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4a706a70928231643e1a3f3fcf785de7aa930f8b
neovim/src/nvim/memline.c
luukvbaal 4a706a7092 fix(column): don't count signs on lines beyond eob #33410 
Problem:  Computed previous buffer line count may be beyond end of
          buffer. This results in signs being removed from `b_signcols`
          that were never included in it, tripping an assertion.

Solution: Store the previous line count as it was before appending or
          deleting lines. Use it to clamp the edited region when
          clearing signs before a splice, after which it is reset.
2025-04-11 04:46:55 -07:00

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// for debugging
// #define CHECK(c, s) do { if (c) emsg(s); } while (0)
#define CHECK(c, s) do {} while (0)
// memline.c: Contains the functions for appending, deleting and changing the
// text lines. The memfile functions are used to store the information in
// blocks of memory, backed up by a file. The structure of the information is
// a tree. The root of the tree is a pointer block. The leaves of the tree
// are data blocks. In between may be several layers of pointer blocks,
// forming branches.
//
// Three types of blocks are used:
// - Block nr 0 contains information for recovery
// - Pointer blocks contain list of pointers to other blocks.
// - Data blocks contain the actual text.
//
// Block nr 0 contains the block0 structure (see below).
//
// Block nr 1 is the first pointer block. It is the root of the tree.
// Other pointer blocks are branches.
//
// If a line is too big to fit in a single page, the block containing that
// line is made big enough to hold the line. It may span several pages.
// Otherwise all blocks are one page.
//
// A data block that was filled when starting to edit a file and was not
// changed since then, can have a negative block number. This means that it
// has not yet been assigned a place in the file. When recovering, the lines
// in this data block can be read from the original file. When the block is
// changed (lines appended/deleted/changed) or when it is flushed it gets a
// positive number. Use mf_trans_del() to get the new number, before calling
// mf_get().
//
// "Mom, can we get ropes?"
// "We have ropes at home."
// Ropes at home:
#include <assert.h>
#include <errno.h>
#include <fcntl.h>
#include <inttypes.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdio.h>
#include <string.h>
#include <time.h>
#include <uv.h>
#include "auto/config.h"
#include "klib/kvec.h"
#include "nvim/ascii_defs.h"
#include "nvim/autocmd.h"
#include "nvim/autocmd_defs.h"
#include "nvim/buffer.h"
#include "nvim/buffer_defs.h"
#include "nvim/change.h"
#include "nvim/cursor.h"
#include "nvim/drawscreen.h"
#include "nvim/eval.h"
#include "nvim/eval/typval.h"
#include "nvim/ex_cmds_defs.h"
#include "nvim/fileio.h"
#include "nvim/getchar.h"
#include "nvim/gettext_defs.h"
#include "nvim/globals.h"
#include "nvim/highlight_defs.h"
#include "nvim/input.h"
#include "nvim/macros_defs.h"
#include "nvim/main.h"
#include "nvim/map_defs.h"
#include "nvim/mark.h"
#include "nvim/mbyte.h"
#include "nvim/memfile.h"
#include "nvim/memfile_defs.h"
#include "nvim/memline.h"
#include "nvim/memory.h"
#include "nvim/message.h"
#include "nvim/option.h"
#include "nvim/option_defs.h"
#include "nvim/option_vars.h"
#include "nvim/os/fs.h"
#include "nvim/os/fs_defs.h"
#include "nvim/os/input.h"
#include "nvim/os/os.h"
#include "nvim/os/os_defs.h"
#include "nvim/os/proc.h"
#include "nvim/os/time.h"
#include "nvim/os/time_defs.h"
#include "nvim/path.h"
#include "nvim/pos_defs.h"
#include "nvim/spell.h"
#include "nvim/statusline.h"
#include "nvim/strings.h"
#include "nvim/ui.h"
#include "nvim/undo.h"
#include "nvim/version.h"
#include "nvim/vim_defs.h"
#ifndef UNIX // it's in os/unix_defs.h for Unix
# include <time.h>
#endif
enum {
DATA_ID = (('d' << 8) + 'a'), // data block id
PTR_ID = (('p' << 8) + 't'), // pointer block id
BLOCK0_ID0 = 'b', // block 0 id 0
BLOCK0_ID1 = '0', // block 0 id 1
};
// pointer to a block, used in a pointer block
typedef struct {
blocknr_T pe_bnum; // block number
linenr_T pe_line_count; // number of lines in this branch
linenr_T pe_old_lnum; // lnum for this block (for recovery)
int pe_page_count; // number of pages in block pe_bnum
} PointerEntry;
// A pointer block contains a list of branches in the tree.
typedef struct {
uint16_t pb_id; // ID for pointer block: PTR_ID
uint16_t pb_count; // number of pointers in this block
uint16_t pb_count_max; // maximum value for pb_count
PointerEntry pb_pointer[]; // list of pointers to blocks
// followed by empty space until end of page
} PointerBlock;
// Value for pb_count_max.
#define PB_COUNT_MAX(mfp) \
(uint16_t)((mfp->mf_page_size - offsetof(PointerBlock, pb_pointer)) / sizeof(PointerEntry))
// A data block is a leaf in the tree.
//
// The text of the lines is at the end of the block. The text of the first line
// in the block is put at the end, the text of the second line in front of it,
// etc. Thus the order of the lines is the opposite of the line number.
typedef struct {
uint16_t db_id; // ID for data block: DATA_ID
unsigned db_free; // free space available
unsigned db_txt_start; // byte where text starts
unsigned db_txt_end; // byte just after data block
// linenr_T db_line_count;
long db_line_count; // number of lines in this block
unsigned db_index[]; // index for start of line
// followed by empty space up to db_txt_start
// followed by the text in the lines until
// end of page
} DataBlock;
// The low bits of db_index hold the actual index. The topmost bit is
// used for the global command to be able to mark a line.
// This method is not clean, but otherwise there would be at least one extra
// byte used for each line.
// The mark has to be in this place to keep it with the correct line when other
// lines are inserted or deleted.
#define DB_MARKED ((unsigned)1 << ((sizeof(unsigned) * 8) - 1))
#define DB_INDEX_MASK (~DB_MARKED)
#define INDEX_SIZE (sizeof(unsigned)) // size of one db_index entry
#define HEADER_SIZE (offsetof(DataBlock, db_index)) // size of data block header
enum {
B0_FNAME_SIZE_ORG = 900, // what it was in older versions
B0_FNAME_SIZE_NOCRYPT = 898, // 2 bytes used for other things
B0_FNAME_SIZE_CRYPT = 890, // 10 bytes used for other things
B0_UNAME_SIZE = 40,
B0_HNAME_SIZE = 40,
};
// Restrict the numbers to 32 bits, otherwise most compilers will complain.
// This won't detect a 64 bit machine that only swaps a byte in the top 32
// bits, but that is crazy anyway.
enum {
B0_MAGIC_LONG = 0x30313233,
B0_MAGIC_INT = 0x20212223,
B0_MAGIC_SHORT = 0x10111213,
B0_MAGIC_CHAR = 0x55,
};
/// Block zero holds all info about the swapfile. This is the first block in the file.
///
/// NOTE: DEFINITION OF BLOCK 0 SHOULD NOT CHANGE! It would make all existing swapfiles unusable!
///
/// If size of block0 changes anyway, adjust MIN_SWAP_PAGE_SIZE in memfile.h!!
///
/// This block is built up of single bytes, to make it portable across
/// different machines. b0_magic_* is used to check the byte order and size of
/// variables, because the rest of the swapfile is not portable.
typedef struct {
char b0_id[2]; ///< ID for block 0: BLOCK0_ID0 and BLOCK0_ID1.
char b0_version[10]; ///< Vim version string
char b0_page_size[4]; ///< number of bytes per page
char b0_mtime[4]; ///< last modification time of file
char b0_ino[4]; ///< inode of b0_fname
char b0_pid[4]; ///< process id of creator (or 0)
char b0_uname[B0_UNAME_SIZE]; ///< name of user (uid if no name)
char b0_hname[B0_HNAME_SIZE]; ///< host name (if it has a name)
char b0_fname[B0_FNAME_SIZE_ORG]; ///< name of file being edited
long b0_magic_long; ///< check for byte order of long
int b0_magic_int; ///< check for byte order of int
int16_t b0_magic_short; ///< check for byte order of short
char b0_magic_char; ///< check for last char
} ZeroBlock;
// Note: b0_dirty and b0_flags are put at the end of the file name. For very
// long file names in older versions of Vim they are invalid.
// The 'fileencoding' comes before b0_flags, with a NUL in front. But only
// when there is room, for very long file names it's omitted.
#define B0_DIRTY 0x55
#define b0_dirty b0_fname[B0_FNAME_SIZE_ORG - 1]
// The b0_flags field is new in Vim 7.0.
#define b0_flags b0_fname[B0_FNAME_SIZE_ORG - 2]
// The lowest two bits contain the fileformat. Zero means it's not set
// (compatible with Vim 6.x), otherwise it's EOL_UNIX + 1, EOL_DOS + 1 or
// EOL_MAC + 1.
#define B0_FF_MASK 3
// Swapfile is in directory of edited file. Used to find the file from different mount points.
#define B0_SAME_DIR 4
// The 'fileencoding' is at the end of b0_fname[], with a NUL in front of it.
// When empty there is only the NUL.
#define B0_HAS_FENC 8
#define STACK_INCR 5 // nr of entries added to ml_stack at a time
// The line number where the first mark may be is remembered.
// If it is 0 there are no marks at all.
// (always used for the current buffer only, no buffer change possible while
// executing a global command).
static linenr_T lowest_marked = 0;
// arguments for ml_find_line()
enum {
ML_DELETE = 0x11, // delete line
ML_INSERT = 0x12, // insert line
ML_FIND = 0x13, // just find the line
ML_FLUSH = 0x02, // flush locked block
};
#define ML_SIMPLE(x) ((x) & 0x10) // DEL, INS or FIND
// argument for ml_upd_block0()
typedef enum {
UB_FNAME = 0, // update timestamp and filename
UB_SAME_DIR, // update the B0_SAME_DIR flag
} upd_block0_T;
typedef enum {
SEA_CHOICE_NONE = 0,
SEA_CHOICE_READONLY = 1,
SEA_CHOICE_EDIT = 2,
SEA_CHOICE_RECOVER = 3,
SEA_CHOICE_DELETE = 4,
SEA_CHOICE_QUIT = 5,
SEA_CHOICE_ABORT = 6,
} sea_choice_T;
#ifdef INCLUDE_GENERATED_DECLARATIONS
# include "memline.c.generated.h"
#endif
static const char e_ml_get_invalid_lnum_nr[]
= N_("E315: ml_get: Invalid lnum: %" PRId64);
static const char e_ml_get_cannot_find_line_nr_in_buffer_nr_str[]
= N_("E316: ml_get: Cannot find line %" PRId64 "in buffer %d %s");
static const char e_pointer_block_id_wrong[]
= N_("E317: Pointer block id wrong");
static const char e_pointer_block_id_wrong_two[]
= N_("E317: Pointer block id wrong 2");
static const char e_pointer_block_id_wrong_three[]
= N_("E317: Pointer block id wrong 3");
static const char e_pointer_block_id_wrong_four[]
= N_("E317: Pointer block id wrong 4");
static const char e_line_number_out_of_range_nr_past_the_end[]
= N_("E322: Line number out of range: %" PRId64 " past the end");
static const char e_line_count_wrong_in_block_nr[]
= N_("E323: Line count wrong in block %" PRId64);
static const char e_warning_pointer_block_corrupted[]
= N_("E1364: Warning: Pointer block corrupted");
#if __has_feature(address_sanitizer)
# define ML_GET_ALLOC_LINES
#endif
/// Open a new memline for "buf".
///
/// @return FAIL for failure, OK otherwise.
int ml_open(buf_T *buf)
{
// init fields in memline struct
buf->b_ml.ml_stack_size = 0; // no stack yet
buf->b_ml.ml_stack = NULL; // no stack yet
buf->b_ml.ml_stack_top = 0; // nothing in the stack
buf->b_ml.ml_locked = NULL; // no cached block
buf->b_ml.ml_line_lnum = 0; // no cached line
buf->b_ml.ml_line_offset = 0;
buf->b_ml.ml_chunksize = NULL;
buf->b_ml.ml_usedchunks = 0;
if (cmdmod.cmod_flags & CMOD_NOSWAPFILE) {
buf->b_p_swf = false;
}
// When 'updatecount' is non-zero swapfile may be opened later.
if (!buf->terminal && p_uc && buf->b_p_swf) {
buf->b_may_swap = true;
} else {
buf->b_may_swap = false;
}
// Open the memfile. No swapfile is created yet.
memfile_T *mfp = mf_open(NULL, 0);
if (mfp == NULL) {
goto error;
}
buf->b_ml.ml_mfp = mfp;
buf->b_ml.ml_flags = ML_EMPTY;
buf->b_ml.ml_line_count = 1;
// fill block0 struct and write page 0
bhdr_T *hp = mf_new(mfp, false, 1);
if (hp->bh_bnum != 0) {
iemsg(_("E298: Didn't get block nr 0?"));
goto error;
}
ZeroBlock *b0p = hp->bh_data;
b0p->b0_id[0] = BLOCK0_ID0;
b0p->b0_id[1] = BLOCK0_ID1;
b0p->b0_magic_long = B0_MAGIC_LONG;
b0p->b0_magic_int = B0_MAGIC_INT;
b0p->b0_magic_short = (int16_t)B0_MAGIC_SHORT;
b0p->b0_magic_char = B0_MAGIC_CHAR;
xstrlcpy(xstpcpy(b0p->b0_version, "VIM "), Version, 6);
long_to_char((long)mfp->mf_page_size, b0p->b0_page_size);
if (!buf->b_spell) {
b0p->b0_dirty = buf->b_changed ? B0_DIRTY : 0;
b0p->b0_flags = (char)(get_fileformat(buf) + 1);
set_b0_fname(b0p, buf);
os_get_username(b0p->b0_uname, B0_UNAME_SIZE);
b0p->b0_uname[B0_UNAME_SIZE - 1] = NUL;
os_get_hostname(b0p->b0_hname, B0_HNAME_SIZE);
b0p->b0_hname[B0_HNAME_SIZE - 1] = NUL;
long_to_char((long)os_get_pid(), b0p->b0_pid);
}
// Always sync block number 0 to disk, so we can check the file name in
// the swapfile in findswapname(). Don't do this for a help files or
// a spell buffer though.
// Only works when there's a swapfile, otherwise it's done when the file
// is created.
mf_put(mfp, hp, true, false);
if (!buf->b_help && !buf->b_spell) {
mf_sync(mfp, 0);
}
// Fill in root pointer block and write page 1.
hp = ml_new_ptr(mfp);
assert(hp != NULL);
if (hp->bh_bnum != 1) {
iemsg(_("E298: Didn't get block nr 1?"));
goto error;
}
PointerBlock *pp = hp->bh_data;
pp->pb_count = 1;
pp->pb_pointer[0].pe_bnum = 2;
pp->pb_pointer[0].pe_page_count = 1;
pp->pb_pointer[0].pe_old_lnum = 1;
pp->pb_pointer[0].pe_line_count = 1; // line count after insertion
mf_put(mfp, hp, true, false);
// Allocate first data block and create an empty line 1.
hp = ml_new_data(mfp, false, 1);
if (hp->bh_bnum != 2) {
iemsg(_("E298: Didn't get block nr 2?"));
goto error;
}
DataBlock *dp = hp->bh_data;
dp->db_index[0] = --dp->db_txt_start; // at end of block
dp->db_free -= 1 + (unsigned)INDEX_SIZE;
dp->db_line_count = 1;
*((char *)dp + dp->db_txt_start) = NUL; // empty line
return OK;
error:
if (mfp != NULL) {
if (hp) {
mf_put(mfp, hp, false, false);
}
mf_close(mfp, true); // will also xfree(mfp->mf_fname)
}
buf->b_ml.ml_mfp = NULL;
return FAIL;
}
/// ml_setname() is called when the file name of "buf" has been changed.
/// It may rename the swapfile.
void ml_setname(buf_T *buf)
{
bool success = false;
memfile_T *mfp = buf->b_ml.ml_mfp;
if (mfp->mf_fd < 0) { // there is no swapfile yet
// When 'updatecount' is 0 and 'noswapfile' there is no swapfile.
// For help files we will make a swapfile now.
if (p_uc != 0 && (cmdmod.cmod_flags & CMOD_NOSWAPFILE) == 0) {
ml_open_file(buf); // create a swapfile
}
return;
}
// Try all directories in the 'directory' option.
char *dirp = p_dir;
bool found_existing_dir = false;
while (true) {
if (*dirp == NUL) { // tried all directories, fail
break;
}
char *fname = findswapname(buf, &dirp, mfp->mf_fname, &found_existing_dir);
// alloc's fname
if (dirp == NULL) { // out of memory
break;
}
if (fname == NULL) { // no file name found for this dir
continue;
}
// if the file name is the same we don't have to do anything
if (path_fnamecmp(fname, mfp->mf_fname) == 0) {
xfree(fname);
success = true;
break;
}
// need to close the swapfile before renaming
if (mfp->mf_fd >= 0) {
close(mfp->mf_fd);
mfp->mf_fd = -1;
}
// try to rename the swapfile
if (vim_rename(mfp->mf_fname, fname) == 0) {
success = true;
mf_free_fnames(mfp);
mf_set_fnames(mfp, fname);
ml_upd_block0(buf, UB_SAME_DIR);
break;
}
xfree(fname); // this fname didn't work, try another
}
if (mfp->mf_fd == -1) { // need to (re)open the swapfile
mfp->mf_fd = os_open(mfp->mf_fname, O_RDWR, 0);
if (mfp->mf_fd < 0) {
// could not (re)open the swapfile, what can we do????
emsg(_("E301: Oops, lost the swap file!!!"));
return;
}
os_set_cloexec(mfp->mf_fd);
}
if (!success) {
emsg(_("E302: Could not rename swap file"));
}
}
/// Open a file for the memfile for all buffers that are not readonly or have
/// been modified.
/// Used when 'updatecount' changes from zero to non-zero.
void ml_open_files(void)
{
FOR_ALL_BUFFERS(buf) {
if (!buf->b_p_ro || buf->b_changed) {
ml_open_file(buf);
}
}
}
/// Open a swapfile for an existing memfile, if there is no swapfile yet.
/// If we are unable to find a file name, mf_fname will be NULL
/// and the memfile will be in memory only (no recovery possible).
void ml_open_file(buf_T *buf)
{
memfile_T *mfp = buf->b_ml.ml_mfp;
if (mfp == NULL || mfp->mf_fd >= 0 || !buf->b_p_swf
|| (cmdmod.cmod_flags & CMOD_NOSWAPFILE)
|| buf->terminal) {
return; // nothing to do
}
// For a spell buffer use a temp file name.
if (buf->b_spell) {
char *fname = vim_tempname();
if (fname != NULL) {
mf_open_file(mfp, fname); // consumes fname!
}
buf->b_may_swap = false;
return;
}
// Try all directories in 'directory' option.
char *dirp = p_dir;
bool found_existing_dir = false;
while (true) {
if (*dirp == NUL) {
break;
}
// There is a small chance that between choosing the swapfile name
// and creating it, another Vim creates the file. In that case the
// creation will fail and we will use another directory.
char *fname = findswapname(buf, &dirp, NULL, &found_existing_dir);
if (dirp == NULL) {
break; // out of memory
}
if (fname == NULL) {
continue;
}
if (mf_open_file(mfp, fname) == OK) { // consumes fname!
// don't sync yet in ml_sync_all()
mfp->mf_dirty = MF_DIRTY_YES_NOSYNC;
ml_upd_block0(buf, UB_SAME_DIR);
// Flush block zero, so others can read it
if (mf_sync(mfp, MFS_ZERO) == OK) {
// Mark all blocks that should be in the swapfile as dirty.
// Needed for when the 'swapfile' option was reset, so that
// the swapfile was deleted, and then on again.
mf_set_dirty(mfp);
break;
}
// Writing block 0 failed: close the file and try another dir
mf_close_file(buf, false);
}
}
if (*p_dir != NUL && mfp->mf_fname == NULL) {
need_wait_return = true; // call wait_return() later
no_wait_return++;
semsg(_("E303: Unable to open swap file for \"%s\", recovery impossible"),
buf_spname(buf) != NULL ? buf_spname(buf) : buf->b_fname);
no_wait_return--;
}
// don't try to open a swapfile again
buf->b_may_swap = false;
}
/// If still need to create a swapfile, and starting to edit a not-readonly
/// file, or reading into an existing buffer, create a swapfile now.
///
/// @param newfile reading file into new buffer
void check_need_swap(bool newfile)
{
int old_msg_silent = msg_silent; // might be reset by an E325 message
msg_silent = 0; // If swap dialog prompts for input, user needs to see it!
if (curbuf->b_may_swap && (!curbuf->b_p_ro || !newfile)) {
ml_open_file(curbuf);
}
msg_silent = old_msg_silent;
}
/// Close memline for buffer 'buf'.
///
/// @param del_file if true, delete the swapfile
void ml_close(buf_T *buf, int del_file)
{
if (buf->b_ml.ml_mfp == NULL) { // not open
return;
}
mf_close(buf->b_ml.ml_mfp, del_file); // close the .swp file
if (buf->b_ml.ml_line_lnum != 0
&& (buf->b_ml.ml_flags & (ML_LINE_DIRTY | ML_ALLOCATED))) {
xfree(buf->b_ml.ml_line_ptr);
}
xfree(buf->b_ml.ml_stack);
XFREE_CLEAR(buf->b_ml.ml_chunksize);
buf->b_ml.ml_mfp = NULL;
// Reset the "recovered" flag, give the ATTENTION prompt the next time
// this buffer is loaded.
buf->b_flags &= ~BF_RECOVERED;
}
/// Close all existing memlines and memfiles.
/// Only used when exiting.
///
/// @param del_file if true, delete the memfiles.
void ml_close_all(bool del_file)
{
FOR_ALL_BUFFERS(buf) {
ml_close(buf, del_file);
}
spell_delete_wordlist(); // delete the internal wordlist
vim_deltempdir(); // delete created temp directory
}
/// Close all memfiles for not modified buffers.
/// Only use just before exiting!
void ml_close_notmod(void)
{
FOR_ALL_BUFFERS(buf) {
if (!bufIsChanged(buf)) {
ml_close(buf, true); // close all not-modified buffers
}
}
}
/// Update the timestamp in the .swp file.
/// Used when the file has been written.
void ml_timestamp(buf_T *buf)
{
ml_upd_block0(buf, UB_FNAME);
}
/// Checks whether the IDs in b0 are valid.
static bool ml_check_b0_id(ZeroBlock *b0p)
FUNC_ATTR_NONNULL_ALL
{
return b0p->b0_id[0] == BLOCK0_ID0 && b0p->b0_id[1] == BLOCK0_ID1;
}
/// Checks whether all strings in b0 are valid (i.e. nul-terminated).
static bool ml_check_b0_strings(ZeroBlock *b0p)
FUNC_ATTR_NONNULL_ALL
{
return (memchr(b0p->b0_version, NUL, 10)
&& memchr(b0p->b0_uname, NUL, B0_UNAME_SIZE)
&& memchr(b0p->b0_hname, NUL, B0_HNAME_SIZE)
&& memchr(b0p->b0_fname, NUL, B0_FNAME_SIZE_CRYPT));
}
/// Update the timestamp or the B0_SAME_DIR flag of the .swp file.
static void ml_upd_block0(buf_T *buf, upd_block0_T what)
{
bhdr_T *hp;
memfile_T *mfp = buf->b_ml.ml_mfp;
if (mfp == NULL || (hp = mf_get(mfp, 0, 1)) == NULL) {
return;
}
ZeroBlock *b0p = hp->bh_data;
if (ml_check_b0_id(b0p) == FAIL) {
iemsg(_("E304: ml_upd_block0(): Didn't get block 0??"));
} else {
if (what == UB_FNAME) {
set_b0_fname(b0p, buf);
} else { // what == UB_SAME_DIR
set_b0_dir_flag(b0p, buf);
}
}
mf_put(mfp, hp, true, false);
}
/// Write file name and timestamp into block 0 of a swapfile.
/// Also set buf->b_mtime.
/// Don't use NameBuff[]!!!
static void set_b0_fname(ZeroBlock *b0p, buf_T *buf)
{
if (buf->b_ffname == NULL) {
b0p->b0_fname[0] = NUL;
} else {
char uname[B0_UNAME_SIZE];
// For a file under the home directory of the current user, we try to
// replace the home directory path with "~user". This helps when
// editing the same file on different machines over a network.
// First replace home dir path with "~/" with home_replace().
// Then insert the user name to get "~user/".
home_replace(NULL, buf->b_ffname, b0p->b0_fname,
B0_FNAME_SIZE_CRYPT, true);
if (b0p->b0_fname[0] == '~') {
// If there is no user name or it is too long, don't use "~/"
int retval = os_get_username(uname, B0_UNAME_SIZE);
size_t ulen = strlen(uname);
size_t flen = strlen(b0p->b0_fname);
if (retval == FAIL || ulen + flen > B0_FNAME_SIZE_CRYPT - 1) {
xstrlcpy(b0p->b0_fname, buf->b_ffname, B0_FNAME_SIZE_CRYPT);
} else {
memmove(b0p->b0_fname + ulen + 1, b0p->b0_fname + 1, flen);
memmove(b0p->b0_fname + 1, uname, ulen);
}
}
FileInfo file_info;
if (os_fileinfo(buf->b_ffname, &file_info)) {
long_to_char(file_info.stat.st_mtim.tv_sec, b0p->b0_mtime);
long_to_char((long)os_fileinfo_inode(&file_info), b0p->b0_ino);
buf_store_file_info(buf, &file_info);
buf->b_mtime_read = buf->b_mtime;
buf->b_mtime_read_ns = buf->b_mtime_ns;
} else {
long_to_char(0, b0p->b0_mtime);
long_to_char(0, b0p->b0_ino);
buf->b_mtime = 0;
buf->b_mtime_ns = 0;
buf->b_mtime_read = 0;
buf->b_mtime_read_ns = 0;
buf->b_orig_size = 0;
buf->b_orig_mode = 0;
}
}
// Also add the 'fileencoding' if there is room.
add_b0_fenc(b0p, curbuf);
}
/// Update the B0_SAME_DIR flag of the swapfile. It's set if the file and the
/// swapfile for "buf" are in the same directory.
/// This is fail safe: if we are not sure the directories are equal the flag is
/// not set.
static void set_b0_dir_flag(ZeroBlock *b0p, buf_T *buf)
{
if (same_directory(buf->b_ml.ml_mfp->mf_fname, buf->b_ffname)) {
b0p->b0_flags |= B0_SAME_DIR;
} else {
b0p->b0_flags = (char)(b0p->b0_flags & ~B0_SAME_DIR);
}
}
/// When there is room, add the 'fileencoding' to block zero.
static void add_b0_fenc(ZeroBlock *b0p, buf_T *buf)
{
const int size = B0_FNAME_SIZE_NOCRYPT;
int n = (int)strlen(buf->b_p_fenc);
if ((int)strlen(b0p->b0_fname) + n + 1 > size) {
b0p->b0_flags = (char)(b0p->b0_flags & ~B0_HAS_FENC);
} else {
memmove(b0p->b0_fname + size - n,
buf->b_p_fenc, (size_t)n);
*(b0p->b0_fname + size - n - 1) = NUL;
b0p->b0_flags |= B0_HAS_FENC;
}
}
/// Returns the PID of the process that owns the swapfile, if it is running.
///
/// @param b0p swapfile data
/// @param swap_fname Name of the swapfile. If it's from before a reboot, the result is 0.
///
/// @return PID, or 0 if process is not running or the swapfile is from before a reboot.
static int swapfile_proc_running(const ZeroBlock *b0p, const char *swap_fname)
{
FileInfo st;
double uptime;
// If the system rebooted after when the swapfile was written then the
// process can't be running now.
if (os_fileinfo(swap_fname, &st)
&& uv_uptime(&uptime) == 0
&& (Timestamp)st.stat.st_mtim.tv_sec < os_time() - (Timestamp)uptime) {
return 0;
}
int pid = (int)char_to_long(b0p->b0_pid);
return os_proc_running(pid) ? pid : 0;
}
/// Try to recover curbuf from the .swp file.
///
/// @param checkext if true, check the extension and detect whether it is a swapfile.
void ml_recover(bool checkext)
{
buf_T *buf = NULL;
memfile_T *mfp = NULL;
char *fname_used = NULL;
bhdr_T *hp = NULL;
char *b0_fenc = NULL;
infoptr_T *ip;
bool directly;
bool serious_error = true;
int orig_file_status = NOTDONE;
recoverymode = true;
int called_from_main = (curbuf->b_ml.ml_mfp == NULL);
// If the file name ends in ".s[a-w][a-z]" we assume this is the swapfile.
// Otherwise a search is done to find the swapfile(s).
char *fname = curbuf->b_fname;
if (fname == NULL) { // When there is no file name
fname = "";
}
int len = (int)strlen(fname);
if (checkext && len >= 4
&& STRNICMP(fname + len - 4, ".s", 2) == 0
&& vim_strchr("abcdefghijklmnopqrstuvw", TOLOWER_ASC((uint8_t)fname[len - 2])) != NULL
&& ASCII_ISALPHA(fname[len - 1])) {
directly = true;
fname_used = xstrdup(fname); // make a copy for mf_open()
} else {
directly = false;
// count the number of matching swapfiles
len = recover_names(fname, false, NULL, 0, NULL);
if (len == 0) { // no swapfiles found
semsg(_("E305: No swap file found for %s"), fname);
goto theend;
}
int i;
if (len == 1) { // one swapfile found, use it
i = 1;
} else { // several swapfiles found, choose
// list the names of the swapfiles
recover_names(fname, true, NULL, 0, NULL);
msg_putchar('\n');
i = prompt_for_input(_("Enter number of swap file to use (0 to quit): "), 0, false, NULL);
if (i < 1 || i > len) {
goto theend;
}
}
// get the swapfile name that will be used
recover_names(fname, false, NULL, i, &fname_used);
}
if (fname_used == NULL) {
goto theend; // user chose invalid number.
}
// When called from main() still need to initialize storage structure
if (called_from_main && ml_open(curbuf) == FAIL) {
getout(1);
}
// Allocate a buffer structure for the swapfile that is used for recovery.
// Only the memline in it is really used.
buf = xmalloc(sizeof(buf_T));
// init fields in memline struct
buf->b_ml.ml_stack_size = 0; // no stack yet
buf->b_ml.ml_stack = NULL; // no stack yet
buf->b_ml.ml_stack_top = 0; // nothing in the stack
buf->b_ml.ml_line_lnum = 0; // no cached line
buf->b_ml.ml_line_offset = 0;
buf->b_ml.ml_locked = NULL; // no locked block
buf->b_ml.ml_flags = 0;
// open the memfile from the old swapfile
char *p = xstrdup(fname_used); // save "fname_used" for the message:
// mf_open() will consume "fname_used"!
mfp = mf_open(fname_used, O_RDONLY);
fname_used = p;
if (mfp == NULL || mfp->mf_fd < 0) {
semsg(_("E306: Cannot open %s"), fname_used);
goto theend;
}
buf->b_ml.ml_mfp = mfp;
// The page size set in mf_open() might be different from the page size
// used in the swapfile, we must get it from block 0. But to read block
// 0 we need a page size. Use the minimal size for block 0 here, it will
// be set to the real value below.
mfp->mf_page_size = MIN_SWAP_PAGE_SIZE;
int hl_id = HLF_E;
// try to read block 0
if ((hp = mf_get(mfp, 0, 1)) == NULL) {
msg_start();
msg_puts_hl(_("Unable to read block 0 from "), hl_id, true);
msg_outtrans(mfp->mf_fname, hl_id, true);
msg_puts_hl(_("\nMaybe no changes were made or Nvim did not update the swap file."), hl_id,
true);
msg_end();
goto theend;
}
ZeroBlock *b0p = hp->bh_data;
if (strncmp(b0p->b0_version, "VIM 3.0", 7) == 0) {
msg_start();
msg_outtrans(mfp->mf_fname, 0, true);
msg_puts_hl(_(" cannot be used with this version of Nvim.\n"), 0, true);
msg_puts_hl(_("Use Vim version 3.0.\n"), 0, true);
msg_end();
goto theend;
}
if (ml_check_b0_id(b0p) == FAIL) {
semsg(_("E307: %s does not look like a Nvim swap file"), mfp->mf_fname);
goto theend;
}
if (b0_magic_wrong(b0p)) {
msg_start();
msg_outtrans(mfp->mf_fname, hl_id, true);
msg_puts_hl(_(" cannot be used on this computer.\n"), hl_id, true);
msg_puts_hl(_("The file was created on "), hl_id, true);
// avoid going past the end of a corrupted hostname
b0p->b0_fname[0] = NUL;
msg_puts_hl(b0p->b0_hname, hl_id, true);
msg_puts_hl(_(",\nor the file has been damaged."), hl_id, true);
msg_end();
goto theend;
}
// If we guessed the wrong page size, we have to recalculate the
// highest block number in the file.
if (mfp->mf_page_size != (unsigned)char_to_long(b0p->b0_page_size)) {
unsigned previous_page_size = mfp->mf_page_size;
mf_new_page_size(mfp, (unsigned)char_to_long(b0p->b0_page_size));
if (mfp->mf_page_size < previous_page_size) {
msg_start();
msg_outtrans(mfp->mf_fname, hl_id, true);
msg_puts_hl(_(" has been damaged (page size is smaller than minimum value).\n"), hl_id, true);
msg_end();
goto theend;
}
off_T size = vim_lseek(mfp->mf_fd, 0, SEEK_END);
// 0 means no file or empty file
mfp->mf_blocknr_max = size <= 0 ? 0 : size / mfp->mf_page_size;
mfp->mf_infile_count = mfp->mf_blocknr_max;
// need to reallocate the memory used to store the data
p = xmalloc(mfp->mf_page_size);
memmove(p, hp->bh_data, previous_page_size);
xfree(hp->bh_data);
hp->bh_data = p;
b0p = hp->bh_data;
}
// If .swp file name given directly, use name from swapfile for buffer.
if (directly) {
expand_env(b0p->b0_fname, NameBuff, MAXPATHL);
if (setfname(curbuf, NameBuff, NULL, true) == FAIL) {
goto theend;
}
}
home_replace(NULL, mfp->mf_fname, NameBuff, MAXPATHL, true);
smsg(0, _("Using swap file \"%s\""), NameBuff);
if (buf_spname(curbuf) != NULL) {
xstrlcpy(NameBuff, buf_spname(curbuf), MAXPATHL);
} else {
home_replace(NULL, curbuf->b_ffname, NameBuff, MAXPATHL, true);
}
smsg(0, _("Original file \"%s\""), NameBuff);
msg_putchar('\n');
// check date of swapfile and original file
FileInfo org_file_info;
FileInfo swp_file_info;
int mtime = (int)char_to_long(b0p->b0_mtime);
if (curbuf->b_ffname != NULL
&& os_fileinfo(curbuf->b_ffname, &org_file_info)
&& ((os_fileinfo(mfp->mf_fname, &swp_file_info)
&& org_file_info.stat.st_mtim.tv_sec
> swp_file_info.stat.st_mtim.tv_sec)
|| org_file_info.stat.st_mtim.tv_sec != mtime)) {
emsg(_("E308: Warning: Original file may have been changed"));
}
ui_flush();
// Get the 'fileformat' and 'fileencoding' from block zero.
int b0_ff = (b0p->b0_flags & B0_FF_MASK);
if (b0p->b0_flags & B0_HAS_FENC) {
int fnsize = B0_FNAME_SIZE_NOCRYPT;
for (p = b0p->b0_fname + fnsize; p > b0p->b0_fname && p[-1] != NUL; p--) {}
b0_fenc = xstrnsave(p, (size_t)(b0p->b0_fname + fnsize - p));
}
mf_put(mfp, hp, false, false); // release block 0
hp = NULL;
// Now that we are sure that the file is going to be recovered, clear the
// contents of the current buffer.
while (!(curbuf->b_ml.ml_flags & ML_EMPTY)) {
ml_delete(1, false);
}
// Try reading the original file to obtain the values of 'fileformat',
// 'fileencoding', etc. Ignore errors. The text itself is not used.
if (curbuf->b_ffname != NULL) {
orig_file_status = readfile(curbuf->b_ffname, NULL, 0,
0, MAXLNUM, NULL, READ_NEW, false);
}
// Use the 'fileformat' and 'fileencoding' as stored in the swapfile.
if (b0_ff != 0) {
set_fileformat(b0_ff - 1, OPT_LOCAL);
}
if (b0_fenc != NULL) {
set_option_value_give_err(kOptFileencoding, CSTR_AS_OPTVAL(b0_fenc), OPT_LOCAL);
xfree(b0_fenc);
}
unchanged(curbuf, true, true);
blocknr_T bnum = 1; // start with block 1
unsigned page_count = 1; // which is 1 page
linenr_T lnum = 0; // append after line 0 in curbuf
linenr_T line_count = 0;
int idx = 0; // start with first index in block 1
int error = 0;
buf->b_ml.ml_stack_top = 0;
buf->b_ml.ml_stack = NULL;
buf->b_ml.ml_stack_size = 0;
bool cannot_open = (curbuf->b_ffname == NULL);
serious_error = false;
for (; !got_int; line_breakcheck()) {
if (hp != NULL) {
mf_put(mfp, hp, false, false); // release previous block
}
// get block
if ((hp = mf_get(mfp, bnum, page_count)) == NULL) {
if (bnum == 1) {
semsg(_("E309: Unable to read block 1 from %s"), mfp->mf_fname);
goto theend;
}
error++;
ml_append(lnum++, _("???MANY LINES MISSING"), 0, true);
} else { // there is a block
PointerBlock *pp = hp->bh_data;
if (pp->pb_id == PTR_ID) { // it is a pointer block
bool ptr_block_error = false;
if (pp->pb_count_max != PB_COUNT_MAX(mfp)) {
ptr_block_error = true;
pp->pb_count_max = PB_COUNT_MAX(mfp);
}
if (pp->pb_count > pp->pb_count_max) {
ptr_block_error = true;
pp->pb_count = pp->pb_count_max;
}
if (ptr_block_error) {
emsg(_(e_warning_pointer_block_corrupted));
}
// check line count when using pointer block first time
if (idx == 0 && line_count != 0) {
for (int i = 0; i < (int)pp->pb_count; i++) {
line_count -= pp->pb_pointer[i].pe_line_count;
}
if (line_count != 0) {
error++;
ml_append(lnum++, _("???LINE COUNT WRONG"), 0, true);
}
}
if (pp->pb_count == 0) {
ml_append(lnum++, _("???EMPTY BLOCK"), 0, true);
error++;
} else if (idx < (int)pp->pb_count) { // go a block deeper
if (pp->pb_pointer[idx].pe_bnum < 0) {
// Data block with negative block number.
// Try to read lines from the original file.
// This is slow, but it works.
if (!cannot_open) {
line_count = pp->pb_pointer[idx].pe_line_count;
if (readfile(curbuf->b_ffname, NULL, lnum,
pp->pb_pointer[idx].pe_old_lnum - 1, line_count,
NULL, 0, false) != OK) {
cannot_open = true;
} else {
lnum += line_count;
}
}
if (cannot_open) {
error++;
ml_append(lnum++, _("???LINES MISSING"), 0, true);
}
idx++; // get same block again for next index
continue;
}
// going one block deeper in the tree
int top = ml_add_stack(buf); // new entry in stack
ip = &(buf->b_ml.ml_stack[top]);
ip->ip_bnum = bnum;
ip->ip_index = idx;
bnum = pp->pb_pointer[idx].pe_bnum;
line_count = pp->pb_pointer[idx].pe_line_count;
page_count = (unsigned)pp->pb_pointer[idx].pe_page_count;
idx = 0;
continue;
}
} else { // not a pointer block
DataBlock *dp = hp->bh_data;
if (dp->db_id != DATA_ID) { // block id wrong
if (bnum == 1) {
semsg(_("E310: Block 1 ID wrong (%s not a .swp file?)"),
mfp->mf_fname);
goto theend;
}
error++;
ml_append(lnum++, _("???BLOCK MISSING"), 0, true);
} else {
// It is a data block.
// Append all the lines in this block.
bool has_error = false;
// Check the length of the block.
// If wrong, use the length given in the pointer block.
if (page_count * mfp->mf_page_size != dp->db_txt_end) {
ml_append(lnum++,
_("??? from here until ???END lines" " may be messed up"),
0, true);
error++;
has_error = true;
dp->db_txt_end = page_count * mfp->mf_page_size;
}
// Make sure there is a NUL at the end of the block so we
// don't go over the end when copying text.
*((char *)dp + dp->db_txt_end - 1) = NUL;
// Check the number of lines in the block.
// If wrong, use the count in the data block.
if (line_count != dp->db_line_count) {
ml_append(lnum++,
_("??? from here until ???END lines"
" may have been inserted/deleted"),
0, true);
error++;
has_error = true;
}
bool did_questions = false;
for (int i = 0; i < dp->db_line_count; i++) {
if ((char *)&(dp->db_index[i]) >= (char *)dp + dp->db_txt_start) {
// line count must be wrong
error++;
ml_append(lnum++, _("??? lines may be missing"), 0, true);
break;
}
int txt_start = (dp->db_index[i] & DB_INDEX_MASK);
if (txt_start <= (int)HEADER_SIZE
|| txt_start >= (int)dp->db_txt_end) {
error++;
// avoid lots of lines with "???"
if (did_questions) {
continue;
}
did_questions = true;
p = "???";
} else {
did_questions = false;
p = (char *)dp + txt_start;
}
ml_append(lnum++, p, 0, true);
}
if (has_error) {
ml_append(lnum++, _("???END"), 0, true);
}
}
}
}
if (buf->b_ml.ml_stack_top == 0) { // finished
break;
}
// go one block up in the tree
ip = &(buf->b_ml.ml_stack[--(buf->b_ml.ml_stack_top)]);
bnum = ip->ip_bnum;
idx = ip->ip_index + 1; // go to next index
page_count = 1;
}
// Compare the buffer contents with the original file. When they differ
// set the 'modified' flag.
// Lines 1 - lnum are the new contents.
// Lines lnum + 1 to ml_line_count are the original contents.
// Line ml_line_count + 1 in the dummy empty line.
if (orig_file_status != OK || curbuf->b_ml.ml_line_count != lnum * 2 + 1) {
// Recovering an empty file results in two lines and the first line is
// empty. Don't set the modified flag then.
if (!(curbuf->b_ml.ml_line_count == 2 && *ml_get(1) == NUL)) {
changed_internal(curbuf);
buf_inc_changedtick(curbuf);
}
} else {
for (idx = 1; idx <= lnum; idx++) {
// Need to copy one line, fetching the other one may flush it.
p = xstrnsave(ml_get(idx), (size_t)ml_get_len(idx));
int i = strcmp(p, ml_get(idx + lnum));
xfree(p);
if (i != 0) {
changed_internal(curbuf);
buf_inc_changedtick(curbuf);
break;
}
}
}
// Delete the lines from the original file and the dummy line from the
// empty buffer. These will now be after the last line in the buffer.
while (curbuf->b_ml.ml_line_count > lnum
&& !(curbuf->b_ml.ml_flags & ML_EMPTY)) {
ml_delete(curbuf->b_ml.ml_line_count, false);
}
curbuf->b_flags |= BF_RECOVERED;
check_cursor(curwin);
recoverymode = false;
if (got_int) {
emsg(_("E311: Recovery Interrupted"));
} else if (error) {
no_wait_return++;
msg(">>>>>>>>>>>>>", 0);
emsg(_("E312: Errors detected while recovering; look for lines starting with ???"));
no_wait_return--;
msg(_("See \":help E312\" for more information."), 0);
msg(">>>>>>>>>>>>>", 0);
} else {
if (curbuf->b_changed) {
msg(_("Recovery completed. You should check if everything is OK."), 0);
msg_puts(_("\n(You might want to write out this file under another name\n"));
msg_puts(_("and run diff with the original file to check for changes)"));
} else {
msg(_("Recovery completed. Buffer contents equals file contents."), 0);
}
msg_puts(_("\nYou may want to delete the .swp file now."));
if (swapfile_proc_running(b0p, fname_used)) {
// Warn there could be an active Vim on the same file, the user may
// want to kill it.
msg_puts(_("\nNote: process STILL RUNNING: "));
msg_outnum((int)char_to_long(b0p->b0_pid));
}
msg_puts("\n\n");
cmdline_row = msg_row;
}
redraw_curbuf_later(UPD_NOT_VALID);
theend:
xfree(fname_used);
recoverymode = false;
if (mfp != NULL) {
if (hp != NULL) {
mf_put(mfp, hp, false, false);
}
mf_close(mfp, false); // will also xfree(mfp->mf_fname)
}
if (buf != NULL) { // may be NULL if swapfile not found.
xfree(buf->b_ml.ml_stack);
xfree(buf);
}
if (serious_error && called_from_main) {
ml_close(curbuf, true);
} else {
apply_autocmds(EVENT_BUFREADPOST, NULL, curbuf->b_fname, false, curbuf);
apply_autocmds(EVENT_BUFWINENTER, NULL, curbuf->b_fname, false, curbuf);
}
}
/// Find the names of swapfiles in current directory and the directory given
/// with the 'directory' option.
///
/// Used to:
/// - list the swapfiles for "nvim -r"
/// - count the number of swapfiles when recovering
/// - list the swapfiles when recovering
/// - list the swapfiles for swapfilelist()
/// - find the name of the n'th swapfile when recovering
///
/// @param fname base for swapfile name
/// @param do_list when true, list the swapfile names
/// @param ret_list when not NULL add file names to it
/// @param nr when non-zero, return nr'th swapfile name
/// @param fname_out result when "nr" > 0
int recover_names(char *fname, bool do_list, list_T *ret_list, int nr, char **fname_out)
{
int num_names;
char *(names[6]);
char *tail;
char *p;
int file_count = 0;
char **files;
char *fname_res = NULL;
#ifdef HAVE_READLINK
char fname_buf[MAXPATHL];
#endif
if (fname != NULL) {
#ifdef HAVE_READLINK
// Expand symlink in the file name, because the swapfile is created
// with the actual file instead of with the symlink.
fname_res = (resolve_symlink(fname, fname_buf) == OK) ? fname_buf : fname;
#else
fname_res = fname;
#endif
}
if (do_list) {
// use msg() to start the scrolling properly
msg(_("Swap files found:"), 0);
msg_putchar('\n');
}
// Do the loop for every directory in 'directory'.
// First allocate some memory to put the directory name in.
char *dir_name = xmalloc(strlen(p_dir) + 1);
char *dirp = p_dir;
while (*dirp) {
// Isolate a directory name from *dirp and put it in dir_name (we know
// it is large enough, so use 31000 for length).
// Advance dirp to next directory name.
copy_option_part(&dirp, dir_name, 31000, ",");
if (dir_name[0] == '.' && dir_name[1] == NUL) { // check current dir
if (fname == NULL) {
names[0] = xstrdup("*.sw?");
// For Unix names starting with a dot are special. MS-Windows
// supports this too, on some file systems.
names[1] = xstrdup(".*.sw?");
names[2] = xstrdup(".sw?");
num_names = 3;
} else {
num_names = recov_file_names(names, fname_res, true);
}
} else { // check directory dir_name
if (fname == NULL) {
names[0] = concat_fnames(dir_name, "*.sw?", true);
// For Unix names starting with a dot are special. MS-Windows
// supports this too, on some file systems.
names[1] = concat_fnames(dir_name, ".*.sw?", true);
names[2] = concat_fnames(dir_name, ".sw?", true);
num_names = 3;
} else {
int len = (int)strlen(dir_name);
p = dir_name + len;
if (after_pathsep(dir_name, p) && len > 1 && p[-1] == p[-2]) {
// Ends with '//', Use Full path for swap name
tail = make_percent_swname(dir_name, p, fname_res);
} else {
tail = path_tail(fname_res);
tail = concat_fnames(dir_name, tail, true);
}
num_names = recov_file_names(names, tail, false);
xfree(tail);
}
}
int num_files;
if (num_names == 0) {
num_files = 0;
} else if (expand_wildcards(num_names, names, &num_files, &files,
EW_KEEPALL|EW_FILE|EW_SILENT) == FAIL) {
num_files = 0;
}
// When no swapfile found, wildcard expansion might have failed (e.g.
// not able to execute the shell).
// Try finding a swapfile by simply adding ".swp" to the file name.
if (*dirp == NUL && file_count + num_files == 0 && fname != NULL) {
char *swapname = modname(fname_res, ".swp", true);
if (swapname != NULL) {
if (os_path_exists(swapname)) {
files = xmalloc(sizeof(char *));
files[0] = swapname;
swapname = NULL;
num_files = 1;
}
xfree(swapname);
}
}
// Remove swapfile name of the current buffer, it must be ignored.
// But keep it for swapfilelist().
if (curbuf->b_ml.ml_mfp != NULL
&& (p = curbuf->b_ml.ml_mfp->mf_fname) != NULL
&& ret_list == NULL) {
for (int i = 0; i < num_files; i++) {
// Do not expand wildcards, on Windows would try to expand
// "%tmp%" in "%tmp%file"
if (path_full_compare(p, files[i], true, false) & kEqualFiles) {
// Remove the name from files[i]. Move further entries
// down. When the array becomes empty free it here, since
// FreeWild() won't be called below.
xfree(files[i]);
if (--num_files == 0) {
xfree(files);
} else {
for (; i < num_files; i++) {
files[i] = files[i + 1];
}
}
}
}
}
if (nr > 0) {
file_count += num_files;
if (nr <= file_count) {
*fname_out = xstrdup(files[nr - 1 + num_files - file_count]);
dirp = ""; // stop searching
}
} else if (do_list) {
if (dir_name[0] == '.' && dir_name[1] == NUL) {
if (fname == NULL) {
msg_puts(_(" In current directory:\n"));
} else {
msg_puts(_(" Using specified name:\n"));
}
} else {
msg_puts(_(" In directory "));
msg_home_replace(dir_name);
msg_puts(":\n");
}
if (num_files) {
for (int i = 0; i < num_files; i++) {
// print the swapfile name
msg_outnum(++file_count);
msg_puts(". ");
msg_puts(path_tail(files[i]));
msg_putchar('\n');
swapfile_info(files[i]);
}
} else {
msg_puts(_(" -- none --\n"));
}
ui_flush();
} else if (ret_list != NULL) {
for (int i = 0; i < num_files; i++) {
char *name = concat_fnames(dir_name, files[i], true);
tv_list_append_allocated_string(ret_list, name);
}
} else {
file_count += num_files;
}
for (int i = 0; i < num_names; i++) {
xfree(names[i]);
}
if (num_files > 0) {
FreeWild(num_files, files);
}
}
xfree(dir_name);
return file_count;
}
/// Append the full path to name with path separators made into percent
/// signs, to dir. An unnamed buffer is handled as "" (<currentdir>/"")
/// signs, to "dir". An unnamed buffer is handled as "" (<currentdir>/"")
/// The last character in "dir" must be an extra slash or backslash, it is
/// removed.
char *make_percent_swname(char *dir, char *dir_end, const char *name)
FUNC_ATTR_NONNULL_ARG(1, 2)
{
char *d = NULL;
char *f = fix_fname(name != NULL ? name : "");
if (f == NULL) {
return NULL;
}
char *s = xstrdup(f);
for (d = s; *d != NUL; MB_PTR_ADV(d)) {
if (vim_ispathsep(*d)) {
*d = '%';
}
}
dir_end[-1] = NUL; // remove one trailing slash
d = concat_fnames(dir, s, true);
xfree(s);
xfree(f);
return d;
}
// PID of swapfile owner, or zero if not running.
static int proc_running;
/// For Vimscript "swapinfo()".
///
/// @return information found in swapfile "fname" in dictionary "d".
void swapfile_dict(const char *fname, dict_T *d)
{
int fd;
ZeroBlock b0;
if ((fd = os_open(fname, O_RDONLY, 0)) >= 0) {
if (read_eintr(fd, &b0, sizeof(b0)) == sizeof(b0)) {
if (ml_check_b0_id(&b0) == FAIL) {
tv_dict_add_str(d, S_LEN("error"), "Not a swap file");
} else if (b0_magic_wrong(&b0)) {
tv_dict_add_str(d, S_LEN("error"), "Magic number mismatch");
} else {
// We have swap information.
tv_dict_add_str_len(d, S_LEN("version"), b0.b0_version, 10);
tv_dict_add_str_len(d, S_LEN("user"), b0.b0_uname,
B0_UNAME_SIZE);
tv_dict_add_str_len(d, S_LEN("host"), b0.b0_hname,
B0_HNAME_SIZE);
tv_dict_add_str_len(d, S_LEN("fname"), b0.b0_fname,
B0_FNAME_SIZE_ORG);
tv_dict_add_nr(d, S_LEN("pid"), swapfile_proc_running(&b0, fname));
tv_dict_add_nr(d, S_LEN("mtime"), char_to_long(b0.b0_mtime));
tv_dict_add_nr(d, S_LEN("dirty"), b0.b0_dirty ? 1 : 0);
tv_dict_add_nr(d, S_LEN("inode"), char_to_long(b0.b0_ino));
}
} else {
tv_dict_add_str(d, S_LEN("error"), "Cannot read file");
}
close(fd);
} else {
tv_dict_add_str(d, S_LEN("error"), "Cannot open file");
}
}
/// Loads info from swapfile `fname`, and displays it to the user.
///
/// @return timestamp (0 when unknown).
static time_t swapfile_info(char *fname)
{
assert(fname != NULL);
ZeroBlock b0;
time_t x = (time_t)0;
#ifdef UNIX
char uname[B0_UNAME_SIZE];
#endif
// print the swapfile date
FileInfo file_info;
if (os_fileinfo(fname, &file_info)) {
#ifdef UNIX
// print name of owner of the file
if (os_get_uname((uv_uid_t)file_info.stat.st_uid, uname, B0_UNAME_SIZE) == OK) {
msg_puts(_(" owned by: "));
msg_outtrans(uname, 0, false);
msg_puts(_(" dated: "));
} else {
msg_puts(_(" dated: "));
}
#else
msg_puts(_(" dated: "));
#endif
x = file_info.stat.st_mtim.tv_sec;
char ctime_buf[100]; // hopefully enough for every language
msg_puts(os_ctime_r(&x, ctime_buf, sizeof(ctime_buf), true));
}
// print the original file name
int fd = os_open(fname, O_RDONLY, 0);
if (fd >= 0) {
if (read_eintr(fd, &b0, sizeof(b0)) == sizeof(b0)) {
if (strncmp(b0.b0_version, "VIM 3.0", 7) == 0) {
msg_puts(_(" [from Vim version 3.0]"));
} else if (ml_check_b0_id(&b0) == FAIL) {
msg_puts(_(" [does not look like a Nvim swap file]"));
} else if (!ml_check_b0_strings(&b0)) {
msg_puts(_(" [garbled strings (not nul terminated)]"));
} else {
msg_puts(_(" file name: "));
if (b0.b0_fname[0] == NUL) {
msg_puts(_("[No Name]"));
} else {
msg_outtrans(b0.b0_fname, 0, false);
}
msg_puts(_("\n modified: "));
msg_puts(b0.b0_dirty ? _("YES") : _("no"));
if (*(b0.b0_uname) != NUL) {
msg_puts(_("\n user name: "));
msg_outtrans(b0.b0_uname, 0, false);
}
if (*(b0.b0_hname) != NUL) {
if (*(b0.b0_uname) != NUL) {
msg_puts(_(" host name: "));
} else {
msg_puts(_("\n host name: "));
}
msg_outtrans(b0.b0_hname, 0, false);
}
if (char_to_long(b0.b0_pid) != 0) {
msg_puts(_("\n process ID: "));
msg_outnum((int)char_to_long(b0.b0_pid));
if ((proc_running = swapfile_proc_running(&b0, fname))) {
msg_puts(_(" (STILL RUNNING)"));
}
}
if (b0_magic_wrong(&b0)) {
msg_puts(_("\n [not usable on this computer]"));
}
}
} else {
msg_puts(_(" [cannot be read]"));
}
close(fd);
} else {
msg_puts(_(" [cannot be opened]"));
}
msg_putchar('\n');
return x;
}
/// @return true if the swapfile looks OK and there are no changes, thus it can be safely deleted.
static bool swapfile_unchanged(char *fname)
{
ZeroBlock b0;
// Swapfile must exist.
if (!os_path_exists(fname)) {
return false;
}
// must be able to read the first block
int fd = os_open(fname, O_RDONLY, 0);
if (fd < 0) {
return false;
}
if (read_eintr(fd, &b0, sizeof(b0)) != sizeof(b0)) {
close(fd);
return false;
}
bool ret = true;
// the ID and magic number must be correct
if (ml_check_b0_id(&b0) == FAIL || b0_magic_wrong(&b0)) {
ret = false;
}
// must be unchanged
if (b0.b0_dirty) {
ret = false;
}
// Host name must be known and must equal the current host name, otherwise
// comparing pid is meaningless.
if (*(b0.b0_hname) == NUL) {
ret = false;
} else {
char hostname[B0_HNAME_SIZE];
os_get_hostname(hostname, B0_HNAME_SIZE);
hostname[B0_HNAME_SIZE - 1] = NUL;
b0.b0_hname[B0_HNAME_SIZE - 1] = NUL; // in case of corruption
if (STRICMP(b0.b0_hname, hostname) != 0) {
ret = false;
}
}
// process must be known and not running.
if (char_to_long(b0.b0_pid) == 0 || swapfile_proc_running(&b0, fname)) {
ret = false;
}
// We do not check the user, it should be irrelevant for whether the swap
// file is still useful.
close(fd);
return ret;
}
static int recov_file_names(char **names, char *path, bool prepend_dot)
FUNC_ATTR_NONNULL_ALL
{
int num_names = 0;
// May also add the file name with a dot prepended, for swapfile in same
// dir as original file.
if (prepend_dot) {
names[num_names] = modname(path, ".sw?", true);
if (names[num_names] == NULL) {
return num_names;
}
num_names++;
}
// Form the normal swapfile name pattern by appending ".sw?".
names[num_names] = concat_fnames(path, ".sw?", false);
if (num_names >= 1) { // check if we have the same name twice
char *p = names[num_names - 1];
int i = (int)strlen(names[num_names - 1]) - (int)strlen(names[num_names]);
if (i > 0) {
p += i; // file name has been expanded to full path
}
if (strcmp(p, names[num_names]) != 0) {
num_names++;
} else {
xfree(names[num_names]);
}
} else {
num_names++;
}
return num_names;
}
/// sync all memlines
///
/// @param check_file if true, check if original file exists and was not changed.
/// @param check_char if true, stop syncing when character becomes available, but
///
/// always sync at least one block.
void ml_sync_all(int check_file, int check_char, bool do_fsync)
{
FOR_ALL_BUFFERS(buf) {
if (buf->b_ml.ml_mfp == NULL || buf->b_ml.ml_mfp->mf_fname == NULL) {
continue; // no file
}
ml_flush_line(buf, false); // flush buffered line
// flush locked block
ml_find_line(buf, 0, ML_FLUSH);
if (bufIsChanged(buf) && check_file && mf_need_trans(buf->b_ml.ml_mfp)
&& buf->b_ffname != NULL) {
// If the original file does not exist anymore or has been changed
// call ml_preserve() to get rid of all negative numbered blocks.
FileInfo file_info;
if (!os_fileinfo(buf->b_ffname, &file_info)
|| file_info.stat.st_mtim.tv_sec != buf->b_mtime_read
|| file_info.stat.st_mtim.tv_nsec != buf->b_mtime_read_ns
|| os_fileinfo_size(&file_info) != buf->b_orig_size) {
ml_preserve(buf, false, do_fsync);
did_check_timestamps = false;
need_check_timestamps = true; // give message later
}
}
if (buf->b_ml.ml_mfp->mf_dirty == MF_DIRTY_YES) {
mf_sync(buf->b_ml.ml_mfp, (check_char ? MFS_STOP : 0)
| (do_fsync && bufIsChanged(buf) ? MFS_FLUSH : 0));
if (check_char && os_char_avail()) { // character available now
break;
}
}
}
}
/// sync one buffer, including negative blocks
///
/// after this all the blocks are in the swapfile
///
/// Used for the :preserve command and when the original file has been
/// changed or deleted.
///
/// @param message if true, the success of preserving is reported.
void ml_preserve(buf_T *buf, bool message, bool do_fsync)
{
memfile_T *mfp = buf->b_ml.ml_mfp;
int got_int_save = got_int;
if (mfp == NULL || mfp->mf_fname == NULL) {
if (message) {
emsg(_("E313: Cannot preserve, there is no swap file"));
}
return;
}
// We only want to stop when interrupted here, not when interrupted
// before.
got_int = false;
ml_flush_line(buf, false); // flush buffered line
ml_find_line(buf, 0, ML_FLUSH); // flush locked block
int status = mf_sync(mfp, MFS_ALL | (do_fsync ? MFS_FLUSH : 0));
// stack is invalid after mf_sync(.., MFS_ALL)
buf->b_ml.ml_stack_top = 0;
// Some of the data blocks may have been changed from negative to
// positive block number. In that case the pointer blocks need to be
// updated.
//
// We don't know in which pointer block the references are, so we visit
// all data blocks until there are no more translations to be done (or
// we hit the end of the file, which can only happen in case a write fails,
// e.g. when file system if full).
// ml_find_line() does the work by translating the negative block numbers
// when getting the first line of each data block.
if (mf_need_trans(mfp) && !got_int) {
linenr_T lnum = 1;
while (mf_need_trans(mfp) && lnum <= buf->b_ml.ml_line_count) {
bhdr_T *hp = ml_find_line(buf, lnum, ML_FIND);
if (hp == NULL) {
status = FAIL;
goto theend;
}
CHECK(buf->b_ml.ml_locked_low != lnum, "low != lnum");
lnum = buf->b_ml.ml_locked_high + 1;
}
ml_find_line(buf, 0, ML_FLUSH); // flush locked block
// sync the updated pointer blocks
if (mf_sync(mfp, MFS_ALL | (do_fsync ? MFS_FLUSH : 0)) == FAIL) {
status = FAIL;
}
buf->b_ml.ml_stack_top = 0; // stack is invalid now
}
theend:
got_int |= got_int_save;
if (message) {
if (status == OK) {
msg(_("File preserved"), 0);
} else {
emsg(_("E314: Preserve failed"));
}
}
}
// NOTE: The pointer returned by the ml_get_*() functions only remains valid
// until the next call!
// line1 = ml_get(1);
// line2 = ml_get(2); // line1 is now invalid!
// Make a copy of the line if necessary.
/// @return a pointer to a (read-only copy of a) line in curbuf.
///
/// On failure an error message is given and IObuff is returned (to avoid
/// having to check for error everywhere).
char *ml_get(linenr_T lnum)
{
return ml_get_buf_impl(curbuf, lnum, false);
}
/// @return a pointer to a (read-only copy of a) line.
///
/// This is the same as ml_get(), but taking in the buffer
/// as an argument.
char *ml_get_buf(buf_T *buf, linenr_T lnum)
{
return ml_get_buf_impl(buf, lnum, false);
}
/// Like `ml_get_buf`, but allow the line to be mutated in place.
///
/// This is very limited. Generally ml_replace_buf()
/// should be used to modify a line.
///
/// @return a pointer to a line in the buffer
char *ml_get_buf_mut(buf_T *buf, linenr_T lnum)
{
return ml_get_buf_impl(buf, lnum, true);
}
/// @return pointer to position "pos".
char *ml_get_pos(const pos_T *pos)
FUNC_ATTR_NONNULL_ALL
{
return ml_get_buf(curbuf, pos->lnum) + pos->col;
}
/// @return length (excluding the NUL) of the given line.
colnr_T ml_get_len(linenr_T lnum)
{
return ml_get_buf_len(curbuf, lnum);
}
/// @return length (excluding the NUL) of the text after position "pos".
colnr_T ml_get_pos_len(pos_T *pos)
{
return ml_get_buf_len(curbuf, pos->lnum) - pos->col;
}
/// @return length (excluding the NUL) of the given line in the given buffer.
colnr_T ml_get_buf_len(buf_T *buf, linenr_T lnum)
{
if (*ml_get_buf(buf, lnum) == NUL) {
return 0;
}
return buf->b_ml.ml_line_len - 1;
}
/// @return codepoint at pos. pos must be either valid or have col set to MAXCOL!
int gchar_pos(pos_T *pos)
FUNC_ATTR_NONNULL_ARG(1)
{
// When searching columns is sometimes put at the end of a line.
if (pos->col == MAXCOL || pos->col > ml_get_len(pos->lnum)) {
return NUL;
}
return utf_ptr2char(ml_get_pos(pos));
}
/// @param will_change true mark the buffer dirty (chars in the line will be changed)
///
/// @return a pointer to a line in a specific buffer
static char *ml_get_buf_impl(buf_T *buf, linenr_T lnum, bool will_change)
FUNC_ATTR_NONNULL_ALL
{
static int recursive = 0;
static char questions[4];
if (buf->b_ml.ml_mfp == NULL) { // there are no lines
buf->b_ml.ml_line_len = 1;
return "";
}
if (lnum > buf->b_ml.ml_line_count) { // invalid line number
if (recursive == 0) {
// Avoid giving this message for a recursive call, may happen when
// the GUI redraws part of the text.
recursive++;
siemsg(_(e_ml_get_invalid_lnum_nr), (int64_t)lnum);
recursive--;
}
ml_flush_line(buf, false);
errorret:
STRCPY(questions, "???");
buf->b_ml.ml_line_len = 4;
buf->b_ml.ml_line_lnum = lnum;
return questions;
}
lnum = MAX(lnum, 1); // pretend line 0 is line 1
// See if it is the same line as requested last time.
// Otherwise may need to flush last used line.
// Don't use the last used line when 'swapfile' is reset, need to load all
// blocks.
if (buf->b_ml.ml_line_lnum != lnum) {
ml_flush_line(buf, false);
// Find the data block containing the line.
// This also fills the stack with the blocks from the root to the data
// block and releases any locked block.
bhdr_T *hp;
if ((hp = ml_find_line(buf, lnum, ML_FIND)) == NULL) {
if (recursive == 0) {
// Avoid giving this message for a recursive call, may happen
// when the GUI redraws part of the text.
recursive++;
get_trans_bufname(buf);
shorten_dir(NameBuff);
siemsg(_(e_ml_get_cannot_find_line_nr_in_buffer_nr_str),
(int64_t)lnum, buf->b_fnum, NameBuff);
recursive--;
}
goto errorret;
}
DataBlock *dp = hp->bh_data;
int idx = lnum - buf->b_ml.ml_locked_low;
unsigned start = (dp->db_index[idx] & DB_INDEX_MASK);
// The text ends where the previous line starts. The first line ends
// at the end of the block.
unsigned end = idx == 0 ? dp->db_txt_end : (dp->db_index[idx - 1] & DB_INDEX_MASK);
buf->b_ml.ml_line_ptr = (char *)dp + start;
buf->b_ml.ml_line_len = (colnr_T)(end - start);
buf->b_ml.ml_line_lnum = lnum;
buf->b_ml.ml_flags &= ~(ML_LINE_DIRTY | ML_ALLOCATED);
}
if (will_change) {
buf->b_ml.ml_flags |= (ML_LOCKED_DIRTY | ML_LOCKED_POS);
#ifdef ML_GET_ALLOC_LINES
if (buf->b_ml.ml_flags & ML_ALLOCATED) {
// can't make the change in the data block
buf->b_ml.ml_flags |= ML_LINE_DIRTY;
}
#endif
ml_add_deleted_len_buf(buf, buf->b_ml.ml_line_ptr, -1);
}
#ifdef ML_GET_ALLOC_LINES
if ((buf->b_ml.ml_flags & (ML_LINE_DIRTY | ML_ALLOCATED)) == 0) {
// make sure the text is in allocated memory
buf->b_ml.ml_line_ptr = xmemdup(buf->b_ml.ml_line_ptr,
(size_t)buf->b_ml.ml_line_len);
buf->b_ml.ml_flags |= ML_ALLOCATED;
if (will_change) {
// can't make the change in the data block
buf->b_ml.ml_flags |= ML_LINE_DIRTY;
}
}
#endif
return buf->b_ml.ml_line_ptr;
}
/// Check if a line that was just obtained by a call to ml_get
/// is in allocated memory.
/// This ignores ML_ALLOCATED to get the same behavior as without ML_GET_ALLOC_LINES.
int ml_line_alloced(void)
{
return curbuf->b_ml.ml_flags & ML_LINE_DIRTY;
}
/// Append a line after lnum (may be 0 to insert a line in front of the file).
/// "line" does not need to be allocated, but can't be another line in a
/// buffer, unlocking may make it invalid.
///
/// newfile: true when starting to edit a new file, meaning that pe_old_lnum
/// will be set for recovery
/// Check: The caller of this function should probably also call
/// appended_lines().
///
/// @param lnum append after this line (can be 0)
/// @param line text of the new line
/// @param len length of new line, including NUL, or 0
/// @param newfile flag, see above
///
/// @return FAIL for failure, OK otherwise
int ml_append(linenr_T lnum, char *line, colnr_T len, bool newfile)
{
// When starting up, we might still need to create the memfile
if (curbuf->b_ml.ml_mfp == NULL && open_buffer(false, NULL, 0) == FAIL) {
return FAIL;
}
if (curbuf->b_ml.ml_line_lnum != 0) {
ml_flush_line(curbuf, false);
}
return ml_append_int(curbuf, lnum, line, len, newfile, false);
}
/// Like ml_append() but for an arbitrary buffer. The buffer must already have
/// a memline.
///
/// @param lnum append after this line (can be 0)
/// @param line text of the new line
/// @param len length of new line, including NUL, or 0
/// @param newfile flag, see above
int ml_append_buf(buf_T *buf, linenr_T lnum, char *line, colnr_T len, bool newfile)
FUNC_ATTR_NONNULL_ARG(1)
{
if (buf->b_ml.ml_mfp == NULL) {
return FAIL;
}
if (buf->b_ml.ml_line_lnum != 0) {
ml_flush_line(buf, false);
}
return ml_append_int(buf, lnum, line, len, newfile, false);
}
/// @param lnum append after this line (can be 0)
/// @param line text of the new line
/// @param len length of line, including NUL, or 0
/// @param newfile flag, see above
/// @param mark mark the new line
static int ml_append_int(buf_T *buf, linenr_T lnum, char *line, colnr_T len, bool newfile,
bool mark)
{
// lnum out of range
if (lnum > buf->b_ml.ml_line_count || buf->b_ml.ml_mfp == NULL) {
return FAIL;
}
if (lowest_marked && lowest_marked > lnum) {
lowest_marked = lnum + 1;
}
if (len == 0) {
len = (colnr_T)strlen(line) + 1; // space needed for the text
}
int space_needed = len + (int)INDEX_SIZE; // space needed for text + index
memfile_T *mfp = buf->b_ml.ml_mfp;
int page_size = (int)mfp->mf_page_size;
// find the data block containing the previous line
// This also fills the stack with the blocks from the root to the data block
// This also releases any locked block.
bhdr_T *hp;
if ((hp = ml_find_line(buf, lnum == 0 ? 1 : lnum,
ML_INSERT)) == NULL) {
return FAIL;
}
buf->b_ml.ml_flags &= ~ML_EMPTY;
int db_idx; // index for lnum in data block
if (lnum == 0) { // got line one instead, correct db_idx
db_idx = -1; // careful, it is negative!
} else {
db_idx = lnum - buf->b_ml.ml_locked_low;
}
// get line count (number of indexes in current block) before the insertion
int line_count = buf->b_ml.ml_locked_high - buf->b_ml.ml_locked_low;
DataBlock *dp = hp->bh_data;
// If
// - there is not enough room in the current block
// - appending to the last line in the block
// - not appending to the last line in the file
// insert in front of the next block.
if ((int)dp->db_free < space_needed && db_idx == line_count - 1
&& lnum < buf->b_ml.ml_line_count) {
// Now that the line is not going to be inserted in the block that we
// expected, the line count has to be adjusted in the pointer blocks
// by using ml_locked_lineadd.
(buf->b_ml.ml_locked_lineadd)--;
(buf->b_ml.ml_locked_high)--;
if ((hp = ml_find_line(buf, lnum + 1, ML_INSERT)) == NULL) {
return FAIL;
}
db_idx = -1; // careful, it is negative!
// get line count before the insertion
line_count = buf->b_ml.ml_locked_high - buf->b_ml.ml_locked_low;
CHECK(buf->b_ml.ml_locked_low != lnum + 1, "locked_low != lnum + 1");
dp = hp->bh_data;
}
if (buf->b_prev_line_count == 0) {
buf->b_prev_line_count = buf->b_ml.ml_line_count;
}
buf->b_ml.ml_line_count++;
if ((int)dp->db_free >= space_needed) { // enough room in data block
// Insert new line in existing data block, or in data block allocated above.
dp->db_txt_start -= (unsigned)len;
dp->db_free -= (unsigned)space_needed;
dp->db_line_count++;
// move the text of the lines that follow to the front
// adjust the indexes of the lines that follow
if (line_count > db_idx + 1) { // if there are following lines
// Offset is the start of the previous line.
// This will become the character just after the new line.
int offset = db_idx < 0 ? (int)dp->db_txt_end
: (int)((dp->db_index[db_idx]) & DB_INDEX_MASK);
memmove((char *)dp + dp->db_txt_start,
(char *)dp + dp->db_txt_start + len,
(size_t)offset - (dp->db_txt_start + (size_t)len));
for (int i = line_count - 1; i > db_idx; i--) {
dp->db_index[i + 1] = dp->db_index[i] - (unsigned)len;
}
dp->db_index[db_idx + 1] = (unsigned)(offset - len);
} else { // add line at the end
dp->db_index[db_idx + 1] = dp->db_txt_start;
}
// copy the text into the block
memmove((char *)dp + dp->db_index[db_idx + 1], line, (size_t)len);
if (mark) {
dp->db_index[db_idx + 1] |= DB_MARKED;
}
// Mark the block dirty.
buf->b_ml.ml_flags |= ML_LOCKED_DIRTY;
if (!newfile) {
buf->b_ml.ml_flags |= ML_LOCKED_POS;
}
} else { // not enough space in data block
// If there is not enough room we have to create a new data block and copy some
// lines into it.
// Then we have to insert an entry in the pointer block.
// If this pointer block also is full, we go up another block, and so on, up
// to the root if necessary.
// The line counts in the pointer blocks have already been adjusted by
// ml_find_line().
int line_count_left, line_count_right;
int page_count_left, page_count_right;
bhdr_T *hp_left;
bhdr_T *hp_right;
bhdr_T *hp_new;
int lines_moved;
int data_moved = 0; // init to shut up gcc
int total_moved = 0; // init to shut up gcc
int stack_idx;
bool in_left;
linenr_T lnum_left, lnum_right;
PointerBlock *pp_new;
// We are going to allocate a new data block. Depending on the
// situation it will be put to the left or right of the existing
// block. If possible we put the new line in the left block and move
// the lines after it to the right block. Otherwise the new line is
// also put in the right block. This method is more efficient when
// inserting a lot of lines at one place.
if (db_idx < 0) { // left block is new, right block is existing
lines_moved = 0;
in_left = true;
// space_needed does not change
} else { // left block is existing, right block is new
lines_moved = line_count - db_idx - 1;
if (lines_moved == 0) {
in_left = false; // put new line in right block
// space_needed does not change
} else {
data_moved = (int)(((dp->db_index[db_idx]) & DB_INDEX_MASK) -
dp->db_txt_start);
total_moved = data_moved + lines_moved * (int)INDEX_SIZE;
if ((int)dp->db_free + total_moved >= space_needed) {
in_left = true; // put new line in left block
space_needed = total_moved;
} else {
in_left = false; // put new line in right block
space_needed += total_moved;
}
}
}
int page_count = ((space_needed + (int)HEADER_SIZE) + page_size - 1) / page_size;
hp_new = ml_new_data(mfp, newfile, page_count);
if (db_idx < 0) { // left block is new
hp_left = hp_new;
hp_right = hp;
line_count_left = 0;
line_count_right = line_count;
} else { // right block is new
hp_left = hp;
hp_right = hp_new;
line_count_left = line_count;
line_count_right = 0;
}
DataBlock *dp_right = hp_right->bh_data;
DataBlock *dp_left = hp_left->bh_data;
blocknr_T bnum_left = hp_left->bh_bnum;
blocknr_T bnum_right = hp_right->bh_bnum;
page_count_left = (int)hp_left->bh_page_count;
page_count_right = (int)hp_right->bh_page_count;
// May move the new line into the right/new block.
if (!in_left) {
dp_right->db_txt_start -= (unsigned)len;
dp_right->db_free -= (unsigned)len + (unsigned)INDEX_SIZE;
dp_right->db_index[0] = dp_right->db_txt_start;
if (mark) {
dp_right->db_index[0] |= DB_MARKED;
}
memmove((char *)dp_right + dp_right->db_txt_start,
line, (size_t)len);
line_count_right++;
}
// may move lines from the left/old block to the right/new one.
if (lines_moved) {
dp_right->db_txt_start -= (unsigned)data_moved;
dp_right->db_free -= (unsigned)total_moved;
memmove((char *)dp_right + dp_right->db_txt_start,
(char *)dp_left + dp_left->db_txt_start,
(size_t)data_moved);
int offset = (int)(dp_right->db_txt_start - dp_left->db_txt_start);
dp_left->db_txt_start += (unsigned)data_moved;
dp_left->db_free += (unsigned)total_moved;
// update indexes in the new block
for (int to = line_count_right, from = db_idx + 1;
from < line_count_left; from++, to++) {
dp_right->db_index[to] = dp->db_index[from] + (unsigned)offset;
}
line_count_right += lines_moved;
line_count_left -= lines_moved;
}
// May move the new line into the left (old or new) block.
if (in_left) {
dp_left->db_txt_start -= (unsigned)len;
dp_left->db_free -= (unsigned)len + (unsigned)INDEX_SIZE;
dp_left->db_index[line_count_left] = dp_left->db_txt_start;
if (mark) {
dp_left->db_index[line_count_left] |= DB_MARKED;
}
memmove((char *)dp_left + dp_left->db_txt_start,
line, (size_t)len);
line_count_left++;
}
if (db_idx < 0) { // left block is new
lnum_left = lnum + 1;
lnum_right = 0;
} else { // right block is new
lnum_left = 0;
if (in_left) {
lnum_right = lnum + 2;
} else {
lnum_right = lnum + 1;
}
}
dp_left->db_line_count = line_count_left;
dp_right->db_line_count = line_count_right;
// release the two data blocks
// The new one (hp_new) already has a correct blocknumber.
// The old one (hp, in ml_locked) gets a positive blocknumber if
// we changed it and we are not editing a new file.
if (lines_moved || in_left) {
buf->b_ml.ml_flags |= ML_LOCKED_DIRTY;
}
if (!newfile && db_idx >= 0 && in_left) {
buf->b_ml.ml_flags |= ML_LOCKED_POS;
}
mf_put(mfp, hp_new, true, false);
// flush the old data block
// set ml_locked_lineadd to 0, because the updating of the
// pointer blocks is done below
int lineadd = buf->b_ml.ml_locked_lineadd;
buf->b_ml.ml_locked_lineadd = 0;
ml_find_line(buf, 0, ML_FLUSH); // flush data block
// update pointer blocks for the new data block
for (stack_idx = buf->b_ml.ml_stack_top - 1; stack_idx >= 0; stack_idx--) {
infoptr_T *ip = &(buf->b_ml.ml_stack[stack_idx]);
int pb_idx = ip->ip_index;
if ((hp = mf_get(mfp, ip->ip_bnum, 1)) == NULL) {
return FAIL;
}
PointerBlock *pp = hp->bh_data; // must be pointer block
if (pp->pb_id != PTR_ID) {
iemsg(_(e_pointer_block_id_wrong_three));
mf_put(mfp, hp, false, false);
return FAIL;
}
// TODO(vim): If the pointer block is full and we are adding at the end
// try to insert in front of the next block
// block not full, add one entry
if (pp->pb_count < pp->pb_count_max) {
if (pb_idx + 1 < (int)pp->pb_count) {
memmove(&pp->pb_pointer[pb_idx + 2],
&pp->pb_pointer[pb_idx + 1],
(size_t)(pp->pb_count - pb_idx - 1) * sizeof(PointerEntry));
}
pp->pb_count++;
pp->pb_pointer[pb_idx].pe_line_count = line_count_left;
pp->pb_pointer[pb_idx].pe_bnum = bnum_left;
pp->pb_pointer[pb_idx].pe_page_count = page_count_left;
pp->pb_pointer[pb_idx + 1].pe_line_count = line_count_right;
pp->pb_pointer[pb_idx + 1].pe_bnum = bnum_right;
pp->pb_pointer[pb_idx + 1].pe_page_count = page_count_right;
if (lnum_left != 0) {
pp->pb_pointer[pb_idx].pe_old_lnum = lnum_left;
}
if (lnum_right != 0) {
pp->pb_pointer[pb_idx + 1].pe_old_lnum = lnum_right;
}
mf_put(mfp, hp, true, false);
buf->b_ml.ml_stack_top = stack_idx + 1; // truncate stack
if (lineadd) {
(buf->b_ml.ml_stack_top)--;
// fix line count for rest of blocks in the stack
ml_lineadd(buf, lineadd);
// fix stack itself
buf->b_ml.ml_stack[buf->b_ml.ml_stack_top].ip_high += lineadd;
(buf->b_ml.ml_stack_top)++;
}
// We are finished, break the loop here.
break;
}
// pointer block full
//
// split the pointer block
// allocate a new pointer block
// move some of the pointer into the new block
// prepare for updating the parent block
while (true) { // do this twice when splitting block 1
hp_new = ml_new_ptr(mfp);
if (hp_new == NULL) { // TODO(vim): try to fix tree
return FAIL;
}
pp_new = hp_new->bh_data;
if (hp->bh_bnum != 1) {
break;
}
// if block 1 becomes full the tree is given an extra level
// The pointers from block 1 are moved into the new block.
// block 1 is updated to point to the new block
// then continue to split the new block
memmove(pp_new, pp, (size_t)page_size);
pp->pb_count = 1;
pp->pb_pointer[0].pe_bnum = hp_new->bh_bnum;
pp->pb_pointer[0].pe_line_count = buf->b_ml.ml_line_count;
pp->pb_pointer[0].pe_old_lnum = 1;
pp->pb_pointer[0].pe_page_count = 1;
mf_put(mfp, hp, true, false); // release block 1
hp = hp_new; // new block is to be split
pp = pp_new;
CHECK(stack_idx != 0, _("stack_idx should be 0"));
ip->ip_index = 0;
stack_idx++; // do block 1 again later
}
// move the pointers after the current one to the new block
// If there are none, the new entry will be in the new block.
total_moved = pp->pb_count - pb_idx - 1;
if (total_moved) {
memmove(&pp_new->pb_pointer[0],
&pp->pb_pointer[pb_idx + 1],
(size_t)(total_moved) * sizeof(PointerEntry));
pp_new->pb_count = (uint16_t)total_moved;
pp->pb_count = (uint16_t)(pp->pb_count - (total_moved - 1));
pp->pb_pointer[pb_idx + 1].pe_bnum = bnum_right;
pp->pb_pointer[pb_idx + 1].pe_line_count = line_count_right;
pp->pb_pointer[pb_idx + 1].pe_page_count = page_count_right;
if (lnum_right) {
pp->pb_pointer[pb_idx + 1].pe_old_lnum = lnum_right;
}
} else {
pp_new->pb_count = 1;
pp_new->pb_pointer[0].pe_bnum = bnum_right;
pp_new->pb_pointer[0].pe_line_count = line_count_right;
pp_new->pb_pointer[0].pe_page_count = page_count_right;
pp_new->pb_pointer[0].pe_old_lnum = lnum_right;
}
pp->pb_pointer[pb_idx].pe_bnum = bnum_left;
pp->pb_pointer[pb_idx].pe_line_count = line_count_left;
pp->pb_pointer[pb_idx].pe_page_count = page_count_left;
if (lnum_left) {
pp->pb_pointer[pb_idx].pe_old_lnum = lnum_left;
}
lnum_left = 0;
lnum_right = 0;
// recompute line counts
line_count_right = 0;
for (int i = 0; i < (int)pp_new->pb_count; i++) {
line_count_right += pp_new->pb_pointer[i].pe_line_count;
}
line_count_left = 0;
for (int i = 0; i < (int)pp->pb_count; i++) {
line_count_left += pp->pb_pointer[i].pe_line_count;
}
bnum_left = hp->bh_bnum;
bnum_right = hp_new->bh_bnum;
page_count_left = 1;
page_count_right = 1;
mf_put(mfp, hp, true, false);
mf_put(mfp, hp_new, true, false);
}
// Safety check: fallen out of for loop?
if (stack_idx < 0) {
iemsg(_("E318: Updated too many blocks?"));
buf->b_ml.ml_stack_top = 0; // invalidate stack
}
}
// The line was inserted below 'lnum'
ml_updatechunk(buf, lnum + 1, len, ML_CHNK_ADDLINE);
return OK;
}
void ml_add_deleted_len(char *ptr, ssize_t len)
{
ml_add_deleted_len_buf(curbuf, ptr, len);
}
void ml_add_deleted_len_buf(buf_T *buf, char *ptr, ssize_t len)
{
if (inhibit_delete_count) {
return;
}
ssize_t maxlen = (ssize_t)strlen(ptr);
if (len == -1 || len > maxlen) {
len = maxlen;
}
buf->deleted_bytes += (size_t)len + 1;
buf->deleted_bytes2 += (size_t)len + 1;
if (buf->update_need_codepoints) {
mb_utflen(ptr, (size_t)len, &buf->deleted_codepoints,
&buf->deleted_codeunits);
buf->deleted_codepoints++; // NL char
buf->deleted_codeunits++;
}
}
int ml_replace(linenr_T lnum, char *line, bool copy)
{
return ml_replace_buf(curbuf, lnum, line, copy, false);
}
/// Replace line "lnum", with buffering, in current buffer.
///
/// @param copy if true, make a copy of the line, otherwise the line has been
/// copied to allocated memory already.
/// if false, the "line" may be freed to add text properties!
///
/// Do not use it after calling ml_replace().
///
/// Check: The caller of this function should probably also call
/// changed_lines(), unless update_screen(UPD_NOT_VALID) is used.
///
/// @return FAIL for failure, OK otherwise
int ml_replace_buf(buf_T *buf, linenr_T lnum, char *line, bool copy, bool noalloc)
{
if (line == NULL) { // just checking...
return FAIL;
}
// When starting up, we might still need to create the memfile
if (buf->b_ml.ml_mfp == NULL && open_buffer(false, NULL, 0) == FAIL) {
return FAIL;
}
if (copy) {
assert(!noalloc);
line = xstrdup(line);
}
if (buf->b_ml.ml_line_lnum != lnum) {
// another line is buffered, flush it
ml_flush_line(buf, false);
}
if (kv_size(buf->update_callbacks)) {
ml_add_deleted_len_buf(buf, ml_get_buf(buf, lnum), -1);
}
if (buf->b_ml.ml_flags & (ML_LINE_DIRTY | ML_ALLOCATED)) {
xfree(buf->b_ml.ml_line_ptr); // free allocated line
}
buf->b_ml.ml_line_ptr = line;
buf->b_ml.ml_line_len = (colnr_T)strlen(line) + 1;
buf->b_ml.ml_line_lnum = lnum;
buf->b_ml.ml_flags = (buf->b_ml.ml_flags | ML_LINE_DIRTY) & ~ML_EMPTY;
if (noalloc) {
// TODO(bfredl): this is a bit of a hack. but replacing lines in a loop is really common,
// and allocating a separate scratch buffer for each line which is immediately freed adds
// a lot of noise. A more general refactor could be to use a _fixed_ scratch buffer for
// all lines up to $REASONABLE_SIZE .
ml_flush_line(buf, true);
}
return OK;
}
/// Delete line `lnum` in the current buffer.
///
/// @note The caller of this function should probably also call
/// deleted_lines() after this.
///
/// @param message Show "--No lines in buffer--" message.
///
/// @return FAIL for failure, OK otherwise
int ml_delete(linenr_T lnum, bool message)
{
ml_flush_line(curbuf, false);
return ml_delete_int(curbuf, lnum, message);
}
/// Delete line `lnum` in buffer
///
/// @note The caller of this function should probably also call changed_lines() after this.
///
/// @param message Show "--No lines in buffer--" message.
///
/// @return FAIL for failure, OK otherwise
int ml_delete_buf(buf_T *buf, linenr_T lnum, bool message)
{
ml_flush_line(buf, false);
return ml_delete_int(buf, lnum, message);
}
static int ml_delete_int(buf_T *buf, linenr_T lnum, bool message)
{
if (lnum < 1 || lnum > buf->b_ml.ml_line_count) {
return FAIL;
}
if (lowest_marked && lowest_marked > lnum) {
lowest_marked--;
}
// If the file becomes empty the last line is replaced by an empty line.
if (buf->b_ml.ml_line_count == 1) { // file becomes empty
if (message) {
set_keep_msg(_(no_lines_msg), 0);
}
int i = ml_replace_buf(buf, 1, "", true, false);
buf->b_ml.ml_flags |= ML_EMPTY;
return i;
}
// find the data block containing the line
// This also fills the stack with the blocks from the root to the data block
// This also releases any locked block.
memfile_T *mfp = buf->b_ml.ml_mfp;
if (mfp == NULL) {
return FAIL;
}
bhdr_T *hp;
if ((hp = ml_find_line(buf, lnum, ML_DELETE)) == NULL) {
return FAIL;
}
DataBlock *dp = hp->bh_data;
// compute line count (number of entries in block) before the delete
int count = buf->b_ml.ml_locked_high - buf->b_ml.ml_locked_low + 2;
int idx = lnum - buf->b_ml.ml_locked_low;
if (buf->b_prev_line_count == 0) {
buf->b_prev_line_count = buf->b_ml.ml_line_count;
}
buf->b_ml.ml_line_count--;
int line_start = ((dp->db_index[idx]) & DB_INDEX_MASK);
int line_size;
if (idx == 0) { // first line in block, text at the end
line_size = (int)(dp->db_txt_end - (unsigned)line_start);
} else {
line_size = (int)(((dp->db_index[idx - 1]) & DB_INDEX_MASK) - (unsigned)line_start);
}
// Line should always have an NL char internally (represented as NUL),
// even if 'noeol' is set.
assert(line_size >= 1);
ml_add_deleted_len_buf(buf, (char *)dp + line_start, line_size - 1);
// special case: If there is only one line in the data block it becomes empty.
// Then we have to remove the entry, pointing to this data block, from the
// pointer block. If this pointer block also becomes empty, we go up another
// block, and so on, up to the root if necessary.
// The line counts in the pointer blocks have already been adjusted by
// ml_find_line().
if (count == 1) {
mf_free(mfp, hp); // free the data block
buf->b_ml.ml_locked = NULL;
for (int stack_idx = buf->b_ml.ml_stack_top - 1; stack_idx >= 0; stack_idx--) {
buf->b_ml.ml_stack_top = 0; // stack is invalid when failing
infoptr_T *ip = &(buf->b_ml.ml_stack[stack_idx]);
idx = ip->ip_index;
if ((hp = mf_get(mfp, ip->ip_bnum, 1)) == NULL) {
return FAIL;
}
PointerBlock *pp = hp->bh_data; // must be pointer block
if (pp->pb_id != PTR_ID) {
iemsg(_(e_pointer_block_id_wrong_four));
mf_put(mfp, hp, false, false);
return FAIL;
}
count = --(pp->pb_count);
if (count == 0) { // the pointer block becomes empty!
mf_free(mfp, hp);
} else {
if (count != idx) { // move entries after the deleted one
memmove(&pp->pb_pointer[idx], &pp->pb_pointer[idx + 1],
(size_t)(count - idx) * sizeof(PointerEntry));
}
mf_put(mfp, hp, true, false);
buf->b_ml.ml_stack_top = stack_idx; // truncate stack
// fix line count for rest of blocks in the stack
if (buf->b_ml.ml_locked_lineadd != 0) {
ml_lineadd(buf, buf->b_ml.ml_locked_lineadd);
buf->b_ml.ml_stack[buf->b_ml.ml_stack_top].ip_high +=
buf->b_ml.ml_locked_lineadd;
}
(buf->b_ml.ml_stack_top)++;
break;
}
}
CHECK(stack_idx < 0, _("deleted block 1?"));
} else {
// delete the text by moving the next lines forwards
int text_start = (int)dp->db_txt_start;
memmove((char *)dp + text_start + line_size,
(char *)dp + text_start, (size_t)(line_start - text_start));
// delete the index by moving the next indexes backwards
// Adjust the indexes for the text movement.
for (int i = idx; i < count - 1; i++) {
dp->db_index[i] = dp->db_index[i + 1] + (unsigned)line_size;
}
dp->db_free += (unsigned)line_size + (unsigned)INDEX_SIZE;
dp->db_txt_start += (unsigned)line_size;
dp->db_line_count--;
// mark the block dirty and make sure it is in the file (for recovery)
buf->b_ml.ml_flags |= (ML_LOCKED_DIRTY | ML_LOCKED_POS);
}
ml_updatechunk(buf, lnum, line_size, ML_CHNK_DELLINE);
return OK;
}
/// set the B_MARKED flag for line 'lnum'
void ml_setmarked(linenr_T lnum)
{
// invalid line number
if (lnum < 1 || lnum > curbuf->b_ml.ml_line_count
|| curbuf->b_ml.ml_mfp == NULL) {
return; // give error message?
}
if (lowest_marked == 0 || lowest_marked > lnum) {
lowest_marked = lnum;
}
// find the data block containing the line
// This also fills the stack with the blocks from the root to the data block
// This also releases any locked block.
bhdr_T *hp;
if ((hp = ml_find_line(curbuf, lnum, ML_FIND)) == NULL) {
return; // give error message?
}
DataBlock *dp = hp->bh_data;
dp->db_index[lnum - curbuf->b_ml.ml_locked_low] |= DB_MARKED;
curbuf->b_ml.ml_flags |= ML_LOCKED_DIRTY;
}
/// find the first line with its B_MARKED flag set
linenr_T ml_firstmarked(void)
{
if (curbuf->b_ml.ml_mfp == NULL) {
return 0;
}
// The search starts with lowest_marked line. This is the last line where
// a mark was found, adjusted by inserting/deleting lines.
for (linenr_T lnum = lowest_marked; lnum <= curbuf->b_ml.ml_line_count;) {
// Find the data block containing the line.
// This also fills the stack with the blocks from the root to the data
// block This also releases any locked block.
bhdr_T *hp;
if ((hp = ml_find_line(curbuf, lnum, ML_FIND)) == NULL) {
return 0; // give error message?
}
DataBlock *dp = hp->bh_data;
for (int i = lnum - curbuf->b_ml.ml_locked_low;
lnum <= curbuf->b_ml.ml_locked_high; i++, lnum++) {
if ((dp->db_index[i]) & DB_MARKED) {
(dp->db_index[i]) &= DB_INDEX_MASK;
curbuf->b_ml.ml_flags |= ML_LOCKED_DIRTY;
lowest_marked = lnum + 1;
return lnum;
}
}
}
return 0;
}
/// clear all DB_MARKED flags
void ml_clearmarked(void)
{
if (curbuf->b_ml.ml_mfp == NULL) { // nothing to do
return;
}
// The search starts with line lowest_marked.
for (linenr_T lnum = lowest_marked; lnum <= curbuf->b_ml.ml_line_count;) {
// Find the data block containing the line.
// This also fills the stack with the blocks from the root to the data
// block and releases any locked block.
bhdr_T *hp;
if ((hp = ml_find_line(curbuf, lnum, ML_FIND)) == NULL) {
return; // give error message?
}
DataBlock *dp = hp->bh_data;
for (int i = lnum - curbuf->b_ml.ml_locked_low;
lnum <= curbuf->b_ml.ml_locked_high; i++, lnum++) {
if ((dp->db_index[i]) & DB_MARKED) {
(dp->db_index[i]) &= DB_INDEX_MASK;
curbuf->b_ml.ml_flags |= ML_LOCKED_DIRTY;
}
}
}
lowest_marked = 0;
}
size_t ml_flush_deleted_bytes(buf_T *buf, size_t *codepoints, size_t *codeunits)
{
size_t ret = buf->deleted_bytes;
*codepoints = buf->deleted_codepoints;
*codeunits = buf->deleted_codeunits;
buf->deleted_bytes = 0;
buf->deleted_codepoints = 0;
buf->deleted_codeunits = 0;
return ret;
}
/// flush ml_line if necessary
static void ml_flush_line(buf_T *buf, bool noalloc)
{
static bool entered = false;
if (buf->b_ml.ml_line_lnum == 0 || buf->b_ml.ml_mfp == NULL) {
return; // nothing to do
}
if (buf->b_ml.ml_flags & ML_LINE_DIRTY) {
// This code doesn't work recursively.
if (entered) {
return;
}
entered = true;
buf->flush_count++;
linenr_T lnum = buf->b_ml.ml_line_lnum;
char *new_line = buf->b_ml.ml_line_ptr;
bhdr_T *hp = ml_find_line(buf, lnum, ML_FIND);
if (hp == NULL) {
siemsg(_("E320: Cannot find line %" PRId64), (int64_t)lnum);
} else {
DataBlock *dp = hp->bh_data;
int idx = lnum - buf->b_ml.ml_locked_low;
int start = ((dp->db_index[idx]) & DB_INDEX_MASK);
char *old_line = (char *)dp + start;
int old_len;
if (idx == 0) { // line is last in block
old_len = (int)dp->db_txt_end - start;
} else { // text of previous line follows
old_len = (int)(dp->db_index[idx - 1] & DB_INDEX_MASK) - start;
}
colnr_T new_len = buf->b_ml.ml_line_len;
int extra = new_len - old_len; // negative if lines gets smaller
// if new line fits in data block, replace directly
if ((int)dp->db_free >= extra) {
// if the length changes and there are following lines
int count = buf->b_ml.ml_locked_high - buf->b_ml.ml_locked_low + 1;
if (extra != 0 && idx < count - 1) {
// move text of following lines
memmove((char *)dp + dp->db_txt_start - extra,
(char *)dp + dp->db_txt_start,
(size_t)(start - (int)dp->db_txt_start));
// adjust pointers of this and following lines
for (int i = idx + 1; i < count; i++) {
dp->db_index[i] -= (unsigned)extra;
}
}
dp->db_index[idx] -= (unsigned)extra;
// adjust free space
dp->db_free -= (unsigned)extra;
dp->db_txt_start -= (unsigned)extra;
// copy new line into the data block
memmove(old_line - extra, new_line, (size_t)new_len);
buf->b_ml.ml_flags |= (ML_LOCKED_DIRTY | ML_LOCKED_POS);
// The else case is already covered by the insert and delete
ml_updatechunk(buf, lnum, extra, ML_CHNK_UPDLINE);
} else {
// Cannot do it in one data block: Delete and append.
// Append first, because ml_delete_int() cannot delete the
// last line in a buffer, which causes trouble for a buffer
// that has only one line.
// Don't forget to copy the mark!
// How about handling errors???
ml_append_int(buf, lnum, new_line, new_len, false,
(int)(dp->db_index[idx] & DB_MARKED));
ml_delete_int(buf, lnum, false);
}
}
if (!noalloc) {
xfree(new_line);
}
entered = false;
} else if (buf->b_ml.ml_flags & ML_ALLOCATED) {
assert(!noalloc); // caller must set ML_LINE_DIRTY with noalloc, handled above
xfree(buf->b_ml.ml_line_ptr);
}
buf->b_ml.ml_flags &= ~(ML_LINE_DIRTY | ML_ALLOCATED);
buf->b_ml.ml_line_lnum = 0;
buf->b_ml.ml_line_offset = 0;
}
/// create a new, empty, data block
static bhdr_T *ml_new_data(memfile_T *mfp, bool negative, int page_count)
{
assert(page_count >= 0);
bhdr_T *hp = mf_new(mfp, negative, (unsigned)page_count);
DataBlock *dp = hp->bh_data;
dp->db_id = DATA_ID;
dp->db_txt_start = dp->db_txt_end = (unsigned)page_count * mfp->mf_page_size;
dp->db_free = dp->db_txt_start - (unsigned)HEADER_SIZE;
dp->db_line_count = 0;
return hp;
}
/// create a new, empty, pointer block
static bhdr_T *ml_new_ptr(memfile_T *mfp)
{
bhdr_T *hp = mf_new(mfp, false, 1);
PointerBlock *pp = hp->bh_data;
pp->pb_id = PTR_ID;
pp->pb_count = 0;
pp->pb_count_max = PB_COUNT_MAX(mfp);
return hp;
}
/// lookup line 'lnum' in a memline
///
/// @param action: if ML_DELETE or ML_INSERT the line count is updated while searching
/// if ML_FLUSH only flush a locked block
/// if ML_FIND just find the line
///
/// If the block was found it is locked and put in ml_locked.
/// The stack is updated to lead to the locked block. The ip_high field in
/// the stack is updated to reflect the last line in the block AFTER the
/// insert or delete, also if the pointer block has not been updated yet. But
/// if ml_locked != NULL ml_locked_lineadd must be added to ip_high.
///
/// @return NULL for failure, pointer to block header otherwise
static bhdr_T *ml_find_line(buf_T *buf, linenr_T lnum, int action)
{
bhdr_T *hp;
int top;
memfile_T *mfp = buf->b_ml.ml_mfp;
// If there is a locked block check if the wanted line is in it.
// If not, flush and release the locked block.
// Don't do this for ML_INSERT_SAME, because the stack need to be updated.
// Don't do this for ML_FLUSH, because we want to flush the locked block.
// Don't do this when 'swapfile' is reset, we want to load all the blocks.
if (buf->b_ml.ml_locked) {
if (ML_SIMPLE(action)
&& buf->b_ml.ml_locked_low <= lnum
&& buf->b_ml.ml_locked_high >= lnum) {
// remember to update pointer blocks and stack later
if (action == ML_INSERT) {
(buf->b_ml.ml_locked_lineadd)++;
(buf->b_ml.ml_locked_high)++;
} else if (action == ML_DELETE) {
(buf->b_ml.ml_locked_lineadd)--;
(buf->b_ml.ml_locked_high)--;
}
return buf->b_ml.ml_locked;
}
mf_put(mfp, buf->b_ml.ml_locked, buf->b_ml.ml_flags & ML_LOCKED_DIRTY,
buf->b_ml.ml_flags & ML_LOCKED_POS);
buf->b_ml.ml_locked = NULL;
// If lines have been added or deleted in the locked block, need to
// update the line count in pointer blocks.
if (buf->b_ml.ml_locked_lineadd != 0) {
ml_lineadd(buf, buf->b_ml.ml_locked_lineadd);
}
}
if (action == ML_FLUSH) { // nothing else to do
return NULL;
}
blocknr_T bnum = 1; // start at the root of the tree
blocknr_T bnum2;
int page_count = 1;
linenr_T low = 1;
linenr_T high = buf->b_ml.ml_line_count;
if (action == ML_FIND) { // first try stack entries
for (top = buf->b_ml.ml_stack_top - 1; top >= 0; top--) {
infoptr_T *ip = &(buf->b_ml.ml_stack[top]);
if (ip->ip_low <= lnum && ip->ip_high >= lnum) {
bnum = ip->ip_bnum;
low = ip->ip_low;
high = ip->ip_high;
buf->b_ml.ml_stack_top = top; // truncate stack at prev entry
break;
}
}
if (top < 0) {
buf->b_ml.ml_stack_top = 0; // not found, start at the root
}
} else { // ML_DELETE or ML_INSERT
buf->b_ml.ml_stack_top = 0; // start at the root
}
// search downwards in the tree until a data block is found
while (true) {
if ((hp = mf_get(mfp, bnum, (unsigned)page_count)) == NULL) {
goto error_noblock;
}
// update high for insert/delete
if (action == ML_INSERT) {
high++;
} else if (action == ML_DELETE) {
high--;
}
DataBlock *dp = hp->bh_data;
if (dp->db_id == DATA_ID) { // data block
buf->b_ml.ml_locked = hp;
buf->b_ml.ml_locked_low = low;
buf->b_ml.ml_locked_high = high;
buf->b_ml.ml_locked_lineadd = 0;
buf->b_ml.ml_flags &= ~(ML_LOCKED_DIRTY | ML_LOCKED_POS);
return hp;
}
PointerBlock *pp = (PointerBlock *)(dp); // must be pointer block
if (pp->pb_id != PTR_ID) {
iemsg(_(e_pointer_block_id_wrong));
goto error_block;
}
top = ml_add_stack(buf); // add new entry to stack
infoptr_T *ip = &(buf->b_ml.ml_stack[top]);
ip->ip_bnum = bnum;
ip->ip_low = low;
ip->ip_high = high;
ip->ip_index = -1; // index not known yet
bool dirty = false;
int idx;
for (idx = 0; idx < (int)pp->pb_count; idx++) {
linenr_T t = pp->pb_pointer[idx].pe_line_count;
CHECK(t == 0, _("pe_line_count is zero"));
if ((low += t) > lnum) {
ip->ip_index = idx;
bnum = pp->pb_pointer[idx].pe_bnum;
page_count = pp->pb_pointer[idx].pe_page_count;
high = low - 1;
low -= t;
// a negative block number may have been changed
if (bnum < 0) {
bnum2 = mf_trans_del(mfp, bnum);
if (bnum != bnum2) {
bnum = bnum2;
pp->pb_pointer[idx].pe_bnum = bnum;
dirty = true;
}
}
break;
}
}
if (idx >= (int)pp->pb_count) { // past the end: something wrong!
if (lnum > buf->b_ml.ml_line_count) {
siemsg(_(e_line_number_out_of_range_nr_past_the_end),
(int64_t)lnum - buf->b_ml.ml_line_count);
} else {
siemsg(_(e_line_count_wrong_in_block_nr), bnum);
}
goto error_block;
}
if (action == ML_DELETE) {
pp->pb_pointer[idx].pe_line_count--;
dirty = true;
} else if (action == ML_INSERT) {
pp->pb_pointer[idx].pe_line_count++;
dirty = true;
}
mf_put(mfp, hp, dirty, false);
}
error_block:
mf_put(mfp, hp, false, false);
error_noblock:
// If action is ML_DELETE or ML_INSERT we have to correct the tree for
// the incremented/decremented line counts, because there won't be a line
// inserted/deleted after all.
if (action == ML_DELETE) {
ml_lineadd(buf, 1);
} else if (action == ML_INSERT) {
ml_lineadd(buf, -1);
}
buf->b_ml.ml_stack_top = 0;
return NULL;
}
/// add an entry to the info pointer stack
///
/// @return number of the new entry
static int ml_add_stack(buf_T *buf)
{
int top = buf->b_ml.ml_stack_top;
// may have to increase the stack size
if (top == buf->b_ml.ml_stack_size) {
CHECK(top > 0, _("Stack size increases")); // more than 5 levels???
buf->b_ml.ml_stack_size += STACK_INCR;
size_t new_size = sizeof(infoptr_T) * (size_t)buf->b_ml.ml_stack_size;
buf->b_ml.ml_stack = xrealloc(buf->b_ml.ml_stack, new_size);
}
buf->b_ml.ml_stack_top++;
return top;
}
/// Update the pointer blocks on the stack for inserted/deleted lines.
/// The stack itself is also updated.
///
/// When an insert/delete line action fails, the line is not inserted/deleted,
/// but the pointer blocks have already been updated. That is fixed here by
/// walking through the stack.
///
/// Count is the number of lines added, negative if lines have been deleted.
static void ml_lineadd(buf_T *buf, int count)
{
memfile_T *mfp = buf->b_ml.ml_mfp;
for (int idx = buf->b_ml.ml_stack_top - 1; idx >= 0; idx--) {
infoptr_T *ip = &(buf->b_ml.ml_stack[idx]);
bhdr_T *hp;
if ((hp = mf_get(mfp, ip->ip_bnum, 1)) == NULL) {
break;
}
PointerBlock *pp = hp->bh_data; // must be pointer block
if (pp->pb_id != PTR_ID) {
mf_put(mfp, hp, false, false);
iemsg(_(e_pointer_block_id_wrong_two));
break;
}
pp->pb_pointer[ip->ip_index].pe_line_count += count;
ip->ip_high += count;
mf_put(mfp, hp, true, false);
}
}
#if defined(HAVE_READLINK)
/// Resolve a symlink in the last component of a file name.
/// Note that f_resolve() does it for every part of the path, we don't do that
/// here.
///
/// @return OK if it worked and the resolved link in "buf[MAXPATHL]",
/// FAIL otherwise
int resolve_symlink(const char *fname, char *buf)
{
char tmp[MAXPATHL];
int depth = 0;
if (fname == NULL) {
return FAIL;
}
// Put the result so far in tmp[], starting with the original name.
xstrlcpy(tmp, fname, MAXPATHL);
while (true) {
// Limit symlink depth to 100, catch recursive loops.
if (++depth == 100) {
semsg(_("E773: Symlink loop for \"%s\""), fname);
return FAIL;
}
int ret = (int)readlink(tmp, buf, MAXPATHL - 1);
if (ret <= 0) {
if (errno == EINVAL || errno == ENOENT) {
// Found non-symlink or not existing file, stop here.
// When at the first level use the unmodified name, skip the
// call to vim_FullName().
if (depth == 1) {
return FAIL;
}
// Use the resolved name in tmp[].
break;
}
// There must be some error reading links, use original name.
return FAIL;
}
buf[ret] = NUL;
// Check whether the symlink is relative or absolute.
// If it's relative, build a new path based on the directory
// portion of the filename (if any) and the path the symlink
// points to.
if (path_is_absolute(buf)) {
STRCPY(tmp, buf);
} else {
char *tail = path_tail(tmp);
if (strlen(tail) + strlen(buf) >= MAXPATHL) {
return FAIL;
}
STRCPY(tail, buf);
}
}
// Try to resolve the full name of the file so that the swapfile name will
// be consistent even when opening a relative symlink from different
// working directories.
return vim_FullName(tmp, buf, MAXPATHL, true);
}
#endif
/// Make swapfile name out of the file name and a directory name.
///
/// @return pointer to allocated memory or NULL.
char *makeswapname(char *fname, char *ffname, buf_T *buf, char *dir_name)
{
char *fname_res = fname;
#ifdef HAVE_READLINK
char fname_buf[MAXPATHL];
// Expand symlink in the file name, so that we put the swapfile with the
// actual file instead of with the symlink.
if (resolve_symlink(fname, fname_buf) == OK) {
fname_res = fname_buf;
}
#endif
int len = (int)strlen(dir_name);
char *s = dir_name + len;
if (after_pathsep(dir_name, s) && len > 1 && s[-1] == s[-2]) {
// Ends with '//', Use Full path
char *r = NULL;
s = make_percent_swname(dir_name, s, fname_res);
if (s != NULL) {
r = modname(s, ".swp", false);
xfree(s);
}
return r;
}
// Prepend a '.' to the swapfile name for the current directory.
char *r = modname(fname_res, ".swp",
dir_name[0] == '.' && dir_name[1] == NUL);
if (r == NULL) { // out of memory
return NULL;
}
s = get_file_in_dir(r, dir_name);
xfree(r);
return s;
}
/// Get file name to use for swapfile or backup file.
/// Use the name of the edited file "fname" and an entry in the 'dir' or 'bdir' option "dname".
/// - If "dname" is ".", return "fname" (swapfile in dir of file).
/// - If "dname" starts with "./", insert "dname" in "fname" (swapfile relative to dir of file).
/// - Otherwise, prepend "dname" to the tail of "fname" (swapfile in specific dir).
///
/// The return value is an allocated string and can be NULL.
///
/// @param dname don't use "dirname", it is a global for Alpha
char *get_file_in_dir(char *fname, char *dname)
{
char *retval;
char *tail = path_tail(fname);
if (dname[0] == '.' && dname[1] == NUL) {
retval = xstrdup(fname);
} else if (dname[0] == '.' && vim_ispathsep(dname[1])) {
if (tail == fname) { // no path before file name
retval = concat_fnames(dname + 2, tail, true);
} else {
char save_char = *tail;
*tail = NUL;
char *t = concat_fnames(fname, dname + 2, true);
*tail = save_char;
retval = concat_fnames(t, tail, true);
xfree(t);
}
} else {
retval = concat_fnames(dname, tail, true);
}
return retval;
}
/// Print the ATTENTION message: info about an existing swapfile.
///
/// @param buf buffer being edited
/// @param fname swapfile name
static void attention_message(buf_T *buf, char *fname)
{
assert(buf->b_fname != NULL);
no_wait_return++;
emsg(_("E325: ATTENTION"));
msg_puts(_("\nFound a swap file by the name \""));
msg_home_replace(fname);
msg_puts("\"\n");
const time_t swap_mtime = swapfile_info(fname);
msg_puts(_("While opening file \""));
msg_outtrans(buf->b_fname, 0, false);
msg_puts("\"\n");
FileInfo file_info;
if (!os_fileinfo(buf->b_fname, &file_info)) {
msg_puts(_(" CANNOT BE FOUND"));
} else {
msg_puts(_(" dated: "));
time_t x = file_info.stat.st_mtim.tv_sec;
char ctime_buf[50];
msg_puts(os_ctime_r(&x, ctime_buf, sizeof(ctime_buf), true));
if (swap_mtime != 0 && x > swap_mtime) {
msg_puts(_(" NEWER than swap file!\n"));
}
}
// Some of these messages are long to allow translation to
// other languages.
msg_puts(_("\n(1) Another program may be editing the same file. If this is"
" the case,\n be careful not to end up with two different"
" instances of the same\n file when making changes."
" Quit, or continue with caution.\n"));
msg_puts(_("(2) An edit session for this file crashed.\n"));
msg_puts(_(" If this is the case, use \":recover\" or \"nvim -r "));
msg_outtrans(buf->b_fname, 0, false);
msg_puts(_("\"\n to recover the changes (see \":help recovery\").\n"));
msg_puts(_(" If you did this already, delete the swap file \""));
msg_outtrans(fname, 0, false);
msg_puts(_("\"\n to avoid this message.\n"));
cmdline_row = msg_row;
no_wait_return--;
}
/// Trigger the SwapExists autocommands.
///
/// @return a value for equivalent to do_dialog().
static sea_choice_T do_swapexists(buf_T *buf, char *fname)
{
set_vim_var_string(VV_SWAPNAME, fname, -1);
set_vim_var_string(VV_SWAPCHOICE, NULL, -1);
// Trigger SwapExists autocommands with <afile> set to the file being
// edited. Disallow changing directory here.
allbuf_lock++;
apply_autocmds(EVENT_SWAPEXISTS, buf->b_fname, NULL, false, NULL);
allbuf_lock--;
set_vim_var_string(VV_SWAPNAME, NULL, -1);
switch (*get_vim_var_str(VV_SWAPCHOICE)) {
case 'o':
return SEA_CHOICE_READONLY;
case 'e':
return SEA_CHOICE_EDIT;
case 'r':
return SEA_CHOICE_RECOVER;
case 'd':
return SEA_CHOICE_DELETE;
case 'q':
return SEA_CHOICE_QUIT;
case 'a':
return SEA_CHOICE_ABORT;
}
return SEA_CHOICE_NONE;
}
/// Find out what name to use for the swapfile for buffer 'buf'.
///
/// Several names are tried to find one that does not exist. Last directory in
/// option is automatically created.
///
/// @note If BASENAMELEN is not correct, you will get error messages for
/// not being able to open the swap or undo file.
/// @note May trigger SwapExists autocmd, pointers may change!
///
/// @param[in] buf Buffer for which swapfile names needs to be found.
/// @param[in,out] dirp Pointer to a list of directories. When out of memory,
/// is set to NULL. Is advanced to the next directory in
/// the list otherwise.
/// @param[in] old_fname Allowed existing swapfile name. Except for this
/// case, name of the non-existing file is used.
/// @param[in,out] found_existing_dir If points to true, then new directory
/// for swapfile is not created. At first
/// findswapname() call this argument must
/// point to false. This parameter may only
/// be set to true by this function, it is
/// never set to false.
///
/// @return [allocated] Name of the swapfile.
static char *findswapname(buf_T *buf, char **dirp, char *old_fname, bool *found_existing_dir)
FUNC_ATTR_WARN_UNUSED_RESULT FUNC_ATTR_NONNULL_ARG(1, 2, 4)
{
char *buf_fname = buf->b_fname;
// Isolate a directory name from *dirp and put it in dir_name.
// First allocate some memory to put the directory name in.
const size_t dir_len = strlen(*dirp) + 1;
char *dir_name = xmalloc(dir_len);
copy_option_part(dirp, dir_name, dir_len, ",");
// We try different swapfile names until we find one that does not exist yet.
char *fname = makeswapname(buf_fname, buf->b_ffname, buf, dir_name);
while (true) {
size_t n;
if (fname == NULL) { // must be out of memory
break;
}
if ((n = strlen(fname)) == 0) { // safety check
XFREE_CLEAR(fname);
break;
}
// check if the swapfile already exists
// Extra security check: When a swapfile is a symbolic link, this
// is most likely a symlink attack.
FileInfo file_info;
bool file_or_link_found = os_fileinfo_link(fname, &file_info);
if (!file_or_link_found) {
break;
}
// A file name equal to old_fname is OK to use.
if (old_fname != NULL && path_fnamecmp(fname, old_fname) == 0) {
break;
}
// get here when file already exists
if (fname[n - 2] == 'w' && fname[n - 1] == 'p') { // first try
// If we get here the ".swp" file really exists.
// Give an error message, unless recovering, no file name, we are
// viewing a help file or when the path of the file is different
// (happens when all .swp files are in one directory).
if (!recoverymode && buf_fname != NULL && !buf->b_help && !(buf->b_flags & BF_DUMMY)) {
int fd;
ZeroBlock b0;
bool differ = false;
// Try to read block 0 from the swapfile to get the original file name (and inode number).
fd = os_open(fname, O_RDONLY, 0);
if (fd >= 0) {
if (read_eintr(fd, &b0, sizeof(b0)) == sizeof(b0)) {
proc_running = swapfile_proc_running(&b0, fname);
// If the swapfile has the same directory as the
// buffer don't compare the directory names, they can
// have a different mountpoint.
if (b0.b0_flags & B0_SAME_DIR) {
if (path_fnamecmp(path_tail(buf->b_ffname),
path_tail(b0.b0_fname)) != 0
|| !same_directory(fname, buf->b_ffname)) {
// Symlinks may point to the same file even
// when the name differs, need to check the
// inode too.
expand_env(b0.b0_fname, NameBuff, MAXPATHL);
if (fnamecmp_ino(buf->b_ffname, NameBuff,
char_to_long(b0.b0_ino))) {
differ = true;
}
}
} else {
// The name in the swapfile may be "~user/path/file". Expand it first.
expand_env(b0.b0_fname, NameBuff, MAXPATHL);
if (fnamecmp_ino(buf->b_ffname, NameBuff,
char_to_long(b0.b0_ino))) {
differ = true;
}
}
}
close(fd);
}
// Show the ATTENTION message when:
// - there is an old swapfile for the current file
// - the buffer was not recovered
if (!differ && !(curbuf->b_flags & BF_RECOVERED)
&& vim_strchr(p_shm, SHM_ATTENTION) == NULL) {
sea_choice_T choice = SEA_CHOICE_NONE;
// It's safe to delete the swapfile if all these are true:
// - the edited file exists
// - the swapfile has no changes and looks OK
if (os_path_exists(buf->b_fname) && swapfile_unchanged(fname)) {
choice = SEA_CHOICE_DELETE;
if (p_verbose > 0) {
verb_msg(_("Found a swap file that is not useful, deleting it"));
}
}
// If there is a SwapExists autocommand and we can handle the
// response, trigger it. It may return 0 to ask the user anyway.
if (choice == SEA_CHOICE_NONE
&& swap_exists_action != SEA_NONE
&& has_autocmd(EVENT_SWAPEXISTS, buf_fname, buf)) {
choice = do_swapexists(buf, fname);
}
if (choice == SEA_CHOICE_NONE && swap_exists_action == SEA_READONLY) {
// always open readonly.
choice = SEA_CHOICE_READONLY;
}
proc_running = 0; // Set by attention_message..swapfile_info.
if (choice == SEA_CHOICE_NONE) {
// Show info about the existing swapfile.
attention_message(buf, fname);
// We don't want a 'q' typed at the more-prompt
// interrupt loading a file.
got_int = false;
// If vimrc has "simalt ~x" we don't want it to
// interfere with the prompt here.
flush_buffers(FLUSH_TYPEAHEAD);
}
if (swap_exists_action != SEA_NONE && choice == SEA_CHOICE_NONE) {
const char *const sw_msg_1 = _("Swap file \"");
const char *const sw_msg_2 = _("\" already exists!");
const size_t fname_len = strlen(fname);
const size_t sw_msg_1_len = strlen(sw_msg_1);
const size_t sw_msg_2_len = strlen(sw_msg_2);
const size_t name_len = sw_msg_1_len + fname_len + sw_msg_2_len + 5;
char *const name = xmalloc(name_len);
memcpy(name, sw_msg_1, sw_msg_1_len + 1);
home_replace(NULL, fname, name + sw_msg_1_len, fname_len, true);
xstrlcat(name, sw_msg_2, name_len);
int dialog_result
= do_dialog(VIM_WARNING,
_("VIM - ATTENTION"),
name,
proc_running
? _("&Open Read-Only\n&Edit anyway\n&Recover\n&Quit\n&Abort")
: _("&Open Read-Only\n&Edit anyway\n&Recover\n&Delete it\n&Quit\n&Abort"),
1, NULL, false);
if (proc_running && dialog_result >= 4) {
// compensate for missing "Delete it" button
dialog_result++;
}
choice = (sea_choice_T)dialog_result;
xfree(name);
// pretend screen didn't scroll, need redraw anyway
msg_reset_scroll();
}
switch (choice) {
case SEA_CHOICE_READONLY: // "Open Read-Only"
buf->b_p_ro = true;
break;
case SEA_CHOICE_EDIT: // "Edit anyway"
break;
case SEA_CHOICE_RECOVER: // "Recover"
swap_exists_action = SEA_RECOVER;
break;
case SEA_CHOICE_DELETE: // "Delete it"
os_remove(fname);
break;
case SEA_CHOICE_QUIT: // "Quit"
swap_exists_action = SEA_QUIT;
break;
case SEA_CHOICE_ABORT: // "Abort"
swap_exists_action = SEA_QUIT;
got_int = true;
break;
case SEA_CHOICE_NONE:
msg_puts("\n");
if (msg_silent == 0) {
// call wait_return() later
need_wait_return = true;
}
break;
}
// If the swapfile was deleted this `fname` can be used.
if (choice != SEA_CHOICE_NONE && !os_path_exists(fname)) {
break;
}
}
}
}
// Permute the ".swp" extension to find a unique swapfile name.
// First decrement the last char: ".swo", ".swn", etc.
// If that still isn't enough decrement the last but one char: ".svz"
// Can happen when many Nvim instances are editing the same file (including "No Name" buffers).
if (fname[n - 1] == 'a') { // ".s?a"
if (fname[n - 2] == 'a') { // ".saa": tried enough, give up
emsg(_("E326: Too many swap files found"));
XFREE_CLEAR(fname);
break;
}
fname[n - 2]--; // ".svz", ".suz", etc.
fname[n - 1] = 'z' + 1;
}
fname[n - 1]--; // ".swo", ".swn", etc.
}
if (os_isdir(dir_name)) {
*found_existing_dir = true;
} else if (!*found_existing_dir && **dirp == NUL) {
int ret;
char *failed_dir;
if ((ret = os_mkdir_recurse(dir_name, 0755, &failed_dir, NULL)) != 0) {
semsg(_("E303: Unable to create directory \"%s\" for swap file, "
"recovery impossible: %s"),
failed_dir, os_strerror(ret));
xfree(failed_dir);
}
}
xfree(dir_name);
return fname;
}
static int b0_magic_wrong(ZeroBlock *b0p)
{
return b0p->b0_magic_long != B0_MAGIC_LONG
|| b0p->b0_magic_int != B0_MAGIC_INT
|| b0p->b0_magic_short != (int16_t)B0_MAGIC_SHORT
|| b0p->b0_magic_char != B0_MAGIC_CHAR;
}
/// Compare current file name with file name from swapfile.
/// Try to use inode numbers when possible.
/// Return non-zero when files are different.
///
/// When comparing file names a few things have to be taken into consideration:
/// - When working over a network the full path of a file depends on the host.
/// We check the inode number if possible. It is not 100% reliable though,
/// because the device number cannot be used over a network.
/// - When a file does not exist yet (editing a new file) there is no inode
/// number.
/// - The file name in a swapfile may not be valid on the current host. The
/// "~user" form is used whenever possible to avoid this.
///
/// This is getting complicated, let's make a table:
///
/// ino_c ino_s fname_c fname_s differ =
///
/// both files exist -> compare inode numbers:
/// != 0 != 0 X X ino_c != ino_s
///
/// inode number(s) unknown, file names available -> compare file names
/// == 0 X OK OK fname_c != fname_s
/// X == 0 OK OK fname_c != fname_s
///
/// current file doesn't exist, file for swapfile exist, file name(s) not
/// available -> probably different
/// == 0 != 0 FAIL X true
/// == 0 != 0 X FAIL true
///
/// current file exists, inode for swap unknown, file name(s) not
/// available -> probably different
/// != 0 == 0 FAIL X true
/// != 0 == 0 X FAIL true
///
/// current file doesn't exist, inode for swap unknown, one file name not
/// available -> probably different
/// == 0 == 0 FAIL OK true
/// == 0 == 0 OK FAIL true
///
/// current file doesn't exist, inode for swap unknown, both file names not
/// available -> compare file names
/// == 0 == 0 FAIL FAIL fname_c != fname_s
///
/// Only the last 32 bits of the inode will be used. This can't be changed
/// without making the block 0 incompatible with 32 bit versions.
///
/// @param fname_c current file name
/// @param fname_s file name from swapfile
static bool fnamecmp_ino(char *fname_c, char *fname_s, long ino_block0)
{
uint64_t ino_c = 0; // ino of current file
uint64_t ino_s; // ino of file from swapfile
char buf_c[MAXPATHL]; // full path of fname_c
char buf_s[MAXPATHL]; // full path of fname_s
int retval_c; // flag: buf_c valid
int retval_s; // flag: buf_s valid
FileInfo file_info;
if (os_fileinfo(fname_c, &file_info)) {
ino_c = os_fileinfo_inode(&file_info);
}
// First we try to get the inode from the file name, because the inode in
// the swapfile may be outdated. If that fails (e.g. this path is not
// valid on this machine), use the inode from block 0.
if (os_fileinfo(fname_s, &file_info)) {
ino_s = os_fileinfo_inode(&file_info);
} else {
ino_s = (uint64_t)ino_block0;
}
if (ino_c && ino_s) {
return ino_c != ino_s;
}
// One of the inode numbers is unknown, try a forced vim_FullName() and
// compare the file names.
retval_c = vim_FullName(fname_c, buf_c, MAXPATHL, true);
retval_s = vim_FullName(fname_s, buf_s, MAXPATHL, true);
if (retval_c == OK && retval_s == OK) {
return strcmp(buf_c, buf_s) != 0;
}
// Can't compare inodes or file names, guess that the files are different,
// unless both appear not to exist at all, then compare with the file name
// in the swapfile.
if (ino_s == 0 && ino_c == 0 && retval_c == FAIL && retval_s == FAIL) {
return strcmp(fname_c, fname_s) != 0;
}
return true;
}
/// Move a long integer into a four byte character array.
/// Used for machine independency in block zero.
static void long_to_char(long n, char *s_in)
{
uint8_t *s = (uint8_t *)s_in;
s[0] = (uint8_t)(n & 0xff);
n = (unsigned)n >> 8;
s[1] = (uint8_t)(n & 0xff);
n = (unsigned)n >> 8;
s[2] = (uint8_t)(n & 0xff);
n = (unsigned)n >> 8;
s[3] = (uint8_t)(n & 0xff);
}
static long char_to_long(const char *s_in)
{
const uint8_t *s = (uint8_t *)s_in;
long retval = s[3];
retval <<= 8;
retval |= s[2];
retval <<= 8;
retval |= s[1];
retval <<= 8;
retval |= s[0];
return retval;
}
/// Set the flags in the first block of the swapfile:
/// - file is modified or not: buf->b_changed
/// - 'fileformat'
/// - 'fileencoding'
void ml_setflags(buf_T *buf)
{
if (!buf->b_ml.ml_mfp) {
return;
}
bhdr_T *hp = pmap_get(int64_t)(&buf->b_ml.ml_mfp->mf_hash, 0);
if (hp) {
ZeroBlock *b0p = hp->bh_data;
b0p->b0_dirty = buf->b_changed ? B0_DIRTY : 0;
b0p->b0_flags = (char)((b0p->b0_flags & ~B0_FF_MASK) | (uint8_t)(get_fileformat(buf) + 1));
add_b0_fenc(b0p, buf);
hp->bh_flags |= BH_DIRTY;
mf_sync(buf->b_ml.ml_mfp, MFS_ZERO);
}
}
enum {
MLCS_MAXL = 800, // max no of lines in chunk
MLCS_MINL = 400, // should be half of MLCS_MAXL
};
/// Keep information for finding byte offset of a line
///
/// @param updtype may be one of:
/// ML_CHNK_ADDLINE: Add len to parent chunk, possibly splitting it
/// Careful: ML_CHNK_ADDLINE may cause ml_find_line() to be called.
/// ML_CHNK_DELLINE: Subtract len from parent chunk, possibly deleting it
/// ML_CHNK_UPDLINE: Add len to parent chunk, as a signed entity.
static void ml_updatechunk(buf_T *buf, linenr_T line, int len, int updtype)
{
static buf_T *ml_upd_lastbuf = NULL;
static linenr_T ml_upd_lastline;
static linenr_T ml_upd_lastcurline;
static int ml_upd_lastcurix;
linenr_T curline = ml_upd_lastcurline;
int curix = ml_upd_lastcurix;
bhdr_T *hp;
if (buf->b_ml.ml_usedchunks == -1 || len == 0) {
return;
}
if (buf->b_ml.ml_chunksize == NULL) {
buf->b_ml.ml_chunksize = xmalloc(sizeof(chunksize_T) * 100);
buf->b_ml.ml_numchunks = 100;
buf->b_ml.ml_usedchunks = 1;
buf->b_ml.ml_chunksize[0].mlcs_numlines = 1;
buf->b_ml.ml_chunksize[0].mlcs_totalsize = 1;
}
if (updtype == ML_CHNK_UPDLINE && buf->b_ml.ml_line_count == 1) {
// First line in empty buffer from ml_flush_line() -- reset
buf->b_ml.ml_usedchunks = 1;
buf->b_ml.ml_chunksize[0].mlcs_numlines = 1;
buf->b_ml.ml_chunksize[0].mlcs_totalsize = buf->b_ml.ml_line_len;
return;
}
// Find chunk that our line belongs to, curline will be at start of the
// chunk.
if (buf != ml_upd_lastbuf || line != ml_upd_lastline + 1
|| updtype != ML_CHNK_ADDLINE) {
for (curline = 1, curix = 0;
curix < buf->b_ml.ml_usedchunks - 1
&& line >= curline +
buf->b_ml.ml_chunksize[curix].mlcs_numlines;
curix++) {
curline += buf->b_ml.ml_chunksize[curix].mlcs_numlines;
}
} else if (curix < buf->b_ml.ml_usedchunks - 1
&& line >= curline + buf->b_ml.ml_chunksize[curix].mlcs_numlines) {
// Adjust cached curix & curline
curline += buf->b_ml.ml_chunksize[curix].mlcs_numlines;
curix++;
}
chunksize_T *curchnk = buf->b_ml.ml_chunksize + curix;
if (updtype == ML_CHNK_DELLINE) {
len = -len;
}
curchnk->mlcs_totalsize += len;
if (updtype == ML_CHNK_ADDLINE) {
int rest;
DataBlock *dp;
curchnk->mlcs_numlines++;
// May resize here so we don't have to do it in both cases below
if (buf->b_ml.ml_usedchunks + 1 >= buf->b_ml.ml_numchunks) {
buf->b_ml.ml_numchunks = buf->b_ml.ml_numchunks * 3 / 2;
buf->b_ml.ml_chunksize = xrealloc(buf->b_ml.ml_chunksize,
sizeof(chunksize_T) * (size_t)buf->b_ml.ml_numchunks);
}
if (buf->b_ml.ml_chunksize[curix].mlcs_numlines >= MLCS_MAXL) {
int text_end;
memmove(buf->b_ml.ml_chunksize + curix + 1,
buf->b_ml.ml_chunksize + curix,
(size_t)(buf->b_ml.ml_usedchunks - curix) * sizeof(chunksize_T));
// Compute length of first half of lines in the split chunk
int size = 0;
int linecnt = 0;
while (curline < buf->b_ml.ml_line_count
&& linecnt < MLCS_MINL) {
if ((hp = ml_find_line(buf, curline, ML_FIND)) == NULL) {
buf->b_ml.ml_usedchunks = -1;
return;
}
dp = hp->bh_data;
int count
= buf->b_ml.ml_locked_high - buf->b_ml.ml_locked_low + 1; // number of entries in block
int idx = curline - buf->b_ml.ml_locked_low;
curline = buf->b_ml.ml_locked_high + 1;
if (idx == 0) { // first line in block, text at the end
text_end = (int)dp->db_txt_end;
} else {
text_end = ((dp->db_index[idx - 1]) & DB_INDEX_MASK);
}
// Compute index of last line to use in this MEMLINE
rest = count - idx;
if (linecnt + rest > MLCS_MINL) {
idx += MLCS_MINL - linecnt - 1;
linecnt = MLCS_MINL;
} else {
idx = count - 1;
linecnt += rest;
}
size += text_end - (int)((dp->db_index[idx]) & DB_INDEX_MASK);
}
buf->b_ml.ml_chunksize[curix].mlcs_numlines = linecnt;
buf->b_ml.ml_chunksize[curix + 1].mlcs_numlines -= linecnt;
buf->b_ml.ml_chunksize[curix].mlcs_totalsize = size;
buf->b_ml.ml_chunksize[curix + 1].mlcs_totalsize -= size;
buf->b_ml.ml_usedchunks++;
ml_upd_lastbuf = NULL; // Force recalc of curix & curline
return;
} else if (buf->b_ml.ml_chunksize[curix].mlcs_numlines >= MLCS_MINL
&& curix == buf->b_ml.ml_usedchunks - 1
&& buf->b_ml.ml_line_count - line <= 1) {
// We are in the last chunk and it is cheap to create a new one
// after this. Do it now to avoid the loop above later on
curchnk = buf->b_ml.ml_chunksize + curix + 1;
buf->b_ml.ml_usedchunks++;
if (line == buf->b_ml.ml_line_count) {
curchnk->mlcs_numlines = 0;
curchnk->mlcs_totalsize = 0;
} else {
// Line is just prior to last, move count for last
// This is the common case when loading a new file
hp = ml_find_line(buf, buf->b_ml.ml_line_count, ML_FIND);
if (hp == NULL) {
buf->b_ml.ml_usedchunks = -1;
return;
}
dp = hp->bh_data;
if (dp->db_line_count == 1) {
rest = (int)(dp->db_txt_end - dp->db_txt_start);
} else {
rest = (int)((dp->db_index[dp->db_line_count - 2]) & DB_INDEX_MASK)
- (int)dp->db_txt_start;
}
curchnk->mlcs_totalsize = rest;
curchnk->mlcs_numlines = 1;
curchnk[-1].mlcs_totalsize -= rest;
curchnk[-1].mlcs_numlines -= 1;
}
}
} else if (updtype == ML_CHNK_DELLINE) {
curchnk->mlcs_numlines--;
ml_upd_lastbuf = NULL; // Force recalc of curix & curline
if (curix < (buf->b_ml.ml_usedchunks - 1)
&& (curchnk->mlcs_numlines + curchnk[1].mlcs_numlines)
<= MLCS_MINL) {
curix++;
curchnk = buf->b_ml.ml_chunksize + curix;
} else if (curix == 0 && curchnk->mlcs_numlines <= 0) {
buf->b_ml.ml_usedchunks--;
memmove(buf->b_ml.ml_chunksize, buf->b_ml.ml_chunksize + 1,
(size_t)buf->b_ml.ml_usedchunks * sizeof(chunksize_T));
return;
} else if (curix == 0 || (curchnk->mlcs_numlines > 10
&& (curchnk->mlcs_numlines +
curchnk[-1].mlcs_numlines)
> MLCS_MINL)) {
return;
}
// Collapse chunks
curchnk[-1].mlcs_numlines += curchnk->mlcs_numlines;
curchnk[-1].mlcs_totalsize += curchnk->mlcs_totalsize;
buf->b_ml.ml_usedchunks--;
if (curix < buf->b_ml.ml_usedchunks) {
memmove(buf->b_ml.ml_chunksize + curix,
buf->b_ml.ml_chunksize + curix + 1,
(size_t)(buf->b_ml.ml_usedchunks - curix) * sizeof(chunksize_T));
}
return;
}
ml_upd_lastbuf = buf;
ml_upd_lastline = line;
ml_upd_lastcurline = curline;
ml_upd_lastcurix = curix;
}
/// Find offset for line or line with offset.
///
/// @param buf buffer to use
/// @param lnum if > 0, find offset of lnum, return offset
/// if == 0, return line with offset *offp
/// @param offp offset to use to find line, store remaining column offset
/// Should be NULL when getting offset of line
/// @param no_ff ignore 'fileformat' option, always use one byte for NL.
///
/// @return -1 if information is not available
int ml_find_line_or_offset(buf_T *buf, linenr_T lnum, int *offp, bool no_ff)
{
bhdr_T *hp;
int text_end;
int offset;
int ffdos = !no_ff && (get_fileformat(buf) == EOL_DOS);
int extra = 0;
// take care of cached line first. Only needed if the cached line is before
// the requested line. Additionally cache the value for the cached line.
// This is used by the extmark code which needs the byte offset of the edited
// line. So when doing multiple small edits on the same line the value is
// only calculated once.
//
// NB: caching doesn't work with 'fileformat'. This is not a problem for
// bytetracking, as bytetracking ignores 'fileformat' option. But calling
// line2byte() will invalidate the cache for the time being (this function
// was never cached to start with anyway).
bool can_cache = (lnum != 0 && !ffdos && buf->b_ml.ml_line_lnum == lnum);
if (lnum == 0 || buf->b_ml.ml_line_lnum < lnum || !no_ff) {
ml_flush_line(curbuf, false);
} else if (can_cache && buf->b_ml.ml_line_offset > 0) {
return (int)buf->b_ml.ml_line_offset;
}
if (buf->b_ml.ml_usedchunks == -1
|| buf->b_ml.ml_chunksize == NULL
|| lnum < 0) {
// memline is currently empty. Although if it is loaded,
// it behaves like there is one empty line.
if (no_ff && buf->b_ml.ml_mfp && (lnum == 1 || lnum == 2)) {
return lnum - 1;
}
return -1;
}
if (offp == NULL) {
offset = 0;
} else {
offset = *offp;
}
if (lnum == 0 && offset <= 0) {
return 1; // Not a "find offset" and offset 0 _must_ be in line 1
}
// Find the last chunk before the one containing our line. Last chunk is
// special because it will never qualify
linenr_T curline = 1;
int curix = 0;
int size = 0;
while (curix < buf->b_ml.ml_usedchunks - 1
&& ((lnum != 0
&& lnum >= curline + buf->b_ml.ml_chunksize[curix].mlcs_numlines)
|| (offset != 0
&& offset > size +
buf->b_ml.ml_chunksize[curix].mlcs_totalsize
+ ffdos * buf->b_ml.ml_chunksize[curix].mlcs_numlines))) {
curline += buf->b_ml.ml_chunksize[curix].mlcs_numlines;
size += buf->b_ml.ml_chunksize[curix].mlcs_totalsize;
if (offset && ffdos) {
size += buf->b_ml.ml_chunksize[curix].mlcs_numlines;
}
curix++;
}
while ((lnum != 0 && curline < lnum) || (offset != 0 && size < offset)) {
if (curline > buf->b_ml.ml_line_count
|| (hp = ml_find_line(buf, curline, ML_FIND)) == NULL) {
return -1;
}
DataBlock *dp = hp->bh_data;
int count
= buf->b_ml.ml_locked_high - buf->b_ml.ml_locked_low + 1; // number of entries in block
int idx;
int start_idx = idx = curline - buf->b_ml.ml_locked_low;
if (idx == 0) { // first line in block, text at the end
text_end = (int)dp->db_txt_end;
} else {
text_end = ((dp->db_index[idx - 1]) & DB_INDEX_MASK);
}
// Compute index of last line to use in this MEMLINE
if (lnum != 0) {
if (curline + (count - idx) >= lnum) {
idx += lnum - curline - 1;
} else {
idx = count - 1;
}
} else {
extra = 0;
while (offset >= size
+ text_end - (int)((dp->db_index[idx]) & DB_INDEX_MASK)
+ ffdos) {
if (ffdos) {
size++;
}
if (idx == count - 1) {
extra = 1;
break;
}
idx++;
}
}
int len = text_end - (int)((dp->db_index[idx]) & DB_INDEX_MASK);
size += len;
if (offset != 0 && size >= offset) {
if (size + ffdos == offset) {
*offp = 0;
} else if (idx == start_idx) {
*offp = offset - size + len;
} else {
*offp = offset - size + len
- (text_end - (int)((dp->db_index[idx - 1]) & DB_INDEX_MASK));
}
curline += idx - start_idx + extra;
if (curline > buf->b_ml.ml_line_count) {
return -1; // exactly one byte beyond the end
}
return curline;
}
curline = buf->b_ml.ml_locked_high + 1;
}
if (lnum != 0) {
// Count extra CR characters.
if (ffdos) {
size += lnum - 1;
}
// Don't count the last line break if 'noeol' and ('bin' or
// 'nofixeol').
if ((!buf->b_p_fixeol || buf->b_p_bin) && !buf->b_p_eol
&& lnum > buf->b_ml.ml_line_count) {
size -= ffdos + 1;
}
}
if (can_cache && size > 0) {
buf->b_ml.ml_line_offset = (size_t)size;
}
return size;
}
/// Goto byte in buffer with offset 'cnt'.
void goto_byte(int cnt)
{
int boff = cnt;
ml_flush_line(curbuf, false); // cached line may be dirty
setpcmark();
if (boff) {
boff--;
}
linenr_T lnum = (linenr_T)ml_find_line_or_offset(curbuf, 0, &boff, false);
if (lnum < 1) { // past the end
curwin->w_cursor.lnum = curbuf->b_ml.ml_line_count;
curwin->w_curswant = MAXCOL;
coladvance(curwin, MAXCOL);
} else {
curwin->w_cursor.lnum = lnum;
curwin->w_cursor.col = (colnr_T)boff;
curwin->w_cursor.coladd = 0;
curwin->w_set_curswant = true;
}
check_cursor(curwin);
// Make sure the cursor is on the first byte of a multi-byte char.
mb_adjust_cursor();
}
/// Increment the line pointer "lp" crossing line boundaries as necessary.
///
/// @return 1 when going to the next line.
/// 2 when moving forward onto a NUL at the end of the line).
/// -1 when at the end of file.
/// 0 otherwise.
int inc(pos_T *lp)
{
// when searching position may be set to end of a line
if (lp->col != MAXCOL) {
const char *const p = ml_get_pos(lp);
if (*p != NUL) { // still within line, move to next char (may be NUL)
const int l = utfc_ptr2len(p);
lp->col += l;
return ((p[l] != NUL) ? 0 : 2);
}
}
if (lp->lnum != curbuf->b_ml.ml_line_count) { // there is a next line
lp->col = 0;
lp->lnum++;
lp->coladd = 0;
return 1;
}
return -1;
}
/// Same as inc(), but skip NUL at the end of non-empty lines.
int incl(pos_T *lp)
{
int r;
if ((r = inc(lp)) >= 1 && lp->col) {
r = inc(lp);
}
return r;
}
int dec(pos_T *lp)
{
lp->coladd = 0;
if (lp->col == MAXCOL) {
// past end of line
char *p = ml_get(lp->lnum);
lp->col = ml_get_len(lp->lnum);
lp->col -= utf_head_off(p, p + lp->col);
return 0;
}
if (lp->col > 0) {
// still within line
lp->col--;
char *p = ml_get(lp->lnum);
lp->col -= utf_head_off(p, p + lp->col);
return 0;
}
if (lp->lnum > 1) {
// there is a prior line
lp->lnum--;
char *p = ml_get(lp->lnum);
lp->col = ml_get_len(lp->lnum);
lp->col -= utf_head_off(p, p + lp->col);
return 1;
}
// at start of file
return -1;
}
/// Same as dec(), but skip NUL at the end of non-empty lines.
int decl(pos_T *lp)
{
int r;
if ((r = dec(lp)) == 1 && lp->col) {
r = dec(lp);
}
return r;
}
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