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|
/*
* Calcurse - text-based organizer
*
* Copyright (c) 2004-2017 calcurse Development Team <misc@calcurse.org>
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* - Redistributions of source code must retain the above
* copyright notice, this list of conditions and the
* following disclaimer.
*
* - Redistributions in binary form must reproduce the above
* copyright notice, this list of conditions and the
* following disclaimer in the documentation and/or other
* materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Send your feedback or comments to : misc@calcurse.org
* Calcurse home page : http://calcurse.org
*
*/
#include <stdarg.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <signal.h>
#include <time.h>
#include <math.h>
#include <unistd.h>
#include <errno.h>
#include "calcurse.h"
#include "sha1.h"
struct ht_keybindings_s {
const char *label;
enum key key;
HTABLE_ENTRY(ht_keybindings_s);
};
static void load_keys_ht_getkey(struct ht_keybindings_s *, const char **,
int *);
static int load_keys_ht_compare(struct ht_keybindings_s *,
struct ht_keybindings_s *);
#define HSIZE 256
HTABLE_HEAD(ht_keybindings, HSIZE, ht_keybindings_s);
HTABLE_PROTOTYPE(ht_keybindings, ht_keybindings_s)
HTABLE_GENERATE(ht_keybindings, ht_keybindings_s, load_keys_ht_getkey,
load_keys_ht_compare)
static int modified = 0;
static char apts_sha1[SHA1_DIGESTLEN * 2 + 1];
static char todo_sha1[SHA1_DIGESTLEN * 2 + 1];
/* Ask user for a file name to export data to. */
static FILE *get_export_stream(enum export_type type)
{
FILE *stream;
char *home, *stream_name;
const char *question =
_("Choose the file used to export calcurse data:");
const char *wrong_name =
_("The file cannot be accessed, please enter another file name.");
const char *press_enter = _("Press [ENTER] to continue.");
const char *file_ext[IO_EXPORT_NBTYPES] = { "ical", "txt" };
stream = NULL;
if ((home = getenv("HOME")) != NULL)
asprintf(&stream_name, "%s/calcurse.%s", home, file_ext[type]);
else
asprintf(&stream_name, "%s/calcurse.%s", get_tempdir(),
file_ext[type]);
while (stream == NULL) {
status_mesg(question, "");
if (updatestring(win[STA].p, &stream_name, 0, 1)) {
mem_free(stream_name);
return NULL;
}
stream = fopen(stream_name, "w");
if (stream == NULL) {
status_mesg(wrong_name, press_enter);
keys_wait_for_any_key(win[KEY].p);
}
}
mem_free(stream_name);
return stream;
}
/* Append a line to a file. */
unsigned io_fprintln(const char *fname, const char *fmt, ...)
{
FILE *fp;
va_list ap;
char *buf;
int ret;
fp = fopen(fname, "a");
RETVAL_IF(!fp, 0, _("Failed to open \"%s\", - %s\n"), fname,
strerror(errno));
va_start(ap, fmt);
ret = vasprintf(&buf, fmt, ap);
RETVAL_IF(ret < 0, 0, _("Failed to build message\n"));
va_end(ap);
ret = fprintf(fp, "%s", buf);
RETVAL_IF(ret < 0, 0, _("Failed to print message \"%s\"\n"), buf);
ret = fclose(fp);
RETVAL_IF(ret != 0, 0, _("Failed to close \"%s\" - %s\n"),
fname, strerror(errno));
mem_free(buf);
return 1;
}
/*
* Initialization of data paths. The cfile argument is the variable
* which contains the calendar file. If none is given, then the default
* one (~/.local/share/calcurse/apts) is taken. If the one given does not exist,
* it is created.
* The datadir argument can be used to specify an alternative data root dir.
* The confdir argument can be used to specify an alternative configuration dir.
* If ~/.calcurse exists, it will be used instead for backward compatibility.
*/
void io_init(const char *cfile, const char *datadir, const char *confdir)
{
char* home_dir = getenv("HOME");
char* legacy_dir = NULL;
if (home_dir) {
asprintf(&legacy_dir, "%s%s", home_dir, "/" DIR_NAME_LEGACY);
if (!io_dir_exists(legacy_dir)) {
mem_free(legacy_dir);
legacy_dir = NULL;
}
}
if (datadir)
asprintf(&path_ddir, "%s%s", datadir, "/");
else if (legacy_dir)
path_ddir = mem_strdup(legacy_dir);
else if ((path_ddir = getenv("XDG_DATA_HOME")))
asprintf(&path_ddir, "%s%s", path_ddir, "/" DIR_NAME);
else if (home_dir)
asprintf(&path_ddir, "%s%s", home_dir, "/.local/share/" DIR_NAME);
else
path_ddir = mem_strdup("./." DIR_NAME);
if (confdir)
asprintf(&path_cdir, "%s%s", confdir, "/");
else if (datadir)
path_cdir = mem_strdup(path_ddir);
else if (legacy_dir)
path_cdir = mem_strdup(legacy_dir);
else if ((path_cdir = getenv("XDG_CONFIG_HOME")))
asprintf(&path_cdir, "%s%s", path_cdir, "/" DIR_NAME);
else if (home_dir)
asprintf(&path_cdir, "%s%s", home_dir, "/.config/" DIR_NAME);
else
path_cdir = mem_strdup("./." DIR_NAME);
if (legacy_dir)
mem_free(legacy_dir);
/* Data files */
if (cfile) {
path_apts = mem_strdup(cfile);
EXIT_IF(!io_file_exists(path_apts), _("%s does not exist"),
path_apts);
} else {
asprintf(&path_apts, "%s%s", path_ddir, APTS_PATH_NAME);
}
asprintf(&path_todo, "%s%s", path_ddir, TODO_PATH_NAME);
asprintf(&path_cpid, "%s%s", path_ddir, CPID_PATH_NAME);
asprintf(&path_dpid, "%s%s", path_ddir, DPID_PATH_NAME);
asprintf(&path_notes, "%s%s", path_ddir, NOTES_DIR_NAME);
asprintf(&path_dmon_log, "%s%s", path_ddir, DLOG_PATH_NAME);
/* Configuration files */
asprintf(&path_conf, "%s%s", path_cdir, CONF_PATH_NAME);
asprintf(&path_keys, "%s%s", path_cdir, KEYS_PATH_NAME);
asprintf(&path_hooks, "%s%s", path_cdir, HOOKS_DIR_NAME);
}
void io_extract_data(char *dst_data, const char *org, int len)
{
int i;
for (; *org == ' ' || *org == '\t'; org++) ;
for (i = 0; i < len - 1; i++) {
if (*org == '\n' || *org == '\0')
break;
*dst_data++ = *org++;
}
*dst_data = '\0';
}
static pthread_mutex_t io_mutex = PTHREAD_MUTEX_INITIALIZER;
static pthread_mutex_t io_periodic_save_mutex = PTHREAD_MUTEX_INITIALIZER;
static void io_mutex_lock(void)
{
pthread_mutex_lock(&io_mutex);
}
static void io_mutex_unlock(void)
{
pthread_mutex_unlock(&io_mutex);
}
/* Print all appointments and events to stdout. */
void io_dump_apts(const char *fmt_apt, const char *fmt_rapt,
const char *fmt_ev, const char *fmt_rev)
{
llist_item_t *i;
LLIST_FOREACH(&recur_elist, i) {
struct recur_event *rev = LLIST_GET_DATA(i);
time_t day = update_time_in_date(rev->day, 0, 0);
print_recur_event(fmt_rev, day, rev);
}
LLIST_TS_FOREACH(&recur_alist_p, i) {
struct recur_apoint *rapt = LLIST_GET_DATA(i);
time_t day = update_time_in_date(rapt->start, 0, 0);
print_recur_apoint(fmt_rapt, day, rapt->start, rapt);
}
LLIST_TS_FOREACH(&alist_p, i) {
struct apoint *apt = LLIST_TS_GET_DATA(i);
time_t day = update_time_in_date(apt->start, 0, 0);
print_apoint(fmt_apt, day, apt);
}
LLIST_FOREACH(&eventlist, i) {
struct event *ev = LLIST_TS_GET_DATA(i);
time_t day = update_time_in_date(ev->day, 0, 0);
print_event(fmt_ev, day, ev);
}
}
/*
* Save the apts data file, which contains the
* appointments first, and then the events.
* Recursive items are written first.
*/
unsigned io_save_apts(const char *aptsfile)
{
llist_item_t *i;
FILE *fp;
if (aptsfile) {
if (read_only)
return 1;
if ((fp = fopen(aptsfile, "w")) == NULL)
return 0;
} else {
fp = stdout;
}
recur_save_data(fp);
if (ui_mode == UI_CURSES)
LLIST_TS_LOCK(&alist_p);
LLIST_TS_FOREACH(&alist_p, i) {
struct apoint *apt = LLIST_TS_GET_DATA(i);
apoint_write(apt, fp);
}
if (ui_mode == UI_CURSES)
LLIST_TS_UNLOCK(&alist_p);
LLIST_FOREACH(&eventlist, i) {
struct event *ev = LLIST_TS_GET_DATA(i);
event_write(ev, fp);
}
if (aptsfile)
file_close(fp, __FILE_POS__);
return 1;
}
/* Print all todo items to stdout. */
void io_dump_todo(const char *fmt_todo)
{
llist_item_t *i;
LLIST_FOREACH(&todolist, i) {
struct todo *todo = LLIST_TS_GET_DATA(i);
print_todo(fmt_todo, todo);
}
}
/* Save the todo data file. */
unsigned io_save_todo(const char *todofile)
{
llist_item_t *i;
FILE *fp;
if (todofile) {
if (read_only)
return 1;
if ((fp = fopen(todofile, "w")) == NULL)
return 0;
} else {
fp = stdout;
}
LLIST_FOREACH(&todolist, i) {
struct todo *todo = LLIST_TS_GET_DATA(i);
todo_write(todo, fp);
}
if (todofile)
file_close(fp, __FILE_POS__);
return 1;
}
/* Save user-defined keys */
unsigned io_save_keys(void)
{
FILE *fp;
if (read_only)
return 1;
if ((fp = fopen(path_keys, "w")) == NULL)
return 0;
keys_save_bindings(fp);
file_close(fp, __FILE_POS__);
return 1;
}
static int io_compute_hash(const char *path, char *buf)
{
FILE *fp = fopen(path, "r");
if (!fp)
return 0;
sha1_stream(fp, buf);
fclose(fp);
return 1;
}
/* A merge implies a save operation and must be followed by reload of data. */
static void io_merge_data(void)
{
char *path_apts_new, *path_todo_new;
const char *new_ext = ".new";
asprintf(&path_apts_new, "%s%s", path_apts, new_ext);
asprintf(&path_todo_new, "%s%s", path_todo, new_ext);
io_save_apts(path_apts_new);
io_save_todo(path_todo_new);
/*
* We do not directly write to the data files here; however, the
* external merge tool might incorporate changes from the new file into
* the main data files.
*/
run_hook("pre-save");
if (!io_files_equal(path_apts, path_apts_new)) {
const char *arg_apts[] = { conf.mergetool, path_apts,
path_apts_new, NULL };
wins_launch_external(arg_apts);
}
if (!io_files_equal(path_todo, path_todo_new)) {
const char *arg_todo[] = { conf.mergetool, path_todo,
path_todo_new, NULL };
wins_launch_external(arg_todo);
}
mem_free(path_apts_new);
mem_free(path_todo_new);
/*
* We do not directly write to the data files here; however, the
* external merge tool will likely have incorporated changes from the
* new file into the main data files at this point.
*/
run_hook("post-save");
/*
* The user has merged, so override the modified flag
* (and follow up with reload of the data files).
*/
io_unset_modified();
}
/* For the return values, see io_save_cal() below. */
static int resolve_save_conflict(void)
{
char *msg_um_asktype = NULL;
const char *msg_um_prefix =
_("Data files have changed and will be overwritten:");
const char *msg_um_overwrite = _("(c)ontinue");
const char *msg_um_merge = _("(m)erge");
const char *msg_um_keep = _("c(a)ncel");
const char *msg_um_choice = _("[cma]");
int ret = IO_SAVE_CANCEL;
asprintf(&msg_um_asktype, "%s %s, %s, %s", msg_um_prefix,
msg_um_overwrite, msg_um_merge, msg_um_keep);
switch (status_ask_choice(msg_um_asktype, msg_um_choice, 3)) {
case 1:
ret = IO_SAVE_CTINUE;
break;
case 2:
io_merge_data();
io_load_data(NULL, FORCE);
ret = IO_SAVE_RELOAD;
break;
case 3:
/* FALLTHROUGH */
default:
ret = IO_SAVE_CANCEL;
}
mem_free(msg_um_asktype);
return ret;
}
/*
* Return codes for new_data() and io_load_data().
* Note that they are file internal.
*/
#define NONEW 0
#define APTS (1 << 0)
#define TODO (1 << 1)
#define APTS_TODO APTS | TODO
#define NOKNOW -1
static int new_data()
{
char sha1_new[SHA1_DIGESTLEN * 2 + 1];
int ret = NONEW;
if (io_compute_hash(path_apts, sha1_new)) {
if (strncmp(sha1_new, apts_sha1, SHA1_DIGESTLEN * 2) != 0) {
ret |= APTS;
}
} else {
ret = NOKNOW;
goto exit;
}
if (io_compute_hash(path_todo, sha1_new)) {
if (strncmp(sha1_new, todo_sha1, SHA1_DIGESTLEN * 2) != 0) {
ret |= TODO;
}
} else {
ret = NOKNOW;
goto exit;
}
exit:
return ret;
}
/*
* Save the calendar data.
* The return value tells how a possible save conflict should be/was resolved:
* IO_SAVE_CTINUE: continue save operation and overwrite the data files
* IO_SAVE_RELOAD: cancel save operation (data files changed and reloaded)
* IO_SAVE_CANCEL: cancel save operation (user's decision, keep data files, no reload)
* IO_SAVE_NOOP: cancel save operation (nothing has changed)
* IO_SAVE_ERROR: cannot access data
*/
int io_save_cal(enum save_type s_t)
{
int ret, new;
if (read_only)
return IO_SAVE_CANCEL;
io_mutex_lock();
if ((new = new_data()) == NOKNOW) {
ret = IO_SAVE_ERROR;
goto cleanup;
}
if (new) { /* New data */
if (s_t == periodic) {
ret = IO_SAVE_CANCEL;
goto cleanup;
}
/* Interactively decide what to do. */
if ((ret = resolve_save_conflict()))
goto cleanup;
} else /* No new data */
if (!io_get_modified()) {
ret = IO_SAVE_NOOP;
goto cleanup;
}
ret = IO_SAVE_CTINUE;
run_hook("pre-save");
if (io_save_todo(path_todo) &&
io_save_apts(path_apts)) {
io_compute_hash(path_apts, apts_sha1);
io_compute_hash(path_todo, todo_sha1);
io_unset_modified();
} else
ret = IO_SAVE_ERROR;
run_hook("post-save");
cleanup:
io_mutex_unlock();
return ret;
}
static void io_load_error(const char *filename, unsigned line,
const char *mesg)
{
EXIT("%s:%u: %s", filename, line, mesg);
}
/*
* Check what type of data is written in the appointment file,
* and then load either: a new appointment, a new event, or a new
* recursive item (which can also be either an event or an appointment).
*/
void io_load_app(struct item_filter *filter)
{
FILE *data_file;
int c, is_appointment, is_event, is_recursive;
struct tm start, end, until, lt;
llist_t exc;
time_t t;
int id = 0;
int freq;
char type, state = 0L;
char note[MAX_NOTESIZ + 1], *notep;
unsigned line = 0;
t = time(NULL);
localtime_r(&t, <);
start = end = until = lt;
data_file = fopen(path_apts, "r");
EXIT_IF(data_file == NULL, _("failed to open appointment file"));
sha1_stream(data_file, apts_sha1);
rewind(data_file);
for (;;) {
LLIST_INIT(&exc);
is_appointment = is_event = is_recursive = 0;
line++;
c = getc(data_file);
if (c == EOF)
break;
ungetc(c, data_file);
/* Read the date first: it is common to both events
* and appointments.
*/
if (fscanf(data_file, "%d / %d / %d ",
&start.tm_mon, &start.tm_mday,
&start.tm_year) != 3)
io_load_error(path_apts, line,
_("syntax error in the item date"));
/* Read the next character : if it is an '@' then we have
* an appointment, else if it is an '[' we have en event.
*/
c = getc(data_file);
if (c == '@')
is_appointment = 1;
else if (c == '[')
is_event = 1;
else
io_load_error(path_apts, line,
_("no event nor appointment found"));
/* Read the remaining informations. */
if (is_appointment) {
if (fscanf
(data_file,
" %d : %d -> %d / %d / %d @ %d : %d ",
&start.tm_hour, &start.tm_min, &end.tm_mon,
&end.tm_mday, &end.tm_year, &end.tm_hour,
&end.tm_min) != 7)
io_load_error(path_apts, line,
_("syntax error in item time or duration"));
} else if (is_event) {
if (fscanf(data_file, " %d ", &id) != 1
|| getc(data_file) != ']')
io_load_error(path_apts, line,
_("syntax error in item identifier"));
while ((c = getc(data_file)) == ' ') ;
ungetc(c, data_file);
} else {
io_load_error(path_apts, line,
_("wrong format in the appointment or event"));
/* NOTREACHED */
}
/* Check if we have a recursive item. */
c = getc(data_file);
if (c == '{') {
is_recursive = 1;
if (fscanf(data_file, " %d%c ", &freq, &type) != 2)
io_load_error(path_apts, line,
_("syntax error in item repetition"));
c = getc(data_file);
if (c == '}') { /* endless recurrent item */
until.tm_year = 0;
while ((c = getc(data_file)) == ' ') ;
ungetc(c, data_file);
} else if (c == '-' && getc(data_file) == '>') {
if (fscanf
(data_file, " %d / %d / %d ",
&until.tm_mon, &until.tm_mday,
&until.tm_year) != 3)
io_load_error(path_apts, line,
_("syntax error in item repetition"));
c = getc(data_file);
if (c == '!') {
ungetc(c, data_file);
recur_exc_scan(&exc, data_file);
while ((c =
getc(data_file)) == ' ') ;
ungetc(c, data_file);
} else if (c == '}') {
while ((c =
getc(data_file)) == ' ') ;
ungetc(c, data_file);
} else {
io_load_error(path_apts, line,
_("syntax error in item repetition"));
}
} else if (c == '!') { /* endless item with exceptions */
ungetc(c, data_file);
recur_exc_scan(&exc, data_file);
while ((c = getc(data_file)) == ' ') ;
ungetc(c, data_file);
until.tm_year = 0;
} else {
io_load_error(path_apts, line,
_("wrong format in the appointment or event"));
/* NOTREACHED */
}
} else {
ungetc(c, data_file);
}
/* Check if a note is attached to the item. */
c = getc(data_file);
if (c == '>') {
note_read(note, data_file);
notep = note;
} else {
notep = NULL;
ungetc(c, data_file);
}
/*
* Last: read the item description and load it into its
* corresponding linked list, depending on the item type.
*/
if (is_appointment) {
c = getc(data_file);
if (c == '!') {
state |= APOINT_NOTIFY;
while ((c = getc(data_file)) == ' ') ;
ungetc(c, data_file);
} else if (c == '|') {
state = 0L;
while ((c = getc(data_file)) == ' ') ;
ungetc(c, data_file);
} else {
io_load_error(path_apts, line,
_("syntax error in item repetition"));
}
if (is_recursive) {
recur_apoint_scan(data_file, start, end,
type, freq, until, notep,
&exc, state, filter);
} else {
apoint_scan(data_file, start, end, state,
notep, filter);
}
} else if (is_event) {
if (is_recursive) {
recur_event_scan(data_file, start, id,
type, freq, until, notep,
&exc, filter);
} else {
event_scan(data_file, start, id, notep,
filter);
}
} else {
io_load_error(path_apts, line,
_("wrong format in the appointment or event"));
/* NOTREACHED */
}
}
file_close(data_file, __FILE_POS__);
}
/* Load the todo data */
void io_load_todo(struct item_filter *filter)
{
FILE *data_file;
char *newline;
int c, id, completed, cond;
char buf[BUFSIZ], e_todo[BUFSIZ], note[MAX_NOTESIZ + 1];
unsigned line = 0;
data_file = fopen(path_todo, "r");
EXIT_IF(data_file == NULL, _("failed to open todo file"));
sha1_stream(data_file, todo_sha1);
rewind(data_file);
for (;;) {
line++;
c = getc(data_file);
if (c == EOF) {
break;
} else if (c == '[') {
/* new style with id */
c = getc(data_file);
if (c == '-') {
completed = 1;
} else {
completed = 0;
ungetc(c, data_file);
}
if (fscanf(data_file, " %d ", &id) != 1
|| getc(data_file) != ']')
io_load_error(path_todo, line,
_("syntax error in item identifier"));
while ((c = getc(data_file)) == ' ') ;
ungetc(c, data_file);
} else {
id = 9;
completed = 0;
ungetc(c, data_file);
}
/* Now read the attached note, if any. */
c = getc(data_file);
if (c == '>') {
note_read(note, data_file);
} else {
note[0] = '\0';
ungetc(c, data_file);
}
/* Then read todo description. */
if (!fgets(buf, sizeof buf, data_file))
buf[0] = '\0';
newline = strchr(buf, '\n');
if (newline)
*newline = '\0';
io_extract_data(e_todo, buf, sizeof buf);
/* Filter item. */
struct todo *todo = NULL;
if (filter) {
cond = (
!(filter->type_mask & TYPE_MASK_TODO) ||
(filter->regex && regexec(filter->regex, e_todo, 0, 0, 0)) ||
(filter->priority && id != filter->priority) ||
(filter->completed && !completed) ||
(filter->uncompleted && completed)
);
if (filter->hash) {
todo = todo_add(e_todo, id, completed, note);
char *hash = todo_hash(todo);
cond = cond || !hash_matches(filter->hash, hash);
mem_free(hash);
}
if ((!filter->invert && cond) || (filter->invert && !cond)) {
if (filter->hash)
todo_delete(todo);
continue;
}
}
if (!todo)
todo = todo_add(e_todo, id, completed, note);
}
file_close(data_file, __FILE_POS__);
}
/*
* Load appointments and todo items.
* Unless told otherwise, the function will only load a file that has changed
* since last saved or loaded. The new_data() return code is passed on when
* force is false. When force is true (FORCE), the return code is of no use.
*/
int io_load_data(struct item_filter *filter, int force)
{
run_hook("pre-load");
if (force)
force = APTS_TODO;
else
force = new_data();
if (force == NOKNOW)
goto exit;
if (force & APTS) {
apoint_llist_free();
event_llist_free();
recur_apoint_llist_free();
recur_event_llist_free();
apoint_llist_init();
event_llist_init();
recur_apoint_llist_init();
recur_event_llist_init();
io_load_app(filter);
}
if (force & TODO) {
todo_free_list();
todo_init_list();
io_load_todo(filter);
}
io_unset_modified();
exit:
run_hook("post-load");
return force;
}
/*
* The return codes reflect the user choice in case of unsaved in-memory changes.
*/
int io_reload_data(void)
{
char *msg_um_asktype = NULL;
int load = NOFORCE;
int ret = IO_RELOAD_LOAD;
io_mutex_lock();
if (io_get_modified()) {
const char *msg_um_prefix =
_("Screen data have changed and will be lost:");
const char *msg_um_discard = _("(c)ontinue");
const char *msg_um_merge = _("(m)erge");
const char *msg_um_keep = _("c(a)ncel");
const char *msg_um_choice = _("[cma]");
asprintf(&msg_um_asktype, "%s %s, %s, %s", msg_um_prefix,
msg_um_discard, msg_um_merge, msg_um_keep);
switch (status_ask_choice(msg_um_asktype, msg_um_choice, 3)) {
case 1:
load = FORCE;
ret = IO_RELOAD_CTINUE;
break;
case 2:
io_merge_data();
load = FORCE;
ret = IO_RELOAD_MERGE;
break;
case 3:
ret = IO_RELOAD_CANCEL;
/* FALLTHROUGH */
default:
goto cleanup;
}
}
load = io_load_data(NULL, load);
if (load == NONEW)
ret = IO_RELOAD_NOOP;
else if (load == NOKNOW)
ret = IO_RELOAD_ERROR;
cleanup:
io_mutex_unlock();
mem_free(msg_um_asktype);
return ret;
}
static void
load_keys_ht_getkey(struct ht_keybindings_s *data, const char **key,
int *len)
{
*key = data->label;
*len = strlen(data->label);
}
static int
load_keys_ht_compare(struct ht_keybindings_s *data1,
struct ht_keybindings_s *data2)
{
const int KEYLEN = strlen(data1->label);
if (strlen(data2->label) == KEYLEN
&& !memcmp(data1->label, data2->label, KEYLEN))
return 0;
else
return 1;
}
/*
* isblank(3) is protected by the __BSD_VISIBLE macro and this fails to be
* visible in some specific cases. Thus replace it by the following is_blank()
* function.
*/
static int is_blank(int c)
{
return c == ' ' || c == '\t';
}
/*
* Load user-definable keys from file.
* A hash table is used to speed up loading process in avoiding string
* comparisons.
* A log file is also built in case some errors were found in the key
* configuration file.
*/
void io_load_keys(const char *pager)
{
struct ht_keybindings_s keys[NBKEYS];
FILE *keyfp;
char buf[BUFSIZ];
struct io_file *log;
int i, skipped, loaded, line;
const int MAX_ERRORS = 5;
keys_init();
struct ht_keybindings ht_keys = HTABLE_INITIALIZER(&ht_keys);
for (i = 0; i < NBKEYS; i++) {
keys[i].key = (enum key)i;
keys[i].label = keys_get_label((enum key)i);
HTABLE_INSERT(ht_keybindings, &ht_keys, &keys[i]);
}
keyfp = fopen(path_keys, "r");
EXIT_IF(keyfp == NULL, _("failed to open key file"));
log = io_log_init();
skipped = loaded = line = 0;
while (fgets(buf, BUFSIZ, keyfp) != NULL) {
char key_label[BUFSIZ], *p;
struct ht_keybindings_s *ht_elm, ht_entry;
const int AWAITED = 1;
int assigned;
line++;
if (skipped > MAX_ERRORS) {
const char *too_many =
_("\nToo many errors while reading configuration file!\n"
"Please backup your keys file, remove it from directory, "
"and launch calcurse again.\n");
io_log_print(log, line, too_many);
break;
}
for (p = buf; is_blank((int)*p); p++) ;
if (p != buf)
memmove(buf, p, strlen(p));
if (buf[0] == '#' || buf[0] == '\n')
continue;
if (sscanf(buf, "%s", key_label) != AWAITED) {
skipped++;
io_log_print(log, line,
_("Could not read key label"));
continue;
}
/* Skip legacy entries. */
if (strcmp(key_label, "generic-cut") == 0)
continue;
ht_entry.label = key_label;
p = buf + strlen(key_label) + 1;
ht_elm =
HTABLE_LOOKUP(ht_keybindings, &ht_keys, &ht_entry);
if (!ht_elm) {
skipped++;
io_log_print(log, line,
_("Key label not recognized"));
continue;
}
assigned = 0;
for (;;) {
char key_ch[BUFSIZ], tmpbuf[BUFSIZ];
while (*p == ' ')
p++;
(void)strncpy(tmpbuf, p, BUFSIZ);
tmpbuf[BUFSIZ - 1] = '\0';
if (sscanf(tmpbuf, "%s", key_ch) == AWAITED) {
int ch;
if ((ch = keys_str2int(key_ch)) < 0) {
char *unknown_key;
skipped++;
asprintf(&unknown_key,
_("Error reading key: \"%s\""),
key_ch);
io_log_print(log, line, unknown_key);
mem_free(unknown_key);
} else {
int used;
used =
keys_assign_binding(ch,
ht_elm->
key);
if (used) {
char *already_assigned;
skipped++;
asprintf(&already_assigned,
_("\"%s\" assigned multiple times!"),
key_ch);
io_log_print(log, line,
already_assigned);
mem_free(already_assigned);
} else {
assigned++;
}
}
p += strlen(key_ch) + 1;
} else {
if (assigned)
loaded++;
break;
}
}
}
file_close(keyfp, __FILE_POS__);
file_close(log->fd, __FILE_POS__);
if (skipped > 0) {
const char *view_log =
_("There were some errors when loading keys file.");
io_log_display(log, view_log, pager);
}
io_log_free(log);
EXIT_IF(skipped > MAX_ERRORS,
_("Too many errors while reading keys file, aborting..."));
if (loaded < NBKEYS)
keys_fill_missing();
if (keys_check_missing_bindings())
WARN_MSG(_("Some actions do not have any associated key bindings!"));
}
int io_check_dir(const char *dir)
{
if (read_only)
return -1;
char *path = mem_strdup(dir);
char *index;
int existed = 1, failed = 0;
errno = 0;
for (index = path + 1; *index; index++) {
if (*index == '/') {
*index = '\0';
if (mkdir(path, 0700) != 0) {
if (errno != EEXIST) {
failed = 1;
break;
}
} else {
existed = 0;
}
*index = '/';
}
}
if (!failed && mkdir(path, 0700) != 0) {
if (errno != EEXIST)
failed = 1;
} else {
existed = 0;
}
if(failed) {
fprintf(stderr,
_("FATAL ERROR: could not create %s: %s\n"),
path, strerror(errno));
exit_calcurse(EXIT_FAILURE);
}
mem_free(path);
return existed;
}
unsigned io_dir_exists(const char *path)
{
struct stat st;
return (!stat(path, &st) && S_ISDIR(st.st_mode));
}
unsigned io_file_exists(const char *file)
{
FILE *fd;
if (file && (fd = fopen(file, "r")) != NULL) {
fclose(fd);
return 1;
} else {
return 0;
}
}
int io_check_file(const char *file)
{
if (read_only)
return -1;
errno = 0;
if (io_file_exists(file)) {
return 1;
} else {
FILE *fd;
if ((fd = fopen(file, "w")) == NULL) {
fprintf(stderr,
_("FATAL ERROR: could not create %s: %s\n"),
file, strerror(errno));
exit_calcurse(EXIT_FAILURE);
}
file_close(fd, __FILE_POS__);
return 0;
}
}
/*
* Checks if data files exist. If not, create them.
* The following structure has to be created:
*
* <datadir> <configdir>
* | |
* |__ apts |___ conf
* |__ todo |___ keys
* |__ notes/ |___ hooks/
*
* Defaults:
* - datadir: $XDG_DATA_HOME/calcurse (~/.local/share/calcurse)
* - configdir: $XDG_CONFIG_HOME/calcurse (~/.config/calcurse)
*/
int io_check_data_files(void)
{
int missing = 0;
missing += io_check_dir(path_ddir) ? 0 : 1;
missing += io_check_dir(path_notes) ? 0 : 1;
missing += io_check_file(path_todo) ? 0 : 1;
missing += io_check_file(path_apts) ? 0 : 1;
missing += io_check_dir(path_cdir) ? 0 : 1;
missing += io_check_file(path_conf) ? 0 : 1;
missing += io_check_dir(path_hooks) ? 0 : 1;
if (!io_check_file(path_keys)) {
missing++;
keys_dump_defaults(path_keys);
}
return missing;
}
/* Draw the startup screen */
void io_startup_screen(int no_data_file)
{
const char *enter = _("Press [ENTER] to continue");
if (no_data_file)
status_mesg(_("Welcome to Calcurse. Missing data files were created."),
enter);
else
status_mesg(_("Data files found. Data will be loaded now."),
enter);
keys_wait_for_any_key(win[KEY].p);
}
/* Export calcurse data. */
void io_export_data(enum export_type type, int export_uid)
{
FILE *stream = NULL;
const char *success = _("The data were successfully exported");
const char *enter = _("Press [ENTER] to continue");
if (type < IO_EXPORT_ICAL || type >= IO_EXPORT_NBTYPES)
EXIT(_("unknown export type"));
switch (ui_mode) {
case UI_CMDLINE:
stream = stdout;
break;
case UI_CURSES:
stream = get_export_stream(type);
break;
default:
EXIT(_("wrong export mode"));
/* NOTREACHED */
}
if (stream == NULL)
return;
if (type == IO_EXPORT_ICAL)
ical_export_data(stream, export_uid);
else if (type == IO_EXPORT_PCAL)
pcal_export_data(stream);
if (show_dialogs() && ui_mode == UI_CURSES) {
fclose(stream);
status_mesg(success, enter);
keys_wait_for_any_key(win[KEY].p);
}
}
static FILE *get_import_stream(enum import_type type)
{
FILE *stream = NULL;
char *stream_name;
const char *ask_fname =
_("Enter the file name to import data from:");
const char *wrong_file =
_("The file cannot be accessed, please enter another file name.");
const char *press_enter = _("Press [ENTER] to continue.");
stream_name = mem_malloc(BUFSIZ);
memset(stream_name, 0, BUFSIZ);
while (stream == NULL) {
status_mesg(ask_fname, "");
if (updatestring(win[STA].p, &stream_name, 0, 1)) {
mem_free(stream_name);
return NULL;
}
stream = fopen(stream_name, "r");
if (stream == NULL) {
status_mesg(wrong_file, press_enter);
keys_wait_for_any_key(win[KEY].p);
}
}
mem_free(stream_name);
return stream;
}
/*
* Import data from a given stream (either stdin in non-interactive mode, or the
* user given file in interactive mode).
* A temporary log file is created in /tmp to store the import process report,
* and is cleared at the end.
*/
void io_import_data(enum import_type type, const char *stream_name,
const char *fmt_ev, const char *fmt_rev,
const char *fmt_apt, const char *fmt_rapt,
const char *fmt_todo)
{
const char *proc_report =
_("Import process report: %04d lines read");
char *stats_str[4];
FILE *stream = NULL;
struct io_file *log;
struct {
unsigned events, apoints, todos, lines, skipped;
} stats;
EXIT_IF(type < 0
|| type >= IO_IMPORT_NBTYPES, _("unknown import type"));
switch (ui_mode) {
case UI_CMDLINE:
if (!strcmp(stream_name, "-"))
stream = stdin;
else
stream = fopen(stream_name, "r");
EXIT_IF(stream == NULL,
_("FATAL ERROR: the input file cannot be accessed, "
"Aborting..."));
break;
case UI_CURSES:
stream = get_import_stream(type);
break;
default:
EXIT(_("FATAL ERROR: wrong import mode"));
/* NOTREACHED */
}
if (stream == NULL)
return;
memset(&stats, 0, sizeof stats);
log = io_log_init();
if (log == NULL) {
if (stream != stdin)
file_close(stream, __FILE_POS__);
return;
}
if (type == IO_IMPORT_ICAL)
ical_import_data(stream, log->fd, &stats.events,
&stats.apoints, &stats.todos,
&stats.lines, &stats.skipped, fmt_ev, fmt_rev,
fmt_apt, fmt_rapt, fmt_todo);
if (stream != stdin)
file_close(stream, __FILE_POS__);
if (ui_mode == UI_CURSES &&
(stats.apoints > 0 || stats.events > 0 || stats.todos > 0))
io_set_modified();
asprintf(&stats_str[0], ngettext("%d app", "%d apps", stats.apoints),
stats.apoints);
asprintf(&stats_str[1],
ngettext("%d event", "%d events", stats.events),
stats.events);
asprintf(&stats_str[2], ngettext("%d todo", "%d todos", stats.todos),
stats.todos);
asprintf(&stats_str[3], _("%d skipped"), stats.skipped);
if (ui_mode == UI_CURSES && show_dialogs()) {
char *read, *stat;
asprintf(&read, proc_report, stats.lines);
asprintf(&stat, "%s / %s / %s / %s (%s)",
stats_str[0], stats_str[1], stats_str[2],
stats_str[3], _("Press [ENTER] to continue"));
status_mesg(read, stat);
mem_free(read);
mem_free(stat);
keys_wait_for_any_key(win[KEY].p);
} else if (ui_mode == UI_CMDLINE && show_dialogs()) {
printf(proc_report, stats.lines);
printf("\n%s / %s / %s / %s\n", stats_str[0], stats_str[1],
stats_str[2], stats_str[3]);
}
/* User has the choice to look at the log file if some items could not be
imported.
*/
file_close(log->fd, __FILE_POS__);
if (stats.skipped > 0) {
const char *view_log = _("Some items could not be imported.");
io_log_display(log, view_log, conf.pager);
}
mem_free(stats_str[0]);
mem_free(stats_str[1]);
mem_free(stats_str[2]);
mem_free(stats_str[3]);
io_log_free(log);
}
struct io_file *io_log_init(void)
{
char *logprefix, *logname;
struct io_file *log = mem_malloc(sizeof(struct io_file));
if (!log) {
ERROR_MSG(_("Warning: could not open temporary log file, Aborting..."));
return NULL;
}
asprintf(&logprefix, "%s/calcurse_log", get_tempdir());
logname = new_tempfile(logprefix);
if (!logname) {
ERROR_MSG(_("Warning: could not create temporary log file, Aborting..."));
goto error;
}
strncpy(log->name, logname, sizeof(log->name));
log->fd = fopen(log->name, "w");
if (log->fd == NULL) {
ERROR_MSG(_("Warning: could not open temporary log file, Aborting..."));
goto error;
}
goto cleanup;
error:
mem_free(log);
log = NULL;
cleanup:
mem_free(logprefix);
mem_free(logname);
return log;
}
void io_log_print(struct io_file *log, int line, const char *msg)
{
if (log && log->fd)
fprintf(log->fd, "line %d: %s\n", line, msg);
}
void io_log_display(struct io_file *log, const char *msg, const char *pager)
{
char *msgq;
RETURN_IF(log == NULL, _("No log file to display!"));
if (ui_mode == UI_CMDLINE) {
fprintf(stderr, "\n%s\n", msg);
fprintf(stderr, _("See %s for details."), log->name);
fputc('\n', stderr);
} else {
asprintf(&msgq, "%s %s", msg, _("Display log file?"));
if (status_ask_bool(msgq) == 1) {
const char *arg[] = { pager, log->name, NULL };
wins_launch_external(arg);
}
mem_free(msgq);
wins_erase_status_bar();
}
}
void io_log_free(struct io_file *log)
{
if (!log)
return;
EXIT_IF(unlink(log->name) != 0,
_("Warning: could not erase temporary log file %s, Aborting..."),
log->name);
mem_free(log);
}
/* Thread used to periodically save data. */
static void *io_psave_thread(void *arg)
{
int delay = conf.periodic_save;
EXIT_IF(delay < 0, _("Invalid delay"));
char *mesg = _("Periodic save: data files have changed. Save cancelled.");
pthread_setcanceltype(PTHREAD_CANCEL_ASYNCHRONOUS, NULL);
for (;;) {
sleep(delay * MININSEC);
pthread_mutex_lock(&io_periodic_save_mutex);
if (io_save_cal(periodic) == IO_SAVE_CANCEL)
que_ins(mesg, now(), 2);
pthread_mutex_unlock(&io_periodic_save_mutex);
}
}
/* Launch the thread which handles periodic saves. */
void io_start_psave_thread(void)
{
pthread_create(&io_t_psave, NULL, io_psave_thread, NULL);
}
/* Stop periodic data saves. */
void io_stop_psave_thread(void)
{
/* Is the thread running? */
if (pthread_equal(io_t_psave, pthread_self()))
return;
/* Lock the mutex to avoid cancelling the thread during saving. */
pthread_mutex_lock(&io_periodic_save_mutex);
pthread_cancel(io_t_psave);
pthread_join(io_t_psave, NULL);
pthread_mutex_unlock(&io_periodic_save_mutex);
io_t_psave = pthread_self();
}
/*
* This sets a lock file to prevent from having two different instances of
* calcurse running.
*
* If the lock cannot be obtained, then warn the user and exit calcurse. Else,
* create a .calcurse.pid file in the user defined directory, which will be
* removed when calcurse exits.
*
* Note: When creating the lock file, the interactive mode is not initialized
* yet.
*/
void io_set_lock(void)
{
FILE *lock = fopen(path_cpid, "r");
int pid;
if (lock != NULL) {
/* If there is a lock file, check whether the process exists. */
if (fscanf(lock, "%d", &pid) == 1) {
fclose(lock);
if (kill(pid, 0) != 0 && errno == ESRCH)
lock = NULL;
} else {
fclose(lock);
}
}
if (lock != NULL) {
fprintf(stderr,
_("\nWARNING: it seems that another calcurse instance is "
"already running.\n"
"If this is not the case, please remove the following "
"lock file: \n\"%s\"\n"
"and restart calcurse.\n"), path_cpid);
exit(EXIT_FAILURE);
}
if (!io_dump_pid(path_cpid))
EXIT(_("FATAL ERROR: could not create %s: %s\n"),
path_cpid, strerror(errno));
}
/*
* Create a new file and write the process pid inside (used to create a simple
* lock for example). Overwrite already existing files.
*/
unsigned io_dump_pid(char *file)
{
pid_t pid;
FILE *fp;
if (!file)
return 0;
pid = getpid();
if (!(fp = fopen(file, "w"))
|| fprintf(fp, "%ld\n", (long)pid) < 0 || fclose(fp) != 0)
return 0;
return 1;
}
/*
* Return the pid number contained in a file previously created with
* io_dump_pid ().
* If no file was found, return 0.
*/
unsigned io_get_pid(char *file)
{
FILE *fp;
unsigned pid;
if (!file)
return 0;
if ((fp = fopen(file, "r")) == NULL)
return 0;
if (fscanf(fp, "%u", &pid) != 1)
return 0;
fclose(fp);
return pid;
}
/*
* Check whether a file is empty.
*/
int io_file_is_empty(char *file)
{
FILE *fp;
int ret = -1;
if (file && (fp = fopen(file, "r"))) {
ret = (fgetc(fp) == '\n' && fgetc(fp) == EOF) || feof(fp);
fclose(fp);
}
return ret;
}
/*
* Check whether two files are equal.
*/
int io_files_equal(const char *file1, const char *file2)
{
FILE *fp1, *fp2;
int ret = 0;
if (!file1 || !file2)
return 0;
fp1 = fopen(file1, "rb");
fp2 = fopen(file2, "rb");
while (!feof(fp1) && !feof(fp2)) {
if (fgetc(fp1) != fgetc(fp2))
goto cleanup;
}
ret = 1;
cleanup:
fclose(fp1);
fclose(fp2);
return ret;
}
/*
* Copy an existing file to a new location.
*/
int io_file_cp(const char *src, const char *dst)
{
FILE *fp_src, *fp_dst;
char *buffer[BUFSIZ];
unsigned int bytes_read;
if (!(fp_src = fopen(src, "rb")))
return 0;
if (!(fp_dst = fopen(dst, "wb")))
return 0;
while (!feof(fp_src)) {
bytes_read = fread(buffer, 1, BUFSIZ, fp_src);
if (bytes_read > 0) {
if (fwrite(buffer, 1, bytes_read, fp_dst) !=
bytes_read)
return 0;
} else {
return 0;
}
}
fclose(fp_dst);
fclose(fp_src);
return 1;
}
void io_unset_modified(void)
{
modified = 0;
}
void io_set_modified(void)
{
modified = 1;
}
int io_get_modified(void)
{
return modified;
}
|