A C++ scheduling library using cron formatting.
Libcron offers an easy to use API to add callbacks with corresponding cron-formatted strings:
libcron::Cron<> cron;
cron.add_schedule("Hello from Cron", "* * * * * ?", [=](auto&) {
std::cout << "Hello from libcron!" << std::endl;
});
To trigger the execution of callbacks, one must call libcron::Cron::tick
at least once a second to prevent missing schedules:
while(true)
{
cron.tick();
std::this_thread::sleep_for(500mS);
}
In case there is a lot of time between you call add_schedule
and tick
, you can call recalculate_schedule
.
The callback must have the following signature:
std::function<void(const libcron::TaskInformation&)>
libcron::Taskinformation
offers a convenient API to retrieve further information:
libcron::TaskInformation::get_delay
informs about the delay between planned and actual execution of the callback. Hence, it is possible to ensure that a task was executed within a specific tolerance:
libcron::Cron<> cron;
cron.add_schedule("Hello from Cron", "* * * * * ?", [=](auto& i) {
using namespace std::chrono_literals;
if (i.get_delay() >= 1s)
{
std::cout << "The Task was executed too late..." << std::endl;
}
});
libcron::TaskInformation::get_name
gives you the name of the current Task. This allows to add attach the same callback to multiple schedules:
libcron::Cron<> cron;
auto f = [](auto& i) {
if (i.get_name() == "Task 1")
{
do_work_task_1();
}
else if (i.get_name() == "Task 2")
{
do_work_task_2();
}
};
cron.add_schedule("Task 1", "* * * * * ?", f);
cron.add_schedule("Task 2", "* * * * * ?", f);
libcron::cron::add_schedule needs to sort the underlying container each time you add a schedule. To improve performance when adding many tasks by only sorting once, there is a convinient way to pass either a std::map<std::string, std::string>
, a std::vector<std::pair<std::string, std::string>>
, a std::vector<std::tuple<std::string, std::string>>
or a std::unordered_map<std::string, std::string>
to add_schedule
, where the first element corresponds to the task name and the second element to the task schedule. Only if all schedules in the container are valid, they will be added to libcron::Cron
. The return type is a std::tuple<bool, std::string, std::string>
, where the boolean is true
if the schedules have been added or false otherwise. If the schedules have not been added, the second element in the tuple corresponds to the task-name with the given invalid schedule. If there are multiple invalid schedules in the container, add_schedule
will abort at the first invalid element:
std::map<std::string, std::string> name_schedule_map;
for(int i = 1; i <= 1000; i++)
{
name_schedule_map["Task-" + std::to_string(i)] = "* * * * * ?";
}
name_schedule_map["Task-1000"] = "invalid";
auto res = c1.add_schedule(name_schedule_map, [](auto&) { });
if (std::get<0>(res) == false)
{
std::cout << "Task " << std::get<1>(res)
<< "has an invalid schedule: "
<< std::get<2>(res) << std::endl;
}
libcron::Cron offers two convenient functions to remove schedules:
clear_schedules()
will remove all schedulesremove_schedule(std::string)
will remove a specific schedule
For example, cron.remove_schedule("Hello from Cron")
will remove the previously added task.
When Calling libcron::Cron::tick
from another thread than add_schedule
, clear_schedule
and remove_schedule
, one must take care to protect the internal resources of libcron::Cron
so that tasks are not removed or added while libcron::Cron
is iterating over the schedules. libcron::Cron
can take care of that, you simply have to define your own aliases:
/* The default class uses NullLock, which does not lock the resources at runtime */
template<typename ClockType = libcron::LocalClock, typename LockType = libcron::NullLock>
class Cron
{
...
}
/* Define an alias for a thread-safe Cron scheduler which automatically locks ressources when needed */
using CronMt = libcron::Cron<libcron::LocalClock, libcron::Locker>
CronMt cron;
cron.add_schedule("Hello from Cron", "* * * * * ?", [=]() {
std::cout << "Hello from CronMt!" std::endl;
});
....
However, this comes with costs: Whenever you call tick
, a std::mutex
will be locked and unlocked. So only use the libcron::Locker
to protect resources when you really need too.
This library uses std::chrono::system_clock::timepoint
as its time unit. While that is UTC by default, the Cron-class
uses a LocalClock
by default which offsets system_clock::now()
by the current UTC-offset. If you wish to work in
UTC, then construct the Cron instance, passing it a libcron::UTCClock
.
This implementation supports cron format, as specified below.
Each schedule expression conststs of 6 parts, all mandatory. However, if 'day of month' specifies specific days, then 'day of week' is ignored.
┌──────────────seconds (0 - 59)
│ ┌───────────── minute (0 - 59)
│ │ ┌───────────── hour (0 - 23)
│ │ │ ┌───────────── day of month (1 - 31)
│ │ │ │ ┌───────────── month (1 - 12)
│ │ │ │ │ ┌───────────── day of week (0 - 6) (Sunday to Saturday)
│ │ │ │ │ │
│ │ │ │ │ │
│ │ │ │ │ │
* * * * * *
- Allowed formats:
-
Special characters: '*', meaning the entire range.
-
'?' used to ignore day of month/day of week as noted below.
-
Ranges: 1,2,4-6
- Result: 1,2,4,5,6
-
Steps: n/m, where n is the start and m is the step.
1/2
yields 1,3,5,7...5/3
yields 5,8,11,14...*/2
yields Result: 1,3,5,7...
-
Reversed ranges:
0 0 23-2 * * *
, meaning top of each minute and hour, of hours, 23, 0, 1 and 2, every day.- Compare to
0 0 2-23 * * *
which means top of each minute and hour, of hours, 2,3...21,22,23 every day.
- Compare to
-
For month
, these (case insensitive) strings can be used instead of numbers: JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, DEC
.
Example: JAN,MAR,SEP-NOV
For day of week
, these (case insensitive) strings can be used instead of numbers: SUN, MON, TUE, WED, THU, FRI, SAT
.
Example: MON-THU,SAT
Each part is separated by one or more whitespaces. It is thus important to keep whitespaces out of the respective parts.
-
Valid:
- 0,3,40-50 * * * * ?
-
Invalid:
- 0, 3, 40-50 * * * * ?
Day of month
and day of week
are mutually exclusive so one of them must at always be ignored using
the '?'-character to ensure that it is not possible to specify a statement which results in an impossible mix of these fields.
Expression | Meaning |
---|---|
* * * * * ? | Every second |
0 0 12 * * MON-FRI | Every Weekday at noon |
0 0 12 1/2 * ? | Every 2 days, starting on the 1st at noon |
0 0 */12 ? * * | Every twelve hours |
The standard cron format does not allow for randomization, but with the use of CronRandomization
you can generate random
schedules using the following format: R(range_start-range_end)
, where range_start
and range_end
follow the same rules
as for a regular cron range (step-syntax is not supported). All the rules for a regular cron expression still applies
when using randomization, i.e. mutual exclusiveness and no extra spaces.
Expression | Meaning |
---|---|
0 0 R(13-20) * * ? | On the hour, on a random hour 13-20, inclusive. |
0 0 0 ? * R(0-6) | A random weekday, every week, at midnight. |
0 R(45-15) */12 ? * * | A random minute between 45-15, inclusive, every 12 hours. |
0 0 0 ? R(DEC-MAR) R(SAT-SUN) | On the hour, on a random month december to march, on a random weekday saturday to sunday. |
Howard Hinnant's date libraries