[p5sagit/p5-mst-13.2.git] / win32 / runperl.c

#ifdef PERL_OBJECT
#define USE_SOCKETS_AS_HANDLES
#include "EXTERN.h"
#include "perl.h"

#define NO_XSLOCKS
#include "XSUB.H"
#include "Win32iop.h"

#define errno (*win32_errno())
#define stdout (win32_stdout())
#define stderr (win32_stderr())

CPerlObj *pPerl;

#include <fcntl.h>
#include <ipdir.h>
#include <ipenv.h>
#include <ipsock.h>
#include <iplio.h>
#include <ipmem.h>
#include <ipproc.h>
#include <ipstdio.h>

extern int g_closedir(DIR *dirp);
extern DIR *g_opendir(char *filename);
extern struct direct *g_readdir(DIR *dirp);
extern void g_rewinddir(DIR *dirp);
extern void g_seekdir(DIR *dirp, long loc);
extern long g_telldir(DIR *dirp);
class CPerlDir : public IPerlDir
{
public:
    CPerlDir() {};
    virtual int Makedir(const char *dirname, int mode, int &err)
    {
        return win32_mkdir(dirname, mode);
    };
    virtual int Chdir(const char *dirname, int &err)
    {
        return win32_chdir(dirname);
    };
    virtual int Rmdir(const char *dirname, int &err)
    {
        return win32_rmdir(dirname);
    };
    virtual int Close(DIR *dirp, int &err)
    {
        return g_closedir(dirp);
    };
    virtual DIR *Open(char *filename, int &err)
    {
        return g_opendir(filename);
    };
    virtual struct direct *Read(DIR *dirp, int &err)
    {
        return g_readdir(dirp);
    };
    virtual void Rewind(DIR *dirp, int &err)
    {
        g_rewinddir(dirp);
    };
    virtual void Seek(DIR *dirp, long loc, int &err)
    {
        g_seekdir(dirp, loc);
    };
    virtual long Tell(DIR *dirp, int &err)
    {
        return g_telldir(dirp);
    };
};


extern char * g_win32_get_stdlib(char *pl);
extern char * g_win32_get_sitelib(char *pl);
class CPerlEnv : public IPerlEnv
{
public:
    CPerlEnv() {};
    virtual char *Getenv(const char *varname, int &err)
    {
        return win32_getenv(varname);
    };
    virtual int Putenv(const char *envstring, int &err)
    {
        return putenv(envstring);
    };
    virtual char* LibPath(char *pl)
    {
        return g_win32_get_stdlib(pl);
    };
    virtual char* SiteLibPath(char *pl)
    {
        return g_win32_get_sitelib(pl);
    };
};

#define PROCESS_AND_RETURN  \
    if(errno)               \
        err = errno;        \
    return r

class CPerlSock : public IPerlSock
{
public:
    CPerlSock() {};
    virtual u_long Htonl(u_long hostlong)
    {
        return win32_htonl(hostlong);
    };
    virtual u_short Htons(u_short hostshort)
    {
        return win32_htons(hostshort);
    };
    virtual u_long Ntohl(u_long netlong)
    {
        return win32_ntohl(netlong);
    };
    virtual u_short Ntohs(u_short netshort)
    {
        return win32_ntohs(netshort);
    }

    virtual SOCKET Accept(SOCKET s, struct sockaddr* addr, int* addrlen, int &err)
    {
        SOCKET r = win32_accept(s, addr, addrlen);
        PROCESS_AND_RETURN;
    };
    virtual int Bind(SOCKET s, const struct sockaddr* name, int namelen, int &err)
    {
        int r = win32_bind(s, name, namelen);
        PROCESS_AND_RETURN;
    };
    virtual int Connect(SOCKET s, const struct sockaddr* name, int namelen, int &err)
    {
        int r = win32_connect(s, name, namelen);
        PROCESS_AND_RETURN;
    };
    virtual void Endhostent(int &err)
    {
        win32_endhostent();
    };
    virtual void Endnetent(int &err)
    {
        win32_endnetent();
    };
    virtual void Endprotoent(int &err)
    {
        win32_endprotoent();
    };
    virtual void Endservent(int &err)
    {
        win32_endservent();
    };
    virtual struct hostent* Gethostbyaddr(const char* addr, int len, int type, int &err)
    {
        struct hostent *r = win32_gethostbyaddr(addr, len, type);
        PROCESS_AND_RETURN;
    };
    virtual struct hostent* Gethostbyname(const char* name, int &err)
    {
        struct hostent *r = win32_gethostbyname(name);
        PROCESS_AND_RETURN;
    };
    virtual struct hostent* Gethostent(int &err)
    {
        croak("gethostent not implemented!\n");
        return NULL;
    };
    virtual int Gethostname(char* name, int namelen, int &err)
    {
        int r = win32_gethostname(name, namelen);
        PROCESS_AND_RETURN;
    };
    virtual struct netent *Getnetbyaddr(long net, int type, int &err)
    {
        struct netent *r = win32_getnetbyaddr(net, type);
        PROCESS_AND_RETURN;
    };
    virtual struct netent *Getnetbyname(const char *name, int &err)
    {
        struct netent *r = win32_getnetbyname((char*)name);
        PROCESS_AND_RETURN;
    };
    virtual struct netent *Getnetent(int &err)
    {
        struct netent *r = win32_getnetent();
        PROCESS_AND_RETURN;
    };
    virtual int Getpeername(SOCKET s, struct sockaddr* name, int* namelen, int &err)
    {
        int r = win32_getpeername(s, name, namelen);
        PROCESS_AND_RETURN;
    };
    virtual struct protoent* Getprotobyname(const char* name, int &err)
    {
        struct protoent *r = win32_getprotobyname(name);
        PROCESS_AND_RETURN;
    };
    virtual struct protoent* Getprotobynumber(int number, int &err)
    {
        struct protoent *r = win32_getprotobynumber(number);
        PROCESS_AND_RETURN;
    };
    virtual struct protoent* Getprotoent(int &err)
    {
        struct protoent *r = win32_getprotoent();
        PROCESS_AND_RETURN;
    };
    virtual struct servent* Getservbyname(const char* name, const char* proto, int &err)
    {
        struct servent *r = win32_getservbyname(name, proto);
        PROCESS_AND_RETURN;
    };
    virtual struct servent* Getservbyport(int port, const char* proto, int &err)
    {
        struct servent *r = win32_getservbyport(port, proto);
        PROCESS_AND_RETURN;
    };
    virtual struct servent* Getservent(int &err)
    {
        struct servent *r = win32_getservent();
        PROCESS_AND_RETURN;
    };
    virtual int Getsockname(SOCKET s, struct sockaddr* name, int* namelen, int &err)
    {
        int r = win32_getsockname(s, name, namelen);
        PROCESS_AND_RETURN;
    };
    virtual int Getsockopt(SOCKET s, int level, int optname, char* optval, int* optlen, int &err)
    {
        int r = win32_getsockopt(s, level, optname, optval, optlen);
        PROCESS_AND_RETURN;
    };
    virtual unsigned long InetAddr(const char* cp, int &err)
    {
        unsigned long r = win32_inet_addr(cp);
        PROCESS_AND_RETURN;
    };
    virtual char* InetNtoa(struct in_addr in, int &err)
    {
        char *r = win32_inet_ntoa(in);
        PROCESS_AND_RETURN;
    };
    virtual int Listen(SOCKET s, int backlog, int &err)
    {
        int r = win32_listen(s, backlog);
        PROCESS_AND_RETURN;
    };
    virtual int Recv(SOCKET s, char* buffer, int len, int flags, int &err)
    {
        int r = win32_recv(s, buffer, len, flags);
        PROCESS_AND_RETURN;
    };
    virtual int Recvfrom(SOCKET s, char* buffer, int len, int flags, struct sockaddr* from, int* fromlen, int &err)
    {
        int r = win32_recvfrom(s, buffer, len, flags, from, fromlen);
        PROCESS_AND_RETURN;
    };
    virtual int Select(int nfds, char* readfds, char* writefds, char* exceptfds, const struct timeval* timeout, int &err)
    {
        int r = win32_select(nfds, (Perl_fd_set*)readfds, (Perl_fd_set*)writefds, (Perl_fd_set*)exceptfds, timeout);
        PROCESS_AND_RETURN;
    };
    virtual int Send(SOCKET s, const char* buffer, int len, int flags, int &err)
    {
        int r = win32_send(s, buffer, len, flags);
        PROCESS_AND_RETURN;
    };
    virtual int Sendto(SOCKET s, const char* buffer, int len, int flags, const struct sockaddr* to, int tolen, int &err)
    {
        int r = win32_sendto(s, buffer, len, flags, to, tolen);
        PROCESS_AND_RETURN;
    };
    virtual void Sethostent(int stayopen, int &err)
    {
        win32_sethostent(stayopen);
    };
    virtual void Setnetent(int stayopen, int &err)
    {
        win32_setnetent(stayopen);
    };
    virtual void Setprotoent(int stayopen, int &err)
    {
        win32_setprotoent(stayopen);
    };
    virtual void Setservent(int stayopen, int &err)
    {
        win32_setservent(stayopen);
    };
    virtual int Setsockopt(SOCKET s, int level, int optname, const char* optval, int optlen, int &err)
    {
        int r = win32_setsockopt(s, level, optname, optval, optlen);
        PROCESS_AND_RETURN;
    };
    virtual int Shutdown(SOCKET s, int how, int &err)
    {
        int r = win32_shutdown(s, how);
        PROCESS_AND_RETURN;
    };
    virtual SOCKET Socket(int af, int type, int protocol, int &err)
    {
        SOCKET r = win32_socket(af, type, protocol);
        PROCESS_AND_RETURN;
    };
    virtual int Socketpair(int domain, int type, int protocol, int* fds, int &err)
    {
        croak("socketpair not implemented!\n");
        return 0;
    };
    virtual int Closesocket(SOCKET s, int& err)
    {
        int r = win32_closesocket(s);
        PROCESS_AND_RETURN;
    };
    virtual int Ioctlsocket(SOCKET s, long cmd, u_long *argp, int& err)
    {
        int r = win32_ioctlsocket(s, cmd, argp);
        PROCESS_AND_RETURN;
    };
};


#define CALLFUNCRET(x)\
    int ret = x;\
    if(ret)\
        err = errno;\
    return ret;

#define CALLFUNCERR(x)\
    int ret = x;\
    if(errno)\
        err = errno;\
    return ret;

#define LCALLFUNCERR(x)\
    long ret = x;\
    if(errno)\
        err = errno;\
    return ret;

class CPerlLIO : public IPerlLIO
{
public:
    CPerlLIO() {};
    virtual int Access(const char *path, int mode, int &err)
    {
        CALLFUNCRET(access(path, mode))
    };
    virtual int Chmod(const char *filename, int pmode, int &err)
    {
        CALLFUNCRET(chmod(filename, pmode))
    };
    virtual int Chown(const char *filename, uid_t owner, gid_t group, int &err)
    {
        CALLFUNCERR(chown(filename, owner, group))
    };
    virtual int Chsize(int handle, long size, int &err)
    {
        CALLFUNCRET(chsize(handle, size))
    };
    virtual int Close(int handle, int &err)
    {
        CALLFUNCRET(win32_close(handle))
    };
    virtual int Dup(int handle, int &err)
    {
        CALLFUNCERR(win32_dup(handle))
    };
    virtual int Dup2(int handle1, int handle2, int &err)
    {
        CALLFUNCERR(win32_dup2(handle1, handle2))
    };
    virtual int Flock(int fd, int oper, int &err)
    {
        CALLFUNCERR(win32_flock(fd, oper))
    };
    virtual int FileStat(int handle, struct stat *buffer, int &err)
    {
        CALLFUNCERR(fstat(handle, buffer))
    };
    virtual int IOCtl(int i, unsigned int u, char *data, int &err)
    {
        CALLFUNCERR(win32_ioctlsocket((SOCKET)i, (long)u, (u_long*)data))
    };
    virtual int Isatty(int fd, int &err)
    {
        return isatty(fd);
    };
    virtual long Lseek(int handle, long offset, int origin, int &err)
    {
        LCALLFUNCERR(win32_lseek(handle, offset, origin))
    };
    virtual int Lstat(const char *path, struct stat *buffer, int &err)
    {
        return NameStat(path, buffer, err);
    };
    virtual char *Mktemp(char *Template, int &err)
    {
        return mktemp(Template);
    };
    virtual int Open(const char *filename, int oflag, int &err)
    {
        CALLFUNCERR(win32_open(filename, oflag))
    };
    virtual int Open(const char *filename, int oflag, int pmode, int &err)
    {
        int ret;
        if(stricmp(filename, "/dev/null") == 0)
            ret = open("NUL", oflag, pmode);
        else
            ret = open(filename, oflag, pmode);

        if(errno)
            err = errno;
        return ret;
    };
    virtual int Read(int handle, void *buffer, unsigned int count, int &err)
    {
        CALLFUNCERR(win32_read(handle, buffer, count))
    };
    virtual int Rename(const char *OldFileName, const char *newname, int &err)
    {
        char szNewWorkName[MAX_PATH+1];
        WIN32_FIND_DATA fdOldFile, fdNewFile;
        HANDLE handle;
        char *ptr;

        if((strchr(OldFileName, '\\') || strchr(OldFileName, '/'))
                && strchr(newname, '\\') == NULL
                        && strchr(newname, '/') == NULL)
        {
            strcpy(szNewWorkName, OldFileName);
            if((ptr = strrchr(szNewWorkName, '\\')) == NULL)
                ptr = strrchr(szNewWorkName, '/');
            strcpy(++ptr, newname);
        }
        else
            strcpy(szNewWorkName, newname);

        if(stricmp(OldFileName, szNewWorkName) != 0)
        {   // check that we're not being fooled by relative paths
            // and only delete the new file
            //  1) if it exists
            //  2) it is not the same file as the old file
            //  3) old file exist
            // GetFullPathName does not return the long file name on some systems
            handle = FindFirstFile(OldFileName, &fdOldFile);
            if(handle != INVALID_HANDLE_VALUE)
            {
                FindClose(handle);
        
                handle = FindFirstFile(szNewWorkName, &fdNewFile);
        
                if(handle != INVALID_HANDLE_VALUE)
                    FindClose(handle);
                else
                    fdNewFile.cFileName[0] = '\0';

                if(strcmp(fdOldFile.cAlternateFileName, fdNewFile.cAlternateFileName) != 0
                        && strcmp(fdOldFile.cFileName, fdNewFile.cFileName) != 0)
                {   // file exists and not same file
                    DeleteFile(szNewWorkName);
                }
            }
        }
        int ret = rename(OldFileName, szNewWorkName);
        if(ret)
            err = errno;

        return ret;
    };
    virtual int Setmode(int handle, int mode, int &err)
    {
        CALLFUNCRET(win32_setmode(handle, mode))
    };
    virtual int NameStat(const char *path, struct stat *buffer, int &err)
    {
        return win32_stat(path, buffer);
    };
    virtual char *Tmpnam(char *string, int &err)
    {
        return tmpnam(string);
    };
    virtual int Umask(int pmode, int &err)
    {
        return umask(pmode);
    };
    virtual int Unlink(const char *filename, int &err)
    {
        chmod(filename, S_IREAD | S_IWRITE);
        CALLFUNCRET(unlink(filename))
    };
    virtual int Utime(char *filename, struct utimbuf *times, int &err)
    {
        CALLFUNCRET(win32_utime(filename, times))
    };
    virtual int Write(int handle, const void *buffer, unsigned int count, int &err)
    {
        CALLFUNCERR(win32_write(handle, buffer, count))
    };
};

class CPerlMem : public IPerlMem
{
public:
    CPerlMem() {};
    virtual void* Malloc(size_t size)
    {
        return win32_malloc(size);
    };
    virtual void* Realloc(void* ptr, size_t size)
    {
        return win32_realloc(ptr, size);
    };
    virtual void Free(void* ptr)
    {
        win32_free(ptr);
    };
};

#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);
class CPerlProc : public IPerlProc
{
public:
    CPerlProc() {};
    virtual void Abort(void)
    {
        win32_abort();
    };
    virtual void Exit(int status)
    {
        exit(status);
    };
    virtual void _Exit(int status)
    {
        _exit(status);
    };
    virtual int Execl(const char *cmdname, const char *arg0, const char *arg1, const char *arg2, const char *arg3)
    {
        return execl(cmdname, arg0, arg1, arg2, arg3);
    };
    virtual int Execv(const char *cmdname, const char *const *argv)
    {
        return win32_execvp(cmdname, argv);
    };
    virtual int Execvp(const char *cmdname, const char *const *argv)
    {
        return win32_execvp(cmdname, argv);
    };
    virtual uid_t Getuid(void)
    {
        return getuid();
    };
    virtual uid_t Geteuid(void)
    {
        return geteuid();
    };
    virtual gid_t Getgid(void)
    {
        return getgid();
    };
    virtual gid_t Getegid(void)
    {
        return getegid();
    };
    virtual char *Getlogin(void)
    {
        return g_getlogin();
    };
    virtual int Kill(int pid, int sig)
    {
        return kill(pid, sig);
    };
    virtual int Killpg(int pid, int sig)
    {
        croak("killpg not implemented!\n");
        return 0;
    };
    virtual int PauseProc(void)
    {
        return win32_sleep((32767L << 16) + 32767);
    };
    virtual PerlIO* Popen(const char *command, const char *mode)
    {
        win32_fflush(stdout);
        win32_fflush(stderr);
        return (PerlIO*)win32_popen(command, mode);
    };
    virtual int Pclose(PerlIO *stream)
    {
        return win32_pclose((FILE*)stream);
    };
    virtual int Pipe(int *phandles)
    {
        return win32_pipe(phandles, 512, O_BINARY);
    };
    virtual int Setuid(uid_t u)
    {
        return setuid(u);
    };
    virtual int Setgid(gid_t g)
    {
        return setgid(g);
    };
    virtual int Sleep(unsigned int s)
    {
        return win32_sleep(s);
    };
    virtual int Times(struct tms *timebuf)
    {
        return win32_times(timebuf);
    };
    virtual int Wait(int *status)
    {
        return win32_wait(status);
    };
    virtual Sighandler_t Signal(int sig, Sighandler_t subcode)
    {
        return 0;
    };
    virtual void GetSysMsg(char*& sMsg, DWORD& dwLen, DWORD dwErr)
    {
        dwLen = FormatMessage(FORMAT_MESSAGE_ALLOCATE_BUFFER
                          |FORMAT_MESSAGE_IGNORE_INSERTS
                          |FORMAT_MESSAGE_FROM_SYSTEM, NULL,
                           dwErr, 0, (char *)&sMsg, 1, NULL);
        if (0 < dwLen) {
            while (0 < dwLen  &&  isspace(sMsg[--dwLen]))
                ;
            if ('.' != sMsg[dwLen])
                dwLen++;
            sMsg[dwLen]= '\0';
        }
        if (0 == dwLen) {
            sMsg = (char*)LocalAlloc(0, 64/**sizeof(TCHAR)*/);
            dwLen = sprintf(sMsg,
                        "Unknown error #0x%lX (lookup 0x%lX)",
                        dwErr, GetLastError());
        }
    };
    virtual void FreeBuf(char* sMsg)
    {
        LocalFree(sMsg);
    };
    virtual BOOL DoCmd(char *cmd)
    {
        do_spawn2(cmd, EXECF_EXEC);
        return FALSE;
    };
    virtual int Spawn(char* cmds)
    {
        return do_spawn2(cmds, EXECF_SPAWN);
    };
    virtual int Spawnvp(int mode, const char *cmdname, const char *const *argv)
    {
        return win32_spawnvp(mode, cmdname, argv);
    };
    virtual int ASpawn(void *vreally, void **vmark, void **vsp)
    {
        return g_do_aspawn(vreally, vmark, vsp);
    };
};


class CPerlStdIO : public IPerlStdIO
{
public:
    CPerlStdIO() {};
    virtual PerlIO* Stdin(void)
    {
        return (PerlIO*)win32_stdin();
    };
    virtual PerlIO* Stdout(void)
    {
        return (PerlIO*)win32_stdout();
    };
    virtual PerlIO* Stderr(void)
    {
        return (PerlIO*)win32_stderr();
    };
    virtual PerlIO* Open(const char *path, const char *mode, int &err)
    {
        PerlIO*pf = (PerlIO*)win32_fopen(path, mode);
        if(errno)
            err = errno;
        return pf;
    };
    virtual int Close(PerlIO* pf, int &err)
    {
        CALLFUNCERR(win32_fclose(((FILE*)pf)))
    };
    virtual int Eof(PerlIO* pf, int &err)
    {
        CALLFUNCERR(win32_feof((FILE*)pf))
    };
    virtual int Error(PerlIO* pf, int &err)
    {
        CALLFUNCERR(win32_ferror((FILE*)pf))
    };
    virtual void Clearerr(PerlIO* pf, int &err)
    {
        win32_clearerr((FILE*)pf);
    };
    virtual int Getc(PerlIO* pf, int &err)
    {
        CALLFUNCERR(win32_getc((FILE*)pf))
    };
    virtual char* GetBase(PerlIO* pf, int &err)
    {
        FILE *f = (FILE*)pf;
        return FILE_base(f);
    };
    virtual int GetBufsiz(PerlIO* pf, int &err)
    {
        FILE *f = (FILE*)pf;
        return FILE_bufsiz(f);
    };
    virtual int GetCnt(PerlIO* pf, int &err)
    {
        FILE *f = (FILE*)pf;
        return FILE_cnt(f);
    };
    virtual char* GetPtr(PerlIO* pf, int &err)
    {
        FILE *f = (FILE*)pf;
        return FILE_ptr(f);
    };
    virtual char* Gets(PerlIO* pf, char* s, int n, int& err)
    {
        char* ret = win32_fgets(s, n, (FILE*)pf);
        if(errno)
            err = errno;
        return ret;
    };
    virtual int Putc(PerlIO* pf, int c, int &err)
    {
        CALLFUNCERR(win32_fputc(c, (FILE*)pf))
    };
    virtual int Puts(PerlIO* pf, const char *s, int &err)
    {
        CALLFUNCERR(win32_fputs(s, (FILE*)pf))
    };
    virtual int Flush(PerlIO* pf, int &err)
    {
        CALLFUNCERR(win32_fflush((FILE*)pf))
    };
    virtual int Ungetc(PerlIO* pf,int c, int &err)
    {
        CALLFUNCERR(win32_ungetc(c, (FILE*)pf))
    };
    virtual int Fileno(PerlIO* pf, int &err)
    {
        CALLFUNCERR(win32_fileno((FILE*)pf))
    };
    virtual PerlIO* Fdopen(int fd, const char *mode, int &err)
    {
        PerlIO* pf = (PerlIO*)win32_fdopen(fd, mode);
        if(errno)
            err = errno;
        return pf;
    };
    virtual PerlIO* Reopen(const char*path, const char*mode, PerlIO* pf, int &err)
    {
        PerlIO* newPf = (PerlIO*)win32_freopen(path, mode, (FILE*)pf);
        if(errno)
            err = errno;
        return newPf;
    };
    virtual SSize_t Read(PerlIO* pf, void *buffer, Size_t size, int &err)
    {
        SSize_t i = win32_fread(buffer, 1, size, (FILE*)pf);
        if(errno)
            err = errno;
        return i;
    };
    virtual SSize_t Write(PerlIO* pf, const void *buffer, Size_t size, int &err)
    {
        SSize_t i = win32_fwrite(buffer, 1, size, (FILE*)pf);
        if(errno)
            err = errno;
        return i;
    };
    virtual void SetBuf(PerlIO* pf, char* buffer, int &err)
    {
        win32_setbuf((FILE*)pf, buffer);
    };
    virtual int SetVBuf(PerlIO* pf, char* buffer, int type, Size_t size, int &err)
    {
        int i = win32_setvbuf((FILE*)pf, buffer, type, size);
        if(errno)
            err = errno;
        return i;
    };
    virtual void SetCnt(PerlIO* pf, int n, int &err)
    {
        FILE *f = (FILE*)pf;
        FILE_cnt(f) = n;
    };
    virtual void SetPtrCnt(PerlIO* pf, char * ptr, int n, int& err)
    {
        FILE *f = (FILE*)pf;
        FILE_ptr(f) = ptr;
        FILE_cnt(f) = n;
    };
    virtual void Setlinebuf(PerlIO* pf, int &err)
    {
        win32_setvbuf((FILE*)pf, NULL, _IOLBF, 0);
    };
    virtual int Printf(PerlIO* pf, int &err, const char *format,...)
    {
        va_list(arglist);
        va_start(arglist, format);
        int i = win32_vfprintf((FILE*)pf, format, arglist);
        if(errno)
            err = errno;
        return i;
    };
    virtual int Vprintf(PerlIO* pf, int &err, const char *format, va_list arglist)
    {
        int i = win32_vfprintf((FILE*)pf, format, arglist);
        if(errno)
            err = errno;
        return i;
    };
    virtual long Tell(PerlIO* pf, int &err)
    {
        long l = win32_ftell((FILE*)pf);
        if(errno)
            err = errno;
        return l;
    };
    virtual int Seek(PerlIO* pf, off_t offset, int origin, int &err)
    {
        int i = win32_fseek((FILE*)pf, offset, origin);
        if(errno)
            err = errno;
        return i;
    };
    virtual void Rewind(PerlIO* pf, int &err)
    {
        win32_rewind((FILE*)pf);
    };
    virtual PerlIO* Tmpfile(int &err)
    {
        PerlIO* pf = (PerlIO*)win32_tmpfile();
        if(errno)
            err = errno;
        return pf;
    };
    virtual int Getpos(PerlIO* pf, Fpos_t *p, int &err)
    {
        int i = win32_fgetpos((FILE*)pf, p);
        if(errno)
            err = errno;
        return i;
    };
    virtual int Setpos(PerlIO* pf, const Fpos_t *p, int &err)
    {
        int i = win32_fsetpos((FILE*)pf, p);
        if(errno)
            err = errno;
        return i;
    };
    virtual void Init(int &err)
    {
    };
    virtual void InitOSExtras(void* p)
    {
        Perl_init_os_extras();
    };
    virtual int OpenOSfhandle(long osfhandle, int flags)
    {
        return win32_open_osfhandle(osfhandle, flags);
    }
    virtual int GetOSfhandle(int filenum)
    {
        return win32_get_osfhandle(filenum);
    }
};


static void xs_init _((CPERLarg));

class CPerlHost
{
public:
    CPerlHost() { pPerl = NULL; };
    inline BOOL PerlCreate(void)
    {
        try
        {
            pPerl = perl_alloc(&perlMem, &perlEnv, &perlStdIO, &perlLIO, &perlDir, &perlSock, &perlProc);
            if(pPerl != NULL)
            {
                try
                {
                    pPerl->perl_construct();
                }
                catch(...)
                {
                    win32_fprintf(stderr, "%s\n", "Error: Unable to construct data structures");
                    pPerl->perl_free();
                    pPerl = NULL;
                }
            }
        }
        catch(...)
        {
            win32_fprintf(stderr, "%s\n", "Error: Unable to allocate memory");
            pPerl = NULL;
        }
        return (pPerl != NULL);
    };
    inline int PerlParse(int argc, char** argv, char** env)
    {
        int retVal;
        try
        {
            retVal = pPerl->perl_parse(xs_init, 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;
    };
    inline int PerlRun(void)
    {
        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;
    };
    inline void PerlDestroy(void)
    {
        try
        {
            pPerl->perl_destruct();
            pPerl->perl_free();
        }
        catch(...)
        {
        }
    };

protected:
    CPerlDir    perlDir;
    CPerlEnv    perlEnv;
    CPerlLIO    perlLIO;
    CPerlMem    perlMem;
    CPerlProc   perlProc;
    CPerlSock   perlSock;
    CPerlStdIO  perlStdIO;
};

#undef PERL_SYS_INIT
#define PERL_SYS_INIT(a, c)

int
main(int argc, char **argv, char **env)
{
    CPerlHost host;
    int exitstatus = 1;

    if(!host.PerlCreate())
        exit(exitstatus);


    exitstatus = host.PerlParse(argc, argv, NULL);

    if (!exitstatus)
    {
        exitstatus = host.PerlRun();
    }

    host.PerlDestroy();

    return exitstatus;
}

char *staticlinkmodules[] = {
    "DynaLoader",
    NULL,
};

EXTERN_C void boot_DynaLoader _((CV* cv _CPERLarg));

static void
xs_init(CPERLarg)
{
    char *file = __FILE__;
    dXSUB_SYS;
    newXS("DynaLoader::boot_DynaLoader", boot_DynaLoader, file);
}

#else  /* PERL_OBJECT */

#ifdef __GNUC__
/*
 * GNU C does not do __declspec()
 */
#define __declspec(foo) 

/* Mingw32 defaults to globing command line 
 * This is inconsistent with other Win32 ports and 
 * seems to cause trouble with passing -DXSVERSION=\"1.6\" 
 * So we turn it off like this:
 */
int _CRT_glob = 0;

#endif


__declspec(dllimport) int RunPerl(int argc, char **argv, char **env, void *ios);

int
main(int argc, char **argv, char **env)
{
    return RunPerl(argc, argv, env, (void*)0);
}

#endif  /* PERL_OBJECT */