// Time-stamp: <01/08/01 20:58:55 keuchel@w2k> #include "EXTERN.h" #include "perl.h" #ifdef PERL_OBJECT #define NO_XSLOCKS #endif #include "XSUB.h" #ifdef PERL_IMPLICIT_SYS #include "win32iop.h" #include #endif /* PERL_IMPLICIT_SYS */ /* Register any extra external extensions */ char *staticlinkmodules[] = { "DynaLoader", NULL, }; EXTERN_C void boot_DynaLoader (pTHXo_ CV* cv); static void xs_init(pTHXo) { char *file = __FILE__; dXSUB_SYS; newXS("DynaLoader::boot_DynaLoader", boot_DynaLoader, file); } #ifdef PERL_IMPLICIT_SYS #include "perlhost.h" EXTERN_C void perl_get_host_info(struct IPerlMemInfo* perlMemInfo, struct IPerlMemInfo* perlMemSharedInfo, struct IPerlMemInfo* perlMemParseInfo, struct IPerlEnvInfo* perlEnvInfo, struct IPerlStdIOInfo* perlStdIOInfo, struct IPerlLIOInfo* perlLIOInfo, struct IPerlDirInfo* perlDirInfo, struct IPerlSockInfo* perlSockInfo, struct IPerlProcInfo* perlProcInfo) { if (perlMemInfo) { Copy(&perlMem, &perlMemInfo->perlMemList, perlMemInfo->nCount, void*); perlMemInfo->nCount = (sizeof(struct IPerlMem)/sizeof(void*)); } if (perlMemSharedInfo) { Copy(&perlMem, &perlMemSharedInfo->perlMemList, perlMemSharedInfo->nCount, void*); perlMemSharedInfo->nCount = (sizeof(struct IPerlMem)/sizeof(void*)); } if (perlMemParseInfo) { Copy(&perlMem, &perlMemParseInfo->perlMemList, perlMemParseInfo->nCount, void*); perlMemParseInfo->nCount = (sizeof(struct IPerlMem)/sizeof(void*)); } if (perlEnvInfo) { Copy(&perlEnv, &perlEnvInfo->perlEnvList, perlEnvInfo->nCount, void*); perlEnvInfo->nCount = (sizeof(struct IPerlEnv)/sizeof(void*)); } if (perlStdIOInfo) { Copy(&perlStdIO, &perlStdIOInfo->perlStdIOList, perlStdIOInfo->nCount, void*); perlStdIOInfo->nCount = (sizeof(struct IPerlStdIO)/sizeof(void*)); } if (perlLIOInfo) { Copy(&perlLIO, &perlLIOInfo->perlLIOList, perlLIOInfo->nCount, void*); perlLIOInfo->nCount = (sizeof(struct IPerlLIO)/sizeof(void*)); } if (perlDirInfo) { Copy(&perlDir, &perlDirInfo->perlDirList, perlDirInfo->nCount, void*); perlDirInfo->nCount = (sizeof(struct IPerlDir)/sizeof(void*)); } if (perlSockInfo) { Copy(&perlSock, &perlSockInfo->perlSockList, perlSockInfo->nCount, void*); perlSockInfo->nCount = (sizeof(struct IPerlSock)/sizeof(void*)); } if (perlProcInfo) { Copy(&perlProc, &perlProcInfo->perlProcList, perlProcInfo->nCount, void*); perlProcInfo->nCount = (sizeof(struct IPerlProc)/sizeof(void*)); } } EXTERN_C PerlInterpreter* perl_alloc_override(struct IPerlMem** ppMem, struct IPerlMem** ppMemShared, struct IPerlMem** ppMemParse, struct IPerlEnv** ppEnv, struct IPerlStdIO** ppStdIO, struct IPerlLIO** ppLIO, struct IPerlDir** ppDir, struct IPerlSock** ppSock, struct IPerlProc** ppProc) { PerlInterpreter *my_perl = NULL; CPerlHost* pHost = new CPerlHost(ppMem, ppMemShared, ppMemParse, ppEnv, ppStdIO, ppLIO, ppDir, ppSock, ppProc); if (pHost) { my_perl = perl_alloc_using(pHost->m_pHostperlMem, pHost->m_pHostperlMemShared, pHost->m_pHostperlMemParse, pHost->m_pHostperlEnv, pHost->m_pHostperlStdIO, pHost->m_pHostperlLIO, pHost->m_pHostperlDir, pHost->m_pHostperlSock, pHost->m_pHostperlProc); if (my_perl) { #ifdef PERL_OBJECT CPerlObj* pPerl = (CPerlObj*)my_perl; #endif w32_internal_host = pHost; } } return my_perl; } EXTERN_C PerlInterpreter* perl_alloc(void) { PerlInterpreter* my_perl = NULL; CPerlHost* pHost = new CPerlHost(); if (pHost) { my_perl = perl_alloc_using(pHost->m_pHostperlMem, pHost->m_pHostperlMemShared, pHost->m_pHostperlMemParse, pHost->m_pHostperlEnv, pHost->m_pHostperlStdIO, pHost->m_pHostperlLIO, pHost->m_pHostperlDir, pHost->m_pHostperlSock, pHost->m_pHostperlProc); if (my_perl) { #ifdef PERL_OBJECT CPerlObj* pPerl = (CPerlObj*)my_perl; #endif w32_internal_host = pHost; } } return my_perl; } EXTERN_C void win32_delete_internal_host(void *h) { CPerlHost *host = (CPerlHost*)h; delete host; } #ifdef PERL_OBJECT EXTERN_C void perl_construct(PerlInterpreter* my_perl) { CPerlObj* pPerl = (CPerlObj*)my_perl; try { Perl_construct(); } catch(...) { win32_fprintf(stderr, "%s\n", "Error: Unable to construct data structures"); perl_free(my_perl); } } EXTERN_C void perl_destruct(PerlInterpreter* my_perl) { CPerlObj* pPerl = (CPerlObj*)my_perl; #ifdef DEBUGGING Perl_destruct(); #else try { Perl_destruct(); } catch(...) { } #endif } EXTERN_C void perl_free(PerlInterpreter* my_perl) { CPerlObj* pPerl = (CPerlObj*)my_perl; void *host = w32_internal_host; #ifdef DEBUGGING Perl_free(); #else try { Perl_free(); } catch(...) { } #endif win32_delete_internal_host(host); PERL_SET_THX(NULL); } EXTERN_C int perl_run(PerlInterpreter* my_perl) { CPerlObj* pPerl = (CPerlObj*)my_perl; int retVal; #ifdef DEBUGGING retVal = Perl_run(); #else try { retVal = Perl_run(); } catch(...) { win32_fprintf(stderr, "Error: Runtime exception\n"); retVal = -1; } #endif return retVal; } EXTERN_C int perl_parse(PerlInterpreter* my_perl, void (*xsinit)(CPerlObj*), int argc, char** argv, char** env) { int retVal; CPerlObj* pPerl = (CPerlObj*)my_perl; #ifdef DEBUGGING retVal = Perl_parse(xsinit, argc, argv, env); #else try { retVal = Perl_parse(xsinit, argc, argv, env); } catch(...) { win32_fprintf(stderr, "Error: Parse exception\n"); retVal = -1; } #endif *win32_errno() = 0; return retVal; } #undef PL_perl_destruct_level #define PL_perl_destruct_level int dummy #endif /* PERL_OBJECT */ #endif /* PERL_IMPLICIT_SYS */ EXTERN_C HANDLE w32_perldll_handle; EXTERN_C DllExport int RunPerl(int argc, char **argv, char **env) { int exitstatus; PerlInterpreter *my_perl, *new_perl = NULL; #ifndef __BORLANDC__ /* XXX this _may_ be a problem on some compilers (e.g. Borland) that * want to free() argv after main() returns. As luck would have it, * Borland's CRT does the right thing to argv[0] already. */ char szModuleName[MAX_PATH]; char *ptr; XCEGetModuleFileNameA(NULL, szModuleName, sizeof(szModuleName)); (void)win32_longpath(szModuleName); argv[0] = szModuleName; #endif #ifdef PERL_GLOBAL_STRUCT #define PERLVAR(var,type) /**/ #define PERLVARA(var,type) /**/ #define PERLVARI(var,type,init) PL_Vars.var = init; #define PERLVARIC(var,type,init) PL_Vars.var = init; #include "perlvars.h" #undef PERLVAR #undef PERLVARA #undef PERLVARI #undef PERLVARIC #endif PERL_SYS_INIT(&argc,&argv); if (!(my_perl = perl_alloc())) return (1); perl_construct(my_perl); PL_perl_destruct_level = 0; exitstatus = perl_parse(my_perl, xs_init, argc, argv, env); if (!exitstatus) { #if defined(TOP_CLONE) && defined(USE_ITHREADS) /* XXXXXX testing */ # ifdef PERL_OBJECT CPerlHost *h = new CPerlHost(); new_perl = perl_clone_using(my_perl, 1, h->m_pHostperlMem, h->m_pHostperlMemShared, h->m_pHostperlMemParse, h->m_pHostperlEnv, h->m_pHostperlStdIO, h->m_pHostperlLIO, h->m_pHostperlDir, h->m_pHostperlSock, h->m_pHostperlProc ); CPerlObj *pPerl = (CPerlObj*)new_perl; # else new_perl = perl_clone(my_perl, 1); # endif exitstatus = perl_run(new_perl); PERL_SET_THX(my_perl); #else exitstatus = perl_run(my_perl); #endif } perl_destruct(my_perl); perl_free(my_perl); #ifdef USE_ITHREADS if (new_perl) { PERL_SET_THX(new_perl); perl_destruct(new_perl); perl_free(new_perl); } #endif PERL_SYS_TERM(); return (exitstatus); } EXTERN_C void set_w32_module_name(void); #ifdef __MINGW32__ EXTERN_C /* GCC in C++ mode mangles the name, otherwise */ #endif BOOL APIENTRY DllMain(HANDLE hModule, /* DLL module handle */ DWORD fdwReason, /* reason called */ LPVOID lpvReserved) /* reserved */ { switch (fdwReason) { /* The DLL is attaching to a process due to process * initialization or a call to LoadLibrary. */ case DLL_PROCESS_ATTACH: /* #define DEFAULT_BINMODE */ #ifdef DEFAULT_BINMODE setmode( fileno( stdin ), O_BINARY ); setmode( fileno( stdout ), O_BINARY ); setmode( fileno( stderr ), O_BINARY ); _fmode = O_BINARY; #endif #ifndef UNDER_CE DisableThreadLibraryCalls((HMODULE)hModule); #endif w32_perldll_handle = hModule; set_w32_module_name(); break; /* The DLL is detaching from a process due to * process termination or call to FreeLibrary. */ case DLL_PROCESS_DETACH: break; /* The attached process creates a new thread. */ case DLL_THREAD_ATTACH: break; /* The thread of the attached process terminates. */ case DLL_THREAD_DETACH: break; default: break; } return TRUE; }