/* UI_FILE - a generic STDIO like output stream. Copyright (C) 1999-2014 Free Software Foundation, Inc. This file is part of GDB. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /* Implement the ``struct ui_file'' object. */ #include "defs.h" #include "ui-file.h" #include "gdb_obstack.h" #include #include "gdb_select.h" #include "filestuff.h" #include static ui_file_isatty_ftype null_file_isatty; static ui_file_write_ftype null_file_write; static ui_file_write_ftype null_file_write_async_safe; static ui_file_fputs_ftype null_file_fputs; static ui_file_read_ftype null_file_read; static ui_file_flush_ftype null_file_flush; static ui_file_delete_ftype null_file_delete; static ui_file_rewind_ftype null_file_rewind; static ui_file_put_ftype null_file_put; static ui_file_fseek_ftype null_file_fseek; struct ui_file { int *magic; ui_file_flush_ftype *to_flush; ui_file_write_ftype *to_write; ui_file_write_async_safe_ftype *to_write_async_safe; ui_file_fputs_ftype *to_fputs; ui_file_read_ftype *to_read; ui_file_delete_ftype *to_delete; ui_file_isatty_ftype *to_isatty; ui_file_rewind_ftype *to_rewind; ui_file_put_ftype *to_put; ui_file_fseek_ftype *to_fseek; void *to_data; }; int ui_file_magic; struct ui_file * ui_file_new (void) { struct ui_file *file = xmalloc (sizeof (struct ui_file)); file->magic = &ui_file_magic; set_ui_file_data (file, NULL, null_file_delete); set_ui_file_flush (file, null_file_flush); set_ui_file_write (file, null_file_write); set_ui_file_write_async_safe (file, null_file_write_async_safe); set_ui_file_fputs (file, null_file_fputs); set_ui_file_read (file, null_file_read); set_ui_file_isatty (file, null_file_isatty); set_ui_file_rewind (file, null_file_rewind); set_ui_file_put (file, null_file_put); set_ui_file_fseek (file, null_file_fseek); return file; } void ui_file_delete (struct ui_file *file) { file->to_delete (file); xfree (file); } static int null_file_isatty (struct ui_file *file) { return 0; } static void null_file_rewind (struct ui_file *file) { return; } static void null_file_put (struct ui_file *file, ui_file_put_method_ftype *write, void *dest) { return; } static void null_file_flush (struct ui_file *file) { return; } static void null_file_write (struct ui_file *file, const char *buf, long sizeof_buf) { if (file->to_fputs == null_file_fputs) /* Both the write and fputs methods are null. Discard the request. */ return; else { /* The fputs method isn't null, slowly pass the write request onto that. FYI, this isn't as bad as it may look - the current (as of 1999-11-07) printf_* function calls fputc and fputc does exactly the below. By having a write function it is possible to clean up that code. */ int i; char b[2]; b[1] = '\0'; for (i = 0; i < sizeof_buf; i++) { b[0] = buf[i]; file->to_fputs (b, file); } return; } } static long null_file_read (struct ui_file *file, char *buf, long sizeof_buf) { errno = EBADF; return 0; } static void null_file_fputs (const char *buf, struct ui_file *file) { if (file->to_write == null_file_write) /* Both the write and fputs methods are null. Discard the request. */ return; else { /* The write method was implemented, use that. */ file->to_write (file, buf, strlen (buf)); } } static void null_file_write_async_safe (struct ui_file *file, const char *buf, long sizeof_buf) { return; } static void null_file_delete (struct ui_file *file) { return; } static int null_file_fseek (struct ui_file *stream, long offset, int whence) { errno = EBADF; return -1; } void * ui_file_data (struct ui_file *file) { if (file->magic != &ui_file_magic) internal_error (__FILE__, __LINE__, _("ui_file_data: bad magic number")); return file->to_data; } void gdb_flush (struct ui_file *file) { file->to_flush (file); } int ui_file_isatty (struct ui_file *file) { return file->to_isatty (file); } void ui_file_rewind (struct ui_file *file) { file->to_rewind (file); } void ui_file_put (struct ui_file *file, ui_file_put_method_ftype *write, void *dest) { file->to_put (file, write, dest); } void ui_file_write (struct ui_file *file, const char *buf, long length_buf) { file->to_write (file, buf, length_buf); } void ui_file_write_async_safe (struct ui_file *file, const char *buf, long length_buf) { file->to_write_async_safe (file, buf, length_buf); } long ui_file_read (struct ui_file *file, char *buf, long length_buf) { return file->to_read (file, buf, length_buf); } int ui_file_fseek (struct ui_file *file, long offset, int whence) { return file->to_fseek (file, offset, whence); } void fputs_unfiltered (const char *buf, struct ui_file *file) { file->to_fputs (buf, file); } void set_ui_file_flush (struct ui_file *file, ui_file_flush_ftype *flush_ptr) { file->to_flush = flush_ptr; } void set_ui_file_isatty (struct ui_file *file, ui_file_isatty_ftype *isatty_ptr) { file->to_isatty = isatty_ptr; } void set_ui_file_rewind (struct ui_file *file, ui_file_rewind_ftype *rewind_ptr) { file->to_rewind = rewind_ptr; } void set_ui_file_put (struct ui_file *file, ui_file_put_ftype *put_ptr) { file->to_put = put_ptr; } void set_ui_file_write (struct ui_file *file, ui_file_write_ftype *write_ptr) { file->to_write = write_ptr; } void set_ui_file_write_async_safe (struct ui_file *file, ui_file_write_async_safe_ftype *write_async_safe_ptr) { file->to_write_async_safe = write_async_safe_ptr; } void set_ui_file_read (struct ui_file *file, ui_file_read_ftype *read_ptr) { file->to_read = read_ptr; } void set_ui_file_fputs (struct ui_file *file, ui_file_fputs_ftype *fputs_ptr) { file->to_fputs = fputs_ptr; } void set_ui_file_fseek (struct ui_file *file, ui_file_fseek_ftype *fseek_ptr) { file->to_fseek = fseek_ptr; } void set_ui_file_data (struct ui_file *file, void *data, ui_file_delete_ftype *delete_ptr) { file->to_data = data; file->to_delete = delete_ptr; } /* ui_file utility function for converting a ``struct ui_file'' into a memory buffer. */ struct accumulated_ui_file { char *buffer; long length; }; static void do_ui_file_xstrdup (void *context, const char *buffer, long length) { struct accumulated_ui_file *acc = context; if (acc->buffer == NULL) acc->buffer = xmalloc (length + 1); else acc->buffer = xrealloc (acc->buffer, acc->length + length + 1); memcpy (acc->buffer + acc->length, buffer, length); acc->length += length; acc->buffer[acc->length] = '\0'; } char * ui_file_xstrdup (struct ui_file *file, long *length) { struct accumulated_ui_file acc; acc.buffer = NULL; acc.length = 0; ui_file_put (file, do_ui_file_xstrdup, &acc); if (acc.buffer == NULL) acc.buffer = xstrdup (""); if (length != NULL) *length = acc.length; return acc.buffer; } static void do_ui_file_obsavestring (void *context, const char *buffer, long length) { struct obstack *obstack = (struct obstack *) context; obstack_grow (obstack, buffer, length); } char * ui_file_obsavestring (struct ui_file *file, struct obstack *obstack, long *length) { ui_file_put (file, do_ui_file_obsavestring, obstack); *length = obstack_object_size (obstack); obstack_1grow (obstack, '\0'); return obstack_finish (obstack); } /* A pure memory based ``struct ui_file'' that can be used an output buffer. The buffers accumulated contents are available via ui_file_put(). */ struct mem_file { int *magic; char *buffer; int sizeof_buffer; int length_buffer; }; static ui_file_rewind_ftype mem_file_rewind; static ui_file_put_ftype mem_file_put; static ui_file_write_ftype mem_file_write; static ui_file_delete_ftype mem_file_delete; static struct ui_file *mem_file_new (void); static int mem_file_magic; static struct ui_file * mem_file_new (void) { struct mem_file *stream = XMALLOC (struct mem_file); struct ui_file *file = ui_file_new (); set_ui_file_data (file, stream, mem_file_delete); set_ui_file_rewind (file, mem_file_rewind); set_ui_file_put (file, mem_file_put); set_ui_file_write (file, mem_file_write); stream->magic = &mem_file_magic; stream->buffer = NULL; stream->sizeof_buffer = 0; stream->length_buffer = 0; return file; } static void mem_file_delete (struct ui_file *file) { struct mem_file *stream = ui_file_data (file); if (stream->magic != &mem_file_magic) internal_error (__FILE__, __LINE__, _("mem_file_delete: bad magic number")); if (stream->buffer != NULL) xfree (stream->buffer); xfree (stream); } struct ui_file * mem_fileopen (void) { return mem_file_new (); } static void mem_file_rewind (struct ui_file *file) { struct mem_file *stream = ui_file_data (file); if (stream->magic != &mem_file_magic) internal_error (__FILE__, __LINE__, _("mem_file_rewind: bad magic number")); stream->length_buffer = 0; } static void mem_file_put (struct ui_file *file, ui_file_put_method_ftype *write, void *dest) { struct mem_file *stream = ui_file_data (file); if (stream->magic != &mem_file_magic) internal_error (__FILE__, __LINE__, _("mem_file_put: bad magic number")); if (stream->length_buffer > 0) write (dest, stream->buffer, stream->length_buffer); } void mem_file_write (struct ui_file *file, const char *buffer, long length_buffer) { struct mem_file *stream = ui_file_data (file); if (stream->magic != &mem_file_magic) internal_error (__FILE__, __LINE__, _("mem_file_write: bad magic number")); if (stream->buffer == NULL) { stream->length_buffer = length_buffer; stream->sizeof_buffer = length_buffer; stream->buffer = xmalloc (stream->sizeof_buffer); memcpy (stream->buffer, buffer, length_buffer); } else { int new_length = stream->length_buffer + length_buffer; if (new_length >= stream->sizeof_buffer) { stream->sizeof_buffer = new_length; stream->buffer = xrealloc (stream->buffer, stream->sizeof_buffer); } memcpy (stream->buffer + stream->length_buffer, buffer, length_buffer); stream->length_buffer = new_length; } } /* ``struct ui_file'' implementation that maps directly onto 's FILE. */ static ui_file_write_ftype stdio_file_write; static ui_file_write_async_safe_ftype stdio_file_write_async_safe; static ui_file_fputs_ftype stdio_file_fputs; static ui_file_read_ftype stdio_file_read; static ui_file_isatty_ftype stdio_file_isatty; static ui_file_delete_ftype stdio_file_delete; static struct ui_file *stdio_file_new (FILE *file, int close_p); static ui_file_flush_ftype stdio_file_flush; static ui_file_fseek_ftype stdio_file_fseek; static int stdio_file_magic; struct stdio_file { int *magic; FILE *file; /* The associated file descriptor is extracted ahead of time for stdio_file_write_async_safe's benefit, in case fileno isn't async-safe. */ int fd; int close_p; }; static struct ui_file * stdio_file_new (FILE *file, int close_p) { struct ui_file *ui_file = ui_file_new (); struct stdio_file *stdio = xmalloc (sizeof (struct stdio_file)); stdio->magic = &stdio_file_magic; stdio->file = file; stdio->fd = fileno (file); stdio->close_p = close_p; set_ui_file_data (ui_file, stdio, stdio_file_delete); set_ui_file_flush (ui_file, stdio_file_flush); set_ui_file_write (ui_file, stdio_file_write); set_ui_file_write_async_safe (ui_file, stdio_file_write_async_safe); set_ui_file_fputs (ui_file, stdio_file_fputs); set_ui_file_read (ui_file, stdio_file_read); set_ui_file_isatty (ui_file, stdio_file_isatty); set_ui_file_fseek (ui_file, stdio_file_fseek); return ui_file; } static void stdio_file_delete (struct ui_file *file) { struct stdio_file *stdio = ui_file_data (file); if (stdio->magic != &stdio_file_magic) internal_error (__FILE__, __LINE__, _("stdio_file_delete: bad magic number")); if (stdio->close_p) { fclose (stdio->file); } xfree (stdio); } static void stdio_file_flush (struct ui_file *file) { struct stdio_file *stdio = ui_file_data (file); if (stdio->magic != &stdio_file_magic) internal_error (__FILE__, __LINE__, _("stdio_file_flush: bad magic number")); fflush (stdio->file); } static long stdio_file_read (struct ui_file *file, char *buf, long length_buf) { struct stdio_file *stdio = ui_file_data (file); if (stdio->magic != &stdio_file_magic) internal_error (__FILE__, __LINE__, _("stdio_file_read: bad magic number")); /* For the benefit of Windows, call gdb_select before reading from the file. Wait until at least one byte of data is available. Control-C can interrupt gdb_select, but not read. */ { fd_set readfds; FD_ZERO (&readfds); FD_SET (stdio->fd, &readfds); if (gdb_select (stdio->fd + 1, &readfds, NULL, NULL, NULL) == -1) return -1; } return read (stdio->fd, buf, length_buf); } static void stdio_file_write (struct ui_file *file, const char *buf, long length_buf) { struct stdio_file *stdio = ui_file_data (file); if (stdio->magic != &stdio_file_magic) internal_error (__FILE__, __LINE__, _("stdio_file_write: bad magic number")); /* Calling error crashes when we are called from the exception framework. */ if (fwrite (buf, length_buf, 1, stdio->file)) { /* Nothing. */ } } static void stdio_file_write_async_safe (struct ui_file *file, const char *buf, long length_buf) { struct stdio_file *stdio = ui_file_data (file); if (stdio->magic != &stdio_file_magic) { /* gettext isn't necessarily async safe, so we can't use _("error message") here. We could extract the correct translation ahead of time, but this is an extremely rare event, and one of the other stdio_file_* routines will presumably catch the problem anyway. For now keep it simple and ignore the error here. */ return; } /* This is written the way it is to avoid a warning from gcc about not using the result of write (since it can be declared with attribute warn_unused_result). Alas casting to void doesn't work for this. */ if (write (stdio->fd, buf, length_buf)) { /* Nothing. */ } } static void stdio_file_fputs (const char *linebuffer, struct ui_file *file) { struct stdio_file *stdio = ui_file_data (file); if (stdio->magic != &stdio_file_magic) internal_error (__FILE__, __LINE__, _("stdio_file_fputs: bad magic number")); /* Calling error crashes when we are called from the exception framework. */ if (fputs (linebuffer, stdio->file)) { /* Nothing. */ } } static int stdio_file_isatty (struct ui_file *file) { struct stdio_file *stdio = ui_file_data (file); if (stdio->magic != &stdio_file_magic) internal_error (__FILE__, __LINE__, _("stdio_file_isatty: bad magic number")); return (isatty (stdio->fd)); } static int stdio_file_fseek (struct ui_file *file, long offset, int whence) { struct stdio_file *stdio = ui_file_data (file); if (stdio->magic != &stdio_file_magic) internal_error (__FILE__, __LINE__, _("stdio_file_fseek: bad magic number")); return fseek (stdio->file, offset, whence); } #ifdef __MINGW32__ /* This is the implementation of ui_file method to_write for stderr. gdb_stdout is flushed before writing to gdb_stderr. */ static void stderr_file_write (struct ui_file *file, const char *buf, long length_buf) { gdb_flush (gdb_stdout); stdio_file_write (file, buf, length_buf); } /* This is the implementation of ui_file method to_fputs for stderr. gdb_stdout is flushed before writing to gdb_stderr. */ static void stderr_file_fputs (const char *linebuffer, struct ui_file *file) { gdb_flush (gdb_stdout); stdio_file_fputs (linebuffer, file); } #endif struct ui_file * stderr_fileopen (void) { struct ui_file *ui_file = stdio_fileopen (stderr); #ifdef __MINGW32__ /* There is no real line-buffering on Windows, see http://msdn.microsoft.com/en-us/library/86cebhfs%28v=vs.71%29.aspx so the stdout is either fully-buffered or non-buffered. We can't make stdout non-buffered, because of two concerns, 1. non-buffering hurts performance, 2. non-buffering may change GDB's behavior when it is interacting with front-end, such as Emacs. We decided to leave stdout as fully buffered, but flush it first when something is written to stderr. */ /* Method 'to_write_async_safe' is not overwritten, because there's no way to flush a stream in an async-safe manner. Fortunately, it doesn't really matter, because: - that method is only used for printing internal debug output from signal handlers. - Windows hosts don't have a concept of async-safeness. Signal handlers run in a separate thread, so they can call the regular non-async-safe output routines freely. */ set_ui_file_write (ui_file, stderr_file_write); set_ui_file_fputs (ui_file, stderr_file_fputs); #endif return ui_file; } /* Like fdopen(). Create a ui_file from a previously opened FILE. */ struct ui_file * stdio_fileopen (FILE *file) { return stdio_file_new (file, 0); } struct ui_file * gdb_fopen (const char *name, const char *mode) { FILE *f = gdb_fopen_cloexec (name, mode); if (f == NULL) return NULL; return stdio_file_new (f, 1); } /* ``struct ui_file'' implementation that maps onto two ui-file objects. */ static ui_file_write_ftype tee_file_write; static ui_file_fputs_ftype tee_file_fputs; static ui_file_isatty_ftype tee_file_isatty; static ui_file_delete_ftype tee_file_delete; static ui_file_flush_ftype tee_file_flush; static int tee_file_magic; struct tee_file { int *magic; struct ui_file *one, *two; int close_one, close_two; }; struct ui_file * tee_file_new (struct ui_file *one, int close_one, struct ui_file *two, int close_two) { struct ui_file *ui_file = ui_file_new (); struct tee_file *tee = xmalloc (sizeof (struct tee_file)); tee->magic = &tee_file_magic; tee->one = one; tee->two = two; tee->close_one = close_one; tee->close_two = close_two; set_ui_file_data (ui_file, tee, tee_file_delete); set_ui_file_flush (ui_file, tee_file_flush); set_ui_file_write (ui_file, tee_file_write); set_ui_file_fputs (ui_file, tee_file_fputs); set_ui_file_isatty (ui_file, tee_file_isatty); return ui_file; } static void tee_file_delete (struct ui_file *file) { struct tee_file *tee = ui_file_data (file); if (tee->magic != &tee_file_magic) internal_error (__FILE__, __LINE__, _("tee_file_delete: bad magic number")); if (tee->close_one) ui_file_delete (tee->one); if (tee->close_two) ui_file_delete (tee->two); xfree (tee); } static void tee_file_flush (struct ui_file *file) { struct tee_file *tee = ui_file_data (file); if (tee->magic != &tee_file_magic) internal_error (__FILE__, __LINE__, _("tee_file_flush: bad magic number")); tee->one->to_flush (tee->one); tee->two->to_flush (tee->two); } static void tee_file_write (struct ui_file *file, const char *buf, long length_buf) { struct tee_file *tee = ui_file_data (file); if (tee->magic != &tee_file_magic) internal_error (__FILE__, __LINE__, _("tee_file_write: bad magic number")); ui_file_write (tee->one, buf, length_buf); ui_file_write (tee->two, buf, length_buf); } static void tee_file_fputs (const char *linebuffer, struct ui_file *file) { struct tee_file *tee = ui_file_data (file); if (tee->magic != &tee_file_magic) internal_error (__FILE__, __LINE__, _("tee_file_fputs: bad magic number")); tee->one->to_fputs (linebuffer, tee->one); tee->two->to_fputs (linebuffer, tee->two); } static int tee_file_isatty (struct ui_file *file) { struct tee_file *tee = ui_file_data (file); if (tee->magic != &tee_file_magic) internal_error (__FILE__, __LINE__, _("tee_file_isatty: bad magic number")); return ui_file_isatty (tee->one); }