/* ***************************************************************************** * * Copyright 1996 Xylogics, Inc. ALL RIGHTS RESERVED. * * ALL RIGHTS RESERVED. Licensed Material - Property of Xylogics, Inc. * This software is made available solely pursuant to the terms of a * software license agreement which governs its use. * Unauthorized duplication, distribution or sale are strictly prohibited. * * Module Function: * Use RPC's to set PRI parameters in a remote Annex. * * Original Author: James Carlson Created on: 23 January 1996 * ***************************************************************************** */ /* Include Files */ #include "../inc/config.h" #include #ifndef _WIN32 #include #include #else #include "../inc/port/xuio.h" #endif #include "../libannex/api_if.h" #include "../inc/courier/courier.h" #include "../inc/erpc/netadmp.h" #include "netadm.h" #include "netadm_err.h" /* External Data Declarations */ /* Defines and Macros */ #define OUTGOING_COUNT 5 /* Structure Definitions */ /* Forward Routine Declarations */ /* Global Data Declarations */ /* Static Declarations */ set_pri_param(Pinet_addr, device_type, module_number, cat, number, type, Pdata) struct sockaddr_in *Pinet_addr; u_short device_type; u_short module_number; u_short cat; u_short number; u_short type; char *Pdata; { struct iovec outgoing[OUTGOING_COUNT + 1]; u_short param_one, param_two, param_three, param_four, group; u_short string_length; PARAM param_five; u_char *fmptr, *toptr; int error; /* Check *Pinet_addr address family. */ if (Pinet_addr->sin_family != AF_INET) return NAE_ADDR; /* Set up outgoing iovecs. outgoing[0] is only used by erpc_callresp(). outgoing[1] contains the device_type. outgoing[2] contains the PRI module number. outgoing[3] contains the category. outgoing[4] contains the PRI param number. outgoing[5] contains the PRI param value. */ param_one = htons(device_type); outgoing[1].iov_base = (caddr_t)¶m_one; outgoing[1].iov_len = sizeof(param_one); param_two = htons(module_number); outgoing[2].iov_base = (caddr_t)¶m_two; outgoing[2].iov_len = sizeof(param_two); param_three = htons(cat); outgoing[3].iov_base = (caddr_t)¶m_three; outgoing[3].iov_len = sizeof(param_three); param_four = htons(number); outgoing[4].iov_base = (caddr_t)¶m_four; outgoing[4].iov_len = sizeof(param_four); param_five.type = htons(type); switch (type) { case CARDINAL_P: case BYTE_P: case BOOLEAN_P: param_five.data.short_data = htons(*(u_short *)Pdata); outgoing[5].iov_len = 2 * sizeof(u_short); break; case BLOCK_32: case BLOCK_32_X_2: (void)bcopy(Pdata, param_five.data.raw_data, sizeof(param_five.data.raw_data)); outgoing[5].iov_len = sizeof(u_short) + sizeof(param_five.data.raw_data); break; case BLOCK_32_X_4: (void)bcopy(Pdata, param_five.data.raw_data, sizeof(param_five.data.raw_data)); outgoing[5].iov_len = sizeof(u_short) + sizeof(param_five.data.raw_data); break; case BLOCK_32_X_6: (void)bcopy(Pdata, param_five.data.raw_data, sizeof(param_five.data.raw_data)); outgoing[5].iov_len = sizeof(u_short) + sizeof(param_five.data.raw_data); break; case ADM_STRING_P: case STRING_P: string_length = *(u_short *)Pdata; param_five.data.string.count = htons(string_length); (void)bcopy(&Pdata[sizeof(u_short)], param_five.data.string.data, (int)string_length); outgoing[5].iov_len = 2 * sizeof(u_short) + string_length; break; default: return NAE_TYPE; } outgoing[5].iov_base = (caddr_t)¶m_five; /* Call rpc() to communicate the request to the annex via erpc or srpc. */ return rpc(Pinet_addr, RPROC_SET_PRI_PARAM, OUTGOING_COUNT, outgoing, (char *)0, (u_short)0); } /* set_pri_param() */