git clone git://github.com/jedisct1/libsodium.git
cd libsodium
./autogen.sh
./configure && make check
sudo make install
sudo ldconfig
cd ..

git clone git://github.com/zeromq/libzmq.git
cd libzmq
./autogen.sh
./configure && make check
sudo make install
sudo ldconfig
cd ..

git clone git://github.com/zeromq/czmq.git
cd czmq
./autogen.sh
./configure && make check
sudo make install
sudo ldconfig
cd ..

#   Building libzmq in our home directory
./configure --prefix=$HOME/local

export CFLAGS=-I$HOME/local/include
export LDFLAGS=-L$HOME/local/lib64
./configure

make check

gcc -lczmq -lzmq myapp.c -o myapp

//  Actors get a pipe and arguments from caller
typedef void (zactor_fn) (zsock_t *pipe, void *args);

//  Create a new actor passing arbitrary arguments reference.
CZMQ_EXPORT zactor_t *
    zactor_new (zactor_fn *task, void *args);

//  Destroy an actor.
CZMQ_EXPORT void
    zactor_destroy (zactor_t **p_self);

//  Send a zmsg message to the actor, take ownership of the message
//  and destroy when it has been sent.
CZMQ_EXPORT int
    zactor_send (zactor_t *self, zmsg_t **msg_p);

//  Receive a zmsg message from the actor. Returns NULL if the actor
//  was interrupted before the message could be received, or if there
//  was a timeout on the actor.
CZMQ_EXPORT zmsg_t *
    zactor_recv (zactor_t *self);

//  Probe the supplied object, and report if it looks like a zactor_t.
CZMQ_EXPORT bool
    zactor_is (void *self);

//  Probe the supplied reference. If it looks like a zactor_t instance,
//  return the underlying libzmq actor handle; else if it looks like
//  a libzmq actor handle, return the supplied value.
CZMQ_EXPORT void *
    zactor_resolve (void *self);

//  Self test of this class
CZMQ_EXPORT void
    zactor_test (bool verbose);

#define CURVE_ALLOW_ANY "*"

//  Constructor
//  Install authentication for the specified context. Returns a new zauth
//  object that you can use to configure authentication. Note that until you
//  add policies, all incoming NULL connections are allowed (classic ZeroMQ
//  behaviour), and all PLAIN and CURVE connections are denied. If there was
//  an error during initialization, returns NULL.
CZMQ_EXPORT zauth_t *
    zauth_new (zctx_t *ctx);
    
//  Allow (whitelist) a single IP address. For NULL, all clients from this
//  address will be accepted. For PLAIN and CURVE, they will be allowed to
//  continue with authentication. You can call this method multiple times 
//  to whitelist multiple IP addresses. If you whitelist a single address,
//  any non-whitelisted addresses are treated as blacklisted.
CZMQ_EXPORT void
    zauth_allow (zauth_t *self, const char *address);

//  Deny (blacklist) a single IP address. For all security mechanisms, this
//  rejects the connection without any further authentication. Use either a
//  whitelist, or a blacklist, not not both. If you define both a whitelist 
//  and a blacklist, only the whitelist takes effect.
CZMQ_EXPORT void
    zauth_deny (zauth_t *self, const char *address);

//  Configure PLAIN authentication for a given domain. PLAIN authentication
//  uses a plain-text password file. To cover all domains, use "*". You can
//  modify the password file at any time; it is reloaded automatically.
CZMQ_EXPORT void
    zauth_configure_plain (zauth_t *self, const char *domain, const char *filename);
    
//  Configure CURVE authentication for a given domain. CURVE authentication
//  uses a directory that holds all public client certificates, i.e. their
//  public keys. The certificates must be in zcert_save () format. To cover
//  all domains, use "*". You can add and remove certificates in that
//  directory at any time. To allow all client keys without checking, specify
//  CURVE_ALLOW_ANY for the location.
CZMQ_EXPORT void
    zauth_configure_curve (zauth_t *self, const char *domain, const char *location);
    
//  Configure GSSAPI authentication for a given domain. GSSAPI authentication
//  uses an underlying mechanism (usually Kerberos) to establish a secure
//  context and perform mutual authentication. To cover all domains, use "*".
CZMQ_EXPORT void
    zauth_configure_gssapi (zauth_t *self, char *domain, ...);

//  Enable verbose tracing of commands and activity
CZMQ_EXPORT void
    zauth_set_verbose (zauth_t *self, bool verbose);
    
//  Destructor
CZMQ_EXPORT void
    zauth_destroy (zauth_t **self_p);

//  Selftest
CZMQ_EXPORT void
    zauth_test (bool verbose);

//  Create a new beacon on a certain UDP port. If the system does not
//  support UDP broadcasts (lacking a useful interface), returns NULL.
//  To force the beacon to operate on a given port, set the environment
//  variable ZSYS_INTERFACE, or call zsys_set_interface() beforehand.
CZMQ_EXPORT zbeacon_t *
    zbeacon_new (zctx_t *ctx, int port_nbr);
    
//  Destroy a beacon
CZMQ_EXPORT void
    zbeacon_destroy (zbeacon_t **self_p);

//  Return our own IP address as printable string
CZMQ_EXPORT char *
    zbeacon_hostname (zbeacon_t *self);

//  Set broadcast interval in milliseconds (default is 1000 msec)
CZMQ_EXPORT void
    zbeacon_set_interval (zbeacon_t *self, int interval);

//  Filter out any beacon that looks exactly like ours
CZMQ_EXPORT void
    zbeacon_noecho (zbeacon_t *self);

//  Start broadcasting beacon to peers at the specified interval
CZMQ_EXPORT void
    zbeacon_publish (zbeacon_t *self, byte *transmit, size_t size);
    
//  Stop broadcasting beacons
CZMQ_EXPORT void
    zbeacon_silence (zbeacon_t *self);

//  Start listening to other peers; zero-sized filter means get everything
CZMQ_EXPORT void
    zbeacon_subscribe (zbeacon_t *self, byte *filter, size_t size);

//  Stop listening to other peers
CZMQ_EXPORT void
    zbeacon_unsubscribe (zbeacon_t *self);

//  Get beacon ZeroMQ socket, for polling or receiving messages
CZMQ_EXPORT void *
    zbeacon_socket (zbeacon_t *self);

//  Self test of this class
CZMQ_EXPORT void
    zbeacon_test (bool verbose);

//  Create and initialize a new certificate in memory
CZMQ_EXPORT zcert_t *
    zcert_new (void);

//  Constructor, accepts public/secret key pair from caller
CZMQ_EXPORT zcert_t *
    zcert_new_from (byte *public_key, byte *secret_key);

//  Destroy a certificate in memory
CZMQ_EXPORT void
    zcert_destroy (zcert_t **self_p);

//  Return public part of key pair as 32-byte binary string
CZMQ_EXPORT byte *
    zcert_public_key (zcert_t *self);

//  Return secret part of key pair as 32-byte binary string
CZMQ_EXPORT byte *
    zcert_secret_key (zcert_t *self);

//  Return public part of key pair as Z85 armored string
CZMQ_EXPORT char *
    zcert_public_txt (zcert_t *self);

//  Return secret part of key pair as Z85 armored string
CZMQ_EXPORT char *
    zcert_secret_txt (zcert_t *self);

//  Set certificate metadata from formatted string.
CZMQ_EXPORT void
    zcert_set_meta (zcert_t *self, const char *name, const char *format, ...);

//  Get metadata value from certificate; if the metadata value doesn't 
//  exist, returns NULL.
CZMQ_EXPORT char *
    zcert_meta (zcert_t *self, const char *name);

//  Get list of metadata fields from certificate. Caller is responsible for
//  destroying list. Caller should not modify the values of list items.
CZMQ_EXPORT zlist_t *
    zcert_meta_keys (zcert_t *self);

//  Load certificate from file (constructor)
CZMQ_EXPORT zcert_t *
    zcert_load (const char *filename);

//  Save full certificate (public + secret) to file for persistent storage
//  This creates one public file and one secret file (filename + "_secret").
CZMQ_EXPORT int
    zcert_save (zcert_t *self, const char *filename);

//  Save public certificate only to file for persistent storage
CZMQ_EXPORT int
    zcert_save_public (zcert_t *self, const char *filename);

//  Save secret certificate only to file for persistent storage
CZMQ_EXPORT int
    zcert_save_secret (zcert_t *self, const char *filename);

//  Apply certificate to socket, i.e. use for CURVE security on socket.
//  If certificate was loaded from public file, the secret key will be
//  undefined, and this certificate will not work successfully.
CZMQ_EXPORT void
    zcert_apply (zcert_t *self, void *zocket);

//  Return copy of certificate
CZMQ_EXPORT zcert_t *
    zcert_dup (zcert_t *self);

//  Return true if two certificates have the same keys
CZMQ_EXPORT bool
    zcert_eq (zcert_t *self, zcert_t *compare);

//  Print certificate contents to open stream
CZMQ_EXPORT void
    zcert_fprint (zcert_t *self, FILE *file);

//  Print certificate contents to stdout
CZMQ_EXPORT void
    zcert_print (zcert_t *self);

//  Self test of this class
CZMQ_EXPORT void
    zcert_test (bool verbose);

//  Create a new certificate store from a disk directory, loading and 
//  indexing all certificates in that location. The directory itself may be
//  absent, and created later, or modified at any time. The certificate store 
//  is automatically refreshed on any zcertstore_lookup() call. If the 
//  location is specified as NULL, creates a pure-memory store, which you 
//  can work with by inserting certificates at runtime.
CZMQ_EXPORT zcertstore_t *
    zcertstore_new (const char *location);

//  Destroy a certificate store object in memory. Does not affect anything
//  stored on disk.
CZMQ_EXPORT void
    zcertstore_destroy (zcertstore_t **self_p);

//  Look up certificate by public key, returns zcert_t object if found, 
//  else returns NULL. The public key is provided in Z85 text format.
CZMQ_EXPORT zcert_t *
    zcertstore_lookup (zcertstore_t *self, const char *public_key);

//  Insert certificate into certificate store in memory. Note that this 
//  does not save the certificate to disk. To do that, use zcert_save()
//  directly on the certificate. Takes ownership of zcert_t object.
CZMQ_EXPORT void
    zcertstore_insert (zcertstore_t *self, zcert_t **cert_p);

//  Print list of certificates in store to open stream
CZMQ_EXPORT void
    zcertstore_fprint (zcertstore_t *self, FILE *file);

//  Print list of certificates in store to stdout
CZMQ_EXPORT void
    zcertstore_print (zcertstore_t *self);

//  Self test of this class
CZMQ_EXPORT void
    zcertstore_test (bool verbose);

//  Create new chunk
CZMQ_EXPORT zchunk_t *
    zchunk_new (const void *data, size_t size);

//  Destroy a chunk
CZMQ_EXPORT void
    zchunk_destroy (zchunk_t **self_p);

//  Resizes chunk max_size as requested; chunk_cur size is set to zero
CZMQ_EXPORT void
    zchunk_resize (zchunk_t *self, size_t size);

//  Return chunk cur size
CZMQ_EXPORT size_t
    zchunk_size (zchunk_t *self);

//  Return chunk max size
CZMQ_EXPORT size_t
    zchunk_max_size (zchunk_t *self);

//  Return chunk data
CZMQ_EXPORT byte *
    zchunk_data (zchunk_t *self);

//  Set chunk data from user-supplied data; truncate if too large. Data may
//  be null. Returns actual size of chunk
CZMQ_EXPORT size_t
    zchunk_set (zchunk_t *self, const void *data, size_t size);

//  Fill chunk data from user-supplied octet
CZMQ_EXPORT size_t
    zchunk_fill (zchunk_t *self, byte filler, size_t size);

//  Append user-supplied data to chunk, return resulting chunk size
CZMQ_EXPORT size_t
    zchunk_append (zchunk_t *self, const void *data, size_t size);

//  Copy as much data from 'source' into the chunk as possible; returns the
//  new size of chunk. If all data from 'source' is used, returns exhausted
//  on the source chunk. Source can be consumed as many times as needed until
//  it is exhausted. If source was already exhausted, does not change chunk.
CZMQ_EXPORT size_t
    zchunk_consume (zchunk_t *self, zchunk_t *source);

//  Returns true if the chunk was exhausted by consume methods, or if the
//  chunk has a size of zero.
CZMQ_EXPORT bool
    zchunk_exhausted (zchunk_t *self);

//  Read chunk from an open file descriptor
CZMQ_EXPORT zchunk_t *
    zchunk_read (FILE *handle, size_t bytes);
    
//  Write chunk to an open file descriptor
CZMQ_EXPORT int
    zchunk_write (zchunk_t *self, FILE *handle);

//  Try to slurp an entire file into a chunk. Will read up to maxsize of
//  the file. If maxsize is 0, will attempt to read the entire file and
//  fail with an assertion if that cannot fit into memory. Returns a new
//  chunk containing the file data, or NULL if the file could not be read.
CZMQ_EXPORT zchunk_t *
    zchunk_slurp (const char *filename, size_t maxsize);

//  Create copy of chunk, as new chunk object. Returns a fresh zchunk_t
//  object, or NULL if there was not enough heap memory.
CZMQ_EXPORT zchunk_t *
    zchunk_dup (zchunk_t *self);

//  Dump chunk to FILE stream, for debugging and tracing.
CZMQ_EXPORT void
    zchunk_fprint (zchunk_t *self, FILE *file);

//  Dump message to stderr, for debugging and tracing.
//  See zchunk_fprint for details
CZMQ_EXPORT void
    zchunk_print (zchunk_t *self);

//  Probe the supplied object, and report if it looks like a zchunk_t.
CZMQ_EXPORT bool
    zchunk_is (void *self);

//  Self test of this class
CZMQ_EXPORT void
    zchunk_test (bool verbose);

//  Sleep for a number of milliseconds
CZMQ_EXPORT void
    zclock_sleep (int msecs);

//  Return current system clock as milliseconds
CZMQ_EXPORT int64_t
    zclock_time (void);

//  Return formatted date/time as fresh string. Free using zstr_free().
CZMQ_EXPORT char *
    zclock_timestr (void);

//  Self test of this class
CZMQ_EXPORT void
    zclock_test (bool verbose);

//  Function that executes config
typedef int (zconfig_fct) (zconfig_t *self, void *arg, int level);

//  Create new config item
CZMQ_EXPORT zconfig_t *
    zconfig_new (const char *name, zconfig_t *parent);

//  Destroy a config item and all its children
CZMQ_EXPORT void
    zconfig_destroy (zconfig_t **self_p);

//  Return name of config item
CZMQ_EXPORT char *
    zconfig_name (zconfig_t *self);

//  Return value of config item
CZMQ_EXPORT char *
    zconfig_value (zconfig_t *self);

//  Insert or update configuration key with value
CZMQ_EXPORT void
    zconfig_put (zconfig_t *self, const char *path, const char *value);

//  Set config item name, name may be NULL
CZMQ_EXPORT void
    zconfig_set_name (zconfig_t *self, const char *name);

//  Set new value for config item. The new value may be a string, a printf
//  format, or NULL. Note that if string may possibly contain '%', or if it
//  comes from an insecure source, you must use '%s' as the format, followed
//  by the string.
CZMQ_EXPORT void
    zconfig_set_value (zconfig_t *self, const char *format, ...);
    
//  Find our first child, if any
CZMQ_EXPORT zconfig_t *
    zconfig_child (zconfig_t *self);

//  Find our first sibling, if any
CZMQ_EXPORT zconfig_t *
    zconfig_next (zconfig_t *self);

//  Find a config item along a path; leading slash is optional and ignored.
CZMQ_EXPORT zconfig_t *
    zconfig_locate (zconfig_t *self, const char *path);

//  Resolve a config path into a string value; leading slash is optional
//  and ignored.
CZMQ_EXPORT char *
    zconfig_resolve (zconfig_t *self, const char *path, const char *default_value);

//  Set config item name, name may be NULL
CZMQ_EXPORT void
    zconfig_set_path (zconfig_t *self, const char *path, const char *value);

//  Locate the last config item at a specified depth
CZMQ_EXPORT zconfig_t *
    zconfig_at_depth (zconfig_t *self, int level);

//  Execute a callback for each config item in the tree
CZMQ_EXPORT int
    zconfig_execute (zconfig_t *self, zconfig_fct handler, void *arg);

//  Add comment to config item before saving to disk. You can add as many
//  comment lines as you like. If you use a null format, all comments are
//  deleted.
CZMQ_EXPORT void
    zconfig_set_comment (zconfig_t *self, const char *format, ...);

//  Return comments of config item, as zlist.
CZMQ_EXPORT zlist_t *
    zconfig_comments (zconfig_t *self);

//  Load a config tree from a specified ZPL text file
CZMQ_EXPORT zconfig_t *
    zconfig_load (const char *filename);

//  Save a config tree to a specified ZPL text file, where a filename
//  "-" means dump to standard output.
CZMQ_EXPORT int
    zconfig_save (zconfig_t *self, const char *filename);

//  Report filename used during zconfig_load, or NULL if none
CZMQ_EXPORT char *
    zconfig_filename (zconfig_t *self);

//  Reload config tree from same file that it was previously loaded from.
//  Returns 0 if OK, -1 if there was an error (and then does not change
//  existing data).
CZMQ_EXPORT int
    zconfig_reload (zconfig_t **self_p);

//  Load a config tree from a memory chunk
CZMQ_EXPORT zconfig_t *
    zconfig_chunk_load (zchunk_t *chunk);

//  Save a config tree to a new memory chunk
CZMQ_EXPORT zchunk_t *
    zconfig_chunk_save (zconfig_t *self);

//  Return true if a configuration tree was loaded from a file and that 
//  file has changed in since the tree was loaded.
CZMQ_EXPORT bool
    zconfig_has_changed (zconfig_t *self);

//  Print the config file to open stream
CZMQ_EXPORT void
    zconfig_fprint (zconfig_t *self, FILE *file);

//  Print the config file to stdout
CZMQ_EXPORT void
    zconfig_print (zconfig_t *self);

//  Create new context, returns context object, replaces zmq_init
CZMQ_EXPORT zctx_t *
    zctx_new (void);

//  Destroy context and all sockets in it, replaces zmq_term
CZMQ_EXPORT void
    zctx_destroy (zctx_t **self_p);

//  Create new shadow context, returns context object
CZMQ_EXPORT zctx_t *
    zctx_shadow (zctx_t *self);
//  Raise default I/O threads from 1, for crazy heavy applications
//  The rule of thumb is one I/O thread per gigabyte of traffic in
//  or out. Call this method before creating any sockets on the context,
//  or calling zctx_shadow, or the setting will have no effect.
CZMQ_EXPORT void
    zctx_set_iothreads (zctx_t *self, int iothreads);

//  Set msecs to flush sockets when closing them, see the ZMQ_LINGER
//  man page section for more details. By default, set to zero, so
//  any in-transit messages are discarded when you destroy a socket or
//  a context.
CZMQ_EXPORT void
    zctx_set_linger (zctx_t *self, int linger);

//  Set initial high-water mark for inter-thread pipe sockets. Note that
//  this setting is separate from the default for normal sockets. You 
//  should change the default for pipe sockets *with care*. Too low values
//  will cause blocked threads, and an infinite setting can cause memory
//  exhaustion. The default, no matter the underlying ZeroMQ version, is
//  1,000.
CZMQ_EXPORT void
    zctx_set_pipehwm (zctx_t *self, int pipehwm);
    
//  Set initial send HWM for all new normal sockets created in context.
//  You can set this per-socket after the socket is created.
//  The default, no matter the underlying ZeroMQ version, is 1,000.
CZMQ_EXPORT void
    zctx_set_sndhwm (zctx_t *self, int sndhwm);
    
//  Set initial receive HWM for all new normal sockets created in context.
//  You can set this per-socket after the socket is created.
//  The default, no matter the underlying ZeroMQ version, is 1,000.
CZMQ_EXPORT void
    zctx_set_rcvhwm (zctx_t *self, int rcvhwm);

//  Return low-level ØMQ context object, will be NULL before first socket
//  is created. Use with care.
CZMQ_EXPORT void *
    zctx_underlying (zctx_t *self);

//  Self test of this class
CZMQ_EXPORT void
    zctx_test (bool verbose);

//  Create a new directory item that loads in the full tree of the
//  specified path, optionally located under some parent path.
CZMQ_EXPORT zdir_t *
    zdir_new (const char *path, const char *parent);

//  Destroy a directory tree and all children it contains.
CZMQ_EXPORT void
    zdir_destroy (zdir_t **self_p);

//  Return directory path
CZMQ_EXPORT char *
    zdir_path (zdir_t *self);

//  Return last modification time for directory.
CZMQ_EXPORT time_t
    zdir_modified (zdir_t *self);

//  Return total hierarchy size, in bytes of data contained in all files
//  in the directory tree.
CZMQ_EXPORT off_t
    zdir_cursize (zdir_t *self);

//  Return directory count
CZMQ_EXPORT size_t
    zdir_count (zdir_t *self);
    
//  Returns a sorted array of zfile objects; returns a single block of memory,
//  that you destroy by calling zstr_free(). Each entry in the array is a pointer
//  to a zfile_t item already allocated in the zdir tree. The array ends with
//  a null pointer. Do not destroy the original zdir tree until you are done
//  with this array.
CZMQ_EXPORT zfile_t **
    zdir_flatten (zdir_t *self);

//  Free a provided string, and nullify the parent pointer. Safe to call on
//  a null pointer.
CZMQ_EXPORT void
    zdir_flatten_free (zfile_t ***files_p);

//  Remove directory, optionally including all files that it contains, at
//  all levels. If force is false, will only remove the directory if empty.
//  If force is true, will remove all files and all subdirectories.
CZMQ_EXPORT void
    zdir_remove (zdir_t *self, bool force);

//  Calculate differences between two versions of a directory tree.
//  Returns a list of zdir_patch_t patches. Either older or newer may
//  be null, indicating the directory is empty/absent. If alias is set,
//  generates virtual filename (minus path, plus alias).
CZMQ_EXPORT zlist_t *
    zdir_diff (zdir_t *older, zdir_t *newer, const char *alias);

//  Return full contents of directory as a zdir_patch list.
CZMQ_EXPORT zlist_t *
    zdir_resync (zdir_t *self, const char *alias);

//  Load directory cache; returns a hash table containing the SHA-1 digests
//  of every file in the tree. The cache is saved between runs in .cache.
//  The caller must destroy the hash table when done with it.
CZMQ_EXPORT zhash_t *
    zdir_cache (zdir_t *self);

//  Print contents of directory to open stream
CZMQ_EXPORT void
    zdir_fprint (zdir_t *self, FILE *file, int indent);

//  Print contents of directory to stdout
CZMQ_EXPORT void
    zdir_print (zdir_t *self, int indent);

//  Self test of this class
CZMQ_EXPORT void
    zdir_test (bool verbose);

//  If file exists, populates properties. CZMQ supports portable symbolic
//  links, which are files with the extension ".ln". A symbolic link is a
//  text file containing one line, the filename of a target file. Reading
//  data from the symbolic link actually reads from the target file. Path
//  may be NULL, in which case it is not used.
CZMQ_EXPORT zfile_t *
    zfile_new (const char *path, const char *name);

//  Destroy a file item
CZMQ_EXPORT void
    zfile_destroy (zfile_t **self_p);

//  Duplicate a file item, returns a newly constructed item
CZMQ_EXPORT zfile_t *
    zfile_dup (zfile_t *self);

//  Return file name, remove path if provided
CZMQ_EXPORT char *
    zfile_filename (zfile_t *self, const char *path);

//  Refresh file properties from disk; this is not done automatically
//  on access methods, otherwise it is not possible to compare directory
//  snapshots.
CZMQ_EXPORT void
    zfile_restat (zfile_t *self);

//  Return when the file was last modified. If you want this to reflect the
//  current situation, call zfile_restat before checking this property.
CZMQ_EXPORT time_t
    zfile_modified (zfile_t *self);

//  Return the last-known size of the file. If you want this to reflect the
//  current situation, call zfile_restat before checking this property.
CZMQ_EXPORT off_t
    zfile_cursize (zfile_t *self);

//  Return true if the file is a directory. If you want this to reflect
//  any external changes, call zfile_restat before checking this property.
CZMQ_EXPORT bool
    zfile_is_directory (zfile_t *self);

//  Return true if the file is a regular file. If you want this to reflect
//  any external changes, call zfile_restat before checking this property.
CZMQ_EXPORT bool
    zfile_is_regular (zfile_t *self);

//  Return true if the file is readable by this process. If you want this to
//  reflect any external changes, call zfile_restat before checking this
//  property.
CZMQ_EXPORT bool
    zfile_is_readable (zfile_t *self);

//  Return true if the file is writeable by this process. If you want this
//  to reflect any external changes, call zfile_restat before checking this
//  property.
CZMQ_EXPORT bool
    zfile_is_writeable (zfile_t *self);

//  Check if file has stopped changing and can be safely processed.
//  Updates the file statistics from disk at every call.
CZMQ_EXPORT bool
    zfile_is_stable (zfile_t *self);

//  Return true if the file was changed on disk since the zfile_t object
//  was created, or the last zfile_restat() call made on it.
CZMQ_EXPORT bool
    zfile_has_changed (zfile_t *self);

//  Remove the file from disk
CZMQ_EXPORT void
    zfile_remove (zfile_t *self);

//  Open file for reading
//  Returns 0 if OK, -1 if not found or not accessible
CZMQ_EXPORT int
    zfile_input (zfile_t *self);

//  Open file for writing, creating directory if needed
//  File is created if necessary; chunks can be written to file at any
//  location. Returns 0 if OK, -1 if error.
CZMQ_EXPORT int
    zfile_output (zfile_t *self);

//  Read chunk from file at specified position. If this was the last chunk,
//  sets self->eof. Returns a null chunk in case of error.
CZMQ_EXPORT zchunk_t *
    zfile_read (zfile_t *self, size_t bytes, off_t offset);

//  Write chunk to file at specified position
//  Return 0 if OK, else -1
CZMQ_EXPORT int
    zfile_write (zfile_t *self, zchunk_t *chunk, off_t offset);

//  Close file, if open
CZMQ_EXPORT void
    zfile_close (zfile_t *self);

//  Return file handle, if opened
CZMQ_EXPORT FILE *
    zfile_handle (zfile_t *self);

//  Calculate SHA1 digest for file, using zdigest class. Caller should not
//  modify digest.
CZMQ_EXPORT char *
    zfile_digest (zfile_t *self);

//  Self test of this class
CZMQ_EXPORT void
    zfile_test (bool verbose);
//  These methods are deprecated, and now moved to zsys class.
CZMQ_EXPORT bool
    zfile_exists (const char *filename);
CZMQ_EXPORT ssize_t
    zfile_size   (const char *filename);
CZMQ_EXPORT mode_t
    zfile_mode   (const char *filename);
CZMQ_EXPORT int
    zfile_delete (const char *filename);
CZMQ_EXPORT bool
    zfile_stable (const char *filename);
CZMQ_EXPORT int
    zfile_mkdir  (const char *pathname);
CZMQ_EXPORT int
    zfile_rmdir  (const char *pathname);
CZMQ_EXPORT void
    zfile_mode_private (void);
CZMQ_EXPORT void
    zfile_mode_default (void);

#define ZFRAME_MORE     1
#define ZFRAME_REUSE    2
#define ZFRAME_DONTWAIT 4

//  Create a new frame with optional size, and optional data
CZMQ_EXPORT zframe_t *
    zframe_new (const void *data, size_t size);

//  Create an empty (zero-sized) frame
CZMQ_EXPORT zframe_t *
    zframe_new_empty (void);

//  Destroy a frame
CZMQ_EXPORT void
    zframe_destroy (zframe_t **self_p);

//  Receive frame from socket, returns zframe_t object or NULL if the recv
//  was interrupted. Does a blocking recv, if you want to not block then use
//  zframe_recv_nowait().
CZMQ_EXPORT zframe_t *
    zframe_recv (void *source);

// Send a frame to a socket, destroy frame after sending.
// Return -1 on error, 0 on success.
CZMQ_EXPORT int
    zframe_send (zframe_t **self_p, void *dest, int flags);

//  Return number of bytes in frame data
CZMQ_EXPORT size_t
    zframe_size (zframe_t *self);

//  Return address of frame data
CZMQ_EXPORT byte *
    zframe_data (zframe_t *self);

//  Create a new frame that duplicates an existing frame
CZMQ_EXPORT zframe_t *
    zframe_dup (zframe_t *self);

//  Return frame data encoded as printable hex string
CZMQ_EXPORT char *
    zframe_strhex (zframe_t *self);

//  Return frame data copied into freshly allocated string
CZMQ_EXPORT char *
    zframe_strdup (zframe_t *self);

//  Return TRUE if frame body is equal to string, excluding terminator
CZMQ_EXPORT bool
    zframe_streq (zframe_t *self, const char *string);

//  Return frame MORE indicator (1 or 0), set when reading frame from socket
//  or by the zframe_set_more() method
CZMQ_EXPORT int
    zframe_more (zframe_t *self);

//  Set frame MORE indicator (1 or 0). Note this is NOT used when sending 
//  frame to socket, you have to specify flag explicitly.
CZMQ_EXPORT void
    zframe_set_more (zframe_t *self, int more);
    
//  Return TRUE if two frames have identical size and data
//  If either frame is NULL, equality is always false.
CZMQ_EXPORT bool
    zframe_eq (zframe_t *self, zframe_t *other);

//  Set new contents for frame
CZMQ_EXPORT void
    zframe_reset (zframe_t *self, const void *data, size_t size);

//  Send message to zsys log sink (may be stdout, or system facility as
//  configured by zsys_set_logstream). Prefix shows before frame, if not null.
CZMQ_EXPORT void
    zframe_print (zframe_t *self, const char *prefix);

//  Probe the supplied object, and report if it looks like a zframe_t.
CZMQ_EXPORT bool
    zframe_is (void *self);

//  Self test of this class
CZMQ_EXPORT void
    zframe_test (bool verbose);

//  To work with zgossip, use the CZMQ zactor API:
//
//  Create new zgossip instance, passing logging prefix:
//      zactor_t *zgossip = zactor_new (zgossip, "myname");
//  
//  Destroy zgossip instance
//      zactor_destroy (&zgossip);
//  
//  Send zmsg instance message to zgossip instance:
//      zactor_send (zgossip, &msg);
//  
//  Send command to zgossip instance:
//      zstr_sendx (zgossip, "COMMAND", "ARG1", "ARG2", NULL);
//  
//  Receive zmsg message from zgossip instance:
//      zmsg_t *msg = zactor_recv (zgossip);
//
//  This is the zgossip constructor as a zactor_fn:
//
CZMQ_EXPORT void
    zgossip (zsock_t *pipe, void *args);

//  Self test of this class
CZMQ_EXPORT void
    zgossip_test (bool verbose);

//  Callback function for zhash_freefn method
typedef void (zhash_free_fn) (void *data);

//  Create a new, empty hash container
CZMQ_EXPORT zhash_t *
    zhash_new (void);

//  Destroy a hash container and all items in it
CZMQ_EXPORT void
    zhash_destroy (zhash_t **self_p);

//  Insert item into hash table with specified key and item.
//  If key is already present returns -1 and leaves existing item unchanged
//  Returns 0 on success.
CZMQ_EXPORT int
    zhash_insert (zhash_t *self, const char *key, void *item);

//  Update item into hash table with specified key and item.
//  If key is already present, destroys old item and inserts new one.
//  Use free_fn method to ensure deallocator is properly called on item.
CZMQ_EXPORT void
    zhash_update (zhash_t *self, const char *key, void *item);

//  Remove an item specified by key from the hash table. If there was no such
//  item, this function does nothing.
CZMQ_EXPORT void
    zhash_delete (zhash_t *self, const char *key);

//  Return the item at the specified key, or null
CZMQ_EXPORT void *
    zhash_lookup (zhash_t *self, const char *key);

//  Reindexes an item from an old key to a new key. If there was no such
//  item, does nothing. Returns 0 if successful, else -1.
CZMQ_EXPORT int
    zhash_rename (zhash_t *self, const char *old_key, const char *new_key);

//  Set a free function for the specified hash table item. When the item is
//  destroyed, the free function, if any, is called on that item.
//  Use this when hash items are dynamically allocated, to ensure that
//  you don't have memory leaks. You can pass 'free' or NULL as a free_fn.
//  Returns the item, or NULL if there is no such item.
CZMQ_EXPORT void *
    zhash_freefn (zhash_t *self, const char *key, zhash_free_fn *free_fn);

//  Return the number of keys/items in the hash table
CZMQ_EXPORT size_t
    zhash_size (zhash_t *self);

//  Make copy of hash table; if supplied table is null, returns null.
//  Does not copy items themselves. Rebuilds new table so may be slow on
//  very large tables. NOTE: only works with item values that are strings
//  since there's no other way to know how to duplicate the item value.
CZMQ_EXPORT zhash_t *
    zhash_dup (zhash_t *self);

//  Return keys for items in table. If you remove items from this list you
//  must free the key value yourself.
CZMQ_EXPORT zlist_t *
    zhash_keys (zhash_t *self);
    
//  Simple iterator; returns first item in hash table, in no given order,
//  or NULL if the table is empty. This method is simpler to use than the
//  foreach() method, which is deprecated. To access the key for this item
//  use zhash_cursor(). NOTE: do NOT modify the table while iterating.
CZMQ_EXPORT void *
    zhash_first (zhash_t *self);

//  Simple iterator; returns next item in hash table, in no given order,
//  or NULL if the last item was already returned. Use this together with
//  zhash_first() to process all items in a hash table. If you need the
//  items in sorted order, use zhash_keys() and then zlist_sort(). To
//  access the key for this item use zhash_cursor(). NOTE: do NOT modify
//  the table while iterating.
CZMQ_EXPORT void *
    zhash_next (zhash_t *self);

//  After a successful first/next method, returns the key for the item
//  that was returned. After an unsuccessful first/next, returns NULL.
CZMQ_EXPORT char *
    zhash_cursor (zhash_t *self);

//  Add a comment to hash table before saving to disk. You can add as many
//  comment lines as you like. These comment lines are discarded when loading
//  the file. If you use a null format, all comments are deleted.
CZMQ_EXPORT void
    zhash_comment (zhash_t *self, const char *format, ...);

//  Save hash table to a text file in name=value format. Hash values must be
//  printable strings; keys may not contain '=' character. Returns 0 if OK,
//  else -1 if a file error occurred.
CZMQ_EXPORT int
    zhash_save (zhash_t *self, const char *filename);

//  Load hash table from a text file in name=value format; hash table must
//  already exist. Hash values must printable strings; keys may not contain
//  '=' character. Returns 0 if OK, else -1 if a file was not readable.
CZMQ_EXPORT int
    zhash_load (zhash_t *self, const char *filename);

//  When a hash table was loaded from a file by zhash_load, this method will
//  reload the file if it has been modified since, and is "stable", i.e. not
//  still changing. Returns 0 if OK, -1 if there was an error reloading the 
//  file.
CZMQ_EXPORT int
    zhash_refresh (zhash_t *self);

//  Set hash for automatic value destruction
CZMQ_EXPORT void
    zhash_autofree (zhash_t *self);
    
//  Serialize hash table to a binary frame that can be sent in a message.
//  The packed format is compatible with the 'dictionary' type defined in
//  http://rfc.zeromq.org/spec:35/FILEMQ, and implemented by zproto:
//
//     ; A list of name/value pairs
//     dictionary      = dict-count *( dict-name dict-value )
//     dict-count      = number-4
//     dict-value      = longstr
//     dict-name       = string
//
//     ; Strings are always length + text contents
//     longstr         = number-4 *VCHAR
//     string          = number-1 *VCHAR
//
//     ; Numbers are unsigned integers in network byte order
//     number-1        = 1OCTET
//     number-4        = 4OCTET
//
//  Comments are not included in the packed data. Item values MUST be
//  strings.
CZMQ_EXPORT zframe_t *
    zhash_pack (zhash_t *self);
    
//  Unpack binary frame into a new hash table. Packed data must follow format
//  defined by zhash_pack. Hash table is set to autofree. An empty frame
//  unpacks to an empty hash table.
CZMQ_EXPORT zhash_t *
    zhash_unpack (zframe_t *frame);

//  Apply function to each item in the hash table. Items are iterated in no
//  defined order. Stops if callback function returns non-zero and returns
//  final return code from callback function (zero = success).
//  NOTE: this is deprecated in favor of zhash_first/next since the callback
//  design is clumsy and over-complex, and unnecessary.
    
//  Callback function for zhash_foreach method
typedef int (zhash_foreach_fn) (const char *key, void *item, void *argument);

CZMQ_EXPORT int
    zhash_foreach (zhash_t *self, zhash_foreach_fn *callback, void *argument);

//  Self test of this class
CZMQ_EXPORT void
    zhash_test (int verbose);

//  Comparison function for zlist_sort method
typedef bool (zlist_compare_fn) (void *item1, void *item2);

// Callback function for zlist_freefn method
typedef void (zlist_free_fn) (void *data);

//  Create a new list container
CZMQ_EXPORT zlist_t *
    zlist_new (void);

//  Destroy a list container
CZMQ_EXPORT void
    zlist_destroy (zlist_t **self_p);

//  Return first item in the list, or null
CZMQ_EXPORT void *
    zlist_first (zlist_t *self);

//  Return next item in the list, or null
CZMQ_EXPORT void *
    zlist_next (zlist_t *self);

//  Return last item in the list, or null
CZMQ_EXPORT void *
    zlist_last (zlist_t *self);

//  Return first item in the list, or null, leaves the cursor
CZMQ_EXPORT void *
    zlist_head (zlist_t *self);

//  Return last item in the list, or null, leaves the cursor
CZMQ_EXPORT void *
    zlist_tail (zlist_t *self);

//  Append an item to the end of the list, return 0 if OK
//  or -1 if this failed for some reason (out of memory).
CZMQ_EXPORT int
    zlist_append (zlist_t *self, void *item);

//  Push an item to the start of the list, return 0 if OK
//  or -1 if this failed for some reason (out of memory).
CZMQ_EXPORT int
    zlist_push (zlist_t *self, void *item);

//  Pop the item off the start of the list, if any
CZMQ_EXPORT void *
    zlist_pop (zlist_t *self);

//  Remove the specified item from the list if present
CZMQ_EXPORT void
    zlist_remove (zlist_t *self, void *item);

// Add an explicit free function to the item including a hint as to
// whether it can be found at the tail
CZMQ_EXPORT void *
    zlist_freefn (zlist_t *self, void *item, zlist_free_fn *fn, bool at_tail);

//  Make a copy of list. If the list has autofree set, the copied list will
//  duplicate all items, which must be strings. Otherwise, the list will hold
//  pointers back to the items in the original list.
CZMQ_EXPORT zlist_t *
    zlist_dup (zlist_t *self);

//  Return number of items in the list
CZMQ_EXPORT size_t
    zlist_size (zlist_t *self);

//  Sort the list by ascending key value using a straight ASCII comparison.
//  The sort is not stable, so may reorder items with the same keys.
CZMQ_EXPORT void
    zlist_sort (zlist_t *self, zlist_compare_fn *compare);

//  Set list for automatic item destruction; item values MUST be strings.
//  By default a list item refers to a value held elsewhere. When you set
//  this, each time you append or push a list item, zlist will take a copy
//  of the string value. Then, when you destroy the list, it will free all
//  item values automatically. If you use any other technique to allocate
//  list values, you must free them explicitly before destroying the list.
//  The usual technique is to pop list items and destroy them, until the
//  list is empty.
CZMQ_EXPORT void
    zlist_autofree (zlist_t *self);

//  Self test of this class
CZMQ_EXPORT void
    zlist_test (int verbose);

//  Callback function for reactor socket activity
typedef int (zloop_reader_fn) (zloop_t *loop, zsock_t *reader, void *arg);

//  Callback function for reactor events (low-level)
typedef int (zloop_fn) (zloop_t *loop, zmq_pollitem_t *item, void *arg);

// Callback for reactor timer events
typedef int (zloop_timer_fn) (zloop_t *loop, int timer_id, void *arg);

//  Create a new zloop reactor
CZMQ_EXPORT zloop_t *
    zloop_new (void);

//  Destroy a reactor
CZMQ_EXPORT void
    zloop_destroy (zloop_t **self_p);

//  Register socket reader with the reactor. When the reader has messages,
//  the reactor will call the handler, passing the arg. Returns 0 if OK, -1
//  if there was an error. If you register the same socket more than once,
//  each instance will invoke its corresponding handler.
CZMQ_EXPORT int
    zloop_reader (zloop_t *self, zsock_t *sock, zloop_reader_fn handler, void *arg);

//  Cancel a socket reader from the reactor. If multiple readers exist for
//  same socket, cancels ALL of them.
CZMQ_EXPORT void
    zloop_reader_end (zloop_t *self, zsock_t *sock);

//  Configure a registered reader to ignore errors. If you do not set this,
//  then readers that have errors are removed from the reactor silently.
CZMQ_EXPORT void
    zloop_reader_set_tolerant (zloop_t *self, zsock_t *sock);

//  Register low-level libzmq pollitem with the reactor. When the pollitem
//  is ready, will call the handler, passing the arg. Returns 0 if OK, -1
//  if there was an error. If you register the pollitem more than once, each
//  instance will invoke its corresponding handler. A pollitem with
//  socket=NULL and fd=0 means 'poll on FD zero'.
CZMQ_EXPORT int
    zloop_poller (zloop_t *self, zmq_pollitem_t *item, zloop_fn handler, void *arg);

//  Cancel a pollitem from the reactor, specified by socket or FD. If both
//  are specified, uses only socket. If multiple poll items exist for same
//  socket/FD, cancels ALL of them.
CZMQ_EXPORT void
    zloop_poller_end (zloop_t *self, zmq_pollitem_t *item);

//  Configure a registered poller to ignore errors. If you do not set this,
//  then poller that have errors are removed from the reactor silently.
CZMQ_EXPORT void
    zloop_poller_set_tolerant (zloop_t *self, zmq_pollitem_t *item);

//  Register a timer that expires after some delay and repeats some number of
//  times. At each expiry, will call the handler, passing the arg. To run a
//  timer forever, use 0 times. Returns a timer_id that is used to cancel the
//  timer in the future. Returns -1 if there was an error.
CZMQ_EXPORT int
    zloop_timer (zloop_t *self, size_t delay, size_t times, zloop_timer_fn handler, void *arg);

//  Cancel a specific timer identified by a specific timer_id (as returned by
//  zloop_timer).
CZMQ_EXPORT int
    zloop_timer_end (zloop_t *self, int timer_id);

//  Set verbose tracing of reactor on/off
CZMQ_EXPORT void
    zloop_set_verbose (zloop_t *self, bool verbose);

//  Start the reactor. Takes control of the thread and returns when the ØMQ
//  context is terminated or the process is interrupted, or any event handler
//  returns -1. Event handlers may register new sockets and timers, and
//  cancel sockets. Returns 0 if interrupted, -1 if cancelled by a handler.
CZMQ_EXPORT int
    zloop_start (zloop_t *self);

//  Self test of this class
CZMQ_EXPORT void
    zloop_test (bool verbose);

//  Create a new socket monitor
CZMQ_EXPORT zmonitor_t *
    zmonitor_new (zctx_t *ctx, void *socket, int events);

//  Destroy a socket monitor
CZMQ_EXPORT void
    zmonitor_destroy (zmonitor_t **self_p);

//  Receive a status message from the monitor; if no message arrives within
//  500 msec, or the call was interrupted, returns NULL.
CZMQ_EXPORT zmsg_t *
    zmonitor_recv (zmonitor_t *self);

//  Get the ZeroMQ socket, for polling 
CZMQ_EXPORT void *
    zmonitor_socket (zmonitor_t *self);

//  Enable verbose tracing of commands and activity
CZMQ_EXPORT void
    zmonitor_set_verbose (zmonitor_t *self, bool verbose);

// Self test of this class
CZMQ_EXPORT void
    zmonitor_test (bool verbose);

//  Create a new empty message object
CZMQ_EXPORT zmsg_t *
    zmsg_new (void);

//  Destroy a message object and all frames it contains
CZMQ_EXPORT void
    zmsg_destroy (zmsg_t **self_p);

//  Receive message from socket, returns zmsg_t object or NULL if the recv
//  was interrupted. Does a blocking recv. If you want to not block then use
//  the zloop class or zmsg_recv_nowait or zmq_poll to check for socket input
//  before receiving.
CZMQ_EXPORT zmsg_t *
    zmsg_recv (void *source);

//  Send message to destination socket, and destroy the message after sending
//  it successfully. If the message has no frames, sends nothing but destroys
//  the message anyhow. Nullifies the caller's reference to the message (as
//  it is a destructor).
CZMQ_EXPORT int
    zmsg_send (zmsg_t **self_p, void *dest);

//  Return size of message, i.e. number of frames (0 or more).
CZMQ_EXPORT size_t
    zmsg_size (zmsg_t *self);

//  Return total size of all frames in message.
CZMQ_EXPORT size_t
    zmsg_content_size (zmsg_t *self);

//  Push frame to the front of the message, i.e. before all other frames.
//  Message takes ownership of frame, will destroy it when message is sent.
//  Returns 0 on success, -1 on error. Deprecates zmsg_push, which did not
//  nullify the caller's frame reference.
CZMQ_EXPORT int
    zmsg_prepend (zmsg_t *self, zframe_t **frame_p);

//  Add frame to the end of the message, i.e. after all other frames.
//  Message takes ownership of frame, will destroy it when message is sent.
//  Returns 0 on success. Deprecates zmsg_add, which did not nullify the
//  caller's frame reference.
CZMQ_EXPORT int
    zmsg_append (zmsg_t *self, zframe_t **frame_p);

//  Remove first frame from message, if any. Returns frame, or NULL. Caller
//  now owns frame and must destroy it when finished with it.
CZMQ_EXPORT zframe_t *
    zmsg_pop (zmsg_t *self);

//  Push block of memory to front of message, as a new frame.
//  Returns 0 on success, -1 on error.
CZMQ_EXPORT int
    zmsg_pushmem (zmsg_t *self, const void *src, size_t size);

//  Add block of memory to the end of the message, as a new frame.
//  Returns 0 on success, -1 on error.
CZMQ_EXPORT int
    zmsg_addmem (zmsg_t *self, const void *src, size_t size);
    
//  Push string as new frame to front of message.
//  Returns 0 on success, -1 on error.
CZMQ_EXPORT int
    zmsg_pushstr (zmsg_t *self, const char *string);

//  Push string as new frame to end of message.
//  Returns 0 on success, -1 on error.
CZMQ_EXPORT int
    zmsg_addstr (zmsg_t *self, const char *string);

//  Push formatted string as new frame to front of message.
//  Returns 0 on success, -1 on error.
CZMQ_EXPORT int
    zmsg_pushstrf (zmsg_t *self, const char *format, ...);

//  Push formatted string as new frame to end of message.
//  Returns 0 on success, -1 on error.
CZMQ_EXPORT int
    zmsg_addstrf (zmsg_t *self, const char *format, ...);

//  Pop frame off front of message, return as fresh string. If there were
//  no more frames in the message, returns NULL.
CZMQ_EXPORT char *
    zmsg_popstr (zmsg_t *self);

//  Remove specified frame from list, if present. Does not destroy frame.
CZMQ_EXPORT void
    zmsg_remove (zmsg_t *self, zframe_t *frame);

//  Set cursor to first frame in message. Returns frame, or NULL, if the 
//  message is empty. Use this to navigate the frames as a list.
CZMQ_EXPORT zframe_t *
    zmsg_first (zmsg_t *self);

//  Return the next frame. If there are no more frames, returns NULL. To move
//  to the first frame call zmsg_first(). Advances the cursor.
CZMQ_EXPORT zframe_t *
    zmsg_next (zmsg_t *self);

//  Return the last frame. If there are no frames, returns NULL.
CZMQ_EXPORT zframe_t *
    zmsg_last (zmsg_t *self);

//  Save message to an open file, return 0 if OK, else -1. The message is 
//  saved as a series of frames, each with length and data. Note that the
//  file is NOT guaranteed to be portable between operating systems, not
//  versions of CZMQ. The file format is at present undocumented and liable
//  to arbitrary change.
CZMQ_EXPORT int
    zmsg_save (zmsg_t *self, FILE *file);

//  Load/append an open file into message, create new message if
//  null message provided. Returns NULL if the message could not 
//  be loaded.
CZMQ_EXPORT zmsg_t *
    zmsg_load (zmsg_t *self, FILE *file);

//  Serialize multipart message to a single buffer. Use this method to send
//  structured messages across transports that do not support multipart data.
//  Allocates and returns a new buffer containing the serialized message.
//  To decode a serialized message buffer, use zmsg_decode ().
CZMQ_EXPORT size_t
    zmsg_encode (zmsg_t *self, byte **buffer);

//  Decodes a serialized message buffer created by zmsg_encode () and returns
//  a new zmsg_t object. Returns NULL if the buffer was badly formatted or 
//  there was insufficient memory to work.
CZMQ_EXPORT zmsg_t *
    zmsg_decode (byte *buffer, size_t buffer_size);

//  Create copy of message, as new message object. Returns a fresh zmsg_t
//  object, or NULL if there was not enough heap memory.
CZMQ_EXPORT zmsg_t *
    zmsg_dup (zmsg_t *self);

//  Send message to zsys log sink (may be stdout, or system facility as
//  configured by zsys_set_logstream).
CZMQ_EXPORT void
    zmsg_print (zmsg_t *self);

//  Probe the supplied object, and report if it looks like a zmsg_t.
CZMQ_EXPORT bool
    zmsg_is (void *self);

//  Self test of this class
CZMQ_EXPORT void
    zmsg_test (bool verbose);

//  Create a new mutex container
CZMQ_EXPORT zmutex_t *
    zmutex_new (void);

//  Destroy a mutex container
CZMQ_EXPORT void
    zmutex_destroy (zmutex_t **self_p);

//  Lock mutex
CZMQ_EXPORT void
    zmutex_lock (zmutex_t *self);

//  Unlock mutex
CZMQ_EXPORT void
    zmutex_unlock (zmutex_t *self);

//  Try to lock mutex
CZMQ_EXPORT int
    zmutex_try_lock (zmutex_t *self);

//  Self test of this class
CZMQ_EXPORT void
    zmutex_test (bool verbose);

//  Create new poller
CZMQ_EXPORT zpoller_t *
    zpoller_new (void *reader, ...);

//  Destroy a poller
CZMQ_EXPORT void
    zpoller_destroy (zpoller_t **self_p);

//  Add a reader to be polled
CZMQ_EXPORT int
    zpoller_add (zpoller_t *self, void *reader);

//  Poll the registered readers for I/O, return first socket that has input.
//  This means the order that sockets are defined in the poll list affects
//  their priority. If you need a balanced poll, use the low level zmq_poll
//  method directly. If the poll call was interrupted (SIGINT), or the ZMQ
//  context was destroyed, or the timeout expired, returns NULL. You can
//  test the actual exit condition by calling zpoller_expired () and
//  zpoller_terminated (). Timeout is in msec.
CZMQ_EXPORT void *
    zpoller_wait (zpoller_t *self, int timeout);

//  Return true if the last zpoller_wait () call ended because the timeout
//  expired, without any error.
CZMQ_EXPORT bool
    zpoller_expired (zpoller_t *self);

//  Return true if the last zpoller_wait () call ended because the process
//  was interrupted, or the parent context was destroyed.
CZMQ_EXPORT bool
    zpoller_terminated (zpoller_t *self);

//  Self test of this class
CZMQ_EXPORT void
    zpoller_test (bool verbose);

//  Constructor
//  Create a new zproxy object. You must create the frontend and backend
//  sockets, configure them, and connect or bind them, before you pass them
//  to the constructor. Do NOT use the sockets again, after passing them to
//  this method.
CZMQ_EXPORT zproxy_t *
    zproxy_new (zctx_t *ctx, void *frontend, void *backend);

//  Destructor
//  Destroy a zproxy object; note this first stops the proxy.
CZMQ_EXPORT void
    zproxy_destroy (zproxy_t **self_p);

//  Copy all proxied messages to specified endpoint; if this is NULL, any
//  in-progress capturing will be stopped. You must already have bound the
//  endpoint to a PULL socket.
CZMQ_EXPORT void
    zproxy_capture (zproxy_t *self, const char *endpoint);

//  Pauses a zproxy object; a paused proxy will cease processing messages,
//  causing them to be queued up and potentially hit the high-water mark on
//  the frontend socket, causing messages to be dropped, or writing
//  applications to block.
CZMQ_EXPORT void
    zproxy_pause (zproxy_t *self);

//  Resume a zproxy object
CZMQ_EXPORT void
    zproxy_resume (zproxy_t *self);

// Self test of this class
CZMQ_EXPORT void
    zproxy_test (bool verbose);

//  This port range is defined by IANA for dynamic or private ports
//  We use this when choosing a port for dynamic binding.
#define ZSOCKET_DYNFROM     0xc000
#define ZSOCKET_DYNTO       0xffff

//  Callback function for zero-copy methods
typedef void (zsocket_free_fn) (void *data, void *arg);

//  Create a new socket within our CZMQ context, replaces zmq_socket.
//  Use this to get automatic management of the socket at shutdown.
//  Note: SUB sockets do not automatically subscribe to everything; you
//  must set filters explicitly.
CZMQ_EXPORT void *
    zsocket_new (zctx_t *self, int type);

//  Destroy a socket within our CZMQ context, replaces zmq_close.
CZMQ_EXPORT void
    zsocket_destroy (zctx_t *ctx, void *self);

//  Bind a socket to a formatted endpoint. If the port is specified as
//  '*', binds to any free port from ZSOCKET_DYNFROM to ZSOCKET_DYNTO
//  and returns the actual port number used. Otherwise asserts that the
//  bind succeeded with the specified port number. Always returns the
//  port number if successful.
CZMQ_EXPORT int
    zsocket_bind (void *self, const char *format, ...);

//  Unbind a socket from a formatted endpoint.
//  Returns 0 if OK, -1 if the endpoint was invalid or the function
//  isn't supported.
CZMQ_EXPORT int
    zsocket_unbind (void *self, const char *format, ...);

//  Connect a socket to a formatted endpoint
//  Returns 0 if OK, -1 if the endpoint was invalid.
CZMQ_EXPORT int
    zsocket_connect (void *self, const char *format, ...);

//  Disconnect a socket from a formatted endpoint
//  Returns 0 if OK, -1 if the endpoint was invalid or the function
//  isn't supported.
CZMQ_EXPORT int
    zsocket_disconnect (void *self, const char *format, ...);

//  Poll for input events on the socket. Returns TRUE if there is input
//  ready on the socket, else FALSE.
CZMQ_EXPORT bool
    zsocket_poll (void *self, int msecs);

//  Returns socket type as printable constant string
CZMQ_EXPORT const char *
    zsocket_type_str (void *self);

//  Send data over a socket as a single message frame.
//  Accepts these flags: ZFRAME_MORE and ZFRAME_DONTWAIT.
//  Returns -1 on error, 0 on success
CZMQ_EXPORT int
    zsocket_sendmem (void *self, const void *data, size_t size, int flags);

//  Send a signal over a socket. A signal is a zero-byte message.
//  Signals are used primarily between threads, over pipe sockets.
//  Returns -1 if there was an error sending the signal.
CZMQ_EXPORT int
    zsocket_signal (void *self);

//  Wait on a signal. Use this to coordinate between threads, over
//  pipe pairs. Returns -1 on error, 0 on success.
CZMQ_EXPORT int
    zsocket_wait (void *self);

//  Self test of this class
CZMQ_EXPORT void
    zsocket_test (bool verbose);

#if (ZMQ_VERSION_MAJOR == 4)
//  Get socket options
CZMQ_EXPORT int zsocket_tos (void *zocket);
CZMQ_EXPORT char * zsocket_zap_domain (void *zocket);
CZMQ_EXPORT int zsocket_mechanism (void *zocket);
CZMQ_EXPORT int zsocket_plain_server (void *zocket);
CZMQ_EXPORT char * zsocket_plain_username (void *zocket);
CZMQ_EXPORT char * zsocket_plain_password (void *zocket);
CZMQ_EXPORT int zsocket_curve_server (void *zocket);
CZMQ_EXPORT char * zsocket_curve_publickey (void *zocket);
CZMQ_EXPORT char * zsocket_curve_secretkey (void *zocket);
CZMQ_EXPORT char * zsocket_curve_serverkey (void *zocket);
CZMQ_EXPORT int zsocket_gssapi_server (void *zocket);
CZMQ_EXPORT int zsocket_gssapi_plaintext (void *zocket);
CZMQ_EXPORT char * zsocket_gssapi_principal (void *zocket);
CZMQ_EXPORT char * zsocket_gssapi_service_principal (void *zocket);
CZMQ_EXPORT int zsocket_ipv6 (void *zocket);
CZMQ_EXPORT int zsocket_immediate (void *zocket);
CZMQ_EXPORT int zsocket_ipv4only (void *zocket);
CZMQ_EXPORT int zsocket_type (void *zocket);
CZMQ_EXPORT int zsocket_sndhwm (void *zocket);
CZMQ_EXPORT int zsocket_rcvhwm (void *zocket);
CZMQ_EXPORT int zsocket_affinity (void *zocket);
CZMQ_EXPORT char * zsocket_identity (void *zocket);
CZMQ_EXPORT int zsocket_rate (void *zocket);
CZMQ_EXPORT int zsocket_recovery_ivl (void *zocket);
CZMQ_EXPORT int zsocket_sndbuf (void *zocket);
CZMQ_EXPORT int zsocket_rcvbuf (void *zocket);
CZMQ_EXPORT int zsocket_linger (void *zocket);
CZMQ_EXPORT int zsocket_reconnect_ivl (void *zocket);
CZMQ_EXPORT int zsocket_reconnect_ivl_max (void *zocket);
CZMQ_EXPORT int zsocket_backlog (void *zocket);
CZMQ_EXPORT int zsocket_maxmsgsize (void *zocket);
CZMQ_EXPORT int zsocket_multicast_hops (void *zocket);
CZMQ_EXPORT int zsocket_rcvtimeo (void *zocket);
CZMQ_EXPORT int zsocket_sndtimeo (void *zocket);
CZMQ_EXPORT int zsocket_tcp_keepalive (void *zocket);
CZMQ_EXPORT int zsocket_tcp_keepalive_idle (void *zocket);
CZMQ_EXPORT int zsocket_tcp_keepalive_cnt (void *zocket);
CZMQ_EXPORT int zsocket_tcp_keepalive_intvl (void *zocket);
CZMQ_EXPORT char * zsocket_tcp_accept_filter (void *zocket);
CZMQ_EXPORT int zsocket_rcvmore (void *zocket);
CZMQ_EXPORT int zsocket_fd (void *zocket);
CZMQ_EXPORT int zsocket_events (void *zocket);
CZMQ_EXPORT char * zsocket_last_endpoint (void *zocket);

//  Set socket options
CZMQ_EXPORT void zsocket_set_tos (void *zocket, int tos);
CZMQ_EXPORT void zsocket_set_router_handover (void *zocket, int router_handover);
CZMQ_EXPORT void zsocket_set_router_mandatory (void *zocket, int router_mandatory);
CZMQ_EXPORT void zsocket_set_probe_router (void *zocket, int probe_router);
CZMQ_EXPORT void zsocket_set_req_relaxed (void *zocket, int req_relaxed);
CZMQ_EXPORT void zsocket_set_req_correlate (void *zocket, int req_correlate);
CZMQ_EXPORT void zsocket_set_conflate (void *zocket, int conflate);
CZMQ_EXPORT void zsocket_set_zap_domain (void *zocket, const char * zap_domain);
CZMQ_EXPORT void zsocket_set_plain_server (void *zocket, int plain_server);
CZMQ_EXPORT void zsocket_set_plain_username (void *zocket, const char * plain_username);
CZMQ_EXPORT void zsocket_set_plain_password (void *zocket, const char * plain_password);
CZMQ_EXPORT void zsocket_set_curve_server (void *zocket, int curve_server);
CZMQ_EXPORT void zsocket_set_curve_publickey (void *zocket, const char * curve_publickey);
CZMQ_EXPORT void zsocket_set_curve_publickey_bin (void *zocket, const byte *curve_publickey);
CZMQ_EXPORT void zsocket_set_curve_secretkey (void *zocket, const char * curve_secretkey);
CZMQ_EXPORT void zsocket_set_curve_secretkey_bin (void *zocket, const byte *curve_secretkey);
CZMQ_EXPORT void zsocket_set_curve_serverkey (void *zocket, const char * curve_serverkey);
CZMQ_EXPORT void zsocket_set_curve_serverkey_bin (void *zocket, const byte *curve_serverkey);
CZMQ_EXPORT void zsocket_set_gssapi_server (void *zocket, int gssapi_server);
CZMQ_EXPORT void zsocket_set_gssapi_plaintext (void *zocket, int gssapi_plaintext);
CZMQ_EXPORT void zsocket_set_gssapi_principal (void *zocket, const char * gssapi_principal);
CZMQ_EXPORT void zsocket_set_gssapi_service_principal (void *zocket, const char * gssapi_service_principal);
CZMQ_EXPORT void zsocket_set_ipv6 (void *zocket, int ipv6);
CZMQ_EXPORT void zsocket_set_immediate (void *zocket, int immediate);
CZMQ_EXPORT void zsocket_set_router_raw (void *zocket, int router_raw);
CZMQ_EXPORT void zsocket_set_ipv4only (void *zocket, int ipv4only);
CZMQ_EXPORT void zsocket_set_delay_attach_on_connect (void *zocket, int delay_attach_on_connect);
CZMQ_EXPORT void zsocket_set_sndhwm (void *zocket, int sndhwm);
CZMQ_EXPORT void zsocket_set_rcvhwm (void *zocket, int rcvhwm);
CZMQ_EXPORT void zsocket_set_affinity (void *zocket, int affinity);
CZMQ_EXPORT void zsocket_set_subscribe (void *zocket, const char * subscribe);
CZMQ_EXPORT void zsocket_set_unsubscribe (void *zocket, const char * unsubscribe);
CZMQ_EXPORT void zsocket_set_identity (void *zocket, const char * identity);
CZMQ_EXPORT void zsocket_set_rate (void *zocket, int rate);
CZMQ_EXPORT void zsocket_set_recovery_ivl (void *zocket, int recovery_ivl);
CZMQ_EXPORT void zsocket_set_sndbuf (void *zocket, int sndbuf);
CZMQ_EXPORT void zsocket_set_rcvbuf (void *zocket, int rcvbuf);
CZMQ_EXPORT void zsocket_set_linger (void *zocket, int linger);
CZMQ_EXPORT void zsocket_set_reconnect_ivl (void *zocket, int reconnect_ivl);
CZMQ_EXPORT void zsocket_set_reconnect_ivl_max (void *zocket, int reconnect_ivl_max);
CZMQ_EXPORT void zsocket_set_backlog (void *zocket, int backlog);
CZMQ_EXPORT void zsocket_set_maxmsgsize (void *zocket, int maxmsgsize);
CZMQ_EXPORT void zsocket_set_multicast_hops (void *zocket, int multicast_hops);
CZMQ_EXPORT void zsocket_set_rcvtimeo (void *zocket, int rcvtimeo);
CZMQ_EXPORT void zsocket_set_sndtimeo (void *zocket, int sndtimeo);
CZMQ_EXPORT void zsocket_set_xpub_verbose (void *zocket, int xpub_verbose);
CZMQ_EXPORT void zsocket_set_tcp_keepalive (void *zocket, int tcp_keepalive);
CZMQ_EXPORT void zsocket_set_tcp_keepalive_idle (void *zocket, int tcp_keepalive_idle);
CZMQ_EXPORT void zsocket_set_tcp_keepalive_cnt (void *zocket, int tcp_keepalive_cnt);
CZMQ_EXPORT void zsocket_set_tcp_keepalive_intvl (void *zocket, int tcp_keepalive_intvl);
CZMQ_EXPORT void zsocket_set_tcp_accept_filter (void *zocket, const char * tcp_accept_filter);
#endif

#if (ZMQ_VERSION_MAJOR == 3)
//  Get socket options
CZMQ_EXPORT int zsocket_ipv4only (void *zocket);
CZMQ_EXPORT int zsocket_type (void *zocket);
CZMQ_EXPORT int zsocket_sndhwm (void *zocket);
CZMQ_EXPORT int zsocket_rcvhwm (void *zocket);
CZMQ_EXPORT int zsocket_affinity (void *zocket);
CZMQ_EXPORT char * zsocket_identity (void *zocket);
CZMQ_EXPORT int zsocket_rate (void *zocket);
CZMQ_EXPORT int zsocket_recovery_ivl (void *zocket);
CZMQ_EXPORT int zsocket_sndbuf (void *zocket);
CZMQ_EXPORT int zsocket_rcvbuf (void *zocket);
CZMQ_EXPORT int zsocket_linger (void *zocket);
CZMQ_EXPORT int zsocket_reconnect_ivl (void *zocket);
CZMQ_EXPORT int zsocket_reconnect_ivl_max (void *zocket);
CZMQ_EXPORT int zsocket_backlog (void *zocket);
CZMQ_EXPORT int zsocket_maxmsgsize (void *zocket);
CZMQ_EXPORT int zsocket_multicast_hops (void *zocket);
CZMQ_EXPORT int zsocket_rcvtimeo (void *zocket);
CZMQ_EXPORT int zsocket_sndtimeo (void *zocket);
CZMQ_EXPORT int zsocket_tcp_keepalive (void *zocket);
CZMQ_EXPORT int zsocket_tcp_keepalive_idle (void *zocket);
CZMQ_EXPORT int zsocket_tcp_keepalive_cnt (void *zocket);
CZMQ_EXPORT int zsocket_tcp_keepalive_intvl (void *zocket);
CZMQ_EXPORT char * zsocket_tcp_accept_filter (void *zocket);
CZMQ_EXPORT int zsocket_rcvmore (void *zocket);
CZMQ_EXPORT int zsocket_fd (void *zocket);
CZMQ_EXPORT int zsocket_events (void *zocket);
CZMQ_EXPORT char * zsocket_last_endpoint (void *zocket);

//  Set socket options
CZMQ_EXPORT void zsocket_set_router_raw (void *zocket, int router_raw);
CZMQ_EXPORT void zsocket_set_ipv4only (void *zocket, int ipv4only);
CZMQ_EXPORT void zsocket_set_delay_attach_on_connect (void *zocket, int delay_attach_on_connect);
CZMQ_EXPORT void zsocket_set_sndhwm (void *zocket, int sndhwm);
CZMQ_EXPORT void zsocket_set_rcvhwm (void *zocket, int rcvhwm);
CZMQ_EXPORT void zsocket_set_affinity (void *zocket, int affinity);
CZMQ_EXPORT void zsocket_set_subscribe (void *zocket, const char * subscribe);
CZMQ_EXPORT void zsocket_set_unsubscribe (void *zocket, const char * unsubscribe);
CZMQ_EXPORT void zsocket_set_identity (void *zocket, const char * identity);
CZMQ_EXPORT void zsocket_set_rate (void *zocket, int rate);
CZMQ_EXPORT void zsocket_set_recovery_ivl (void *zocket, int recovery_ivl);
CZMQ_EXPORT void zsocket_set_sndbuf (void *zocket, int sndbuf);
CZMQ_EXPORT void zsocket_set_rcvbuf (void *zocket, int rcvbuf);
CZMQ_EXPORT void zsocket_set_linger (void *zocket, int linger);
CZMQ_EXPORT void zsocket_set_reconnect_ivl (void *zocket, int reconnect_ivl);
CZMQ_EXPORT void zsocket_set_reconnect_ivl_max (void *zocket, int reconnect_ivl_max);
CZMQ_EXPORT void zsocket_set_backlog (void *zocket, int backlog);
CZMQ_EXPORT void zsocket_set_maxmsgsize (void *zocket, int maxmsgsize);
CZMQ_EXPORT void zsocket_set_multicast_hops (void *zocket, int multicast_hops);
CZMQ_EXPORT void zsocket_set_rcvtimeo (void *zocket, int rcvtimeo);
CZMQ_EXPORT void zsocket_set_sndtimeo (void *zocket, int sndtimeo);
CZMQ_EXPORT void zsocket_set_xpub_verbose (void *zocket, int xpub_verbose);
CZMQ_EXPORT void zsocket_set_tcp_keepalive (void *zocket, int tcp_keepalive);
CZMQ_EXPORT void zsocket_set_tcp_keepalive_idle (void *zocket, int tcp_keepalive_idle);
CZMQ_EXPORT void zsocket_set_tcp_keepalive_cnt (void *zocket, int tcp_keepalive_cnt);
CZMQ_EXPORT void zsocket_set_tcp_keepalive_intvl (void *zocket, int tcp_keepalive_intvl);
CZMQ_EXPORT void zsocket_set_tcp_accept_filter (void *zocket, const char * tcp_accept_filter);
#endif

#if (ZMQ_VERSION_MAJOR == 2)
//  Get socket options
CZMQ_EXPORT int zsocket_hwm (void *zocket);
CZMQ_EXPORT int zsocket_swap (void *zocket);
CZMQ_EXPORT int zsocket_affinity (void *zocket);
CZMQ_EXPORT char * zsocket_identity (void *zocket);
CZMQ_EXPORT int zsocket_rate (void *zocket);
CZMQ_EXPORT int zsocket_recovery_ivl (void *zocket);
CZMQ_EXPORT int zsocket_recovery_ivl_msec (void *zocket);
CZMQ_EXPORT int zsocket_mcast_loop (void *zocket);
#   if (ZMQ_VERSION_MINOR == 2)
CZMQ_EXPORT int zsocket_rcvtimeo (void *zocket);
#   endif
#   if (ZMQ_VERSION_MINOR == 2)
CZMQ_EXPORT int zsocket_sndtimeo (void *zocket);
#   endif
CZMQ_EXPORT int zsocket_sndbuf (void *zocket);
CZMQ_EXPORT int zsocket_rcvbuf (void *zocket);
CZMQ_EXPORT int zsocket_linger (void *zocket);
CZMQ_EXPORT int zsocket_reconnect_ivl (void *zocket);
CZMQ_EXPORT int zsocket_reconnect_ivl_max (void *zocket);
CZMQ_EXPORT int zsocket_backlog (void *zocket);
CZMQ_EXPORT int zsocket_type (void *zocket);
CZMQ_EXPORT int zsocket_rcvmore (void *zocket);
CZMQ_EXPORT int zsocket_fd (void *zocket);
CZMQ_EXPORT int zsocket_events (void *zocket);

//  Set socket options
CZMQ_EXPORT void zsocket_set_hwm (void *zocket, int hwm);
CZMQ_EXPORT void zsocket_set_swap (void *zocket, int swap);
CZMQ_EXPORT void zsocket_set_affinity (void *zocket, int affinity);
CZMQ_EXPORT void zsocket_set_identity (void *zocket, const char * identity);
CZMQ_EXPORT void zsocket_set_rate (void *zocket, int rate);
CZMQ_EXPORT void zsocket_set_recovery_ivl (void *zocket, int recovery_ivl);
CZMQ_EXPORT void zsocket_set_recovery_ivl_msec (void *zocket, int recovery_ivl_msec);
CZMQ_EXPORT void zsocket_set_mcast_loop (void *zocket, int mcast_loop);
#   if (ZMQ_VERSION_MINOR == 2)
CZMQ_EXPORT void zsocket_set_rcvtimeo (void *zocket, int rcvtimeo);
#   endif
#   if (ZMQ_VERSION_MINOR == 2)
CZMQ_EXPORT void zsocket_set_sndtimeo (void *zocket, int sndtimeo);
#   endif
CZMQ_EXPORT void zsocket_set_sndbuf (void *zocket, int sndbuf);
CZMQ_EXPORT void zsocket_set_rcvbuf (void *zocket, int rcvbuf);
CZMQ_EXPORT void zsocket_set_linger (void *zocket, int linger);
CZMQ_EXPORT void zsocket_set_reconnect_ivl (void *zocket, int reconnect_ivl);
CZMQ_EXPORT void zsocket_set_reconnect_ivl_max (void *zocket, int reconnect_ivl_max);
CZMQ_EXPORT void zsocket_set_backlog (void *zocket, int backlog);
CZMQ_EXPORT void zsocket_set_subscribe (void *zocket, const char * subscribe);
CZMQ_EXPORT void zsocket_set_unsubscribe (void *zocket, const char * unsubscribe);
#endif

//  Self test of this class
CZMQ_EXPORT void zsockopt_test (bool verbose);

//  Receive C string from socket. Caller must free returned string using
//  zstr_free(). Returns NULL if the context is being terminated or the
//  process was interrupted.
CZMQ_EXPORT char *
    zstr_recv (void *source);

//  Send a C string to a socket, as a frame. The string is sent without
//  trailing null byte; to read this you can use zstr_recv, or a similar
//  method that adds a null terminator on the received string.
CZMQ_EXPORT int
    zstr_send (void *dest, const char *string);

//  Send a C string to a socket, as zstr_send(), with a MORE flag, so that
//  you can send further strings in the same multi-part message.
CZMQ_EXPORT int
    zstr_sendm (void *dest, const char *string);

//  Send a formatted string to a socket. Note that you should NOT use
//  user-supplied strings in the format (they may contain '%' which
//  will create security holes).
CZMQ_EXPORT int
    zstr_sendf (void *dest, const char *format, ...);

//  Send a formatted string to a socket, as for zstr_sendf(), with a
//  MORE flag, so that you can send further strings in the same multi-part
//  message.
CZMQ_EXPORT int
    zstr_sendfm (void *dest, const char *format, ...);

//  Send a series of strings (until NULL) as multipart data
//  Returns 0 if the strings could be sent OK, or -1 on error.
CZMQ_EXPORT int
    zstr_sendx (void *dest, const char *string, ...);

//  Receive a series of strings (until NULL) from multipart data.
//  Each string is allocated and filled with string data; if there
//  are not enough frames, unallocated strings are set to NULL.
//  Returns -1 if the message could not be read, else returns the
//  number of strings filled, zero or more. Free each returned string
//  using zstr_free(). If not enough strings are provided, remaining
//  multipart frames in the message are dropped.
CZMQ_EXPORT int
    zstr_recvx (void *source, char **string_p, ...);

//  Free a provided string, and nullify the parent pointer. Safe to call on
//  a null pointer.
CZMQ_EXPORT void
    zstr_free (char **string_p);

//  Self test of this class
CZMQ_EXPORT void
    zstr_test (bool verbose);

#define UDP_FRAME_MAX   255         //  Max size of UDP frame

//  Callback for interrupt signal handler
typedef void (zsys_handler_fn) (int signal_value);

//  Initialize CZMQ zsys layer; this happens automatically when you create
//  a socket or an actor; however this call lets you force initialization
//  earlier, so e.g. logging is properly set-up before you start working.
//  Not threadsafe, so call only from main thread.
CZMQ_EXPORT void
    zsys_init (void);
    
//  Get a new ZMQ socket, automagically creating a ZMQ context if this is
//  the first time. Caller is responsible for destroying the ZMQ socket
//  before process exits, to avoid a ZMQ deadlock. Note: you should not use
//  this method in CZMQ apps, use zsock_new() instead.
//  *** This is for CZMQ internal use only and may change arbitrarily ***
CZMQ_EXPORT void *
    zsys_socket (int type, const char *filename, size_t line_nbr);

//  Destroy/close a ZMQ socket. You should call this for every socket you
//  create using zsys_socket().
//  *** This is for CZMQ internal use only and may change arbitrarily ***
CZMQ_EXPORT int
    zsys_close (void *handle, const char *filename, size_t line_nbr);
    
//  Set interrupt handler (NULL means external handler)
CZMQ_EXPORT void
    zsys_handler_set (zsys_handler_fn *handler_fn);

//  Reset interrupt handler, call this at exit if needed
CZMQ_EXPORT void
    zsys_handler_reset (void);

//  Set default interrupt handler, so Ctrl-C or SIGTERM will set
//  zsys_interrupted. Idempotent; safe to call multiple times.
//  *** This is for CZMQ internal use only and may change arbitrarily ***
CZMQ_EXPORT void
    zsys_catch_interrupts (void);

//  Return 1 if file exists, else zero
CZMQ_EXPORT bool
    zsys_file_exists (const char *filename);

//  Return size of file, or -1 if not found
CZMQ_EXPORT ssize_t
    zsys_file_size (const char *filename);

//  Return file modification time. Returns 0 if the file does not exist.
CZMQ_EXPORT time_t
    zsys_file_modified (const char *filename);

//  Return file mode; provides at least support for the POSIX S_ISREG(m)
//  and S_ISDIR(m) macros and the S_IRUSR and S_IWUSR bits, on all boxes.
CZMQ_EXPORT mode_t
    zsys_file_mode (const char *filename);

//  Delete file. Does not complain if the file is absent
CZMQ_EXPORT int
    zsys_file_delete (const char *filename);

//  Check if file is 'stable'
CZMQ_EXPORT bool
    zsys_file_stable (const char *filename);

//  Create a file path if it doesn't exist. The file path is treated as a 
//  printf format.
CZMQ_EXPORT int
    zsys_dir_create (const char *pathname, ...);

//  Remove a file path if empty; the pathname is treated as printf format.
CZMQ_EXPORT int
    zsys_dir_delete (const char *pathname, ...);

//  Set private file creation mode; all files created from here will be
//  readable/writable by the owner only.
CZMQ_EXPORT void
    zsys_file_mode_private (void);

//  Reset default file creation mode; all files created from here will use
//  process file mode defaults.
CZMQ_EXPORT void
    zsys_file_mode_default (void);

//  Return the CZMQ version for run-time API detection
CZMQ_EXPORT void
    zsys_version (int *major, int *minor, int *patch);

//  Format a string using printf formatting, returning a freshly allocated
//  buffer. If there was insufficient memory, returns NULL. Free the returned
//  string using zstr_free().
CZMQ_EXPORT char *
    zsys_sprintf (const char *format, ...);

//  Format a string with a va_list argument, returning a freshly allocated
//  buffer. If there was insufficient memory, returns NULL. Free the returned
//  string using zstr_free().
CZMQ_EXPORT char *
    zsys_vprintf (const char *format, va_list argptr);

//  Create UDP beacon socket; if the routable option is true, uses
//  multicast (not yet implemented), else uses broadcast. This method
//  and related ones might _eventually_ be moved to a zudp class.
//  *** This is for CZMQ internal use only and may change arbitrarily ***
CZMQ_EXPORT SOCKET
    zsys_udp_new (bool routable);

//  Close a UDP socket
//  *** This is for CZMQ internal use only and may change arbitrarily ***
CZMQ_EXPORT int
    zsys_udp_close (SOCKET handle);

//  Send zframe to UDP socket
//  *** This is for CZMQ internal use only and may change arbitrarily ***
CZMQ_EXPORT void
    zsys_udp_send (SOCKET udpsock, zframe_t *frame, inaddr_t *address);

//  Receive zframe from UDP socket, and set address of peer that sent it
//  The peername must be a char [INET_ADDRSTRLEN] array.
//  *** This is for CZMQ internal use only and may change arbitrarily ***
CZMQ_EXPORT zframe_t *
    zsys_udp_recv (SOCKET udpsock, char *peername);

//  Handle an I/O error on some socket operation; will report and die on
//  fatal errors, and continue silently on "try again" errors.
//  *** This is for CZMQ internal use only and may change arbitrarily ***
CZMQ_EXPORT void
    zsys_socket_error (const char *reason);

//  Return current host name, for use in public tcp:// endpoints. Caller gets
//  a freshly allocated string, should free it using zstr_free().
CZMQ_EXPORT char *
    zsys_hostname (void);

//  Move the current process into the background. The precise effect depends
//  on the operating system. On POSIX boxes, moves to a specified working
//  directory (if specified), closes all file handles, reopens stdin, stdout,
//  and stderr to the null device, and sets the process to ignore SIGHUP. On
//  Windows, does nothing. Returns 0 if OK, -1 if there was an error.
CZMQ_EXPORT int
    zsys_daemonize (const char *workdir);

//  Drop the process ID into the lockfile, with exclusive lock, and switch
//  the process to the specified group and/or user. Any of the arguments
//  may be null, indicating a no-op. Returns 0 on success, -1 on failure.
//  Note if you combine this with zsys_daemonize, run after, not before
//  that method, or the lockfile will hold the wrong process ID.
CZMQ_EXPORT int
    zsys_run_as (const char *lockfile, const char *group, const char *user);

//  Returns true if the underlying libzmq supports CURVE security.
//  Uses a heuristic probe according to the version of libzmq being used.
CZMQ_EXPORT bool
    zsys_has_curve (void);

//  Configure the number of I/O threads that ZeroMQ will use. A good
//  rule of thumb is one thread per gigabit of traffic in or out. The
//  default is 1, sufficient for most applications. If the environment
//  variable ZSYS_IO_THREADS is defined, that provides the default.
//  Note that this method is valid only before any socket is created.
CZMQ_EXPORT void
    zsys_set_io_threads (size_t io_threads);

//  Configure the number of sockets that ZeroMQ will allow. The default
//  is 1024. The actual limit depends on the system, and you can query it
//  by using zsys_socket_limit (). A value of zero means "maximum".
//  Note that this method is valid only before any socket is created.
CZMQ_EXPORT void
    zsys_set_max_sockets (size_t max_sockets);

//  Return maximum number of ZeroMQ sockets that the system will support.
CZMQ_EXPORT size_t
    zsys_socket_limit (void);

//  Configure the default linger timeout in msecs for new zsock instances.
//  You can also set this separately on each zsock_t instance. The default
//  linger time is zero, i.e. any pending messages will be dropped. If the
//  environment variable ZSYS_LINGER is defined, that provides the default.
//  Note that process exit will typically be delayed by the linger time.
CZMQ_EXPORT void
    zsys_set_linger (size_t linger);

//  Configure the default outgoing pipe limit (HWM) for new zsock instances.
//  You can also set this separately on each zsock_t instance. The default
//  HWM is 1,000, on all versions of ZeroMQ. If the environment variable
//  ZSYS_SNDHWM is defined, that provides the default. Note that a value of
//  zero means no limit, i.e. infinite memory consumption.
CZMQ_EXPORT void
    zsys_set_sndhwm (size_t sndhwm);

//  Configure the default incoming pipe limit (HWM) for new zsock instances.
//  You can also set this separately on each zsock_t instance. The default
//  HWM is 1,000, on all versions of ZeroMQ. If the environment variable
//  ZSYS_RCVHWM is defined, that provides the default. Note that a value of
//  zero means no limit, i.e. infinite memory consumption.
CZMQ_EXPORT void
    zsys_set_rcvhwm (size_t rcvhwm);

//  Configure the default HWM for zactor internal pipes; this is set on both
//  ends of the pipe, for outgoing messages only (sndhwm). The default HWM is
//  1,000, on all versions of ZeroMQ. If the environment var ZSYS_ACTORHWM is
//  defined, that provides the default. Note that a value of zero means no
//  limit, i.e. infinite memory consumption.
CZMQ_EXPORT void
    zsys_set_pipehwm (size_t pipehwm);

//  Return the HWM for zactor internal pipes.
CZMQ_EXPORT size_t
    zsys_pipehwm (void);

//  Configure use of IPv6 for new zsock instances. By default sockets accept
//  and make only IPv4 connections. When you enable IPv6, sockets will accept
//  and connect to both IPv4 and IPv6 peers. You can override the setting on
//  each zsock_t instance. The default is IPv4 only (ipv6 set to 0). If the
//  environment variable ZSYS_IPV6 is defined (as 1 or 0), this provides the
//  default. Note: has no effect on ZMQ v2.
CZMQ_EXPORT void
    zsys_set_ipv6 (int ipv6);

//  Set network interface name to use for broadcasts, particularly zbeacon.
//  This lets the interface be configured for test environments where required.
//  For example, on Mac OS X, zbeacon cannot bind to 255.255.255.255 which is
//  the default when there is no specified interface. If the environment
//  variable ZSYS_INTERFACE is set, use that as the default interface name.
CZMQ_EXPORT void
    zsys_set_interface (const char *value);

//  Return network interface to use for broadcasts, or "" if none was set.
CZMQ_EXPORT const char *
    zsys_interface (void);

//  Set log identity, which is a string that prefixes all log messages sent
//  by this process. The log identity defaults to the environment variable
//  ZSYS_LOGIDENT, if that is set.
CZMQ_EXPORT void
    zsys_set_logident (const char *value);

//  Set stream to receive log traffic. By default, log traffic is sent to
//  stdout. If you set the stream to NULL, no stream will receive the log
//  traffic (it may still be sent to the system facility).
CZMQ_EXPORT void
    zsys_set_logstream (FILE *stream);
    
//  Sends log output to a PUB socket bound to the specified endpoint. To
//  collect such log output, create a SUB socket, subscribe to the traffic
//  you care about, and connect to the endpoint. Log traffic is sent as a
//  single string frame, in the same format as when sent to stdout. The
//  log system supports a single sender; multiple calls to this method will
//  bind the same sender to multiple endpoints. To disable the sender, call
//  this method with a null argument.
CZMQ_EXPORT void
    zsys_set_logsender (const char *endpoint);

//  Enable or disable logging to the system facility (syslog on POSIX boxes,
//  event log on Windows). By default this is disabled.
CZMQ_EXPORT void
    zsys_set_logsystem (bool logsystem);
    
//  Log error condition - highest priority
CZMQ_EXPORT void
    zsys_error (const char *format, ...);

//  Log warning condition - high priority
CZMQ_EXPORT void
    zsys_warning (const char *format, ...);
    
//  Log normal, but significant, condition - normal priority
CZMQ_EXPORT void
    zsys_notice (const char *format, ...);
    
//  Log informational message - low priority
CZMQ_EXPORT void
    zsys_info (const char *format, ...);
    
//  Log debug-level message - lowest priority
CZMQ_EXPORT void
    zsys_debug (const char *format, ...);

//  Self test of this class
CZMQ_EXPORT void
    zsys_test (bool verbose);
    
//  Global signal indicator, TRUE when user presses Ctrl-C or the process
//  gets a SIGTERM signal.
CZMQ_EXPORT extern volatile int zsys_interrupted;
//  Deprecated name for this variable
CZMQ_EXPORT extern volatile int zctx_interrupted;

//  Detached threads follow POSIX pthreads API
typedef void *(zthread_detached_fn) (void *args);

//  Attached threads get context and pipe from parent
typedef void (zthread_attached_fn) (void *args, zctx_t *ctx, void *pipe);

//  Create a detached thread. A detached thread operates autonomously
//  and is used to simulate a separate process. It gets no ctx, and no
//  pipe.
CZMQ_EXPORT int
    zthread_new (zthread_detached_fn *thread_fn, void *args);

//  Create an attached thread. An attached thread gets a ctx and a PAIR
//  pipe back to its parent. It must monitor its pipe, and exit if the
//  pipe becomes unreadable. Do not destroy the ctx, the thread does this
//  automatically when it ends.
CZMQ_EXPORT void *
    zthread_fork (zctx_t *ctx, zthread_attached_fn *thread_fn, void *args);

//  Self test of this class
CZMQ_EXPORT void
    zthread_test (bool verbose);

//  Constructor
CZMQ_EXPORT zuuid_t *
    zuuid_new (void);

//  Destructor
CZMQ_EXPORT void
    zuuid_destroy (zuuid_t **self_p);

//  Return UUID binary data
CZMQ_EXPORT byte *
    zuuid_data (zuuid_t *self);

//  Return UUID binary size
CZMQ_EXPORT size_t
    zuuid_size (zuuid_t *self);

//  Returns UUID as string
CZMQ_EXPORT char *
    zuuid_str (zuuid_t *self);

//  Set UUID to new supplied value 
CZMQ_EXPORT void
    zuuid_set (zuuid_t *self, byte *source);
    
//  Store UUID blob in target array
CZMQ_EXPORT void
    zuuid_export (zuuid_t *self, byte *target);

//  Check if UUID is same as supplied value
CZMQ_EXPORT bool
    zuuid_eq (zuuid_t *self, byte *compare);

//  Check if UUID is different from supplied value
CZMQ_EXPORT bool
    zuuid_neq (zuuid_t *self, byte *compare);

//  Make copy of UUID object
CZMQ_EXPORT zuuid_t *
    zuuid_dup (zuuid_t *self);

//  Self test of this class
CZMQ_EXPORT void
    zuuid_test (bool verbose);