X-Git-Url: https://gerrit.o-ran-sc.org/r/gitweb?a=blobdiff_plain;f=src%2Fbindings%2Frmr-python%2Frmr%2Frmr.py;h=9e45dd6092ae8933243c435e39a8fee3cf67e299;hb=50b92c56c2bbe5c4405f0bdd2eefbd21d65a8416;hp=d1326c0f7f3aff781d31ee81fefa962a3fa8223f;hpb=0cb4b57403307f128b3597a52fa77cbc8524f078;p=ric-plt%2Flib%2Frmr.git diff --git a/src/bindings/rmr-python/rmr/rmr.py b/src/bindings/rmr-python/rmr/rmr.py index d1326c0..9e45dd6 100644 --- a/src/bindings/rmr-python/rmr/rmr.py +++ b/src/bindings/rmr-python/rmr/rmr.py @@ -29,6 +29,9 @@ _ = CDLL("libnng.so", mode=RTLD_GLOBAL) rmr_c_lib = CDLL("librmr_nng.so", mode=RTLD_GLOBAL) +# Internal Helpers (not a part of public api) + + _rmr_const = rmr_c_lib.rmr_get_consts _rmr_const.argtypes = [] _rmr_const.restype = c_char_p @@ -51,22 +54,22 @@ def _get_mapping_dict(cache={}): """ Get or build the state mapping dict - #define RMR_OK 0 // state is good - #define RMR_ERR_BADARG 1 // argument passd to function was unusable - #define RMR_ERR_NOENDPT 2 // send/call could not find an endpoint based on msg type - #define RMR_ERR_EMPTY 3 // msg received had no payload; attempt to send an empty message - #define RMR_ERR_NOHDR 4 // message didn't contain a valid header - #define RMR_ERR_SENDFAILED 5 // send failed; errno has nano reason - #define RMR_ERR_CALLFAILED 6 // unable to send call() message - #define RMR_ERR_NOWHOPEN 7 // no wormholes are open - #define RMR_ERR_WHID 8 // wormhole id was invalid - #define RMR_ERR_OVERFLOW 9 // operation would have busted through a buffer/field size - #define RMR_ERR_RETRY 10 // request (send/call/rts) failed, but caller should retry (EAGAIN for wrappers) - #define RMR_ERR_RCVFAILED 11 // receive failed (hard error) - #define RMR_ERR_TIMEOUT 12 // message processing call timed out - #define RMR_ERR_UNSET 13 // the message hasn't been populated with a transport buffer - #define RMR_ERR_TRUNC 14 // received message likely truncated - #define RMR_ERR_INITFAILED 15 // initialisation of something (probably message) failed + RMR_OK 0 state is good + RMR_ERR_BADARG 1 argument passd to function was unusable + RMR_ERR_NOENDPT 2 send/call could not find an endpoint based on msg type + RMR_ERR_EMPTY 3 msg received had no payload; attempt to send an empty message + RMR_ERR_NOHDR 4 message didn't contain a valid header + RMR_ERR_SENDFAILED 5 send failed; errno has nano reason + RMR_ERR_CALLFAILED 6 unable to send call() message + RMR_ERR_NOWHOPEN 7 no wormholes are open + RMR_ERR_WHID 8 wormhole id was invalid + RMR_ERR_OVERFLOW 9 operation would have busted through a buffer/field size + RMR_ERR_RETRY 10 request (send/call/rts) failed, but caller should retry (EAGAIN for wrappers) + RMR_ERR_RCVFAILED 11 receive failed (hard error) + RMR_ERR_TIMEOUT 12 message processing call timed out + RMR_ERR_UNSET 13 the message hasn't been populated with a transport buffer + RMR_ERR_TRUNC 14 received message likely truncated + RMR_ERR_INITFAILED 15 initialization of something (probably message) failed """ if cache: @@ -85,55 +88,57 @@ def _state_to_status(stateno): """ Convert a msg state to status - Parameters - ---------- - stateno: int - the state of the rmr message buffer - - Returns - ------- - string - the cooresponding message state """ sdict = _get_mapping_dict() return sdict.get(stateno, "UNKNOWN STATE") +_RCONST = _get_constants() + + ############## # PUBLIC API ############## + # These constants are directly usable by importers of this library # TODO: Are there others that will be useful? -RMR_MAX_RCV_BYTES = _get_constants()["RMR_MAX_RCV_BYTES"] + +RMR_MAX_RCV_BYTES = _RCONST["RMR_MAX_RCV_BYTES"] +RMRFL_MTCALL = _RCONST.get("RMRFL_MTCALL", 0x02) # initialization flags +RMRFL_NONE = _RCONST.get("RMRFL_NONE", 0x0) +RMR_OK = _RCONST["RMR_OK"] # useful state constants +RMR_ERR_TIMEOUT = _RCONST["RMR_ERR_TIMEOUT"] +RMR_ERR_RETRY = _RCONST["RMR_ERR_RETRY"] class rmr_mbuf_t(Structure): """ Reimplementation of rmr_mbuf_t which is in an unaccessible header file (src/common/include/rmr.h) - typedef struct { - int state; // state of processing - int mtype; // message type - int len; // length of data in the payload (send or received) - unsigned char* payload; // transported data - unsigned char* xaction; // pointer to fixed length transaction id bytes - int sub_id; // subscription id - int tp_state; // transport state (a.k.a errno) - // these things are off limits to the user application - void* tp_buf; // underlying transport allocated pointer (e.g. nng message) - void* header; // internal message header (whole buffer: header+payload) - unsigned char* id; // if we need an ID in the message separate from the xaction id - int flags; // various MFL_ (private) flags as needed - int alloc_len; // the length of the allocated space (hdr+payload) - } rmr_mbuf_t; + | typedef struct { + | int state; // state of processing + | int mtype; // message type + | int len; // length of data in the payload (send or received) + | unsigned char* payload; // transported data + | unsigned char* xaction; // pointer to fixed length transaction id bytes + | int sub_id; // subscription id + | int tp_state; // transport state (a.k.a errno) + | + | these things are off limits to the user application + | + | void* tp_buf; // underlying transport allocated pointer (e.g. nng message) + | void* header; // internal message header (whole buffer: header+payload) + | unsigned char* id; // if we need an ID in the message separate from the xaction id + | int flags; // various MFL (private) flags as needed + | int alloc_len; // the length of the allocated space (hdr+payload) + | } rmr_mbuf_t; We do not include the fields we are not supposed to mess with - RE PAYLOADs type below, see the documentation for c_char_p: + RE PAYLOADs type below, see the documentation for c_char_p: class ctypes.c_char_p Represents the C char * datatype when it points to a zero-terminated string. For a general character pointer that may also point to binary data, POINTER(c_char) must be used. The constructor accepts an integer address, or a bytes object. - """ _fields_ = [ @@ -153,188 +158,346 @@ class rmr_mbuf_t(Structure): # argtypes and restype are important: https://stackoverflow.com/questions/24377845/ctype-why-specify-argtypes -# extern void* rmr_init(char* uproto_port, int max_msg_size, int flags) -rmr_init = rmr_c_lib.rmr_init -rmr_init.argtypes = [c_char_p, c_int, c_int] -rmr_init.restype = c_void_p - - -# extern void rmr_close(void* vctx) -rmr_close = rmr_c_lib.rmr_close -rmr_close.argtypes = [c_void_p] -# I don't think there's a restype needed here. THe return is simply "return" in the c lib - -# extern int rmr_ready(void* vctx) -rmr_ready = rmr_c_lib.rmr_ready -rmr_ready.argtypes = [c_void_p] -rmr_ready.restype = c_int - -# extern int rmr_set_stimeout(void* vctx, int time) -# RE "int time", from the C docs: -# Set send timeout. The value time is assumed to be microseconds. The timeout is the -# rough maximum amount of time that RMr will block on a send attempt when the underlying -# mechnism indicates eagain or etimeedout. All other error conditions are reported -# without this delay. Setting a timeout of 0 causes no retries to be attempted in -# RMr code. Setting a timeout of 1 causes RMr to spin up to 10K retries before returning, -# but without issuing a sleep. If timeout is > 1, then RMr will issue a sleep (1us) -# after every 10K send attempts until the time value is reached. Retries are abandoned -# if NNG returns anything other than NNG_AGAIN or NNG_TIMEDOUT. -# -# The default, if this function is not used, is 1; meaning that RMr will retry, but will -# not enter a sleep. In all cases the caller should check the status in the message returned -# after a send call. -rmr_set_stimeout = rmr_c_lib.rmr_set_rtimeout -rmr_set_stimeout.argtypes = [c_void_p, c_int] -rmr_set_stimeout.restype = c_int +_rmr_init = rmr_c_lib.rmr_init +_rmr_init.argtypes = [c_char_p, c_int, c_int] +_rmr_init.restype = c_void_p + + +def rmr_init(uproto_port, max_msg_size, flags): + """ + Refer to rmr C documentation for rmr_init + extern void* rmr_init(char* uproto_port, int max_msg_size, int flags) + """ + return _rmr_init(uproto_port, max_msg_size, flags) + + +_rmr_ready = rmr_c_lib.rmr_ready +_rmr_ready.argtypes = [c_void_p] +_rmr_ready.restype = c_int + + +def rmr_ready(vctx): + """ + Refer to rmr C documentation for rmr_ready + extern int rmr_ready(void* vctx) + """ + return _rmr_ready(vctx) + + +_rmr_close = rmr_c_lib.rmr_close +_rmr_close.argtypes = [c_void_p] + + +def rmr_close(vctx): + """ + Refer to rmr C documentation for rmr_close + extern void rmr_close(void* vctx) + """ + return _rmr_close(vctx) + + +_rmr_set_stimeout = rmr_c_lib.rmr_set_stimeout +_rmr_set_stimeout.argtypes = [c_void_p, c_int] +_rmr_set_stimeout.restype = c_int + -# extern rmr_mbuf_t* rmr_alloc_msg(void* vctx, int size) -rmr_alloc_msg = rmr_c_lib.rmr_alloc_msg -rmr_alloc_msg.argtypes = [c_void_p, c_int] -rmr_alloc_msg.restype = POINTER(rmr_mbuf_t) +def rmr_set_stimeout(vctx, time): + """ + Refer to the rmr C documentation for rmr_set_stimeout + extern int rmr_set_stimeout(void* vctx, int time) + """ + return _rmr_set_stimeout(vctx, time) + + +_rmr_alloc_msg = rmr_c_lib.rmr_alloc_msg +_rmr_alloc_msg.argtypes = [c_void_p, c_int] +_rmr_alloc_msg.restype = POINTER(rmr_mbuf_t) + + +def rmr_alloc_msg(vctx, size): + """ + Refer to the rmr C documentation for rmr_alloc_msg + extern rmr_mbuf_t* rmr_alloc_msg(void* vctx, int size) + """ + return _rmr_alloc_msg(vctx, size) + + +_rmr_free_msg = rmr_c_lib.rmr_free_msg +_rmr_free_msg.argtypes = [c_void_p] +_rmr_free_msg.restype = None + + +def rmr_free_msg(mbuf): + """ + Refer to the rmr C documentation for rmr_free_msg + extern void rmr_free_msg( rmr_mbuf_t* mbuf ) + """ + if mbuf is not None: + _rmr_free_msg(mbuf) + + +_rmr_payload_size = rmr_c_lib.rmr_payload_size +_rmr_payload_size.argtypes = [POINTER(rmr_mbuf_t)] +_rmr_payload_size.restype = c_int -# extern int rmr_payload_size(rmr_mbuf_t* msg) -rmr_payload_size = rmr_c_lib.rmr_payload_size -rmr_payload_size.argtypes = [POINTER(rmr_mbuf_t)] -rmr_payload_size.restype = c_int + +def rmr_payload_size(ptr_mbuf): + """ + Refer to the rmr C documentation for rmr_payload_size + extern int rmr_payload_size(rmr_mbuf_t* msg) + """ + return _rmr_payload_size(ptr_mbuf) """ The following functions all seem to have the same interface """ -# extern rmr_mbuf_t* rmr_send_msg(void* vctx, rmr_mbuf_t* msg) -rmr_send_msg = rmr_c_lib.rmr_send_msg -rmr_send_msg.argtypes = [c_void_p, POINTER(rmr_mbuf_t)] -rmr_send_msg.restype = POINTER(rmr_mbuf_t) +_rmr_send_msg = rmr_c_lib.rmr_send_msg +_rmr_send_msg.argtypes = [c_void_p, POINTER(rmr_mbuf_t)] +_rmr_send_msg.restype = POINTER(rmr_mbuf_t) + + +def rmr_send_msg(vctx, ptr_mbuf): + """ + Refer to the rmr C documentation for rmr_send_msg + extern rmr_mbuf_t* rmr_send_msg(void* vctx, rmr_mbuf_t* msg) + """ + return _rmr_send_msg(vctx, ptr_mbuf) + -# extern rmr_mbuf_t* rmr_rcv_msg(void* vctx, rmr_mbuf_t* old_msg) # TODO: the old message (Send param) is actually optional, but I don't know how to specify that in Ctypes. -rmr_rcv_msg = rmr_c_lib.rmr_rcv_msg -rmr_rcv_msg.argtypes = [c_void_p, POINTER(rmr_mbuf_t)] -rmr_rcv_msg.restype = POINTER(rmr_mbuf_t) +_rmr_rcv_msg = rmr_c_lib.rmr_rcv_msg +_rmr_rcv_msg.argtypes = [c_void_p, POINTER(rmr_mbuf_t)] +_rmr_rcv_msg.restype = POINTER(rmr_mbuf_t) + + +def rmr_rcv_msg(vctx, ptr_mbuf): + """ + Refer to the rmr C documentation for rmr_rcv_msg + extern rmr_mbuf_t* rmr_rcv_msg(void* vctx, rmr_mbuf_t* old_msg) + """ + return _rmr_rcv_msg(vctx, ptr_mbuf) + + +_rmr_torcv_msg = rmr_c_lib.rmr_torcv_msg +_rmr_torcv_msg.argtypes = [c_void_p, POINTER(rmr_mbuf_t), c_int] +_rmr_torcv_msg.restype = POINTER(rmr_mbuf_t) + + +def rmr_torcv_msg(vctx, ptr_mbuf, ms_to): + """ + Refer to the rmr C documentation for rmr_torcv_msg + extern rmr_mbuf_t* rmr_torcv_msg(void* vctx, rmr_mbuf_t* old_msg, int ms_to) + """ + return _rmr_torcv_msg(vctx, ptr_mbuf, ms_to) + + +_rmr_rts_msg = rmr_c_lib.rmr_rts_msg +_rmr_rts_msg.argtypes = [c_void_p, POINTER(rmr_mbuf_t)] +_rmr_rts_msg.restype = POINTER(rmr_mbuf_t) + + +def rmr_rts_msg(vctx, ptr_mbuf): + """ + Refer to the rmr C documentation for rmr_rts_msg + extern rmr_mbuf_t* rmr_rts_msg(void* vctx, rmr_mbuf_t* msg) + """ + return _rmr_rts_msg(vctx, ptr_mbuf) -# extern rmr_mbuf_t* rmr_torcv_msg(void* vctx, rmr_mbuf_t* old_msg, int ms_to) -# the version of receive for nng that has a timeout (give up after X ms) -rmr_torcv_msg = rmr_c_lib.rmr_torcv_msg -rmr_torcv_msg.argtypes = [c_void_p, POINTER(rmr_mbuf_t), c_int] -rmr_torcv_msg.restype = POINTER(rmr_mbuf_t) -# extern rmr_mbuf_t* rmr_rts_msg(void* vctx, rmr_mbuf_t* msg) -rmr_rts_msg = rmr_c_lib.rmr_rts_msg -rmr_rts_msg.argtypes = [c_void_p, POINTER(rmr_mbuf_t)] -rmr_rts_msg.restype = POINTER(rmr_mbuf_t) +_rmr_call = rmr_c_lib.rmr_call +_rmr_call.argtypes = [c_void_p, POINTER(rmr_mbuf_t)] +_rmr_call.restype = POINTER(rmr_mbuf_t) -# extern rmr_mbuf_t* rmr_call(void* vctx, rmr_mbuf_t* msg) -rmr_call = rmr_c_lib.rmr_call -rmr_call.argtypes = [c_void_p, POINTER(rmr_mbuf_t)] -rmr_call.restype = POINTER(rmr_mbuf_t) +def rmr_call(vctx, ptr_mbuf): + """ + Refer to the rmr C documentation for rmr_call + extern rmr_mbuf_t* rmr_call(void* vctx, rmr_mbuf_t* msg) + """ + return _rmr_call(vctx, ptr_mbuf) + + +_rmr_bytes2meid = rmr_c_lib.rmr_bytes2meid +_rmr_bytes2meid.argtypes = [POINTER(rmr_mbuf_t), c_char_p, c_int] +_rmr_bytes2meid.restype = c_int -# Header field interface -# extern int rmr_bytes2meid(rmr_mbuf_t* mbuf, unsigned char const* src, int len); -rmr_bytes2meid = rmr_c_lib.rmr_bytes2meid -rmr_bytes2meid.argtypes = [POINTER(rmr_mbuf_t), c_char_p, c_int] -rmr_bytes2meid.restype = c_int +def rmr_bytes2meid(ptr_mbuf, src, length): + """ + Refer to the rmr C documentation for rmr_bytes2meid + extern int rmr_bytes2meid(rmr_mbuf_t* mbuf, unsigned char const* src, int len); + """ + return _rmr_bytes2meid(ptr_mbuf, src, length) +# this is an alias to rmr_bytes2meid using familiar set/get terminoloigy +rmr_set_meid = rmr_bytes2meid + # CAUTION: Some of the C functions expect a mutable buffer to copy the bytes into; # if there is a get_* function below, use it to set up and return the # buffer properly. # extern unsigned char* rmr_get_meid(rmr_mbuf_t* mbuf, unsigned char* dest); -rmr_get_meid = rmr_c_lib.rmr_get_meid -rmr_get_meid.argtypes = [POINTER(rmr_mbuf_t), c_char_p] -rmr_get_meid.restype = c_char_p +# we don't provide direct access to this function (unless it is asked for) because it is not really useful to provide your own buffer. +# Rather, rmr_get_meid does this for you, and just returns the string. +_rmr_get_meid = rmr_c_lib.rmr_get_meid +_rmr_get_meid.argtypes = [POINTER(rmr_mbuf_t), c_char_p] +_rmr_get_meid.restype = c_char_p + -# extern unsigned char* rmr_get_src(rmr_mbuf_t* mbuf, unsigned char* dest); -rmr_get_src = rmr_c_lib.rmr_get_src -rmr_get_src.argtypes = [POINTER(rmr_mbuf_t), c_char_p] -rmr_get_src.restype = c_char_p +def rmr_get_meid(ptr_mbuf): + """ + Get the managed equipment ID (meid) from the message header. + + Parameters + ---------- + ptr_mbuf: ctypes c_void_p + Pointer to an rmr message buffer + + Returns + ------- + string: + meid + """ + sz = _get_constants().get("RMR_MAX_MEID", 64) # size for buffer to fill + buf = create_string_buffer(sz) + _rmr_get_meid(ptr_mbuf, buf) + return buf.value.decode() # decode turns into a string + + +_rmr_get_src = rmr_c_lib.rmr_get_src +_rmr_get_src.argtypes = [POINTER(rmr_mbuf_t), c_char_p] +_rmr_get_src.restype = c_char_p + + +def rmr_get_src(ptr_mbuf, dest): + """ + Refer to the rmr C documentation for rmr_get_src + extern unsigned char* rmr_get_src(rmr_mbuf_t* mbuf, unsigned char* dest); + """ + return _rmr_get_src(ptr_mbuf, dest) -# GET Methods +# Methods that exist ONLY in rmr-python, and are not wrapped methods +# In hindsight, I wish i put these in a seperate module, but leaving this here to prevent api breakage. -def get_payload(ptr_to_rmr_buf_t): +def get_payload(ptr_mbuf): """ - given a rmr_buf_t*, get it's binary payload as a bytes object - this magical function came from the answer here: https://stackoverflow.com/questions/55103298/python-ctypes-read-pointerc-char-in-python + Given a rmr_buf_t*, get it's binary payload as a bytes object + + Parameters + ---------- + ptr_mbuf: ctypes c_void_p + Pointer to an rmr message buffer + + Returns + ------- + bytes: + the message payload """ - sz = ptr_to_rmr_buf_t.contents.len + # Logic came from the answer here: https://stackoverflow.com/questions/55103298/python-ctypes-read-pointerc-char-in-python + sz = ptr_mbuf.contents.len CharArr = c_char * sz - return CharArr(*ptr_to_rmr_buf_t.contents.payload[:sz]).raw + return CharArr(*ptr_mbuf.contents.payload[:sz]).raw -def get_xaction(ptr_to_rmr_buf_t): +def get_xaction(ptr_mbuf): """ given a rmr_buf_t*, get it's transaction id + + Parameters + ---------- + ptr_mbuf: ctypes c_void_p + Pointer to an rmr message buffer + + Returns + ------- + bytes: + the transaction id """ - val = cast(ptr_to_rmr_buf_t.contents.xaction, c_char_p).value + val = cast(ptr_mbuf.contents.xaction, c_char_p).value sz = _get_constants().get("RMR_MAX_XID", 0) return val[:sz] -def message_summary(ptr_to_rmr_buf_t): +def message_summary(ptr_mbuf): """ - Used for debugging mostly: returns a dict that contains the fields of a message - """ - if ptr_to_rmr_buf_t.contents.len > RMR_MAX_RCV_BYTES: - return "Malformed message: message length is greater than the maximum possible" + Returns a dict that contains the fields of a message - meid = get_meid(ptr_to_rmr_buf_t) - if meid == "\000" * _get_constants().get("RMR_MAX_MEID", 32): # special case all nils - meid = None + Parameters + ---------- + ptr_mbuf: ctypes c_void_p + Pointer to an rmr message buffer + Returns + ------- + dict: + dict message summary + """ return { - "payload": get_payload(ptr_to_rmr_buf_t), - "payload length": ptr_to_rmr_buf_t.contents.len, - "message type": ptr_to_rmr_buf_t.contents.mtype, - "subscription id": ptr_to_rmr_buf_t.contents.sub_id, - "transaction id": get_xaction(ptr_to_rmr_buf_t), - "message state": ptr_to_rmr_buf_t.contents.state, - "message status": _state_to_status(ptr_to_rmr_buf_t.contents.state), - "payload max size": rmr_payload_size(ptr_to_rmr_buf_t), - "meid": meid, - "message source": get_src(ptr_to_rmr_buf_t), - "errno": ptr_to_rmr_buf_t.contents.tp_state, + "payload": get_payload(ptr_mbuf) if ptr_mbuf.contents.state == RMR_OK else None, + "payload length": ptr_mbuf.contents.len, + "message type": ptr_mbuf.contents.mtype, + "subscription id": ptr_mbuf.contents.sub_id, + "transaction id": get_xaction(ptr_mbuf), + "message state": ptr_mbuf.contents.state, + "message status": _state_to_status(ptr_mbuf.contents.state), + "payload max size": rmr_payload_size(ptr_mbuf), + "meid": rmr_get_meid(ptr_mbuf), + "message source": get_src(ptr_mbuf), + "errno": ptr_mbuf.contents.tp_state, } -def set_payload_and_length(byte_str, ptr_to_rmr_buf_t): +def set_payload_and_length(byte_str, ptr_mbuf): """ - use memmove to set the rmr_buf_t payload and content length + | Set an rmr payload and content length + | In place method, no return + + Parameters + ---------- + byte_str: bytes + the bytes to set the payload to + ptr_mbuf: ctypes c_void_p + Pointer to an rmr message buffer """ - memmove(ptr_to_rmr_buf_t.contents.payload, byte_str, len(byte_str)) - ptr_to_rmr_buf_t.contents.len = len(byte_str) + memmove(ptr_mbuf.contents.payload, byte_str, len(byte_str)) + ptr_mbuf.contents.len = len(byte_str) -def generate_and_set_transaction_id(ptr_to_rmr_buf_t): +def generate_and_set_transaction_id(ptr_mbuf): """ - use memmove to set the rmr_buf_t xaction + | Generate a UUID and Set an rmr transaction id to it + | In place method, no return + + Parameters + ---------- + ptr_mbuf: ctypes c_void_p + Pointer to an rmr message buffer """ uu_id = uuid.uuid1().hex.encode("utf-8") sz = _get_constants().get("RMR_MAX_XID", 0) - memmove(ptr_to_rmr_buf_t.contents.xaction, uu_id, sz) + memmove(ptr_mbuf.contents.xaction, uu_id, sz) -def get_meid(mbuf): +def get_src(ptr_mbuf): """ - Suss out the managed equipment ID (meid) from the message header. - This is a 32 byte field and RMr returns all 32 bytes which if the - sender did not set will be garbage. - """ - sz = _get_constants().get("RMR_MAX_MEID", 64) # size for buffer to fill - buf = create_string_buffer(sz) - rmr_get_meid(mbuf, buf) - return buf.raw.decode() + Get the message source (likely host:port) + Parameters + ---------- + ptr_mbuf: ctypes c_void_p + Pointer to an rmr message buffer -def get_src(mbuf): - """ - Suss out the message source information (likely host:port). + Returns + ------- + string: + message source """ sz = _get_constants().get("RMR_MAX_SRC", 64) # size to fill buf = create_string_buffer(sz) - rmr_get_src(mbuf, buf) + rmr_get_src(ptr_mbuf, buf) return buf.value.decode()