'\" t .\" Title: zmq_getsockopt .\" Author: [see the "AUTHORS" section] .\" Generator: DocBook XSL Stylesheets v1.79.1 .\" Date: 09/06/2020 .\" Manual: 0MQ Manual .\" Source: 0MQ 4.3.1 .\" Language: English .\" .TH "ZMQ_GETSOCKOPT" "3" "09/06/2020" "0MQ 4\&.3\&.1" "0MQ Manual" .\" ----------------------------------------------------------------- .\" * Define some portability stuff .\" ----------------------------------------------------------------- .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .\" http://bugs.debian.org/507673 .\" http://lists.gnu.org/archive/html/groff/2009-02/msg00013.html .\" ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ .ie \n(.g .ds Aq \(aq .el .ds Aq ' .\" ----------------------------------------------------------------- .\" * set default formatting .\" ----------------------------------------------------------------- .\" disable hyphenation .nh .\" disable justification (adjust text to left margin only) .ad l .\" ----------------------------------------------------------------- .\" * MAIN CONTENT STARTS HERE * .\" ----------------------------------------------------------------- .SH "NAME" zmq_getsockopt \- get 0MQ socket options .SH "SYNOPSIS" .sp \fBint zmq_getsockopt (void \fR\fB\fI*socket\fR\fR\fB, int \fR\fB\fIoption_name\fR\fR\fB, void \fR\fB\fI*option_value\fR\fR\fB, size_t \fR\fB\fI*option_len\fR\fR\fB);\fR .SH "DESCRIPTION" .sp The \fIzmq_getsockopt()\fR function shall retrieve the value for the option specified by the \fIoption_name\fR argument for the 0MQ socket pointed to by the \fIsocket\fR argument, and store it in the buffer pointed to by the \fIoption_value\fR argument\&. The \fIoption_len\fR argument is the size in bytes of the buffer pointed to by \fIoption_value\fR; upon successful completion \fIzmq_getsockopt()\fR shall modify the \fIoption_len\fR argument to indicate the actual size of the option value stored in the buffer\&. .sp The following options can be retrieved with the \fIzmq_getsockopt()\fR function: .SS "ZMQ_AFFINITY: Retrieve I/O thread affinity" .sp The \fIZMQ_AFFINITY\fR option shall retrieve the I/O thread affinity for newly created connections on the specified \fIsocket\fR\&. .sp Affinity determines which threads from the 0MQ I/O thread pool associated with the socket\(cqs \fIcontext\fR shall handle newly created connections\&. A value of zero specifies no affinity, meaning that work shall be distributed fairly among all 0MQ I/O threads in the thread pool\&. For non\-zero values, the lowest bit corresponds to thread 1, second lowest bit to thread 2 and so on\&. For example, a value of 3 specifies that subsequent connections on \fIsocket\fR shall be handled exclusively by I/O threads 1 and 2\&. .sp See also \fBzmq_init\fR(3) for details on allocating the number of I/O threads for a specific \fIcontext\fR\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp uint64_t T} T{ .sp Option value unit T}:T{ .sp N/A (bitmap) T} T{ .sp Default value T}:T{ .sp 0 T} T{ .sp Applicable socket types T}:T{ .sp N/A T} .TE .sp 1 .SS "ZMQ_BACKLOG: Retrieve maximum length of the queue of outstanding connections" .sp The \fIZMQ_BACKLOG\fR option shall retrieve the maximum length of the queue of outstanding peer connections for the specified \fIsocket\fR; this only applies to connection\-oriented transports\&. For details refer to your operating system documentation for the \fIlisten\fR function\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp connections T} T{ .sp Default value T}:T{ .sp 100 T} T{ .sp Applicable socket types T}:T{ .sp all, only for connection\-oriented transports T} .TE .sp 1 .SS "ZMQ_BINDTODEVICE: Retrieve name of device the socket is bound to" .sp The \fIZMQ_BINDTODEVICE\fR option retrieves the name of the device this socket is bound to, eg\&. an interface or VRF\&. If a socket is bound to an interface, only packets received from that interface are processed by the socket\&. If device is a VRF device, then subsequent binds/connects to that socket use addresses in the VRF routing table\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp character string T} T{ .sp Option value unit T}:T{ .sp N/A T} T{ .sp Default value T}:T{ .sp not set T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP or UDP transports\&. T} .TE .sp 1 .SS "ZMQ_CONNECT_TIMEOUT: Retrieve connect() timeout" .sp Retrieves how long to wait before timing\-out a connect() system call\&. The connect() system call normally takes a long time before it returns a time out error\&. Setting this option allows the library to time out the call at an earlier interval\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp milliseconds T} T{ .sp Default value T}:T{ .sp 0 (disabled) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transports\&. T} .TE .sp 1 .SS "ZMQ_CURVE_PUBLICKEY: Retrieve current CURVE public key" .sp Retrieves the current long term public key for the socket\&. You can provide either a 32 byte buffer, to retrieve the binary key value, or a 41 byte buffer, to retrieve the key in a printable Z85 format\&. NOTE: to fetch a printable key, the buffer must be 41 bytes large to hold the 40\-char key value and one null byte\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp binary data or Z85 text string T} T{ .sp Option value size T}:T{ .sp 32 or 41 T} T{ .sp Default value T}:T{ .sp null T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transport T} .TE .sp 1 .SS "ZMQ_CURVE_SECRETKEY: Retrieve current CURVE secret key" .sp Retrieves the current long term secret key for the socket\&. You can provide either a 32 byte buffer, to retrieve the binary key value, or a 41 byte buffer, to retrieve the key in a printable Z85 format\&. NOTE: to fetch a printable key, the buffer must be 41 bytes large to hold the 40\-char key value and one null byte\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp binary data or Z85 text string T} T{ .sp Option value size T}:T{ .sp 32 or 41 T} T{ .sp Default value T}:T{ .sp null T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transport T} .TE .sp 1 .SS "ZMQ_CURVE_SERVERKEY: Retrieve current CURVE server key" .sp Retrieves the current server key for the client socket\&. You can provide either a 32 byte buffer, to retrieve the binary key value, or a 41\-byte buffer, to retrieve the key in a printable Z85 format\&. NOTE: to fetch a printable key, the buffer must be 41 bytes large to hold the 40\-char key value and one null byte\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp binary data or Z85 text string T} T{ .sp Option value size T}:T{ .sp 32 or 41 T} T{ .sp Default value T}:T{ .sp null T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transport T} .TE .sp 1 .SS "ZMQ_EVENTS: Retrieve socket event state" .sp The \fIZMQ_EVENTS\fR option shall retrieve the event state for the specified \fIsocket\fR\&. The returned value is a bit mask constructed by OR\(cqing a combination of the following event flags: .PP \fBZMQ_POLLIN\fR .RS 4 Indicates that at least one message may be received from the specified socket without blocking\&. .RE .PP \fBZMQ_POLLOUT\fR .RS 4 Indicates that at least one message may be sent to the specified socket without blocking\&. .RE .sp The combination of a file descriptor returned by the \fIZMQ_FD\fR option being ready for reading but no actual events returned by a subsequent retrieval of the \fIZMQ_EVENTS\fR option is valid; applications should simply ignore this case and restart their polling operation/event loop\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp N/A (flags) T} T{ .sp Default value T}:T{ .sp N/A T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_FD: Retrieve file descriptor associated with the socket" .sp The \fIZMQ_FD\fR option shall retrieve the file descriptor associated with the specified \fIsocket\fR\&. The returned file descriptor can be used to integrate the socket into an existing event loop; the 0MQ library shall signal any pending events on the socket in an \fIedge\-triggered\fR fashion by making the file descriptor become ready for reading\&. .if n \{\ .sp .\} .RS 4 .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .ps +1 \fBNote\fR .ps -1 .br .sp The ability to read from the returned file descriptor does not necessarily indicate that messages are available to be read from, or can be written to, the underlying socket; applications must retrieve the actual event state with a subsequent retrieval of the \fIZMQ_EVENTS\fR option\&. .sp .5v .RE .if n \{\ .sp .\} .RS 4 .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .ps +1 \fBNote\fR .ps -1 .br .sp The returned file descriptor is also used internally by the \fIzmq_send\fR and \fIzmq_recv\fR functions\&. As the descriptor is edge triggered, applications must update the state of \fIZMQ_EVENTS\fR after each invocation of \fIzmq_send\fR or \fIzmq_recv\fR\&.To be more explicit: after calling \fIzmq_send\fR the socket may become readable (and vice versa) without triggering a read event on the file descriptor\&. .sp .5v .RE .if n \{\ .sp .\} .RS 4 .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .ps +1 \fBCaution\fR .ps -1 .br .sp The returned file descriptor is intended for use with a \fIpoll\fR or similar system call only\&. Applications must never attempt to read or write data to it directly, neither should they try to close it\&. .sp .5v .RE .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int on POSIX systems, SOCKET on Windows T} T{ .sp Option value unit T}:T{ .sp N/A T} T{ .sp Default value T}:T{ .sp N/A T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_GSSAPI_PLAINTEXT: Retrieve GSSAPI plaintext or encrypted status" .sp Returns the \fIZMQ_GSSAPI_PLAINTEXT\fR option, if any, previously set on the socket\&. A value of \fI1\fR means that communications will be plaintext\&. A value of \fI0\fR means communications will be encrypted\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp 0, 1 T} T{ .sp Default value T}:T{ .sp 0 (false) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP or IPC transports T} .TE .sp 1 .SS "ZMQ_GSSAPI_PRINCIPAL: Retrieve the name of the GSSAPI principal" .sp The \fIZMQ_GSSAPI_PRINCIPAL\fR option shall retrieve the principal name set for the GSSAPI security mechanism\&. The returned value shall be a NULL\-terminated string and MAY be empty\&. The returned size SHALL include the terminating null byte\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp NULL\-terminated character string T} T{ .sp Option value unit T}:T{ .sp N/A T} T{ .sp Default value T}:T{ .sp null string T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP or IPC transports T} .TE .sp 1 .SS "ZMQ_GSSAPI_SERVER: Retrieve current GSSAPI server role" .sp Returns the \fIZMQ_GSSAPI_SERVER\fR option, if any, previously set on the socket\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp 0, 1 T} T{ .sp Default value T}:T{ .sp 0 (false) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP or IPC transports T} .TE .sp 1 .SS "ZMQ_GSSAPI_SERVICE_PRINCIPAL: Retrieve the name of the GSSAPI service principal" .sp The \fIZMQ_GSSAPI_SERVICE_PRINCIPAL\fR option shall retrieve the principal name of the GSSAPI server to which a GSSAPI client socket intends to connect\&. The returned value shall be a NULL\-terminated string and MAY be empty\&. The returned size SHALL include the terminating null byte\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp NULL\-terminated character string T} T{ .sp Option value unit T}:T{ .sp N/A T} T{ .sp Default value T}:T{ .sp null string T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP or IPC transports T} .TE .sp 1 .SS "ZMQ_GSSAPI_SERVICE_PRINCIPAL_NAMETYPE: Retrieve nametype for service principal" .sp Returns the \fIZMQ_GSSAPI_SERVICE_PRINCIPAL_NAMETYPE\fR option, if any, previously set on the socket\&. A value of \fIZMQ_GSSAPI_NT_HOSTBASED\fR (0) means the name specified with \fIZMQ_GSSAPI_SERVICE_PRINCIPAL\fR is interpreted as a host based name\&. A value of \fIZMQ_GSSAPI_NT_USER_NAME\fR (1) means it is interpreted as a local user name\&. A value of \fIZMQ_GSSAPI_NT_KRB5_PRINCIPAL\fR (2) means it is interpreted as an unparsed principal name string (valid only with the krb5 GSSAPI mechanism)\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp 0, 1, 2 T} T{ .sp Default value T}:T{ .sp 0 (ZMQ_GSSAPI_NT_HOSTBASED) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP or IPC transports T} .TE .sp 1 .SS "ZMQ_GSSAPI_PRINCIPAL_NAMETYPE: Retrieve nametype for service principal" .sp Returns the \fIZMQ_GSSAPI_PRINCIPAL_NAMETYPE\fR option, if any, previously set on the socket\&. A value of \fIZMQ_GSSAPI_NT_HOSTBASED\fR (0) means the name specified with \fIZMQ_GSSAPI_PRINCIPAL\fR is interpreted as a host based name\&. A value of \fIZMQ_GSSAPI_NT_USER_NAME\fR (1) means it is interpreted as a local user name\&. A value of \fIZMQ_GSSAPI_NT_KRB5_PRINCIPAL\fR (2) means it is interpreted as an unparsed principal name string (valid only with the krb5 GSSAPI mechanism)\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp 0, 1, 2 T} T{ .sp Default value T}:T{ .sp 0 (ZMQ_GSSAPI_NT_HOSTBASED) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP or IPC transports T} .TE .sp 1 .SS "ZMQ_HANDSHAKE_IVL: Retrieve maximum handshake interval" .sp The \fIZMQ_HANDSHAKE_IVL\fR option shall retrieve the maximum handshake interval for the specified \fIsocket\fR\&. Handshaking is the exchange of socket configuration information (socket type, routing id, security) that occurs when a connection is first opened, only for connection\-oriented transports\&. If handshaking does not complete within the configured time, the connection shall be closed\&. The value 0 means no handshake time limit\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp milliseconds T} T{ .sp Default value T}:T{ .sp 30000 T} T{ .sp Applicable socket types T}:T{ .sp all but ZMQ_STREAM, only for connection\-oriented transports T} .TE .sp 1 .SS "ZMQ_IDENTITY: Retrieve socket identity" .sp This option name is now deprecated\&. Use ZMQ_ROUTING_ID instead\&. ZMQ_IDENTITY remains as an alias for now\&. .SS "ZMQ_IMMEDIATE: Retrieve attach\-on\-connect value" .sp Retrieve the state of the attach on connect value\&. If set to 1, will delay the attachment of a pipe on connect until the underlying connection has completed\&. This will cause the socket to block if there are no other connections, but will prevent queues from filling on pipes awaiting connection\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp boolean T} T{ .sp Default value T}:T{ .sp 0 (false) T} T{ .sp Applicable socket types T}:T{ .sp all, primarily when using TCP/IPC transports\&. T} .TE .sp 1 .SS "ZMQ_INVERT_MATCHING: Retrieve inverted filtering status" .sp Returns the value of the \fIZMQ_INVERT_MATCHING\fR option\&. A value of 1 means the socket uses inverted prefix matching\&. .sp On \fIPUB\fR and \fIXPUB\fR sockets, this causes messages to be sent to all connected sockets \fIexcept\fR those subscribed to a prefix that matches the message\&. On \fISUB\fR sockets, this causes only incoming messages that do \fInot\fR match any of the socket\(cqs subscriptions to be received by the user\&. .sp Whenever \fIZMQ_INVERT_MATCHING\fR is set to 1 on a \fIPUB\fR socket, all \fISUB\fR sockets connecting to it must also have the option set to 1\&. Failure to do so will have the \fISUB\fR sockets reject everything the \fIPUB\fR socket sends them\&. \fIXSUB\fR sockets do not need to do this because they do not filter incoming messages\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp 0,1 T} T{ .sp Default value T}:T{ .sp 0 T} T{ .sp Applicable socket types T}:T{ .sp ZMQ_PUB, ZMQ_XPUB, ZMQ_SUB T} .TE .sp 1 .SS "ZMQ_IPV4ONLY: Retrieve IPv4\-only socket override status" .sp Retrieve the IPv4\-only option for the socket\&. This option is deprecated\&. Please use the ZMQ_IPV6 option\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp boolean T} T{ .sp Default value T}:T{ .sp 1 (true) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transports\&. T} .TE .sp 1 .SS "ZMQ_IPV6: Retrieve IPv6 socket status" .sp Retrieve the IPv6 option for the socket\&. A value of 1 means IPv6 is enabled on the socket, while 0 means the socket will use only IPv4\&. When IPv6 is enabled the socket will connect to, or accept connections from, both IPv4 and IPv6 hosts\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp boolean T} T{ .sp Default value T}:T{ .sp 0 (false) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transports\&. T} .TE .sp 1 .SS "ZMQ_LAST_ENDPOINT: Retrieve the last endpoint set" .sp The \fIZMQ_LAST_ENDPOINT\fR option shall retrieve the last endpoint bound for TCP and IPC transports\&. The returned value will be a string in the form of a ZMQ DSN\&. Note that if the TCP host is INADDR_ANY, indicated by a *, then the returned address will be 0\&.0\&.0\&.0 (for IPv4)\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp NULL\-terminated character string T} T{ .sp Option value unit T}:T{ .sp N/A T} T{ .sp Default value T}:T{ .sp NULL T} T{ .sp Applicable socket types T}:T{ .sp all, when binding TCP or IPC transports T} .TE .sp 1 .SS "ZMQ_LINGER: Retrieve linger period for socket shutdown" .sp The \fIZMQ_LINGER\fR option shall retrieve the linger period for the specified \fIsocket\fR\&. The linger period determines how long pending messages which have yet to be sent to a peer shall linger in memory after a socket is closed with \fBzmq_close\fR(3), and further affects the termination of the socket\(cqs context with \fBzmq_ctx_term\fR(3)\&. The following outlines the different behaviours: .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} The default value of \fI\-1\fR specifies an infinite linger period\&. Pending messages shall not be discarded after a call to \fIzmq_close()\fR; attempting to terminate the socket\(cqs context with \fIzmq_ctx_term()\fR shall block until all pending messages have been sent to a peer\&. .RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} The value of \fI0\fR specifies no linger period\&. Pending messages shall be discarded immediately when the socket is closed with \fIzmq_close()\fR\&. .RE .sp .RS 4 .ie n \{\ \h'-04'\(bu\h'+03'\c .\} .el \{\ .sp -1 .IP \(bu 2.3 .\} Positive values specify an upper bound for the linger period in milliseconds\&. Pending messages shall not be discarded after a call to \fIzmq_close()\fR; attempting to terminate the socket\(cqs context with \fIzmq_ctx_term()\fR shall block until either all pending messages have been sent to a peer, or the linger period expires, after which any pending messages shall be discarded\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ Option value type T}:T{ int T} T{ Option value unit T}:T{ milliseconds T} T{ Default value T}:T{ \-1 (infinite) T} T{ Applicable socket types T}:T{ all T} .TE .sp 1 .RE .SS "ZMQ_MAXMSGSIZE: Maximum acceptable inbound message size" .sp The option shall retrieve limit for the inbound messages\&. If a peer sends a message larger than ZMQ_MAXMSGSIZE it is disconnected\&. Value of \-1 means \fIno limit\fR\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int64_t T} T{ .sp Option value unit T}:T{ .sp bytes T} T{ .sp Default value T}:T{ .sp \-1 T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_MECHANISM: Retrieve current security mechanism" .sp The \fIZMQ_MECHANISM\fR option shall retrieve the current security mechanism for the socket\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp ZMQ_NULL, ZMQ_PLAIN, ZMQ_CURVE, or ZMQ_GSSAPI T} T{ .sp Default value T}:T{ .sp ZMQ_NULL T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP or IPC transports T} .TE .sp 1 .SS "ZMQ_MULTICAST_HOPS: Maximum network hops for multicast packets" .sp The option shall retrieve time\-to\-live used for outbound multicast packets\&. The default of 1 means that the multicast packets don\(cqt leave the local network\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp network hops T} T{ .sp Default value T}:T{ .sp 1 T} T{ .sp Applicable socket types T}:T{ .sp all, when using multicast transports T} .TE .sp 1 .SS "ZMQ_MULTICAST_MAXTPDU: Maximum transport data unit size for multicast packets" .sp The \fIZMQ_MULTICAST_MAXTPDU\fR option shall retrieve the maximum transport data unit size used for outbound multicast packets\&. .sp This must be set at or below the minimum Maximum Transmission Unit (MTU) for all network paths over which multicast reception is required\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp bytes T} T{ .sp Default value T}:T{ .sp 1500 T} T{ .sp Applicable socket types T}:T{ .sp all, when using multicast transports T} .TE .sp 1 .SS "ZMQ_PLAIN_PASSWORD: Retrieve current password" .sp The \fIZMQ_PLAIN_PASSWORD\fR option shall retrieve the last password set for the PLAIN security mechanism\&. The returned value shall be a NULL\-terminated string and MAY be empty\&. The returned size SHALL include the terminating null byte\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp NULL\-terminated character string T} T{ .sp Option value unit T}:T{ .sp N/A T} T{ .sp Default value T}:T{ .sp null string T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP or IPC transports T} .TE .sp 1 .SS "ZMQ_PLAIN_SERVER: Retrieve current PLAIN server role" .sp Returns the \fIZMQ_PLAIN_SERVER\fR option, if any, previously set on the socket\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp 0, 1 T} T{ .sp Default value T}:T{ .sp int T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP or IPC transports T} .TE .sp 1 .SS "ZMQ_PLAIN_USERNAME: Retrieve current PLAIN username" .sp The \fIZMQ_PLAIN_USERNAME\fR option shall retrieve the last username set for the PLAIN security mechanism\&. The returned value shall be a NULL\-terminated string and MAY be empty\&. The returned size SHALL include the terminating null byte\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp NULL\-terminated character string T} T{ .sp Option value unit T}:T{ .sp N/A T} T{ .sp Default value T}:T{ .sp null string T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP or IPC transports T} .TE .sp 1 .SS "ZMQ_USE_FD: Retrieve the pre\-allocated socket file descriptor" .sp The \fIZMQ_USE_FD\fR option shall retrieve the pre\-allocated file descriptor that has been assigned to a ZMQ socket, if any\&. \-1 shall be returned if a pre\-allocated file descriptor was not set for the socket\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp file descriptor T} T{ .sp Default value T}:T{ .sp \-1 T} T{ .sp Applicable socket types T}:T{ .sp all bound sockets, when using IPC or TCP transport T} .TE .sp 1 .SS "ZMQ_RATE: Retrieve multicast data rate" .sp The \fIZMQ_RATE\fR option shall retrieve the maximum send or receive data rate for multicast transports using the specified \fIsocket\fR\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp kilobits per second T} T{ .sp Default value T}:T{ .sp 100 T} T{ .sp Applicable socket types T}:T{ .sp all, when using multicast transports T} .TE .sp 1 .SS "ZMQ_RCVBUF: Retrieve kernel receive buffer size" .sp The \fIZMQ_RCVBUF\fR option shall retrieve the underlying kernel receive buffer size for the specified \fIsocket\fR\&. For details refer to your operating system documentation for the \fISO_RCVBUF\fR socket option\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp bytes T} T{ .sp Default value T}:T{ .sp 8192 T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_RCVHWM: Retrieve high water mark for inbound messages" .sp The \fIZMQ_RCVHWM\fR option shall return the high water mark for inbound messages on the specified \fIsocket\fR\&. The high water mark is a hard limit on the maximum number of outstanding messages 0MQ shall queue in memory for any single peer that the specified \fIsocket\fR is communicating with\&. A value of zero means no limit\&. .sp If this limit has been reached the socket shall enter an exceptional state and depending on the socket type, 0MQ shall take appropriate action such as blocking or dropping sent messages\&. Refer to the individual socket descriptions in \fBzmq_socket\fR(3) for details on the exact action taken for each socket type\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp messages T} T{ .sp Default value T}:T{ .sp 1000 T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_RCVMORE: More message data parts to follow" .sp The \fIZMQ_RCVMORE\fR option shall return True (1) if the message part last received from the \fIsocket\fR was a data part with more parts to follow\&. If there are no data parts to follow, this option shall return False (0)\&. .sp Refer to \fBzmq_send\fR(3) and \fBzmq_recv\fR(3) for a detailed description of multi\-part messages\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp boolean T} T{ .sp Default value T}:T{ .sp N/A T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_RCVTIMEO: Maximum time before a socket operation returns with EAGAIN" .sp Retrieve the timeout for recv operation on the socket\&. If the value is 0, \fIzmq_recv(3)\fR will return immediately, with a EAGAIN error if there is no message to receive\&. If the value is \-1, it will block until a message is available\&. For all other values, it will wait for a message for that amount of time before returning with an EAGAIN error\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp milliseconds T} T{ .sp Default value T}:T{ .sp \-1 (infinite) T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_RECONNECT_IVL: Retrieve reconnection interval" .sp The \fIZMQ_RECONNECT_IVL\fR option shall retrieve the initial reconnection interval for the specified \fIsocket\fR\&. The reconnection interval is the period 0MQ shall wait between attempts to reconnect disconnected peers when using connection\-oriented transports\&. The value \-1 means no reconnection\&. .if n \{\ .sp .\} .RS 4 .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .ps +1 \fBNote\fR .ps -1 .br .sp The reconnection interval may be randomized by 0MQ to prevent reconnection storms in topologies with a large number of peers per socket\&. .sp .5v .RE .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp milliseconds T} T{ .sp Default value T}:T{ .sp 100 T} T{ .sp Applicable socket types T}:T{ .sp all, only for connection\-oriented transports T} .TE .sp 1 .SS "ZMQ_RECONNECT_IVL_MAX: Retrieve maximum reconnection interval" .sp The \fIZMQ_RECONNECT_IVL_MAX\fR option shall retrieve the maximum reconnection interval for the specified \fIsocket\fR\&. This is the maximum period 0MQ shall wait between attempts to reconnect\&. On each reconnect attempt, the previous interval shall be doubled untill ZMQ_RECONNECT_IVL_MAX is reached\&. This allows for exponential backoff strategy\&. Default value means no exponential backoff is performed and reconnect interval calculations are only based on ZMQ_RECONNECT_IVL\&. .if n \{\ .sp .\} .RS 4 .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .ps +1 \fBNote\fR .ps -1 .br .sp Values less than ZMQ_RECONNECT_IVL will be ignored\&. .sp .5v .RE .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp milliseconds T} T{ .sp Default value T}:T{ .sp 0 (only use ZMQ_RECONNECT_IVL) T} T{ .sp Applicable socket types T}:T{ .sp all, only for connection\-oriented transport T} .TE .sp 1 .SS "ZMQ_RECOVERY_IVL: Get multicast recovery interval" .sp The \fIZMQ_RECOVERY_IVL\fR option shall retrieve the recovery interval for multicast transports using the specified \fIsocket\fR\&. The recovery interval determines the maximum time in milliseconds that a receiver can be absent from a multicast group before unrecoverable data loss will occur\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp milliseconds T} T{ .sp Default value T}:T{ .sp 10000 T} T{ .sp Applicable socket types T}:T{ .sp all, when using multicast transports T} .TE .sp 1 .SS "ZMQ_ROUTING_ID: Retrieve socket routing id" .sp The \fIZMQ_ROUTING_ID\fR option shall retrieve the routing id of the specified \fIsocket\fR\&. Routing ids are used only by the request/reply pattern\&. Specifically, it can be used in tandem with ROUTER socket to route messages to the peer with a specific routing id\&. .sp A routing id must be at least one byte and at most 255 bytes long\&. Identities starting with a zero byte are reserved for use by the 0MQ infrastructure\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp binary data T} T{ .sp Option value unit T}:T{ .sp N/A T} T{ .sp Default value T}:T{ .sp NULL T} T{ .sp Applicable socket types T}:T{ .sp ZMQ_REP, ZMQ_REQ, ZMQ_ROUTER, ZMQ_DEALER\&. T} .TE .sp 1 .SS "ZMQ_SNDBUF: Retrieve kernel transmit buffer size" .sp The \fIZMQ_SNDBUF\fR option shall retrieve the underlying kernel transmit buffer size for the specified \fIsocket\fR\&. For details refer to your operating system documentation for the \fISO_SNDBUF\fR socket option\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp bytes T} T{ .sp Default value T}:T{ .sp 8192 T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_SNDHWM: Retrieves high water mark for outbound messages" .sp The \fIZMQ_SNDHWM\fR option shall return the high water mark for outbound messages on the specified \fIsocket\fR\&. The high water mark is a hard limit on the maximum number of outstanding messages 0MQ shall queue in memory for any single peer that the specified \fIsocket\fR is communicating with\&. A value of zero means no limit\&. .sp If this limit has been reached the socket shall enter an exceptional state and depending on the socket type, 0MQ shall take appropriate action such as blocking or dropping sent messages\&. Refer to the individual socket descriptions in \fBzmq_socket\fR(3) for details on the exact action taken for each socket type\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp messages T} T{ .sp Default value T}:T{ .sp 1000 T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_SNDTIMEO: Maximum time before a socket operation returns with EAGAIN" .sp Retrieve the timeout for send operation on the socket\&. If the value is 0, \fIzmq_send(3)\fR will return immediately, with a EAGAIN error if the message cannot be sent\&. If the value is \-1, it will block until the message is sent\&. For all other values, it will try to send the message for that amount of time before returning with an EAGAIN error\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp milliseconds T} T{ .sp Default value T}:T{ .sp \-1 (infinite) T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_SOCKS_PROXY: Retrieve SOCKS5 proxy address" .sp The \fIZMQ_SOCKS_PROXY\fR option shall retrieve the SOCKS5 proxy address in string format\&. The returned value shall be a NULL\-terminated string and MAY be empty\&. The returned size SHALL include the terminating null byte\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp NULL\-terminated character string T} T{ .sp Option value unit T}:T{ .sp N/A T} T{ .sp Default value T}:T{ .sp null string T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transports T} .TE .sp 1 .SS "ZMQ_TCP_KEEPALIVE: Override SO_KEEPALIVE socket option" .sp Override \fISO_KEEPALIVE\fR socket option(where supported by OS)\&. The default value of \-1 means to skip any overrides and leave it to OS default\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp \-1,0,1 T} T{ .sp Default value T}:T{ .sp \-1 (leave to OS default) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transports\&. T} .TE .sp 1 .SS "ZMQ_TCP_KEEPALIVE_CNT: Override TCP_KEEPCNT socket option" .sp Override \fITCP_KEEPCNT\fR socket option(where supported by OS)\&. The default value of \-1 means to skip any overrides and leave it to OS default\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp \-1,>0 T} T{ .sp Default value T}:T{ .sp \-1 (leave to OS default) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transports\&. T} .TE .sp 1 .SS "ZMQ_TCP_KEEPALIVE_IDLE: Override TCP_KEEPIDLE (or TCP_KEEPALIVE on some OS)" .sp Override \fITCP_KEEPIDLE\fR(or \fITCP_KEEPALIVE\fR on some OS) socket option (where supported by OS)\&. The default value of \-1 means to skip any overrides and leave it to OS default\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp \-1,>0 T} T{ .sp Default value T}:T{ .sp \-1 (leave to OS default) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transports\&. T} .TE .sp 1 .SS "ZMQ_TCP_KEEPALIVE_INTVL: Override TCP_KEEPINTVL socket option" .sp Override \fITCP_KEEPINTVL\fR socket option(where supported by OS)\&. The default value of \-1 means to skip any overrides and leave it to OS default\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp \-1,>0 T} T{ .sp Default value T}:T{ .sp \-1 (leave to OS default) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transports\&. T} .TE .sp 1 .SS "ZMQ_TCP_MAXRT: Retrieve Max TCP Retransmit Timeout" .sp On OSes where it is supported, retrieves how long before an unacknowledged TCP retransmit times out\&. The system normally attempts many TCP retransmits following an exponential backoff strategy\&. This means that after a network outage, it may take a long time before the session can be re\-established\&. Setting this option allows the timeout to happen at a shorter interval\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp milliseconds T} T{ .sp Default value T}:T{ .sp 0 (leave to OS default) T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transports\&. T} .TE .sp 1 .SS "ZMQ_THREAD_SAFE: Retrieve socket thread safety" .sp The \fIZMQ_THREAD_SAFE\fR option shall retrieve a boolean value indicating whether or not the socket is threadsafe\&. Currently \fIZMQ_CLIENT\fR and \fIZMQ_SERVER\fR sockets are threadsafe\&. .TS tab(:); lt lt lt lt. T{ .sp Option value type T}:T{ .sp boolean T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_TOS: Retrieve the Type\-of\-Service socket override status" .sp Retrieve the IP_TOS option for the socket\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp >0 T} T{ .sp Default value T}:T{ .sp 0 T} T{ .sp Applicable socket types T}:T{ .sp all, only for connection\-oriented transports T} .TE .sp 1 .SS "ZMQ_TYPE: Retrieve socket type" .sp The \fIZMQ_TYPE\fR option shall retrieve the socket type for the specified \fIsocket\fR\&. The socket type is specified at socket creation time and cannot be modified afterwards\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp N/A T} T{ .sp Default value T}:T{ .sp N/A T} T{ .sp Applicable socket types T}:T{ .sp all T} .TE .sp 1 .SS "ZMQ_ZAP_DOMAIN: Retrieve RFC 27 authentication domain" .sp The \fIZMQ_ZAP_DOMAIN\fR option shall retrieve the last ZAP domain set for the socket\&. The returned value shall be a NULL\-terminated string and MAY be empty\&. An empty string means that ZAP authentication is disabled\&. The returned size SHALL include the terminating null byte\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp character string T} T{ .sp Option value unit T}:T{ .sp N/A T} T{ .sp Default value T}:T{ .sp not set T} T{ .sp Applicable socket types T}:T{ .sp all, when using TCP transport T} .TE .sp 1 .SS "ZMQ_ZAP_ENFORCE_DOMAIN: Retrieve ZAP domain handling mode" .sp The \fIZMQ_ZAP_ENFORCE_DOMAIN\fR option shall retrieve the flag that determines whether a ZAP domain is strictly required or not\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp 0, 1 T} T{ .sp Default value T}:T{ .sp 0 T} T{ .sp Applicable socket types T}:T{ .sp all, when using ZAP T} .TE .sp 1 .SS "ZMQ_VMCI_BUFFER_SIZE: Retrieve buffer size of the VMCI socket" .sp The ZMQ_VMCI_BUFFER_SIZE option shall retrieve the size of the underlying buffer for the socket\&. Used during negotiation before the connection is established\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp uint64_t T} T{ .sp Option value unit T}:T{ .sp bytes T} T{ .sp Default value T}:T{ .sp 65546 T} T{ .sp Applicable socket types T}:T{ .sp all, when using VMCI transport T} .TE .sp 1 .SS "ZMQ_VMCI_BUFFER_MIN_SIZE: Retrieve min buffer size of the VMCI socket" .sp The ZMQ_VMCI_BUFFER_MIN_SIZE option shall retrieve the min size of the underlying buffer for the socket\&. Used during negotiation before the connection is established\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp uint64_t T} T{ .sp Option value unit T}:T{ .sp bytes T} T{ .sp Default value T}:T{ .sp 128 T} T{ .sp Applicable socket types T}:T{ .sp all, when using VMCI transport T} .TE .sp 1 .SS "ZMQ_VMCI_BUFFER_MAX_SIZE: Retrieve max buffer size of the VMCI socket" .sp The ZMQ_VMCI_BUFFER_MAX_SIZE option shall retrieve the max size of the underlying buffer for the socket\&. Used during negotiation before the connection is established\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp uint64_t T} T{ .sp Option value unit T}:T{ .sp bytes T} T{ .sp Default value T}:T{ .sp 262144 T} T{ .sp Applicable socket types T}:T{ .sp all, when using VMCI transport T} .TE .sp 1 .SS "ZMQ_VMCI_CONNECT_TIMEOUT: Retrieve connection timeout of the VMCI socket" .sp The ZMQ_VMCI_CONNECT_TIMEOUT option shall retrieve connection timeout for the socket\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp milliseconds T} T{ .sp Default value T}:T{ .sp \-1 T} T{ .sp Applicable socket types T}:T{ .sp all, when using VMCI transport T} .TE .sp 1 .SS "ZMQ_MULTICAST_LOOP: Retrieve multicast local loopback configuration" .sp Retrieve the current multicast loopback configuration\&. A value of 1 means that the multicast packets sent on this socket will be looped back to local listening interface\&. .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp 0, 1 T} T{ .sp Default value T}:T{ .sp 1 T} T{ .sp Applicable socket types T}:T{ .sp ZMQ_RADIO, when using UDP multicast transport T} .TE .sp 1 .SS "ZMQ_ROUTER_NOTIFY: Retrieve router socket notification settings" .sp Retrieve the current notification settings of a router socket\&. The returned value is a bitmask composed of ZMQ_NOTIFY_CONNECT and ZMQ_NOTIFY_DISCONNECT flags, meaning connect and disconnect notifications are enabled, respectively\&. A value of \fI0\fR means the notifications are off\&. .if n \{\ .sp .\} .RS 4 .it 1 an-trap .nr an-no-space-flag 1 .nr an-break-flag 1 .br .ps +1 \fBNote\fR .ps -1 .br .sp in DRAFT state, not yet available in stable releases\&. .sp .5v .RE .TS tab(:); lt lt lt lt lt lt lt lt. T{ .sp Option value type T}:T{ .sp int T} T{ .sp Option value unit T}:T{ .sp 0, ZMQ_NOTIFY_CONNECT, ZMQ_NOTIFY_DISCONNECT, ZMQ_NOTIFY_CONNECT|ZMQ_NOTIFY_DISCONNECT T} T{ .sp Default value T}:T{ .sp 0 T} T{ .sp Applicable socket types T}:T{ .sp ZMQ_ROUTER T} .TE .sp 1 .SH "RETURN VALUE" .sp The \fIzmq_getsockopt()\fR function shall return zero if successful\&. Otherwise it shall return \-1 and set \fIerrno\fR to one of the values defined below\&. .SH "ERRORS" .PP \fBEINVAL\fR .RS 4 The requested option \fIoption_name\fR is unknown, or the requested \fIoption_len\fR or \fIoption_value\fR is invalid, or the size of the buffer pointed to by \fIoption_value\fR, as specified by \fIoption_len\fR, is insufficient for storing the option value\&. .RE .PP \fBETERM\fR .RS 4 The 0MQ \fIcontext\fR associated with the specified \fIsocket\fR was terminated\&. .RE .PP \fBENOTSOCK\fR .RS 4 The provided \fIsocket\fR was invalid\&. .RE .PP \fBEINTR\fR .RS 4 The operation was interrupted by delivery of a signal\&. .RE .SH "EXAMPLE" .PP \fBRetrieving the high water mark for outgoing messages\fR. .sp .if n \{\ .RS 4 .\} .nf /* Retrieve high water mark into sndhwm */ int sndhwm; size_t sndhwm_size = sizeof (sndhwm); rc = zmq_getsockopt (socket, ZMQ_SNDHWM, &sndhwm, &sndhwm_size); assert (rc == 0); .fi .if n \{\ .RE .\} .sp .SH "SEE ALSO" .sp \fBzmq_setsockopt\fR(3) \fBzmq_socket\fR(3) \fBzmq\fR(7) .SH "AUTHORS" .sp This page was written by the 0MQ community\&. To make a change please read the 0MQ Contribution Policy at \m[blue]\fBhttp://www\&.zeromq\&.org/docs:contributing\fR\m[]\&.