freebsd-skq/usr.sbin/cron/lib/entry.c
Maxim Sobolev 7a5c30c5b6 Second attempt to add @every_second keyword support. Due to multiple
requests, default to the previous 60-seconds scheduling method
unless there is any @every_second entries to conserve CPU cycles and
power.

This change also improves scheduling in the default mode by running
as close to the beginning of the minnute as possible by replacing
sleep(3) with nanosleep(2). Previously, the tasks would run anywhere
within the first second of the minute and that offset drifted back
and forth each time cron(8) was engaged.

MFC after:	1 month
2012-10-25 22:54:29 +00:00

668 lines
16 KiB
C

/* Copyright 1988,1990,1993,1994 by Paul Vixie
* All rights reserved
*
* Distribute freely, except: don't remove my name from the source or
* documentation (don't take credit for my work), mark your changes (don't
* get me blamed for your possible bugs), don't alter or remove this
* notice. May be sold if buildable source is provided to buyer. No
* warrantee of any kind, express or implied, is included with this
* software; use at your own risk, responsibility for damages (if any) to
* anyone resulting from the use of this software rests entirely with the
* user.
*
* Send bug reports, bug fixes, enhancements, requests, flames, etc., and
* I'll try to keep a version up to date. I can be reached as follows:
* Paul Vixie <paul@vix.com> uunet!decwrl!vixie!paul
*/
#if !defined(lint) && !defined(LINT)
static const char rcsid[] =
"$FreeBSD$";
#endif
/* vix 26jan87 [RCS'd; rest of log is in RCS file]
* vix 01jan87 [added line-level error recovery]
* vix 31dec86 [added /step to the from-to range, per bob@acornrc]
* vix 30dec86 [written]
*/
#include "cron.h"
#include <grp.h>
#ifdef LOGIN_CAP
#include <login_cap.h>
#endif
typedef enum ecode {
e_none, e_minute, e_hour, e_dom, e_month, e_dow,
e_cmd, e_timespec, e_username, e_group, e_mem
#ifdef LOGIN_CAP
, e_class
#endif
} ecode_e;
static char get_list(bitstr_t *, int, int, char *[], int, FILE *),
get_range(bitstr_t *, int, int, char *[], int, FILE *),
get_number(int *, int, char *[], int, FILE *);
static int set_element(bitstr_t *, int, int, int);
static char *ecodes[] =
{
"no error",
"bad minute",
"bad hour",
"bad day-of-month",
"bad month",
"bad day-of-week",
"bad command",
"bad time specifier",
"bad username",
"bad group name",
"out of memory",
#ifdef LOGIN_CAP
"bad class name",
#endif
};
void
free_entry(e)
entry *e;
{
#ifdef LOGIN_CAP
if (e->class != NULL)
free(e->class);
#endif
if (e->cmd != NULL)
free(e->cmd);
if (e->envp != NULL)
env_free(e->envp);
free(e);
}
/* return NULL if eof or syntax error occurs;
* otherwise return a pointer to a new entry.
*/
entry *
load_entry(file, error_func, pw, envp)
FILE *file;
void (*error_func)(char *);
struct passwd *pw;
char **envp;
{
/* this function reads one crontab entry -- the next -- from a file.
* it skips any leading blank lines, ignores comments, and returns
* EOF if for any reason the entry can't be read and parsed.
*
* the entry is also parsed here.
*
* syntax:
* user crontab:
* minutes hours doms months dows cmd\n
* system crontab (/etc/crontab):
* minutes hours doms months dows USERNAME cmd\n
*/
ecode_e ecode = e_none;
entry *e;
int ch;
char cmd[MAX_COMMAND];
char envstr[MAX_ENVSTR];
char **prev_env;
Debug(DPARS, ("load_entry()...about to eat comments\n"))
skip_comments(file);
ch = get_char(file);
if (ch == EOF)
return NULL;
/* ch is now the first useful character of a useful line.
* it may be an @special or it may be the first character
* of a list of minutes.
*/
e = (entry *) calloc(sizeof(entry), sizeof(char));
if (e == NULL) {
warn("load_entry: calloc failed");
return NULL;
}
if (ch == '@') {
/* all of these should be flagged and load-limited; i.e.,
* instead of @hourly meaning "0 * * * *" it should mean
* "close to the front of every hour but not 'til the
* system load is low". Problems are: how do you know
* what "low" means? (save me from /etc/cron.conf!) and:
* how to guarantee low variance (how low is low?), which
* means how to we run roughly every hour -- seems like
* we need to keep a history or let the first hour set
* the schedule, which means we aren't load-limited
* anymore. too much for my overloaded brain. (vix, jan90)
* HINT
*/
Debug(DPARS, ("load_entry()...about to test shortcuts\n"))
ch = get_string(cmd, MAX_COMMAND, file, " \t\n");
if (!strcmp("reboot", cmd)) {
Debug(DPARS, ("load_entry()...reboot shortcut\n"))
e->flags |= WHEN_REBOOT;
} else if (!strcmp("yearly", cmd) || !strcmp("annually", cmd)){
Debug(DPARS, ("load_entry()...yearly shortcut\n"))
bit_set(e->second, 0);
bit_set(e->minute, 0);
bit_set(e->hour, 0);
bit_set(e->dom, 0);
bit_set(e->month, 0);
bit_nset(e->dow, 0, (LAST_DOW-FIRST_DOW+1));
e->flags |= DOW_STAR;
} else if (!strcmp("monthly", cmd)) {
Debug(DPARS, ("load_entry()...monthly shortcut\n"))
bit_set(e->second, 0);
bit_set(e->minute, 0);
bit_set(e->hour, 0);
bit_set(e->dom, 0);
bit_nset(e->month, 0, (LAST_MONTH-FIRST_MONTH+1));
bit_nset(e->dow, 0, (LAST_DOW-FIRST_DOW+1));
e->flags |= DOW_STAR;
} else if (!strcmp("weekly", cmd)) {
Debug(DPARS, ("load_entry()...weekly shortcut\n"))
bit_set(e->second, 0);
bit_set(e->minute, 0);
bit_set(e->hour, 0);
bit_nset(e->dom, 0, (LAST_DOM-FIRST_DOM+1));
e->flags |= DOM_STAR;
bit_nset(e->month, 0, (LAST_MONTH-FIRST_MONTH+1));
bit_set(e->dow, 0);
} else if (!strcmp("daily", cmd) || !strcmp("midnight", cmd)) {
Debug(DPARS, ("load_entry()...daily shortcut\n"))
bit_set(e->second, 0);
bit_set(e->minute, 0);
bit_set(e->hour, 0);
bit_nset(e->dom, 0, (LAST_DOM-FIRST_DOM+1));
bit_nset(e->month, 0, (LAST_MONTH-FIRST_MONTH+1));
bit_nset(e->dow, 0, (LAST_DOW-FIRST_DOW+1));
} else if (!strcmp("hourly", cmd)) {
Debug(DPARS, ("load_entry()...hourly shortcut\n"))
bit_set(e->second, 0);
bit_set(e->minute, 0);
bit_nset(e->hour, 0, (LAST_HOUR-FIRST_HOUR+1));
bit_nset(e->dom, 0, (LAST_DOM-FIRST_DOM+1));
bit_nset(e->month, 0, (LAST_MONTH-FIRST_MONTH+1));
bit_nset(e->dow, 0, (LAST_DOW-FIRST_DOW+1));
} else if (!strcmp("every_minute", cmd)) {
Debug(DPARS, ("load_entry()...every_minute shortcut\n"))
bit_set(e->second, 0);
bit_nset(e->minute, 0, (LAST_MINUTE-FIRST_MINUTE+1));
bit_nset(e->hour, 0, (LAST_HOUR-FIRST_HOUR+1));
bit_nset(e->dom, 0, (LAST_DOM-FIRST_DOM+1));
bit_nset(e->month, 0, (LAST_MONTH-FIRST_MONTH+1));
bit_nset(e->dow, 0, (LAST_DOW-FIRST_DOW+1));
} else if (!strcmp("every_second", cmd)) {
Debug(DPARS, ("load_entry()...every_second shortcut\n"))
e->flags |= SEC_RES;
bit_nset(e->second, 0, (LAST_SECOND-FIRST_SECOND+1));
bit_nset(e->minute, 0, (LAST_MINUTE-FIRST_MINUTE+1));
bit_nset(e->hour, 0, (LAST_HOUR-FIRST_HOUR+1));
bit_nset(e->dom, 0, (LAST_DOM-FIRST_DOM+1));
bit_nset(e->month, 0, (LAST_MONTH-FIRST_MONTH+1));
bit_nset(e->dow, 0, (LAST_DOW-FIRST_DOW+1));
} else {
ecode = e_timespec;
goto eof;
}
/* Advance past whitespace between shortcut and
* username/command.
*/
Skip_Blanks(ch, file);
if (ch == EOF) {
ecode = e_cmd;
goto eof;
}
} else {
Debug(DPARS, ("load_entry()...about to parse numerics\n"))
bit_set(e->second, 0);
ch = get_list(e->minute, FIRST_MINUTE, LAST_MINUTE,
PPC_NULL, ch, file);
if (ch == EOF) {
ecode = e_minute;
goto eof;
}
/* hours
*/
ch = get_list(e->hour, FIRST_HOUR, LAST_HOUR,
PPC_NULL, ch, file);
if (ch == EOF) {
ecode = e_hour;
goto eof;
}
/* DOM (days of month)
*/
if (ch == '*')
e->flags |= DOM_STAR;
ch = get_list(e->dom, FIRST_DOM, LAST_DOM,
PPC_NULL, ch, file);
if (ch == EOF) {
ecode = e_dom;
goto eof;
}
/* month
*/
ch = get_list(e->month, FIRST_MONTH, LAST_MONTH,
MonthNames, ch, file);
if (ch == EOF) {
ecode = e_month;
goto eof;
}
/* DOW (days of week)
*/
if (ch == '*')
e->flags |= DOW_STAR;
ch = get_list(e->dow, FIRST_DOW, LAST_DOW,
DowNames, ch, file);
if (ch == EOF) {
ecode = e_dow;
goto eof;
}
}
/* make sundays equivalent */
if (bit_test(e->dow, 0) || bit_test(e->dow, 7)) {
bit_set(e->dow, 0);
bit_set(e->dow, 7);
}
/* ch is the first character of a command, or a username */
unget_char(ch, file);
if (!pw) {
char *username = cmd; /* temp buffer */
char *s;
struct group *grp;
#ifdef LOGIN_CAP
login_cap_t *lc;
#endif
Debug(DPARS, ("load_entry()...about to parse username\n"))
ch = get_string(username, MAX_COMMAND, file, " \t");
Debug(DPARS, ("load_entry()...got %s\n",username))
if (ch == EOF) {
ecode = e_cmd;
goto eof;
}
#ifdef LOGIN_CAP
if ((s = strrchr(username, '/')) != NULL) {
*s = '\0';
e->class = strdup(s + 1);
if (e->class == NULL)
warn("strdup(\"%s\")", s + 1);
} else {
e->class = strdup(RESOURCE_RC);
if (e->class == NULL)
warn("strdup(\"%s\")", RESOURCE_RC);
}
if (e->class == NULL) {
ecode = e_mem;
goto eof;
}
if ((lc = login_getclass(e->class)) == NULL) {
ecode = e_class;
goto eof;
}
login_close(lc);
#endif
grp = NULL;
if ((s = strrchr(username, ':')) != NULL) {
*s = '\0';
if ((grp = getgrnam(s + 1)) == NULL) {
ecode = e_group;
goto eof;
}
}
pw = getpwnam(username);
if (pw == NULL) {
ecode = e_username;
goto eof;
}
if (grp != NULL)
pw->pw_gid = grp->gr_gid;
Debug(DPARS, ("load_entry()...uid %d, gid %d\n",pw->pw_uid,pw->pw_gid))
#ifdef LOGIN_CAP
Debug(DPARS, ("load_entry()...class %s\n",e->class))
#endif
}
#ifndef PAM /* PAM takes care of account expiration by itself */
if (pw->pw_expire && time(NULL) >= pw->pw_expire) {
ecode = e_username;
goto eof;
}
#endif /* !PAM */
e->uid = pw->pw_uid;
e->gid = pw->pw_gid;
/* copy and fix up environment. some variables are just defaults and
* others are overrides.
*/
e->envp = env_copy(envp);
if (e->envp == NULL) {
warn("env_copy");
ecode = e_mem;
goto eof;
}
if (!env_get("SHELL", e->envp)) {
prev_env = e->envp;
sprintf(envstr, "SHELL=%s", _PATH_BSHELL);
e->envp = env_set(e->envp, envstr);
if (e->envp == NULL) {
warn("env_set(%s)", envstr);
env_free(prev_env);
ecode = e_mem;
goto eof;
}
}
if (!env_get("HOME", e->envp)) {
prev_env = e->envp;
sprintf(envstr, "HOME=%s", pw->pw_dir);
e->envp = env_set(e->envp, envstr);
if (e->envp == NULL) {
warn("env_set(%s)", envstr);
env_free(prev_env);
ecode = e_mem;
goto eof;
}
}
if (!env_get("PATH", e->envp)) {
prev_env = e->envp;
sprintf(envstr, "PATH=%s", _PATH_DEFPATH);
e->envp = env_set(e->envp, envstr);
if (e->envp == NULL) {
warn("env_set(%s)", envstr);
env_free(prev_env);
ecode = e_mem;
goto eof;
}
}
prev_env = e->envp;
sprintf(envstr, "%s=%s", "LOGNAME", pw->pw_name);
e->envp = env_set(e->envp, envstr);
if (e->envp == NULL) {
warn("env_set(%s)", envstr);
env_free(prev_env);
ecode = e_mem;
goto eof;
}
#if defined(BSD)
prev_env = e->envp;
sprintf(envstr, "%s=%s", "USER", pw->pw_name);
e->envp = env_set(e->envp, envstr);
if (e->envp == NULL) {
warn("env_set(%s)", envstr);
env_free(prev_env);
ecode = e_mem;
goto eof;
}
#endif
Debug(DPARS, ("load_entry()...about to parse command\n"))
/* Everything up to the next \n or EOF is part of the command...
* too bad we don't know in advance how long it will be, since we
* need to malloc a string for it... so, we limit it to MAX_COMMAND.
* XXX - should use realloc().
*/
ch = get_string(cmd, MAX_COMMAND, file, "\n");
/* a file without a \n before the EOF is rude, so we'll complain...
*/
if (ch == EOF) {
ecode = e_cmd;
goto eof;
}
/* got the command in the 'cmd' string; save it in *e.
*/
e->cmd = strdup(cmd);
if (e->cmd == NULL) {
warn("strdup(\"%s\")", cmd);
ecode = e_mem;
goto eof;
}
Debug(DPARS, ("load_entry()...returning successfully\n"))
/* success, fini, return pointer to the entry we just created...
*/
return e;
eof:
free_entry(e);
if (ecode != e_none && error_func)
(*error_func)(ecodes[(int)ecode]);
while (ch != EOF && ch != '\n')
ch = get_char(file);
return NULL;
}
static char
get_list(bits, low, high, names, ch, file)
bitstr_t *bits; /* one bit per flag, default=FALSE */
int low, high; /* bounds, impl. offset for bitstr */
char *names[]; /* NULL or *[] of names for these elements */
int ch; /* current character being processed */
FILE *file; /* file being read */
{
register int done;
/* we know that we point to a non-blank character here;
* must do a Skip_Blanks before we exit, so that the
* next call (or the code that picks up the cmd) can
* assume the same thing.
*/
Debug(DPARS|DEXT, ("get_list()...entered\n"))
/* list = range {"," range}
*/
/* clear the bit string, since the default is 'off'.
*/
bit_nclear(bits, 0, (high-low+1));
/* process all ranges
*/
done = FALSE;
while (!done) {
ch = get_range(bits, low, high, names, ch, file);
if (ch == ',')
ch = get_char(file);
else
done = TRUE;
}
/* exiting. skip to some blanks, then skip over the blanks.
*/
Skip_Nonblanks(ch, file)
Skip_Blanks(ch, file)
Debug(DPARS|DEXT, ("get_list()...exiting w/ %02x\n", ch))
return ch;
}
static char
get_range(bits, low, high, names, ch, file)
bitstr_t *bits; /* one bit per flag, default=FALSE */
int low, high; /* bounds, impl. offset for bitstr */
char *names[]; /* NULL or names of elements */
int ch; /* current character being processed */
FILE *file; /* file being read */
{
/* range = number | number "-" number [ "/" number ]
*/
register int i;
auto int num1, num2, num3;
Debug(DPARS|DEXT, ("get_range()...entering, exit won't show\n"))
if (ch == '*') {
/* '*' means "first-last" but can still be modified by /step
*/
num1 = low;
num2 = high;
ch = get_char(file);
if (ch == EOF)
return EOF;
} else {
if (EOF == (ch = get_number(&num1, low, names, ch, file)))
return EOF;
if (ch == '/')
num2 = high;
else if (ch != '-') {
/* not a range, it's a single number.
*/
if (EOF == set_element(bits, low, high, num1))
return EOF;
return ch;
} else {
/* eat the dash
*/
ch = get_char(file);
if (ch == EOF)
return EOF;
/* get the number following the dash
*/
ch = get_number(&num2, low, names, ch, file);
if (ch == EOF)
return EOF;
}
}
/* check for step size
*/
if (ch == '/') {
/* eat the slash
*/
ch = get_char(file);
if (ch == EOF)
return EOF;
/* get the step size -- note: we don't pass the
* names here, because the number is not an
* element id, it's a step size. 'low' is
* sent as a 0 since there is no offset either.
*/
ch = get_number(&num3, 0, PPC_NULL, ch, file);
if (ch == EOF || num3 == 0)
return EOF;
} else {
/* no step. default==1.
*/
num3 = 1;
}
/* range. set all elements from num1 to num2, stepping
* by num3. (the step is a downward-compatible extension
* proposed conceptually by bob@acornrc, syntactically
* designed then implmented by paul vixie).
*/
for (i = num1; i <= num2; i += num3)
if (EOF == set_element(bits, low, high, i))
return EOF;
return ch;
}
static char
get_number(numptr, low, names, ch, file)
int *numptr; /* where does the result go? */
int low; /* offset applied to result if symbolic enum used */
char *names[]; /* symbolic names, if any, for enums */
int ch; /* current character */
FILE *file; /* source */
{
char temp[MAX_TEMPSTR], *pc;
int len, i, all_digits;
/* collect alphanumerics into our fixed-size temp array
*/
pc = temp;
len = 0;
all_digits = TRUE;
while (isalnum(ch)) {
if (++len >= MAX_TEMPSTR)
return EOF;
*pc++ = ch;
if (!isdigit(ch))
all_digits = FALSE;
ch = get_char(file);
}
*pc = '\0';
if (len == 0)
return (EOF);
/* try to find the name in the name list
*/
if (names) {
for (i = 0; names[i] != NULL; i++) {
Debug(DPARS|DEXT,
("get_num, compare(%s,%s)\n", names[i], temp))
if (!strcasecmp(names[i], temp)) {
*numptr = i+low;
return ch;
}
}
}
/* no name list specified, or there is one and our string isn't
* in it. either way: if it's all digits, use its magnitude.
* otherwise, it's an error.
*/
if (all_digits) {
*numptr = atoi(temp);
return ch;
}
return EOF;
}
static int
set_element(bits, low, high, number)
bitstr_t *bits; /* one bit per flag, default=FALSE */
int low;
int high;
int number;
{
Debug(DPARS|DEXT, ("set_element(?,%d,%d,%d)\n", low, high, number))
if (number < low || number > high)
return EOF;
bit_set(bits, (number-low));
return OK;
}