Provided by: libtaktuk-1-dev_3.7.7-3.1build1_amd64 
NAME
taktuk - Interface library to "taktuk(1)" communication facilities
SYNOPSIS
#include <taktuk.h>
const char *taktuk_error_msg(int msg_code);
int taktuk_init_threads();
int taktuk_leave_threads();
int taktuk_get(const char *field, unsigned long *result);
int taktuk_multi_send(const char *dest, const char *target,
const void *buffer, size_t length);
int taktuk_multi_sendv(const char *dest, const char *target,
const struct iovec *iov, int iovcnt);
int taktuk_send(unsigned long dest, unsigned long target,
const void *buffer, size_t length);
int taktuk_sendv(unsigned long dest, unsigned long target,
const struct iovec *iov, int iovcnt);
int taktuk_recv(unsigned long *from, void *buffer, size_t *length,
struct timeval *timeout);
int taktuk_recvv(unsigned long *from, const struct iovec *iov,
int iovcnt, struct timeval *timeout);
int taktuk_wait_message(unsigned long *from, size_t *size,
struct timeval *timeout);
int taktuk_read( void *buffer, size_t length );
int taktuk_readv( const struct iovec *iov, int iovcnt );
DESCRIPTION
The TakTuk communication layer interface library provides a way for programs executed using the taktuk(1)
command to exchange data. It is based on a simple send/receive model using multicast-like sends and
optionally timeouted receives. This is only designed to be a control facility, in particular this is not
a high performance communication library.
Any program using TakTuk C communication interface has to link his program to the "taktuk" and "pthread"
libraries (the "taktuk" library is provided with the distribution). Headers for communication functions
and constants definitions can be found in "taktuk.h" also provided with the distribution.
The communication functions are:
miscellaneous functions
int taktuk_init_threads();
int taktuk_leave_threads();
functions to be called once in the process respectively before threads creation and after threads
destruction if you want TakTuk C interface to be thread-safe.
Nevertheless, notice that, because of the way TakTuk is implemented, the handling of "recv" functions
in several threads is completely sequentialized. This is especially important regarding timeouts: if
a timeout is given to a "recv" function, it will only be started at the calling thread's turn. In
other words, issuing multiple timeouted "recv" in several threads of the same process might result in
timeouts longer that expected (they become at most the sum of all pending "recv" timeouts).
int taktuk_get(const char *field, unsigned long *result);
gets some information from TakTuk and places it into result. Currently available information are
"target", "rank", "count", "father", "child_min" and "child_max". This is a better way to get these
information than environment variables as its takes into account renumbering that might occur after
process spawn.
multicast send functions
int taktuk_multi_send(const char *dest, const char *target, const void *buffer, size_t length);
int taktuk_multi_sendv(const char *dest, const char *target, const struct iovec *iov, int iovcnt);
"taktuk_multi_send" sends the content of "buffer" made of "length" bytes to the set of target
processes "target" present on the set of destinations "dest" (nul terminated characters strings, see
taktuk(1) for information about set specifications for destination hosts and target processes).
"taktuk_multi_sendv" is the vector variant of "taktuk_multi_send" (similar to "writev" system
function).
single host send/recv functions
int taktuk_send(unsigned long dest, unsigned long target, const void *buffer, size_t length);
int taktuk_sendv(unsigned long dest, unsigned long target, const struct iovec *iov, int iovcnt);
sends the content of "buffer" made of "length" bytes to process "target" on the host "dest" (see
taktuk(1) for more information about target processes). In this case, the target value might also be
TAKTUK_TARGET_ANY to target the first process performing a "recv", TAKTUK_TARGET_ALL to target all
processes, or TAKTUK_TARGET_OUTPUT to target the "message" stream rather than a process.
"taktuk_sendv" is the vector variant of "taktuk_send" (similar to "writev" system function).
int taktuk_recv(unsigned long *from, void *buffer, size_t *length, struct timeval *timeout);
int taktuk_recvv(unsigned long *from, const struct iovec *iov, int iovcnt, struct timeval *timeout);
blocks until the reception of a message. If a regular message is received, "taktuk_recv" sets the
value of its arguments: "from" to the logical number of the sender, "buffer" to the data received
which is made of "length" bytes. If timeout is not NULL, taktuk_recv() might receive a timeout
notification. In this case, taktuk_recv() returns the TAKTUK_ETMOUT error code. "taktuk_recvv" is
the vector variant of "taktuk_recv" (similar to "readv" system function).
WARNING: the buffer size should be sufficient to receive all the data of the matching send. If this
is not the case, the program is likely to end up abruptly with a segmentation fault.
low-level recv functions
int taktuk_wait_message(unsigned long* from, size_t *size, struct timeval *timeout);
int taktuk_read (void* buffer, size_t length);
int taktuk_readv(const struct iovec *iov, int iovcnt);
"taktuk_wait_message" waits for a taktuk message to be available and sets "from" to the logical
number of the sender and "size" to the size of the received message. It must be followed by a call
to either "taktuk_read" or "taktuk_readv" to read the data (using the size given by
"taktuk_wait_message"). As other TakTuk receive functions, this function might return the
TAKTUK_ETMOUT error code if "timeout" is not NULL and expires before the reception.
If you don't know in advance the size of the data being sent to you, you can use these lower level
functions. Actually, "taktuk_recv" is equivalent to a call to "taktuk_wait_message" followed by
errors checks on buffer size and a call to "taktuk_read". This is the same for "taktuk_recvv".
RETURN VALUE
When an error occur, all of these functions return one of the following numeric error code. A textual
description of the error is provided by the function taktuk_error_msg() that takes the error code as an
argument.
Error codes are the following :
TAKTUK_ESWRIT
a call to write(2) failed. The code should be accessible using "errno".
TAKTUK_EFCLSD
the communication channel to the TakTuk engine has been closed. This typically occur when shutting
down the logical network (using Ctrl-C on root node for instance).
TAKTUK_ESREAD (receives only)
a call to read(2) failed. The code should be accessible using "errno".
TAKTUK_ETMOUT (receives only)
The call to taktuk_recv() (or its vectorized equivalent) or to "taktuk_wait_message" timeouted. This
only occur when giving a non nul "timeout" value to these functions.
TAKTUK_EALLOC
An internal memory allocation failure occurred.
TAKTUK_EIBUFF
A buffer of incorrect size has been given to store all the data read by a receive function.
TAKTUK_ENOCON
The connector communication channels have not been found. This typically occur when launching a
TakTuk program without using TakTuk.
TAKTUK_EINVAL (get only)
The field given to "taktuk_get" is not a valid TakTuk field.
TAKTUK_EMTXNM (init threads only)
No memory to allocate a new mutex
TAKTUK_EMTXAG (init threads only)
Resources temporarily unavailable for new mutex allocation.
Other error codes are internal TakTuk errors which should strongly suggest a bug in TakTuk. They have
also a textual description that is returned by "taktuk_error_msg".
SEE ALSO
tatkuk(1), TakTuk(3), TakTuk::Pilot(3)
AUTHOR
The original concept of TakTuk has been proposed by Cyrille Martin in his PhD thesis. People involved in
this work include Jacques Briat, Olivier Richard, Thierry Gautier and Guillaume Huard.
The author of the version 3 (perl version) and current maintainer of the package is Guillaume Huard.
COPYRIGHT
The "taktukcomm" communication interface library is provided under the terms of the GNU General Public
License version 2 or later.
perl v5.38.2 2024-04-01 TAKTUK(3)