/* fhandler.h Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. This file is part of Cygwin. This software is a copyrighted work licensed under the terms of the Cygwin license. Please consult the file "CYGWIN_LICENSE" for details. */ #ifndef _FHANDLER_H_ #define _FHANDLER_H_ #include #include enum { FH_RBINARY = 0x00001000, /* binary read mode */ FH_WBINARY = 0x00002000, /* binary write mode */ FH_CLOEXEC = 0x00004000, /* close-on-exec */ FH_RBINSET = 0x00008000, /* binary read mode has been explicitly set */ FH_WBINSET = 0x00010000, /* binary write mode has been explicitly set */ FH_APPEND = 0x00020000, /* always append */ FH_ASYNC = 0x00040000, /* async I/O */ FH_SIGCLOSE = 0x00080000, /* signal handler should close fd on interrupt */ FH_SYMLINK = 0x00100000, /* is a symlink */ FH_EXECABL = 0x00200000, /* file looked like it would run: * ends in .exe or .bat or begins with #! */ FH_W95LSBUG = 0x00400000, /* set when lseek is called as a flag that * _write should check if we've moved beyond * EOF, zero filling if so. */ FH_NOHANDLE = 0x00800000, /* No handle associated with fhandler. */ FH_NOEINTR = 0x01000000, /* Set if I/O should be uninterruptible. */ FH_FFIXUP = 0x02000000, /* Set if need to fixup after fork. */ FH_LOCAL = 0x04000000, /* File is unix domain socket */ FH_SHUTRD = 0x08000000, /* Socket saw a SHUT_RD */ FH_SHUTWR = 0x10000000, /* Socket saw a SHUT_WR */ FH_ISREMOTE = 0x10000000, /* File is on a remote drive */ FH_DCEXEC = 0x20000000, /* Don't care if this is executable */ FH_HASACLS = 0x40000000, /* True if fs of file has ACLS */ FH_QUERYOPEN = 0x80000000, /* open file without requesting either read or write access */ /* Device flags */ /* Slow devices */ FH_CONSOLE = 0x00000001, /* is a console */ FH_CONIN = 0x00000002, /* console input */ FH_CONOUT = 0x00000003, /* console output */ FH_TTYM = 0x00000004, /* is a tty master */ FH_TTYS = 0x00000005, /* is a tty slave */ FH_PTYM = 0x00000006, /* is a pty master */ FH_SERIAL = 0x00000007, /* is a serial port */ FH_PIPE = 0x00000008, /* is a pipe */ FH_PIPER = 0x00000009, /* read end of a pipe */ FH_PIPEW = 0x0000000a, /* write end of a pipe */ FH_SOCKET = 0x0000000b, /* is a socket */ FH_WINDOWS = 0x0000000c, /* is a window */ FH_SLOW = 0x00000010, /* "slow" device if below this */ /* Fast devices */ FH_DISK = 0x00000010, /* is a disk */ FH_FLOPPY = 0x00000011, /* is a floppy */ FH_TAPE = 0x00000012, /* is a tape */ FH_NULL = 0x00000013, /* is the null device */ FH_ZERO = 0x00000014, /* is the zero device */ FH_RANDOM = 0x00000015, /* is a random device */ FH_MEM = 0x00000016, /* is a mem device */ FH_CLIPBOARD = 0x00000017, /* is a clipboard device */ FH_OSS_DSP = 0x00000018, /* is a dsp audio device */ FH_CYGDRIVE= 0x00000019, /* /cygdrive/x */ FH_PROC = 0x0000001a, /* /proc */ FH_REGISTRY =0x0000001b, /* /proc/registry */ FH_PROCESS = 0x0000001c, /* /proc/ */ FH_NDEV = 0x0000001d, /* Maximum number of devices */ FH_DEVMASK = 0x00000fff, /* devices live here */ FH_BAD = 0xffffffff }; #define FHDEVN(n) ((n) & FH_DEVMASK) #define FHISSETF(x) __ISSETF (this, x, FH) #define FHSETF(x) __SETF (this, x, FH) #define FHCLEARF(x) __CLEARF (this, x, FH) #define FHCONDSETF(n, x) __CONDSETF(n, this, x, FH) #define FHSTATOFF 0 /* fcntl flags used only internaly. */ #define O_NOSYMLINK 0x080000 #define O_DIROPEN 0x100000 /* newlib used to define O_NDELAY differently from O_NONBLOCK. Now it properly defines both to be the same. Unfortunately, we have to behave properly the old version, too, to accommodate older executables. */ #define OLD_O_NDELAY (CYGWIN_VERSION_CHECK_FOR_OLD_O_NONBLOCK ? 4 : 0) /* Care for the old O_NDELAY flag. If one of the flags is set, both flags are set. */ #define O_NONBLOCK_MASK (O_NONBLOCK | OLD_O_NDELAY) extern const char *windows_device_names[]; extern struct __cygwin_perfile *perfile_table; #define __fmode (*(user_data->fmode_ptr)) extern const char proc[]; extern const int proc_len; class select_record; class path_conv; class fhandler_disk_file; typedef struct __DIR DIR; struct dirent; enum bg_check_types { bg_error = -1, bg_eof = 0, bg_ok = 1, bg_signalled = 2 }; enum executable_states { is_executable, dont_care_if_executable, not_executable = dont_care_if_executable, dont_know_if_executable }; class fhandler_base { protected: DWORD status; private: int access; HANDLE io_handle; unsigned long namehash; /* hashed filename, used as inode num */ protected: /* Full unix path name of this file */ /* File open flags from open () and fcntl () calls */ int openflags; char *rabuf; /* used for crlf conversion in text files */ size_t ralen; size_t raixget; size_t raixput; size_t rabuflen; const char *unix_path_name; const char *win32_path_name; DWORD open_status; public: void set_name (const char * unix_path, const char *win32_path = NULL, int unit = 0); virtual fhandler_base& operator =(fhandler_base &x); fhandler_base (DWORD dev, int unit = 0); virtual ~fhandler_base (); /* Non-virtual simple accessor functions. */ void set_io_handle (HANDLE x) { io_handle = x; } DWORD get_device () { return status & FH_DEVMASK; } virtual int get_unit () { return 0; } virtual BOOL is_slow () { return get_device () < FH_SLOW; } int get_access () { return access; } void set_access (int x) { access = x; } bool get_async () { return FHISSETF (ASYNC); } void set_async (int x) { FHCONDSETF (x, ASYNC); } int get_flags () { return openflags; } void set_flags (int x, int supplied_bin = 0); bool is_nonblocking (); void set_nonblocking (int yes); bool get_w_binary () { return FHISSETF (WBINSET) ? FHISSETF (WBINARY) : 1; } bool get_r_binary () { return FHISSETF (RBINSET) ? FHISSETF (RBINARY) : 1; } bool get_w_binset () { return FHISSETF (WBINSET); } bool get_r_binset () { return FHISSETF (RBINSET); } void set_w_binary (int b) { FHCONDSETF (b, WBINARY); FHSETF (WBINSET); } void set_r_binary (int b) { FHCONDSETF (b, RBINARY); FHSETF (RBINSET); } void clear_w_binary () {FHCLEARF (WBINARY); FHCLEARF (WBINSET); } void clear_r_binary () {FHCLEARF (RBINARY); FHCLEARF (RBINSET); } bool get_nohandle () { return FHISSETF (NOHANDLE); } void set_nohandle (int x) { FHCONDSETF (x, NOHANDLE); } void set_open_status () {open_status = status;} DWORD get_open_status () {return open_status;} void reset_to_open_binmode () { set_flags ((get_flags () & ~(O_TEXT | O_BINARY)) | ((open_status & (FH_WBINARY | FH_RBINARY) ? O_BINARY : O_TEXT))); } int get_default_fmode (int flags); bool get_r_no_interrupt () { return FHISSETF (NOEINTR); } void set_r_no_interrupt (int b) { FHCONDSETF (b, NOEINTR); } bool get_close_on_exec () { return FHISSETF (CLOEXEC); } int set_close_on_exec_flag (int b) { return FHCONDSETF (b, CLOEXEC); } LPSECURITY_ATTRIBUTES get_inheritance (bool all = 0) { if (all) return get_close_on_exec () ? &sec_all_nih : &sec_all; else return get_close_on_exec () ? &sec_none_nih : &sec_none; } void set_check_win95_lseek_bug (int b = 1) { FHCONDSETF (b, W95LSBUG); } bool get_check_win95_lseek_bug () { return FHISSETF (W95LSBUG); } bool get_need_fork_fixup () { return FHISSETF (FFIXUP); } void set_need_fork_fixup () { FHSETF (FFIXUP); } virtual void set_close_on_exec (int val); virtual void fixup_before_fork_exec (DWORD) {} virtual void fixup_after_fork (HANDLE); virtual void fixup_after_exec (HANDLE) {} bool get_symlink_p () { return FHISSETF (SYMLINK); } void set_symlink_p (int val) { FHCONDSETF (val, SYMLINK); } void set_symlink_p () { FHSETF (SYMLINK); } bool get_socket_p () { return FHISSETF (LOCAL); } void set_socket_p (int val) { FHCONDSETF (val, LOCAL); } void set_socket_p () { FHSETF (LOCAL); } bool get_execable_p () { return FHISSETF (EXECABL); } void set_execable_p (executable_states val) { FHCONDSETF (val == is_executable, EXECABL); FHCONDSETF (val == dont_care_if_executable, DCEXEC); } void set_execable_p () { FHSETF (EXECABL); } bool dont_care_if_execable () { return FHISSETF (DCEXEC); } bool exec_state_isknown () { return FHISSETF (DCEXEC) || FHISSETF (EXECABL); } bool get_append_p () { return FHISSETF (APPEND); } void set_append_p (int val) { FHCONDSETF (val, APPEND); } void set_append_p () { FHSETF (APPEND); } bool get_query_open () { return FHISSETF (QUERYOPEN); } void set_query_open (bool val) { FHCONDSETF (val, QUERYOPEN); } bool get_readahead_valid () { return raixget < ralen; } int puts_readahead (const char *s, size_t len = (size_t) -1); int put_readahead (char value); int get_readahead (); int peek_readahead (int queryput = 0); int eat_readahead (int n); void set_readahead_valid (int val, int ch = -1); int get_readahead_into_buffer (char *buf, size_t buflen); bool has_acls () { return FHISSETF (HASACLS); } void set_has_acls (int val) { FHCONDSETF (val, HASACLS); } bool isremote () { return FHISSETF (ISREMOTE); } void set_isremote (int val) { FHCONDSETF (val, ISREMOTE); } const char *get_name () { return unix_path_name; } const char *get_win32_name () { return win32_path_name; } unsigned long get_namehash () { return namehash; } virtual void hclose (HANDLE h) {CloseHandle (h);} virtual void set_inheritance (HANDLE &h, int not_inheriting); /* fixup fd possibly non-inherited handles after fork */ void fork_fixup (HANDLE parent, HANDLE &h, const char *name); virtual int open (path_conv *real_path, int flags, mode_t mode = 0); virtual int close (); virtual int __stdcall fstat (struct __stat64 *buf, path_conv *) __attribute__ ((regparm (3))); virtual int ioctl (unsigned int cmd, void *); virtual int fcntl (int cmd, void *); virtual char const * ttyname () { return get_name(); } virtual int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); virtual int write (const void *ptr, size_t len); virtual __off64_t lseek (__off64_t offset, int whence); virtual int lock (int, struct flock *); virtual void dump (); virtual int dup (fhandler_base *child); virtual HANDLE mmap (caddr_t *addr, size_t len, DWORD access, int flags, __off64_t off); virtual int munmap (HANDLE h, caddr_t addr, size_t len); virtual int msync (HANDLE h, caddr_t addr, size_t len, int flags); virtual BOOL fixup_mmap_after_fork (HANDLE h, DWORD access, DWORD offset, DWORD size, void *address); void *operator new (size_t, void *p) {return p;} virtual void init (HANDLE, DWORD, mode_t); virtual int tcflush (int); virtual int tcsendbreak (int); virtual int tcdrain (); virtual int tcflow (int); virtual int tcsetattr (int a, const struct termios *t); virtual int tcgetattr (struct termios *t); virtual int tcsetpgrp (const pid_t pid); virtual int tcgetpgrp (); virtual int is_tty () { return 0; } virtual BOOL is_device () { return TRUE; } virtual char *ptsname () { return NULL;} virtual class fhandler_socket *is_socket () { return 0; } virtual class fhandler_console *is_console () { return 0; } virtual int is_windows () {return 0; } virtual int raw_read (void *ptr, size_t ulen); virtual int raw_write (const void *ptr, size_t ulen); /* Virtual accessor functions to hide the fact that some fd's have two handles. */ virtual HANDLE& get_handle () { return io_handle; } virtual HANDLE& get_io_handle () { return io_handle; } virtual HANDLE& get_output_handle () { return io_handle; } virtual bool hit_eof () {return FALSE;} virtual select_record *select_read (select_record *s); virtual select_record *select_write (select_record *s); virtual select_record *select_except (select_record *s); virtual int ready_for_read (int fd, DWORD howlong); virtual const char * get_native_name () { return windows_device_names[FHDEVN (status)]; } virtual bg_check_types bg_check (int) {return bg_ok;} void clear_readahead () { raixput = raixget = ralen = rabuflen = 0; rabuf = NULL; } void operator delete (void *); virtual HANDLE get_guard () const {return NULL;} virtual void set_eof () {} virtual DIR *opendir (path_conv& pc); virtual dirent *readdir (DIR *); virtual __off64_t telldir (DIR *); virtual void seekdir (DIR *, __off64_t); virtual void rewinddir (DIR *); virtual int closedir (DIR *); }; class fhandler_socket: public fhandler_base { private: int addr_family; int type; int connect_secret [4]; HANDLE secret_event; struct _WSAPROTOCOL_INFOA *prot_info_ptr; char *sun_path; public: fhandler_socket (); ~fhandler_socket (); int get_socket () { return (int) get_handle(); } fhandler_socket * is_socket () { return this; } bool saw_shutdown_read () const {return FHISSETF (SHUTRD);} bool saw_shutdown_write () const {return FHISSETF (SHUTWR);} void set_shutdown_read () {FHSETF (SHUTRD);} void set_shutdown_write () {FHSETF (SHUTWR);} int bind (const struct sockaddr *name, int namelen); int connect (const struct sockaddr *name, int namelen); int listen (int backlog); int accept (struct sockaddr *peer, int *len); int getsockname (struct sockaddr *name, int *namelen); int getpeername (struct sockaddr *name, int *namelen); int recv (void *ptr, size_t len, unsigned int flags); int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); int recvfrom (void *ptr, size_t len, unsigned int flags, struct sockaddr *from, int *fromlen); int recvmsg (struct msghdr *msg, int flags); int send (const void *ptr, size_t len, unsigned int flags); int write (const void *ptr, size_t len); int sendto (const void *ptr, size_t len, unsigned int flags, const struct sockaddr *to, int tolen); int sendmsg (const struct msghdr *msg, int flags); int ioctl (unsigned int cmd, void *); int fcntl (int cmd, void *); __off64_t lseek (__off64_t, int) { return 0; } int shutdown (int how); int close (); void hclose (HANDLE) {close ();} int dup (fhandler_base *child); void set_close_on_exec (int val); virtual void fixup_before_fork_exec (DWORD); void fixup_after_fork (HANDLE); void fixup_after_exec (HANDLE); select_record *select_read (select_record *s); select_record *select_write (select_record *s); select_record *select_except (select_record *s); void set_addr_family (int af) {addr_family = af;} int get_addr_family () {return addr_family;} void set_socket_type (int st) { type = st;} int get_socket_type () {return type;} void set_sun_path (const char *path); char *get_sun_path () {return sun_path;} void set_connect_secret (); void get_connect_secret (char*); HANDLE create_secret_event (int *secret = NULL); int check_peer_secret_event (struct sockaddr_in *peer, int *secret = NULL); void signal_secret_event (); void close_secret_event (); int __stdcall fstat (struct __stat64 *buf, path_conv *) __attribute__ ((regparm (3))); }; class fhandler_pipe: public fhandler_base { HANDLE guard; bool broken_pipe; HANDLE writepipe_exists; DWORD orig_pid; unsigned id; public: fhandler_pipe (DWORD devtype); __off64_t lseek (__off64_t offset, int whence); select_record *select_read (select_record *s); select_record *select_write (select_record *s); select_record *select_except (select_record *s); void set_close_on_exec (int val); int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); int close (); void create_guard (SECURITY_ATTRIBUTES *sa) {guard = CreateMutex (sa, FALSE, NULL);} int dup (fhandler_base *child); void fixup_after_fork (HANDLE); bool hit_eof (); void set_eof () {broken_pipe = true;} friend int make_pipe (int fildes[2], unsigned int psize, int mode); HANDLE get_guard () const {return guard;} }; class fhandler_dev_raw: public fhandler_base { protected: char *devbuf; size_t devbufsiz; size_t devbufstart; size_t devbufend; int eom_detected : 1; int eof_detected : 1; int lastblk_to_read : 1; int is_writing : 1; int has_written : 1; int varblkop : 1; int unit; virtual void clear (void); virtual int writebuf (void); /* returns not null, if `win_error' determines an end of media condition */ virtual int is_eom(int win_error) = 0; /* returns not null, if `win_error' determines an end of file condition */ virtual int is_eof(int win_error) = 0; fhandler_dev_raw (DWORD dev, int unit); public: ~fhandler_dev_raw (void); int get_unit () { return unit; } int open (path_conv *, int flags, mode_t mode = 0); int close (void); int raw_read (void *ptr, size_t ulen); int raw_write (const void *ptr, size_t ulen); int dup (fhandler_base *child); int ioctl (unsigned int cmd, void *buf); void fixup_after_fork (HANDLE); void fixup_after_exec (HANDLE); }; class fhandler_dev_floppy: public fhandler_dev_raw { protected: virtual int is_eom (int win_error); virtual int is_eof (int win_error); public: fhandler_dev_floppy (int unit); virtual int open (path_conv *, int flags, mode_t mode = 0); virtual int close (void); virtual __off64_t lseek (__off64_t offset, int whence); virtual int ioctl (unsigned int cmd, void *buf); }; class fhandler_dev_tape: public fhandler_dev_raw { int lasterr; bool is_rewind_device () { return get_unit () < 128; } protected: virtual void clear (void); virtual int is_eom (int win_error); virtual int is_eof (int win_error); public: fhandler_dev_tape (int unit); virtual int open (path_conv *, int flags, mode_t mode = 0); virtual int close (void); virtual __off64_t lseek (__off64_t offset, int whence); virtual int __stdcall fstat (struct __stat64 *buf, path_conv *) __attribute__ ((regparm (3))); virtual int dup (fhandler_base *child); virtual int ioctl (unsigned int cmd, void *buf); private: int tape_write_marks (int marktype, DWORD len); int tape_get_pos (unsigned long *ret); int tape_set_pos (int mode, long count, BOOLEAN sfm_func = FALSE); int tape_erase (int mode); int tape_prepare (int action); BOOLEAN tape_get_feature (DWORD parm); int tape_get_blocksize (long *min, long *def, long *max, long *cur); int tape_set_blocksize (long count); int tape_status (struct mtget *get); int tape_compression (long count); }; /* Standard disk file */ class fhandler_disk_file: public fhandler_base { public: fhandler_disk_file (); fhandler_disk_file (DWORD devtype); int open (path_conv * real_path, int flags, mode_t mode); int close (); int lock (int, struct flock *); BOOL is_device () { return FALSE; } int __stdcall fstat (struct __stat64 *buf, path_conv *pc) __attribute__ ((regparm (3))); int __stdcall fstat_helper (struct __stat64 *buf, path_conv *pc, FILETIME ftCreateionTime, FILETIME ftLastAccessTime, FILETIME ftLastWriteTime, DWORD nFileSizeHigh, DWORD nFileSizeLow, DWORD nFileIndexHigh = 0, DWORD nFileIndexLow = 0, DWORD nNumberOfLinks = 1) __attribute__ ((regparm (3))); int __stdcall fstat_by_handle (struct __stat64 *buf, path_conv *pc) __attribute__ ((regparm (3))); int __stdcall fstat_by_name (struct __stat64 *buf, path_conv *pc) __attribute__ ((regparm (3))); HANDLE mmap (caddr_t *addr, size_t len, DWORD access, int flags, __off64_t off); int munmap (HANDLE h, caddr_t addr, size_t len); int msync (HANDLE h, caddr_t addr, size_t len, int flags); BOOL fixup_mmap_after_fork (HANDLE h, DWORD access, DWORD offset, DWORD size, void *address); DIR *opendir (path_conv& pc); struct dirent *readdir (DIR *); __off64_t telldir (DIR *); void seekdir (DIR *, __off64_t); void rewinddir (DIR *); int closedir (DIR *); }; class fhandler_cygdrive: public fhandler_disk_file { int unit; int ndrives; const char *pdrive; void set_drives (); public: bool iscygdrive_root () const { return !unit; } fhandler_cygdrive (int unit); DIR *opendir (path_conv& pc); struct dirent *readdir (DIR *); __off64_t telldir (DIR *); void seekdir (DIR *, __off64_t); void rewinddir (DIR *); int closedir (DIR *); int __stdcall fstat (struct __stat64 *buf, path_conv *pc) __attribute__ ((regparm (3))); }; class fhandler_serial: public fhandler_base { private: unsigned int vmin_; /* from termios */ unsigned int vtime_; /* from termios */ pid_t pgrp_; public: int overlapped_armed; OVERLAPPED io_status; DWORD ev; /* Constructor */ fhandler_serial (int unit); int open (path_conv *, int flags, mode_t mode); int close (); void init (HANDLE h, DWORD a, mode_t flags); void overlapped_setup (); int dup (fhandler_base *child); int raw_read (void *ptr, size_t ulen); int raw_write (const void *ptr, size_t ulen); int tcsendbreak (int); int tcdrain (); int tcflow (int); int tcsetattr (int a, const struct termios *t); int tcgetattr (struct termios *t); __off64_t lseek (__off64_t, int) { return 0; } int tcflush (int); void dump (); int is_tty () { return 1; } void fixup_after_fork (HANDLE parent); void fixup_after_exec (HANDLE); /* We maintain a pgrp so that tcsetpgrp and tcgetpgrp work, but we don't use it for permissions checking. fhandler_tty_slave does permission checking on pgrps. */ virtual int tcgetpgrp () { return pgrp_; } virtual int tcsetpgrp (const pid_t pid) { pgrp_ = pid; return 0; } select_record *select_read (select_record *s); select_record *select_write (select_record *s); select_record *select_except (select_record *s); }; #define acquire_output_mutex(ms) \ __acquire_output_mutex (__PRETTY_FUNCTION__, __LINE__, ms); #define release_output_mutex() \ __release_output_mutex (__PRETTY_FUNCTION__, __LINE__); class tty; class tty_min; class fhandler_termios: public fhandler_base { protected: HANDLE output_handle; virtual void doecho (const void *, DWORD) {}; virtual int accept_input () {return 1;}; public: tty_min *tc; fhandler_termios (DWORD dev, int unit = 0) : fhandler_base (dev, unit) { set_need_fork_fixup (); } HANDLE& get_output_handle () { return output_handle; } int line_edit (const char *rptr, int nread, int always_accept = 0); void set_output_handle (HANDLE h) { output_handle = h; } void tcinit (tty_min *this_tc, int force = FALSE); virtual int is_tty () { return 1; } int tcgetpgrp (); int tcsetpgrp (int pid); bg_check_types bg_check (int sig); virtual DWORD __acquire_output_mutex (const char *fn, int ln, DWORD ms) {return 1;} virtual void __release_output_mutex (const char *fn, int ln) {} void fixup_after_fork (HANDLE); void fixup_after_exec (HANDLE parent) { fixup_after_fork (parent); } void echo_erase (int force = 0); virtual __off64_t lseek (__off64_t, int); }; enum ansi_intensity { INTENSITY_INVISIBLE, INTENSITY_DIM, INTENSITY_NORMAL, INTENSITY_BOLD }; #define normal 1 #define gotesc 2 #define gotsquare 3 #define gotarg1 4 #define gotrsquare 5 #define gotcommand 6 #define gettitle 7 #define eattitle 8 #define MAXARGS 10 /* This is a input and output console handle */ class fhandler_console: public fhandler_termios { private: WORD default_color, underline_color, dim_color; /* Used to determine if an input keystroke should be modified with META. */ int meta_mask; /* Output state */ int state_; int args_[MAXARGS]; int nargs_; unsigned rarg; bool saw_question_mark; char my_title_buf [TITLESIZE + 1]; WORD current_win32_attr; ansi_intensity intensity; bool underline, blink, reverse; WORD fg, bg; /* saved cursor coordinates */ int savex, savey; /* saved screen */ COORD savebufsiz; PCHAR_INFO savebuf; struct { short Top, Bottom; } scroll_region; struct { SHORT winTop; SHORT winBottom; COORD dwWinSize; COORD dwBufferSize; COORD dwCursorPosition; WORD wAttributes; } info; COORD dwLastCursorPosition; DWORD dwLastButtonState; int nModifiers; bool insert_mode; bool use_mouse; bool raw_win32_keyboard_mode; /* Output calls */ void set_default_attr (); WORD get_win32_attr (); BOOL fillin_info (); void clear_screen (int, int, int, int); void scroll_screen (int, int, int, int, int, int); void cursor_set (BOOL, int, int); void cursor_get (int *, int *); void cursor_rel (int, int); const unsigned char * write_normal (unsigned const char*, unsigned const char *); void char_command (char); BOOL set_raw_win32_keyboard_mode (BOOL); int output_tcsetattr (int a, const struct termios *t); /* Input calls */ int igncr_enabled (); int input_tcsetattr (int a, const struct termios *t); void set_cursor_maybe (); public: fhandler_console (); fhandler_console* is_console () { return this; } int open (path_conv *, int flags, mode_t mode = 0); int write (const void *ptr, size_t len); void doecho (const void *str, DWORD len) { (void) write (str, len); } int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); int close (); int tcflush (int); int tcsetattr (int a, const struct termios *t); int tcgetattr (struct termios *t); /* Special dup as we must dup two handles */ int dup (fhandler_base *child); int ioctl (unsigned int cmd, void *); void init (HANDLE, DWORD, mode_t); bool mouse_aware () {return use_mouse;} select_record *select_read (select_record *s); select_record *select_write (select_record *s); select_record *select_except (select_record *s); void fixup_after_exec (HANDLE); void set_close_on_exec (int val); void fixup_after_fork (HANDLE parent); void set_input_state (); }; class fhandler_tty_common: public fhandler_termios { public: fhandler_tty_common (DWORD dev, int unit = 0) : fhandler_termios (dev, unit), output_done_event (NULL), ioctl_request_event (NULL), ioctl_done_event (NULL), output_mutex (NULL), input_mutex (NULL), input_available_event (NULL), inuse (NULL), ttynum (unit) { // nothing to do } HANDLE output_done_event; // Raised by master when tty's output buffer // written. Write status in tty::write_retval. HANDLE ioctl_request_event; // Raised by slave to perform ioctl() request. // Ioctl() request in tty::cmd/arg. HANDLE ioctl_done_event; // Raised by master on ioctl() completion. // Ioctl() status in tty::ioctl_retval. HANDLE output_mutex, input_mutex; HANDLE input_available_event; HANDLE inuse; // used to indicate that a tty is in use int ttynum; // Master tty num. DWORD __acquire_output_mutex (const char *fn, int ln, DWORD ms); void __release_output_mutex (const char *fn, int ln); virtual int dup (fhandler_base *child); tty *get_ttyp () { return (tty *)tc; } int get_unit () { return ttynum; } int close (); void set_close_on_exec (int val); void fixup_after_fork (HANDLE parent); select_record *select_read (select_record *s); select_record *select_write (select_record *s); select_record *select_except (select_record *s); }; class fhandler_tty_slave: public fhandler_tty_common { public: /* Constructor */ fhandler_tty_slave (); fhandler_tty_slave (int); int open (path_conv *, int flags, mode_t mode = 0); int write (const void *ptr, size_t len); int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); void init (HANDLE, DWORD, mode_t); int tcsetattr (int a, const struct termios *t); int tcgetattr (struct termios *t); int tcflush (int); int ioctl (unsigned int cmd, void *); __off64_t lseek (__off64_t, int) { return 0; } select_record *select_read (select_record *s); int ready_for_read (int fd, DWORD howlong); int cygserver_attach_tty (HANDLE*, HANDLE*); }; class fhandler_pty_master: public fhandler_tty_common { int pktmode; // non-zero if pty in a packet mode. public: int need_nl; // Next read should start with \n /* Constructor */ fhandler_pty_master (DWORD devtype = FH_PTYM, int unit = -1); int process_slave_output (char *buf, size_t len, int pktmode_on); void doecho (const void *str, DWORD len); int accept_input (); int open (path_conv *, int flags, mode_t mode = 0); int write (const void *ptr, size_t len); int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); int close (); int tcsetattr (int a, const struct termios *t); int tcgetattr (struct termios *t); int tcflush (int); int ioctl (unsigned int cmd, void *); __off64_t lseek (__off64_t, int) { return 0; } char *ptsname (); void set_close_on_exec (int val); bool hit_eof (); }; class fhandler_tty_master: public fhandler_pty_master { public: /* Constructor */ fhandler_console *console; // device handler to perform real i/o. HANDLE hThread; // process_output thread handle. fhandler_tty_master (int unit); int init (int); int init_console (); void fixup_after_fork (HANDLE parent); void fixup_after_exec (HANDLE); }; class fhandler_dev_null: public fhandler_base { public: fhandler_dev_null (); void dump (); select_record *select_read (select_record *s); select_record *select_write (select_record *s); select_record *select_except (select_record *s); }; class fhandler_dev_zero: public fhandler_base { public: fhandler_dev_zero (); int open (path_conv *, int flags, mode_t mode = 0); int write (const void *ptr, size_t len); int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); __off64_t lseek (__off64_t offset, int whence); int close (void); void dump (); }; class fhandler_dev_random: public fhandler_base { protected: int unit; HCRYPTPROV crypt_prov; long pseudo; BOOL crypt_gen_random (void *ptr, size_t len); int pseudo_write (const void *ptr, size_t len); int pseudo_read (void *ptr, size_t len); public: fhandler_dev_random (int unit); int get_unit () { return unit; } int open (path_conv *, int flags, mode_t mode = 0); int write (const void *ptr, size_t len); int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); __off64_t lseek (__off64_t offset, int whence); int close (void); int dup (fhandler_base *child); void dump (); }; class fhandler_dev_mem: public fhandler_base { protected: int unit; DWORD mem_size; __off64_t pos; public: fhandler_dev_mem (int unit); ~fhandler_dev_mem (void); int open (path_conv *, int flags, mode_t mode = 0); int write (const void *ptr, size_t ulen); int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); __off64_t lseek (__off64_t offset, int whence); int close (void); int __stdcall fstat (struct __stat64 *buf, path_conv *) __attribute__ ((regparm (3))); int dup (fhandler_base *child); HANDLE mmap (caddr_t *addr, size_t len, DWORD access, int flags, __off64_t off); int munmap (HANDLE h, caddr_t addr, size_t len); int msync (HANDLE h, caddr_t addr, size_t len, int flags); BOOL fixup_mmap_after_fork (HANDLE h, DWORD access, DWORD offset, DWORD size, void *address); void dump (); } ; class fhandler_dev_clipboard: public fhandler_base { public: fhandler_dev_clipboard (); int is_windows (void) { return 1; } int open (path_conv *, int flags, mode_t mode = 0); int write (const void *ptr, size_t len); int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); __off64_t lseek (__off64_t offset, int whence); int close (void); int dup (fhandler_base *child); void dump (); private: __off64_t pos; void *membuffer; size_t msize; bool eof; }; class fhandler_windows: public fhandler_base { private: HWND hWnd_; // the window whose messages are to be retrieved by read() call int method_; // write method (Post or Send) public: fhandler_windows (); int is_windows (void) { return 1; } int open (path_conv *, int flags, mode_t mode = 0); int write (const void *ptr, size_t len); int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); int ioctl (unsigned int cmd, void *); __off64_t lseek (__off64_t, int) { return 0; } int close (void) { return 0; } void set_close_on_exec (int val); void fixup_after_fork (HANDLE parent); select_record *select_read (select_record *s); select_record *select_write (select_record *s); select_record *select_except (select_record *s); }; class fhandler_dev_dsp : public fhandler_base { private: int audioformat_; int audiofreq_; int audiobits_; int audiochannels_; bool setupwav(const char *pData, int nBytes); public: fhandler_dev_dsp (); ~fhandler_dev_dsp(); int open (path_conv *, int flags, mode_t mode = 0); int write (const void *ptr, size_t len); int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); int ioctl (unsigned int cmd, void *); __off64_t lseek (__off64_t, int); int close (void); int dup (fhandler_base * child); void dump (void); void fixup_after_exec (HANDLE); }; class fhandler_virtual : public fhandler_base { protected: char *filebuf; size_t bufalloc, filesize; __off64_t position; int fileid; // unique within each class public: fhandler_virtual (DWORD devtype); virtual ~fhandler_virtual(); virtual int exists(); DIR *opendir (path_conv& pc); __off64_t telldir (DIR *); void seekdir (DIR *, __off64_t); void rewinddir (DIR *); int closedir (DIR *); int write (const void *ptr, size_t len); int __stdcall read (void *ptr, size_t len) __attribute__ ((regparm (3))); __off64_t lseek (__off64_t, int); int dup (fhandler_base * child); int open (path_conv *, int flags, mode_t mode = 0); int close (void); int __stdcall fstat (struct stat *buf, path_conv *pc) __attribute__ ((regparm (3))); virtual void fill_filebuf (); }; class fhandler_proc: public fhandler_virtual { public: fhandler_proc (); fhandler_proc (DWORD devtype); int exists(); struct dirent *readdir (DIR *); static DWORD get_proc_fhandler(const char *path); int open (path_conv *real_path, int flags, mode_t mode = 0); int __stdcall fstat (struct __stat64 *buf, path_conv *) __attribute__ ((regparm (3))); void fill_filebuf (); }; class pinfo; class fhandler_registry: public fhandler_proc { public: fhandler_registry (); int exists(); struct dirent *readdir (DIR *); __off64_t telldir (DIR *); void seekdir (DIR *, __off64_t); void rewinddir (DIR *); int closedir (DIR *); int open (path_conv *real_path, int flags, mode_t mode = 0); int __stdcall fstat (struct __stat64 *buf, path_conv *) __attribute__ ((regparm (3))); HKEY open_key(const char *name, REGSAM access = KEY_READ, bool isValue = false); void fill_filebuf (); }; struct _pinfo; class fhandler_process: public fhandler_proc { pinfo *p; public: fhandler_process (); int exists(); struct dirent *readdir (DIR *); int open (path_conv *real_path, int flags, mode_t mode = 0); int __stdcall fstat (struct __stat64 *buf, path_conv *) __attribute__ ((regparm (3))); void fill_filebuf (); }; typedef union { char base[sizeof(fhandler_base)]; char console[sizeof(fhandler_console)]; char dev_clipboard[sizeof(fhandler_dev_clipboard)]; char dev_dsp[sizeof(fhandler_dev_dsp)]; char dev_floppy[sizeof(fhandler_dev_floppy)]; char dev_mem[sizeof(fhandler_dev_mem)]; char dev_null[sizeof(fhandler_dev_null)]; char dev_random[sizeof(fhandler_dev_random)]; char dev_raw[sizeof(fhandler_dev_raw)]; char dev_tape[sizeof(fhandler_dev_tape)]; char dev_zero[sizeof(fhandler_dev_zero)]; char disk_file[sizeof(fhandler_disk_file)]; char pipe[sizeof(fhandler_pipe)]; char proc[sizeof(fhandler_proc)]; char process[sizeof(fhandler_process)]; char pty_master[sizeof(fhandler_pty_master)]; char registry[sizeof(fhandler_registry)]; char serial[sizeof(fhandler_serial)]; char socket[sizeof(fhandler_socket)]; char termios[sizeof(fhandler_termios)]; char tty_common[sizeof(fhandler_tty_common)]; char tty_master[sizeof(fhandler_tty_master)]; char tty_slave[sizeof(fhandler_tty_slave)]; char windows[sizeof(fhandler_windows)]; } fhandler_union; struct select_record { int fd; HANDLE h; fhandler_base *fh; bool saw_error; bool windows_handle; bool read_ready, write_ready, except_ready; bool read_selected, write_selected, except_selected; int (*startup) (select_record *me, class select_stuff *stuff); int (*peek) (select_record *, bool); int (*verify) (select_record *me, fd_set *readfds, fd_set *writefds, fd_set *exceptfds); void (*cleanup) (select_record *me, class select_stuff *stuff); struct select_record *next; select_record (fhandler_base *in_fh = NULL) : fd (0), h (NULL), fh (in_fh), saw_error (0), windows_handle (0), read_ready (0), write_ready (0), except_ready (0), read_selected (0), write_selected (0), except_selected (0), startup (NULL), peek (NULL), verify (NULL), cleanup (NULL), next (NULL) {} }; class select_stuff { public: ~select_stuff (); select_stuff (): always_ready (0), windows_used (0), start (0) { memset (device_specific, 0, sizeof (device_specific)); } bool always_ready, windows_used; select_record start; void *device_specific[FH_NDEV]; int test_and_set (int i, fd_set *readfds, fd_set *writefds, fd_set *exceptfds); int poll (fd_set *readfds, fd_set *writefds, fd_set *exceptfds); int wait (fd_set *readfds, fd_set *writefds, fd_set *exceptfds, DWORD ms); void cleanup (); }; int __stdcall set_console_state_for_spawn (); #endif /* _FHANDLER_H_ */