/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */ /* All Rights Reserved */ /* * Copyright 1993-2003 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #pragma ident "%Z%%M% %I% %E% SMI" /* SVr4.0 1.4.1.2 */ #include "mt.h" #include #include #include #include #include #define _SUN_TPI_VERSION 2 #include #include #include #include #include #include #include "tx.h" /* * Function protoypes */ static int _alloc_buf(struct netbuf *buf, t_scalar_t n, int fields, int api_semantics); char * _tx_alloc(int fd, int struct_type, int fields, int api_semantics) { struct strioctl strioc; struct T_info_ack info; union structptrs { char *caddr; struct t_bind *bind; struct t_call *call; struct t_discon *dis; struct t_optmgmt *opt; struct t_unitdata *udata; struct t_uderr *uderr; struct t_info *info; } p; unsigned int dsize; struct _ti_user *tiptr; int retval, sv_errno; t_scalar_t optsize; trace4(TR_t_alloc, 0, fd, struct_type, fields); if ((tiptr = _t_checkfd(fd, 0, api_semantics)) == NULL) { sv_errno = errno; trace4(TR_t_alloc, 1, fd, struct_type, fields); errno = sv_errno; return (NULL); } sig_mutex_lock(&tiptr->ti_lock); /* * Get size info for T_ADDR, T_OPT, and T_UDATA fields */ info.PRIM_type = T_INFO_REQ; strioc.ic_cmd = TI_GETINFO; strioc.ic_timout = -1; strioc.ic_len = (int)sizeof (struct T_info_req); strioc.ic_dp = (char *)&info; do { retval = _ioctl(fd, I_STR, &strioc); } while (retval < 0 && errno == EINTR); if (retval < 0) { sv_errno = errno; sig_mutex_unlock(&tiptr->ti_lock); t_errno = TSYSERR; trace4(TR_t_alloc, 1, fd, struct_type, fields); errno = sv_errno; return (NULL); } if (strioc.ic_len != (int)sizeof (struct T_info_ack)) { t_errno = TSYSERR; sig_mutex_unlock(&tiptr->ti_lock); trace4(TR_t_alloc, 1, fd, struct_type, fields); errno = EIO; return (NULL); } /* * Malloc appropriate structure and the specified * fields within each structure. Initialize the * 'buf' and 'maxlen' fields of each. */ switch (struct_type) { case T_BIND: if ((p.bind = (struct t_bind *) calloc(1, sizeof (struct t_bind))) == NULL) goto errout; if (fields & T_ADDR) { if (_alloc_buf(&p.bind->addr, info.ADDR_size, fields, api_semantics) < 0) goto errout; } trace4(TR_t_alloc, 1, fd, struct_type, fields); sig_mutex_unlock(&tiptr->ti_lock); return ((char *)p.bind); case T_CALL: if ((p.call = (struct t_call *) calloc(1, sizeof (struct t_call))) == NULL) goto errout; if (fields & T_ADDR) { if (_alloc_buf(&p.call->addr, info.ADDR_size, fields, api_semantics) < 0) goto errout; } if (fields & T_OPT) { if (info.OPT_size >= 0 && _T_IS_XTI(api_semantics)) /* compensate for XTI level options */ optsize = info.OPT_size + TX_XTI_LEVEL_MAX_OPTBUF; else optsize = info.OPT_size; if (_alloc_buf(&p.call->opt, optsize, fields, api_semantics) < 0) goto errout; } if (fields & T_UDATA) { dsize = _T_MAX((int)info.CDATA_size, (int)info.DDATA_size); if (_alloc_buf(&p.call->udata, (t_scalar_t)dsize, fields, api_semantics) < 0) goto errout; } sig_mutex_unlock(&tiptr->ti_lock); trace4(TR_t_alloc, 1, fd, struct_type, fields); return ((char *)p.call); case T_OPTMGMT: if ((p.opt = (struct t_optmgmt *) calloc(1, sizeof (struct t_optmgmt))) == NULL) goto errout; if (fields & T_OPT) { if (info.OPT_size >= 0 && _T_IS_XTI(api_semantics)) /* compensate for XTI level options */ optsize = info.OPT_size + TX_XTI_LEVEL_MAX_OPTBUF; else optsize = info.OPT_size; if (_alloc_buf(&p.opt->opt, optsize, fields, api_semantics) < 0) goto errout; } sig_mutex_unlock(&tiptr->ti_lock); trace4(TR_t_alloc, 1, fd, struct_type, fields); return ((char *)p.opt); case T_DIS: if ((p.dis = (struct t_discon *) calloc(1, sizeof (struct t_discon))) == NULL) goto errout; if (fields & T_UDATA) { if (_alloc_buf(&p.dis->udata, info.DDATA_size, fields, api_semantics) < 0) goto errout; } sig_mutex_unlock(&tiptr->ti_lock); trace4(TR_t_alloc, 1, fd, struct_type, fields); return ((char *)p.dis); case T_UNITDATA: if ((p.udata = (struct t_unitdata *) calloc(1, sizeof (struct t_unitdata))) == NULL) goto errout; if (fields & T_ADDR) { if (_alloc_buf(&p.udata->addr, info.ADDR_size, fields, api_semantics) < 0) goto errout; } if (fields & T_OPT) { if (info.OPT_size >= 0 && _T_IS_XTI(api_semantics)) /* compensate for XTI level options */ optsize = info.OPT_size + TX_XTI_LEVEL_MAX_OPTBUF; else optsize = info.OPT_size; if (_alloc_buf(&p.udata->opt, optsize, fields, api_semantics) < 0) goto errout; } if (fields & T_UDATA) { if (_alloc_buf(&p.udata->udata, info.TSDU_size, fields, api_semantics) < 0) goto errout; } sig_mutex_unlock(&tiptr->ti_lock); trace4(TR_t_alloc, 1, fd, struct_type, fields); return ((char *)p.udata); case T_UDERROR: if ((p.uderr = (struct t_uderr *) calloc(1, sizeof (struct t_uderr))) == NULL) goto errout; if (fields & T_ADDR) { if (_alloc_buf(&p.uderr->addr, info.ADDR_size, fields, api_semantics) < 0) goto errout; } if (fields & T_OPT) { if (info.OPT_size >= 0 && _T_IS_XTI(api_semantics)) /* compensate for XTI level options */ optsize = info.OPT_size + TX_XTI_LEVEL_MAX_OPTBUF; else optsize = info.OPT_size; if (_alloc_buf(&p.uderr->opt, optsize, fields, api_semantics) < 0) goto errout; } sig_mutex_unlock(&tiptr->ti_lock); trace4(TR_t_alloc, 1, fd, struct_type, fields); return ((char *)p.uderr); case T_INFO: if ((p.info = (struct t_info *) calloc(1, sizeof (struct t_info))) == NULL) goto errout; sig_mutex_unlock(&tiptr->ti_lock); trace4(TR_t_alloc, 1, fd, struct_type, fields); return ((char *)p.info); default: if (_T_IS_XTI(api_semantics)) { t_errno = TNOSTRUCTYPE; sig_mutex_unlock(&tiptr->ti_lock); trace4(TR_t_alloc, 1, fd, struct_type, fields); } else { /* TX_TLI_API */ t_errno = TSYSERR; sig_mutex_unlock(&tiptr->ti_lock); trace4(TR_t_alloc, 1, fd, struct_type, fields); errno = EINVAL; } return (NULL); } /* * Clean up. Set t_errno to TSYSERR. * If it is because memory could not be allocated * then errno already should have been set to * ENOMEM */ errout: if (p.caddr) (void) t_free(p.caddr, struct_type); t_errno = TSYSERR; sig_mutex_unlock(&tiptr->ti_lock); trace4(TR_t_alloc, 1, fd, struct_type, fields); return (NULL); } static int _alloc_buf(struct netbuf *buf, t_scalar_t n, int fields, int api_semantics) { trace2(TR__alloc_buf, 0, n); switch (n) { case T_INFINITE /* -1 */: if (_T_IS_XTI(api_semantics)) { buf->buf = NULL; buf->maxlen = 0; if (fields != T_ALL) { /* * Do not return error * if T_ALL is used. */ trace2(TR__alloc_buf, 1, n); errno = EINVAL; return (-1); } } else { /* TX_TLI_API */ /* * retain TLI behavior */ if ((buf->buf = calloc(1, 1024)) == NULL) { trace2(TR__alloc_buf, 1, n); errno = ENOMEM; return (-1); } else buf->maxlen = 1024; } break; case 0: buf->buf = NULL; buf->maxlen = 0; break; case T_INVALID /* -2 */: if (_T_IS_XTI(api_semantics)) { buf->buf = NULL; buf->maxlen = 0; if (fields != T_ALL) { /* * Do not return error * if T_ALL is used. */ trace2(TR__alloc_buf, 1, n); errno = EINVAL; return (-1); } } else { /* TX_TLI_API */ /* * retain TLI behavior */ buf->buf = NULL; buf->maxlen = 0; } break; default: if ((buf->buf = calloc(1, (size_t)n)) == NULL) { trace2(TR__alloc_buf, 1, n); errno = ENOMEM; return (-1); } else buf->maxlen = n; break; } trace2(TR__alloc_buf, 1, n); return (0); }