mq_overview - overview of POSIX message queues
POSIX message queues allow processes to exchange data in the form of messages. This API is distinct from that provided by System V message queues (msgget(2), msgsnd(2), msgrcv(2), etc.), but provides similar functionality.
Message queues are created and opened using mq_open(3); this function returns a
message queue descriptor (
mqd_t), which is used to refer to the open message queue in later calls. Each message queue is identified by a name of the form
/somename; that is, a null-terminated string of up to NAME_MAX (i.e., 255) characters consisting of an initial slash, followed by one or more characters, none of which are slashes. Two processes can operate on the same queue by passing the same name to mq_open(3).
Messages are transferred to and from a queue using mq_send(3) and mq_receive(3). When a process has finished using the queue, it closes it using mq_close(3), and when the queue is no longer required, it can be deleted using mq_unlink(3). Queue attributes can be retrieved and (in some cases) modified using mq_getattr(3) and mq_setattr(3). A process can request asynchronous notification of the arrival of a message on a previously empty queue using mq_notify(3).
A message queue descriptor is a reference to an
open message queue description (see open(2)). After a fork(2), a child inherits copies of its parent's message queue descriptors, and these descriptors refer to the same open message queue descriptions as the corresponding message queue descriptors in the parent. Corresponding message queue descriptors in the two processes share the flags (
mq_flags) that are associated with the open message queue description.
Each message has an associated
priority, and messages are always delivered to the receiving process highest priority first. Message priorities range from 0 (low) to
sysconf(_SC_MQ_PRIO_MAX) - 1 (high). On Linux,
sysconf(_SC_MQ_PRIO_MAX) returns 32768, but POSIX.1 requires only that an implementation support at least priorities in the range 0 to 31; some implementations provide only this range.
The remainder of this section describes some specific details of the Linux implementation of POSIX message queues.
In most cases the mq_*() library interfaces listed above are implemented on top of underlying system calls of the same name. Deviations from this scheme are indicated in the following table:
Library interface System call mq_close(3) close(2) mq_getattr(3) mq_getsetattr(2) mq_notify(3) mq_notify(2) mq_open(3) mq_open(2) mq_receive(3) mq_timedreceive(2) mq_send(3) mq_timedsend(2) mq_setattr(3) mq_getsetattr(2) mq_timedreceive(3) mq_timedreceive(2) mq_timedsend(3) mq_timedsend(2) mq_unlink(3) mq_unlink(2)
POSIX message queues have been supported on Linux since kernel 2.6.6. Glibc support has been provided since version 2.3.4.
Support for POSIX message queues is configurable via the CONFIG_POSIX_MQUEUE kernel configuration option. This option is enabled by default.
POSIX message queues have kernel persistence: if not removed by mq_unlink(3), a message queue will exist until the system is shut down.
Programs using the POSIX message queue API must be compiled with
cc -lrt to link against the real-time library,
The following interfaces can be used to limit the amount of kernel memory consumed by POSIX message queues and to set the default attributes for new message queues:
/proc/sys/fs/mqueue/msg_default(since Linux 3.5)
This file defines the value used for a new queue's
mq_maxmsg setting when the queue is created with a call to mq_open(3) where
attr is specified as NULL. The default value for this file is 10. The minimum and maximum are as for
/proc/sys/fs/mqueue/msg_max. A new queue's default
mq_maxmsg value will be the smaller of
msg_max. Up until Linux 2.6.28, the default
mq_maxmsg was 10; from Linux 2.6.28 to Linux 3.4, the default was the value defined for the
This file can be used to view and change the ceiling value for the maximum number of messages in a queue. This value acts as a ceiling on the
attr->mq_maxmsg argument given to mq_open(3). The default value for
msg_max is 10. The minimum value is 1 (10 in kernels before 2.6.28). The upper limit is HARD_MSGMAX. The
msg_max limit is ignored for privileged processes (CAP_SYS_RESOURCE), but the HARD_MSGMAX ceiling is nevertheless imposed.
The definition of HARD_MSGMAX has changed across kernel versions:
Up to Linux 2.6.32:
131072 / sizeof(void *)
Linux 2.6.33 to 3.4:
(32768 * sizeof(void *) / 4)
Since Linux 3.5: 65,536
/proc/sys/fs/mqueue/msgsize_default(since Linux 3.5)
This file defines the value used for a new queue's
mq_msgsize setting when the queue is created with a call to mq_open(3) where
attr is specified as NULL. The default value for this file is 8192 (bytes). The minimum and maximum are as for
msgsize_max, a new queue's default
mq_msgsize value is capped to the
msgsize_max limit. Up until Linux 2.6.28, the default
mq_msgsize was 8192; from Linux 2.6.28 to Linux 3.4, the default was the value defined for the
This file can be used to view and change the ceiling on the maximum message size. This value acts as a ceiling on the
attr->mq_msgsize argument given to mq_open(3). The default value for
msgsize_max is 8192 bytes. The minimum value is 128 (8192 in kernels before 2.6.28). The upper limit for
msgsize_max has varied across kernel versions:
Before Linux 2.6.28, the upper limit is INT_MAX.
From Linux 2.6.28 to 3.4, the limit is 1,048,576.
Since Linux 3.5, the limit is 16,777,216 (HARD_MSGSIZEMAX).
msgsize_max limit is ignored for privileged process (CAP_SYS_RESOURCE), but, since Linux 3.5, the HARD_MSGSIZEMAX ceiling is enforced for privileged processes.
This file can be used to view and change the system-wide limit on the number of message queues that can be created. The default value for
queues_max is 256. No ceiling is imposed on the
queues_max limit; privileged processes (CAP_SYS_RESOURCE) can exceed the limit (but see BUGS).
The RLIMIT_MSGQUEUE resource limit, which places a limit on the amount of space that can be consumed by all of the message queues belonging to a process's real user ID, is described in getrlimit(2).
On Linux, message queues are created in a virtual filesystem. (Other implementations may also provide such a feature, but the details are likely to differ.) This filesystem can be mounted (by the superuser) using the following commands:
# mkdir /dev/mqueue # mount -t mqueue none /dev/mqueue
The sticky bit is automatically enabled on the mount directory.
The contents of each file in the directory consist of a single line containing information about the queue:
$ cat /dev/mqueue/mymq QSIZE:129 NOTIFY:2 SIGNO:0 NOTIFY_PID:8260
These fields are as follows:
Number of bytes of data in all messages in the queue (but see BUGS).
If this is nonzero, then the process with this PID has used mq_notify(3) to register for asynchronous message notification, and the remaining fields describe how notification occurs.
Notification method: 0 is SIGEV_SIGNAL; 1 is SIGEV_NONE; and 2 is SIGEV_THREAD.
Signal number to be used for SIGEV_SIGNAL.
On Linux, a message queue descriptor is actually a file descriptor. (POSIX does not require such an implementation.) This means that a message queue descriptor can be monitored using select(2), poll(2), or epoll(7). This is not portable.
For a discussion of the interaction of System V IPC objects and IPC namespaces, see namespaces(7).
System V message queues (msgget(2), msgsnd(2), msgrcv(2), etc.) are an older API for exchanging messages between processes. POSIX message queues provide a better designed interface than System V message queues; on the other hand POSIX message queues are less widely available (especially on older systems) than System V message queues.
Linux does not currently (2.6.26) support the use of access control lists (ACLs) for POSIX message queues.
In Linux versions 3.5 to 3.14, the kernel imposed a ceiling of 1024 (HARD_QUEUESMAX) on the value to which the
queues_max limit could be raised, and the ceiling was enforced even for privileged processes. This ceiling value was removed in Linux 3.14, and patches to stable kernels 3.5.x to 3.13.x also removed the ceiling.
As originally implemented (and documented), the QSIZE field displayed the total number of (user-supplied) bytes in all messages in the message queue. Some changes in Linux 3.5 inadvertently changed the behavior, so that this field also included a count of kernel overhead bytes used to store the messages in the queue. This behavioral regression was rectified in Linux 4.2 (and earlier stable kernel series), so that the count once more included just the bytes of user data in messages in the queue.
An example of the use of various message queue functions is shown in mq_notify(3).
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