/* * "The Road goes ever on and on, down from the door where it began." */ #include "EXTERN.h" #include "perl.h" #ifdef PERL_OBJECT #define NO_XSLOCKS #endif #include "XSUB.h" #ifdef PERL_OBJECT #include "win32iop.h" #include #endif /* 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_OBJECT // IPerlMem void* PerlMemMalloc(struct IPerlMem*, size_t size) { return win32_malloc(size); } void* PerlMemRealloc(struct IPerlMem*, void* ptr, size_t size) { return win32_realloc(ptr, size); } void PerlMemFree(struct IPerlMem*, void* ptr) { win32_free(ptr); } struct IPerlMem perlMem = { PerlMemMalloc, PerlMemRealloc, PerlMemFree, }; // IPerlEnv extern char * g_win32_get_privlib(char *pl); extern char * g_win32_get_sitelib(char *pl); char* PerlEnvGetenv(struct IPerlEnv*, const char *varname) { return win32_getenv(varname); }; int PerlEnvPutenv(struct IPerlEnv*, const char *envstring) { return win32_putenv(envstring); }; char* PerlEnvGetenv_len(struct IPerlEnv*, const char* varname, unsigned long* len) { char *e = win32_getenv(varname); if (e) *len = strlen(e); return e; } int PerlEnvUname(struct IPerlEnv*, struct utsname *name) { return win32_uname(name); } void PerlEnvClearenv(struct IPerlEnv*) { dTHXo; char *envv = GetEnvironmentStrings(); char *cur = envv; STRLEN len; while (*cur) { char *end = strchr(cur,'='); if (end && end != cur) { *end = '\0'; my_setenv(cur,Nullch); *end = '='; cur = end + strlen(end+1)+2; } else if ((len = strlen(cur))) cur += len+1; } FreeEnvironmentStrings(envv); } void* PerlEnvGetChildEnv(struct IPerlEnv*) { return NULL; } void PerlEnvFreeChildEnv(struct IPerlEnv*, void* env) { } char* PerlEnvGetChildDir(struct IPerlEnv*) { return NULL; } void PerlEnvFreeChildDir(struct IPerlEnv*, char* dir) { } unsigned long PerlEnvOsId(struct IPerlEnv*) { return win32_os_id(); } char* PerlEnvLibPath(struct IPerlEnv*, char *pl) { return g_win32_get_privlib(pl); } char* PerlEnvSiteLibPath(struct IPerlEnv*, char *pl) { return g_win32_get_sitelib(pl); } struct IPerlEnv perlEnv = { PerlEnvGetenv, PerlEnvPutenv, PerlEnvGetenv_len, PerlEnvUname, PerlEnvClearenv, PerlEnvGetChildEnv, PerlEnvFreeChildEnv, PerlEnvGetChildDir, PerlEnvFreeChildDir, PerlEnvOsId, PerlEnvLibPath, PerlEnvSiteLibPath, }; // PerlStdIO PerlIO* PerlStdIOStdin(struct IPerlStdIO*) { return (PerlIO*)win32_stdin(); } PerlIO* PerlStdIOStdout(struct IPerlStdIO*) { return (PerlIO*)win32_stdout(); } PerlIO* PerlStdIOStderr(struct IPerlStdIO*) { return (PerlIO*)win32_stderr(); } PerlIO* PerlStdIOOpen(struct IPerlStdIO*, const char *path, const char *mode) { return (PerlIO*)win32_fopen(path, mode); } int PerlStdIOClose(struct IPerlStdIO*, PerlIO* pf) { return win32_fclose(((FILE*)pf)); } int PerlStdIOEof(struct IPerlStdIO*, PerlIO* pf) { return win32_feof((FILE*)pf); } int PerlStdIOError(struct IPerlStdIO*, PerlIO* pf) { return win32_ferror((FILE*)pf); } void PerlStdIOClearerr(struct IPerlStdIO*, PerlIO* pf) { win32_clearerr((FILE*)pf); } int PerlStdIOGetc(struct IPerlStdIO*, PerlIO* pf) { return win32_getc((FILE*)pf); } char* PerlStdIOGetBase(struct IPerlStdIO*, PerlIO* pf) { #ifdef FILE_base FILE *f = (FILE*)pf; return FILE_base(f); #else return Nullch; #endif } int PerlStdIOGetBufsiz(struct IPerlStdIO*, PerlIO* pf) { #ifdef FILE_bufsiz FILE *f = (FILE*)pf; return FILE_bufsiz(f); #else return (-1); #endif } int PerlStdIOGetCnt(struct IPerlStdIO*, PerlIO* pf) { #ifdef USE_STDIO_PTR FILE *f = (FILE*)pf; return FILE_cnt(f); #else return (-1); #endif } char* PerlStdIOGetPtr(struct IPerlStdIO*, PerlIO* pf) { #ifdef USE_STDIO_PTR FILE *f = (FILE*)pf; return FILE_ptr(f); #else return Nullch; #endif } char* PerlStdIOGets(struct IPerlStdIO*, PerlIO* pf, char* s, int n) { return win32_fgets(s, n, (FILE*)pf); } int PerlStdIOPutc(struct IPerlStdIO*, PerlIO* pf, int c) { return win32_fputc(c, (FILE*)pf); } int PerlStdIOPuts(struct IPerlStdIO*, PerlIO* pf, const char *s) { return win32_fputs(s, (FILE*)pf); } int PerlStdIOFlush(struct IPerlStdIO*, PerlIO* pf) { return win32_fflush((FILE*)pf); } int PerlStdIOUngetc(struct IPerlStdIO*, PerlIO* pf,int c) { return win32_ungetc(c, (FILE*)pf); } int PerlStdIOFileno(struct IPerlStdIO*, PerlIO* pf) { return win32_fileno((FILE*)pf); } PerlIO* PerlStdIOFdopen(struct IPerlStdIO*, int fd, const char *mode) { return (PerlIO*)win32_fdopen(fd, mode); } PerlIO* PerlStdIOReopen(struct IPerlStdIO*, const char*path, const char*mode, PerlIO* pf) { return (PerlIO*)win32_freopen(path, mode, (FILE*)pf); } SSize_t PerlStdIORead(struct IPerlStdIO*, PerlIO* pf, void *buffer, Size_t size) { return win32_fread(buffer, 1, size, (FILE*)pf); } SSize_t PerlStdIOWrite(struct IPerlStdIO*, PerlIO* pf, const void *buffer, Size_t size) { return win32_fwrite(buffer, 1, size, (FILE*)pf); } void PerlStdIOSetBuf(struct IPerlStdIO*, PerlIO* pf, char* buffer) { win32_setbuf((FILE*)pf, buffer); } int PerlStdIOSetVBuf(struct IPerlStdIO*, PerlIO* pf, char* buffer, int type, Size_t size) { return win32_setvbuf((FILE*)pf, buffer, type, size); } void PerlStdIOSetCnt(struct IPerlStdIO*, PerlIO* pf, int n) { #ifdef STDIO_CNT_LVALUE FILE *f = (FILE*)pf; FILE_cnt(f) = n; #endif } void PerlStdIOSetPtrCnt(struct IPerlStdIO*, PerlIO* pf, char * ptr, int n) { #ifdef STDIO_PTR_LVALUE FILE *f = (FILE*)pf; FILE_ptr(f) = ptr; FILE_cnt(f) = n; #endif } void PerlStdIOSetlinebuf(struct IPerlStdIO*, PerlIO* pf) { win32_setvbuf((FILE*)pf, NULL, _IOLBF, 0); } int PerlStdIOPrintf(struct IPerlStdIO*, PerlIO* pf, const char *format,...) { va_list(arglist); va_start(arglist, format); return win32_vfprintf((FILE*)pf, format, arglist); } int PerlStdIOVprintf(struct IPerlStdIO*, PerlIO* pf, const char *format, va_list arglist) { return win32_vfprintf((FILE*)pf, format, arglist); } long PerlStdIOTell(struct IPerlStdIO*, PerlIO* pf) { return win32_ftell((FILE*)pf); } int PerlStdIOSeek(struct IPerlStdIO*, PerlIO* pf, off_t offset, int origin) { return win32_fseek((FILE*)pf, offset, origin); } void PerlStdIORewind(struct IPerlStdIO*, PerlIO* pf) { win32_rewind((FILE*)pf); } PerlIO* PerlStdIOTmpfile(struct IPerlStdIO*) { return (PerlIO*)win32_tmpfile(); } int PerlStdIOGetpos(struct IPerlStdIO*, PerlIO* pf, Fpos_t *p) { return win32_fgetpos((FILE*)pf, p); } int PerlStdIOSetpos(struct IPerlStdIO*, PerlIO* pf, const Fpos_t *p) { return win32_fsetpos((FILE*)pf, p); } void PerlStdIOInit(struct IPerlStdIO*) { } void PerlStdIOInitOSExtras(struct IPerlStdIO*) { dTHXo; xs_init(pPerl); Perl_init_os_extras(); } int PerlStdIOOpenOSfhandle(struct IPerlStdIO*, long osfhandle, int flags) { return win32_open_osfhandle(osfhandle, flags); } int PerlStdIOGetOSfhandle(struct IPerlStdIO*, int filenum) { return win32_get_osfhandle(filenum); } struct IPerlStdIO perlStdIO = { PerlStdIOStdin, PerlStdIOStdout, PerlStdIOStderr, PerlStdIOOpen, PerlStdIOClose, PerlStdIOEof, PerlStdIOError, PerlStdIOClearerr, PerlStdIOGetc, PerlStdIOGetBase, PerlStdIOGetBufsiz, PerlStdIOGetCnt, PerlStdIOGetPtr, PerlStdIOGets, PerlStdIOPutc, PerlStdIOPuts, PerlStdIOFlush, PerlStdIOUngetc, PerlStdIOFileno, PerlStdIOFdopen, PerlStdIOReopen, PerlStdIORead, PerlStdIOWrite, PerlStdIOSetBuf, PerlStdIOSetVBuf, PerlStdIOSetCnt, PerlStdIOSetPtrCnt, PerlStdIOSetlinebuf, PerlStdIOPrintf, PerlStdIOVprintf, PerlStdIOTell, PerlStdIOSeek, PerlStdIORewind, PerlStdIOTmpfile, PerlStdIOGetpos, PerlStdIOSetpos, PerlStdIOInit, PerlStdIOInitOSExtras, }; // IPerlLIO int PerlLIOAccess(struct IPerlLIO*, const char *path, int mode) { return access(path, mode); } int PerlLIOChmod(struct IPerlLIO*, const char *filename, int pmode) { return chmod(filename, pmode); } int PerlLIOChown(struct IPerlLIO*, const char *filename, uid_t owner, gid_t group) { return chown(filename, owner, group); } int PerlLIOChsize(struct IPerlLIO*, int handle, long size) { return chsize(handle, size); } int PerlLIOClose(struct IPerlLIO*, int handle) { return win32_close(handle); } int PerlLIODup(struct IPerlLIO*, int handle) { return win32_dup(handle); } int PerlLIODup2(struct IPerlLIO*, int handle1, int handle2) { return win32_dup2(handle1, handle2); } int PerlLIOFlock(struct IPerlLIO*, int fd, int oper) { return win32_flock(fd, oper); } int PerlLIOFileStat(struct IPerlLIO*, int handle, struct stat *buffer) { return fstat(handle, buffer); } int PerlLIOIOCtl(struct IPerlLIO*, int i, unsigned int u, char *data) { return win32_ioctlsocket((SOCKET)i, (long)u, (u_long*)data); } int PerlLIOIsatty(struct IPerlLIO*, int fd) { return isatty(fd); } long PerlLIOLseek(struct IPerlLIO*, int handle, long offset, int origin) { return win32_lseek(handle, offset, origin); } int PerlLIOLstat(struct IPerlLIO* p, const char *path, struct stat *buffer) { return win32_stat(path, buffer); } char* PerlLIOMktemp(struct IPerlLIO*, char *Template) { return mktemp(Template); } int PerlLIOOpen(struct IPerlLIO*, const char *filename, int oflag) { return win32_open(filename, oflag); } int PerlLIOOpen3(struct IPerlLIO*, const char *filename, int oflag, int pmode) { int ret; if(stricmp(filename, "/dev/null") == 0) ret = open("NUL", oflag, pmode); else ret = open(filename, oflag, pmode); return ret; } int PerlLIORead(struct IPerlLIO*, int handle, void *buffer, unsigned int count) { return win32_read(handle, buffer, count); } int PerlLIORename(struct IPerlLIO*, const char *OldFileName, const char *newname) { return win32_rename(OldFileName, newname); } int PerlLIOSetmode(struct IPerlLIO*, int handle, int mode) { return win32_setmode(handle, mode); } int PerlLIONameStat(struct IPerlLIO*, const char *path, struct stat *buffer) { return win32_stat(path, buffer); } char* PerlLIOTmpnam(struct IPerlLIO*, char *string) { return tmpnam(string); } int PerlLIOUmask(struct IPerlLIO*, int pmode) { return umask(pmode); } int PerlLIOUnlink(struct IPerlLIO*, const char *filename) { chmod(filename, S_IREAD | S_IWRITE); return unlink(filename); } int PerlLIOUtime(struct IPerlLIO*, char *filename, struct utimbuf *times) { return win32_utime(filename, times); } int PerlLIOWrite(struct IPerlLIO*, int handle, const void *buffer, unsigned int count) { return win32_write(handle, buffer, count); } struct IPerlLIO perlLIO = { PerlLIOAccess, PerlLIOChmod, PerlLIOChown, PerlLIOChsize, PerlLIOClose, PerlLIODup, PerlLIODup2, PerlLIOFlock, PerlLIOFileStat, PerlLIOIOCtl, PerlLIOIsatty, PerlLIOLseek, PerlLIOLstat, PerlLIOMktemp, PerlLIOOpen, PerlLIOOpen3, PerlLIORead, PerlLIORename, PerlLIOSetmode, PerlLIONameStat, PerlLIOTmpnam, PerlLIOUmask, PerlLIOUnlink, PerlLIOUtime, PerlLIOWrite, }; // IPerlDIR int PerlDirMakedir(struct IPerlDir*, const char *dirname, int mode) { return win32_mkdir(dirname, mode); } int PerlDirChdir(struct IPerlDir*, const char *dirname) { return win32_chdir(dirname); } int PerlDirRmdir(struct IPerlDir*, const char *dirname) { return win32_rmdir(dirname); } int PerlDirClose(struct IPerlDir*, DIR *dirp) { return win32_closedir(dirp); } DIR* PerlDirOpen(struct IPerlDir*, char *filename) { return win32_opendir(filename); } struct direct * PerlDirRead(struct IPerlDir*, DIR *dirp) { return win32_readdir(dirp); } void PerlDirRewind(struct IPerlDir*, DIR *dirp) { win32_rewinddir(dirp); } void PerlDirSeek(struct IPerlDir*, DIR *dirp, long loc) { win32_seekdir(dirp, loc); } long PerlDirTell(struct IPerlDir*, DIR *dirp) { return win32_telldir(dirp); } struct IPerlDir perlDir = { PerlDirMakedir, PerlDirChdir, PerlDirRmdir, PerlDirClose, PerlDirOpen, PerlDirRead, PerlDirRewind, PerlDirSeek, PerlDirTell, }; // IPerlSock u_long PerlSockHtonl(struct IPerlSock*, u_long hostlong) { return win32_htonl(hostlong); } u_short PerlSockHtons(struct IPerlSock*, u_short hostshort) { return win32_htons(hostshort); } u_long PerlSockNtohl(struct IPerlSock*, u_long netlong) { return win32_ntohl(netlong); } u_short PerlSockNtohs(struct IPerlSock*, u_short netshort) { return win32_ntohs(netshort); } SOCKET PerlSockAccept(struct IPerlSock*, SOCKET s, struct sockaddr* addr, int* addrlen) { return win32_accept(s, addr, addrlen); } int PerlSockBind(struct IPerlSock*, SOCKET s, const struct sockaddr* name, int namelen) { return win32_bind(s, name, namelen); } int PerlSockConnect(struct IPerlSock*, SOCKET s, const struct sockaddr* name, int namelen) { return win32_connect(s, name, namelen); } void PerlSockEndhostent(struct IPerlSock*) { win32_endhostent(); } void PerlSockEndnetent(struct IPerlSock*) { win32_endnetent(); } void PerlSockEndprotoent(struct IPerlSock*) { win32_endprotoent(); } void PerlSockEndservent(struct IPerlSock*) { win32_endservent(); } struct hostent* PerlSockGethostbyaddr(struct IPerlSock*, const char* addr, int len, int type) { return win32_gethostbyaddr(addr, len, type); } struct hostent* PerlSockGethostbyname(struct IPerlSock*, const char* name) { return win32_gethostbyname(name); } struct hostent* PerlSockGethostent(struct IPerlSock*) { dTHXo; croak("gethostent not implemented!\n"); return NULL; } int PerlSockGethostname(struct IPerlSock*, char* name, int namelen) { return win32_gethostname(name, namelen); } struct netent * PerlSockGetnetbyaddr(struct IPerlSock*, long net, int type) { return win32_getnetbyaddr(net, type); } struct netent * PerlSockGetnetbyname(struct IPerlSock*, const char *name) { return win32_getnetbyname((char*)name); } struct netent * PerlSockGetnetent(struct IPerlSock*) { return win32_getnetent(); } int PerlSockGetpeername(struct IPerlSock*, SOCKET s, struct sockaddr* name, int* namelen) { return win32_getpeername(s, name, namelen); } struct protoent* PerlSockGetprotobyname(struct IPerlSock*, const char* name) { return win32_getprotobyname(name); } struct protoent* PerlSockGetprotobynumber(struct IPerlSock*, int number) { return win32_getprotobynumber(number); } struct protoent* PerlSockGetprotoent(struct IPerlSock*) { return win32_getprotoent(); } struct servent* PerlSockGetservbyname(struct IPerlSock*, const char* name, const char* proto) { return win32_getservbyname(name, proto); } struct servent* PerlSockGetservbyport(struct IPerlSock*, int port, const char* proto) { return win32_getservbyport(port, proto); } struct servent* PerlSockGetservent(struct IPerlSock*) { return win32_getservent(); } int PerlSockGetsockname(struct IPerlSock*, SOCKET s, struct sockaddr* name, int* namelen) { return win32_getsockname(s, name, namelen); } int PerlSockGetsockopt(struct IPerlSock*, SOCKET s, int level, int optname, char* optval, int* optlen) { return win32_getsockopt(s, level, optname, optval, optlen); } unsigned long PerlSockInetAddr(struct IPerlSock*, const char* cp) { return win32_inet_addr(cp); } char* PerlSockInetNtoa(struct IPerlSock*, struct in_addr in) { return win32_inet_ntoa(in); } int PerlSockListen(struct IPerlSock*, SOCKET s, int backlog) { return win32_listen(s, backlog); } int PerlSockRecv(struct IPerlSock*, SOCKET s, char* buffer, int len, int flags) { return win32_recv(s, buffer, len, flags); } int PerlSockRecvfrom(struct IPerlSock*, SOCKET s, char* buffer, int len, int flags, struct sockaddr* from, int* fromlen) { return win32_recvfrom(s, buffer, len, flags, from, fromlen); } int PerlSockSelect(struct IPerlSock*, int nfds, char* readfds, char* writefds, char* exceptfds, const struct timeval* timeout) { return win32_select(nfds, (Perl_fd_set*)readfds, (Perl_fd_set*)writefds, (Perl_fd_set*)exceptfds, timeout); } int PerlSockSend(struct IPerlSock*, SOCKET s, const char* buffer, int len, int flags) { return win32_send(s, buffer, len, flags); } int PerlSockSendto(struct IPerlSock*, SOCKET s, const char* buffer, int len, int flags, const struct sockaddr* to, int tolen) { return win32_sendto(s, buffer, len, flags, to, tolen); } void PerlSockSethostent(struct IPerlSock*, int stayopen) { win32_sethostent(stayopen); } void PerlSockSetnetent(struct IPerlSock*, int stayopen) { win32_setnetent(stayopen); } void PerlSockSetprotoent(struct IPerlSock*, int stayopen) { win32_setprotoent(stayopen); } void PerlSockSetservent(struct IPerlSock*, int stayopen) { win32_setservent(stayopen); } int PerlSockSetsockopt(struct IPerlSock*, SOCKET s, int level, int optname, const char* optval, int optlen) { return win32_setsockopt(s, level, optname, optval, optlen); } int PerlSockShutdown(struct IPerlSock*, SOCKET s, int how) { return win32_shutdown(s, how); } SOCKET PerlSockSocket(struct IPerlSock*, int af, int type, int protocol) { return win32_socket(af, type, protocol); } int PerlSockSocketpair(struct IPerlSock*, int domain, int type, int protocol, int* fds) { dTHXo; croak("socketpair not implemented!\n"); return 0; } int PerlSockClosesocket(struct IPerlSock*, SOCKET s) { return win32_closesocket(s); } int PerlSockIoctlsocket(struct IPerlSock*, SOCKET s, long cmd, u_long *argp) { return win32_ioctlsocket(s, cmd, argp); } struct IPerlSock perlSock = { PerlSockHtonl, PerlSockHtons, PerlSockNtohl, PerlSockNtohs, PerlSockAccept, PerlSockBind, PerlSockConnect, PerlSockEndhostent, PerlSockEndnetent, PerlSockEndprotoent, PerlSockEndservent, PerlSockGethostname, PerlSockGetpeername, PerlSockGethostbyaddr, PerlSockGethostbyname, PerlSockGethostent, PerlSockGetnetbyaddr, PerlSockGetnetbyname, PerlSockGetnetent, PerlSockGetprotobyname, PerlSockGetprotobynumber, PerlSockGetprotoent, PerlSockGetservbyname, PerlSockGetservbyport, PerlSockGetservent, PerlSockGetsockname, PerlSockGetsockopt, PerlSockInetAddr, PerlSockInetNtoa, PerlSockListen, PerlSockRecv, PerlSockRecvfrom, PerlSockSelect, PerlSockSend, PerlSockSendto, PerlSockSethostent, PerlSockSetnetent, PerlSockSetprotoent, PerlSockSetservent, PerlSockSetsockopt, PerlSockShutdown, PerlSockSocket, PerlSockSocketpair, PerlSockClosesocket, }; // IPerlProc #define EXECF_EXEC 1 #define EXECF_SPAWN 2 extern char * g_getlogin(void); extern int do_spawn2(char *cmd, int exectype); extern int g_do_aspawn(void *vreally, void **vmark, void **vsp); void PerlProcAbort(struct IPerlProc*) { win32_abort(); } char * PerlProcCrypt(struct IPerlProc*, const char* clear, const char* salt) { return win32_crypt(clear, salt); } void PerlProcExit(struct IPerlProc*, int status) { exit(status); } void PerlProc_Exit(struct IPerlProc*, int status) { _exit(status); } int PerlProcExecl(struct IPerlProc*, const char *cmdname, const char *arg0, const char *arg1, const char *arg2, const char *arg3) { return execl(cmdname, arg0, arg1, arg2, arg3); } int PerlProcExecv(struct IPerlProc*, const char *cmdname, const char *const *argv) { return win32_execvp(cmdname, argv); } int PerlProcExecvp(struct IPerlProc*, const char *cmdname, const char *const *argv) { return win32_execvp(cmdname, argv); } uid_t PerlProcGetuid(struct IPerlProc*) { return getuid(); } uid_t PerlProcGeteuid(struct IPerlProc*) { return geteuid(); } gid_t PerlProcGetgid(struct IPerlProc*) { return getgid(); } gid_t PerlProcGetegid(struct IPerlProc*) { return getegid(); } char * PerlProcGetlogin(struct IPerlProc*) { return g_getlogin(); } int PerlProcKill(struct IPerlProc*, int pid, int sig) { return win32_kill(pid, sig); } int PerlProcKillpg(struct IPerlProc*, int pid, int sig) { dTHXo; croak("killpg not implemented!\n"); return 0; } int PerlProcPauseProc(struct IPerlProc*) { return win32_sleep((32767L << 16) + 32767); } PerlIO* PerlProcPopen(struct IPerlProc*, const char *command, const char *mode) { win32_fflush(stdout); win32_fflush(stderr); return (PerlIO*)win32_popen(command, mode); } int PerlProcPclose(struct IPerlProc*, PerlIO *stream) { return win32_pclose((FILE*)stream); } int PerlProcPipe(struct IPerlProc*, int *phandles) { return win32_pipe(phandles, 512, O_BINARY); } int PerlProcSetuid(struct IPerlProc*, uid_t u) { return setuid(u); } int PerlProcSetgid(struct IPerlProc*, gid_t g) { return setgid(g); } int PerlProcSleep(struct IPerlProc*, unsigned int s) { return win32_sleep(s); } int PerlProcTimes(struct IPerlProc*, struct tms *timebuf) { return win32_times(timebuf); } int PerlProcWait(struct IPerlProc*, int *status) { return win32_wait(status); } int PerlProcWaitpid(struct IPerlProc*, int pid, int *status, int flags) { return win32_waitpid(pid, status, flags); } Sighandler_t PerlProcSignal(struct IPerlProc*, int sig, Sighandler_t subcode) { return 0; } void* PerlProcDynaLoader(struct IPerlProc*, const char* filename) { return win32_dynaload(filename); } void PerlProcGetOSError(struct IPerlProc*, SV* sv, DWORD dwErr) { win32_str_os_error(aTHX_ sv, dwErr); } BOOL PerlProcDoCmd(struct IPerlProc*, char *cmd) { do_spawn2(cmd, EXECF_EXEC); return FALSE; } int PerlProcSpawn(struct IPerlProc*, char* cmds) { return do_spawn2(cmds, EXECF_SPAWN); } int PerlProcSpawnvp(struct IPerlProc*, int mode, const char *cmdname, const char *const *argv) { return win32_spawnvp(mode, cmdname, argv); } int PerlProcASpawn(struct IPerlProc*, void *vreally, void **vmark, void **vsp) { return g_do_aspawn(vreally, vmark, vsp); } struct IPerlProc perlProc = { PerlProcAbort, PerlProcCrypt, PerlProcExit, PerlProc_Exit, PerlProcExecl, PerlProcExecv, PerlProcExecvp, PerlProcGetuid, PerlProcGeteuid, PerlProcGetgid, PerlProcGetegid, PerlProcGetlogin, PerlProcKill, PerlProcKillpg, PerlProcPauseProc, PerlProcPopen, PerlProcPclose, PerlProcPipe, PerlProcSetuid, PerlProcSetgid, PerlProcSleep, PerlProcTimes, PerlProcWait, PerlProcWaitpid, PerlProcSignal, PerlProcDynaLoader, PerlProcGetOSError, PerlProcDoCmd, PerlProcSpawn, PerlProcSpawnvp, PerlProcASpawn, }; //#include "perlhost.h" EXTERN_C void perl_get_host_info(IPerlMemInfo* perlMemInfo, IPerlEnvInfo* perlEnvInfo, IPerlStdIOInfo* perlStdIOInfo, IPerlLIOInfo* perlLIOInfo, IPerlDirInfo* perlDirInfo, IPerlSockInfo* perlSockInfo, IPerlProcInfo* perlProcInfo) { if(perlMemInfo) { Copy(&perlMem, &perlMemInfo->perlMemList, perlMemInfo->nCount, void*); perlMemInfo->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_using(IPerlMem* pMem, IPerlEnv* pEnv, IPerlStdIO* pStdIO, IPerlLIO* pLIO, IPerlDir* pDir, IPerlSock* pSock, IPerlProc* pProc) { CPerlObj* pPerl = NULL; try { pPerl = Perl_alloc(pMem, pEnv, pStdIO, pLIO, pDir, pSock, pProc); } catch(...) { win32_fprintf(stderr, "%s\n", "Error: Unable to allocate memory"); pPerl = NULL; } if(pPerl) { SetPerlInterpreter(pPerl); return (PerlInterpreter*)pPerl; } SetPerlInterpreter(NULL); return NULL; } #undef perl_alloc #undef perl_construct #undef perl_destruct #undef perl_free #undef perl_run #undef perl_parse EXTERN_C PerlInterpreter* perl_alloc(void) { CPerlObj* pPerl = NULL; try { pPerl = Perl_alloc(&perlMem, &perlEnv, &perlStdIO, &perlLIO, &perlDir, &perlSock, &perlProc); } catch(...) { win32_fprintf(stderr, "%s\n", "Error: Unable to allocate memory"); pPerl = NULL; } if(pPerl) { SetPerlInterpreter(pPerl); return (PerlInterpreter*)pPerl; } SetPerlInterpreter(NULL); return NULL; } EXTERN_C void perl_construct(PerlInterpreter* sv_interp) { CPerlObj* pPerl = (CPerlObj*)sv_interp; try { pPerl->perl_construct(); } catch(...) { win32_fprintf(stderr, "%s\n", "Error: Unable to construct data structures"); pPerl->perl_free(); SetPerlInterpreter(NULL); } } EXTERN_C void perl_destruct(PerlInterpreter* sv_interp) { CPerlObj* pPerl = (CPerlObj*)sv_interp; try { pPerl->perl_destruct(); } catch(...) { } } EXTERN_C void perl_free(PerlInterpreter* sv_interp) { CPerlObj* pPerl = (CPerlObj*)sv_interp; try { pPerl->perl_free(); } catch(...) { } SetPerlInterpreter(NULL); } EXTERN_C int perl_run(PerlInterpreter* sv_interp) { CPerlObj* pPerl = (CPerlObj*)sv_interp; int retVal; try { retVal = pPerl->perl_run(); } /* catch(int x) { // this is where exit() should arrive retVal = x; } */ catch(...) { win32_fprintf(stderr, "Error: Runtime exception\n"); retVal = -1; } return retVal; } EXTERN_C int perl_parse(PerlInterpreter* sv_interp, void (*xsinit)(CPerlObj*), int argc, char** argv, char** env) { int retVal; CPerlObj* pPerl = (CPerlObj*)sv_interp; try { retVal = pPerl->perl_parse(xsinit, argc, argv, env); } /* catch(int x) { // this is where exit() should arrive retVal = x; } */ catch(...) { win32_fprintf(stderr, "Error: Parse exception\n"); retVal = -1; } *win32_errno() = 0; return retVal; } #undef PL_perl_destruct_level #define PL_perl_destruct_level int dummy #endif /* PERL_OBJECT */ extern HANDLE w32_perldll_handle; static DWORD g_TlsAllocIndex; EXTERN_C DllExport bool SetPerlInterpreter(void *interp) { return TlsSetValue(g_TlsAllocIndex, interp); } EXTERN_C DllExport void* GetPerlInterpreter(void) { return TlsGetValue(g_TlsAllocIndex); } EXTERN_C DllExport int RunPerl(int argc, char **argv, char **env) { int exitstatus; PerlInterpreter *my_perl; struct perl_thread *thr; #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; GetModuleFileName(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; #ifdef PERL_OBJECT /* PERL_OBJECT build sets Dynaloader in PerlStdIOInitOSExtras */ exitstatus = perl_parse(my_perl, NULL, argc, argv, env); #else exitstatus = perl_parse(my_perl, xs_init, argc, argv, env); #endif if (!exitstatus) { exitstatus = perl_run( my_perl ); } perl_destruct( my_perl ); perl_free( my_perl ); PERL_SYS_TERM(); return (exitstatus); } 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 g_TlsAllocIndex = TlsAlloc(); DisableThreadLibraryCalls(hModule); w32_perldll_handle = hModule; break; /* The DLL is detaching from a process due to * process termination or call to FreeLibrary. */ case DLL_PROCESS_DETACH: TlsFree(g_TlsAllocIndex); 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; }