; if (xdr->mode == JSXDR_DECODE) *vp = BOOLEAN_TO_JSVAL((JSBool) b); break; } default: { uint32 i; JS_ASSERT(type & JSVAL_INT); if (xdr->mode == JSXDR_ENCODE) i = (uint32) JSVAL_TO_INT(*vp); if (!JS_XDRUint32(xdr, &i)) return JS_FALSE; if (xdr->mode == JSXDR_DECODE) *vp = INT_TO_JSVAL((int32) i); break; } } return JS_TRUE; } JS_PUBLIC_API(JSBool) JS_XDRValue(JSXDRState *xdr, jsval *vp) { uint32 type; if (xdr->mode == JSXDR_ENCODE) { if (JSVAL_IS_NULL(*vp)) type = JSVAL_XDRNULL; else if (JSVAL_IS_VOID(*vp)) type = JSVAL_XDRVOID; else type = JSVAL_TAG(*vp); } return JS_XDRUint32(xdr, &type) && XDRValueBody(xdr, type, vp); } JSBool js_XDRAtom(JSXDRState *xdr, JSAtom **atomp) { jsval v; uint32 type; jsdouble d; JSAtom *atom; if (xdr->mode == JSXDR_ENCODE) { v = ATOM_KEY(*atomp); return JS_XDRValue(xdr, &v); } /* * Inline JS_XDRValue when decoding to avoid ceation of GC things when * then corresponding atom already exists. See bug 321985. */ if (!JS_XDRUint32(xdr, &type)) return JS_FALSE; if (type == JSVAL_STRING) return js_XDRStringAtom(xdr, atomp); if (type == JSVAL_DOUBLE) { if (!XDRDoubleValue(xdr, &d)) return JS_FALSE; atom = js_AtomizeDouble(xdr->cx, d, 0); } else { if (!XDRValueBody(xdr, type, &v)) return JS_FALSE; atom = js_AtomizeValue(xdr->cx, v, 0); } if (!atom) return JS_FALSE; *atomp = atom; return JS_TRUE; } extern JSBool js_XDRStringAtom(JSXDRState *xdr, JSAtom **atomp) { JSString *str; uint32 nchars; JSAtom *atom; JSContext *cx; void *mark; jschar *chars; if (xdr->mode == JSXDR_ENCODE) { JS_ASSERT(ATOM_IS_STRING(*atomp)); str = ATOM_TO_STRING(*atomp); return JS_XDRString(xdr, &str); } /* * Inline JS_XDRString when decoding to avoid JSString allocation * for already existing atoms. See bug 321985. */ if (!JS_XDRUint32(xdr, &nchars)) return JS_FALSE; atom = NULL; cx = xdr->cx; mark = JS_ARENA_MARK(&cx->tempPool); JS_ARENA_ALLOCATE_CAST(chars, jschar *, &cx->tempPool, nchars * sizeof(jschar)); if (!chars) JS_ReportOutOfMemory(cx); else if (XDRChars(xdr, chars, nchars)) atom = js_AtomizeChars(cx, chars, nchars, 0); JS_ARENA_RELEASE(&cx->tempPool, mark); if (!atom) return JS_FALSE; *atomp = atom; return JS_TRUE; } /* * FIXME: This performs lossy conversion and we need to switch to * js_XDRStringAtom while allowing to read older XDR files. See bug 325202. */ JSBool js_XDRCStringAtom(JSXDRState *xdr, JSAtom **atomp) { char *bytes; uint32 nbytes; JSAtom *atom; JSContext *cx; void *mark; if (xdr->mode == JSXDR_ENCODE) { JS_ASSERT(ATOM_IS_STRING(*atomp)); bytes = JS_GetStringBytes(ATOM_TO_STRING(*atomp)); return JS_XDRCString(xdr, &bytes); } /* * Inline JS_XDRCString when decoding not to malloc temporary buffer * just to free it after atomization. See bug 321985. */ if (!JS_XDRUint32(xdr, &nbytes)) return JS_FALSE; atom = NULL; cx = xdr->cx; mark = JS_ARENA_MARK(&cx->tempPool); JS_ARENA_ALLOCATE_CAST(bytes, char *, &cx->tempPool, nbytes * sizeof *bytes); if (!bytes) JS_ReportOutOfMemory(cx); else if (JS_XDRBytes(xdr, bytes, nbytes)) atom = js_Atomize(cx, bytes, nbytes, 0); JS_ARENA_RELEASE(&cx->tempPool, mark); if (!atom) return JS_FALSE; *atomp = atom; return JS_TRUE; } JS_PUBLIC_API(JSBool) JS_XDRScript(JSXDRState *xdr, JSScript **scriptp) { if (!js_XDRScript(xdr, scriptp, NULL)) return JS_FALSE; if (xdr->mode == JSXDR_DECODE) js_CallNewScriptHook(xdr->cx, *scriptp, NULL); return JS_TRUE; } #define CLASS_REGISTRY_MIN 8 #define CLASS_INDEX_TO_ID(i) ((i)+1) #define CLASS_ID_TO_INDEX(id) ((id)-1) typedef struct JSRegHashEntry { JSDHashEntryHdr hdr; const char *name; uint32 index; } JSRegHashEntry; JS_PUBLIC_API(JSBool) JS_XDRRegisterClass(JSXDRState *xdr, JSClass *clasp, uint32 *idp) { uintN numclasses, maxclasses; JSClass **registry; numclasses = xdr->numclasses; maxclasses = xdr->maxclasses; if (numclasses == maxclasses) { maxclasses = (maxclasses == 0) ? CLASS_REGISTRY_MIN : maxclasses << 1; registry = (JSClass **) JS_realloc(xdr->cx, xdr->registry, maxclasses * sizeof(JSClass *)); if (!registry) return JS_FALSE; xdr->registry = registry; xdr->maxclasses = maxclasses; } else { JS_ASSERT(numclasses && numclasses < maxclasses); registry = xdr->registry; } registry[numclasses] = clasp; if (xdr->reghash) { JSRegHashEntry *entry = (JSRegHashEntry *) JS_DHashTableOperate(xdr->reghash, clasp->name, JS_DHASH_ADD); if (!entry) { JS_ReportOutOfMemory(xdr->cx); return JS_FALSE; } entry->name = clasp->name; entry->index = numclasses; } *idp = CLASS_INDEX_TO_ID(numclasses); xdr->numclasses = ++numclasses; return JS_TRUE; } JS_PUBLIC_API(uint32) JS_XDRFindClassIdByName(JSXDRState *xdr, const char *name) { uintN i, numclasses; numclasses = xdr->numclasses; if (numclasses >= 10) { JSRegHashEntry *entry; /* Bootstrap reghash from registry on first overpopulated Find. */ if (!xdr->reghash) { xdr->reghash = JS_NewDHashTable(JS_DHashGetStubOps(), NULL, sizeof(JSRegHashEntry), numclasses); if (xdr->reghash) { for (i = 0; i < numclasses; i++) { JSClass *clasp = xdr->registry[i]; entry = (JSRegHashEntry *) JS_DHashTableOperate(xdr->reghash, clasp->name, JS_DHASH_ADD); entry->name = clasp->name; entry->index = i; } } } /* If we managed to create reghash, use it for O(1) Find. */ if (xdr->reghash) { entry = (JSRegHashEntry *) JS_DHashTableOperate(xdr->reghash, name, JS_DHASH_LOOKUP); if (JS_DHASH_ENTRY_IS_BUSY(&entry->hdr)) return CLASS_INDEX_TO_ID(entry->index); } } /* Only a few classes, or we couldn't malloc reghash: use linear search. */ for (i = 0; i < numclasses; i++) { if (!strcmp(name, xdr->registry[i]->name)) return CLASS_INDEX_TO_ID(i); } return 0; } JS_PUBLIC_API(JSClass *) JS_XDRFindClassById(JSXDRState *xdr, uint32 id) { uintN i = CLASS_ID_TO_INDEX(id); if (i >= xdr->numclasses) return NULL; return xdr->registry[i]; } #endif /* JS_HAS_XDR */