Mercurial > vim
view src/fileio.c @ 7601:88c4c634e919
Added tag v7.4.1099 for changeset fa59fafb6a9464b579504aa6c5abe6d5d0382f0d
| author | Christian Brabandt <cb@256bit.org> |
|---|---|
| date | Fri, 15 Jan 2016 22:15:05 +0100 |
| parents | 08e62c4fc17d |
| children | 228ff048db20 |
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/* vi:set ts=8 sts=4 sw=4: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * fileio.c: read from and write to a file */ #include "vim.h" #if defined(__TANDEM) || defined(__MINT__) # include <limits.h> /* for SSIZE_MAX */ #endif #if defined(HAVE_UTIME) && defined(HAVE_UTIME_H) # include <utime.h> /* for struct utimbuf */ #endif #define BUFSIZE 8192 /* size of normal write buffer */ #define SMBUFSIZE 256 /* size of emergency write buffer */ /* Is there any system that doesn't have access()? */ #define USE_MCH_ACCESS #if (defined(sun) || defined(__FreeBSD__)) && defined(S_ISCHR) # define OPEN_CHR_FILES static int is_dev_fd_file(char_u *fname); #endif #ifdef FEAT_MBYTE static char_u *next_fenc __ARGS((char_u **pp)); # ifdef FEAT_EVAL static char_u *readfile_charconvert __ARGS((char_u *fname, char_u *fenc, int *fdp)); # endif #endif #ifdef FEAT_VIMINFO static void check_marks_read __ARGS((void)); #endif #ifdef FEAT_CRYPT static char_u *check_for_cryptkey __ARGS((char_u *cryptkey, char_u *ptr, long *sizep, off_t *filesizep, int newfile, char_u *fname, int *did_ask)); #endif #ifdef UNIX static void set_file_time __ARGS((char_u *fname, time_t atime, time_t mtime)); #endif static int set_rw_fname __ARGS((char_u *fname, char_u *sfname)); static int msg_add_fileformat __ARGS((int eol_type)); static void msg_add_eol __ARGS((void)); static int check_mtime __ARGS((buf_T *buf, struct stat *s)); static int time_differs __ARGS((long t1, long t2)); #ifdef FEAT_AUTOCMD static int apply_autocmds_exarg __ARGS((event_T event, char_u *fname, char_u *fname_io, int force, buf_T *buf, exarg_T *eap)); static int au_find_group __ARGS((char_u *name)); # define AUGROUP_DEFAULT -1 /* default autocmd group */ # define AUGROUP_ERROR -2 /* erroneous autocmd group */ # define AUGROUP_ALL -3 /* all autocmd groups */ #endif #if defined(FEAT_CRYPT) || defined(FEAT_MBYTE) # define HAS_BW_FLAGS # define FIO_LATIN1 0x01 /* convert Latin1 */ # define FIO_UTF8 0x02 /* convert UTF-8 */ # define FIO_UCS2 0x04 /* convert UCS-2 */ # define FIO_UCS4 0x08 /* convert UCS-4 */ # define FIO_UTF16 0x10 /* convert UTF-16 */ # ifdef WIN3264 # define FIO_CODEPAGE 0x20 /* convert MS-Windows codepage */ # define FIO_PUT_CP(x) (((x) & 0xffff) << 16) /* put codepage in top word */ # define FIO_GET_CP(x) (((x)>>16) & 0xffff) /* get codepage from top word */ # endif # ifdef MACOS_X # define FIO_MACROMAN 0x20 /* convert MacRoman */ # endif # define FIO_ENDIAN_L 0x80 /* little endian */ # define FIO_ENCRYPTED 0x1000 /* encrypt written bytes */ # define FIO_NOCONVERT 0x2000 /* skip encoding conversion */ # define FIO_UCSBOM 0x4000 /* check for BOM at start of file */ # define FIO_ALL -1 /* allow all formats */ #endif /* When converting, a read() or write() may leave some bytes to be converted * for the next call. The value is guessed... */ #define CONV_RESTLEN 30 /* We have to guess how much a sequence of bytes may expand when converting * with iconv() to be able to allocate a buffer. */ #define ICONV_MULT 8 /* * Structure to pass arguments from buf_write() to buf_write_bytes(). */ struct bw_info { int bw_fd; /* file descriptor */ char_u *bw_buf; /* buffer with data to be written */ int bw_len; /* length of data */ #ifdef HAS_BW_FLAGS int bw_flags; /* FIO_ flags */ #endif #ifdef FEAT_CRYPT buf_T *bw_buffer; /* buffer being written */ #endif #ifdef FEAT_MBYTE char_u bw_rest[CONV_RESTLEN]; /* not converted bytes */ int bw_restlen; /* nr of bytes in bw_rest[] */ int bw_first; /* first write call */ char_u *bw_conv_buf; /* buffer for writing converted chars */ int bw_conv_buflen; /* size of bw_conv_buf */ int bw_conv_error; /* set for conversion error */ linenr_T bw_conv_error_lnum; /* first line with error or zero */ linenr_T bw_start_lnum; /* line number at start of buffer */ # ifdef USE_ICONV iconv_t bw_iconv_fd; /* descriptor for iconv() or -1 */ # endif #endif }; static int buf_write_bytes __ARGS((struct bw_info *ip)); #ifdef FEAT_MBYTE static linenr_T readfile_linenr __ARGS((linenr_T linecnt, char_u *p, char_u *endp)); static int ucs2bytes __ARGS((unsigned c, char_u **pp, int flags)); static int need_conversion __ARGS((char_u *fenc)); static int get_fio_flags __ARGS((char_u *ptr)); static char_u *check_for_bom __ARGS((char_u *p, long size, int *lenp, int flags)); static int make_bom __ARGS((char_u *buf, char_u *name)); # ifdef WIN3264 static int get_win_fio_flags __ARGS((char_u *ptr)); # endif # ifdef MACOS_X static int get_mac_fio_flags __ARGS((char_u *ptr)); # endif #endif static int move_lines __ARGS((buf_T *frombuf, buf_T *tobuf)); #ifdef TEMPDIRNAMES static void vim_settempdir __ARGS((char_u *tempdir)); #endif #ifdef FEAT_AUTOCMD static char *e_auchangedbuf = N_("E812: Autocommands changed buffer or buffer name"); #endif void filemess(buf, name, s, attr) buf_T *buf; char_u *name; char_u *s; int attr; { int msg_scroll_save; if (msg_silent != 0) return; msg_add_fname(buf, name); /* put file name in IObuff with quotes */ /* If it's extremely long, truncate it. */ if (STRLEN(IObuff) > IOSIZE - 80) IObuff[IOSIZE - 80] = NUL; STRCAT(IObuff, s); /* * For the first message may have to start a new line. * For further ones overwrite the previous one, reset msg_scroll before * calling filemess(). */ msg_scroll_save = msg_scroll; if (shortmess(SHM_OVERALL) && !exiting && p_verbose == 0) msg_scroll = FALSE; if (!msg_scroll) /* wait a bit when overwriting an error msg */ check_for_delay(FALSE); msg_start(); msg_scroll = msg_scroll_save; msg_scrolled_ign = TRUE; /* may truncate the message to avoid a hit-return prompt */ msg_outtrans_attr(msg_may_trunc(FALSE, IObuff), attr); msg_clr_eos(); out_flush(); msg_scrolled_ign = FALSE; } /* * Read lines from file "fname" into the buffer after line "from". * * 1. We allocate blocks with lalloc, as big as possible. * 2. Each block is filled with characters from the file with a single read(). * 3. The lines are inserted in the buffer with ml_append(). * * (caller must check that fname != NULL, unless READ_STDIN is used) * * "lines_to_skip" is the number of lines that must be skipped * "lines_to_read" is the number of lines that are appended * When not recovering lines_to_skip is 0 and lines_to_read MAXLNUM. * * flags: * READ_NEW starting to edit a new buffer * READ_FILTER reading filter output * READ_STDIN read from stdin instead of a file * READ_BUFFER read from curbuf instead of a file (converting after reading * stdin) * READ_DUMMY read into a dummy buffer (to check if file contents changed) * READ_KEEP_UNDO don't clear undo info or read it from a file * * return FAIL for failure, OK otherwise */ int readfile(fname, sfname, from, lines_to_skip, lines_to_read, eap, flags) char_u *fname; char_u *sfname; linenr_T from; linenr_T lines_to_skip; linenr_T lines_to_read; exarg_T *eap; /* can be NULL! */ int flags; { int fd = 0; int newfile = (flags & READ_NEW); int check_readonly; int filtering = (flags & READ_FILTER); int read_stdin = (flags & READ_STDIN); int read_buffer = (flags & READ_BUFFER); int set_options = newfile || read_buffer || (eap != NULL && eap->read_edit); linenr_T read_buf_lnum = 1; /* next line to read from curbuf */ colnr_T read_buf_col = 0; /* next char to read from this line */ char_u c; linenr_T lnum = from; char_u *ptr = NULL; /* pointer into read buffer */ char_u *buffer = NULL; /* read buffer */ char_u *new_buffer = NULL; /* init to shut up gcc */ char_u *line_start = NULL; /* init to shut up gcc */ int wasempty; /* buffer was empty before reading */ colnr_T len; long size = 0; char_u *p; off_t filesize = 0; int skip_read = FALSE; #ifdef FEAT_CRYPT char_u *cryptkey = NULL; int did_ask_for_key = FALSE; #endif #ifdef FEAT_PERSISTENT_UNDO context_sha256_T sha_ctx; int read_undo_file = FALSE; #endif int split = 0; /* number of split lines */ #define UNKNOWN 0x0fffffff /* file size is unknown */ linenr_T linecnt; int error = FALSE; /* errors encountered */ int ff_error = EOL_UNKNOWN; /* file format with errors */ long linerest = 0; /* remaining chars in line */ #ifdef UNIX int perm = 0; int swap_mode = -1; /* protection bits for swap file */ #else int perm; #endif int fileformat = 0; /* end-of-line format */ int keep_fileformat = FALSE; struct stat st; int file_readonly; linenr_T skip_count = 0; linenr_T read_count = 0; int msg_save = msg_scroll; linenr_T read_no_eol_lnum = 0; /* non-zero lnum when last line of * last read was missing the eol */ int try_mac = (vim_strchr(p_ffs, 'm') != NULL); int try_dos = (vim_strchr(p_ffs, 'd') != NULL); int try_unix = (vim_strchr(p_ffs, 'x') != NULL); int file_rewind = FALSE; #ifdef FEAT_MBYTE int can_retry; linenr_T conv_error = 0; /* line nr with conversion error */ linenr_T illegal_byte = 0; /* line nr with illegal byte */ int keep_dest_enc = FALSE; /* don't retry when char doesn't fit in destination encoding */ int bad_char_behavior = BAD_REPLACE; /* BAD_KEEP, BAD_DROP or character to * replace with */ char_u *tmpname = NULL; /* name of 'charconvert' output file */ int fio_flags = 0; char_u *fenc; /* fileencoding to use */ int fenc_alloced; /* fenc_next is in allocated memory */ char_u *fenc_next = NULL; /* next item in 'fencs' or NULL */ int advance_fenc = FALSE; long real_size = 0; # ifdef USE_ICONV iconv_t iconv_fd = (iconv_t)-1; /* descriptor for iconv() or -1 */ # ifdef FEAT_EVAL int did_iconv = FALSE; /* TRUE when iconv() failed and trying 'charconvert' next */ # endif # endif int converted = FALSE; /* TRUE if conversion done */ int notconverted = FALSE; /* TRUE if conversion wanted but it wasn't possible */ char_u conv_rest[CONV_RESTLEN]; int conv_restlen = 0; /* nr of bytes in conv_rest[] */ #endif #ifdef FEAT_AUTOCMD buf_T *old_curbuf; char_u *old_b_ffname; char_u *old_b_fname; int using_b_ffname; int using_b_fname; #endif curbuf->b_no_eol_lnum = 0; /* in case it was set by the previous read */ /* * If there is no file name yet, use the one for the read file. * BF_NOTEDITED is set to reflect this. * Don't do this for a read from a filter. * Only do this when 'cpoptions' contains the 'f' flag. */ if (curbuf->b_ffname == NULL && !filtering && fname != NULL && vim_strchr(p_cpo, CPO_FNAMER) != NULL && !(flags & READ_DUMMY)) { if (set_rw_fname(fname, sfname) == FAIL) return FAIL; } #ifdef FEAT_AUTOCMD /* Remember the initial values of curbuf, curbuf->b_ffname and * curbuf->b_fname to detect whether they are altered as a result of * executing nasty autocommands. Also check if "fname" and "sfname" * point to one of these values. */ old_curbuf = curbuf; old_b_ffname = curbuf->b_ffname; old_b_fname = curbuf->b_fname; using_b_ffname = (fname == curbuf->b_ffname) || (sfname == curbuf->b_ffname); using_b_fname = (fname == curbuf->b_fname) || (sfname == curbuf->b_fname); #endif /* After reading a file the cursor line changes but we don't want to * display the line. */ ex_no_reprint = TRUE; /* don't display the file info for another buffer now */ need_fileinfo = FALSE; /* * For Unix: Use the short file name whenever possible. * Avoids problems with networks and when directory names are changed. * Don't do this for MS-DOS, a "cd" in a sub-shell may have moved us to * another directory, which we don't detect. */ if (sfname == NULL) sfname = fname; #if defined(UNIX) || defined(__EMX__) fname = sfname; #endif #ifdef FEAT_AUTOCMD /* * The BufReadCmd and FileReadCmd events intercept the reading process by * executing the associated commands instead. */ if (!filtering && !read_stdin && !read_buffer) { pos_T pos; pos = curbuf->b_op_start; /* Set '[ mark to the line above where the lines go (line 1 if zero). */ curbuf->b_op_start.lnum = ((from == 0) ? 1 : from); curbuf->b_op_start.col = 0; if (newfile) { if (apply_autocmds_exarg(EVENT_BUFREADCMD, NULL, sfname, FALSE, curbuf, eap)) #ifdef FEAT_EVAL return aborting() ? FAIL : OK; #else return OK; #endif } else if (apply_autocmds_exarg(EVENT_FILEREADCMD, sfname, sfname, FALSE, NULL, eap)) #ifdef FEAT_EVAL return aborting() ? FAIL : OK; #else return OK; #endif curbuf->b_op_start = pos; } #endif if ((shortmess(SHM_OVER) || curbuf->b_help) && p_verbose == 0) msg_scroll = FALSE; /* overwrite previous file message */ else msg_scroll = TRUE; /* don't overwrite previous file message */ /* * If the name ends in a path separator, we can't open it. Check here, * because reading the file may actually work, but then creating the swap * file may destroy it! Reported on MS-DOS and Win 95. * If the name is too long we might crash further on, quit here. */ if (fname != NULL && *fname != NUL) { p = fname + STRLEN(fname); if (after_pathsep(fname, p) || STRLEN(fname) >= MAXPATHL) { filemess(curbuf, fname, (char_u *)_("Illegal file name"), 0); msg_end(); msg_scroll = msg_save; return FAIL; } } if (!read_stdin && !read_buffer) { #ifdef UNIX /* * On Unix it is possible to read a directory, so we have to * check for it before the mch_open(). */ perm = mch_getperm(fname); if (perm >= 0 && !S_ISREG(perm) /* not a regular file ... */ # ifdef S_ISFIFO && !S_ISFIFO(perm) /* ... or fifo */ # endif # ifdef S_ISSOCK && !S_ISSOCK(perm) /* ... or socket */ # endif # ifdef OPEN_CHR_FILES && !(S_ISCHR(perm) && is_dev_fd_file(fname)) /* ... or a character special file named /dev/fd/<n> */ # endif ) { if (S_ISDIR(perm)) filemess(curbuf, fname, (char_u *)_("is a directory"), 0); else filemess(curbuf, fname, (char_u *)_("is not a file"), 0); msg_end(); msg_scroll = msg_save; return FAIL; } #endif #if defined(MSDOS) || defined(MSWIN) /* * MS-Windows allows opening a device, but we will probably get stuck * trying to read it. */ if (!p_odev && mch_nodetype(fname) == NODE_WRITABLE) { filemess(curbuf, fname, (char_u *)_("is a device (disabled with 'opendevice' option)"), 0); msg_end(); msg_scroll = msg_save; return FAIL; } #endif } /* Set default or forced 'fileformat' and 'binary'. */ set_file_options(set_options, eap); /* * When opening a new file we take the readonly flag from the file. * Default is r/w, can be set to r/o below. * Don't reset it when in readonly mode * Only set/reset b_p_ro when BF_CHECK_RO is set. */ check_readonly = (newfile && (curbuf->b_flags & BF_CHECK_RO)); if (check_readonly && !readonlymode) curbuf->b_p_ro = FALSE; if (newfile && !read_stdin && !read_buffer) { /* Remember time of file. */ if (mch_stat((char *)fname, &st) >= 0) { buf_store_time(curbuf, &st, fname); curbuf->b_mtime_read = curbuf->b_mtime; #ifdef UNIX /* * Use the protection bits of the original file for the swap file. * This makes it possible for others to read the name of the * edited file from the swapfile, but only if they can read the * edited file. * Remove the "write" and "execute" bits for group and others * (they must not write the swapfile). * Add the "read" and "write" bits for the user, otherwise we may * not be able to write to the file ourselves. * Setting the bits is done below, after creating the swap file. */ swap_mode = (st.st_mode & 0644) | 0600; #endif #ifdef FEAT_CW_EDITOR /* Get the FSSpec on MacOS * TODO: Update it properly when the buffer name changes */ (void)GetFSSpecFromPath(curbuf->b_ffname, &curbuf->b_FSSpec); #endif #ifdef VMS curbuf->b_fab_rfm = st.st_fab_rfm; curbuf->b_fab_rat = st.st_fab_rat; curbuf->b_fab_mrs = st.st_fab_mrs; #endif } else { curbuf->b_mtime = 0; curbuf->b_mtime_read = 0; curbuf->b_orig_size = 0; curbuf->b_orig_mode = 0; } /* Reset the "new file" flag. It will be set again below when the * file doesn't exist. */ curbuf->b_flags &= ~(BF_NEW | BF_NEW_W); } /* * for UNIX: check readonly with perm and mch_access() * for MSDOS and Amiga: check readonly by trying to open the file for writing */ file_readonly = FALSE; if (read_stdin) { #if defined(MSDOS) || defined(MSWIN) /* Force binary I/O on stdin to avoid CR-LF -> LF conversion. */ setmode(0, O_BINARY); #endif } else if (!read_buffer) { #ifdef USE_MCH_ACCESS if ( # ifdef UNIX !(perm & 0222) || # endif mch_access((char *)fname, W_OK)) file_readonly = TRUE; fd = mch_open((char *)fname, O_RDONLY | O_EXTRA, 0); #else if (!newfile || readonlymode || (fd = mch_open((char *)fname, O_RDWR | O_EXTRA, 0)) < 0) { file_readonly = TRUE; /* try to open ro */ fd = mch_open((char *)fname, O_RDONLY | O_EXTRA, 0); } #endif } if (fd < 0) /* cannot open at all */ { #ifndef UNIX int isdir_f; #endif msg_scroll = msg_save; #ifndef UNIX /* * On MSDOS and Amiga we can't open a directory, check here. */ isdir_f = (mch_isdir(fname)); perm = mch_getperm(fname); /* check if the file exists */ if (isdir_f) { filemess(curbuf, sfname, (char_u *)_("is a directory"), 0); curbuf->b_p_ro = TRUE; /* must use "w!" now */ } else #endif if (newfile) { if (perm < 0 #ifdef ENOENT && errno == ENOENT #endif ) { /* * Set the 'new-file' flag, so that when the file has * been created by someone else, a ":w" will complain. */ curbuf->b_flags |= BF_NEW; /* Create a swap file now, so that other Vims are warned * that we are editing this file. Don't do this for a * "nofile" or "nowrite" buffer type. */ #ifdef FEAT_QUICKFIX if (!bt_dontwrite(curbuf)) #endif { check_need_swap(newfile); #ifdef FEAT_AUTOCMD /* SwapExists autocommand may mess things up */ if (curbuf != old_curbuf || (using_b_ffname && (old_b_ffname != curbuf->b_ffname)) || (using_b_fname && (old_b_fname != curbuf->b_fname))) { EMSG(_(e_auchangedbuf)); return FAIL; } #endif } if (dir_of_file_exists(fname)) filemess(curbuf, sfname, (char_u *)_("[New File]"), 0); else filemess(curbuf, sfname, (char_u *)_("[New DIRECTORY]"), 0); #ifdef FEAT_VIMINFO /* Even though this is a new file, it might have been * edited before and deleted. Get the old marks. */ check_marks_read(); #endif #ifdef FEAT_MBYTE /* Set forced 'fileencoding'. */ if (eap != NULL) set_forced_fenc(eap); #endif #ifdef FEAT_AUTOCMD apply_autocmds_exarg(EVENT_BUFNEWFILE, sfname, sfname, FALSE, curbuf, eap); #endif /* remember the current fileformat */ save_file_ff(curbuf); #if defined(FEAT_AUTOCMD) && defined(FEAT_EVAL) if (aborting()) /* autocmds may abort script processing */ return FAIL; #endif return OK; /* a new file is not an error */ } else { filemess(curbuf, sfname, (char_u *)( # ifdef EFBIG (errno == EFBIG) ? _("[File too big]") : # endif # ifdef EOVERFLOW (errno == EOVERFLOW) ? _("[File too big]") : # endif _("[Permission Denied]")), 0); curbuf->b_p_ro = TRUE; /* must use "w!" now */ } } return FAIL; } /* * Only set the 'ro' flag for readonly files the first time they are * loaded. Help files always get readonly mode */ if ((check_readonly && file_readonly) || curbuf->b_help) curbuf->b_p_ro = TRUE; if (set_options) { /* Don't change 'eol' if reading from buffer as it will already be * correctly set when reading stdin. */ if (!read_buffer) { curbuf->b_p_eol = TRUE; curbuf->b_start_eol = TRUE; } #ifdef FEAT_MBYTE curbuf->b_p_bomb = FALSE; curbuf->b_start_bomb = FALSE; #endif } /* Create a swap file now, so that other Vims are warned that we are * editing this file. * Don't do this for a "nofile" or "nowrite" buffer type. */ #ifdef FEAT_QUICKFIX if (!bt_dontwrite(curbuf)) #endif { check_need_swap(newfile); #ifdef FEAT_AUTOCMD if (!read_stdin && (curbuf != old_curbuf || (using_b_ffname && (old_b_ffname != curbuf->b_ffname)) || (using_b_fname && (old_b_fname != curbuf->b_fname)))) { EMSG(_(e_auchangedbuf)); if (!read_buffer) close(fd); return FAIL; } #endif #ifdef UNIX /* Set swap file protection bits after creating it. */ if (swap_mode > 0 && curbuf->b_ml.ml_mfp != NULL && curbuf->b_ml.ml_mfp->mf_fname != NULL) (void)mch_setperm(curbuf->b_ml.ml_mfp->mf_fname, (long)swap_mode); #endif } #if defined(HAS_SWAP_EXISTS_ACTION) /* If "Quit" selected at ATTENTION dialog, don't load the file */ if (swap_exists_action == SEA_QUIT) { if (!read_buffer && !read_stdin) close(fd); return FAIL; } #endif ++no_wait_return; /* don't wait for return yet */ /* * Set '[ mark to the line above where the lines go (line 1 if zero). */ curbuf->b_op_start.lnum = ((from == 0) ? 1 : from); curbuf->b_op_start.col = 0; #ifdef FEAT_AUTOCMD if (!read_buffer) { int m = msg_scroll; int n = msg_scrolled; /* * The file must be closed again, the autocommands may want to change * the file before reading it. */ if (!read_stdin) close(fd); /* ignore errors */ /* * The output from the autocommands should not overwrite anything and * should not be overwritten: Set msg_scroll, restore its value if no * output was done. */ msg_scroll = TRUE; if (filtering) apply_autocmds_exarg(EVENT_FILTERREADPRE, NULL, sfname, FALSE, curbuf, eap); else if (read_stdin) apply_autocmds_exarg(EVENT_STDINREADPRE, NULL, sfname, FALSE, curbuf, eap); else if (newfile) apply_autocmds_exarg(EVENT_BUFREADPRE, NULL, sfname, FALSE, curbuf, eap); else apply_autocmds_exarg(EVENT_FILEREADPRE, sfname, sfname, FALSE, NULL, eap); if (msg_scrolled == n) msg_scroll = m; #ifdef FEAT_EVAL if (aborting()) /* autocmds may abort script processing */ { --no_wait_return; msg_scroll = msg_save; curbuf->b_p_ro = TRUE; /* must use "w!" now */ return FAIL; } #endif /* * Don't allow the autocommands to change the current buffer. * Try to re-open the file. * * Don't allow the autocommands to change the buffer name either * (cd for example) if it invalidates fname or sfname. */ if (!read_stdin && (curbuf != old_curbuf || (using_b_ffname && (old_b_ffname != curbuf->b_ffname)) || (using_b_fname && (old_b_fname != curbuf->b_fname)) || (fd = mch_open((char *)fname, O_RDONLY | O_EXTRA, 0)) < 0)) { --no_wait_return; msg_scroll = msg_save; if (fd < 0) EMSG(_("E200: *ReadPre autocommands made the file unreadable")); else EMSG(_("E201: *ReadPre autocommands must not change current buffer")); curbuf->b_p_ro = TRUE; /* must use "w!" now */ return FAIL; } } #endif /* FEAT_AUTOCMD */ /* Autocommands may add lines to the file, need to check if it is empty */ wasempty = (curbuf->b_ml.ml_flags & ML_EMPTY); if (!recoverymode && !filtering && !(flags & READ_DUMMY)) { /* * Show the user that we are busy reading the input. Sometimes this * may take a while. When reading from stdin another program may * still be running, don't move the cursor to the last line, unless * always using the GUI. */ if (read_stdin) { #ifndef ALWAYS_USE_GUI mch_msg(_("Vim: Reading from stdin...\n")); #endif #ifdef FEAT_GUI /* Also write a message in the GUI window, if there is one. */ if (gui.in_use && !gui.dying && !gui.starting) { p = (char_u *)_("Reading from stdin..."); gui_write(p, (int)STRLEN(p)); } #endif } else if (!read_buffer) filemess(curbuf, sfname, (char_u *)"", 0); } msg_scroll = FALSE; /* overwrite the file message */ /* * Set linecnt now, before the "retry" caused by a wrong guess for * fileformat, and after the autocommands, which may change them. */ linecnt = curbuf->b_ml.ml_line_count; #ifdef FEAT_MBYTE /* "++bad=" argument. */ if (eap != NULL && eap->bad_char != 0) { bad_char_behavior = eap->bad_char; if (set_options) curbuf->b_bad_char = eap->bad_char; } else curbuf->b_bad_char = 0; /* * Decide which 'encoding' to use or use first. */ if (eap != NULL && eap->force_enc != 0) { fenc = enc_canonize(eap->cmd + eap->force_enc); fenc_alloced = TRUE; keep_dest_enc = TRUE; } else if (curbuf->b_p_bin) { fenc = (char_u *)""; /* binary: don't convert */ fenc_alloced = FALSE; } else if (curbuf->b_help) { char_u firstline[80]; int fc; /* Help files are either utf-8 or latin1. Try utf-8 first, if this * fails it must be latin1. * Always do this when 'encoding' is "utf-8". Otherwise only do * this when needed to avoid [converted] remarks all the time. * It is needed when the first line contains non-ASCII characters. * That is only in *.??x files. */ fenc = (char_u *)"latin1"; c = enc_utf8; if (!c && !read_stdin) { fc = fname[STRLEN(fname) - 1]; if (TOLOWER_ASC(fc) == 'x') { /* Read the first line (and a bit more). Immediately rewind to * the start of the file. If the read() fails "len" is -1. */ len = read_eintr(fd, firstline, 80); lseek(fd, (off_t)0L, SEEK_SET); for (p = firstline; p < firstline + len; ++p) if (*p >= 0x80) { c = TRUE; break; } } } if (c) { fenc_next = fenc; fenc = (char_u *)"utf-8"; /* When the file is utf-8 but a character doesn't fit in * 'encoding' don't retry. In help text editing utf-8 bytes * doesn't make sense. */ if (!enc_utf8) keep_dest_enc = TRUE; } fenc_alloced = FALSE; } else if (*p_fencs == NUL) { fenc = curbuf->b_p_fenc; /* use format from buffer */ fenc_alloced = FALSE; } else { fenc_next = p_fencs; /* try items in 'fileencodings' */ fenc = next_fenc(&fenc_next); fenc_alloced = TRUE; } #endif /* * Jump back here to retry reading the file in different ways. * Reasons to retry: * - encoding conversion failed: try another one from "fenc_next" * - BOM detected and fenc was set, need to setup conversion * - "fileformat" check failed: try another * * Variables set for special retry actions: * "file_rewind" Rewind the file to start reading it again. * "advance_fenc" Advance "fenc" using "fenc_next". * "skip_read" Re-use already read bytes (BOM detected). * "did_iconv" iconv() conversion failed, try 'charconvert'. * "keep_fileformat" Don't reset "fileformat". * * Other status indicators: * "tmpname" When != NULL did conversion with 'charconvert'. * Output file has to be deleted afterwards. * "iconv_fd" When != -1 did conversion with iconv(). */ retry: if (file_rewind) { if (read_buffer) { read_buf_lnum = 1; read_buf_col = 0; } else if (read_stdin || lseek(fd, (off_t)0L, SEEK_SET) != 0) { /* Can't rewind the file, give up. */ error = TRUE; goto failed; } /* Delete the previously read lines. */ while (lnum > from) ml_delete(lnum--, FALSE); file_rewind = FALSE; #ifdef FEAT_MBYTE if (set_options) { curbuf->b_p_bomb = FALSE; curbuf->b_start_bomb = FALSE; } conv_error = 0; #endif } /* * When retrying with another "fenc" and the first time "fileformat" * will be reset. */ if (keep_fileformat) keep_fileformat = FALSE; else { if (eap != NULL && eap->force_ff != 0) { fileformat = get_fileformat_force(curbuf, eap); try_unix = try_dos = try_mac = FALSE; } else if (curbuf->b_p_bin) fileformat = EOL_UNIX; /* binary: use Unix format */ else if (*p_ffs == NUL) fileformat = get_fileformat(curbuf);/* use format from buffer */ else fileformat = EOL_UNKNOWN; /* detect from file */ } #ifdef FEAT_MBYTE # ifdef USE_ICONV if (iconv_fd != (iconv_t)-1) { /* aborted conversion with iconv(), close the descriptor */ iconv_close(iconv_fd); iconv_fd = (iconv_t)-1; } # endif if (advance_fenc) { /* * Try the next entry in 'fileencodings'. */ advance_fenc = FALSE; if (eap != NULL && eap->force_enc != 0) { /* Conversion given with "++cc=" wasn't possible, read * without conversion. */ notconverted = TRUE; conv_error = 0; if (fenc_alloced) vim_free(fenc); fenc = (char_u *)""; fenc_alloced = FALSE; } else { if (fenc_alloced) vim_free(fenc); if (fenc_next != NULL) { fenc = next_fenc(&fenc_next); fenc_alloced = (fenc_next != NULL); } else { fenc = (char_u *)""; fenc_alloced = FALSE; } } if (tmpname != NULL) { mch_remove(tmpname); /* delete converted file */ vim_free(tmpname); tmpname = NULL; } } /* * Conversion may be required when the encoding of the file is different * from 'encoding' or 'encoding' is UTF-16, UCS-2 or UCS-4. */ fio_flags = 0; converted = need_conversion(fenc); if (converted) { /* "ucs-bom" means we need to check the first bytes of the file * for a BOM. */ if (STRCMP(fenc, ENC_UCSBOM) == 0) fio_flags = FIO_UCSBOM; /* * Check if UCS-2/4 or Latin1 to UTF-8 conversion needs to be * done. This is handled below after read(). Prepare the * fio_flags to avoid having to parse the string each time. * Also check for Unicode to Latin1 conversion, because iconv() * appears not to handle this correctly. This works just like * conversion to UTF-8 except how the resulting character is put in * the buffer. */ else if (enc_utf8 || STRCMP(p_enc, "latin1") == 0) fio_flags = get_fio_flags(fenc); # ifdef WIN3264 /* * Conversion from an MS-Windows codepage to UTF-8 or another codepage * is handled with MultiByteToWideChar(). */ if (fio_flags == 0) fio_flags = get_win_fio_flags(fenc); # endif # ifdef MACOS_X /* Conversion from Apple MacRoman to latin1 or UTF-8 */ if (fio_flags == 0) fio_flags = get_mac_fio_flags(fenc); # endif # ifdef USE_ICONV /* * Try using iconv() if we can't convert internally. */ if (fio_flags == 0 # ifdef FEAT_EVAL && !did_iconv # endif ) iconv_fd = (iconv_t)my_iconv_open( enc_utf8 ? (char_u *)"utf-8" : p_enc, fenc); # endif # ifdef FEAT_EVAL /* * Use the 'charconvert' expression when conversion is required * and we can't do it internally or with iconv(). */ if (fio_flags == 0 && !read_stdin && !read_buffer && *p_ccv != NUL # ifdef USE_ICONV && iconv_fd == (iconv_t)-1 # endif ) { # ifdef USE_ICONV did_iconv = FALSE; # endif /* Skip conversion when it's already done (retry for wrong * "fileformat"). */ if (tmpname == NULL) { tmpname = readfile_charconvert(fname, fenc, &fd); if (tmpname == NULL) { /* Conversion failed. Try another one. */ advance_fenc = TRUE; if (fd < 0) { /* Re-opening the original file failed! */ EMSG(_("E202: Conversion made file unreadable!")); error = TRUE; goto failed; } goto retry; } } } else # endif { if (fio_flags == 0 # ifdef USE_ICONV && iconv_fd == (iconv_t)-1 # endif ) { /* Conversion wanted but we can't. * Try the next conversion in 'fileencodings' */ advance_fenc = TRUE; goto retry; } } } /* Set "can_retry" when it's possible to rewind the file and try with * another "fenc" value. It's FALSE when no other "fenc" to try, reading * stdin or fixed at a specific encoding. */ can_retry = (*fenc != NUL && !read_stdin && !keep_dest_enc); #endif if (!skip_read) { linerest = 0; filesize = 0; skip_count = lines_to_skip; read_count = lines_to_read; #ifdef FEAT_MBYTE conv_restlen = 0; #endif #ifdef FEAT_PERSISTENT_UNDO read_undo_file = (newfile && (flags & READ_KEEP_UNDO) == 0 && curbuf->b_ffname != NULL && curbuf->b_p_udf && !filtering && !read_stdin && !read_buffer); if (read_undo_file) sha256_start(&sha_ctx); #endif #ifdef FEAT_CRYPT if (curbuf->b_cryptstate != NULL) { /* Need to free the state, but keep the key, don't want to ask for * it again. */ crypt_free_state(curbuf->b_cryptstate); curbuf->b_cryptstate = NULL; } #endif } while (!error && !got_int) { /* * We allocate as much space for the file as we can get, plus * space for the old line plus room for one terminating NUL. * The amount is limited by the fact that read() only can read * upto max_unsigned characters (and other things). */ #if VIM_SIZEOF_INT <= 2 if (linerest >= 0x7ff0) { ++split; *ptr = NL; /* split line by inserting a NL */ size = 1; } else #endif { if (!skip_read) { #if VIM_SIZEOF_INT > 2 # if defined(SSIZE_MAX) && (SSIZE_MAX < 0x10000L) size = SSIZE_MAX; /* use max I/O size, 52K */ # else size = 0x10000L; /* use buffer >= 64K */ # endif #else size = 0x7ff0L - linerest; /* limit buffer to 32K */ #endif for ( ; size >= 10; size = (long)((long_u)size >> 1)) { if ((new_buffer = lalloc((long_u)(size + linerest + 1), FALSE)) != NULL) break; } if (new_buffer == NULL) { do_outofmem_msg((long_u)(size * 2 + linerest + 1)); error = TRUE; break; } if (linerest) /* copy characters from the previous buffer */ mch_memmove(new_buffer, ptr - linerest, (size_t)linerest); vim_free(buffer); buffer = new_buffer; ptr = buffer + linerest; line_start = buffer; #ifdef FEAT_MBYTE /* May need room to translate into. * For iconv() we don't really know the required space, use a * factor ICONV_MULT. * latin1 to utf-8: 1 byte becomes up to 2 bytes * utf-16 to utf-8: 2 bytes become up to 3 bytes, 4 bytes * become up to 4 bytes, size must be multiple of 2 * ucs-2 to utf-8: 2 bytes become up to 3 bytes, size must be * multiple of 2 * ucs-4 to utf-8: 4 bytes become up to 6 bytes, size must be * multiple of 4 */ real_size = (int)size; # ifdef USE_ICONV if (iconv_fd != (iconv_t)-1) size = size / ICONV_MULT; else # endif if (fio_flags & FIO_LATIN1) size = size / 2; else if (fio_flags & (FIO_UCS2 | FIO_UTF16)) size = (size * 2 / 3) & ~1; else if (fio_flags & FIO_UCS4) size = (size * 2 / 3) & ~3; else if (fio_flags == FIO_UCSBOM) size = size / ICONV_MULT; /* worst case */ # ifdef WIN3264 else if (fio_flags & FIO_CODEPAGE) size = size / ICONV_MULT; /* also worst case */ # endif # ifdef MACOS_X else if (fio_flags & FIO_MACROMAN) size = size / ICONV_MULT; /* also worst case */ # endif #endif #ifdef FEAT_MBYTE if (conv_restlen > 0) { /* Insert unconverted bytes from previous line. */ mch_memmove(ptr, conv_rest, conv_restlen); ptr += conv_restlen; size -= conv_restlen; } #endif if (read_buffer) { /* * Read bytes from curbuf. Used for converting text read * from stdin. */ if (read_buf_lnum > from) size = 0; else { int n, ni; long tlen; tlen = 0; for (;;) { p = ml_get(read_buf_lnum) + read_buf_col; n = (int)STRLEN(p); if ((int)tlen + n + 1 > size) { /* Filled up to "size", append partial line. * Change NL to NUL to reverse the effect done * below. */ n = (int)(size - tlen); for (ni = 0; ni < n; ++ni) { if (p[ni] == NL) ptr[tlen++] = NUL; else ptr[tlen++] = p[ni]; } read_buf_col += n; break; } else { /* Append whole line and new-line. Change NL * to NUL to reverse the effect done below. */ for (ni = 0; ni < n; ++ni) { if (p[ni] == NL) ptr[tlen++] = NUL; else ptr[tlen++] = p[ni]; } ptr[tlen++] = NL; read_buf_col = 0; if (++read_buf_lnum > from) { /* When the last line didn't have an * end-of-line don't add it now either. */ if (!curbuf->b_p_eol) --tlen; size = tlen; break; } } } } } else { /* * Read bytes from the file. */ size = read_eintr(fd, ptr, size); } #ifdef FEAT_CRYPT /* * At start of file: Check for magic number of encryption. */ if (filesize == 0 && size > 0) cryptkey = check_for_cryptkey(cryptkey, ptr, &size, &filesize, newfile, sfname, &did_ask_for_key); /* * Decrypt the read bytes. This is done before checking for * EOF because the crypt layer may be buffering. */ if (cryptkey != NULL && size > 0) { if (crypt_works_inplace(curbuf->b_cryptstate)) { crypt_decode_inplace(curbuf->b_cryptstate, ptr, size); } else { char_u *newptr = NULL; int decrypted_size; decrypted_size = crypt_decode_alloc( curbuf->b_cryptstate, ptr, size, &newptr); /* If the crypt layer is buffering, not producing * anything yet, need to read more. */ if (size > 0 && decrypted_size == 0) continue; if (linerest == 0) { /* Simple case: reuse returned buffer (may be * NULL, checked later). */ new_buffer = newptr; } else { long_u new_size; /* Need new buffer to add bytes carried over. */ new_size = (long_u)(decrypted_size + linerest + 1); new_buffer = lalloc(new_size, FALSE); if (new_buffer == NULL) { do_outofmem_msg(new_size); error = TRUE; break; } mch_memmove(new_buffer, buffer, linerest); if (newptr != NULL) mch_memmove(new_buffer + linerest, newptr, decrypted_size); } if (new_buffer != NULL) { vim_free(buffer); buffer = new_buffer; new_buffer = NULL; line_start = buffer; ptr = buffer + linerest; } size = decrypted_size; } } #endif if (size <= 0) { if (size < 0) /* read error */ error = TRUE; #ifdef FEAT_MBYTE else if (conv_restlen > 0) { /* * Reached end-of-file but some trailing bytes could * not be converted. Truncated file? */ /* When we did a conversion report an error. */ if (fio_flags != 0 # ifdef USE_ICONV || iconv_fd != (iconv_t)-1 # endif ) { if (can_retry) goto rewind_retry; if (conv_error == 0) conv_error = curbuf->b_ml.ml_line_count - linecnt + 1; } /* Remember the first linenr with an illegal byte */ else if (illegal_byte == 0) illegal_byte = curbuf->b_ml.ml_line_count - linecnt + 1; if (bad_char_behavior == BAD_DROP) { *(ptr - conv_restlen) = NUL; conv_restlen = 0; } else { /* Replace the trailing bytes with the replacement * character if we were converting; if we weren't, * leave the UTF8 checking code to do it, as it * works slightly differently. */ if (bad_char_behavior != BAD_KEEP && (fio_flags != 0 # ifdef USE_ICONV || iconv_fd != (iconv_t)-1 # endif )) { while (conv_restlen > 0) { *(--ptr) = bad_char_behavior; --conv_restlen; } } fio_flags = 0; /* don't convert this */ # ifdef USE_ICONV if (iconv_fd != (iconv_t)-1) { iconv_close(iconv_fd); iconv_fd = (iconv_t)-1; } # endif } } #endif } } skip_read = FALSE; #ifdef FEAT_MBYTE /* * At start of file (or after crypt magic number): Check for BOM. * Also check for a BOM for other Unicode encodings, but not after * converting with 'charconvert' or when a BOM has already been * found. */ if ((filesize == 0 # ifdef FEAT_CRYPT || (cryptkey != NULL && filesize == crypt_get_header_len( crypt_get_method_nr(curbuf))) # endif ) && (fio_flags == FIO_UCSBOM || (!curbuf->b_p_bomb && tmpname == NULL && (*fenc == 'u' || (*fenc == NUL && enc_utf8))))) { char_u *ccname; int blen; /* no BOM detection in a short file or in binary mode */ if (size < 2 || curbuf->b_p_bin) ccname = NULL; else ccname = check_for_bom(ptr, size, &blen, fio_flags == FIO_UCSBOM ? FIO_ALL : get_fio_flags(fenc)); if (ccname != NULL) { /* Remove BOM from the text */ filesize += blen; size -= blen; mch_memmove(ptr, ptr + blen, (size_t)size); if (set_options) { curbuf->b_p_bomb = TRUE; curbuf->b_start_bomb = TRUE; } } if (fio_flags == FIO_UCSBOM) { if (ccname == NULL) { /* No BOM detected: retry with next encoding. */ advance_fenc = TRUE; } else { /* BOM detected: set "fenc" and jump back */ if (fenc_alloced) vim_free(fenc); fenc = ccname; fenc_alloced = FALSE; } /* retry reading without getting new bytes or rewinding */ skip_read = TRUE; goto retry; } } /* Include not converted bytes. */ ptr -= conv_restlen; size += conv_restlen; conv_restlen = 0; #endif /* * Break here for a read error or end-of-file. */ if (size <= 0) break; #ifdef FEAT_MBYTE # ifdef USE_ICONV if (iconv_fd != (iconv_t)-1) { /* * Attempt conversion of the read bytes to 'encoding' using * iconv(). */ const char *fromp; char *top; size_t from_size; size_t to_size; fromp = (char *)ptr; from_size = size; ptr += size; top = (char *)ptr; to_size = real_size - size; /* * If there is conversion error or not enough room try using * another conversion. Except for when there is no * alternative (help files). */ while ((iconv(iconv_fd, (void *)&fromp, &from_size, &top, &to_size) == (size_t)-1 && ICONV_ERRNO != ICONV_EINVAL) || from_size > CONV_RESTLEN) { if (can_retry) goto rewind_retry; if (conv_error == 0) conv_error = readfile_linenr(linecnt, ptr, (char_u *)top); /* Deal with a bad byte and continue with the next. */ ++fromp; --from_size; if (bad_char_behavior == BAD_KEEP) { *top++ = *(fromp - 1); --to_size; } else if (bad_char_behavior != BAD_DROP) { *top++ = bad_char_behavior; --to_size; } } if (from_size > 0) { /* Some remaining characters, keep them for the next * round. */ mch_memmove(conv_rest, (char_u *)fromp, from_size); conv_restlen = (int)from_size; } /* move the linerest to before the converted characters */ line_start = ptr - linerest; mch_memmove(line_start, buffer, (size_t)linerest); size = (long)((char_u *)top - ptr); } # endif # ifdef WIN3264 if (fio_flags & FIO_CODEPAGE) { char_u *src, *dst; WCHAR ucs2buf[3]; int ucs2len; int codepage = FIO_GET_CP(fio_flags); int bytelen; int found_bad; char replstr[2]; /* * Conversion from an MS-Windows codepage or UTF-8 to UTF-8 or * a codepage, using standard MS-Windows functions. This * requires two steps: * 1. convert from 'fileencoding' to ucs-2 * 2. convert from ucs-2 to 'encoding' * * Because there may be illegal bytes AND an incomplete byte * sequence at the end, we may have to do the conversion one * character at a time to get it right. */ /* Replacement string for WideCharToMultiByte(). */ if (bad_char_behavior > 0) replstr[0] = bad_char_behavior; else replstr[0] = '?'; replstr[1] = NUL; /* * Move the bytes to the end of the buffer, so that we have * room to put the result at the start. */ src = ptr + real_size - size; mch_memmove(src, ptr, size); /* * Do the conversion. */ dst = ptr; size = size; while (size > 0) { found_bad = FALSE; # ifdef CP_UTF8 /* VC 4.1 doesn't define CP_UTF8 */ if (codepage == CP_UTF8) { /* Handle CP_UTF8 input ourselves to be able to handle * trailing bytes properly. * Get one UTF-8 character from src. */ bytelen = (int)utf_ptr2len_len(src, size); if (bytelen > size) { /* Only got some bytes of a character. Normally * it's put in "conv_rest", but if it's too long * deal with it as if they were illegal bytes. */ if (bytelen <= CONV_RESTLEN) break; /* weird overlong byte sequence */ bytelen = size; found_bad = TRUE; } else { int u8c = utf_ptr2char(src); if (u8c > 0xffff || (*src >= 0x80 && bytelen == 1)) found_bad = TRUE; ucs2buf[0] = u8c; ucs2len = 1; } } else # endif { /* We don't know how long the byte sequence is, try * from one to three bytes. */ for (bytelen = 1; bytelen <= size && bytelen <= 3; ++bytelen) { ucs2len = MultiByteToWideChar(codepage, MB_ERR_INVALID_CHARS, (LPCSTR)src, bytelen, ucs2buf, 3); if (ucs2len > 0) break; } if (ucs2len == 0) { /* If we have only one byte then it's probably an * incomplete byte sequence. Otherwise discard * one byte as a bad character. */ if (size == 1) break; found_bad = TRUE; bytelen = 1; } } if (!found_bad) { int i; /* Convert "ucs2buf[ucs2len]" to 'enc' in "dst". */ if (enc_utf8) { /* From UCS-2 to UTF-8. Cannot fail. */ for (i = 0; i < ucs2len; ++i) dst += utf_char2bytes(ucs2buf[i], dst); } else { BOOL bad = FALSE; int dstlen; /* From UCS-2 to "enc_codepage". If the * conversion uses the default character "?", * the data doesn't fit in this encoding. */ dstlen = WideCharToMultiByte(enc_codepage, 0, (LPCWSTR)ucs2buf, ucs2len, (LPSTR)dst, (int)(src - dst), replstr, &bad); if (bad) found_bad = TRUE; else dst += dstlen; } } if (found_bad) { /* Deal with bytes we can't convert. */ if (can_retry) goto rewind_retry; if (conv_error == 0) conv_error = readfile_linenr(linecnt, ptr, dst); if (bad_char_behavior != BAD_DROP) { if (bad_char_behavior == BAD_KEEP) { mch_memmove(dst, src, bytelen); dst += bytelen; } else *dst++ = bad_char_behavior; } } src += bytelen; size -= bytelen; } if (size > 0) { /* An incomplete byte sequence remaining. */ mch_memmove(conv_rest, src, size); conv_restlen = size; } /* The new size is equal to how much "dst" was advanced. */ size = (long)(dst - ptr); } else # endif # ifdef MACOS_CONVERT if (fio_flags & FIO_MACROMAN) { /* * Conversion from Apple MacRoman char encoding to UTF-8 or * latin1. This is in os_mac_conv.c. */ if (macroman2enc(ptr, &size, real_size) == FAIL) goto rewind_retry; } else # endif if (fio_flags != 0) { int u8c; char_u *dest; char_u *tail = NULL; /* * "enc_utf8" set: Convert Unicode or Latin1 to UTF-8. * "enc_utf8" not set: Convert Unicode to Latin1. * Go from end to start through the buffer, because the number * of bytes may increase. * "dest" points to after where the UTF-8 bytes go, "p" points * to after the next character to convert. */ dest = ptr + real_size; if (fio_flags == FIO_LATIN1 || fio_flags == FIO_UTF8) { p = ptr + size; if (fio_flags == FIO_UTF8) { /* Check for a trailing incomplete UTF-8 sequence */ tail = ptr + size - 1; while (tail > ptr && (*tail & 0xc0) == 0x80) --tail; if (tail + utf_byte2len(*tail) <= ptr + size) tail = NULL; else p = tail; } } else if (fio_flags & (FIO_UCS2 | FIO_UTF16)) { /* Check for a trailing byte */ p = ptr + (size & ~1); if (size & 1) tail = p; if ((fio_flags & FIO_UTF16) && p > ptr) { /* Check for a trailing leading word */ if (fio_flags & FIO_ENDIAN_L) { u8c = (*--p << 8); u8c += *--p; } else { u8c = *--p; u8c += (*--p << 8); } if (u8c >= 0xd800 && u8c <= 0xdbff) tail = p; else p += 2; } } else /* FIO_UCS4 */ { /* Check for trailing 1, 2 or 3 bytes */ p = ptr + (size & ~3); if (size & 3) tail = p; } /* If there is a trailing incomplete sequence move it to * conv_rest[]. */ if (tail != NULL) { conv_restlen = (int)((ptr + size) - tail); mch_memmove(conv_rest, (char_u *)tail, conv_restlen); size -= conv_restlen; } while (p > ptr) { if (fio_flags & FIO_LATIN1) u8c = *--p; else if (fio_flags & (FIO_UCS2 | FIO_UTF16)) { if (fio_flags & FIO_ENDIAN_L) { u8c = (*--p << 8); u8c += *--p; } else { u8c = *--p; u8c += (*--p << 8); } if ((fio_flags & FIO_UTF16) && u8c >= 0xdc00 && u8c <= 0xdfff) { int u16c; if (p == ptr) { /* Missing leading word. */ if (can_retry) goto rewind_retry; if (conv_error == 0) conv_error = readfile_linenr(linecnt, ptr, p); if (bad_char_behavior == BAD_DROP) continue; if (bad_char_behavior != BAD_KEEP) u8c = bad_char_behavior; } /* found second word of double-word, get the first * word and compute the resulting character */ if (fio_flags & FIO_ENDIAN_L) { u16c = (*--p << 8); u16c += *--p; } else { u16c = *--p; u16c += (*--p << 8); } u8c = 0x10000 + ((u16c & 0x3ff) << 10) + (u8c & 0x3ff); /* Check if the word is indeed a leading word. */ if (u16c < 0xd800 || u16c > 0xdbff) { if (can_retry) goto rewind_retry; if (conv_error == 0) conv_error = readfile_linenr(linecnt, ptr, p); if (bad_char_behavior == BAD_DROP) continue; if (bad_char_behavior != BAD_KEEP) u8c = bad_char_behavior; } } } else if (fio_flags & FIO_UCS4) { if (fio_flags & FIO_ENDIAN_L) { u8c = (*--p << 24); u8c += (*--p << 16); u8c += (*--p << 8); u8c += *--p; } else /* big endian */ { u8c = *--p; u8c += (*--p << 8); u8c += (*--p << 16); u8c += (*--p << 24); } } else /* UTF-8 */ { if (*--p < 0x80) u8c = *p; else { len = utf_head_off(ptr, p); p -= len; u8c = utf_ptr2char(p); if (len == 0) { /* Not a valid UTF-8 character, retry with * another fenc when possible, otherwise just * report the error. */ if (can_retry) goto rewind_retry; if (conv_error == 0) conv_error = readfile_linenr(linecnt, ptr, p); if (bad_char_behavior == BAD_DROP) continue; if (bad_char_behavior != BAD_KEEP) u8c = bad_char_behavior; } } } if (enc_utf8) /* produce UTF-8 */ { dest -= utf_char2len(u8c); (void)utf_char2bytes(u8c, dest); } else /* produce Latin1 */ { --dest; if (u8c >= 0x100) { /* character doesn't fit in latin1, retry with * another fenc when possible, otherwise just * report the error. */ if (can_retry) goto rewind_retry; if (conv_error == 0) conv_error = readfile_linenr(linecnt, ptr, p); if (bad_char_behavior == BAD_DROP) ++dest; else if (bad_char_behavior == BAD_KEEP) *dest = u8c; else if (eap != NULL && eap->bad_char != 0) *dest = bad_char_behavior; else *dest = 0xBF; } else *dest = u8c; } } /* move the linerest to before the converted characters */ line_start = dest - linerest; mch_memmove(line_start, buffer, (size_t)linerest); size = (long)((ptr + real_size) - dest); ptr = dest; } else if (enc_utf8 && !curbuf->b_p_bin) { int incomplete_tail = FALSE; /* Reading UTF-8: Check if the bytes are valid UTF-8. */ for (p = ptr; ; ++p) { int todo = (int)((ptr + size) - p); int l; if (todo <= 0) break; if (*p >= 0x80) { /* A length of 1 means it's an illegal byte. Accept * an incomplete character at the end though, the next * read() will get the next bytes, we'll check it * then. */ l = utf_ptr2len_len(p, todo); if (l > todo && !incomplete_tail) { /* Avoid retrying with a different encoding when * a truncated file is more likely, or attempting * to read the rest of an incomplete sequence when * we have already done so. */ if (p > ptr || filesize > 0) incomplete_tail = TRUE; /* Incomplete byte sequence, move it to conv_rest[] * and try to read the rest of it, unless we've * already done so. */ if (p > ptr) { conv_restlen = todo; mch_memmove(conv_rest, p, conv_restlen); size -= conv_restlen; break; } } if (l == 1 || l > todo) { /* Illegal byte. If we can try another encoding * do that, unless at EOF where a truncated * file is more likely than a conversion error. */ if (can_retry && !incomplete_tail) break; # ifdef USE_ICONV /* When we did a conversion report an error. */ if (iconv_fd != (iconv_t)-1 && conv_error == 0) conv_error = readfile_linenr(linecnt, ptr, p); # endif /* Remember the first linenr with an illegal byte */ if (conv_error == 0 && illegal_byte == 0) illegal_byte = readfile_linenr(linecnt, ptr, p); /* Drop, keep or replace the bad byte. */ if (bad_char_behavior == BAD_DROP) { mch_memmove(p, p + 1, todo - 1); --p; --size; } else if (bad_char_behavior != BAD_KEEP) *p = bad_char_behavior; } else p += l - 1; } } if (p < ptr + size && !incomplete_tail) { /* Detected a UTF-8 error. */ rewind_retry: /* Retry reading with another conversion. */ # if defined(FEAT_EVAL) && defined(USE_ICONV) if (*p_ccv != NUL && iconv_fd != (iconv_t)-1) /* iconv() failed, try 'charconvert' */ did_iconv = TRUE; else # endif /* use next item from 'fileencodings' */ advance_fenc = TRUE; file_rewind = TRUE; goto retry; } } #endif /* count the number of characters (after conversion!) */ filesize += size; /* * when reading the first part of a file: guess EOL type */ if (fileformat == EOL_UNKNOWN) { /* First try finding a NL, for Dos and Unix */ if (try_dos || try_unix) { /* Reset the carriage return counter. */ if (try_mac) try_mac = 1; for (p = ptr; p < ptr + size; ++p) { if (*p == NL) { if (!try_unix || (try_dos && p > ptr && p[-1] == CAR)) fileformat = EOL_DOS; else fileformat = EOL_UNIX; break; } else if (*p == CAR && try_mac) try_mac++; } /* Don't give in to EOL_UNIX if EOL_MAC is more likely */ if (fileformat == EOL_UNIX && try_mac) { /* Need to reset the counters when retrying fenc. */ try_mac = 1; try_unix = 1; for (; p >= ptr && *p != CAR; p--) ; if (p >= ptr) { for (p = ptr; p < ptr + size; ++p) { if (*p == NL) try_unix++; else if (*p == CAR) try_mac++; } if (try_mac > try_unix) fileformat = EOL_MAC; } } else if (fileformat == EOL_UNKNOWN && try_mac == 1) /* Looking for CR but found no end-of-line markers at * all: use the default format. */ fileformat = default_fileformat(); } /* No NL found: may use Mac format */ if (fileformat == EOL_UNKNOWN && try_mac) fileformat = EOL_MAC; /* Still nothing found? Use first format in 'ffs' */ if (fileformat == EOL_UNKNOWN) fileformat = default_fileformat(); /* if editing a new file: may set p_tx and p_ff */ if (set_options) set_fileformat(fileformat, OPT_LOCAL); } } /* * This loop is executed once for every character read. * Keep it fast! */ if (fileformat == EOL_MAC) { --ptr; while (++ptr, --size >= 0) { /* catch most common case first */ if ((c = *ptr) != NUL && c != CAR && c != NL) continue; if (c == NUL) *ptr = NL; /* NULs are replaced by newlines! */ else if (c == NL) *ptr = CAR; /* NLs are replaced by CRs! */ else { if (skip_count == 0) { *ptr = NUL; /* end of line */ len = (colnr_T) (ptr - line_start + 1); if (ml_append(lnum, line_start, len, newfile) == FAIL) { error = TRUE; break; } #ifdef FEAT_PERSISTENT_UNDO if (read_undo_file) sha256_update(&sha_ctx, line_start, len); #endif ++lnum; if (--read_count == 0) { error = TRUE; /* break loop */ line_start = ptr; /* nothing left to write */ break; } } else --skip_count; line_start = ptr + 1; } } } else { --ptr; while (++ptr, --size >= 0) { if ((c = *ptr) != NUL && c != NL) /* catch most common case */ continue; if (c == NUL) *ptr = NL; /* NULs are replaced by newlines! */ else { if (skip_count == 0) { *ptr = NUL; /* end of line */ len = (colnr_T)(ptr - line_start + 1); if (fileformat == EOL_DOS) { if (ptr[-1] == CAR) /* remove CR */ { ptr[-1] = NUL; --len; } /* * Reading in Dos format, but no CR-LF found! * When 'fileformats' includes "unix", delete all * the lines read so far and start all over again. * Otherwise give an error message later. */ else if (ff_error != EOL_DOS) { if ( try_unix && !read_stdin && (read_buffer || lseek(fd, (off_t)0L, SEEK_SET) == 0)) { fileformat = EOL_UNIX; if (set_options) set_fileformat(EOL_UNIX, OPT_LOCAL); file_rewind = TRUE; keep_fileformat = TRUE; goto retry; } ff_error = EOL_DOS; } } if (ml_append(lnum, line_start, len, newfile) == FAIL) { error = TRUE; break; } #ifdef FEAT_PERSISTENT_UNDO if (read_undo_file) sha256_update(&sha_ctx, line_start, len); #endif ++lnum; if (--read_count == 0) { error = TRUE; /* break loop */ line_start = ptr; /* nothing left to write */ break; } } else --skip_count; line_start = ptr + 1; } } } linerest = (long)(ptr - line_start); ui_breakcheck(); } failed: /* not an error, max. number of lines reached */ if (error && read_count == 0) error = FALSE; /* * If we get EOF in the middle of a line, note the fact and * complete the line ourselves. * In Dos format ignore a trailing CTRL-Z, unless 'binary' set. */ if (!error && !got_int && linerest != 0 && !(!curbuf->b_p_bin && fileformat == EOL_DOS && *line_start == Ctrl_Z && ptr == line_start + 1)) { /* remember for when writing */ if (set_options) curbuf->b_p_eol = FALSE; *ptr = NUL; len = (colnr_T)(ptr - line_start + 1); if (ml_append(lnum, line_start, len, newfile) == FAIL) error = TRUE; else { #ifdef FEAT_PERSISTENT_UNDO if (read_undo_file) sha256_update(&sha_ctx, line_start, len); #endif read_no_eol_lnum = ++lnum; } } if (set_options) save_file_ff(curbuf); /* remember the current file format */ #ifdef FEAT_CRYPT if (curbuf->b_cryptstate != NULL) { crypt_free_state(curbuf->b_cryptstate); curbuf->b_cryptstate = NULL; } if (cryptkey != NULL && cryptkey != curbuf->b_p_key) crypt_free_key(cryptkey); /* Don't set cryptkey to NULL, it's used below as a flag that * encryption was used. */ #endif #ifdef FEAT_MBYTE /* If editing a new file: set 'fenc' for the current buffer. * Also for ":read ++edit file". */ if (set_options) set_string_option_direct((char_u *)"fenc", -1, fenc, OPT_FREE|OPT_LOCAL, 0); if (fenc_alloced) vim_free(fenc); # ifdef USE_ICONV if (iconv_fd != (iconv_t)-1) { iconv_close(iconv_fd); iconv_fd = (iconv_t)-1; } # endif #endif if (!read_buffer && !read_stdin) close(fd); /* errors are ignored */ #ifdef HAVE_FD_CLOEXEC else { int fdflags = fcntl(fd, F_GETFD); if (fdflags >= 0 && (fdflags & FD_CLOEXEC) == 0) fcntl(fd, F_SETFD, fdflags | FD_CLOEXEC); } #endif vim_free(buffer); #ifdef HAVE_DUP if (read_stdin) { /* Use stderr for stdin, makes shell commands work. */ close(0); ignored = dup(2); } #endif #ifdef FEAT_MBYTE if (tmpname != NULL) { mch_remove(tmpname); /* delete converted file */ vim_free(tmpname); } #endif --no_wait_return; /* may wait for return now */ /* * In recovery mode everything but autocommands is skipped. */ if (!recoverymode) { /* need to delete the last line, which comes from the empty buffer */ if (newfile && wasempty && !(curbuf->b_ml.ml_flags & ML_EMPTY)) { #ifdef FEAT_NETBEANS_INTG netbeansFireChanges = 0; #endif ml_delete(curbuf->b_ml.ml_line_count, FALSE); #ifdef FEAT_NETBEANS_INTG netbeansFireChanges = 1; #endif --linecnt; } linecnt = curbuf->b_ml.ml_line_count - linecnt; if (filesize == 0) linecnt = 0; if (newfile || read_buffer) { redraw_curbuf_later(NOT_VALID); #ifdef FEAT_DIFF /* After reading the text into the buffer the diff info needs to * be updated. */ diff_invalidate(curbuf); #endif #ifdef FEAT_FOLDING /* All folds in the window are invalid now. Mark them for update * before triggering autocommands. */ foldUpdateAll(curwin); #endif } else if (linecnt) /* appended at least one line */ appended_lines_mark(from, linecnt); #ifndef ALWAYS_USE_GUI /* * If we were reading from the same terminal as where messages go, * the screen will have been messed up. * Switch on raw mode now and clear the screen. */ if (read_stdin) { settmode(TMODE_RAW); /* set to raw mode */ starttermcap(); screenclear(); } #endif if (got_int) { if (!(flags & READ_DUMMY)) { filemess(curbuf, sfname, (char_u *)_(e_interr), 0); if (newfile) curbuf->b_p_ro = TRUE; /* must use "w!" now */ } msg_scroll = msg_save; #ifdef FEAT_VIMINFO check_marks_read(); #endif return OK; /* an interrupt isn't really an error */ } if (!filtering && !(flags & READ_DUMMY)) { msg_add_fname(curbuf, sfname); /* fname in IObuff with quotes */ c = FALSE; #ifdef UNIX # ifdef S_ISFIFO if (S_ISFIFO(perm)) /* fifo or socket */ { STRCAT(IObuff, _("[fifo/socket]")); c = TRUE; } # else # ifdef S_IFIFO if ((perm & S_IFMT) == S_IFIFO) /* fifo */ { STRCAT(IObuff, _("[fifo]")); c = TRUE; } # endif # ifdef S_IFSOCK if ((perm & S_IFMT) == S_IFSOCK) /* or socket */ { STRCAT(IObuff, _("[socket]")); c = TRUE; } # endif # endif # ifdef OPEN_CHR_FILES if (S_ISCHR(perm)) /* or character special */ { STRCAT(IObuff, _("[character special]")); c = TRUE; } # endif #endif if (curbuf->b_p_ro) { STRCAT(IObuff, shortmess(SHM_RO) ? _("[RO]") : _("[readonly]")); c = TRUE; } if (read_no_eol_lnum) { msg_add_eol(); c = TRUE; } if (ff_error == EOL_DOS) { STRCAT(IObuff, _("[CR missing]")); c = TRUE; } if (split) { STRCAT(IObuff, _("[long lines split]")); c = TRUE; } #ifdef FEAT_MBYTE if (notconverted) { STRCAT(IObuff, _("[NOT converted]")); c = TRUE; } else if (converted) { STRCAT(IObuff, _("[converted]")); c = TRUE; } #endif #ifdef FEAT_CRYPT if (cryptkey != NULL) { crypt_append_msg(curbuf); c = TRUE; } #endif #ifdef FEAT_MBYTE if (conv_error != 0) { sprintf((char *)IObuff + STRLEN(IObuff), _("[CONVERSION ERROR in line %ld]"), (long)conv_error); c = TRUE; } else if (illegal_byte > 0) { sprintf((char *)IObuff + STRLEN(IObuff), _("[ILLEGAL BYTE in line %ld]"), (long)illegal_byte); c = TRUE; } else #endif if (error) { STRCAT(IObuff, _("[READ ERRORS]")); c = TRUE; } if (msg_add_fileformat(fileformat)) c = TRUE; #ifdef FEAT_CRYPT if (cryptkey != NULL) msg_add_lines(c, (long)linecnt, filesize - crypt_get_header_len(crypt_get_method_nr(curbuf))); else #endif msg_add_lines(c, (long)linecnt, filesize); vim_free(keep_msg); keep_msg = NULL; msg_scrolled_ign = TRUE; #ifdef ALWAYS_USE_GUI /* Don't show the message when reading stdin, it would end up in a * message box (which might be shown when exiting!) */ if (read_stdin || read_buffer) p = msg_may_trunc(FALSE, IObuff); else #endif p = msg_trunc_attr(IObuff, FALSE, 0); if (read_stdin || read_buffer || restart_edit != 0 || (msg_scrolled != 0 && !need_wait_return)) /* Need to repeat the message after redrawing when: * - When reading from stdin (the screen will be cleared next). * - When restart_edit is set (otherwise there will be a delay * before redrawing). * - When the screen was scrolled but there is no wait-return * prompt. */ set_keep_msg(p, 0); msg_scrolled_ign = FALSE; } /* with errors writing the file requires ":w!" */ if (newfile && (error #ifdef FEAT_MBYTE || conv_error != 0 || (illegal_byte > 0 && bad_char_behavior != BAD_KEEP) #endif )) curbuf->b_p_ro = TRUE; u_clearline(); /* cannot use "U" command after adding lines */ /* * In Ex mode: cursor at last new line. * Otherwise: cursor at first new line. */ if (exmode_active) curwin->w_cursor.lnum = from + linecnt; else curwin->w_cursor.lnum = from + 1; check_cursor_lnum(); beginline(BL_WHITE | BL_FIX); /* on first non-blank */ /* * Set '[ and '] marks to the newly read lines. */ curbuf->b_op_start.lnum = from + 1; curbuf->b_op_start.col = 0; curbuf->b_op_end.lnum = from + linecnt; curbuf->b_op_end.col = 0; #ifdef WIN32 /* * Work around a weird problem: When a file has two links (only * possible on NTFS) and we write through one link, then stat() it * through the other link, the timestamp information may be wrong. * It's correct again after reading the file, thus reset the timestamp * here. */ if (newfile && !read_stdin && !read_buffer && mch_stat((char *)fname, &st) >= 0) { buf_store_time(curbuf, &st, fname); curbuf->b_mtime_read = curbuf->b_mtime; } #endif } msg_scroll = msg_save; #ifdef FEAT_VIMINFO /* * Get the marks before executing autocommands, so they can be used there. */ check_marks_read(); #endif /* * We remember if the last line of the read didn't have * an eol even when 'binary' is off, to support turning 'fixeol' off, * or writing the read again with 'binary' on. The latter is required * for ":autocmd FileReadPost *.gz set bin|'[,']!gunzip" to work. */ curbuf->b_no_eol_lnum = read_no_eol_lnum; /* When reloading a buffer put the cursor at the first line that is * different. */ if (flags & READ_KEEP_UNDO) u_find_first_changed(); #ifdef FEAT_PERSISTENT_UNDO /* * When opening a new file locate undo info and read it. */ if (read_undo_file) { char_u hash[UNDO_HASH_SIZE]; sha256_finish(&sha_ctx, hash); u_read_undo(NULL, hash, fname); } #endif #ifdef FEAT_AUTOCMD if (!read_stdin && !read_buffer) { int m = msg_scroll; int n = msg_scrolled; /* Save the fileformat now, otherwise the buffer will be considered * modified if the format/encoding was automatically detected. */ if (set_options) save_file_ff(curbuf); /* * The output from the autocommands should not overwrite anything and * should not be overwritten: Set msg_scroll, restore its value if no * output was done. */ msg_scroll = TRUE; if (filtering) apply_autocmds_exarg(EVENT_FILTERREADPOST, NULL, sfname, FALSE, curbuf, eap); else if (newfile) apply_autocmds_exarg(EVENT_BUFREADPOST, NULL, sfname, FALSE, curbuf, eap); else apply_autocmds_exarg(EVENT_FILEREADPOST, sfname, sfname, FALSE, NULL, eap); if (msg_scrolled == n) msg_scroll = m; # ifdef FEAT_EVAL if (aborting()) /* autocmds may abort script processing */ return FAIL; # endif } #endif if (recoverymode && error) return FAIL; return OK; } #ifdef OPEN_CHR_FILES /* * Returns TRUE if the file name argument is of the form "/dev/fd/\d\+", * which is the name of files used for process substitution output by * some shells on some operating systems, e.g., bash on SunOS. * Do not accept "/dev/fd/[012]", opening these may hang Vim. */ static int is_dev_fd_file(fname) char_u *fname; { return (STRNCMP(fname, "/dev/fd/", 8) == 0 && VIM_ISDIGIT(fname[8]) && *skipdigits(fname + 9) == NUL && (fname[9] != NUL || (fname[8] != '0' && fname[8] != '1' && fname[8] != '2'))); } #endif #ifdef FEAT_MBYTE /* * From the current line count and characters read after that, estimate the * line number where we are now. * Used for error messages that include a line number. */ static linenr_T readfile_linenr(linecnt, p, endp) linenr_T linecnt; /* line count before reading more bytes */ char_u *p; /* start of more bytes read */ char_u *endp; /* end of more bytes read */ { char_u *s; linenr_T lnum; lnum = curbuf->b_ml.ml_line_count - linecnt + 1; for (s = p; s < endp; ++s) if (*s == '\n') ++lnum; return lnum; } #endif /* * Fill "*eap" to force the 'fileencoding', 'fileformat' and 'binary to be * equal to the buffer "buf". Used for calling readfile(). * Returns OK or FAIL. */ int prep_exarg(eap, buf) exarg_T *eap; buf_T *buf; { eap->cmd = alloc((unsigned)(STRLEN(buf->b_p_ff) #ifdef FEAT_MBYTE + STRLEN(buf->b_p_fenc) #endif + 15)); if (eap->cmd == NULL) return FAIL; #ifdef FEAT_MBYTE sprintf((char *)eap->cmd, "e ++ff=%s ++enc=%s", buf->b_p_ff, buf->b_p_fenc); eap->force_enc = 14 + (int)STRLEN(buf->b_p_ff); eap->bad_char = buf->b_bad_char; #else sprintf((char *)eap->cmd, "e ++ff=%s", buf->b_p_ff); #endif eap->force_ff = 7; eap->force_bin = buf->b_p_bin ? FORCE_BIN : FORCE_NOBIN; eap->read_edit = FALSE; eap->forceit = FALSE; return OK; } /* * Set default or forced 'fileformat' and 'binary'. */ void set_file_options(set_options, eap) int set_options; exarg_T *eap; { /* set default 'fileformat' */ if (set_options) { if (eap != NULL && eap->force_ff != 0) set_fileformat(get_fileformat_force(curbuf, eap), OPT_LOCAL); else if (*p_ffs != NUL) set_fileformat(default_fileformat(), OPT_LOCAL); } /* set or reset 'binary' */ if (eap != NULL && eap->force_bin != 0) { int oldval = curbuf->b_p_bin; curbuf->b_p_bin = (eap->force_bin == FORCE_BIN); set_options_bin(oldval, curbuf->b_p_bin, OPT_LOCAL); } } #if defined(FEAT_MBYTE) || defined(PROTO) /* * Set forced 'fileencoding'. */ void set_forced_fenc(eap) exarg_T *eap; { if (eap->force_enc != 0) { char_u *fenc = enc_canonize(eap->cmd + eap->force_enc); if (fenc != NULL) set_string_option_direct((char_u *)"fenc", -1, fenc, OPT_FREE|OPT_LOCAL, 0); vim_free(fenc); } } /* * Find next fileencoding to use from 'fileencodings'. * "pp" points to fenc_next. It's advanced to the next item. * When there are no more items, an empty string is returned and *pp is set to * NULL. * When *pp is not set to NULL, the result is in allocated memory. */ static char_u * next_fenc(pp) char_u **pp; { char_u *p; char_u *r; if (**pp == NUL) { *pp = NULL; return (char_u *)""; } p = vim_strchr(*pp, ','); if (p == NULL) { r = enc_canonize(*pp); *pp += STRLEN(*pp); } else { r = vim_strnsave(*pp, (int)(p - *pp)); *pp = p + 1; if (r != NULL) { p = enc_canonize(r); vim_free(r); r = p; } } if (r == NULL) /* out of memory */ { r = (char_u *)""; *pp = NULL; } return r; } # ifdef FEAT_EVAL /* * Convert a file with the 'charconvert' expression. * This closes the file which is to be read, converts it and opens the * resulting file for reading. * Returns name of the resulting converted file (the caller should delete it * after reading it). * Returns NULL if the conversion failed ("*fdp" is not set) . */ static char_u * readfile_charconvert(fname, fenc, fdp) char_u *fname; /* name of input file */ char_u *fenc; /* converted from */ int *fdp; /* in/out: file descriptor of file */ { char_u *tmpname; char_u *errmsg = NULL; tmpname = vim_tempname('r', FALSE); if (tmpname == NULL) errmsg = (char_u *)_("Can't find temp file for conversion"); else { close(*fdp); /* close the input file, ignore errors */ *fdp = -1; if (eval_charconvert(fenc, enc_utf8 ? (char_u *)"utf-8" : p_enc, fname, tmpname) == FAIL) errmsg = (char_u *)_("Conversion with 'charconvert' failed"); if (errmsg == NULL && (*fdp = mch_open((char *)tmpname, O_RDONLY | O_EXTRA, 0)) < 0) errmsg = (char_u *)_("can't read output of 'charconvert'"); } if (errmsg != NULL) { /* Don't use emsg(), it breaks mappings, the retry with * another type of conversion might still work. */ MSG(errmsg); if (tmpname != NULL) { mch_remove(tmpname); /* delete converted file */ vim_free(tmpname); tmpname = NULL; } } /* If the input file is closed, open it (caller should check for error). */ if (*fdp < 0) *fdp = mch_open((char *)fname, O_RDONLY | O_EXTRA, 0); return tmpname; } # endif #endif #ifdef FEAT_VIMINFO /* * Read marks for the current buffer from the viminfo file, when we support * buffer marks and the buffer has a name. */ static void check_marks_read() { if (!curbuf->b_marks_read && get_viminfo_parameter('\'') > 0 && curbuf->b_ffname != NULL) read_viminfo(NULL, VIF_WANT_MARKS); /* Always set b_marks_read; needed when 'viminfo' is changed to include * the ' parameter after opening a buffer. */ curbuf->b_marks_read = TRUE; } #endif #if defined(FEAT_CRYPT) || defined(PROTO) /* * Check for magic number used for encryption. Applies to the current buffer. * If found, the magic number is removed from ptr[*sizep] and *sizep and * *filesizep are updated. * Return the (new) encryption key, NULL for no encryption. */ static char_u * check_for_cryptkey(cryptkey, ptr, sizep, filesizep, newfile, fname, did_ask) char_u *cryptkey; /* previous encryption key or NULL */ char_u *ptr; /* pointer to read bytes */ long *sizep; /* length of read bytes */ off_t *filesizep; /* nr of bytes used from file */ int newfile; /* editing a new buffer */ char_u *fname; /* file name to display */ int *did_ask; /* flag: whether already asked for key */ { int method = crypt_method_nr_from_magic((char *)ptr, *sizep); int b_p_ro = curbuf->b_p_ro; if (method >= 0) { /* Mark the buffer as read-only until the decryption has taken place. * Avoids accidentally overwriting the file with garbage. */ curbuf->b_p_ro = TRUE; /* Set the cryptmethod local to the buffer. */ crypt_set_cm_option(curbuf, method); if (cryptkey == NULL && !*did_ask) { if (*curbuf->b_p_key) cryptkey = curbuf->b_p_key; else { /* When newfile is TRUE, store the typed key in the 'key' * option and don't free it. bf needs hash of the key saved. * Don't ask for the key again when first time Enter was hit. * Happens when retrying to detect encoding. */ smsg((char_u *)_(need_key_msg), fname); msg_scroll = TRUE; crypt_check_method(method); cryptkey = crypt_get_key(newfile, FALSE); *did_ask = TRUE; /* check if empty key entered */ if (cryptkey != NULL && *cryptkey == NUL) { if (cryptkey != curbuf->b_p_key) vim_free(cryptkey); cryptkey = NULL; } } } if (cryptkey != NULL) { int header_len; curbuf->b_cryptstate = crypt_create_from_header( method, cryptkey, ptr); crypt_set_cm_option(curbuf, method); /* Remove cryptmethod specific header from the text. */ header_len = crypt_get_header_len(method); *filesizep += header_len; *sizep -= header_len; mch_memmove(ptr, ptr + header_len, (size_t)*sizep); /* Restore the read-only flag. */ curbuf->b_p_ro = b_p_ro; } } /* When starting to edit a new file which does not have encryption, clear * the 'key' option, except when starting up (called with -x argument) */ else if (newfile && *curbuf->b_p_key != NUL && !starting) set_option_value((char_u *)"key", 0L, (char_u *)"", OPT_LOCAL); return cryptkey; } #endif /* FEAT_CRYPT */ #ifdef UNIX static void set_file_time(fname, atime, mtime) char_u *fname; time_t atime; /* access time */ time_t mtime; /* modification time */ { # if defined(HAVE_UTIME) && defined(HAVE_UTIME_H) struct utimbuf buf; buf.actime = atime; buf.modtime = mtime; (void)utime((char *)fname, &buf); # else # if defined(HAVE_UTIMES) struct timeval tvp[2]; tvp[0].tv_sec = atime; tvp[0].tv_usec = 0; tvp[1].tv_sec = mtime; tvp[1].tv_usec = 0; # ifdef NeXT (void)utimes((char *)fname, tvp); # else (void)utimes((char *)fname, (const struct timeval *)&tvp); # endif # endif # endif } #endif /* UNIX */ #if defined(VMS) && !defined(MIN) /* Older DECC compiler for VAX doesn't define MIN() */ # define MIN(a, b) ((a) < (b) ? (a) : (b)) #endif /* * Return TRUE if a file appears to be read-only from the file permissions. */ int check_file_readonly(fname, perm) char_u *fname; /* full path to file */ int perm; /* known permissions on file */ { #ifndef USE_MCH_ACCESS int fd = 0; #endif return ( #ifdef USE_MCH_ACCESS # ifdef UNIX (perm & 0222) == 0 || # endif mch_access((char *)fname, W_OK) #else (fd = mch_open((char *)fname, O_RDWR | O_EXTRA, 0)) < 0 ? TRUE : (close(fd), FALSE) #endif ); } /* * buf_write() - write to file "fname" lines "start" through "end" * * We do our own buffering here because fwrite() is so slow. * * If "forceit" is true, we don't care for errors when attempting backups. * In case of an error everything possible is done to restore the original * file. But when "forceit" is TRUE, we risk losing it. * * When "reset_changed" is TRUE and "append" == FALSE and "start" == 1 and * "end" == curbuf->b_ml.ml_line_count, reset curbuf->b_changed. * * This function must NOT use NameBuff (because it's called by autowrite()). * * return FAIL for failure, OK otherwise */ int buf_write(buf, fname, sfname, start, end, eap, append, forceit, reset_changed, filtering) buf_T *buf; char_u *fname; char_u *sfname; linenr_T start, end; exarg_T *eap; /* for forced 'ff' and 'fenc', can be NULL! */ int append; /* append to the file */ int forceit; int reset_changed; int filtering; { int fd; char_u *backup = NULL; int backup_copy = FALSE; /* copy the original file? */ int dobackup; char_u *ffname; char_u *wfname = NULL; /* name of file to write to */ char_u *s; char_u *ptr; char_u c; int len; linenr_T lnum; long nchars; char_u *errmsg = NULL; int errmsg_allocated = FALSE; char_u *errnum = NULL; char_u *buffer; char_u smallbuf[SMBUFSIZE]; char_u *backup_ext; int bufsize; long perm; /* file permissions */ int retval = OK; int newfile = FALSE; /* TRUE if file doesn't exist yet */ int msg_save = msg_scroll; int overwriting; /* TRUE if writing over original */ int no_eol = FALSE; /* no end-of-line written */ int device = FALSE; /* writing to a device */ struct stat st_old; int prev_got_int = got_int; int file_readonly = FALSE; /* overwritten file is read-only */ static char *err_readonly = "is read-only (cannot override: \"W\" in 'cpoptions')"; #if defined(UNIX) || defined(__EMX__XX) /*XXX fix me sometime? */ int made_writable = FALSE; /* 'w' bit has been set */ #endif /* writing everything */ int whole = (start == 1 && end == buf->b_ml.ml_line_count); #ifdef FEAT_AUTOCMD linenr_T old_line_count = buf->b_ml.ml_line_count; #endif int attr; int fileformat; int write_bin; struct bw_info write_info; /* info for buf_write_bytes() */ #ifdef FEAT_MBYTE int converted = FALSE; int notconverted = FALSE; char_u *fenc; /* effective 'fileencoding' */ char_u *fenc_tofree = NULL; /* allocated "fenc" */ #endif #ifdef HAS_BW_FLAGS int wb_flags = 0; #endif #ifdef HAVE_ACL vim_acl_T acl = NULL; /* ACL copied from original file to backup or new file */ #endif #ifdef FEAT_PERSISTENT_UNDO int write_undo_file = FALSE; context_sha256_T sha_ctx; #endif unsigned int bkc = get_bkc_value(buf); if (fname == NULL || *fname == NUL) /* safety check */ return FAIL; if (buf->b_ml.ml_mfp == NULL) { /* This can happen during startup when there is a stray "w" in the * vimrc file. */ EMSG(_(e_emptybuf)); return FAIL; } /* * Disallow writing from .exrc and .vimrc in current directory for * security reasons. */ if (check_secure()) return FAIL; /* Avoid a crash for a long name. */ if (STRLEN(fname) >= MAXPATHL) { EMSG(_(e_longname)); return FAIL; } #ifdef FEAT_MBYTE /* must init bw_conv_buf and bw_iconv_fd before jumping to "fail" */ write_info.bw_conv_buf = NULL; write_info.bw_conv_error = FALSE; write_info.bw_conv_error_lnum = 0; write_info.bw_restlen = 0; # ifdef USE_ICONV write_info.bw_iconv_fd = (iconv_t)-1; # endif #endif #ifdef FEAT_CRYPT write_info.bw_buffer = buf; #endif /* After writing a file changedtick changes but we don't want to display * the line. */ ex_no_reprint = TRUE; /* * If there is no file name yet, use the one for the written file. * BF_NOTEDITED is set to reflect this (in case the write fails). * Don't do this when the write is for a filter command. * Don't do this when appending. * Only do this when 'cpoptions' contains the 'F' flag. */ if (buf->b_ffname == NULL && reset_changed && whole && buf == curbuf #ifdef FEAT_QUICKFIX && !bt_nofile(buf) #endif && !filtering && (!append || vim_strchr(p_cpo, CPO_FNAMEAPP) != NULL) && vim_strchr(p_cpo, CPO_FNAMEW) != NULL) { if (set_rw_fname(fname, sfname) == FAIL) return FAIL; buf = curbuf; /* just in case autocmds made "buf" invalid */ } if (sfname == NULL) sfname = fname; /* * For Unix: Use the short file name whenever possible. * Avoids problems with networks and when directory names are changed. * Don't do this for MS-DOS, a "cd" in a sub-shell may have moved us to * another directory, which we don't detect */ ffname = fname; /* remember full fname */ #ifdef UNIX fname = sfname; #endif if (buf->b_ffname != NULL && fnamecmp(ffname, buf->b_ffname) == 0) overwriting = TRUE; else overwriting = FALSE; if (exiting) settmode(TMODE_COOK); /* when exiting allow typeahead now */ ++no_wait_return; /* don't wait for return yet */ /* * Set '[ and '] marks to the lines to be written. */ buf->b_op_start.lnum = start; buf->b_op_start.col = 0; buf->b_op_end.lnum = end; buf->b_op_end.col = 0; #ifdef FEAT_AUTOCMD { aco_save_T aco; int buf_ffname = FALSE; int buf_sfname = FALSE; int buf_fname_f = FALSE; int buf_fname_s = FALSE; int did_cmd = FALSE; int nofile_err = FALSE; int empty_memline = (buf->b_ml.ml_mfp == NULL); /* * Apply PRE autocommands. * Set curbuf to the buffer to be written. * Careful: The autocommands may call buf_write() recursively! */ if (ffname == buf->b_ffname) buf_ffname = TRUE; if (sfname == buf->b_sfname) buf_sfname = TRUE; if (fname == buf->b_ffname) buf_fname_f = TRUE; if (fname == buf->b_sfname) buf_fname_s = TRUE; /* set curwin/curbuf to buf and save a few things */ aucmd_prepbuf(&aco, buf); if (append) { if (!(did_cmd = apply_autocmds_exarg(EVENT_FILEAPPENDCMD, sfname, sfname, FALSE, curbuf, eap))) { #ifdef FEAT_QUICKFIX if (overwriting && bt_nofile(curbuf)) nofile_err = TRUE; else #endif apply_autocmds_exarg(EVENT_FILEAPPENDPRE, sfname, sfname, FALSE, curbuf, eap); } } else if (filtering) { apply_autocmds_exarg(EVENT_FILTERWRITEPRE, NULL, sfname, FALSE, curbuf, eap); } else if (reset_changed && whole) { int was_changed = curbufIsChanged(); did_cmd = apply_autocmds_exarg(EVENT_BUFWRITECMD, sfname, sfname, FALSE, curbuf, eap); if (did_cmd) { if (was_changed && !curbufIsChanged()) { /* Written everything correctly and BufWriteCmd has reset * 'modified': Correct the undo information so that an * undo now sets 'modified'. */ u_unchanged(curbuf); u_update_save_nr(curbuf); } } else { #ifdef FEAT_QUICKFIX if (overwriting && bt_nofile(curbuf)) nofile_err = TRUE; else #endif apply_autocmds_exarg(EVENT_BUFWRITEPRE, sfname, sfname, FALSE, curbuf, eap); } } else { if (!(did_cmd = apply_autocmds_exarg(EVENT_FILEWRITECMD, sfname, sfname, FALSE, curbuf, eap))) { #ifdef FEAT_QUICKFIX if (overwriting && bt_nofile(curbuf)) nofile_err = TRUE; else #endif apply_autocmds_exarg(EVENT_FILEWRITEPRE, sfname, sfname, FALSE, curbuf, eap); } } /* restore curwin/curbuf and a few other things */ aucmd_restbuf(&aco); /* * In three situations we return here and don't write the file: * 1. the autocommands deleted or unloaded the buffer. * 2. The autocommands abort script processing. * 3. If one of the "Cmd" autocommands was executed. */ if (!buf_valid(buf)) buf = NULL; if (buf == NULL || (buf->b_ml.ml_mfp == NULL && !empty_memline) || did_cmd || nofile_err #ifdef FEAT_EVAL || aborting() #endif ) { --no_wait_return; msg_scroll = msg_save; if (nofile_err) EMSG(_("E676: No matching autocommands for acwrite buffer")); if (nofile_err #ifdef FEAT_EVAL || aborting() #endif ) /* An aborting error, interrupt or exception in the * autocommands. */ return FAIL; if (did_cmd) { if (buf == NULL) /* The buffer was deleted. We assume it was written * (can't retry anyway). */ return OK; if (overwriting) { /* Assume the buffer was written, update the timestamp. */ ml_timestamp(buf); if (append) buf->b_flags &= ~BF_NEW; else buf->b_flags &= ~BF_WRITE_MASK; } if (reset_changed && buf->b_changed && !append && (overwriting || vim_strchr(p_cpo, CPO_PLUS) != NULL)) /* Buffer still changed, the autocommands didn't work * properly. */ return FAIL; return OK; } #ifdef FEAT_EVAL if (!aborting()) #endif EMSG(_("E203: Autocommands deleted or unloaded buffer to be written")); return FAIL; } /* * The autocommands may have changed the number of lines in the file. * When writing the whole file, adjust the end. * When writing part of the file, assume that the autocommands only * changed the number of lines that are to be written (tricky!). */ if (buf->b_ml.ml_line_count != old_line_count) { if (whole) /* write all */ end = buf->b_ml.ml_line_count; else if (buf->b_ml.ml_line_count > old_line_count) /* more lines */ end += buf->b_ml.ml_line_count - old_line_count; else /* less lines */ { end -= old_line_count - buf->b_ml.ml_line_count; if (end < start) { --no_wait_return; msg_scroll = msg_save; EMSG(_("E204: Autocommand changed number of lines in unexpected way")); return FAIL; } } } /* * The autocommands may have changed the name of the buffer, which may * be kept in fname, ffname and sfname. */ if (buf_ffname) ffname = buf->b_ffname; if (buf_sfname) sfname = buf->b_sfname; if (buf_fname_f) fname = buf->b_ffname; if (buf_fname_s) fname = buf->b_sfname; } #endif #ifdef FEAT_NETBEANS_INTG if (netbeans_active() && isNetbeansBuffer(buf)) { if (whole) { /* * b_changed can be 0 after an undo, but we still need to write * the buffer to NetBeans. */ if (buf->b_changed || isNetbeansModified(buf)) { --no_wait_return; /* may wait for return now */ msg_scroll = msg_save; netbeans_save_buffer(buf); /* no error checking... */ return retval; } else { errnum = (char_u *)"E656: "; errmsg = (char_u *)_("NetBeans disallows writes of unmodified buffers"); buffer = NULL; goto fail; } } else { errnum = (char_u *)"E657: "; errmsg = (char_u *)_("Partial writes disallowed for NetBeans buffers"); buffer = NULL; goto fail; } } #endif if (shortmess(SHM_OVER) && !exiting) msg_scroll = FALSE; /* overwrite previous file message */ else msg_scroll = TRUE; /* don't overwrite previous file message */ if (!filtering) filemess(buf, #ifndef UNIX sfname, #else fname, #endif (char_u *)"", 0); /* show that we are busy */ msg_scroll = FALSE; /* always overwrite the file message now */ buffer = alloc(BUFSIZE); if (buffer == NULL) /* can't allocate big buffer, use small * one (to be able to write when out of * memory) */ { buffer = smallbuf; bufsize = SMBUFSIZE; } else bufsize = BUFSIZE; /* * Get information about original file (if there is one). */ #if defined(UNIX) st_old.st_dev = 0; st_old.st_ino = 0; perm = -1; if (mch_stat((char *)fname, &st_old) < 0) newfile = TRUE; else { perm = st_old.st_mode; if (!S_ISREG(st_old.st_mode)) /* not a file */ { if (S_ISDIR(st_old.st_mode)) { errnum = (char_u *)"E502: "; errmsg = (char_u *)_("is a directory"); goto fail; } if (mch_nodetype(fname) != NODE_WRITABLE) { errnum = (char_u *)"E503: "; errmsg = (char_u *)_("is not a file or writable device"); goto fail; } /* It's a device of some kind (or a fifo) which we can write to * but for which we can't make a backup. */ device = TRUE; newfile = TRUE; perm = -1; } } #else /* !UNIX */ /* * Check for a writable device name. */ c = mch_nodetype(fname); if (c == NODE_OTHER) { errnum = (char_u *)"E503: "; errmsg = (char_u *)_("is not a file or writable device"); goto fail; } if (c == NODE_WRITABLE) { # if defined(MSDOS) || defined(MSWIN) /* MS-Windows allows opening a device, but we will probably get stuck * trying to write to it. */ if (!p_odev) { errnum = (char_u *)"E796: "; errmsg = (char_u *)_("writing to device disabled with 'opendevice' option"); goto fail; } # endif device = TRUE; newfile = TRUE; perm = -1; } else { perm = mch_getperm(fname); if (perm < 0) newfile = TRUE; else if (mch_isdir(fname)) { errnum = (char_u *)"E502: "; errmsg = (char_u *)_("is a directory"); goto fail; } if (overwriting) (void)mch_stat((char *)fname, &st_old); } #endif /* !UNIX */ if (!device && !newfile) { /* * Check if the file is really writable (when renaming the file to * make a backup we won't discover it later). */ file_readonly = check_file_readonly(fname, (int)perm); if (!forceit && file_readonly) { if (vim_strchr(p_cpo, CPO_FWRITE) != NULL) { errnum = (char_u *)"E504: "; errmsg = (char_u *)_(err_readonly); } else { errnum = (char_u *)"E505: "; errmsg = (char_u *)_("is read-only (add ! to override)"); } goto fail; } /* * Check if the timestamp hasn't changed since reading the file. */ if (overwriting) { retval = check_mtime(buf, &st_old); if (retval == FAIL) goto fail; } } #ifdef HAVE_ACL /* * For systems that support ACL: get the ACL from the original file. */ if (!newfile) acl = mch_get_acl(fname); #endif /* * If 'backupskip' is not empty, don't make a backup for some files. */ dobackup = (p_wb || p_bk || *p_pm != NUL); #ifdef FEAT_WILDIGN if (dobackup && *p_bsk != NUL && match_file_list(p_bsk, sfname, ffname)) dobackup = FALSE; #endif /* * Save the value of got_int and reset it. We don't want a previous * interruption cancel writing, only hitting CTRL-C while writing should * abort it. */ prev_got_int = got_int; got_int = FALSE; /* Mark the buffer as 'being saved' to prevent changed buffer warnings */ buf->b_saving = TRUE; /* * If we are not appending or filtering, the file exists, and the * 'writebackup', 'backup' or 'patchmode' option is set, need a backup. * When 'patchmode' is set also make a backup when appending. * * Do not make any backup, if 'writebackup' and 'backup' are both switched * off. This helps when editing large files on almost-full disks. */ if (!(append && *p_pm == NUL) && !filtering && perm >= 0 && dobackup) { #if defined(UNIX) || defined(WIN32) struct stat st; #endif if ((bkc & BKC_YES) || append) /* "yes" */ backup_copy = TRUE; #if defined(UNIX) || defined(WIN32) else if ((bkc & BKC_AUTO)) /* "auto" */ { int i; # ifdef UNIX /* * Don't rename the file when: * - it's a hard link * - it's a symbolic link * - we don't have write permission in the directory * - we can't set the owner/group of the new file */ if (st_old.st_nlink > 1 || mch_lstat((char *)fname, &st) < 0 || st.st_dev != st_old.st_dev || st.st_ino != st_old.st_ino # ifndef HAVE_FCHOWN || st.st_uid != st_old.st_uid || st.st_gid != st_old.st_gid # endif ) backup_copy = TRUE; else # else # ifdef WIN32 /* On NTFS file systems hard links are possible. */ if (mch_is_linked(fname)) backup_copy = TRUE; else # endif # endif { /* * Check if we can create a file and set the owner/group to * the ones from the original file. * First find a file name that doesn't exist yet (use some * arbitrary numbers). */ STRCPY(IObuff, fname); for (i = 4913; ; i += 123) { sprintf((char *)gettail(IObuff), "%d", i); if (mch_lstat((char *)IObuff, &st) < 0) break; } fd = mch_open((char *)IObuff, O_CREAT|O_WRONLY|O_EXCL|O_NOFOLLOW, perm); if (fd < 0) /* can't write in directory */ backup_copy = TRUE; else { # ifdef UNIX # ifdef HAVE_FCHOWN ignored = fchown(fd, st_old.st_uid, st_old.st_gid); # endif if (mch_stat((char *)IObuff, &st) < 0 || st.st_uid != st_old.st_uid || st.st_gid != st_old.st_gid || (long)st.st_mode != perm) backup_copy = TRUE; # endif /* Close the file before removing it, on MS-Windows we * can't delete an open file. */ close(fd); mch_remove(IObuff); # ifdef MSWIN /* MS-Windows may trigger a virus scanner to open the * file, we can't delete it then. Keep trying for half a * second. */ { int try; for (try = 0; try < 10; ++try) { if (mch_lstat((char *)IObuff, &st) < 0) break; ui_delay(50L, TRUE); /* wait 50 msec */ mch_remove(IObuff); } } # endif } } } /* * Break symlinks and/or hardlinks if we've been asked to. */ if ((bkc & BKC_BREAKSYMLINK) || (bkc & BKC_BREAKHARDLINK)) { # ifdef UNIX int lstat_res; lstat_res = mch_lstat((char *)fname, &st); /* Symlinks. */ if ((bkc & BKC_BREAKSYMLINK) && lstat_res == 0 && st.st_ino != st_old.st_ino) backup_copy = FALSE; /* Hardlinks. */ if ((bkc & BKC_BREAKHARDLINK) && st_old.st_nlink > 1 && (lstat_res != 0 || st.st_ino == st_old.st_ino)) backup_copy = FALSE; # else # if defined(WIN32) /* Symlinks. */ if ((bkc & BKC_BREAKSYMLINK) && mch_is_symbolic_link(fname)) backup_copy = FALSE; /* Hardlinks. */ if ((bkc & BKC_BREAKHARDLINK) && mch_is_hard_link(fname)) backup_copy = FALSE; # endif # endif } #endif /* make sure we have a valid backup extension to use */ if (*p_bex == NUL) backup_ext = (char_u *)".bak"; else backup_ext = p_bex; if (backup_copy && (fd = mch_open((char *)fname, O_RDONLY | O_EXTRA, 0)) >= 0) { int bfd; char_u *copybuf, *wp; int some_error = FALSE; struct stat st_new; char_u *dirp; char_u *rootname; #if defined(UNIX) && !defined(SHORT_FNAME) int did_set_shortname; #endif copybuf = alloc(BUFSIZE + 1); if (copybuf == NULL) { some_error = TRUE; /* out of memory */ goto nobackup; } /* * Try to make the backup in each directory in the 'bdir' option. * * Unix semantics has it, that we may have a writable file, * that cannot be recreated with a simple open(..., O_CREAT, ) e.g: * - the directory is not writable, * - the file may be a symbolic link, * - the file may belong to another user/group, etc. * * For these reasons, the existing writable file must be truncated * and reused. Creation of a backup COPY will be attempted. */ dirp = p_bdir; while (*dirp) { #ifdef UNIX st_new.st_ino = 0; st_new.st_dev = 0; st_new.st_gid = 0; #endif /* * Isolate one directory name, using an entry in 'bdir'. */ (void)copy_option_part(&dirp, copybuf, BUFSIZE, ","); rootname = get_file_in_dir(fname, copybuf); if (rootname == NULL) { some_error = TRUE; /* out of memory */ goto nobackup; } #if defined(UNIX) && !defined(SHORT_FNAME) did_set_shortname = FALSE; #endif /* * May try twice if 'shortname' not set. */ for (;;) { /* * Make backup file name. */ backup = buf_modname( #ifdef SHORT_FNAME TRUE, #else (buf->b_p_sn || buf->b_shortname), #endif rootname, backup_ext, FALSE); if (backup == NULL) { vim_free(rootname); some_error = TRUE; /* out of memory */ goto nobackup; } /* * Check if backup file already exists. */ if (mch_stat((char *)backup, &st_new) >= 0) { #ifdef UNIX /* * Check if backup file is same as original file. * May happen when modname() gave the same file back. * E.g. silly link, or file name-length reached. * If we don't check here, we either ruin the file * when copying or erase it after writing. jw. */ if (st_new.st_dev == st_old.st_dev && st_new.st_ino == st_old.st_ino) { vim_free(backup); backup = NULL; /* no backup file to delete */ # ifndef SHORT_FNAME /* * may try again with 'shortname' set */ if (!(buf->b_shortname || buf->b_p_sn)) { buf->b_shortname = TRUE; did_set_shortname = TRUE; continue; } /* setting shortname didn't help */ if (did_set_shortname) buf->b_shortname = FALSE; # endif break; } #endif /* * If we are not going to keep the backup file, don't * delete an existing one, try to use another name. * Change one character, just before the extension. */ if (!p_bk) { wp = backup + STRLEN(backup) - 1 - STRLEN(backup_ext); if (wp < backup) /* empty file name ??? */ wp = backup; *wp = 'z'; while (*wp > 'a' && mch_stat((char *)backup, &st_new) >= 0) --*wp; /* They all exist??? Must be something wrong. */ if (*wp == 'a') { vim_free(backup); backup = NULL; } } } break; } vim_free(rootname); /* * Try to create the backup file */ if (backup != NULL) { /* remove old backup, if present */ mch_remove(backup); /* Open with O_EXCL to avoid the file being created while * we were sleeping (symlink hacker attack?) */ bfd = mch_open((char *)backup, O_WRONLY|O_CREAT|O_EXTRA|O_EXCL|O_NOFOLLOW, perm & 0777); if (bfd < 0) { vim_free(backup); backup = NULL; } else { /* set file protection same as original file, but * strip s-bit */ (void)mch_setperm(backup, perm & 0777); #ifdef UNIX /* * Try to set the group of the backup same as the * original file. If this fails, set the protection * bits for the group same as the protection bits for * others. */ if (st_new.st_gid != st_old.st_gid # ifdef HAVE_FCHOWN /* sequent-ptx lacks fchown() */ && fchown(bfd, (uid_t)-1, st_old.st_gid) != 0 # endif ) mch_setperm(backup, (perm & 0707) | ((perm & 07) << 3)); # if defined(HAVE_SELINUX) || defined(HAVE_SMACK) mch_copy_sec(fname, backup); # endif #endif /* * copy the file. */ write_info.bw_fd = bfd; write_info.bw_buf = copybuf; #ifdef HAS_BW_FLAGS write_info.bw_flags = FIO_NOCONVERT; #endif while ((write_info.bw_len = read_eintr(fd, copybuf, BUFSIZE)) > 0) { if (buf_write_bytes(&write_info) == FAIL) { errmsg = (char_u *)_("E506: Can't write to backup file (add ! to override)"); break; } ui_breakcheck(); if (got_int) { errmsg = (char_u *)_(e_interr); break; } } if (close(bfd) < 0 && errmsg == NULL) errmsg = (char_u *)_("E507: Close error for backup file (add ! to override)"); if (write_info.bw_len < 0) errmsg = (char_u *)_("E508: Can't read file for backup (add ! to override)"); #ifdef UNIX set_file_time(backup, st_old.st_atime, st_old.st_mtime); #endif #ifdef HAVE_ACL mch_set_acl(backup, acl); #endif #if defined(HAVE_SELINUX) || defined(HAVE_SMACK) mch_copy_sec(fname, backup); #endif break; } } } nobackup: close(fd); /* ignore errors for closing read file */ vim_free(copybuf); if (backup == NULL && errmsg == NULL) errmsg = (char_u *)_("E509: Cannot create backup file (add ! to override)"); /* ignore errors when forceit is TRUE */ if ((some_error || errmsg != NULL) && !forceit) { retval = FAIL; goto fail; } errmsg = NULL; } else { char_u *dirp; char_u *p; char_u *rootname; /* * Make a backup by renaming the original file. */ /* * If 'cpoptions' includes the "W" flag, we don't want to * overwrite a read-only file. But rename may be possible * anyway, thus we need an extra check here. */ if (file_readonly && vim_strchr(p_cpo, CPO_FWRITE) != NULL) { errnum = (char_u *)"E504: "; errmsg = (char_u *)_(err_readonly); goto fail; } /* * * Form the backup file name - change path/fo.o.h to * path/fo.o.h.bak Try all directories in 'backupdir', first one * that works is used. */ dirp = p_bdir; while (*dirp) { /* * Isolate one directory name and make the backup file name. */ (void)copy_option_part(&dirp, IObuff, IOSIZE, ","); rootname = get_file_in_dir(fname, IObuff); if (rootname == NULL) backup = NULL; else { backup = buf_modname( #ifdef SHORT_FNAME TRUE, #else (buf->b_p_sn || buf->b_shortname), #endif rootname, backup_ext, FALSE); vim_free(rootname); } if (backup != NULL) { /* * If we are not going to keep the backup file, don't * delete an existing one, try to use another name. * Change one character, just before the extension. */ if (!p_bk && mch_getperm(backup) >= 0) { p = backup + STRLEN(backup) - 1 - STRLEN(backup_ext); if (p < backup) /* empty file name ??? */ p = backup; *p = 'z'; while (*p > 'a' && mch_getperm(backup) >= 0) --*p; /* They all exist??? Must be something wrong! */ if (*p == 'a') { vim_free(backup); backup = NULL; } } } if (backup != NULL) { /* * Delete any existing backup and move the current version * to the backup. For safety, we don't remove the backup * until the write has finished successfully. And if the * 'backup' option is set, leave it around. */ /* * If the renaming of the original file to the backup file * works, quit here. */ if (vim_rename(fname, backup) == 0) break; vim_free(backup); /* don't do the rename below */ backup = NULL; } } if (backup == NULL && !forceit) { errmsg = (char_u *)_("E510: Can't make backup file (add ! to override)"); goto fail; } } } #if defined(UNIX) /* When using ":w!" and the file was read-only: make it writable */ if (forceit && perm >= 0 && !(perm & 0200) && st_old.st_uid == getuid() && vim_strchr(p_cpo, CPO_FWRITE) == NULL) { perm |= 0200; (void)mch_setperm(fname, perm); made_writable = TRUE; } #endif /* When using ":w!" and writing to the current file, 'readonly' makes no * sense, reset it, unless 'Z' appears in 'cpoptions'. */ if (forceit && overwriting && vim_strchr(p_cpo, CPO_KEEPRO) == NULL) { buf->b_p_ro = FALSE; #ifdef FEAT_TITLE need_maketitle = TRUE; /* set window title later */ #endif #ifdef FEAT_WINDOWS status_redraw_all(); /* redraw status lines later */ #endif } if (end > buf->b_ml.ml_line_count) end = buf->b_ml.ml_line_count; if (buf->b_ml.ml_flags & ML_EMPTY) start = end + 1; /* * If the original file is being overwritten, there is a small chance that * we crash in the middle of writing. Therefore the file is preserved now. * This makes all block numbers positive so that recovery does not need * the original file. * Don't do this if there is a backup file and we are exiting. */ if (reset_changed && !newfile && overwriting && !(exiting && backup != NULL)) { ml_preserve(buf, FALSE); if (got_int) { errmsg = (char_u *)_(e_interr); goto restore_backup; } } #ifdef MACOS_CLASSIC /* TODO: Is it need for MACOS_X? (Dany) */ /* * Before risking to lose the original file verify if there's * a resource fork to preserve, and if cannot be done warn * the users. This happens when overwriting without backups. */ if (backup == NULL && overwriting && !append) if (mch_has_resource_fork(fname)) { errmsg = (char_u *)_("E460: The resource fork would be lost (add ! to override)"); goto restore_backup; } #endif #ifdef VMS vms_remove_version(fname); /* remove version */ #endif /* Default: write the file directly. May write to a temp file for * multi-byte conversion. */ wfname = fname; #ifdef FEAT_MBYTE /* Check for forced 'fileencoding' from "++opt=val" argument. */ if (eap != NULL && eap->force_enc != 0) { fenc = eap->cmd + eap->force_enc; fenc = enc_canonize(fenc); fenc_tofree = fenc; } else fenc = buf->b_p_fenc; /* * Check if the file needs to be converted. */ converted = need_conversion(fenc); /* * Check if UTF-8 to UCS-2/4 or Latin1 conversion needs to be done. Or * Latin1 to Unicode conversion. This is handled in buf_write_bytes(). * Prepare the flags for it and allocate bw_conv_buf when needed. */ if (converted && (enc_utf8 || STRCMP(p_enc, "latin1") == 0)) { wb_flags = get_fio_flags(fenc); if (wb_flags & (FIO_UCS2 | FIO_UCS4 | FIO_UTF16 | FIO_UTF8)) { /* Need to allocate a buffer to translate into. */ if (wb_flags & (FIO_UCS2 | FIO_UTF16 | FIO_UTF8)) write_info.bw_conv_buflen = bufsize * 2; else /* FIO_UCS4 */ write_info.bw_conv_buflen = bufsize * 4; write_info.bw_conv_buf = lalloc((long_u)write_info.bw_conv_buflen, TRUE); if (write_info.bw_conv_buf == NULL) end = 0; } } # ifdef WIN3264 if (converted && wb_flags == 0 && (wb_flags = get_win_fio_flags(fenc)) != 0) { /* Convert UTF-8 -> UCS-2 and UCS-2 -> DBCS. Worst-case * 4: */ write_info.bw_conv_buflen = bufsize * 4; write_info.bw_conv_buf = lalloc((long_u)write_info.bw_conv_buflen, TRUE); if (write_info.bw_conv_buf == NULL) end = 0; } # endif # ifdef MACOS_X if (converted && wb_flags == 0 && (wb_flags = get_mac_fio_flags(fenc)) != 0) { write_info.bw_conv_buflen = bufsize * 3; write_info.bw_conv_buf = lalloc((long_u)write_info.bw_conv_buflen, TRUE); if (write_info.bw_conv_buf == NULL) end = 0; } # endif # if defined(FEAT_EVAL) || defined(USE_ICONV) if (converted && wb_flags == 0) { # ifdef USE_ICONV /* * Use iconv() conversion when conversion is needed and it's not done * internally. */ write_info.bw_iconv_fd = (iconv_t)my_iconv_open(fenc, enc_utf8 ? (char_u *)"utf-8" : p_enc); if (write_info.bw_iconv_fd != (iconv_t)-1) { /* We're going to use iconv(), allocate a buffer to convert in. */ write_info.bw_conv_buflen = bufsize * ICONV_MULT; write_info.bw_conv_buf = lalloc((long_u)write_info.bw_conv_buflen, TRUE); if (write_info.bw_conv_buf == NULL) end = 0; write_info.bw_first = TRUE; } # ifdef FEAT_EVAL else # endif # endif # ifdef FEAT_EVAL /* * When the file needs to be converted with 'charconvert' after * writing, write to a temp file instead and let the conversion * overwrite the original file. */ if (*p_ccv != NUL) { wfname = vim_tempname('w', FALSE); if (wfname == NULL) /* Can't write without a tempfile! */ { errmsg = (char_u *)_("E214: Can't find temp file for writing"); goto restore_backup; } } # endif } # endif if (converted && wb_flags == 0 # ifdef USE_ICONV && write_info.bw_iconv_fd == (iconv_t)-1 # endif # ifdef FEAT_EVAL && wfname == fname # endif ) { if (!forceit) { errmsg = (char_u *)_("E213: Cannot convert (add ! to write without conversion)"); goto restore_backup; } notconverted = TRUE; } #endif /* * Open the file "wfname" for writing. * We may try to open the file twice: If we can't write to the * file and forceit is TRUE we delete the existing file and try to create * a new one. If this still fails we may have lost the original file! * (this may happen when the user reached his quotum for number of files). * Appending will fail if the file does not exist and forceit is FALSE. */ while ((fd = mch_open((char *)wfname, O_WRONLY | O_EXTRA | (append ? (forceit ? (O_APPEND | O_CREAT) : O_APPEND) : (O_CREAT | O_TRUNC)) , perm < 0 ? 0666 : (perm & 0777))) < 0) { /* * A forced write will try to create a new file if the old one is * still readonly. This may also happen when the directory is * read-only. In that case the mch_remove() will fail. */ if (errmsg == NULL) { #ifdef UNIX struct stat st; /* Don't delete the file when it's a hard or symbolic link. */ if ((!newfile && st_old.st_nlink > 1) || (mch_lstat((char *)fname, &st) == 0 && (st.st_dev != st_old.st_dev || st.st_ino != st_old.st_ino))) errmsg = (char_u *)_("E166: Can't open linked file for writing"); else #endif { errmsg = (char_u *)_("E212: Can't open file for writing"); if (forceit && vim_strchr(p_cpo, CPO_FWRITE) == NULL && perm >= 0) { #ifdef UNIX /* we write to the file, thus it should be marked writable after all */ if (!(perm & 0200)) made_writable = TRUE; perm |= 0200; if (st_old.st_uid != getuid() || st_old.st_gid != getgid()) perm &= 0777; #endif if (!append) /* don't remove when appending */ mch_remove(wfname); continue; } } } restore_backup: { struct stat st; /* * If we failed to open the file, we don't need a backup. Throw it * away. If we moved or removed the original file try to put the * backup in its place. */ if (backup != NULL && wfname == fname) { if (backup_copy) { /* * There is a small chance that we removed the original, * try to move the copy in its place. * This may not work if the vim_rename() fails. * In that case we leave the copy around. */ /* If file does not exist, put the copy in its place */ if (mch_stat((char *)fname, &st) < 0) vim_rename(backup, fname); /* if original file does exist throw away the copy */ if (mch_stat((char *)fname, &st) >= 0) mch_remove(backup); } else { /* try to put the original file back */ vim_rename(backup, fname); } } /* if original file no longer exists give an extra warning */ if (!newfile && mch_stat((char *)fname, &st) < 0) end = 0; } #ifdef FEAT_MBYTE if (wfname != fname) vim_free(wfname); #endif goto fail; } errmsg = NULL; #if defined(MACOS_CLASSIC) || defined(WIN3264) /* TODO: Is it need for MACOS_X? (Dany) */ /* * On macintosh copy the original files attributes (i.e. the backup) * This is done in order to preserve the resource fork and the * Finder attribute (label, comments, custom icons, file creator) */ if (backup != NULL && overwriting && !append) { if (backup_copy) (void)mch_copy_file_attribute(wfname, backup); else (void)mch_copy_file_attribute(backup, wfname); } if (!overwriting && !append) { if (buf->b_ffname != NULL) (void)mch_copy_file_attribute(buf->b_ffname, wfname); /* Should copy resource fork */ } #endif write_info.bw_fd = fd; #ifdef FEAT_CRYPT if (*buf->b_p_key != NUL && !filtering) { char_u *header; int header_len; buf->b_cryptstate = crypt_create_for_writing(crypt_get_method_nr(buf), buf->b_p_key, &header, &header_len); if (buf->b_cryptstate == NULL || header == NULL) end = 0; else { /* Write magic number, so that Vim knows how this file is * encrypted when reading it back. */ write_info.bw_buf = header; write_info.bw_len = header_len; write_info.bw_flags = FIO_NOCONVERT; if (buf_write_bytes(&write_info) == FAIL) end = 0; wb_flags |= FIO_ENCRYPTED; vim_free(header); } } #endif write_info.bw_buf = buffer; nchars = 0; /* use "++bin", "++nobin" or 'binary' */ if (eap != NULL && eap->force_bin != 0) write_bin = (eap->force_bin == FORCE_BIN); else write_bin = buf->b_p_bin; #ifdef FEAT_MBYTE /* * The BOM is written just after the encryption magic number. * Skip it when appending and the file already existed, the BOM only makes * sense at the start of the file. */ if (buf->b_p_bomb && !write_bin && (!append || perm < 0)) { write_info.bw_len = make_bom(buffer, fenc); if (write_info.bw_len > 0) { /* don't convert, do encryption */ write_info.bw_flags = FIO_NOCONVERT | wb_flags; if (buf_write_bytes(&write_info) == FAIL) end = 0; else nchars += write_info.bw_len; } } write_info.bw_start_lnum = start; #endif #ifdef FEAT_PERSISTENT_UNDO write_undo_file = (buf->b_p_udf && overwriting && !append && !filtering && reset_changed); if (write_undo_file) /* Prepare for computing the hash value of the text. */ sha256_start(&sha_ctx); #endif write_info.bw_len = bufsize; #ifdef HAS_BW_FLAGS write_info.bw_flags = wb_flags; #endif fileformat = get_fileformat_force(buf, eap); s = buffer; len = 0; for (lnum = start; lnum <= end; ++lnum) { /* * The next while loop is done once for each character written. * Keep it fast! */ ptr = ml_get_buf(buf, lnum, FALSE) - 1; #ifdef FEAT_PERSISTENT_UNDO if (write_undo_file) sha256_update(&sha_ctx, ptr + 1, (UINT32_T)(STRLEN(ptr + 1) + 1)); #endif while ((c = *++ptr) != NUL) { if (c == NL) *s = NUL; /* replace newlines with NULs */ else if (c == CAR && fileformat == EOL_MAC) *s = NL; /* Mac: replace CRs with NLs */ else *s = c; ++s; if (++len != bufsize) continue; if (buf_write_bytes(&write_info) == FAIL) { end = 0; /* write error: break loop */ break; } nchars += bufsize; s = buffer; len = 0; #ifdef FEAT_MBYTE write_info.bw_start_lnum = lnum; #endif } /* write failed or last line has no EOL: stop here */ if (end == 0 || (lnum == end && (write_bin || !buf->b_p_fixeol) && (lnum == buf->b_no_eol_lnum || (lnum == buf->b_ml.ml_line_count && !buf->b_p_eol)))) { ++lnum; /* written the line, count it */ no_eol = TRUE; break; } if (fileformat == EOL_UNIX) *s++ = NL; else { *s++ = CAR; /* EOL_MAC or EOL_DOS: write CR */ if (fileformat == EOL_DOS) /* write CR-NL */ { if (++len == bufsize) { if (buf_write_bytes(&write_info) == FAIL) { end = 0; /* write error: break loop */ break; } nchars += bufsize; s = buffer; len = 0; } *s++ = NL; } } if (++len == bufsize && end) { if (buf_write_bytes(&write_info) == FAIL) { end = 0; /* write error: break loop */ break; } nchars += bufsize; s = buffer; len = 0; ui_breakcheck(); if (got_int) { end = 0; /* Interrupted, break loop */ break; } } #ifdef VMS /* * On VMS there is a problem: newlines get added when writing blocks * at a time. Fix it by writing a line at a time. * This is much slower! * Explanation: VAX/DECC RTL insists that records in some RMS * structures end with a newline (carriage return) character, and if * they don't it adds one. * With other RMS structures it works perfect without this fix. */ if (buf->b_fab_rfm == FAB$C_VFC || ((buf->b_fab_rat & (FAB$M_FTN | FAB$M_CR)) != 0)) { int b2write; buf->b_fab_mrs = (buf->b_fab_mrs == 0 ? MIN(4096, bufsize) : MIN(buf->b_fab_mrs, bufsize)); b2write = len; while (b2write > 0) { write_info.bw_len = MIN(b2write, buf->b_fab_mrs); if (buf_write_bytes(&write_info) == FAIL) { end = 0; break; } b2write -= MIN(b2write, buf->b_fab_mrs); } write_info.bw_len = bufsize; nchars += len; s = buffer; len = 0; } #endif } if (len > 0 && end > 0) { write_info.bw_len = len; if (buf_write_bytes(&write_info) == FAIL) end = 0; /* write error */ nchars += len; } #if defined(UNIX) && defined(HAVE_FSYNC) /* On many journalling file systems there is a bug that causes both the * original and the backup file to be lost when halting the system right * after writing the file. That's because only the meta-data is * journalled. Syncing the file slows down the system, but assures it has * been written to disk and we don't lose it. * For a device do try the fsync() but don't complain if it does not work * (could be a pipe). * If the 'fsync' option is FALSE, don't fsync(). Useful for laptops. */ if (p_fs && fsync(fd) != 0 && !device) { errmsg = (char_u *)_("E667: Fsync failed"); end = 0; } #endif #if defined(HAVE_SELINUX) || defined(HAVE_SMACK) /* Probably need to set the security context. */ if (!backup_copy) mch_copy_sec(backup, wfname); #endif #ifdef UNIX /* When creating a new file, set its owner/group to that of the original * file. Get the new device and inode number. */ if (backup != NULL && !backup_copy) { # ifdef HAVE_FCHOWN struct stat st; /* don't change the owner when it's already OK, some systems remove * permission or ACL stuff */ if (mch_stat((char *)wfname, &st) < 0 || st.st_uid != st_old.st_uid || st.st_gid != st_old.st_gid) { ignored = fchown(fd, st_old.st_uid, st_old.st_gid); if (perm >= 0) /* set permission again, may have changed */ (void)mch_setperm(wfname, perm); } # endif buf_setino(buf); } else if (!buf->b_dev_valid) /* Set the inode when creating a new file. */ buf_setino(buf); #endif if (close(fd) != 0) { errmsg = (char_u *)_("E512: Close failed"); end = 0; } #ifdef UNIX if (made_writable) perm &= ~0200; /* reset 'w' bit for security reasons */ #endif if (perm >= 0) /* set perm. of new file same as old file */ (void)mch_setperm(wfname, perm); #ifdef HAVE_ACL /* Probably need to set the ACL before changing the user (can't set the * ACL on a file the user doesn't own). */ if (!backup_copy) mch_set_acl(wfname, acl); #endif #ifdef FEAT_CRYPT if (buf->b_cryptstate != NULL) { crypt_free_state(buf->b_cryptstate); buf->b_cryptstate = NULL; } #endif #if defined(FEAT_MBYTE) && defined(FEAT_EVAL) if (wfname != fname) { /* * The file was written to a temp file, now it needs to be converted * with 'charconvert' to (overwrite) the output file. */ if (end != 0) { if (eval_charconvert(enc_utf8 ? (char_u *)"utf-8" : p_enc, fenc, wfname, fname) == FAIL) { write_info.bw_conv_error = TRUE; end = 0; } } mch_remove(wfname); vim_free(wfname); } #endif if (end == 0) { if (errmsg == NULL) { #ifdef FEAT_MBYTE if (write_info.bw_conv_error) { if (write_info.bw_conv_error_lnum == 0) errmsg = (char_u *)_("E513: write error, conversion failed (make 'fenc' empty to override)"); else { errmsg_allocated = TRUE; errmsg = alloc(300); vim_snprintf((char *)errmsg, 300, _("E513: write error, conversion failed in line %ld (make 'fenc' empty to override)"), (long)write_info.bw_conv_error_lnum); } } else #endif if (got_int) errmsg = (char_u *)_(e_interr); else errmsg = (char_u *)_("E514: write error (file system full?)"); } /* * If we have a backup file, try to put it in place of the new file, * because the new file is probably corrupt. This avoids losing the * original file when trying to make a backup when writing the file a * second time. * When "backup_copy" is set we need to copy the backup over the new * file. Otherwise rename the backup file. * If this is OK, don't give the extra warning message. */ if (backup != NULL) { if (backup_copy) { /* This may take a while, if we were interrupted let the user * know we got the message. */ if (got_int) { MSG(_(e_interr)); out_flush(); } if ((fd = mch_open((char *)backup, O_RDONLY | O_EXTRA, 0)) >= 0) { if ((write_info.bw_fd = mch_open((char *)fname, O_WRONLY | O_CREAT | O_TRUNC | O_EXTRA, perm & 0777)) >= 0) { /* copy the file. */ write_info.bw_buf = smallbuf; #ifdef HAS_BW_FLAGS write_info.bw_flags = FIO_NOCONVERT; #endif while ((write_info.bw_len = read_eintr(fd, smallbuf, SMBUFSIZE)) > 0) if (buf_write_bytes(&write_info) == FAIL) break; if (close(write_info.bw_fd) >= 0 && write_info.bw_len == 0) end = 1; /* success */ } close(fd); /* ignore errors for closing read file */ } } else { if (vim_rename(backup, fname) == 0) end = 1; } } goto fail; } lnum -= start; /* compute number of written lines */ --no_wait_return; /* may wait for return now */ #if !(defined(UNIX) || defined(VMS)) fname = sfname; /* use shortname now, for the messages */ #endif if (!filtering) { msg_add_fname(buf, fname); /* put fname in IObuff with quotes */ c = FALSE; #ifdef FEAT_MBYTE if (write_info.bw_conv_error) { STRCAT(IObuff, _(" CONVERSION ERROR")); c = TRUE; if (write_info.bw_conv_error_lnum != 0) vim_snprintf_add((char *)IObuff, IOSIZE, _(" in line %ld;"), (long)write_info.bw_conv_error_lnum); } else if (notconverted) { STRCAT(IObuff, _("[NOT converted]")); c = TRUE; } else if (converted) { STRCAT(IObuff, _("[converted]")); c = TRUE; } #endif if (device) { STRCAT(IObuff, _("[Device]")); c = TRUE; } else if (newfile) { STRCAT(IObuff, shortmess(SHM_NEW) ? _("[New]") : _("[New File]")); c = TRUE; } if (no_eol) { msg_add_eol(); c = TRUE; } /* may add [unix/dos/mac] */ if (msg_add_fileformat(fileformat)) c = TRUE; #ifdef FEAT_CRYPT if (wb_flags & FIO_ENCRYPTED) { crypt_append_msg(buf); c = TRUE; } #endif msg_add_lines(c, (long)lnum, nchars); /* add line/char count */ if (!shortmess(SHM_WRITE)) { if (append) STRCAT(IObuff, shortmess(SHM_WRI) ? _(" [a]") : _(" appended")); else STRCAT(IObuff, shortmess(SHM_WRI) ? _(" [w]") : _(" written")); } set_keep_msg(msg_trunc_attr(IObuff, FALSE, 0), 0); } /* When written everything correctly: reset 'modified'. Unless not * writing to the original file and '+' is not in 'cpoptions'. */ if (reset_changed && whole && !append #ifdef FEAT_MBYTE && !write_info.bw_conv_error #endif && (overwriting || vim_strchr(p_cpo, CPO_PLUS) != NULL) ) { unchanged(buf, TRUE); #ifdef FEAT_AUTOCMD /* buf->b_changedtick is always incremented in unchanged() but that * should not trigger a TextChanged event. */ if (last_changedtick + 1 == buf->b_changedtick && last_changedtick_buf == buf) last_changedtick = buf->b_changedtick; #endif u_unchanged(buf); u_update_save_nr(buf); } /* * If written to the current file, update the timestamp of the swap file * and reset the BF_WRITE_MASK flags. Also sets buf->b_mtime. */ if (overwriting) { ml_timestamp(buf); if (append) buf->b_flags &= ~BF_NEW; else buf->b_flags &= ~BF_WRITE_MASK; } /* * If we kept a backup until now, and we are in patch mode, then we make * the backup file our 'original' file. */ if (*p_pm && dobackup) { char *org = (char *)buf_modname( #ifdef SHORT_FNAME TRUE, #else (buf->b_p_sn || buf->b_shortname), #endif fname, p_pm, FALSE); if (backup != NULL) { struct stat st; /* * If the original file does not exist yet * the current backup file becomes the original file */ if (org == NULL) EMSG(_("E205: Patchmode: can't save original file")); else if (mch_stat(org, &st) < 0) { vim_rename(backup, (char_u *)org); vim_free(backup); /* don't delete the file */ backup = NULL; #ifdef UNIX set_file_time((char_u *)org, st_old.st_atime, st_old.st_mtime); #endif } } /* * If there is no backup file, remember that a (new) file was * created. */ else { int empty_fd; if (org == NULL || (empty_fd = mch_open(org, O_CREAT | O_EXTRA | O_EXCL | O_NOFOLLOW, perm < 0 ? 0666 : (perm & 0777))) < 0) EMSG(_("E206: patchmode: can't touch empty original file")); else close(empty_fd); } if (org != NULL) { mch_setperm((char_u *)org, mch_getperm(fname) & 0777); vim_free(org); } } /* * Remove the backup unless 'backup' option is set */ if (!p_bk && backup != NULL && mch_remove(backup) != 0) EMSG(_("E207: Can't delete backup file")); #ifdef FEAT_SUN_WORKSHOP if (usingSunWorkShop) workshop_file_saved((char *) ffname); #endif goto nofail; /* * Finish up. We get here either after failure or success. */ fail: --no_wait_return; /* may wait for return now */ nofail: /* Done saving, we accept changed buffer warnings again */ buf->b_saving = FALSE; vim_free(backup); if (buffer != smallbuf) vim_free(buffer); #ifdef FEAT_MBYTE vim_free(fenc_tofree); vim_free(write_info.bw_conv_buf); # ifdef USE_ICONV if (write_info.bw_iconv_fd != (iconv_t)-1) { iconv_close(write_info.bw_iconv_fd); write_info.bw_iconv_fd = (iconv_t)-1; } # endif #endif #ifdef HAVE_ACL mch_free_acl(acl); #endif if (errmsg != NULL) { int numlen = errnum != NULL ? (int)STRLEN(errnum) : 0; attr = hl_attr(HLF_E); /* set highlight for error messages */ msg_add_fname(buf, #ifndef UNIX sfname #else fname #endif ); /* put file name in IObuff with quotes */ if (STRLEN(IObuff) + STRLEN(errmsg) + numlen >= IOSIZE) IObuff[IOSIZE - STRLEN(errmsg) - numlen - 1] = NUL; /* If the error message has the form "is ...", put the error number in * front of the file name. */ if (errnum != NULL) { STRMOVE(IObuff + numlen, IObuff); mch_memmove(IObuff, errnum, (size_t)numlen); } STRCAT(IObuff, errmsg); emsg(IObuff); if (errmsg_allocated) vim_free(errmsg); retval = FAIL; if (end == 0) { MSG_PUTS_ATTR(_("\nWARNING: Original file may be lost or damaged\n"), attr | MSG_HIST); MSG_PUTS_ATTR(_("don't quit the editor until the file is successfully written!"), attr | MSG_HIST); /* Update the timestamp to avoid an "overwrite changed file" * prompt when writing again. */ if (mch_stat((char *)fname, &st_old) >= 0) { buf_store_time(buf, &st_old, fname); buf->b_mtime_read = buf->b_mtime; } } } msg_scroll = msg_save; #ifdef FEAT_PERSISTENT_UNDO /* * When writing the whole file and 'undofile' is set, also write the undo * file. */ if (retval == OK && write_undo_file) { char_u hash[UNDO_HASH_SIZE]; sha256_finish(&sha_ctx, hash); u_write_undo(NULL, FALSE, buf, hash); } #endif #ifdef FEAT_AUTOCMD #ifdef FEAT_EVAL if (!should_abort(retval)) #else if (!got_int) #endif { aco_save_T aco; curbuf->b_no_eol_lnum = 0; /* in case it was set by the previous read */ /* * Apply POST autocommands. * Careful: The autocommands may call buf_write() recursively! */ aucmd_prepbuf(&aco, buf); if (append) apply_autocmds_exarg(EVENT_FILEAPPENDPOST, fname, fname, FALSE, curbuf, eap); else if (filtering) apply_autocmds_exarg(EVENT_FILTERWRITEPOST, NULL, fname, FALSE, curbuf, eap); else if (reset_changed && whole) apply_autocmds_exarg(EVENT_BUFWRITEPOST, fname, fname, FALSE, curbuf, eap); else apply_autocmds_exarg(EVENT_FILEWRITEPOST, fname, fname, FALSE, curbuf, eap); /* restore curwin/curbuf and a few other things */ aucmd_restbuf(&aco); #ifdef FEAT_EVAL if (aborting()) /* autocmds may abort script processing */ retval = FALSE; #endif } #endif got_int |= prev_got_int; #ifdef MACOS_CLASSIC /* TODO: Is it need for MACOS_X? (Dany) */ /* Update machine specific information. */ mch_post_buffer_write(buf); #endif return retval; } /* * Set the name of the current buffer. Use when the buffer doesn't have a * name and a ":r" or ":w" command with a file name is used. */ static int set_rw_fname(fname, sfname) char_u *fname; char_u *sfname; { #ifdef FEAT_AUTOCMD buf_T *buf = curbuf; /* It's like the unnamed buffer is deleted.... */ if (curbuf->b_p_bl) apply_autocmds(EVENT_BUFDELETE, NULL, NULL, FALSE, curbuf); apply_autocmds(EVENT_BUFWIPEOUT, NULL, NULL, FALSE, curbuf); # ifdef FEAT_EVAL if (aborting()) /* autocmds may abort script processing */ return FAIL; # endif if (curbuf != buf) { /* We are in another buffer now, don't do the renaming. */ EMSG(_(e_auchangedbuf)); return FAIL; } #endif if (setfname(curbuf, fname, sfname, FALSE) == OK) curbuf->b_flags |= BF_NOTEDITED; #ifdef FEAT_AUTOCMD /* ....and a new named one is created */ apply_autocmds(EVENT_BUFNEW, NULL, NULL, FALSE, curbuf); if (curbuf->b_p_bl) apply_autocmds(EVENT_BUFADD, NULL, NULL, FALSE, curbuf); # ifdef FEAT_EVAL if (aborting()) /* autocmds may abort script processing */ return FAIL; # endif /* Do filetype detection now if 'filetype' is empty. */ if (*curbuf->b_p_ft == NUL) { if (au_has_group((char_u *)"filetypedetect")) (void)do_doautocmd((char_u *)"filetypedetect BufRead", FALSE); do_modelines(0); } #endif return OK; } /* * Put file name into IObuff with quotes. */ void msg_add_fname(buf, fname) buf_T *buf; char_u *fname; { if (fname == NULL) fname = (char_u *)"-stdin-"; home_replace(buf, fname, IObuff + 1, IOSIZE - 4, TRUE); IObuff[0] = '"'; STRCAT(IObuff, "\" "); } /* * Append message for text mode to IObuff. * Return TRUE if something appended. */ static int msg_add_fileformat(eol_type) int eol_type; { #ifndef USE_CRNL if (eol_type == EOL_DOS) { STRCAT(IObuff, shortmess(SHM_TEXT) ? _("[dos]") : _("[dos format]")); return TRUE; } #endif #ifndef USE_CR if (eol_type == EOL_MAC) { STRCAT(IObuff, shortmess(SHM_TEXT) ? _("[mac]") : _("[mac format]")); return TRUE; } #endif #if defined(USE_CRNL) || defined(USE_CR) if (eol_type == EOL_UNIX) { STRCAT(IObuff, shortmess(SHM_TEXT) ? _("[unix]") : _("[unix format]")); return TRUE; } #endif return FALSE; } /* * Append line and character count to IObuff. */ void msg_add_lines(insert_space, lnum, nchars) int insert_space; long lnum; off_t nchars; { char_u *p; p = IObuff + STRLEN(IObuff); if (insert_space) *p++ = ' '; if (shortmess(SHM_LINES)) sprintf((char *)p, #ifdef LONG_LONG_OFF_T "%ldL, %lldC", lnum, (long long)nchars #else /* Explicit typecast avoids warning on Mac OS X 10.6 */ "%ldL, %ldC", lnum, (long)nchars #endif ); else { if (lnum == 1) STRCPY(p, _("1 line, ")); else sprintf((char *)p, _("%ld lines, "), lnum); p += STRLEN(p); if (nchars == 1) STRCPY(p, _("1 character")); else sprintf((char *)p, #ifdef LONG_LONG_OFF_T _("%lld characters"), (long long)nchars #else /* Explicit typecast avoids warning on Mac OS X 10.6 */ _("%ld characters"), (long)nchars #endif ); } } /* * Append message for missing line separator to IObuff. */ static void msg_add_eol() { STRCAT(IObuff, shortmess(SHM_LAST) ? _("[noeol]") : _("[Incomplete last line]")); } /* * Check modification time of file, before writing to it. * The size isn't checked, because using a tool like "gzip" takes care of * using the same timestamp but can't set the size. */ static int check_mtime(buf, st) buf_T *buf; struct stat *st; { if (buf->b_mtime_read != 0 && time_differs((long)st->st_mtime, buf->b_mtime_read)) { msg_scroll = TRUE; /* don't overwrite messages here */ msg_silent = 0; /* must give this prompt */ /* don't use emsg() here, don't want to flush the buffers */ MSG_ATTR(_("WARNING: The file has been changed since reading it!!!"), hl_attr(HLF_E)); if (ask_yesno((char_u *)_("Do you really want to write to it"), TRUE) == 'n') return FAIL; msg_scroll = FALSE; /* always overwrite the file message now */ } return OK; } static int time_differs(t1, t2) long t1, t2; { #if defined(__linux__) || defined(MSDOS) || defined(MSWIN) /* On a FAT filesystem, esp. under Linux, there are only 5 bits to store * the seconds. Since the roundoff is done when flushing the inode, the * time may change unexpectedly by one second!!! */ return (t1 - t2 > 1 || t2 - t1 > 1); #else return (t1 != t2); #endif } /* * Call write() to write a number of bytes to the file. * Handles encryption and 'encoding' conversion. * * Return FAIL for failure, OK otherwise. */ static int buf_write_bytes(ip) struct bw_info *ip; { int wlen; char_u *buf = ip->bw_buf; /* data to write */ int len = ip->bw_len; /* length of data */ #ifdef HAS_BW_FLAGS int flags = ip->bw_flags; /* extra flags */ #endif #ifdef FEAT_MBYTE /* * Skip conversion when writing the crypt magic number or the BOM. */ if (!(flags & FIO_NOCONVERT)) { char_u *p; unsigned c; int n; if (flags & FIO_UTF8) { /* * Convert latin1 in the buffer to UTF-8 in the file. */ p = ip->bw_conv_buf; /* translate to buffer */ for (wlen = 0; wlen < len; ++wlen) p += utf_char2bytes(buf[wlen], p); buf = ip->bw_conv_buf; len = (int)(p - ip->bw_conv_buf); } else if (flags & (FIO_UCS4 | FIO_UTF16 | FIO_UCS2 | FIO_LATIN1)) { /* * Convert UTF-8 bytes in the buffer to UCS-2, UCS-4, UTF-16 or * Latin1 chars in the file. */ if (flags & FIO_LATIN1) p = buf; /* translate in-place (can only get shorter) */ else p = ip->bw_conv_buf; /* translate to buffer */ for (wlen = 0; wlen < len; wlen += n) { if (wlen == 0 && ip->bw_restlen != 0) { int l; /* Use remainder of previous call. Append the start of * buf[] to get a full sequence. Might still be too * short! */ l = CONV_RESTLEN - ip->bw_restlen; if (l > len) l = len; mch_memmove(ip->bw_rest + ip->bw_restlen, buf, (size_t)l); n = utf_ptr2len_len(ip->bw_rest, ip->bw_restlen + l); if (n > ip->bw_restlen + len) { /* We have an incomplete byte sequence at the end to * be written. We can't convert it without the * remaining bytes. Keep them for the next call. */ if (ip->bw_restlen + len > CONV_RESTLEN) return FAIL; ip->bw_restlen += len; break; } if (n > 1) c = utf_ptr2char(ip->bw_rest); else c = ip->bw_rest[0]; if (n >= ip->bw_restlen) { n -= ip->bw_restlen; ip->bw_restlen = 0; } else { ip->bw_restlen -= n; mch_memmove(ip->bw_rest, ip->bw_rest + n, (size_t)ip->bw_restlen); n = 0; } } else { n = utf_ptr2len_len(buf + wlen, len - wlen); if (n > len - wlen) { /* We have an incomplete byte sequence at the end to * be written. We can't convert it without the * remaining bytes. Keep them for the next call. */ if (len - wlen > CONV_RESTLEN) return FAIL; ip->bw_restlen = len - wlen; mch_memmove(ip->bw_rest, buf + wlen, (size_t)ip->bw_restlen); break; } if (n > 1) c = utf_ptr2char(buf + wlen); else c = buf[wlen]; } if (ucs2bytes(c, &p, flags) && !ip->bw_conv_error) { ip->bw_conv_error = TRUE; ip->bw_conv_error_lnum = ip->bw_start_lnum; } if (c == NL) ++ip->bw_start_lnum; } if (flags & FIO_LATIN1) len = (int)(p - buf); else { buf = ip->bw_conv_buf; len = (int)(p - ip->bw_conv_buf); } } # ifdef WIN3264 else if (flags & FIO_CODEPAGE) { /* * Convert UTF-8 or codepage to UCS-2 and then to MS-Windows * codepage. */ char_u *from; size_t fromlen; char_u *to; int u8c; BOOL bad = FALSE; int needed; if (ip->bw_restlen > 0) { /* Need to concatenate the remainder of the previous call and * the bytes of the current call. Use the end of the * conversion buffer for this. */ fromlen = len + ip->bw_restlen; from = ip->bw_conv_buf + ip->bw_conv_buflen - fromlen; mch_memmove(from, ip->bw_rest, (size_t)ip->bw_restlen); mch_memmove(from + ip->bw_restlen, buf, (size_t)len); } else { from = buf; fromlen = len; } to = ip->bw_conv_buf; if (enc_utf8) { /* Convert from UTF-8 to UCS-2, to the start of the buffer. * The buffer has been allocated to be big enough. */ while (fromlen > 0) { n = (int)utf_ptr2len_len(from, (int)fromlen); if (n > (int)fromlen) /* incomplete byte sequence */ break; u8c = utf_ptr2char(from); *to++ = (u8c & 0xff); *to++ = (u8c >> 8); fromlen -= n; from += n; } /* Copy remainder to ip->bw_rest[] to be used for the next * call. */ if (fromlen > CONV_RESTLEN) { /* weird overlong sequence */ ip->bw_conv_error = TRUE; return FAIL; } mch_memmove(ip->bw_rest, from, fromlen); ip->bw_restlen = (int)fromlen; } else { /* Convert from enc_codepage to UCS-2, to the start of the * buffer. The buffer has been allocated to be big enough. */ ip->bw_restlen = 0; needed = MultiByteToWideChar(enc_codepage, MB_ERR_INVALID_CHARS, (LPCSTR)from, (int)fromlen, NULL, 0); if (needed == 0) { /* When conversion fails there may be a trailing byte. */ needed = MultiByteToWideChar(enc_codepage, MB_ERR_INVALID_CHARS, (LPCSTR)from, (int)fromlen - 1, NULL, 0); if (needed == 0) { /* Conversion doesn't work. */ ip->bw_conv_error = TRUE; return FAIL; } /* Save the trailing byte for the next call. */ ip->bw_rest[0] = from[fromlen - 1]; ip->bw_restlen = 1; } needed = MultiByteToWideChar(enc_codepage, MB_ERR_INVALID_CHARS, (LPCSTR)from, (int)(fromlen - ip->bw_restlen), (LPWSTR)to, needed); if (needed == 0) { /* Safety check: Conversion doesn't work. */ ip->bw_conv_error = TRUE; return FAIL; } to += needed * 2; } fromlen = to - ip->bw_conv_buf; buf = to; # ifdef CP_UTF8 /* VC 4.1 doesn't define CP_UTF8 */ if (FIO_GET_CP(flags) == CP_UTF8) { /* Convert from UCS-2 to UTF-8, using the remainder of the * conversion buffer. Fails when out of space. */ for (from = ip->bw_conv_buf; fromlen > 1; fromlen -= 2) { u8c = *from++; u8c += (*from++ << 8); to += utf_char2bytes(u8c, to); if (to + 6 >= ip->bw_conv_buf + ip->bw_conv_buflen) { ip->bw_conv_error = TRUE; return FAIL; } } len = (int)(to - buf); } else #endif { /* Convert from UCS-2 to the codepage, using the remainder of * the conversion buffer. If the conversion uses the default * character "0", the data doesn't fit in this encoding, so * fail. */ len = WideCharToMultiByte(FIO_GET_CP(flags), 0, (LPCWSTR)ip->bw_conv_buf, (int)fromlen / sizeof(WCHAR), (LPSTR)to, (int)(ip->bw_conv_buflen - fromlen), 0, &bad); if (bad) { ip->bw_conv_error = TRUE; return FAIL; } } } # endif # ifdef MACOS_CONVERT else if (flags & FIO_MACROMAN) { /* * Convert UTF-8 or latin1 to Apple MacRoman. */ char_u *from; size_t fromlen; if (ip->bw_restlen > 0) { /* Need to concatenate the remainder of the previous call and * the bytes of the current call. Use the end of the * conversion buffer for this. */ fromlen = len + ip->bw_restlen; from = ip->bw_conv_buf + ip->bw_conv_buflen - fromlen; mch_memmove(from, ip->bw_rest, (size_t)ip->bw_restlen); mch_memmove(from + ip->bw_restlen, buf, (size_t)len); } else { from = buf; fromlen = len; } if (enc2macroman(from, fromlen, ip->bw_conv_buf, &len, ip->bw_conv_buflen, ip->bw_rest, &ip->bw_restlen) == FAIL) { ip->bw_conv_error = TRUE; return FAIL; } buf = ip->bw_conv_buf; } # endif # ifdef USE_ICONV if (ip->bw_iconv_fd != (iconv_t)-1) { const char *from; size_t fromlen; char *to; size_t tolen; /* Convert with iconv(). */ if (ip->bw_restlen > 0) { char *fp; /* Need to concatenate the remainder of the previous call and * the bytes of the current call. Use the end of the * conversion buffer for this. */ fromlen = len + ip->bw_restlen; fp = (char *)ip->bw_conv_buf + ip->bw_conv_buflen - fromlen; mch_memmove(fp, ip->bw_rest, (size_t)ip->bw_restlen); mch_memmove(fp + ip->bw_restlen, buf, (size_t)len); from = fp; tolen = ip->bw_conv_buflen - fromlen; } else { from = (const char *)buf; fromlen = len; tolen = ip->bw_conv_buflen; } to = (char *)ip->bw_conv_buf; if (ip->bw_first) { size_t save_len = tolen; /* output the initial shift state sequence */ (void)iconv(ip->bw_iconv_fd, NULL, NULL, &to, &tolen); /* There is a bug in iconv() on Linux (which appears to be * wide-spread) which sets "to" to NULL and messes up "tolen". */ if (to == NULL) { to = (char *)ip->bw_conv_buf; tolen = save_len; } ip->bw_first = FALSE; } /* * If iconv() has an error or there is not enough room, fail. */ if ((iconv(ip->bw_iconv_fd, (void *)&from, &fromlen, &to, &tolen) == (size_t)-1 && ICONV_ERRNO != ICONV_EINVAL) || fromlen > CONV_RESTLEN) { ip->bw_conv_error = TRUE; return FAIL; } /* copy remainder to ip->bw_rest[] to be used for the next call. */ if (fromlen > 0) mch_memmove(ip->bw_rest, (void *)from, fromlen); ip->bw_restlen = (int)fromlen; buf = ip->bw_conv_buf; len = (int)((char_u *)to - ip->bw_conv_buf); } # endif } #endif /* FEAT_MBYTE */ #ifdef FEAT_CRYPT if (flags & FIO_ENCRYPTED) { /* Encrypt the data. Do it in-place if possible, otherwise use an * allocated buffer. */ if (crypt_works_inplace(ip->bw_buffer->b_cryptstate)) { crypt_encode_inplace(ip->bw_buffer->b_cryptstate, buf, len); } else { char_u *outbuf; len = crypt_encode_alloc(curbuf->b_cryptstate, buf, len, &outbuf); if (len == 0) return OK; /* Crypt layer is buffering, will flush later. */ wlen = write_eintr(ip->bw_fd, outbuf, len); vim_free(outbuf); return (wlen < len) ? FAIL : OK; } } #endif wlen = write_eintr(ip->bw_fd, buf, len); return (wlen < len) ? FAIL : OK; } #ifdef FEAT_MBYTE /* * Convert a Unicode character to bytes. * Return TRUE for an error, FALSE when it's OK. */ static int ucs2bytes(c, pp, flags) unsigned c; /* in: character */ char_u **pp; /* in/out: pointer to result */ int flags; /* FIO_ flags */ { char_u *p = *pp; int error = FALSE; int cc; if (flags & FIO_UCS4) { if (flags & FIO_ENDIAN_L) { *p++ = c; *p++ = (c >> 8); *p++ = (c >> 16); *p++ = (c >> 24); } else { *p++ = (c >> 24); *p++ = (c >> 16); *p++ = (c >> 8); *p++ = c; } } else if (flags & (FIO_UCS2 | FIO_UTF16)) { if (c >= 0x10000) { if (flags & FIO_UTF16) { /* Make two words, ten bits of the character in each. First * word is 0xd800 - 0xdbff, second one 0xdc00 - 0xdfff */ c -= 0x10000; if (c >= 0x100000) error = TRUE; cc = ((c >> 10) & 0x3ff) + 0xd800; if (flags & FIO_ENDIAN_L) { *p++ = cc; *p++ = ((unsigned)cc >> 8); } else { *p++ = ((unsigned)cc >> 8); *p++ = cc; } c = (c & 0x3ff) + 0xdc00; } else error = TRUE; } if (flags & FIO_ENDIAN_L) { *p++ = c; *p++ = (c >> 8); } else { *p++ = (c >> 8); *p++ = c; } } else /* Latin1 */ { if (c >= 0x100) { error = TRUE; *p++ = 0xBF; } else *p++ = c; } *pp = p; return error; } /* * Return TRUE if file encoding "fenc" requires conversion from or to * 'encoding'. */ static int need_conversion(fenc) char_u *fenc; { int same_encoding; int enc_flags; int fenc_flags; if (*fenc == NUL || STRCMP(p_enc, fenc) == 0) { same_encoding = TRUE; fenc_flags = 0; } else { /* Ignore difference between "ansi" and "latin1", "ucs-4" and * "ucs-4be", etc. */ enc_flags = get_fio_flags(p_enc); fenc_flags = get_fio_flags(fenc); same_encoding = (enc_flags != 0 && fenc_flags == enc_flags); } if (same_encoding) { /* Specified encoding matches with 'encoding'. This requires * conversion when 'encoding' is Unicode but not UTF-8. */ return enc_unicode != 0; } /* Encodings differ. However, conversion is not needed when 'enc' is any * Unicode encoding and the file is UTF-8. */ return !(enc_utf8 && fenc_flags == FIO_UTF8); } /* * Check "ptr" for a unicode encoding and return the FIO_ flags needed for the * internal conversion. * if "ptr" is an empty string, use 'encoding'. */ static int get_fio_flags(ptr) char_u *ptr; { int prop; if (*ptr == NUL) ptr = p_enc; prop = enc_canon_props(ptr); if (prop & ENC_UNICODE) { if (prop & ENC_2BYTE) { if (prop & ENC_ENDIAN_L) return FIO_UCS2 | FIO_ENDIAN_L; return FIO_UCS2; } if (prop & ENC_4BYTE) { if (prop & ENC_ENDIAN_L) return FIO_UCS4 | FIO_ENDIAN_L; return FIO_UCS4; } if (prop & ENC_2WORD) { if (prop & ENC_ENDIAN_L) return FIO_UTF16 | FIO_ENDIAN_L; return FIO_UTF16; } return FIO_UTF8; } if (prop & ENC_LATIN1) return FIO_LATIN1; /* must be ENC_DBCS, requires iconv() */ return 0; } #ifdef WIN3264 /* * Check "ptr" for a MS-Windows codepage name and return the FIO_ flags needed * for the conversion MS-Windows can do for us. Also accept "utf-8". * Used for conversion between 'encoding' and 'fileencoding'. */ static int get_win_fio_flags(ptr) char_u *ptr; { int cp; /* Cannot do this when 'encoding' is not utf-8 and not a codepage. */ if (!enc_utf8 && enc_codepage <= 0) return 0; cp = encname2codepage(ptr); if (cp == 0) { # ifdef CP_UTF8 /* VC 4.1 doesn't define CP_UTF8 */ if (STRCMP(ptr, "utf-8") == 0) cp = CP_UTF8; else # endif return 0; } return FIO_PUT_CP(cp) | FIO_CODEPAGE; } #endif #ifdef MACOS_X /* * Check "ptr" for a Carbon supported encoding and return the FIO_ flags * needed for the internal conversion to/from utf-8 or latin1. */ static int get_mac_fio_flags(ptr) char_u *ptr; { if ((enc_utf8 || STRCMP(p_enc, "latin1") == 0) && (enc_canon_props(ptr) & ENC_MACROMAN)) return FIO_MACROMAN; return 0; } #endif /* * Check for a Unicode BOM (Byte Order Mark) at the start of p[size]. * "size" must be at least 2. * Return the name of the encoding and set "*lenp" to the length. * Returns NULL when no BOM found. */ static char_u * check_for_bom(p, size, lenp, flags) char_u *p; long size; int *lenp; int flags; { char *name = NULL; int len = 2; if (p[0] == 0xef && p[1] == 0xbb && size >= 3 && p[2] == 0xbf && (flags == FIO_ALL || flags == FIO_UTF8 || flags == 0)) { name = "utf-8"; /* EF BB BF */ len = 3; } else if (p[0] == 0xff && p[1] == 0xfe) { if (size >= 4 && p[2] == 0 && p[3] == 0 && (flags == FIO_ALL || flags == (FIO_UCS4 | FIO_ENDIAN_L))) { name = "ucs-4le"; /* FF FE 00 00 */ len = 4; } else if (flags == (FIO_UCS2 | FIO_ENDIAN_L)) name = "ucs-2le"; /* FF FE */ else if (flags == FIO_ALL || flags == (FIO_UTF16 | FIO_ENDIAN_L)) /* utf-16le is preferred, it also works for ucs-2le text */ name = "utf-16le"; /* FF FE */ } else if (p[0] == 0xfe && p[1] == 0xff && (flags == FIO_ALL || flags == FIO_UCS2 || flags == FIO_UTF16)) { /* Default to utf-16, it works also for ucs-2 text. */ if (flags == FIO_UCS2) name = "ucs-2"; /* FE FF */ else name = "utf-16"; /* FE FF */ } else if (size >= 4 && p[0] == 0 && p[1] == 0 && p[2] == 0xfe && p[3] == 0xff && (flags == FIO_ALL || flags == FIO_UCS4)) { name = "ucs-4"; /* 00 00 FE FF */ len = 4; } *lenp = len; return (char_u *)name; } /* * Generate a BOM in "buf[4]" for encoding "name". * Return the length of the BOM (zero when no BOM). */ static int make_bom(buf, name) char_u *buf; char_u *name; { int flags; char_u *p; flags = get_fio_flags(name); /* Can't put a BOM in a non-Unicode file. */ if (flags == FIO_LATIN1 || flags == 0) return 0; if (flags == FIO_UTF8) /* UTF-8 */ { buf[0] = 0xef; buf[1] = 0xbb; buf[2] = 0xbf; return 3; } p = buf; (void)ucs2bytes(0xfeff, &p, flags); return (int)(p - buf); } #endif #if defined(FEAT_VIMINFO) || defined(FEAT_BROWSE) || \ defined(FEAT_QUICKFIX) || defined(FEAT_AUTOCMD) || defined(PROTO) /* * Try to find a shortname by comparing the fullname with the current * directory. * Returns "full_path" or pointer into "full_path" if shortened. */ char_u * shorten_fname1(full_path) char_u *full_path; { char_u *dirname; char_u *p = full_path; dirname = alloc(MAXPATHL); if (dirname == NULL) return full_path; if (mch_dirname(dirname, MAXPATHL) == OK) { p = shorten_fname(full_path, dirname); if (p == NULL || *p == NUL) p = full_path; } vim_free(dirname); return p; } #endif /* * Try to find a shortname by comparing the fullname with the current * directory. * Returns NULL if not shorter name possible, pointer into "full_path" * otherwise. */ char_u * shorten_fname(full_path, dir_name) char_u *full_path; char_u *dir_name; { int len; char_u *p; if (full_path == NULL) return NULL; len = (int)STRLEN(dir_name); if (fnamencmp(dir_name, full_path, len) == 0) { p = full_path + len; #if defined(MSDOS) || defined(MSWIN) /* * MSDOS: when a file is in the root directory, dir_name will end in a * slash, since C: by itself does not define a specific dir. In this * case p may already be correct. <negri> */ if (!((len > 2) && (*(p - 2) == ':'))) #endif { if (vim_ispathsep(*p)) ++p; #ifndef VMS /* the path separator is always part of the path */ else p = NULL; #endif } } #if defined(MSDOS) || defined(MSWIN) /* * When using a file in the current drive, remove the drive name: * "A:\dir\file" -> "\dir\file". This helps when moving a session file on * a floppy from "A:\dir" to "B:\dir". */ else if (len > 3 && TOUPPER_LOC(full_path[0]) == TOUPPER_LOC(dir_name[0]) && full_path[1] == ':' && vim_ispathsep(full_path[2])) p = full_path + 2; #endif else p = NULL; return p; } /* * Shorten filenames for all buffers. * When "force" is TRUE: Use full path from now on for files currently being * edited, both for file name and swap file name. Try to shorten the file * names a bit, if safe to do so. * When "force" is FALSE: Only try to shorten absolute file names. * For buffers that have buftype "nofile" or "scratch": never change the file * name. */ void shorten_fnames(force) int force; { char_u dirname[MAXPATHL]; buf_T *buf; char_u *p; mch_dirname(dirname, MAXPATHL); for (buf = firstbuf; buf != NULL; buf = buf->b_next) { if (buf->b_fname != NULL #ifdef FEAT_QUICKFIX && !bt_nofile(buf) #endif && !path_with_url(buf->b_fname) && (force || buf->b_sfname == NULL || mch_isFullName(buf->b_sfname))) { vim_free(buf->b_sfname); buf->b_sfname = NULL; p = shorten_fname(buf->b_ffname, dirname); if (p != NULL) { buf->b_sfname = vim_strsave(p); buf->b_fname = buf->b_sfname; } if (p == NULL || buf->b_fname == NULL) buf->b_fname = buf->b_ffname; } /* Always make the swap file name a full path, a "nofile" buffer may * also have a swap file. */ mf_fullname(buf->b_ml.ml_mfp); } #ifdef FEAT_WINDOWS status_redraw_all(); redraw_tabline = TRUE; #endif } #if (defined(FEAT_DND) && defined(FEAT_GUI_GTK)) \ || defined(FEAT_GUI_MSWIN) \ || defined(FEAT_GUI_MAC) \ || defined(PROTO) /* * Shorten all filenames in "fnames[count]" by current directory. */ void shorten_filenames(fnames, count) char_u **fnames; int count; { int i; char_u dirname[MAXPATHL]; char_u *p; if (fnames == NULL || count < 1) return; mch_dirname(dirname, sizeof(dirname)); for (i = 0; i < count; ++i) { if ((p = shorten_fname(fnames[i], dirname)) != NULL) { /* shorten_fname() returns pointer in given "fnames[i]". If free * "fnames[i]" first, "p" becomes invalid. So we need to copy * "p" first then free fnames[i]. */ p = vim_strsave(p); vim_free(fnames[i]); fnames[i] = p; } } } #endif /* * add extension to file name - change path/fo.o.h to path/fo.o.h.ext or * fo_o_h.ext for MSDOS or when shortname option set. * * Assumed that fname is a valid name found in the filesystem we assure that * the return value is a different name and ends in 'ext'. * "ext" MUST be at most 4 characters long if it starts with a dot, 3 * characters otherwise. * Space for the returned name is allocated, must be freed later. * Returns NULL when out of memory. */ char_u * modname(fname, ext, prepend_dot) char_u *fname, *ext; int prepend_dot; /* may prepend a '.' to file name */ { return buf_modname( #ifdef SHORT_FNAME TRUE, #else (curbuf->b_p_sn || curbuf->b_shortname), #endif fname, ext, prepend_dot); } char_u * buf_modname(shortname, fname, ext, prepend_dot) int shortname; /* use 8.3 file name */ char_u *fname, *ext; int prepend_dot; /* may prepend a '.' to file name */ { char_u *retval; char_u *s; char_u *e; char_u *ptr; int fnamelen, extlen; extlen = (int)STRLEN(ext); /* * If there is no file name we must get the name of the current directory * (we need the full path in case :cd is used). */ if (fname == NULL || *fname == NUL) { retval = alloc((unsigned)(MAXPATHL + extlen + 3)); if (retval == NULL) return NULL; if (mch_dirname(retval, MAXPATHL) == FAIL || (fnamelen = (int)STRLEN(retval)) == 0) { vim_free(retval); return NULL; } if (!after_pathsep(retval, retval + fnamelen)) { retval[fnamelen++] = PATHSEP; retval[fnamelen] = NUL; } #ifndef SHORT_FNAME prepend_dot = FALSE; /* nothing to prepend a dot to */ #endif } else { fnamelen = (int)STRLEN(fname); retval = alloc((unsigned)(fnamelen + extlen + 3)); if (retval == NULL) return NULL; STRCPY(retval, fname); #ifdef VMS vms_remove_version(retval); /* we do not need versions here */ #endif } /* * search backwards until we hit a '/', '\' or ':' replacing all '.' * by '_' for MSDOS or when shortname option set and ext starts with a dot. * Then truncate what is after the '/', '\' or ':' to 8 characters for * MSDOS and 26 characters for AMIGA, a lot more for UNIX. */ for (ptr = retval + fnamelen; ptr > retval; mb_ptr_back(retval, ptr)) { if (*ext == '.' #ifdef USE_LONG_FNAME && (!USE_LONG_FNAME || shortname) #else # ifndef SHORT_FNAME && shortname # endif #endif ) if (*ptr == '.') /* replace '.' by '_' */ *ptr = '_'; if (vim_ispathsep(*ptr)) { ++ptr; break; } } /* the file name has at most BASENAMELEN characters. */ #ifndef SHORT_FNAME if (STRLEN(ptr) > (unsigned)BASENAMELEN) ptr[BASENAMELEN] = '\0'; #endif s = ptr + STRLEN(ptr); /* * For 8.3 file names we may have to reduce the length. */ #ifdef USE_LONG_FNAME if (!USE_LONG_FNAME || shortname) #else # ifndef SHORT_FNAME if (shortname) # endif #endif { /* * If there is no file name, or the file name ends in '/', and the * extension starts with '.', put a '_' before the dot, because just * ".ext" is invalid. */ if (fname == NULL || *fname == NUL || vim_ispathsep(fname[STRLEN(fname) - 1])) { if (*ext == '.') *s++ = '_'; } /* * If the extension starts with '.', truncate the base name at 8 * characters */ else if (*ext == '.') { if ((size_t)(s - ptr) > (size_t)8) { s = ptr + 8; *s = '\0'; } } /* * If the extension doesn't start with '.', and the file name * doesn't have an extension yet, append a '.' */ else if ((e = vim_strchr(ptr, '.')) == NULL) *s++ = '.'; /* * If the extension doesn't start with '.', and there already is an * extension, it may need to be truncated */ else if ((int)STRLEN(e) + extlen > 4) s = e + 4 - extlen; } #if defined(USE_LONG_FNAME) || defined(WIN3264) /* * If there is no file name, and the extension starts with '.', put a * '_' before the dot, because just ".ext" may be invalid if it's on a * FAT partition, and on HPFS it doesn't matter. */ else if ((fname == NULL || *fname == NUL) && *ext == '.') *s++ = '_'; #endif /* * Append the extension. * ext can start with '.' and cannot exceed 3 more characters. */ STRCPY(s, ext); #ifndef SHORT_FNAME /* * Prepend the dot. */ if (prepend_dot && !shortname && *(e = gettail(retval)) != '.' #ifdef USE_LONG_FNAME && USE_LONG_FNAME #endif ) { STRMOVE(e + 1, e); *e = '.'; } #endif /* * Check that, after appending the extension, the file name is really * different. */ if (fname != NULL && STRCMP(fname, retval) == 0) { /* we search for a character that can be replaced by '_' */ while (--s >= ptr) { if (*s != '_') { *s = '_'; break; } } if (s < ptr) /* fname was "________.<ext>", how tricky! */ *ptr = 'v'; } return retval; } /* * Like fgets(), but if the file line is too long, it is truncated and the * rest of the line is thrown away. Returns TRUE for end-of-file. */ int vim_fgets(buf, size, fp) char_u *buf; int size; FILE *fp; { char *eof; #define FGETS_SIZE 200 char tbuf[FGETS_SIZE]; buf[size - 2] = NUL; #ifdef USE_CR eof = fgets_cr((char *)buf, size, fp); #else eof = fgets((char *)buf, size, fp); #endif if (buf[size - 2] != NUL && buf[size - 2] != '\n') { buf[size - 1] = NUL; /* Truncate the line */ /* Now throw away the rest of the line: */ do { tbuf[FGETS_SIZE - 2] = NUL; #ifdef USE_CR ignoredp = fgets_cr((char *)tbuf, FGETS_SIZE, fp); #else ignoredp = fgets((char *)tbuf, FGETS_SIZE, fp); #endif } while (tbuf[FGETS_SIZE - 2] != NUL && tbuf[FGETS_SIZE - 2] != '\n'); } return (eof == NULL); } #if defined(USE_CR) || defined(PROTO) /* * Like vim_fgets(), but accept any line terminator: CR, CR-LF or LF. * Returns TRUE for end-of-file. * Only used for the Mac, because it's much slower than vim_fgets(). */ int tag_fgets(buf, size, fp) char_u *buf; int size; FILE *fp; { int i = 0; int c; int eof = FALSE; for (;;) { c = fgetc(fp); if (c == EOF) { eof = TRUE; break; } if (c == '\r') { /* Always store a NL for end-of-line. */ if (i < size - 1) buf[i++] = '\n'; c = fgetc(fp); if (c != '\n') /* Macintosh format: single CR. */ ungetc(c, fp); break; } if (i < size - 1) buf[i++] = c; if (c == '\n') break; } buf[i] = NUL; return eof; } #endif /* * rename() only works if both files are on the same file system, this * function will (attempts to?) copy the file across if rename fails -- webb * Return -1 for failure, 0 for success. */ int vim_rename(from, to) char_u *from; char_u *to; { int fd_in; int fd_out; int n; char *errmsg = NULL; char *buffer; #ifdef AMIGA BPTR flock; #endif struct stat st; long perm; #ifdef HAVE_ACL vim_acl_T acl; /* ACL from original file */ #endif int use_tmp_file = FALSE; /* * When the names are identical, there is nothing to do. When they refer * to the same file (ignoring case and slash/backslash differences) but * the file name differs we need to go through a temp file. */ if (fnamecmp(from, to) == 0) { if (p_fic && STRCMP(gettail(from), gettail(to)) != 0) use_tmp_file = TRUE; else return 0; } /* * Fail if the "from" file doesn't exist. Avoids that "to" is deleted. */ if (mch_stat((char *)from, &st) < 0) return -1; #ifdef UNIX { struct stat st_to; /* It's possible for the source and destination to be the same file. * This happens when "from" and "to" differ in case and are on a FAT32 * filesystem. In that case go through a temp file name. */ if (mch_stat((char *)to, &st_to) >= 0 && st.st_dev == st_to.st_dev && st.st_ino == st_to.st_ino) use_tmp_file = TRUE; } #endif #ifdef WIN3264 { BY_HANDLE_FILE_INFORMATION info1, info2; /* It's possible for the source and destination to be the same file. * In that case go through a temp file name. This makes rename("foo", * "./foo") a no-op (in a complicated way). */ if (win32_fileinfo(from, &info1) == FILEINFO_OK && win32_fileinfo(to, &info2) == FILEINFO_OK && info1.dwVolumeSerialNumber == info2.dwVolumeSerialNumber && info1.nFileIndexHigh == info2.nFileIndexHigh && info1.nFileIndexLow == info2.nFileIndexLow) use_tmp_file = TRUE; } #endif if (use_tmp_file) { char tempname[MAXPATHL + 1]; /* * Find a name that doesn't exist and is in the same directory. * Rename "from" to "tempname" and then rename "tempname" to "to". */ if (STRLEN(from) >= MAXPATHL - 5) return -1; STRCPY(tempname, from); for (n = 123; n < 99999; ++n) { sprintf((char *)gettail((char_u *)tempname), "%d", n); if (mch_stat(tempname, &st) < 0) { if (mch_rename((char *)from, tempname) == 0) { if (mch_rename(tempname, (char *)to) == 0) return 0; /* Strange, the second step failed. Try moving the * file back and return failure. */ mch_rename(tempname, (char *)from); return -1; } /* If it fails for one temp name it will most likely fail * for any temp name, give up. */ return -1; } } return -1; } /* * Delete the "to" file, this is required on some systems to make the * mch_rename() work, on other systems it makes sure that we don't have * two files when the mch_rename() fails. */ #ifdef AMIGA /* * With MSDOS-compatible filesystems (crossdos, messydos) it is possible * that the name of the "to" file is the same as the "from" file, even * though the names are different. To avoid the chance of accidentally * deleting the "from" file (horror!) we lock it during the remove. * * When used for making a backup before writing the file: This should not * happen with ":w", because startscript() should detect this problem and * set buf->b_shortname, causing modname() to return a correct ".bak" file * name. This problem does exist with ":w filename", but then the * original file will be somewhere else so the backup isn't really * important. If autoscripting is off the rename may fail. */ flock = Lock((UBYTE *)from, (long)ACCESS_READ); #endif mch_remove(to); #ifdef AMIGA if (flock) UnLock(flock); #endif /* * First try a normal rename, return if it works. */ if (mch_rename((char *)from, (char *)to) == 0) return 0; /* * Rename() failed, try copying the file. */ perm = mch_getperm(from); #ifdef HAVE_ACL /* For systems that support ACL: get the ACL from the original file. */ acl = mch_get_acl(from); #endif fd_in = mch_open((char *)from, O_RDONLY|O_EXTRA, 0); if (fd_in == -1) { #ifdef HAVE_ACL mch_free_acl(acl); #endif return -1; } /* Create the new file with same permissions as the original. */ fd_out = mch_open((char *)to, O_CREAT|O_EXCL|O_WRONLY|O_EXTRA|O_NOFOLLOW, (int)perm); if (fd_out == -1) { close(fd_in); #ifdef HAVE_ACL mch_free_acl(acl); #endif return -1; } buffer = (char *)alloc(BUFSIZE); if (buffer == NULL) { close(fd_out); close(fd_in); #ifdef HAVE_ACL mch_free_acl(acl); #endif return -1; } while ((n = read_eintr(fd_in, buffer, BUFSIZE)) > 0) if (write_eintr(fd_out, buffer, n) != n) { errmsg = _("E208: Error writing to \"%s\""); break; } vim_free(buffer); close(fd_in); if (close(fd_out) < 0) errmsg = _("E209: Error closing \"%s\""); if (n < 0) { errmsg = _("E210: Error reading \"%s\""); to = from; } #ifndef UNIX /* for Unix mch_open() already set the permission */ mch_setperm(to, perm); #endif #ifdef HAVE_ACL mch_set_acl(to, acl); mch_free_acl(acl); #endif #if defined(HAVE_SELINUX) || defined(HAVE_SMACK) mch_copy_sec(from, to); #endif if (errmsg != NULL) { EMSG2(errmsg, to); return -1; } mch_remove(from); return 0; } static int already_warned = FALSE; /* * Check if any not hidden buffer has been changed. * Postpone the check if there are characters in the stuff buffer, a global * command is being executed, a mapping is being executed or an autocommand is * busy. * Returns TRUE if some message was written (screen should be redrawn and * cursor positioned). */ int check_timestamps(focus) int focus; /* called for GUI focus event */ { buf_T *buf; int didit = 0; int n; /* Don't check timestamps while system() or another low-level function may * cause us to lose and gain focus. */ if (no_check_timestamps > 0) return FALSE; /* Avoid doing a check twice. The OK/Reload dialog can cause a focus * event and we would keep on checking if the file is steadily growing. * Do check again after typing something. */ if (focus && did_check_timestamps) { need_check_timestamps = TRUE; return FALSE; } if (!stuff_empty() || global_busy || !typebuf_typed() #ifdef FEAT_AUTOCMD || autocmd_busy || curbuf_lock > 0 || allbuf_lock > 0 #endif ) need_check_timestamps = TRUE; /* check later */ else { ++no_wait_return; did_check_timestamps = TRUE; already_warned = FALSE; for (buf = firstbuf; buf != NULL; ) { /* Only check buffers in a window. */ if (buf->b_nwindows > 0) { n = buf_check_timestamp(buf, focus); if (didit < n) didit = n; if (n > 0 && !buf_valid(buf)) { /* Autocommands have removed the buffer, start at the * first one again. */ buf = firstbuf; continue; } } buf = buf->b_next; } --no_wait_return; need_check_timestamps = FALSE; if (need_wait_return && didit == 2) { /* make sure msg isn't overwritten */ msg_puts((char_u *)"\n"); out_flush(); } } return didit; } /* * Move all the lines from buffer "frombuf" to buffer "tobuf". * Return OK or FAIL. When FAIL "tobuf" is incomplete and/or "frombuf" is not * empty. */ static int move_lines(frombuf, tobuf) buf_T *frombuf; buf_T *tobuf; { buf_T *tbuf = curbuf; int retval = OK; linenr_T lnum; char_u *p; /* Copy the lines in "frombuf" to "tobuf". */ curbuf = tobuf; for (lnum = 1; lnum <= frombuf->b_ml.ml_line_count; ++lnum) { p = vim_strsave(ml_get_buf(frombuf, lnum, FALSE)); if (p == NULL || ml_append(lnum - 1, p, 0, FALSE) == FAIL) { vim_free(p); retval = FAIL; break; } vim_free(p); } /* Delete all the lines in "frombuf". */ if (retval != FAIL) { curbuf = frombuf; for (lnum = curbuf->b_ml.ml_line_count; lnum > 0; --lnum) if (ml_delete(lnum, FALSE) == FAIL) { /* Oops! We could try putting back the saved lines, but that * might fail again... */ retval = FAIL; break; } } curbuf = tbuf; return retval; } /* * Check if buffer "buf" has been changed. * Also check if the file for a new buffer unexpectedly appeared. * return 1 if a changed buffer was found. * return 2 if a message has been displayed. * return 0 otherwise. */ int buf_check_timestamp(buf, focus) buf_T *buf; int focus UNUSED; /* called for GUI focus event */ { struct stat st; int stat_res; int retval = 0; char_u *path; char_u *tbuf; char *mesg = NULL; char *mesg2 = ""; int helpmesg = FALSE; int reload = FALSE; #if defined(FEAT_CON_DIALOG) || defined(FEAT_GUI_DIALOG) int can_reload = FALSE; #endif off_t orig_size = buf->b_orig_size; int orig_mode = buf->b_orig_mode; #ifdef FEAT_GUI int save_mouse_correct = need_mouse_correct; #endif #ifdef FEAT_AUTOCMD static int busy = FALSE; int n; char_u *s; #endif char *reason; /* If there is no file name, the buffer is not loaded, 'buftype' is * set, we are in the middle of a save or being called recursively: ignore * this buffer. */ if (buf->b_ffname == NULL || buf->b_ml.ml_mfp == NULL #if defined(FEAT_QUICKFIX) || *buf->b_p_bt != NUL #endif || buf->b_saving #ifdef FEAT_AUTOCMD || busy #endif #ifdef FEAT_NETBEANS_INTG || isNetbeansBuffer(buf) #endif ) return 0; if ( !(buf->b_flags & BF_NOTEDITED) && buf->b_mtime != 0 && ((stat_res = mch_stat((char *)buf->b_ffname, &st)) < 0 || time_differs((long)st.st_mtime, buf->b_mtime) || st.st_size != buf->b_orig_size #ifdef HAVE_ST_MODE || (int)st.st_mode != buf->b_orig_mode #else || mch_getperm(buf->b_ffname) != buf->b_orig_mode #endif )) { retval = 1; /* set b_mtime to stop further warnings (e.g., when executing * FileChangedShell autocmd) */ if (stat_res < 0) { buf->b_mtime = 0; buf->b_orig_size = 0; buf->b_orig_mode = 0; } else buf_store_time(buf, &st, buf->b_ffname); /* Don't do anything for a directory. Might contain the file * explorer. */ if (mch_isdir(buf->b_fname)) ; /* * If 'autoread' is set, the buffer has no changes and the file still * exists, reload the buffer. Use the buffer-local option value if it * was set, the global option value otherwise. */ else if ((buf->b_p_ar >= 0 ? buf->b_p_ar : p_ar) && !bufIsChanged(buf) && stat_res >= 0) reload = TRUE; else { if (stat_res < 0) reason = "deleted"; else if (bufIsChanged(buf)) reason = "conflict"; else if (orig_size != buf->b_orig_size || buf_contents_changed(buf)) reason = "changed"; else if (orig_mode != buf->b_orig_mode) reason = "mode"; else reason = "time"; #ifdef FEAT_AUTOCMD /* * Only give the warning if there are no FileChangedShell * autocommands. * Avoid being called recursively by setting "busy". */ busy = TRUE; # ifdef FEAT_EVAL set_vim_var_string(VV_FCS_REASON, (char_u *)reason, -1); set_vim_var_string(VV_FCS_CHOICE, (char_u *)"", -1); # endif ++allbuf_lock; n = apply_autocmds(EVENT_FILECHANGEDSHELL, buf->b_fname, buf->b_fname, FALSE, buf); --allbuf_lock; busy = FALSE; if (n) { if (!buf_valid(buf)) EMSG(_("E246: FileChangedShell autocommand deleted buffer")); # ifdef FEAT_EVAL s = get_vim_var_str(VV_FCS_CHOICE); if (STRCMP(s, "reload") == 0 && *reason != 'd') reload = TRUE; else if (STRCMP(s, "ask") == 0) n = FALSE; else # endif return 2; } if (!n) #endif { if (*reason == 'd') mesg = _("E211: File \"%s\" no longer available"); else { helpmesg = TRUE; #if defined(FEAT_CON_DIALOG) || defined(FEAT_GUI_DIALOG) can_reload = TRUE; #endif /* * Check if the file contents really changed to avoid * giving a warning when only the timestamp was set (e.g., * checked out of CVS). Always warn when the buffer was * changed. */ if (reason[2] == 'n') { mesg = _("W12: Warning: File \"%s\" has changed and the buffer was changed in Vim as well"); mesg2 = _("See \":help W12\" for more info."); } else if (reason[1] == 'h') { mesg = _("W11: Warning: File \"%s\" has changed since editing started"); mesg2 = _("See \":help W11\" for more info."); } else if (*reason == 'm') { mesg = _("W16: Warning: Mode of file \"%s\" has changed since editing started"); mesg2 = _("See \":help W16\" for more info."); } else /* Only timestamp changed, store it to avoid a warning * in check_mtime() later. */ buf->b_mtime_read = buf->b_mtime; } } } } else if ((buf->b_flags & BF_NEW) && !(buf->b_flags & BF_NEW_W) && vim_fexists(buf->b_ffname)) { retval = 1; mesg = _("W13: Warning: File \"%s\" has been created after editing started"); buf->b_flags |= BF_NEW_W; #if defined(FEAT_CON_DIALOG) || defined(FEAT_GUI_DIALOG) can_reload = TRUE; #endif } if (mesg != NULL) { path = home_replace_save(buf, buf->b_fname); if (path != NULL) { if (!helpmesg) mesg2 = ""; tbuf = alloc((unsigned)(STRLEN(path) + STRLEN(mesg) + STRLEN(mesg2) + 2)); sprintf((char *)tbuf, mesg, path); #ifdef FEAT_EVAL /* Set warningmsg here, before the unimportant and output-specific * mesg2 has been appended. */ set_vim_var_string(VV_WARNINGMSG, tbuf, -1); #endif #if defined(FEAT_CON_DIALOG) || defined(FEAT_GUI_DIALOG) if (can_reload) { if (*mesg2 != NUL) { STRCAT(tbuf, "\n"); STRCAT(tbuf, mesg2); } if (do_dialog(VIM_WARNING, (char_u *)_("Warning"), tbuf, (char_u *)_("&OK\n&Load File"), 1, NULL, TRUE) == 2) reload = TRUE; } else #endif if (State > NORMAL_BUSY || (State & CMDLINE) || already_warned) { if (*mesg2 != NUL) { STRCAT(tbuf, "; "); STRCAT(tbuf, mesg2); } EMSG(tbuf); retval = 2; } else { # ifdef FEAT_AUTOCMD if (!autocmd_busy) # endif { msg_start(); msg_puts_attr(tbuf, hl_attr(HLF_E) + MSG_HIST); if (*mesg2 != NUL) msg_puts_attr((char_u *)mesg2, hl_attr(HLF_W) + MSG_HIST); msg_clr_eos(); (void)msg_end(); if (emsg_silent == 0) { out_flush(); # ifdef FEAT_GUI if (!focus) # endif /* give the user some time to think about it */ ui_delay(1000L, TRUE); /* don't redraw and erase the message */ redraw_cmdline = FALSE; } } already_warned = TRUE; } vim_free(path); vim_free(tbuf); } } if (reload) { /* Reload the buffer. */ buf_reload(buf, orig_mode); #ifdef FEAT_PERSISTENT_UNDO if (buf->b_p_udf && buf->b_ffname != NULL) { char_u hash[UNDO_HASH_SIZE]; buf_T *save_curbuf = curbuf; /* Any existing undo file is unusable, write it now. */ curbuf = buf; u_compute_hash(hash); u_write_undo(NULL, FALSE, buf, hash); curbuf = save_curbuf; } #endif } #ifdef FEAT_AUTOCMD /* Trigger FileChangedShell when the file was changed in any way. */ if (buf_valid(buf) && retval != 0) (void)apply_autocmds(EVENT_FILECHANGEDSHELLPOST, buf->b_fname, buf->b_fname, FALSE, buf); #endif #ifdef FEAT_GUI /* restore this in case an autocommand has set it; it would break * 'mousefocus' */ need_mouse_correct = save_mouse_correct; #endif return retval; } /* * Reload a buffer that is already loaded. * Used when the file was changed outside of Vim. * "orig_mode" is buf->b_orig_mode before the need for reloading was detected. * buf->b_orig_mode may have been reset already. */ void buf_reload(buf, orig_mode) buf_T *buf; int orig_mode; { exarg_T ea; pos_T old_cursor; linenr_T old_topline; int old_ro = buf->b_p_ro; buf_T *savebuf; int saved = OK; aco_save_T aco; int flags = READ_NEW; /* set curwin/curbuf for "buf" and save some things */ aucmd_prepbuf(&aco, buf); /* We only want to read the text from the file, not reset the syntax * highlighting, clear marks, diff status, etc. Force the fileformat * and encoding to be the same. */ if (prep_exarg(&ea, buf) == OK) { old_cursor = curwin->w_cursor; old_topline = curwin->w_topline; if (p_ur < 0 || curbuf->b_ml.ml_line_count <= p_ur) { /* Save all the text, so that the reload can be undone. * Sync first so that this is a separate undo-able action. */ u_sync(FALSE); saved = u_savecommon(0, curbuf->b_ml.ml_line_count + 1, 0, TRUE); flags |= READ_KEEP_UNDO; } /* * To behave like when a new file is edited (matters for * BufReadPost autocommands) we first need to delete the current * buffer contents. But if reading the file fails we should keep * the old contents. Can't use memory only, the file might be * too big. Use a hidden buffer to move the buffer contents to. */ if (bufempty() || saved == FAIL) savebuf = NULL; else { /* Allocate a buffer without putting it in the buffer list. */ savebuf = buflist_new(NULL, NULL, (linenr_T)1, BLN_DUMMY); if (savebuf != NULL && buf == curbuf) { /* Open the memline. */ curbuf = savebuf; curwin->w_buffer = savebuf; saved = ml_open(curbuf); curbuf = buf; curwin->w_buffer = buf; } if (savebuf == NULL || saved == FAIL || buf != curbuf || move_lines(buf, savebuf) == FAIL) { EMSG2(_("E462: Could not prepare for reloading \"%s\""), buf->b_fname); saved = FAIL; } } if (saved == OK) { curbuf->b_flags |= BF_CHECK_RO; /* check for RO again */ #ifdef FEAT_AUTOCMD keep_filetype = TRUE; /* don't detect 'filetype' */ #endif if (readfile(buf->b_ffname, buf->b_fname, (linenr_T)0, (linenr_T)0, (linenr_T)MAXLNUM, &ea, flags) == FAIL) { #if defined(FEAT_AUTOCMD) && defined(FEAT_EVAL) if (!aborting()) #endif EMSG2(_("E321: Could not reload \"%s\""), buf->b_fname); if (savebuf != NULL && buf_valid(savebuf) && buf == curbuf) { /* Put the text back from the save buffer. First * delete any lines that readfile() added. */ while (!bufempty()) if (ml_delete(buf->b_ml.ml_line_count, FALSE) == FAIL) break; (void)move_lines(savebuf, buf); } } else if (buf == curbuf) /* "buf" still valid */ { /* Mark the buffer as unmodified and free undo info. */ unchanged(buf, TRUE); if ((flags & READ_KEEP_UNDO) == 0) { u_blockfree(buf); u_clearall(buf); } else { /* Mark all undo states as changed. */ u_unchanged(curbuf); } } } vim_free(ea.cmd); if (savebuf != NULL && buf_valid(savebuf)) wipe_buffer(savebuf, FALSE); #ifdef FEAT_DIFF /* Invalidate diff info if necessary. */ diff_invalidate(curbuf); #endif /* Restore the topline and cursor position and check it (lines may * have been removed). */ if (old_topline > curbuf->b_ml.ml_line_count) curwin->w_topline = curbuf->b_ml.ml_line_count; else curwin->w_topline = old_topline; curwin->w_cursor = old_cursor; check_cursor(); update_topline(); #ifdef FEAT_AUTOCMD keep_filetype = FALSE; #endif #ifdef FEAT_FOLDING { win_T *wp; tabpage_T *tp; /* Update folds unless they are defined manually. */ FOR_ALL_TAB_WINDOWS(tp, wp) if (wp->w_buffer == curwin->w_buffer && !foldmethodIsManual(wp)) foldUpdateAll(wp); } #endif /* If the mode didn't change and 'readonly' was set, keep the old * value; the user probably used the ":view" command. But don't * reset it, might have had a read error. */ if (orig_mode == curbuf->b_orig_mode) curbuf->b_p_ro |= old_ro; /* Modelines must override settings done by autocommands. */ do_modelines(0); } /* restore curwin/curbuf and a few other things */ aucmd_restbuf(&aco); /* Careful: autocommands may have made "buf" invalid! */ } void buf_store_time(buf, st, fname) buf_T *buf; struct stat *st; char_u *fname UNUSED; { buf->b_mtime = (long)st->st_mtime; buf->b_orig_size = st->st_size; #ifdef HAVE_ST_MODE buf->b_orig_mode = (int)st->st_mode; #else buf->b_orig_mode = mch_getperm(fname); #endif } /* * Adjust the line with missing eol, used for the next write. * Used for do_filter(), when the input lines for the filter are deleted. */ void write_lnum_adjust(offset) linenr_T offset; { if (curbuf->b_no_eol_lnum != 0) /* only if there is a missing eol */ curbuf->b_no_eol_lnum += offset; } #if defined(TEMPDIRNAMES) || defined(PROTO) static long temp_count = 0; /* Temp filename counter. */ /* * Delete the temp directory and all files it contains. */ void vim_deltempdir() { char_u **files; int file_count; int i; if (vim_tempdir != NULL) { sprintf((char *)NameBuff, "%s*", vim_tempdir); if (gen_expand_wildcards(1, &NameBuff, &file_count, &files, EW_DIR|EW_FILE|EW_SILENT) == OK) { for (i = 0; i < file_count; ++i) mch_remove(files[i]); FreeWild(file_count, files); } gettail(NameBuff)[-1] = NUL; (void)mch_rmdir(NameBuff); vim_free(vim_tempdir); vim_tempdir = NULL; } } #endif #ifdef TEMPDIRNAMES /* * Directory "tempdir" was created. Expand this name to a full path and put * it in "vim_tempdir". This avoids that using ":cd" would confuse us. * "tempdir" must be no longer than MAXPATHL. */ static void vim_settempdir(tempdir) char_u *tempdir; { char_u *buf; buf = alloc((unsigned)MAXPATHL + 2); if (buf != NULL) { if (vim_FullName(tempdir, buf, MAXPATHL, FALSE) == FAIL) STRCPY(buf, tempdir); # ifdef __EMX__ if (vim_strchr(buf, '/') != NULL) STRCAT(buf, "/"); else # endif add_pathsep(buf); vim_tempdir = vim_strsave(buf); vim_free(buf); } } #endif /* * vim_tempname(): Return a unique name that can be used for a temp file. * * The temp file is NOT garanteed to be created. If "keep" is FALSE it is * garanteed to NOT be created. * * The returned pointer is to allocated memory. * The returned pointer is NULL if no valid name was found. */ char_u * vim_tempname(extra_char, keep) int extra_char UNUSED; /* char to use in the name instead of '?' */ int keep UNUSED; { #ifdef USE_TMPNAM char_u itmp[L_tmpnam]; /* use tmpnam() */ #else char_u itmp[TEMPNAMELEN]; #endif #ifdef TEMPDIRNAMES static char *(tempdirs[]) = {TEMPDIRNAMES}; int i; # ifndef EEXIST struct stat st; # endif /* * This will create a directory for private use by this instance of Vim. * This is done once, and the same directory is used for all temp files. * This method avoids security problems because of symlink attacks et al. * It's also a bit faster, because we only need to check for an existing * file when creating the directory and not for each temp file. */ if (vim_tempdir == NULL) { /* * Try the entries in TEMPDIRNAMES to create the temp directory. */ for (i = 0; i < (int)(sizeof(tempdirs) / sizeof(char *)); ++i) { # ifndef HAVE_MKDTEMP size_t itmplen; long nr; long off; # endif /* Expand $TMP, leave room for "/v1100000/999999999". * Skip the directory check if the expansion fails. */ expand_env((char_u *)tempdirs[i], itmp, TEMPNAMELEN - 20); if (itmp[0] != '$' && mch_isdir(itmp)) { /* directory exists */ # ifdef __EMX__ /* If $TMP contains a forward slash (perhaps using bash or * tcsh), don't add a backslash, use a forward slash! * Adding 2 backslashes didn't work. */ if (vim_strchr(itmp, '/') != NULL) STRCAT(itmp, "/"); else # endif add_pathsep(itmp); # ifdef HAVE_MKDTEMP /* Leave room for filename */ STRCAT(itmp, "vXXXXXX"); if (mkdtemp((char *)itmp) != NULL) vim_settempdir(itmp); # else /* Get an arbitrary number of up to 6 digits. When it's * unlikely that it already exists it will be faster, * otherwise it doesn't matter. The use of mkdir() avoids any * security problems because of the predictable number. */ nr = (mch_get_pid() + (long)time(NULL)) % 1000000L; itmplen = STRLEN(itmp); /* Try up to 10000 different values until we find a name that * doesn't exist. */ for (off = 0; off < 10000L; ++off) { int r; # if defined(UNIX) || defined(VMS) mode_t umask_save; # endif sprintf((char *)itmp + itmplen, "v%ld", nr + off); # ifndef EEXIST /* If mkdir() does not set errno to EEXIST, check for * existing file here. There is a race condition then, * although it's fail-safe. */ if (mch_stat((char *)itmp, &st) >= 0) continue; # endif # if defined(UNIX) || defined(VMS) /* Make sure the umask doesn't remove the executable bit. * "repl" has been reported to use "177". */ umask_save = umask(077); # endif r = vim_mkdir(itmp, 0700); # if defined(UNIX) || defined(VMS) (void)umask(umask_save); # endif if (r == 0) { vim_settempdir(itmp); break; } # ifdef EEXIST /* If the mkdir() didn't fail because the file/dir exists, * we probably can't create any dir here, try another * place. */ if (errno != EEXIST) # endif break; } # endif /* HAVE_MKDTEMP */ if (vim_tempdir != NULL) break; } } } if (vim_tempdir != NULL) { /* There is no need to check if the file exists, because we own the * directory and nobody else creates a file in it. */ sprintf((char *)itmp, "%s%ld", vim_tempdir, temp_count++); return vim_strsave(itmp); } return NULL; #else /* TEMPDIRNAMES */ # ifdef WIN3264 char szTempFile[_MAX_PATH + 1]; char buf4[4]; char_u *retval; char_u *p; STRCPY(itmp, ""); if (GetTempPath(_MAX_PATH, szTempFile) == 0) { szTempFile[0] = '.'; /* GetTempPath() failed, use current dir */ szTempFile[1] = NUL; } strcpy(buf4, "VIM"); buf4[2] = extra_char; /* make it "VIa", "VIb", etc. */ if (GetTempFileName(szTempFile, buf4, 0, itmp) == 0) return NULL; if (!keep) /* GetTempFileName() will create the file, we don't want that */ (void)DeleteFile(itmp); /* Backslashes in a temp file name cause problems when filtering with * "sh". NOTE: This also checks 'shellcmdflag' to help those people who * didn't set 'shellslash'. */ retval = vim_strsave(itmp); if (*p_shcf == '-' || p_ssl) for (p = retval; *p; ++p) if (*p == '\\') *p = '/'; return retval; # else /* WIN3264 */ # ifdef USE_TMPNAM char_u *p; /* tmpnam() will make its own name */ p = tmpnam((char *)itmp); if (p == NULL || *p == NUL) return NULL; # else char_u *p; # ifdef VMS_TEMPNAM /* mktemp() is not working on VMS. It seems to be * a do-nothing function. Therefore we use tempnam(). */ sprintf((char *)itmp, "VIM%c", extra_char); p = (char_u *)tempnam("tmp:", (char *)itmp); if (p != NULL) { /* VMS will use '.LIS' if we don't explicitly specify an extension, * and VIM will then be unable to find the file later */ STRCPY(itmp, p); STRCAT(itmp, ".txt"); free(p); } else return NULL; # else STRCPY(itmp, TEMPNAME); if ((p = vim_strchr(itmp, '?')) != NULL) *p = extra_char; if (mktemp((char *)itmp) == NULL) return NULL; # endif # endif return vim_strsave(itmp); # endif /* WIN3264 */ #endif /* TEMPDIRNAMES */ } #if defined(BACKSLASH_IN_FILENAME) || defined(PROTO) /* * Convert all backslashes in fname to forward slashes in-place, unless when * it looks like a URL. */ void forward_slash(fname) char_u *fname; { char_u *p; if (path_with_url(fname)) return; for (p = fname; *p != NUL; ++p) # ifdef FEAT_MBYTE /* The Big5 encoding can have '\' in the trail byte. */ if (enc_dbcs != 0 && (*mb_ptr2len)(p) > 1) ++p; else # endif if (*p == '\\') *p = '/'; } #endif /* * Code for automatic commands. * * Only included when "FEAT_AUTOCMD" has been defined. */ #if defined(FEAT_AUTOCMD) || defined(PROTO) /* * The autocommands are stored in a list for each event. * Autocommands for the same pattern, that are consecutive, are joined * together, to avoid having to match the pattern too often. * The result is an array of Autopat lists, which point to AutoCmd lists: * * first_autopat[0] --> Autopat.next --> Autopat.next --> NULL * Autopat.cmds Autopat.cmds * | | * V V * AutoCmd.next AutoCmd.next * | | * V V * AutoCmd.next NULL * | * V * NULL * * first_autopat[1] --> Autopat.next --> NULL * Autopat.cmds * | * V * AutoCmd.next * | * V * NULL * etc. * * The order of AutoCmds is important, this is the order in which they were * defined and will have to be executed. */ typedef struct AutoCmd { char_u *cmd; /* The command to be executed (NULL when command has been removed) */ char nested; /* If autocommands nest here */ char last; /* last command in list */ #ifdef FEAT_EVAL scid_T scriptID; /* script ID where defined */ #endif struct AutoCmd *next; /* Next AutoCmd in list */ } AutoCmd; typedef struct AutoPat { char_u *pat; /* pattern as typed (NULL when pattern has been removed) */ regprog_T *reg_prog; /* compiled regprog for pattern */ AutoCmd *cmds; /* list of commands to do */ struct AutoPat *next; /* next AutoPat in AutoPat list */ int group; /* group ID */ int patlen; /* strlen() of pat */ int buflocal_nr; /* !=0 for buffer-local AutoPat */ char allow_dirs; /* Pattern may match whole path */ char last; /* last pattern for apply_autocmds() */ } AutoPat; static struct event_name { char *name; /* event name */ event_T event; /* event number */ } event_names[] = { {"BufAdd", EVENT_BUFADD}, {"BufCreate", EVENT_BUFADD}, {"BufDelete", EVENT_BUFDELETE}, {"BufEnter", EVENT_BUFENTER}, {"BufFilePost", EVENT_BUFFILEPOST}, {"BufFilePre", EVENT_BUFFILEPRE}, {"BufHidden", EVENT_BUFHIDDEN}, {"BufLeave", EVENT_BUFLEAVE}, {"BufNew", EVENT_BUFNEW}, {"BufNewFile", EVENT_BUFNEWFILE}, {"BufRead", EVENT_BUFREADPOST}, {"BufReadCmd", EVENT_BUFREADCMD}, {"BufReadPost", EVENT_BUFREADPOST}, {"BufReadPre", EVENT_BUFREADPRE}, {"BufUnload", EVENT_BUFUNLOAD}, {"BufWinEnter", EVENT_BUFWINENTER}, {"BufWinLeave", EVENT_BUFWINLEAVE}, {"BufWipeout", EVENT_BUFWIPEOUT}, {"BufWrite", EVENT_BUFWRITEPRE}, {"BufWritePost", EVENT_BUFWRITEPOST}, {"BufWritePre", EVENT_BUFWRITEPRE}, {"BufWriteCmd", EVENT_BUFWRITECMD}, {"CmdwinEnter", EVENT_CMDWINENTER}, {"CmdwinLeave", EVENT_CMDWINLEAVE}, {"CmdUndefined", EVENT_CMDUNDEFINED}, {"ColorScheme", EVENT_COLORSCHEME}, {"CompleteDone", EVENT_COMPLETEDONE}, {"CursorHold", EVENT_CURSORHOLD}, {"CursorHoldI", EVENT_CURSORHOLDI}, {"CursorMoved", EVENT_CURSORMOVED}, {"CursorMovedI", EVENT_CURSORMOVEDI}, {"EncodingChanged", EVENT_ENCODINGCHANGED}, {"FileEncoding", EVENT_ENCODINGCHANGED}, {"FileAppendPost", EVENT_FILEAPPENDPOST}, {"FileAppendPre", EVENT_FILEAPPENDPRE}, {"FileAppendCmd", EVENT_FILEAPPENDCMD}, {"FileChangedShell",EVENT_FILECHANGEDSHELL}, {"FileChangedShellPost",EVENT_FILECHANGEDSHELLPOST}, {"FileChangedRO", EVENT_FILECHANGEDRO}, {"FileReadPost", EVENT_FILEREADPOST}, {"FileReadPre", EVENT_FILEREADPRE}, {"FileReadCmd", EVENT_FILEREADCMD}, {"FileType", EVENT_FILETYPE}, {"FileWritePost", EVENT_FILEWRITEPOST}, {"FileWritePre", EVENT_FILEWRITEPRE}, {"FileWriteCmd", EVENT_FILEWRITECMD}, {"FilterReadPost", EVENT_FILTERREADPOST}, {"FilterReadPre", EVENT_FILTERREADPRE}, {"FilterWritePost", EVENT_FILTERWRITEPOST}, {"FilterWritePre", EVENT_FILTERWRITEPRE}, {"FocusGained", EVENT_FOCUSGAINED}, {"FocusLost", EVENT_FOCUSLOST}, {"FuncUndefined", EVENT_FUNCUNDEFINED}, {"GUIEnter", EVENT_GUIENTER}, {"GUIFailed", EVENT_GUIFAILED}, {"InsertChange", EVENT_INSERTCHANGE}, {"InsertEnter", EVENT_INSERTENTER}, {"InsertLeave", EVENT_INSERTLEAVE}, {"InsertCharPre", EVENT_INSERTCHARPRE}, {"MenuPopup", EVENT_MENUPOPUP}, {"OptionSet", EVENT_OPTIONSET}, {"QuickFixCmdPost", EVENT_QUICKFIXCMDPOST}, {"QuickFixCmdPre", EVENT_QUICKFIXCMDPRE}, {"QuitPre", EVENT_QUITPRE}, {"RemoteReply", EVENT_REMOTEREPLY}, {"SessionLoadPost", EVENT_SESSIONLOADPOST}, {"ShellCmdPost", EVENT_SHELLCMDPOST}, {"ShellFilterPost", EVENT_SHELLFILTERPOST}, {"SourcePre", EVENT_SOURCEPRE}, {"SourceCmd", EVENT_SOURCECMD}, {"SpellFileMissing",EVENT_SPELLFILEMISSING}, {"StdinReadPost", EVENT_STDINREADPOST}, {"StdinReadPre", EVENT_STDINREADPRE}, {"SwapExists", EVENT_SWAPEXISTS}, {"Syntax", EVENT_SYNTAX}, {"TabEnter", EVENT_TABENTER}, {"TabLeave", EVENT_TABLEAVE}, {"TermChanged", EVENT_TERMCHANGED}, {"TermResponse", EVENT_TERMRESPONSE}, {"TextChanged", EVENT_TEXTCHANGED}, {"TextChangedI", EVENT_TEXTCHANGEDI}, {"User", EVENT_USER}, {"VimEnter", EVENT_VIMENTER}, {"VimLeave", EVENT_VIMLEAVE}, {"VimLeavePre", EVENT_VIMLEAVEPRE}, {"WinEnter", EVENT_WINENTER}, {"WinLeave", EVENT_WINLEAVE}, {"VimResized", EVENT_VIMRESIZED}, {NULL, (event_T)0} }; static AutoPat *first_autopat[NUM_EVENTS] = { NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL }; /* * struct used to keep status while executing autocommands for an event. */ typedef struct AutoPatCmd { AutoPat *curpat; /* next AutoPat to examine */ AutoCmd *nextcmd; /* next AutoCmd to execute */ int group; /* group being used */ char_u *fname; /* fname to match with */ char_u *sfname; /* sfname to match with */ char_u *tail; /* tail of fname */ event_T event; /* current event */ int arg_bufnr; /* initially equal to <abuf>, set to zero when buf is deleted */ struct AutoPatCmd *next; /* chain of active apc-s for auto-invalidation*/ } AutoPatCmd; static AutoPatCmd *active_apc_list = NULL; /* stack of active autocommands */ /* * augroups stores a list of autocmd group names. */ static garray_T augroups = {0, 0, sizeof(char_u *), 10, NULL}; #define AUGROUP_NAME(i) (((char_u **)augroups.ga_data)[i]) /* * The ID of the current group. Group 0 is the default one. */ static int current_augroup = AUGROUP_DEFAULT; static int au_need_clean = FALSE; /* need to delete marked patterns */ static void show_autocmd __ARGS((AutoPat *ap, event_T event)); static void au_remove_pat __ARGS((AutoPat *ap)); static void au_remove_cmds __ARGS((AutoPat *ap)); static void au_cleanup __ARGS((void)); static int au_new_group __ARGS((char_u *name)); static void au_del_group __ARGS((char_u *name)); static event_T event_name2nr __ARGS((char_u *start, char_u **end)); static char_u *event_nr2name __ARGS((event_T event)); static char_u *find_end_event __ARGS((char_u *arg, int have_group)); static int event_ignored __ARGS((event_T event)); static int au_get_grouparg __ARGS((char_u **argp)); static int do_autocmd_event __ARGS((event_T event, char_u *pat, int nested, char_u *cmd, int forceit, int group)); static int apply_autocmds_group __ARGS((event_T event, char_u *fname, char_u *fname_io, int force, int group, buf_T *buf, exarg_T *eap)); static void auto_next_pat __ARGS((AutoPatCmd *apc, int stop_at_last)); #if defined(FEAT_AUTOCMD) || defined(FEAT_WILDIGN) static int match_file_pat __ARGS((char_u *pattern, regprog_T **prog, char_u *fname, char_u *sfname, char_u *tail, int allow_dirs)); #endif static event_T last_event; static int last_group; static int autocmd_blocked = 0; /* block all autocmds */ /* * Show the autocommands for one AutoPat. */ static void show_autocmd(ap, event) AutoPat *ap; event_T event; { AutoCmd *ac; /* Check for "got_int" (here and at various places below), which is set * when "q" has been hit for the "--more--" prompt */ if (got_int) return; if (ap->pat == NULL) /* pattern has been removed */ return; msg_putchar('\n'); if (got_int) return; if (event != last_event || ap->group != last_group) { if (ap->group != AUGROUP_DEFAULT) { if (AUGROUP_NAME(ap->group) == NULL) msg_puts_attr((char_u *)_("--Deleted--"), hl_attr(HLF_E)); else msg_puts_attr(AUGROUP_NAME(ap->group), hl_attr(HLF_T)); msg_puts((char_u *)" "); } msg_puts_attr(event_nr2name(event), hl_attr(HLF_T)); last_event = event; last_group = ap->group; msg_putchar('\n'); if (got_int) return; } msg_col = 4; msg_outtrans(ap->pat); for (ac = ap->cmds; ac != NULL; ac = ac->next) { if (ac->cmd != NULL) /* skip removed commands */ { if (msg_col >= 14) msg_putchar('\n'); msg_col = 14; if (got_int) return; msg_outtrans(ac->cmd); #ifdef FEAT_EVAL if (p_verbose > 0) last_set_msg(ac->scriptID); #endif if (got_int) return; if (ac->next != NULL) { msg_putchar('\n'); if (got_int) return; } } } } /* * Mark an autocommand pattern for deletion. */ static void au_remove_pat(ap) AutoPat *ap; { vim_free(ap->pat); ap->pat = NULL; ap->buflocal_nr = -1; au_need_clean = TRUE; } /* * Mark all commands for a pattern for deletion. */ static void au_remove_cmds(ap) AutoPat *ap; { AutoCmd *ac; for (ac = ap->cmds; ac != NULL; ac = ac->next) { vim_free(ac->cmd); ac->cmd = NULL; } au_need_clean = TRUE; } /* * Cleanup autocommands and patterns that have been deleted. * This is only done when not executing autocommands. */ static void au_cleanup() { AutoPat *ap, **prev_ap; AutoCmd *ac, **prev_ac; event_T event; if (autocmd_busy || !au_need_clean) return; /* loop over all events */ for (event = (event_T)0; (int)event < (int)NUM_EVENTS; event = (event_T)((int)event + 1)) { /* loop over all autocommand patterns */ prev_ap = &(first_autopat[(int)event]); for (ap = *prev_ap; ap != NULL; ap = *prev_ap) { /* loop over all commands for this pattern */ prev_ac = &(ap->cmds); for (ac = *prev_ac; ac != NULL; ac = *prev_ac) { /* remove the command if the pattern is to be deleted or when * the command has been marked for deletion */ if (ap->pat == NULL || ac->cmd == NULL) { *prev_ac = ac->next; vim_free(ac->cmd); vim_free(ac); } else prev_ac = &(ac->next); } /* remove the pattern if it has been marked for deletion */ if (ap->pat == NULL) { *prev_ap = ap->next; vim_regfree(ap->reg_prog); vim_free(ap); } else prev_ap = &(ap->next); } } au_need_clean = FALSE; } /* * Called when buffer is freed, to remove/invalidate related buffer-local * autocmds. */ void aubuflocal_remove(buf) buf_T *buf; { AutoPat *ap; event_T event; AutoPatCmd *apc; /* invalidate currently executing autocommands */ for (apc = active_apc_list; apc; apc = apc->next) if (buf->b_fnum == apc->arg_bufnr) apc->arg_bufnr = 0; /* invalidate buflocals looping through events */ for (event = (event_T)0; (int)event < (int)NUM_EVENTS; event = (event_T)((int)event + 1)) /* loop over all autocommand patterns */ for (ap = first_autopat[(int)event]; ap != NULL; ap = ap->next) if (ap->buflocal_nr == buf->b_fnum) { au_remove_pat(ap); if (p_verbose >= 6) { verbose_enter(); smsg((char_u *) _("auto-removing autocommand: %s <buffer=%d>"), event_nr2name(event), buf->b_fnum); verbose_leave(); } } au_cleanup(); } /* * Add an autocmd group name. * Return it's ID. Returns AUGROUP_ERROR (< 0) for error. */ static int au_new_group(name) char_u *name; { int i; i = au_find_group(name); if (i == AUGROUP_ERROR) /* the group doesn't exist yet, add it */ { /* First try using a free entry. */ for (i = 0; i < augroups.ga_len; ++i) if (AUGROUP_NAME(i) == NULL) break; if (i == augroups.ga_len && ga_grow(&augroups, 1) == FAIL) return AUGROUP_ERROR; AUGROUP_NAME(i) = vim_strsave(name); if (AUGROUP_NAME(i) == NULL) return AUGROUP_ERROR; if (i == augroups.ga_len) ++augroups.ga_len; } return i; } static void au_del_group(name) char_u *name; { int i; i = au_find_group(name); if (i == AUGROUP_ERROR) /* the group doesn't exist */ EMSG2(_("E367: No such group: \"%s\""), name); else { vim_free(AUGROUP_NAME(i)); AUGROUP_NAME(i) = NULL; } } /* * Find the ID of an autocmd group name. * Return it's ID. Returns AUGROUP_ERROR (< 0) for error. */ static int au_find_group(name) char_u *name; { int i; for (i = 0; i < augroups.ga_len; ++i) if (AUGROUP_NAME(i) != NULL && STRCMP(AUGROUP_NAME(i), name) == 0) return i; return AUGROUP_ERROR; } /* * Return TRUE if augroup "name" exists. */ int au_has_group(name) char_u *name; { return au_find_group(name) != AUGROUP_ERROR; } /* * ":augroup {name}". */ void do_augroup(arg, del_group) char_u *arg; int del_group; { int i; if (del_group) { if (*arg == NUL) EMSG(_(e_argreq)); else au_del_group(arg); } else if (STRICMP(arg, "end") == 0) /* ":aug end": back to group 0 */ current_augroup = AUGROUP_DEFAULT; else if (*arg) /* ":aug xxx": switch to group xxx */ { i = au_new_group(arg); if (i != AUGROUP_ERROR) current_augroup = i; } else /* ":aug": list the group names */ { msg_start(); for (i = 0; i < augroups.ga_len; ++i) { if (AUGROUP_NAME(i) != NULL) { msg_puts(AUGROUP_NAME(i)); msg_puts((char_u *)" "); } } msg_clr_eos(); msg_end(); } } #if defined(EXITFREE) || defined(PROTO) void free_all_autocmds() { for (current_augroup = -1; current_augroup < augroups.ga_len; ++current_augroup) do_autocmd((char_u *)"", TRUE); ga_clear_strings(&augroups); } #endif /* * Return the event number for event name "start". * Return NUM_EVENTS if the event name was not found. * Return a pointer to the next event name in "end". */ static event_T event_name2nr(start, end) char_u *start; char_u **end; { char_u *p; int i; int len; /* the event name ends with end of line, a blank or a comma */ for (p = start; *p && !vim_iswhite(*p) && *p != ','; ++p) ; for (i = 0; event_names[i].name != NULL; ++i) { len = (int)STRLEN(event_names[i].name); if (len == p - start && STRNICMP(event_names[i].name, start, len) == 0) break; } if (*p == ',') ++p; *end = p; if (event_names[i].name == NULL) return NUM_EVENTS; return event_names[i].event; } /* * Return the name for event "event". */ static char_u * event_nr2name(event) event_T event; { int i; for (i = 0; event_names[i].name != NULL; ++i) if (event_names[i].event == event) return (char_u *)event_names[i].name; return (char_u *)"Unknown"; } /* * Scan over the events. "*" stands for all events. */ static char_u * find_end_event(arg, have_group) char_u *arg; int have_group; /* TRUE when group name was found */ { char_u *pat; char_u *p; if (*arg == '*') { if (arg[1] && !vim_iswhite(arg[1])) { EMSG2(_("E215: Illegal character after *: %s"), arg); return NULL; } pat = arg + 1; } else { for (pat = arg; *pat && !vim_iswhite(*pat); pat = p) { if ((int)event_name2nr(pat, &p) >= (int)NUM_EVENTS) { if (have_group) EMSG2(_("E216: No such event: %s"), pat); else EMSG2(_("E216: No such group or event: %s"), pat); return NULL; } } } return pat; } /* * Return TRUE if "event" is included in 'eventignore'. */ static int event_ignored(event) event_T event; { char_u *p = p_ei; while (*p != NUL) { if (STRNICMP(p, "all", 3) == 0 && (p[3] == NUL || p[3] == ',')) return TRUE; if (event_name2nr(p, &p) == event) return TRUE; } return FALSE; } /* * Return OK when the contents of p_ei is valid, FAIL otherwise. */ int check_ei() { char_u *p = p_ei; while (*p) { if (STRNICMP(p, "all", 3) == 0 && (p[3] == NUL || p[3] == ',')) { p += 3; if (*p == ',') ++p; } else if (event_name2nr(p, &p) == NUM_EVENTS) return FAIL; } return OK; } # if defined(FEAT_SYN_HL) || defined(PROTO) /* * Add "what" to 'eventignore' to skip loading syntax highlighting for every * buffer loaded into the window. "what" must start with a comma. * Returns the old value of 'eventignore' in allocated memory. */ char_u * au_event_disable(what) char *what; { char_u *new_ei; char_u *save_ei; save_ei = vim_strsave(p_ei); if (save_ei != NULL) { new_ei = vim_strnsave(p_ei, (int)(STRLEN(p_ei) + STRLEN(what))); if (new_ei != NULL) { if (*what == ',' && *p_ei == NUL) STRCPY(new_ei, what + 1); else STRCAT(new_ei, what); set_string_option_direct((char_u *)"ei", -1, new_ei, OPT_FREE, SID_NONE); vim_free(new_ei); } } return save_ei; } void au_event_restore(old_ei) char_u *old_ei; { if (old_ei != NULL) { set_string_option_direct((char_u *)"ei", -1, old_ei, OPT_FREE, SID_NONE); vim_free(old_ei); } } # endif /* FEAT_SYN_HL */ /* * do_autocmd() -- implements the :autocmd command. Can be used in the * following ways: * * :autocmd <event> <pat> <cmd> Add <cmd> to the list of commands that * will be automatically executed for <event> * when editing a file matching <pat>, in * the current group. * :autocmd <event> <pat> Show the auto-commands associated with * <event> and <pat>. * :autocmd <event> Show the auto-commands associated with * <event>. * :autocmd Show all auto-commands. * :autocmd! <event> <pat> <cmd> Remove all auto-commands associated with * <event> and <pat>, and add the command * <cmd>, for the current group. * :autocmd! <event> <pat> Remove all auto-commands associated with * <event> and <pat> for the current group. * :autocmd! <event> Remove all auto-commands associated with * <event> for the current group. * :autocmd! Remove ALL auto-commands for the current * group. * * Multiple events and patterns may be given separated by commas. Here are * some examples: * :autocmd bufread,bufenter *.c,*.h set tw=0 smartindent noic * :autocmd bufleave * set tw=79 nosmartindent ic infercase * * :autocmd * *.c show all autocommands for *.c files. * * Mostly a {group} argument can optionally appear before <event>. */ void do_autocmd(arg, forceit) char_u *arg; int forceit; { char_u *pat; char_u *envpat = NULL; char_u *cmd; event_T event; int need_free = FALSE; int nested = FALSE; int group; /* * Check for a legal group name. If not, use AUGROUP_ALL. */ group = au_get_grouparg(&arg); if (arg == NULL) /* out of memory */ return; /* * Scan over the events. * If we find an illegal name, return here, don't do anything. */ pat = find_end_event(arg, group != AUGROUP_ALL); if (pat == NULL) return; /* * Scan over the pattern. Put a NUL at the end. */ pat = skipwhite(pat); cmd = pat; while (*cmd && (!vim_iswhite(*cmd) || cmd[-1] == '\\')) cmd++; if (*cmd) *cmd++ = NUL; /* Expand environment variables in the pattern. Set 'shellslash', we want * forward slashes here. */ if (vim_strchr(pat, '$') != NULL || vim_strchr(pat, '~') != NULL) { #ifdef BACKSLASH_IN_FILENAME int p_ssl_save = p_ssl; p_ssl = TRUE; #endif envpat = expand_env_save(pat); #ifdef BACKSLASH_IN_FILENAME p_ssl = p_ssl_save; #endif if (envpat != NULL) pat = envpat; } /* * Check for "nested" flag. */ cmd = skipwhite(cmd); if (*cmd != NUL && STRNCMP(cmd, "nested", 6) == 0 && vim_iswhite(cmd[6])) { nested = TRUE; cmd = skipwhite(cmd + 6); } /* * Find the start of the commands. * Expand <sfile> in it. */ if (*cmd != NUL) { cmd = expand_sfile(cmd); if (cmd == NULL) /* some error */ return; need_free = TRUE; } /* * Print header when showing autocommands. */ if (!forceit && *cmd == NUL) { /* Highlight title */ MSG_PUTS_TITLE(_("\n--- Auto-Commands ---")); } /* * Loop over the events. */ last_event = (event_T)-1; /* for listing the event name */ last_group = AUGROUP_ERROR; /* for listing the group name */ if (*arg == '*' || *arg == NUL) { for (event = (event_T)0; (int)event < (int)NUM_EVENTS; event = (event_T)((int)event + 1)) if (do_autocmd_event(event, pat, nested, cmd, forceit, group) == FAIL) break; } else { while (*arg && !vim_iswhite(*arg)) if (do_autocmd_event(event_name2nr(arg, &arg), pat, nested, cmd, forceit, group) == FAIL) break; } if (need_free) vim_free(cmd); vim_free(envpat); } /* * Find the group ID in a ":autocmd" or ":doautocmd" argument. * The "argp" argument is advanced to the following argument. * * Returns the group ID, AUGROUP_ERROR for error (out of memory). */ static int au_get_grouparg(argp) char_u **argp; { char_u *group_name; char_u *p; char_u *arg = *argp; int group = AUGROUP_ALL; p = skiptowhite(arg); if (p > arg) { group_name = vim_strnsave(arg, (int)(p - arg)); if (group_name == NULL) /* out of memory */ return AUGROUP_ERROR; group = au_find_group(group_name); if (group == AUGROUP_ERROR) group = AUGROUP_ALL; /* no match, use all groups */ else *argp = skipwhite(p); /* match, skip over group name */ vim_free(group_name); } return group; } /* * do_autocmd() for one event. * If *pat == NUL do for all patterns. * If *cmd == NUL show entries. * If forceit == TRUE delete entries. * If group is not AUGROUP_ALL, only use this group. */ static int do_autocmd_event(event, pat, nested, cmd, forceit, group) event_T event; char_u *pat; int nested; char_u *cmd; int forceit; int group; { AutoPat *ap; AutoPat **prev_ap; AutoCmd *ac; AutoCmd **prev_ac; int brace_level; char_u *endpat; int findgroup; int allgroups; int patlen; int is_buflocal; int buflocal_nr; char_u buflocal_pat[25]; /* for "<buffer=X>" */ if (group == AUGROUP_ALL) findgroup = current_augroup; else findgroup = group; allgroups = (group == AUGROUP_ALL && !forceit && *cmd == NUL); /* * Show or delete all patterns for an event. */ if (*pat == NUL) { for (ap = first_autopat[(int)event]; ap != NULL; ap = ap->next) { if (forceit) /* delete the AutoPat, if it's in the current group */ { if (ap->group == findgroup) au_remove_pat(ap); } else if (group == AUGROUP_ALL || ap->group == group) show_autocmd(ap, event); } } /* * Loop through all the specified patterns. */ for ( ; *pat; pat = (*endpat == ',' ? endpat + 1 : endpat)) { /* * Find end of the pattern. * Watch out for a comma in braces, like "*.\{obj,o\}". */ brace_level = 0; for (endpat = pat; *endpat && (*endpat != ',' || brace_level || (endpat > pat && endpat[-1] == '\\')); ++endpat) { if (*endpat == '{') brace_level++; else if (*endpat == '}') brace_level--; } if (pat == endpat) /* ignore single comma */ continue; patlen = (int)(endpat - pat); /* * detect special <buflocal[=X]> buffer-local patterns */ is_buflocal = FALSE; buflocal_nr = 0; if (patlen >= 8 && STRNCMP(pat, "<buffer", 7) == 0 && pat[patlen - 1] == '>') { /* "<buffer...>": Error will be printed only for addition. * printing and removing will proceed silently. */ is_buflocal = TRUE; if (patlen == 8) /* "<buffer>" */ buflocal_nr = curbuf->b_fnum; else if (patlen > 9 && pat[7] == '=') { if (patlen == 13 && STRNICMP(pat, "<buffer=abuf>", 13) == 0) /* "<buffer=abuf>" */ buflocal_nr = autocmd_bufnr; else if (skipdigits(pat + 8) == pat + patlen - 1) /* "<buffer=123>" */ buflocal_nr = atoi((char *)pat + 8); } } if (is_buflocal) { /* normalize pat into standard "<buffer>#N" form */ sprintf((char *)buflocal_pat, "<buffer=%d>", buflocal_nr); pat = buflocal_pat; /* can modify pat and patlen */ patlen = (int)STRLEN(buflocal_pat); /* but not endpat */ } /* * Find AutoPat entries with this pattern. */ prev_ap = &first_autopat[(int)event]; while ((ap = *prev_ap) != NULL) { if (ap->pat != NULL) { /* Accept a pattern when: * - a group was specified and it's that group, or a group was * not specified and it's the current group, or a group was * not specified and we are listing * - the length of the pattern matches * - the pattern matches. * For <buffer[=X]>, this condition works because we normalize * all buffer-local patterns. */ if ((allgroups || ap->group == findgroup) && ap->patlen == patlen && STRNCMP(pat, ap->pat, patlen) == 0) { /* * Remove existing autocommands. * If adding any new autocmd's for this AutoPat, don't * delete the pattern from the autopat list, append to * this list. */ if (forceit) { if (*cmd != NUL && ap->next == NULL) { au_remove_cmds(ap); break; } au_remove_pat(ap); } /* * Show autocmd's for this autopat, or buflocals <buffer=X> */ else if (*cmd == NUL) show_autocmd(ap, event); /* * Add autocmd to this autopat, if it's the last one. */ else if (ap->next == NULL) break; } } prev_ap = &ap->next; } /* * Add a new command. */ if (*cmd != NUL) { /* * If the pattern we want to add a command to does appear at the * end of the list (or not is not in the list at all), add the * pattern at the end of the list. */ if (ap == NULL) { /* refuse to add buffer-local ap if buffer number is invalid */ if (is_buflocal && (buflocal_nr == 0 || buflist_findnr(buflocal_nr) == NULL)) { EMSGN(_("E680: <buffer=%d>: invalid buffer number "), buflocal_nr); return FAIL; } ap = (AutoPat *)alloc((unsigned)sizeof(AutoPat)); if (ap == NULL) return FAIL; ap->pat = vim_strnsave(pat, patlen); ap->patlen = patlen; if (ap->pat == NULL) { vim_free(ap); return FAIL; } if (is_buflocal) { ap->buflocal_nr = buflocal_nr; ap->reg_prog = NULL; } else { char_u *reg_pat; ap->buflocal_nr = 0; reg_pat = file_pat_to_reg_pat(pat, endpat, &ap->allow_dirs, TRUE); if (reg_pat != NULL) ap->reg_prog = vim_regcomp(reg_pat, RE_MAGIC); vim_free(reg_pat); if (reg_pat == NULL || ap->reg_prog == NULL) { vim_free(ap->pat); vim_free(ap); return FAIL; } } ap->cmds = NULL; *prev_ap = ap; ap->next = NULL; if (group == AUGROUP_ALL) ap->group = current_augroup; else ap->group = group; } /* * Add the autocmd at the end of the AutoCmd list. */ prev_ac = &(ap->cmds); while ((ac = *prev_ac) != NULL) prev_ac = &ac->next; ac = (AutoCmd *)alloc((unsigned)sizeof(AutoCmd)); if (ac == NULL) return FAIL; ac->cmd = vim_strsave(cmd); #ifdef FEAT_EVAL ac->scriptID = current_SID; #endif if (ac->cmd == NULL) { vim_free(ac); return FAIL; } ac->next = NULL; *prev_ac = ac; ac->nested = nested; } } au_cleanup(); /* may really delete removed patterns/commands now */ return OK; } /* * Implementation of ":doautocmd [group] event [fname]". * Return OK for success, FAIL for failure; */ int do_doautocmd(arg, do_msg) char_u *arg; int do_msg; /* give message for no matching autocmds? */ { char_u *fname; int nothing_done = TRUE; int group; /* * Check for a legal group name. If not, use AUGROUP_ALL. */ group = au_get_grouparg(&arg); if (arg == NULL) /* out of memory */ return FAIL; if (*arg == '*') { EMSG(_("E217: Can't execute autocommands for ALL events")); return FAIL; } /* * Scan over the events. * If we find an illegal name, return here, don't do anything. */ fname = find_end_event(arg, group != AUGROUP_ALL); if (fname == NULL) return FAIL; fname = skipwhite(fname); /* * Loop over the events. */ while (*arg && !vim_iswhite(*arg)) if (apply_autocmds_group(event_name2nr(arg, &arg), fname, NULL, TRUE, group, curbuf, NULL)) nothing_done = FALSE; if (nothing_done && do_msg) MSG(_("No matching autocommands")); #ifdef FEAT_EVAL return aborting() ? FAIL : OK; #else return OK; #endif } /* * ":doautoall": execute autocommands for each loaded buffer. */ void ex_doautoall(eap) exarg_T *eap; { int retval; aco_save_T aco; buf_T *buf; char_u *arg = eap->arg; int call_do_modelines = check_nomodeline(&arg); /* * This is a bit tricky: For some commands curwin->w_buffer needs to be * equal to curbuf, but for some buffers there may not be a window. * So we change the buffer for the current window for a moment. This * gives problems when the autocommands make changes to the list of * buffers or windows... */ for (buf = firstbuf; buf != NULL; buf = buf->b_next) { if (buf->b_ml.ml_mfp != NULL) { /* find a window for this buffer and save some values */ aucmd_prepbuf(&aco, buf); /* execute the autocommands for this buffer */ retval = do_doautocmd(arg, FALSE); if (call_do_modelines) { /* Execute the modeline settings, but don't set window-local * options if we are using the current window for another * buffer. */ do_modelines(curwin == aucmd_win ? OPT_NOWIN : 0); } /* restore the current window */ aucmd_restbuf(&aco); /* stop if there is some error or buffer was deleted */ if (retval == FAIL || !buf_valid(buf)) break; } } check_cursor(); /* just in case lines got deleted */ } /* * Check *argp for <nomodeline>. When it is present return FALSE, otherwise * return TRUE and advance *argp to after it. * Thus return TRUE when do_modelines() should be called. */ int check_nomodeline(argp) char_u **argp; { if (STRNCMP(*argp, "<nomodeline>", 12) == 0) { *argp = skipwhite(*argp + 12); return FALSE; } return TRUE; } /* * Prepare for executing autocommands for (hidden) buffer "buf". * Search for a visible window containing the current buffer. If there isn't * one then use "aucmd_win". * Set "curbuf" and "curwin" to match "buf". * When FEAT_AUTOCMD is not defined another version is used, see below. */ void aucmd_prepbuf(aco, buf) aco_save_T *aco; /* structure to save values in */ buf_T *buf; /* new curbuf */ { win_T *win; #ifdef FEAT_WINDOWS int save_ea; #endif #ifdef FEAT_AUTOCHDIR int save_acd; #endif /* Find a window that is for the new buffer */ if (buf == curbuf) /* be quick when buf is curbuf */ win = curwin; else #ifdef FEAT_WINDOWS for (win = firstwin; win != NULL; win = win->w_next) if (win->w_buffer == buf) break; #else win = NULL; #endif /* Allocate "aucmd_win" when needed. If this fails (out of memory) fall * back to using the current window. */ if (win == NULL && aucmd_win == NULL) { win_alloc_aucmd_win(); if (aucmd_win == NULL) win = curwin; } if (win == NULL && aucmd_win_used) /* Strange recursive autocommand, fall back to using the current * window. Expect a few side effects... */ win = curwin; aco->save_curwin = curwin; aco->save_curbuf = curbuf; if (win != NULL) { /* There is a window for "buf" in the current tab page, make it the * curwin. This is preferred, it has the least side effects (esp. if * "buf" is curbuf). */ aco->use_aucmd_win = FALSE; curwin = win; } else { /* There is no window for "buf", use "aucmd_win". To minimize the side * effects, insert it in the current tab page. * Anything related to a window (e.g., setting folds) may have * unexpected results. */ aco->use_aucmd_win = TRUE; aucmd_win_used = TRUE; aucmd_win->w_buffer = buf; aucmd_win->w_s = &buf->b_s; ++buf->b_nwindows; win_init_empty(aucmd_win); /* set cursor and topline to safe values */ /* Make sure w_localdir and globaldir are NULL to avoid a chdir() in * win_enter_ext(). */ vim_free(aucmd_win->w_localdir); aucmd_win->w_localdir = NULL; aco->globaldir = globaldir; globaldir = NULL; #ifdef FEAT_WINDOWS /* Split the current window, put the aucmd_win in the upper half. * We don't want the BufEnter or WinEnter autocommands. */ block_autocmds(); make_snapshot(SNAP_AUCMD_IDX); save_ea = p_ea; p_ea = FALSE; # ifdef FEAT_AUTOCHDIR /* Prevent chdir() call in win_enter_ext(), through do_autochdir(). */ save_acd = p_acd; p_acd = FALSE; # endif (void)win_split_ins(0, WSP_TOP, aucmd_win, 0); (void)win_comp_pos(); /* recompute window positions */ p_ea = save_ea; # ifdef FEAT_AUTOCHDIR p_acd = save_acd; # endif unblock_autocmds(); #endif curwin = aucmd_win; } curbuf = buf; aco->new_curwin = curwin; aco->new_curbuf = curbuf; } /* * Cleanup after executing autocommands for a (hidden) buffer. * Restore the window as it was (if possible). * When FEAT_AUTOCMD is not defined another version is used, see below. */ void aucmd_restbuf(aco) aco_save_T *aco; /* structure holding saved values */ { #ifdef FEAT_WINDOWS int dummy; #endif if (aco->use_aucmd_win) { --curbuf->b_nwindows; #ifdef FEAT_WINDOWS /* Find "aucmd_win", it can't be closed, but it may be in another tab * page. Do not trigger autocommands here. */ block_autocmds(); if (curwin != aucmd_win) { tabpage_T *tp; win_T *wp; FOR_ALL_TAB_WINDOWS(tp, wp) { if (wp == aucmd_win) { if (tp != curtab) goto_tabpage_tp(tp, TRUE, TRUE); win_goto(aucmd_win); goto win_found; } } } win_found: /* Remove the window and frame from the tree of frames. */ (void)winframe_remove(curwin, &dummy, NULL); win_remove(curwin, NULL); aucmd_win_used = FALSE; last_status(FALSE); /* may need to remove last status line */ restore_snapshot(SNAP_AUCMD_IDX, FALSE); (void)win_comp_pos(); /* recompute window positions */ unblock_autocmds(); if (win_valid(aco->save_curwin)) curwin = aco->save_curwin; else /* Hmm, original window disappeared. Just use the first one. */ curwin = firstwin; # ifdef FEAT_EVAL vars_clear(&aucmd_win->w_vars->dv_hashtab); /* free all w: variables */ hash_init(&aucmd_win->w_vars->dv_hashtab); /* re-use the hashtab */ # endif #else curwin = aco->save_curwin; #endif curbuf = curwin->w_buffer; vim_free(globaldir); globaldir = aco->globaldir; /* the buffer contents may have changed */ check_cursor(); if (curwin->w_topline > curbuf->b_ml.ml_line_count) { curwin->w_topline = curbuf->b_ml.ml_line_count; #ifdef FEAT_DIFF curwin->w_topfill = 0; #endif } #if defined(FEAT_GUI) /* Hide the scrollbars from the aucmd_win and update. */ gui_mch_enable_scrollbar(&aucmd_win->w_scrollbars[SBAR_LEFT], FALSE); gui_mch_enable_scrollbar(&aucmd_win->w_scrollbars[SBAR_RIGHT], FALSE); gui_may_update_scrollbars(); #endif } else { /* restore curwin */ #ifdef FEAT_WINDOWS if (win_valid(aco->save_curwin)) #endif { /* Restore the buffer which was previously edited by curwin, if * it was changed, we are still the same window and the buffer is * valid. */ if (curwin == aco->new_curwin && curbuf != aco->new_curbuf && buf_valid(aco->new_curbuf) && aco->new_curbuf->b_ml.ml_mfp != NULL) { # if defined(FEAT_SYN_HL) || defined(FEAT_SPELL) if (curwin->w_s == &curbuf->b_s) curwin->w_s = &aco->new_curbuf->b_s; # endif --curbuf->b_nwindows; curbuf = aco->new_curbuf; curwin->w_buffer = curbuf; ++curbuf->b_nwindows; } curwin = aco->save_curwin; curbuf = curwin->w_buffer; /* In case the autocommand move the cursor to a position that that * not exist in curbuf. */ check_cursor(); } } } static int autocmd_nested = FALSE; /* * Execute autocommands for "event" and file name "fname". * Return TRUE if some commands were executed. */ int apply_autocmds(event, fname, fname_io, force, buf) event_T event; char_u *fname; /* NULL or empty means use actual file name */ char_u *fname_io; /* fname to use for <afile> on cmdline */ int force; /* when TRUE, ignore autocmd_busy */ buf_T *buf; /* buffer for <abuf> */ { return apply_autocmds_group(event, fname, fname_io, force, AUGROUP_ALL, buf, NULL); } /* * Like apply_autocmds(), but with extra "eap" argument. This takes care of * setting v:filearg. */ static int apply_autocmds_exarg(event, fname, fname_io, force, buf, eap) event_T event; char_u *fname; char_u *fname_io; int force; buf_T *buf; exarg_T *eap; { return apply_autocmds_group(event, fname, fname_io, force, AUGROUP_ALL, buf, eap); } /* * Like apply_autocmds(), but handles the caller's retval. If the script * processing is being aborted or if retval is FAIL when inside a try * conditional, no autocommands are executed. If otherwise the autocommands * cause the script to be aborted, retval is set to FAIL. */ int apply_autocmds_retval(event, fname, fname_io, force, buf, retval) event_T event; char_u *fname; /* NULL or empty means use actual file name */ char_u *fname_io; /* fname to use for <afile> on cmdline */ int force; /* when TRUE, ignore autocmd_busy */ buf_T *buf; /* buffer for <abuf> */ int *retval; /* pointer to caller's retval */ { int did_cmd; #ifdef FEAT_EVAL if (should_abort(*retval)) return FALSE; #endif did_cmd = apply_autocmds_group(event, fname, fname_io, force, AUGROUP_ALL, buf, NULL); if (did_cmd #ifdef FEAT_EVAL && aborting() #endif ) *retval = FAIL; return did_cmd; } /* * Return TRUE when there is a CursorHold autocommand defined. */ int has_cursorhold() { return (first_autopat[(int)(get_real_state() == NORMAL_BUSY ? EVENT_CURSORHOLD : EVENT_CURSORHOLDI)] != NULL); } /* * Return TRUE if the CursorHold event can be triggered. */ int trigger_cursorhold() { int state; if (!did_cursorhold && has_cursorhold() && !Recording && typebuf.tb_len == 0 #ifdef FEAT_INS_EXPAND && !ins_compl_active() #endif ) { state = get_real_state(); if (state == NORMAL_BUSY || (state & INSERT) != 0) return TRUE; } return FALSE; } /* * Return TRUE when there is a CursorMoved autocommand defined. */ int has_cursormoved() { return (first_autopat[(int)EVENT_CURSORMOVED] != NULL); } /* * Return TRUE when there is a CursorMovedI autocommand defined. */ int has_cursormovedI() { return (first_autopat[(int)EVENT_CURSORMOVEDI] != NULL); } /* * Return TRUE when there is a TextChanged autocommand defined. */ int has_textchanged() { return (first_autopat[(int)EVENT_TEXTCHANGED] != NULL); } /* * Return TRUE when there is a TextChangedI autocommand defined. */ int has_textchangedI() { return (first_autopat[(int)EVENT_TEXTCHANGEDI] != NULL); } /* * Return TRUE when there is an InsertCharPre autocommand defined. */ int has_insertcharpre() { return (first_autopat[(int)EVENT_INSERTCHARPRE] != NULL); } /* * Return TRUE when there is an CmdUndefined autocommand defined. */ int has_cmdundefined() { return (first_autopat[(int)EVENT_CMDUNDEFINED] != NULL); } /* * Return TRUE when there is an FuncUndefined autocommand defined. */ int has_funcundefined() { return (first_autopat[(int)EVENT_FUNCUNDEFINED] != NULL); } static int apply_autocmds_group(event, fname, fname_io, force, group, buf, eap) event_T event; char_u *fname; /* NULL or empty means use actual file name */ char_u *fname_io; /* fname to use for <afile> on cmdline, NULL means use fname */ int force; /* when TRUE, ignore autocmd_busy */ int group; /* group ID, or AUGROUP_ALL */ buf_T *buf; /* buffer for <abuf> */ exarg_T *eap; /* command arguments */ { char_u *sfname = NULL; /* short file name */ char_u *tail; int save_changed; buf_T *old_curbuf; int retval = FALSE; char_u *save_sourcing_name; linenr_T save_sourcing_lnum; char_u *save_autocmd_fname; int save_autocmd_fname_full; int save_autocmd_bufnr; char_u *save_autocmd_match; int save_autocmd_busy; int save_autocmd_nested; static int nesting = 0; AutoPatCmd patcmd; AutoPat *ap; #ifdef FEAT_EVAL scid_T save_current_SID; void *save_funccalp; char_u *save_cmdarg; long save_cmdbang; #endif static int filechangeshell_busy = FALSE; #ifdef FEAT_PROFILE proftime_T wait_time; #endif int did_save_redobuff = FALSE; /* * Quickly return if there are no autocommands for this event or * autocommands are blocked. */ if (first_autopat[(int)event] == NULL || autocmd_blocked > 0) goto BYPASS_AU; /* * When autocommands are busy, new autocommands are only executed when * explicitly enabled with the "nested" flag. */ if (autocmd_busy && !(force || autocmd_nested)) goto BYPASS_AU; #ifdef FEAT_EVAL /* * Quickly return when immediately aborting on error, or when an interrupt * occurred or an exception was thrown but not caught. */ if (aborting()) goto BYPASS_AU; #endif /* * FileChangedShell never nests, because it can create an endless loop. */ if (filechangeshell_busy && (event == EVENT_FILECHANGEDSHELL || event == EVENT_FILECHANGEDSHELLPOST)) goto BYPASS_AU; /* * Ignore events in 'eventignore'. */ if (event_ignored(event)) goto BYPASS_AU; /* * Allow nesting of autocommands, but restrict the depth, because it's * possible to create an endless loop. */ if (nesting == 10) { EMSG(_("E218: autocommand nesting too deep")); goto BYPASS_AU; } /* * Check if these autocommands are disabled. Used when doing ":all" or * ":ball". */ if ( (autocmd_no_enter && (event == EVENT_WINENTER || event == EVENT_BUFENTER)) || (autocmd_no_leave && (event == EVENT_WINLEAVE || event == EVENT_BUFLEAVE))) goto BYPASS_AU; /* * Save the autocmd_* variables and info about the current buffer. */ save_autocmd_fname = autocmd_fname; save_autocmd_fname_full = autocmd_fname_full; save_autocmd_bufnr = autocmd_bufnr; save_autocmd_match = autocmd_match; save_autocmd_busy = autocmd_busy; save_autocmd_nested = autocmd_nested; save_changed = curbuf->b_changed; old_curbuf = curbuf; /* * Set the file name to be used for <afile>. * Make a copy to avoid that changing a buffer name or directory makes it * invalid. */ if (fname_io == NULL) { if (event == EVENT_COLORSCHEME || event == EVENT_OPTIONSET) autocmd_fname = NULL; else if (fname != NULL && *fname != NUL) autocmd_fname = fname; else if (buf != NULL) autocmd_fname = buf->b_ffname; else autocmd_fname = NULL; } else autocmd_fname = fname_io; if (autocmd_fname != NULL) autocmd_fname = vim_strsave(autocmd_fname); autocmd_fname_full = FALSE; /* call FullName_save() later */ /* * Set the buffer number to be used for <abuf>. */ if (buf == NULL) autocmd_bufnr = 0; else autocmd_bufnr = buf->b_fnum; /* * When the file name is NULL or empty, use the file name of buffer "buf". * Always use the full path of the file name to match with, in case * "allow_dirs" is set. */ if (fname == NULL || *fname == NUL) { if (buf == NULL) fname = NULL; else { #ifdef FEAT_SYN_HL if (event == EVENT_SYNTAX) fname = buf->b_p_syn; else #endif if (event == EVENT_FILETYPE) fname = buf->b_p_ft; else { if (buf->b_sfname != NULL) sfname = vim_strsave(buf->b_sfname); fname = buf->b_ffname; } } if (fname == NULL) fname = (char_u *)""; fname = vim_strsave(fname); /* make a copy, so we can change it */ } else { sfname = vim_strsave(fname); /* Don't try expanding FileType, Syntax, FuncUndefined, WindowID, * ColorScheme or QuickFixCmd* */ if (event == EVENT_FILETYPE || event == EVENT_SYNTAX || event == EVENT_FUNCUNDEFINED || event == EVENT_REMOTEREPLY || event == EVENT_SPELLFILEMISSING || event == EVENT_QUICKFIXCMDPRE || event == EVENT_COLORSCHEME || event == EVENT_OPTIONSET || event == EVENT_QUICKFIXCMDPOST) fname = vim_strsave(fname); else fname = FullName_save(fname, FALSE); } if (fname == NULL) /* out of memory */ { vim_free(sfname); retval = FALSE; goto BYPASS_AU; } #ifdef BACKSLASH_IN_FILENAME /* * Replace all backslashes with forward slashes. This makes the * autocommand patterns portable between Unix and MS-DOS. */ if (sfname != NULL) forward_slash(sfname); forward_slash(fname); #endif #ifdef VMS /* remove version for correct match */ if (sfname != NULL) vms_remove_version(sfname); vms_remove_version(fname); #endif /* * Set the name to be used for <amatch>. */ autocmd_match = fname; /* Don't redraw while doing auto commands. */ ++RedrawingDisabled; save_sourcing_name = sourcing_name; sourcing_name = NULL; /* don't free this one */ save_sourcing_lnum = sourcing_lnum; sourcing_lnum = 0; /* no line number here */ #ifdef FEAT_EVAL save_current_SID = current_SID; # ifdef FEAT_PROFILE if (do_profiling == PROF_YES) prof_child_enter(&wait_time); /* doesn't count for the caller itself */ # endif /* Don't use local function variables, if called from a function */ save_funccalp = save_funccal(); #endif /* * When starting to execute autocommands, save the search patterns. */ if (!autocmd_busy) { save_search_patterns(); #ifdef FEAT_INS_EXPAND if (!ins_compl_active()) #endif { saveRedobuff(); did_save_redobuff = TRUE; } did_filetype = keep_filetype; } /* * Note that we are applying autocmds. Some commands need to know. */ autocmd_busy = TRUE; filechangeshell_busy = (event == EVENT_FILECHANGEDSHELL); ++nesting; /* see matching decrement below */ /* Remember that FileType was triggered. Used for did_filetype(). */ if (event == EVENT_FILETYPE) did_filetype = TRUE; tail = gettail(fname); /* Find first autocommand that matches */ patcmd.curpat = first_autopat[(int)event]; patcmd.nextcmd = NULL; patcmd.group = group; patcmd.fname = fname; patcmd.sfname = sfname; patcmd.tail = tail; patcmd.event = event; patcmd.arg_bufnr = autocmd_bufnr; patcmd.next = NULL; auto_next_pat(&patcmd, FALSE); /* found one, start executing the autocommands */ if (patcmd.curpat != NULL) { /* add to active_apc_list */ patcmd.next = active_apc_list; active_apc_list = &patcmd; #ifdef FEAT_EVAL /* set v:cmdarg (only when there is a matching pattern) */ save_cmdbang = get_vim_var_nr(VV_CMDBANG); if (eap != NULL) { save_cmdarg = set_cmdarg(eap, NULL); set_vim_var_nr(VV_CMDBANG, (long)eap->forceit); } else save_cmdarg = NULL; /* avoid gcc warning */ #endif retval = TRUE; /* mark the last pattern, to avoid an endless loop when more patterns * are added when executing autocommands */ for (ap = patcmd.curpat; ap->next != NULL; ap = ap->next) ap->last = FALSE; ap->last = TRUE; check_lnums(TRUE); /* make sure cursor and topline are valid */ do_cmdline(NULL, getnextac, (void *)&patcmd, DOCMD_NOWAIT|DOCMD_VERBOSE|DOCMD_REPEAT); #ifdef FEAT_EVAL if (eap != NULL) { (void)set_cmdarg(NULL, save_cmdarg); set_vim_var_nr(VV_CMDBANG, save_cmdbang); } #endif /* delete from active_apc_list */ if (active_apc_list == &patcmd) /* just in case */ active_apc_list = patcmd.next; } --RedrawingDisabled; autocmd_busy = save_autocmd_busy; filechangeshell_busy = FALSE; autocmd_nested = save_autocmd_nested; vim_free(sourcing_name); sourcing_name = save_sourcing_name; sourcing_lnum = save_sourcing_lnum; vim_free(autocmd_fname); autocmd_fname = save_autocmd_fname; autocmd_fname_full = save_autocmd_fname_full; autocmd_bufnr = save_autocmd_bufnr; autocmd_match = save_autocmd_match; #ifdef FEAT_EVAL current_SID = save_current_SID; restore_funccal(save_funccalp); # ifdef FEAT_PROFILE if (do_profiling == PROF_YES) prof_child_exit(&wait_time); # endif #endif vim_free(fname); vim_free(sfname); --nesting; /* see matching increment above */ /* * When stopping to execute autocommands, restore the search patterns and * the redo buffer. Free any buffers in the au_pending_free_buf list and * free any windows in the au_pending_free_win list. */ if (!autocmd_busy) { restore_search_patterns(); if (did_save_redobuff) restoreRedobuff(); did_filetype = FALSE; while (au_pending_free_buf != NULL) { buf_T *b = au_pending_free_buf->b_next; vim_free(au_pending_free_buf); au_pending_free_buf = b; } while (au_pending_free_win != NULL) { win_T *w = au_pending_free_win->w_next; vim_free(au_pending_free_win); au_pending_free_win = w; } } /* * Some events don't set or reset the Changed flag. * Check if still in the same buffer! */ if (curbuf == old_curbuf && (event == EVENT_BUFREADPOST || event == EVENT_BUFWRITEPOST || event == EVENT_FILEAPPENDPOST || event == EVENT_VIMLEAVE || event == EVENT_VIMLEAVEPRE)) { #ifdef FEAT_TITLE if (curbuf->b_changed != save_changed) need_maketitle = TRUE; #endif curbuf->b_changed = save_changed; } au_cleanup(); /* may really delete removed patterns/commands now */ BYPASS_AU: /* When wiping out a buffer make sure all its buffer-local autocommands * are deleted. */ if (event == EVENT_BUFWIPEOUT && buf != NULL) aubuflocal_remove(buf); return retval; } # ifdef FEAT_EVAL static char_u *old_termresponse = NULL; # endif /* * Block triggering autocommands until unblock_autocmd() is called. * Can be used recursively, so long as it's symmetric. */ void block_autocmds() { # ifdef FEAT_EVAL /* Remember the value of v:termresponse. */ if (autocmd_blocked == 0) old_termresponse = get_vim_var_str(VV_TERMRESPONSE); # endif ++autocmd_blocked; } void unblock_autocmds() { --autocmd_blocked; # ifdef FEAT_EVAL /* When v:termresponse was set while autocommands were blocked, trigger * the autocommands now. Esp. useful when executing a shell command * during startup (vimdiff). */ if (autocmd_blocked == 0 && get_vim_var_str(VV_TERMRESPONSE) != old_termresponse) apply_autocmds(EVENT_TERMRESPONSE, NULL, NULL, FALSE, curbuf); # endif } int is_autocmd_blocked() { return autocmd_blocked != 0; } /* * Find next autocommand pattern that matches. */ static void auto_next_pat(apc, stop_at_last) AutoPatCmd *apc; int stop_at_last; /* stop when 'last' flag is set */ { AutoPat *ap; AutoCmd *cp; char_u *name; char *s; vim_free(sourcing_name); sourcing_name = NULL; for (ap = apc->curpat; ap != NULL && !got_int; ap = ap->next) { apc->curpat = NULL; /* Only use a pattern when it has not been removed, has commands and * the group matches. For buffer-local autocommands only check the * buffer number. */ if (ap->pat != NULL && ap->cmds != NULL && (apc->group == AUGROUP_ALL || apc->group == ap->group)) { /* execution-condition */ if (ap->buflocal_nr == 0 ? (match_file_pat(NULL, &ap->reg_prog, apc->fname, apc->sfname, apc->tail, ap->allow_dirs)) : ap->buflocal_nr == apc->arg_bufnr) { name = event_nr2name(apc->event); s = _("%s Auto commands for \"%s\""); sourcing_name = alloc((unsigned)(STRLEN(s) + STRLEN(name) + ap->patlen + 1)); if (sourcing_name != NULL) { sprintf((char *)sourcing_name, s, (char *)name, (char *)ap->pat); if (p_verbose >= 8) { verbose_enter(); smsg((char_u *)_("Executing %s"), sourcing_name); verbose_leave(); } } apc->curpat = ap; apc->nextcmd = ap->cmds; /* mark last command */ for (cp = ap->cmds; cp->next != NULL; cp = cp->next) cp->last = FALSE; cp->last = TRUE; } line_breakcheck(); if (apc->curpat != NULL) /* found a match */ break; } if (stop_at_last && ap->last) break; } } /* * Get next autocommand command. * Called by do_cmdline() to get the next line for ":if". * Returns allocated string, or NULL for end of autocommands. */ char_u * getnextac(c, cookie, indent) int c UNUSED; void *cookie; int indent UNUSED; { AutoPatCmd *acp = (AutoPatCmd *)cookie; char_u *retval; AutoCmd *ac; /* Can be called again after returning the last line. */ if (acp->curpat == NULL) return NULL; /* repeat until we find an autocommand to execute */ for (;;) { /* skip removed commands */ while (acp->nextcmd != NULL && acp->nextcmd->cmd == NULL) if (acp->nextcmd->last) acp->nextcmd = NULL; else acp->nextcmd = acp->nextcmd->next; if (acp->nextcmd != NULL) break; /* at end of commands, find next pattern that matches */ if (acp->curpat->last) acp->curpat = NULL; else acp->curpat = acp->curpat->next; if (acp->curpat != NULL) auto_next_pat(acp, TRUE); if (acp->curpat == NULL) return NULL; } ac = acp->nextcmd; if (p_verbose >= 9) { verbose_enter_scroll(); smsg((char_u *)_("autocommand %s"), ac->cmd); msg_puts((char_u *)"\n"); /* don't overwrite this either */ verbose_leave_scroll(); } retval = vim_strsave(ac->cmd); autocmd_nested = ac->nested; #ifdef FEAT_EVAL current_SID = ac->scriptID; #endif if (ac->last) acp->nextcmd = NULL; else acp->nextcmd = ac->next; return retval; } /* * Return TRUE if there is a matching autocommand for "fname". * To account for buffer-local autocommands, function needs to know * in which buffer the file will be opened. */ int has_autocmd(event, sfname, buf) event_T event; char_u *sfname; buf_T *buf; { AutoPat *ap; char_u *fname; char_u *tail = gettail(sfname); int retval = FALSE; fname = FullName_save(sfname, FALSE); if (fname == NULL) return FALSE; #ifdef BACKSLASH_IN_FILENAME /* * Replace all backslashes with forward slashes. This makes the * autocommand patterns portable between Unix and MS-DOS. */ sfname = vim_strsave(sfname); if (sfname != NULL) forward_slash(sfname); forward_slash(fname); #endif for (ap = first_autopat[(int)event]; ap != NULL; ap = ap->next) if (ap->pat != NULL && ap->cmds != NULL && (ap->buflocal_nr == 0 ? match_file_pat(NULL, &ap->reg_prog, fname, sfname, tail, ap->allow_dirs) : buf != NULL && ap->buflocal_nr == buf->b_fnum )) { retval = TRUE; break; } vim_free(fname); #ifdef BACKSLASH_IN_FILENAME vim_free(sfname); #endif return retval; } #if defined(FEAT_CMDL_COMPL) || defined(PROTO) /* * Function given to ExpandGeneric() to obtain the list of autocommand group * names. */ char_u * get_augroup_name(xp, idx) expand_T *xp UNUSED; int idx; { if (idx == augroups.ga_len) /* add "END" add the end */ return (char_u *)"END"; if (idx >= augroups.ga_len) /* end of list */ return NULL; if (AUGROUP_NAME(idx) == NULL) /* skip deleted entries */ return (char_u *)""; return AUGROUP_NAME(idx); /* return a name */ } static int include_groups = FALSE; char_u * set_context_in_autocmd(xp, arg, doautocmd) expand_T *xp; char_u *arg; int doautocmd; /* TRUE for :doauto*, FALSE for :autocmd */ { char_u *p; int group; /* check for a group name, skip it if present */ include_groups = FALSE; p = arg; group = au_get_grouparg(&arg); if (group == AUGROUP_ERROR) return NULL; /* If there only is a group name that's what we expand. */ if (*arg == NUL && group != AUGROUP_ALL && !vim_iswhite(arg[-1])) { arg = p; group = AUGROUP_ALL; } /* skip over event name */ for (p = arg; *p != NUL && !vim_iswhite(*p); ++p) if (*p == ',') arg = p + 1; if (*p == NUL) { if (group == AUGROUP_ALL) include_groups = TRUE; xp->xp_context = EXPAND_EVENTS; /* expand event name */ xp->xp_pattern = arg; return NULL; } /* skip over pattern */ arg = skipwhite(p); while (*arg && (!vim_iswhite(*arg) || arg[-1] == '\\')) arg++; if (*arg) return arg; /* expand (next) command */ if (doautocmd) xp->xp_context = EXPAND_FILES; /* expand file names */ else xp->xp_context = EXPAND_NOTHING; /* pattern is not expanded */ return NULL; } /* * Function given to ExpandGeneric() to obtain the list of event names. */ char_u * get_event_name(xp, idx) expand_T *xp UNUSED; int idx; { if (idx < augroups.ga_len) /* First list group names, if wanted */ { if (!include_groups || AUGROUP_NAME(idx) == NULL) return (char_u *)""; /* skip deleted entries */ return AUGROUP_NAME(idx); /* return a name */ } return (char_u *)event_names[idx - augroups.ga_len].name; } #endif /* FEAT_CMDL_COMPL */ /* * Return TRUE if autocmd is supported. */ int autocmd_supported(name) char_u *name; { char_u *p; return (event_name2nr(name, &p) != NUM_EVENTS); } /* * Return TRUE if an autocommand is defined for a group, event and * pattern: The group can be omitted to accept any group. "event" and "pattern" * can be NULL to accept any event and pattern. "pattern" can be NULL to accept * any pattern. Buffer-local patterns <buffer> or <buffer=N> are accepted. * Used for: * exists("#Group") or * exists("#Group#Event") or * exists("#Group#Event#pat") or * exists("#Event") or * exists("#Event#pat") */ int au_exists(arg) char_u *arg; { char_u *arg_save; char_u *pattern = NULL; char_u *event_name; char_u *p; event_T event; AutoPat *ap; buf_T *buflocal_buf = NULL; int group; int retval = FALSE; /* Make a copy so that we can change the '#' chars to a NUL. */ arg_save = vim_strsave(arg); if (arg_save == NULL) return FALSE; p = vim_strchr(arg_save, '#'); if (p != NULL) *p++ = NUL; /* First, look for an autocmd group name */ group = au_find_group(arg_save); if (group == AUGROUP_ERROR) { /* Didn't match a group name, assume the first argument is an event. */ group = AUGROUP_ALL; event_name = arg_save; } else { if (p == NULL) { /* "Group": group name is present and it's recognized */ retval = TRUE; goto theend; } /* Must be "Group#Event" or "Group#Event#pat". */ event_name = p; p = vim_strchr(event_name, '#'); if (p != NULL) *p++ = NUL; /* "Group#Event#pat" */ } pattern = p; /* "pattern" is NULL when there is no pattern */ /* find the index (enum) for the event name */ event = event_name2nr(event_name, &p); /* return FALSE if the event name is not recognized */ if (event == NUM_EVENTS) goto theend; /* Find the first autocommand for this event. * If there isn't any, return FALSE; * If there is one and no pattern given, return TRUE; */ ap = first_autopat[(int)event]; if (ap == NULL) goto theend; /* if pattern is "<buffer>", special handling is needed which uses curbuf */ /* for pattern "<buffer=N>, fnamecmp() will work fine */ if (pattern != NULL && STRICMP(pattern, "<buffer>") == 0) buflocal_buf = curbuf; /* Check if there is an autocommand with the given pattern. */ for ( ; ap != NULL; ap = ap->next) /* only use a pattern when it has not been removed and has commands. */ /* For buffer-local autocommands, fnamecmp() works fine. */ if (ap->pat != NULL && ap->cmds != NULL && (group == AUGROUP_ALL || ap->group == group) && (pattern == NULL || (buflocal_buf == NULL ? fnamecmp(ap->pat, pattern) == 0 : ap->buflocal_nr == buflocal_buf->b_fnum))) { retval = TRUE; break; } theend: vim_free(arg_save); return retval; } #else /* FEAT_AUTOCMD */ /* * Prepare for executing commands for (hidden) buffer "buf". * This is the non-autocommand version, it simply saves "curbuf" and sets * "curbuf" and "curwin" to match "buf". */ void aucmd_prepbuf(aco, buf) aco_save_T *aco; /* structure to save values in */ buf_T *buf; /* new curbuf */ { aco->save_curbuf = curbuf; --curbuf->b_nwindows; curbuf = buf; curwin->w_buffer = buf; ++curbuf->b_nwindows; } /* * Restore after executing commands for a (hidden) buffer. * This is the non-autocommand version. */ void aucmd_restbuf(aco) aco_save_T *aco; /* structure holding saved values */ { --curbuf->b_nwindows; curbuf = aco->save_curbuf; curwin->w_buffer = curbuf; ++curbuf->b_nwindows; } #endif /* FEAT_AUTOCMD */ #if defined(FEAT_AUTOCMD) || defined(FEAT_WILDIGN) || defined(PROTO) /* * Try matching a filename with a "pattern" ("prog" is NULL), or use the * precompiled regprog "prog" ("pattern" is NULL). That avoids calling * vim_regcomp() often. * Used for autocommands and 'wildignore'. * Returns TRUE if there is a match, FALSE otherwise. */ static int match_file_pat(pattern, prog, fname, sfname, tail, allow_dirs) char_u *pattern; /* pattern to match with */ regprog_T **prog; /* pre-compiled regprog or NULL */ char_u *fname; /* full path of file name */ char_u *sfname; /* short file name or NULL */ char_u *tail; /* tail of path */ int allow_dirs; /* allow matching with dir */ { regmatch_T regmatch; int result = FALSE; regmatch.rm_ic = p_fic; /* ignore case if 'fileignorecase' is set */ if (prog != NULL) regmatch.regprog = *prog; else regmatch.regprog = vim_regcomp(pattern, RE_MAGIC); /* * Try for a match with the pattern with: * 1. the full file name, when the pattern has a '/'. * 2. the short file name, when the pattern has a '/'. * 3. the tail of the file name, when the pattern has no '/'. */ if (regmatch.regprog != NULL && ((allow_dirs && (vim_regexec(®match, fname, (colnr_T)0) || (sfname != NULL && vim_regexec(®match, sfname, (colnr_T)0)))) || (!allow_dirs && vim_regexec(®match, tail, (colnr_T)0)))) result = TRUE; if (prog != NULL) *prog = regmatch.regprog; else vim_regfree(regmatch.regprog); return result; } #endif #if defined(FEAT_WILDIGN) || defined(PROTO) /* * Return TRUE if a file matches with a pattern in "list". * "list" is a comma-separated list of patterns, like 'wildignore'. * "sfname" is the short file name or NULL, "ffname" the long file name. */ int match_file_list(list, sfname, ffname) char_u *list; char_u *sfname; char_u *ffname; { char_u buf[100]; char_u *tail; char_u *regpat; char allow_dirs; int match; char_u *p; tail = gettail(sfname); /* try all patterns in 'wildignore' */ p = list; while (*p) { copy_option_part(&p, buf, 100, ","); regpat = file_pat_to_reg_pat(buf, NULL, &allow_dirs, FALSE); if (regpat == NULL) break; match = match_file_pat(regpat, NULL, ffname, sfname, tail, (int)allow_dirs); vim_free(regpat); if (match) return TRUE; } return FALSE; } #endif /* * Convert the given pattern "pat" which has shell style wildcards in it, into * a regular expression, and return the result in allocated memory. If there * is a directory path separator to be matched, then TRUE is put in * allow_dirs, otherwise FALSE is put there -- webb. * Handle backslashes before special characters, like "\*" and "\ ". * * Returns NULL when out of memory. */ char_u * file_pat_to_reg_pat(pat, pat_end, allow_dirs, no_bslash) char_u *pat; char_u *pat_end; /* first char after pattern or NULL */ char *allow_dirs; /* Result passed back out in here */ int no_bslash UNUSED; /* Don't use a backward slash as pathsep */ { int size = 2; /* '^' at start, '$' at end */ char_u *endp; char_u *reg_pat; char_u *p; int i; int nested = 0; int add_dollar = TRUE; if (allow_dirs != NULL) *allow_dirs = FALSE; if (pat_end == NULL) pat_end = pat + STRLEN(pat); for (p = pat; p < pat_end; p++) { switch (*p) { case '*': case '.': case ',': case '{': case '}': case '~': size += 2; /* extra backslash */ break; #ifdef BACKSLASH_IN_FILENAME case '\\': case '/': size += 4; /* could become "[\/]" */ break; #endif default: size++; # ifdef FEAT_MBYTE if (enc_dbcs != 0 && (*mb_ptr2len)(p) > 1) { ++p; ++size; } # endif break; } } reg_pat = alloc(size + 1); if (reg_pat == NULL) return NULL; i = 0; if (pat[0] == '*') while (pat[0] == '*' && pat < pat_end - 1) pat++; else reg_pat[i++] = '^'; endp = pat_end - 1; if (endp >= pat && *endp == '*') { while (endp - pat > 0 && *endp == '*') endp--; add_dollar = FALSE; } for (p = pat; *p && nested >= 0 && p <= endp; p++) { switch (*p) { case '*': reg_pat[i++] = '.'; reg_pat[i++] = '*'; while (p[1] == '*') /* "**" matches like "*" */ ++p; break; case '.': case '~': reg_pat[i++] = '\\'; reg_pat[i++] = *p; break; case '?': reg_pat[i++] = '.'; break; case '\\': if (p[1] == NUL) break; #ifdef BACKSLASH_IN_FILENAME if (!no_bslash) { /* translate: * "\x" to "\\x" e.g., "dir\file" * "\*" to "\\.*" e.g., "dir\*.c" * "\?" to "\\." e.g., "dir\??.c" * "\+" to "\+" e.g., "fileX\+.c" */ if ((vim_isfilec(p[1]) || p[1] == '*' || p[1] == '?') && p[1] != '+') { reg_pat[i++] = '['; reg_pat[i++] = '\\'; reg_pat[i++] = '/'; reg_pat[i++] = ']'; if (allow_dirs != NULL) *allow_dirs = TRUE; break; } } #endif /* Undo escaping from ExpandEscape(): * foo\?bar -> foo?bar * foo\%bar -> foo%bar * foo\,bar -> foo,bar * foo\ bar -> foo bar * Don't unescape \, * and others that are also special in a * regexp. * An escaped { must be unescaped since we use magic not * verymagic. Use "\\\{n,m\}"" to get "\{n,m}". */ if (*++p == '?' #ifdef BACKSLASH_IN_FILENAME && no_bslash #endif ) reg_pat[i++] = '?'; else if (*p == ',' || *p == '%' || *p == '#' || vim_isspace(*p) || *p == '{' || *p == '}') reg_pat[i++] = *p; else if (*p == '\\' && p[1] == '\\' && p[2] == '{') { reg_pat[i++] = '\\'; reg_pat[i++] = '{'; p += 2; } else { if (allow_dirs != NULL && vim_ispathsep(*p) #ifdef BACKSLASH_IN_FILENAME && (!no_bslash || *p != '\\') #endif ) *allow_dirs = TRUE; reg_pat[i++] = '\\'; reg_pat[i++] = *p; } break; #ifdef BACKSLASH_IN_FILENAME case '/': reg_pat[i++] = '['; reg_pat[i++] = '\\'; reg_pat[i++] = '/'; reg_pat[i++] = ']'; if (allow_dirs != NULL) *allow_dirs = TRUE; break; #endif case '{': reg_pat[i++] = '\\'; reg_pat[i++] = '('; nested++; break; case '}': reg_pat[i++] = '\\'; reg_pat[i++] = ')'; --nested; break; case ',': if (nested) { reg_pat[i++] = '\\'; reg_pat[i++] = '|'; } else reg_pat[i++] = ','; break; default: # ifdef FEAT_MBYTE if (enc_dbcs != 0 && (*mb_ptr2len)(p) > 1) reg_pat[i++] = *p++; else # endif if (allow_dirs != NULL && vim_ispathsep(*p)) *allow_dirs = TRUE; reg_pat[i++] = *p; break; } } if (add_dollar) reg_pat[i++] = '$'; reg_pat[i] = NUL; if (nested != 0) { if (nested < 0) EMSG(_("E219: Missing {.")); else EMSG(_("E220: Missing }.")); vim_free(reg_pat); reg_pat = NULL; } return reg_pat; } #if defined(EINTR) || defined(PROTO) /* * Version of read() that retries when interrupted by EINTR (possibly * by a SIGWINCH). */ long read_eintr(fd, buf, bufsize) int fd; void *buf; size_t bufsize; { long ret; for (;;) { ret = vim_read(fd, buf, bufsize); if (ret >= 0 || errno != EINTR) break; } return ret; } /* * Version of write() that retries when interrupted by EINTR (possibly * by a SIGWINCH). */ long write_eintr(fd, buf, bufsize) int fd; void *buf; size_t bufsize; { long ret = 0; long wlen; /* Repeat the write() so long it didn't fail, other than being interrupted * by a signal. */ while (ret < (long)bufsize) { wlen = vim_write(fd, (char *)buf + ret, bufsize - ret); if (wlen < 0) { if (errno != EINTR) break; } else ret += wlen; } return ret; } #endif