/* * Copyright 2008 Jacek Caban for CodeWeavers * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #include #include #define COBJMACROS #include "windef.h" #include "winbase.h" #include "winuser.h" #include "ole2.h" #include "dispex.h" #include "activscp.h" #include "resource.h" #include "wine/unicode.h" #include "wine/list.h" typedef struct _script_ctx_t script_ctx_t; typedef struct _exec_ctx_t exec_ctx_t; typedef struct _dispex_prop_t dispex_prop_t; typedef struct { EXCEPINFO ei; VARIANT var; } jsexcept_t; typedef struct { void **blocks; DWORD block_cnt; DWORD last_block; DWORD offset; BOOL mark; struct list custom_blocks; } jsheap_t; void jsheap_init(jsheap_t*); void *jsheap_alloc(jsheap_t*,DWORD); void *jsheap_grow(jsheap_t*,void*,DWORD,DWORD); void jsheap_clear(jsheap_t*); void jsheap_free(jsheap_t*); jsheap_t *jsheap_mark(jsheap_t*); typedef struct DispatchEx DispatchEx; extern HINSTANCE jscript_hinstance; #define PROPF_ARGMASK 0x00ff #define PROPF_METHOD 0x0100 #define PROPF_ENUM 0x0200 #define PROPF_CONSTR 0x0400 typedef enum { JSCLASS_NONE, JSCLASS_ARRAY, JSCLASS_BOOLEAN, JSCLASS_DATE, JSCLASS_ERROR, JSCLASS_FUNCTION, JSCLASS_GLOBAL, JSCLASS_MATH, JSCLASS_NUMBER, JSCLASS_OBJECT, JSCLASS_REGEXP, JSCLASS_STRING } jsclass_t; typedef HRESULT (*builtin_invoke_t)(DispatchEx*,LCID,WORD,DISPPARAMS*,VARIANT*,jsexcept_t*,IServiceProvider*); typedef struct { const WCHAR *name; builtin_invoke_t invoke; DWORD flags; } builtin_prop_t; typedef struct { jsclass_t class; builtin_prop_t value_prop; DWORD props_cnt; const builtin_prop_t *props; void (*destructor)(DispatchEx*); void (*on_put)(DispatchEx*,const WCHAR*); } builtin_info_t; struct DispatchEx { const IDispatchExVtbl *lpIDispatchExVtbl; LONG ref; DWORD buf_size; DWORD prop_cnt; dispex_prop_t *props; script_ctx_t *ctx; DispatchEx *prototype; const builtin_info_t *builtin_info; }; #define _IDispatchEx_(x) ((IDispatchEx*) &(x)->lpIDispatchExVtbl) static inline void jsdisp_release(DispatchEx *jsdisp) { IDispatchEx_Release(_IDispatchEx_(jsdisp)); } HRESULT create_dispex(script_ctx_t*,const builtin_info_t*,DispatchEx*,DispatchEx**); HRESULT init_dispex(DispatchEx*,script_ctx_t*,const builtin_info_t*,DispatchEx*); HRESULT init_dispex_from_constr(DispatchEx*,script_ctx_t*,const builtin_info_t*,DispatchEx*); DispatchEx *iface_to_jsdisp(IUnknown*); HRESULT disp_call(IDispatch*,DISPID,LCID,WORD,DISPPARAMS*,VARIANT*,jsexcept_t*,IServiceProvider*); HRESULT jsdisp_call_value(DispatchEx*,LCID,WORD,DISPPARAMS*,VARIANT*,jsexcept_t*,IServiceProvider*); HRESULT jsdisp_call(DispatchEx*,DISPID,LCID,WORD,DISPPARAMS*,VARIANT*,jsexcept_t*,IServiceProvider*); HRESULT disp_propget(IDispatch*,DISPID,LCID,VARIANT*,jsexcept_t*,IServiceProvider*); HRESULT disp_propput(IDispatch*,DISPID,LCID,VARIANT*,jsexcept_t*,IServiceProvider*); HRESULT jsdisp_propget(DispatchEx*,DISPID,LCID,VARIANT*,jsexcept_t*,IServiceProvider*); HRESULT jsdisp_propput_name(DispatchEx*,const WCHAR*,LCID,VARIANT*,jsexcept_t*,IServiceProvider*); HRESULT jsdisp_propput_idx(DispatchEx*,DWORD,LCID,VARIANT*,jsexcept_t*,IServiceProvider*); HRESULT jsdisp_propget_name(DispatchEx*,LPCWSTR,LCID,VARIANT*,jsexcept_t*,IServiceProvider*); HRESULT jsdisp_propget_idx(DispatchEx*,DWORD,LCID,VARIANT*,jsexcept_t*,IServiceProvider*); HRESULT jsdisp_get_id(DispatchEx*,const WCHAR*,DWORD,DISPID*); HRESULT jsdisp_delete_idx(DispatchEx*,DWORD); HRESULT create_builtin_function(script_ctx_t*,builtin_invoke_t,const builtin_info_t*,DWORD, DispatchEx*,DispatchEx**); HRESULT Function_value(DispatchEx*,LCID,WORD,DISPPARAMS*,VARIANT*,jsexcept_t*,IServiceProvider*); HRESULT throw_eval_error(script_ctx_t*,jsexcept_t*,UINT,const WCHAR*); HRESULT throw_range_error(script_ctx_t*,jsexcept_t*,UINT,const WCHAR*); HRESULT throw_reference_error(script_ctx_t*,jsexcept_t*,UINT,const WCHAR*); HRESULT throw_syntax_error(script_ctx_t*,jsexcept_t*,UINT,const WCHAR*); HRESULT throw_type_error(script_ctx_t*,jsexcept_t*,UINT,const WCHAR*); HRESULT throw_uri_error(script_ctx_t*,jsexcept_t*,UINT,const WCHAR*); HRESULT create_object(script_ctx_t*,DispatchEx*,DispatchEx**); HRESULT create_math(script_ctx_t*,DispatchEx**); HRESULT create_array(script_ctx_t*,DWORD,DispatchEx**); HRESULT create_regexp_str(script_ctx_t*,const WCHAR*,DWORD,const WCHAR*,DWORD,DispatchEx**); HRESULT create_string(script_ctx_t*,const WCHAR*,DWORD,DispatchEx**); HRESULT create_bool(script_ctx_t*,VARIANT_BOOL,DispatchEx**); HRESULT create_number(script_ctx_t*,VARIANT*,DispatchEx**); typedef enum { NO_HINT, HINT_STRING, HINT_NUMBER } hint_t; HRESULT to_primitive(script_ctx_t*,VARIANT*,jsexcept_t*,VARIANT*, hint_t); HRESULT to_boolean(VARIANT*,VARIANT_BOOL*); HRESULT to_number(script_ctx_t*,VARIANT*,jsexcept_t*,VARIANT*); HRESULT to_integer(script_ctx_t*,VARIANT*,jsexcept_t*,VARIANT*); HRESULT to_int32(script_ctx_t*,VARIANT*,jsexcept_t*,INT*); HRESULT to_uint32(script_ctx_t*,VARIANT*,jsexcept_t*,DWORD*); HRESULT to_string(script_ctx_t*,VARIANT*,jsexcept_t*,BSTR*); HRESULT to_object(exec_ctx_t*,VARIANT*,IDispatch**); typedef struct named_item_t { IDispatch *disp; DWORD flags; LPWSTR name; struct named_item_t *next; } named_item_t; struct _script_ctx_t { LONG ref; SCRIPTSTATE state; exec_ctx_t *exec_ctx; named_item_t *named_items; IActiveScriptSite *site; LCID lcid; jsheap_t tmp_heap; DispatchEx *script_disp; DispatchEx *global; DispatchEx *function_constr; DispatchEx *array_constr; DispatchEx *bool_constr; DispatchEx *date_constr; DispatchEx *error_constr; DispatchEx *eval_error_constr; DispatchEx *range_error_constr; DispatchEx *reference_error_constr; DispatchEx *syntax_error_constr; DispatchEx *type_error_constr; DispatchEx *uri_error_constr; DispatchEx *number_constr; DispatchEx *object_constr; DispatchEx *regexp_constr; DispatchEx *string_constr; }; void script_release(script_ctx_t*); static inline void script_addref(script_ctx_t *ctx) { ctx->ref++; } HRESULT init_global(script_ctx_t*); HRESULT init_function_constr(script_ctx_t*,DispatchEx*); HRESULT create_object_prototype(script_ctx_t*,DispatchEx**); HRESULT create_array_constr(script_ctx_t*,DispatchEx**); HRESULT create_bool_constr(script_ctx_t*,DispatchEx**); HRESULT create_date_constr(script_ctx_t*,DispatchEx**); HRESULT init_error_constr(script_ctx_t*); HRESULT create_number_constr(script_ctx_t*,DispatchEx**); HRESULT create_object_constr(script_ctx_t*,DispatchEx*,DispatchEx**); HRESULT create_regexp_constr(script_ctx_t*,DispatchEx**); HRESULT create_string_constr(script_ctx_t*,DispatchEx**); typedef struct { const WCHAR *str; DWORD len; } match_result_t; HRESULT regexp_match_next(DispatchEx*,BOOL,const WCHAR*,DWORD,const WCHAR**,match_result_t**, DWORD*,DWORD*,match_result_t*); HRESULT regexp_match(DispatchEx*,const WCHAR*,DWORD,BOOL,match_result_t**,DWORD*); static inline VARIANT *get_arg(DISPPARAMS *dp, DWORD i) { return dp->rgvarg + dp->cArgs-i-1; } static inline DWORD arg_cnt(const DISPPARAMS *dp) { return dp->cArgs - dp->cNamedArgs; } static inline BOOL is_class(DispatchEx *jsdisp, jsclass_t class) { return jsdisp->builtin_info->class == class; } static inline BOOL is_num_vt(enum VARENUM vt) { return vt == VT_I4 || vt == VT_R8; } static inline DOUBLE num_val(const VARIANT *v) { return V_VT(v) == VT_I4 ? V_I4(v) : V_R8(v); } static inline void num_set_val(VARIANT *v, DOUBLE d) { if(d == (DOUBLE)(INT)d) { V_VT(v) = VT_I4; V_I4(v) = d; }else { V_VT(v) = VT_R8; V_R8(v) = d; } } static inline void num_set_nan(VARIANT *v) { V_VT(v) = VT_R8; #ifdef NAN V_R8(v) = NAN; #else V_UI8(v) = (ULONGLONG)0x7ff80000<<32; #endif } static inline DOUBLE ret_nan() { VARIANT v; num_set_nan(&v); return V_R8(&v); } static inline void num_set_inf(VARIANT *v, BOOL positive) { V_VT(v) = VT_R8; #ifdef INFINITY V_R8(v) = positive ? INFINITY : -INFINITY; #else V_UI8(v) = (ULONGLONG)0x7ff00000<<32; if(!positive) V_R8(v) = -V_R8(v); #endif } const char *debugstr_variant(const VARIANT*); HRESULT WINAPI JScriptFactory_CreateInstance(IClassFactory*,IUnknown*,REFIID,void**); extern LONG module_ref; static inline void lock_module(void) { InterlockedIncrement(&module_ref); } static inline void unlock_module(void) { InterlockedDecrement(&module_ref); } static inline void *heap_alloc(size_t len) { return HeapAlloc(GetProcessHeap(), 0, len); } static inline void *heap_alloc_zero(size_t len) { return HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, len); } static inline void *heap_realloc(void *mem, size_t len) { return HeapReAlloc(GetProcessHeap(), 0, mem, len); } static inline BOOL heap_free(void *mem) { return HeapFree(GetProcessHeap(), 0, mem); } static inline LPWSTR heap_strdupW(LPCWSTR str) { LPWSTR ret = NULL; if(str) { DWORD size; size = (strlenW(str)+1)*sizeof(WCHAR); ret = heap_alloc(size); memcpy(ret, str, size); } return ret; } #define DEFINE_THIS(cls,ifc,iface) ((cls*)((BYTE*)(iface)-offsetof(cls,lp ## ifc ## Vtbl)))