// Unicode support added by Jim Park -- 07/27/2007 // Unicode support requires that all plugins take TCHARs instead as well. This // means existing plugins will not work for the Unicode version of NSIS unless // recompiled. You have been warned. #ifndef _EXDLL_H_ #define _EXDLL_H_ #include #include "tchar.h" #if defined(__GNUC__) #define UNUSED __attribute__((unused)) #else #define UNUSED #endif // only include this file from one place in your DLL. // (it is all static, if you use it in two places it will fail) #define EXDLL_INIT() { \ g_stringsize=string_size; \ g_stacktop=stacktop; \ g_variables=variables; } // For page showing plug-ins #define WM_NOTIFY_OUTER_NEXT (WM_USER+0x8) #define WM_NOTIFY_CUSTOM_READY (WM_USER+0xd) /* Jim Park: This char is compared as an int value and therefore it's fine as an ASCII. Do not need to change to wchar_t since it will get the same integer value. */ #define NOTIFY_BYE_BYE _T('x') typedef struct _stack_t { struct _stack_t *next; TCHAR text[1]; // this should be the length of string_size } stack_t; static unsigned int g_stringsize; static stack_t **g_stacktop; static TCHAR *g_variables; static int __stdcall popstring(TCHAR *str) UNUSED; // 0 on success, 1 on empty stack static void __stdcall pushstring(const TCHAR *str) UNUSED; static TCHAR * __stdcall getuservariable(const int varnum) UNUSED; static void __stdcall setuservariable(const int varnum, const TCHAR *var) UNUSED; enum { INST_0, // $0 INST_1, // $1 INST_2, // $2 INST_3, // $3 INST_4, // $4 INST_5, // $5 INST_6, // $6 INST_7, // $7 INST_8, // $8 INST_9, // $9 INST_R0, // $R0 INST_R1, // $R1 INST_R2, // $R2 INST_R3, // $R3 INST_R4, // $R4 INST_R5, // $R5 INST_R6, // $R6 INST_R7, // $R7 INST_R8, // $R8 INST_R9, // $R9 INST_CMDLINE, // $CMDLINE INST_INSTDIR, // $INSTDIR INST_OUTDIR, // $OUTDIR INST_EXEDIR, // $EXEDIR INST_LANG, // $LANGUAGE __INST_LAST }; typedef struct { int autoclose; int all_user_var; int exec_error; int abort; int exec_reboot; int reboot_called; int XXX_cur_insttype; // deprecated int XXX_insttype_changed; // deprecated int silent; int instdir_error; int rtl; int errlvl; int alter_reg_view; int status_update; } exec_flags_type; typedef struct { exec_flags_type *exec_flags; int (__stdcall *ExecuteCodeSegment)(int, HWND); void (__stdcall *validate_filename)(TCHAR *); } extra_parameters; // utility functions (not required but often useful) static int __stdcall popstring(TCHAR *str) { stack_t *th; if (!g_stacktop || !*g_stacktop) return 1; th=(*g_stacktop); lstrcpy(str,th->text); *g_stacktop = th->next; GlobalFree((HGLOBAL)th); return 0; } static void __stdcall pushstring(const TCHAR *str) { stack_t *th; if (!g_stacktop) return; th=(stack_t*)GlobalAlloc(GPTR,(sizeof(stack_t)+(g_stringsize)*sizeof(TCHAR))); lstrcpyn(th->text,str,g_stringsize); th->next=*g_stacktop; *g_stacktop=th; } static TCHAR * __stdcall getuservariable(const int varnum) { if (varnum < 0 || varnum >= __INST_LAST) return NULL; return g_variables+varnum*g_stringsize; } static void __stdcall setuservariable(const int varnum, const TCHAR *var) { if (var != NULL && varnum >= 0 && varnum < __INST_LAST) lstrcpy(g_variables + varnum*g_stringsize, var); } #ifdef _UNICODE #define PopStringW(x) popstring(x) #define PushStringW(x) pushstring(x) #define SetUserVariableW(x,y) setuservariable(x,y) static int __stdcall PopStringA(char* ansiStr) { wchar_t* wideStr = (wchar_t*) GlobalAlloc(GPTR, g_stringsize*sizeof(wchar_t)); int rval = popstring(wideStr); WideCharToMultiByte(CP_ACP, 0, wideStr, -1, ansiStr, g_stringsize, NULL, NULL); GlobalFree((HGLOBAL)wideStr); return rval; } static void __stdcall PushStringA(const char* ansiStr) { wchar_t* wideStr = (wchar_t*) GlobalAlloc(GPTR, g_stringsize*sizeof(wchar_t)); MultiByteToWideChar(CP_ACP, 0, ansiStr, -1, wideStr, g_stringsize); pushstring(wideStr); GlobalFree((HGLOBAL)wideStr); return; } static void __stdcall GetUserVariableW(const int varnum, wchar_t* wideStr) { lstrcpyW(wideStr, getuservariable(varnum)); } static void __stdcall GetUserVariableA(const int varnum, char* ansiStr) { wchar_t* wideStr = getuservariable(varnum); WideCharToMultiByte(CP_ACP, 0, wideStr, -1, ansiStr, g_stringsize, NULL, NULL); } static void __stdcall SetUserVariableA(const int varnum, const char* ansiStr) { if (ansiStr != NULL && varnum >= 0 && varnum < __INST_LAST) { wchar_t* wideStr = g_variables + varnum * g_stringsize; MultiByteToWideChar(CP_ACP, 0, ansiStr, -1, wideStr, g_stringsize); } } #else // ANSI defs #define PopStringA(x) popstring(x) #define PushStringA(x) pushstring(x) #define SetUserVariableA(x,y) setuservariable(x,y) static int __stdcall PopStringW(wchar_t* wideStr) { char* ansiStr = (char*) GlobalAlloc(GPTR, g_stringsize); int rval = popstring(ansiStr); MultiByteToWideChar(CP_ACP, 0, ansiStr, -1, wideStr, g_stringsize); GlobalFree((HGLOBAL)ansiStr); return rval; } static void __stdcall PushStringW(wchar_t* wideStr) { char* ansiStr = (char*) GlobalAlloc(GPTR, g_stringsize); WideCharToMultiByte(CP_ACP, 0, wideStr, -1, ansiStr, g_stringsize, NULL, NULL); pushstring(ansiStr); GlobalFree((HGLOBAL)ansiStr); } static void __stdcall GetUserVariableW(const int varnum, wchar_t* wideStr) { char* ansiStr = getuservariable(varnum); MultiByteToWideChar(CP_ACP, 0, ansiStr, -1, wideStr, g_stringsize); } static void __stdcall GetUserVariableA(const int varnum, char* ansiStr) { lstrcpyA(ansiStr, getuservariable(varnum)); } static void __stdcall SetUserVariableW(const int varnum, const wchar_t* wideStr) { if (wideStr != NULL && varnum >= 0 && varnum < __INST_LAST) { char* ansiStr = g_variables + varnum * g_stringsize; WideCharToMultiByte(CP_ACP, 0, wideStr, -1, ansiStr, g_stringsize, NULL, NULL); } } #endif static BOOL __stdcall IsUnicode(void) { #ifdef _UNICODE return TRUE; #else return FALSE; #endif } #endif//_EXDLL_H_