#include "vxi11.h" /** * This is a thin wrapper around the rpcgen generated code to give it a simpler interface. * Only one server with a single link is supported. */ #define VXI11_DEFAULT_TIMEOUT 1000 static CLIENT* clnt = NULL; static Device_Link link; /** * create an RPC client and open a link to the server at $address. * $device is apparently used for VXI-11 -> GPIB gateways.. this is untested. */ int vxi11_open(char* address, char* device) { clnt = clnt_create(address, DEVICE_CORE, DEVICE_CORE_VERSION, "tcp"); if (clnt == NULL) return 0; else { Create_LinkParms link_parms; link_parms.clientId = (long) clnt; link_parms.lockDevice = 0; link_parms.lock_timeout = VXI11_DEFAULT_TIMEOUT; link_parms.device = device; Create_LinkResp* linkresp = create_link_1(&link_parms, clnt); if (linkresp != NULL && linkresp->error == 0) { link = linkresp->lid; return 1; } else if (linkresp == NULL) return 0; else return -(linkresp->error); } } /** * read the status byte of the connected server */ int vxi11_readstatusbyte() { if (clnt == NULL) return 0; Device_GenericParms params = { .lid = link, .flags = 0x0, .lock_timeout = VXI11_DEFAULT_TIMEOUT, .io_timeout = VXI11_DEFAULT_TIMEOUT }; Device_ReadStbResp* resp = device_readstb_1(¶ms, clnt); if (resp != NULL && resp->error == 0) return resp->stb; else if (resp == NULL) return 0; else return -1; } /** * write to the connected device */ int vxi11_write(char* data, unsigned int len) { if (clnt == NULL) return 0; Device_WriteParms params = { .lid = link, .io_timeout = VXI11_DEFAULT_TIMEOUT, .lock_timeout = VXI11_DEFAULT_TIMEOUT, .flags = 0x0 }; params.data.data_len = len; params.data.data_val = data; Device_WriteResp* resp = device_write_1(¶ms, clnt); if (resp != NULL && resp->error == 0) return resp->size; else if (resp == NULL) return 0; else return -1; } /** * read from the connected device */ int vxi11_read() { if (clnt == NULL) return 0; Device_ReadParms params = { .lid = link, .requestSize = 256, .io_timeout = VXI11_DEFAULT_TIMEOUT, .lock_timeout = VXI11_DEFAULT_TIMEOUT, .flags = 0x0, .termChar = 0x0 }; Device_ReadResp* resp = device_read_1(¶ms, clnt); if (resp != NULL && resp->error == 0) return resp->data.data_len; else if (resp == NULL) return 0; else return -1; } /** * */ int vxi11_docmd(unsigned long cmd) { if (clnt == NULL) return 0; Device_DocmdParms params = { .lid = link, .flags = 0x0, .io_timeout = VXI11_DEFAULT_TIMEOUT, .lock_timeout = VXI11_DEFAULT_TIMEOUT, .cmd = cmd, .network_order = 0, .datasize = 0 }; params.data_in.data_in_len = 0; params.data_in.data_in_val = NULL; Device_DocmdResp* resp = device_docmd_1(¶ms, clnt); if (resp != NULL && resp->error == 0) return 1; else if (resp == NULL) return 0; else return -(resp->error); } /** * trigger the connected device */ int vxi11_trigger() { if (clnt == NULL) return 0; Device_GenericParms params = { .lid = link, .flags = 0x0, .lock_timeout = VXI11_DEFAULT_TIMEOUT, .io_timeout = VXI11_DEFAULT_TIMEOUT }; Device_Error* error = device_trigger_1(¶ms, clnt); if (error->error == 0) return 1; else return -(error->error); } /** * clear the connected device */ int vxi11_clear() { if (clnt == NULL) return 0; Device_GenericParms params = { .lid = link, .flags = 0x0, .lock_timeout = VXI11_DEFAULT_TIMEOUT, .io_timeout = VXI11_DEFAULT_TIMEOUT }; Device_Error* error = device_clear_1(¶ms, clnt); if (error != NULL && error->error == 0) return 1; else if (error == NULL) return 0; else return -(error->error); } /** * remote the connected device */ int vxi11_remote() { if (clnt == NULL) return 0; Device_GenericParms params = { .lid = link, .flags = 0x0, .lock_timeout = VXI11_DEFAULT_TIMEOUT, .io_timeout = VXI11_DEFAULT_TIMEOUT }; Device_Error* error = device_remote_1(¶ms, clnt); if (error != NULL && error->error == 0) return 1; else if (error == NULL) return 0; else return -(error->error); } /** * local the connected device */ int vxi11_local() { if (clnt == NULL) return 0; Device_GenericParms params = { .lid = link, .flags = 0x0, .lock_timeout = VXI11_DEFAULT_TIMEOUT, .io_timeout = VXI11_DEFAULT_TIMEOUT }; Device_Error* error = device_local_1(¶ms, clnt); if (error != NULL && error->error == 0) return 1; else if (error == NULL) return 0; else return -(error->error); } /** * lock the connected device */ int vxi11_lock() { if (clnt == NULL) return 0; Device_LockParms params = { .lid = link, .flags = 0x0, .lock_timeout = VXI11_DEFAULT_TIMEOUT }; Device_Error* error = device_lock_1(¶ms, clnt); if (error != NULL && error->error == 0) return 1; else if (error == NULL) return 0; else return -(error->error); } /** * unlock the connected device */ int vxi11_unlock() { if (clnt == NULL) return 0; Device_Error* error = device_unlock_1(&link, clnt); if (error != NULL && error->error == 0) return 1; else if (error == NULL) return 0; else return -(error->error); } /** * create an interrupt channel from the connected device */ int vxi11_create_intr_chan() { if (clnt == NULL) return 0; Device_RemoteFunc remotefunc = { .hostAddr = 0x0, .hostPort = 0x0, .progNum = 0x0, .progVers = 0x0, .progFamily = DEVICE_TCP }; Device_Error* error = create_intr_chan_1(&remotefunc, clnt); if (error != NULL && error->error == 0) return 1; else if (error == NULL) return 0; else return -(error->error); } /** * destroy an interrupt channel from the connected device */ int vxi11_destroy_intr_chan() { if (clnt == NULL) return 0; Device_Error* error = destroy_intr_chan_1(NULL, clnt); if (error != NULL && error->error == 0) return 1; else if (error == NULL) return 0; else return -(error->error); } /** * send an abort to the connected device */ int vxi11_abort() { if (clnt == NULL) return 0; Device_Error* error = device_abort_1(&link, clnt); if (error != NULL && error->error == 0) return 1; else if (error == NULL) return 0; else return -(error->error); } /** * close the current link and free the RPC client */ int vxi11_close() { if (clnt == NULL) return 0; Device_Error* error = destroy_link_1(&link, clnt); clnt_destroy(clnt); clnt = NULL; if (error != NULL && error->error == 0) return 1; else if (error == NULL) return 0; else return -(error->error); }