common/ctf/ctf_create.c

1.1  darran /*
1.1  darran  * CDDL HEADER START
1.1  darran  *
1.1  darran  * The contents of this file are subject to the terms of the
1.1  darran  * Common Development and Distribution License, Version 1.0 only
1.1  darran  * (the "License").  You may not use this file except in compliance
1.1  darran  * with the License.
1.1  darran  *
1.1  darran  * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
1.1  darran  * or http://www.opensolaris.org/os/licensing.
1.1  darran  * See the License for the specific language governing permissions
1.1  darran  * and limitations under the License.
1.1  darran  *
1.1  darran  * When distributing Covered Code, include this CDDL HEADER in each
1.1  darran  * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
1.1  darran  * If applicable, add the following below this CDDL HEADER, with the
1.1  darran  * fields enclosed by brackets "[]" replaced with your own identifying
1.1  darran  * information: Portions Copyright [yyyy] [name of copyright owner]
1.1  darran  *
1.1  darran  * CDDL HEADER END
1.1  darran  */
1.1  darran
1.1  darran /*
1.1  darran  * Copyright 2006 Sun Microsystems, Inc.  All rights reserved.
1.1  darran  * Use is subject to license terms.
1.1  darran  */
1.1  darran
1.1  darran #pragma ident	"%Z%%M%	%I%	%E% SMI"
1.1  darran
1.1  darran #include <sys/sysmacros.h>
1.1  darran #include <sys/param.h>
1.1  darran #include <sys/mman.h>
1.1  darran #include <ctf_impl.h>
1.1  darran
1.1  darran /*
1.1  darran  * This static string is used as the template for initially populating a
1.1  darran  * dynamic container's string table.  We always store \0 in the first byte,
1.1  darran  * and we use the generic string "PARENT" to mark this container's parent
1.1  darran  * if one is associated with the container using ctf_import().
1.1  darran  */
1.1  darran static const char _CTF_STRTAB_TEMPLATE[] = "\0PARENT";
1.1  darran
1.1  darran /*
1.1  darran  * To create an empty CTF container, we just declare a zeroed header and call
1.1  darran  * ctf_bufopen() on it.  If ctf_bufopen succeeds, we mark the new container r/w
1.1  darran  * and initialize the dynamic members.  We set dtstrlen to 1 to reserve the
1.1  darran  * first byte of the string table for a \0 byte, and we start assigning type
1.1  darran  * IDs at 1 because type ID 0 is used as a sentinel.
1.1  darran  */
1.1  darran ctf_file_t *
1.1  darran ctf_create(int *errp)
1.1  darran {
1.1  darran 	static const ctf_header_t hdr = { { CTF_MAGIC, CTF_VERSION, 0 } };
1.1  darran
1.1  darran 	const ulong_t hashlen = 128;
1.1  darran 	ctf_dtdef_t **hash = ctf_alloc(hashlen * sizeof (ctf_dtdef_t *));
1.1  darran 	ctf_sect_t cts;
1.1  darran 	ctf_file_t *fp;
1.1  darran
1.1  darran 	if (hash == NULL)
1.1  darran 		return (ctf_set_open_errno(errp, EAGAIN));
1.1  darran
1.1  darran 	cts.cts_name = _CTF_SECTION;
1.1  darran 	cts.cts_type = SHT_PROGBITS;
1.1  darran 	cts.cts_flags = 0;
1.1  darran 	cts.cts_data = &hdr;
1.1  darran 	cts.cts_size = sizeof (hdr);
1.1  darran 	cts.cts_entsize = 1;
1.1  darran 	cts.cts_offset = 0;
1.1  darran
1.1  darran 	if ((fp = ctf_bufopen(&cts, NULL, NULL, errp)) == NULL) {
1.1  darran 		ctf_free(hash, hashlen * sizeof (ctf_dtdef_t *));
1.1  darran 		return (NULL);
1.1  darran 	}
1.1  darran
1.1  darran 	fp->ctf_flags |= LCTF_RDWR;
1.1  darran 	fp->ctf_dthashlen = hashlen;
1.1  darran 	bzero(hash, hashlen * sizeof (ctf_dtdef_t *));
1.1  darran 	fp->ctf_dthash = hash;
1.1  darran 	fp->ctf_dtstrlen = sizeof (_CTF_STRTAB_TEMPLATE);
1.1  darran 	fp->ctf_dtnextid = 1;
1.1  darran 	fp->ctf_dtoldid = 0;
1.1  darran
1.1  darran 	return (fp);
1.1  darran }
1.1  darran
1.1  darran static uchar_t *
1.1  darran ctf_copy_smembers(ctf_dtdef_t *dtd, uint_t soff, uchar_t *t)
1.1  darran {
1.1  darran 	ctf_dmdef_t *dmd = ctf_list_next(&dtd->dtd_u.dtu_members);
1.1  darran 	ctf_member_t ctm;
1.1  darran
1.1  darran 	for (; dmd != NULL; dmd = ctf_list_next(dmd)) {
1.1  darran 		if (dmd->dmd_name) {
1.1  darran 			ctm.ctm_name = soff;
1.1  darran 			soff += strlen(dmd->dmd_name) + 1;
1.1  darran 		} else
1.1  darran 			ctm.ctm_name = 0;
1.1  darran
1.1  darran 		ctm.ctm_type = (ushort_t)dmd->dmd_type;
1.1  darran 		ctm.ctm_offset = (ushort_t)dmd->dmd_offset;
1.1  darran
1.1  darran 		bcopy(&ctm, t, sizeof (ctm));
1.1  darran 		t += sizeof (ctm);
1.1  darran 	}
1.1  darran
1.1  darran 	return (t);
1.1  darran }
1.1  darran
1.1  darran static uchar_t *
1.1  darran ctf_copy_lmembers(ctf_dtdef_t *dtd, uint_t soff, uchar_t *t)
1.1  darran {
1.1  darran 	ctf_dmdef_t *dmd = ctf_list_next(&dtd->dtd_u.dtu_members);
1.1  darran 	ctf_lmember_t ctlm;
1.1  darran
1.1  darran 	for (; dmd != NULL; dmd = ctf_list_next(dmd)) {
1.1  darran 		if (dmd->dmd_name) {
1.1  darran 			ctlm.ctlm_name = soff;
1.1  darran 			soff += strlen(dmd->dmd_name) + 1;
1.1  darran 		} else
1.1  darran 			ctlm.ctlm_name = 0;
1.1  darran
1.1  darran 		ctlm.ctlm_type = (ushort_t)dmd->dmd_type;
1.1  darran 		ctlm.ctlm_pad = 0;
1.1  darran 		ctlm.ctlm_offsethi = CTF_OFFSET_TO_LMEMHI(dmd->dmd_offset);
1.1  darran 		ctlm.ctlm_offsetlo = CTF_OFFSET_TO_LMEMLO(dmd->dmd_offset);
1.1  darran
1.1  darran 		bcopy(&ctlm, t, sizeof (ctlm));
1.1  darran 		t += sizeof (ctlm);
1.1  darran 	}
1.1  darran
1.1  darran 	return (t);
1.1  darran }
1.1  darran
1.1  darran static uchar_t *
1.1  darran ctf_copy_emembers(ctf_dtdef_t *dtd, uint_t soff, uchar_t *t)
1.1  darran {
1.1  darran 	ctf_dmdef_t *dmd = ctf_list_next(&dtd->dtd_u.dtu_members);
1.1  darran 	ctf_enum_t cte;
1.1  darran
1.1  darran 	for (; dmd != NULL; dmd = ctf_list_next(dmd)) {
1.1  darran 		cte.cte_name = soff;
1.1  darran 		cte.cte_value = dmd->dmd_value;
1.1  darran 		soff += strlen(dmd->dmd_name) + 1;
1.1  darran 		bcopy(&cte, t, sizeof (cte));
1.1  darran 		t += sizeof (cte);
1.1  darran 	}
1.1  darran
1.1  darran 	return (t);
1.1  darran }
1.1  darran
1.1  darran static uchar_t *
1.1  darran ctf_copy_membnames(ctf_dtdef_t *dtd, uchar_t *s)
1.1  darran {
1.1  darran 	ctf_dmdef_t *dmd = ctf_list_next(&dtd->dtd_u.dtu_members);
1.1  darran 	size_t len;
1.1  darran
1.1  darran 	for (; dmd != NULL; dmd = ctf_list_next(dmd)) {
1.1  darran 		if (dmd->dmd_name == NULL)
1.1  darran 			continue; /* skip anonymous members */
1.1  darran 		len = strlen(dmd->dmd_name) + 1;
1.1  darran 		bcopy(dmd->dmd_name, s, len);
1.1  darran 		s += len;
1.1  darran 	}
1.1  darran
1.1  darran 	return (s);
1.1  darran }
1.1  darran
1.1  darran /*
1.1  darran  * If the specified CTF container is writable and has been modified, reload
1.1  darran  * this container with the updated type definitions.  In order to make this
1.1  darran  * code and the rest of libctf as simple as possible, we perform updates by
1.1  darran  * taking the dynamic type definitions and creating an in-memory CTF file
1.1  darran  * containing the definitions, and then call ctf_bufopen() on it.  This not
1.1  darran  * only leverages ctf_bufopen(), but also avoids having to bifurcate the rest
1.1  darran  * of the library code with different lookup paths for static and dynamic
1.1  darran  * type definitions.  We are therefore optimizing greatly for lookup over
1.1  darran  * update, which we assume will be an uncommon operation.  We perform one
1.1  darran  * extra trick here for the benefit of callers and to keep our code simple:
1.1  darran  * ctf_bufopen() will return a new ctf_file_t, but we want to keep the fp
1.1  darran  * constant for the caller, so after ctf_bufopen() returns, we use bcopy to
1.1  darran  * swap the interior of the old and new ctf_file_t's, and then free the old.
1.1  darran  */
1.1  darran int
1.1  darran ctf_update(ctf_file_t *fp)
1.1  darran {
1.1  darran 	ctf_file_t ofp, *nfp;
1.1  darran 	ctf_header_t hdr;
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_sect_t cts;
1.1  darran
1.1  darran 	uchar_t *s, *s0, *t;
1.1  darran 	size_t size;
1.1  darran 	void *buf;
1.1  darran 	int err;
1.1  darran
1.1  darran 	if (!(fp->ctf_flags & LCTF_RDWR))
1.1  darran 		return (ctf_set_errno(fp, ECTF_RDONLY));
1.1  darran
1.1  darran 	if (!(fp->ctf_flags & LCTF_DIRTY))
1.1  darran 		return (0); /* no update required */
1.1  darran
1.1  darran 	/*
1.1  darran 	 * Fill in an initial CTF header.  We will leave the label, object,
1.1  darran 	 * and function sections empty and only output a header, type section,
1.1  darran 	 * and string table.  The type section begins at a 4-byte aligned
1.1  darran 	 * boundary past the CTF header itself (at relative offset zero).
1.1  darran 	 */
1.1  darran 	bzero(&hdr, sizeof (hdr));
1.1  darran 	hdr.cth_magic = CTF_MAGIC;
1.1  darran 	hdr.cth_version = CTF_VERSION;
1.1  darran
1.1  darran 	if (fp->ctf_flags & LCTF_CHILD)
1.1  darran 		hdr.cth_parname = 1; /* i.e. _CTF_STRTAB_TEMPLATE[1] */
1.1  darran
1.1  darran 	/*
1.1  darran 	 * Iterate through the dynamic type definition list and compute the
1.1  darran 	 * size of the CTF type section we will need to generate.
1.1  darran 	 */
1.1  darran 	for (size = 0, dtd = ctf_list_next(&fp->ctf_dtdefs);
1.1  darran 	    dtd != NULL; dtd = ctf_list_next(dtd)) {
1.1  darran
1.1  darran 		uint_t kind = CTF_INFO_KIND(dtd->dtd_data.ctt_info);
1.1  darran 		uint_t vlen = CTF_INFO_VLEN(dtd->dtd_data.ctt_info);
1.1  darran
1.1  darran 		if (dtd->dtd_data.ctt_size != CTF_LSIZE_SENT)
1.1  darran 			size += sizeof (ctf_stype_t);
1.1  darran 		else
1.1  darran 			size += sizeof (ctf_type_t);
1.1  darran
1.1  darran 		switch (kind) {
1.1  darran 		case CTF_K_INTEGER:
1.1  darran 		case CTF_K_FLOAT:
1.1  darran 			size += sizeof (uint_t);
1.1  darran 			break;
1.1  darran 		case CTF_K_ARRAY:
1.1  darran 			size += sizeof (ctf_array_t);
1.1  darran 			break;
1.1  darran 		case CTF_K_FUNCTION:
1.1  darran 			size += sizeof (ushort_t) * (vlen + (vlen & 1));
1.1  darran 			break;
1.1  darran 		case CTF_K_STRUCT:
1.1  darran 		case CTF_K_UNION:
1.1  darran 			if (dtd->dtd_data.ctt_size < CTF_LSTRUCT_THRESH)
1.1  darran 				size += sizeof (ctf_member_t) * vlen;
1.1  darran 			else
1.1  darran 				size += sizeof (ctf_lmember_t) * vlen;
1.1  darran 			break;
1.1  darran 		case CTF_K_ENUM:
1.1  darran 			size += sizeof (ctf_enum_t) * vlen;
1.1  darran 			break;
1.1  darran 		}
1.1  darran 	}
1.1  darran
1.1  darran 	/*
1.1  darran 	 * Fill in the string table offset and size, compute the size of the
1.1  darran 	 * entire CTF buffer we need, and then allocate a new buffer and
1.1  darran 	 * bcopy the finished header to the start of the buffer.
1.1  darran 	 */
1.1  darran 	hdr.cth_stroff = hdr.cth_typeoff + size;
1.1  darran 	hdr.cth_strlen = fp->ctf_dtstrlen;
1.1  darran 	size = sizeof (ctf_header_t) + hdr.cth_stroff + hdr.cth_strlen;
1.1  darran
1.1  darran 	if ((buf = ctf_data_alloc(size)) == MAP_FAILED)
1.1  darran 		return (ctf_set_errno(fp, EAGAIN));
1.1  darran
1.1  darran 	bcopy(&hdr, buf, sizeof (ctf_header_t));
1.1  darran 	t = (uchar_t *)buf + sizeof (ctf_header_t);
1.1  darran 	s = s0 = (uchar_t *)buf + sizeof (ctf_header_t) + hdr.cth_stroff;
1.1  darran
1.1  darran 	bcopy(_CTF_STRTAB_TEMPLATE, s, sizeof (_CTF_STRTAB_TEMPLATE));
1.1  darran 	s += sizeof (_CTF_STRTAB_TEMPLATE);
1.1  darran
1.1  darran 	/*
1.1  darran 	 * We now take a final lap through the dynamic type definition list and
1.1  darran 	 * copy the appropriate type records and strings to the output buffer.
1.1  darran 	 */
1.1  darran 	for (dtd = ctf_list_next(&fp->ctf_dtdefs);
1.1  darran 	    dtd != NULL; dtd = ctf_list_next(dtd)) {
1.1  darran
1.1  darran 		uint_t kind = CTF_INFO_KIND(dtd->dtd_data.ctt_info);
1.1  darran 		uint_t vlen = CTF_INFO_VLEN(dtd->dtd_data.ctt_info);
1.1  darran
1.1  darran 		ctf_array_t cta;
1.1  darran 		uint_t encoding;
1.1  darran 		size_t len;
1.1  darran
1.1  darran 		if (dtd->dtd_name != NULL) {
1.1  darran 			dtd->dtd_data.ctt_name = (uint_t)(s - s0);
1.1  darran 			len = strlen(dtd->dtd_name) + 1;
1.1  darran 			bcopy(dtd->dtd_name, s, len);
1.1  darran 			s += len;
1.1  darran 		} else
1.1  darran 			dtd->dtd_data.ctt_name = 0;
1.1  darran
1.1  darran 		if (dtd->dtd_data.ctt_size != CTF_LSIZE_SENT)
1.1  darran 			len = sizeof (ctf_stype_t);
1.1  darran 		else
1.1  darran 			len = sizeof (ctf_type_t);
1.1  darran
1.1  darran 		bcopy(&dtd->dtd_data, t, len);
1.1  darran 		t += len;
1.1  darran
1.1  darran 		switch (kind) {
1.1  darran 		case CTF_K_INTEGER:
1.1  darran 		case CTF_K_FLOAT:
1.1  darran 			if (kind == CTF_K_INTEGER) {
1.1  darran 				encoding = CTF_INT_DATA(
1.1  darran 				    dtd->dtd_u.dtu_enc.cte_format,
1.1  darran 				    dtd->dtd_u.dtu_enc.cte_offset,
1.1  darran 				    dtd->dtd_u.dtu_enc.cte_bits);
1.1  darran 			} else {
1.1  darran 				encoding = CTF_FP_DATA(
1.1  darran 				    dtd->dtd_u.dtu_enc.cte_format,
1.1  darran 				    dtd->dtd_u.dtu_enc.cte_offset,
1.1  darran 				    dtd->dtd_u.dtu_enc.cte_bits);
1.1  darran 			}
1.1  darran 			bcopy(&encoding, t, sizeof (encoding));
1.1  darran 			t += sizeof (encoding);
1.1  darran 			break;
1.1  darran
1.1  darran 		case CTF_K_ARRAY:
1.1  darran 			cta.cta_contents = (ushort_t)
1.1  darran 			    dtd->dtd_u.dtu_arr.ctr_contents;
1.1  darran 			cta.cta_index = (ushort_t)
1.1  darran 			    dtd->dtd_u.dtu_arr.ctr_index;
1.1  darran 			cta.cta_nelems = dtd->dtd_u.dtu_arr.ctr_nelems;
1.1  darran 			bcopy(&cta, t, sizeof (cta));
1.1  darran 			t += sizeof (cta);
1.1  darran 			break;
1.1  darran
1.1  darran 		case CTF_K_FUNCTION: {
1.1  darran 			ushort_t *argv = (ushort_t *)(uintptr_t)t;
1.1  darran 			uint_t argc;
1.1  darran
1.1  darran 			for (argc = 0; argc < vlen; argc++)
1.1  darran 				*argv++ = (ushort_t)dtd->dtd_u.dtu_argv[argc];
1.1  darran
1.1  darran 			if (vlen & 1)
1.1  darran 				*argv++ = 0; /* pad to 4-byte boundary */
1.1  darran
1.1  darran 			t = (uchar_t *)argv;
1.1  darran 			break;
1.1  darran 		}
1.1  darran
1.1  darran 		case CTF_K_STRUCT:
1.1  darran 		case CTF_K_UNION:
1.1  darran 			if (dtd->dtd_data.ctt_size < CTF_LSTRUCT_THRESH)
1.1  darran 				t = ctf_copy_smembers(dtd, (uint_t)(s - s0), t);
1.1  darran 			else
1.1  darran 				t = ctf_copy_lmembers(dtd, (uint_t)(s - s0), t);
1.1  darran 			s = ctf_copy_membnames(dtd, s);
1.1  darran 			break;
1.1  darran
1.1  darran 		case CTF_K_ENUM:
1.1  darran 			t = ctf_copy_emembers(dtd, (uint_t)(s - s0), t);
1.1  darran 			s = ctf_copy_membnames(dtd, s);
1.1  darran 			break;
1.1  darran 		}
1.1  darran 	}
1.1  darran
1.1  darran 	/*
1.1  darran 	 * Finally, we are ready to ctf_bufopen() the new container.  If this
1.1  darran 	 * is successful, we then switch nfp and fp and free the old container.
1.1  darran 	 */
1.1  darran 	ctf_data_protect(buf, size);
1.1  darran 	cts.cts_name = _CTF_SECTION;
1.1  darran 	cts.cts_type = SHT_PROGBITS;
1.1  darran 	cts.cts_flags = 0;
1.1  darran 	cts.cts_data = buf;
1.1  darran 	cts.cts_size = size;
1.1  darran 	cts.cts_entsize = 1;
1.1  darran 	cts.cts_offset = 0;
1.1  darran
1.1  darran 	if ((nfp = ctf_bufopen(&cts, NULL, NULL, &err)) == NULL) {
1.1  darran 		ctf_data_free(buf, size);
1.1  darran 		return (ctf_set_errno(fp, err));
1.1  darran 	}
1.1  darran
1.1  darran 	(void) ctf_setmodel(nfp, ctf_getmodel(fp));
1.1  darran 	(void) ctf_import(nfp, fp->ctf_parent);
1.1  darran
1.1  darran 	nfp->ctf_refcnt = fp->ctf_refcnt;
1.1  darran 	nfp->ctf_flags |= fp->ctf_flags & ~LCTF_DIRTY;
1.1  darran 	nfp->ctf_data.cts_data = NULL; /* force ctf_data_free() on close */
1.1  darran 	nfp->ctf_dthash = fp->ctf_dthash;
1.1  darran 	nfp->ctf_dthashlen = fp->ctf_dthashlen;
1.1  darran 	nfp->ctf_dtdefs = fp->ctf_dtdefs;
1.1  darran 	nfp->ctf_dtstrlen = fp->ctf_dtstrlen;
1.1  darran 	nfp->ctf_dtnextid = fp->ctf_dtnextid;
1.1  darran 	nfp->ctf_dtoldid = fp->ctf_dtnextid - 1;
1.1  darran 	nfp->ctf_specific = fp->ctf_specific;
1.1  darran
1.1  darran 	fp->ctf_dthash = NULL;
1.1  darran 	fp->ctf_dthashlen = 0;
1.1  darran 	bzero(&fp->ctf_dtdefs, sizeof (ctf_list_t));
1.1  darran
1.1  darran 	bcopy(fp, &ofp, sizeof (ctf_file_t));
1.1  darran 	bcopy(nfp, fp, sizeof (ctf_file_t));
1.1  darran 	bcopy(&ofp, nfp, sizeof (ctf_file_t));
1.1  darran
1.1  darran 	/*
1.1  darran 	 * Initialize the ctf_lookup_by_name top-level dictionary.  We keep an
1.1  darran 	 * array of type name prefixes and the corresponding ctf_hash to use.
1.1  darran 	 * NOTE: This code must be kept in sync with the code in ctf_bufopen().
1.1  darran 	 */
1.1  darran 	fp->ctf_lookups[0].ctl_hash = &fp->ctf_structs;
1.1  darran 	fp->ctf_lookups[1].ctl_hash = &fp->ctf_unions;
1.1  darran 	fp->ctf_lookups[2].ctl_hash = &fp->ctf_enums;
1.1  darran 	fp->ctf_lookups[3].ctl_hash = &fp->ctf_names;
1.1  darran
1.1  darran 	nfp->ctf_refcnt = 1; /* force nfp to be freed */
1.1  darran 	ctf_close(nfp);
1.1  darran
1.1  darran 	return (0);
1.1  darran }
1.1  darran
1.1  darran void
1.1  darran ctf_dtd_insert(ctf_file_t *fp, ctf_dtdef_t *dtd)
1.1  darran {
1.1  darran 	ulong_t h = dtd->dtd_type & (fp->ctf_dthashlen - 1);
1.1  darran
1.1  darran 	dtd->dtd_hash = fp->ctf_dthash[h];
1.1  darran 	fp->ctf_dthash[h] = dtd;
1.1  darran 	ctf_list_append(&fp->ctf_dtdefs, dtd);
1.1  darran }
1.1  darran
1.1  darran void
1.1  darran ctf_dtd_delete(ctf_file_t *fp, ctf_dtdef_t *dtd)
1.1  darran {
1.1  darran 	ulong_t h = dtd->dtd_type & (fp->ctf_dthashlen - 1);
1.1  darran 	ctf_dtdef_t *p, **q = &fp->ctf_dthash[h];
1.1  darran 	ctf_dmdef_t *dmd, *nmd;
1.1  darran 	size_t len;
1.1  darran
1.1  darran 	for (p = *q; p != NULL; p = p->dtd_hash) {
1.1  darran 		if (p != dtd)
1.1  darran 			q = &p->dtd_hash;
1.1  darran 		else
1.1  darran 			break;
1.1  darran 	}
1.1  darran
1.1  darran 	if (p != NULL)
1.1  darran 		*q = p->dtd_hash;
1.1  darran
1.1  darran 	switch (CTF_INFO_KIND(dtd->dtd_data.ctt_info)) {
1.1  darran 	case CTF_K_STRUCT:
1.1  darran 	case CTF_K_UNION:
1.1  darran 	case CTF_K_ENUM:
1.1  darran 		for (dmd = ctf_list_next(&dtd->dtd_u.dtu_members);
1.1  darran 		    dmd != NULL; dmd = nmd) {
1.1  darran 			if (dmd->dmd_name != NULL) {
1.1  darran 				len = strlen(dmd->dmd_name) + 1;
1.1  darran 				ctf_free(dmd->dmd_name, len);
1.1  darran 				fp->ctf_dtstrlen -= len;
1.1  darran 			}
1.1  darran 			nmd = ctf_list_next(dmd);
1.1  darran 			ctf_free(dmd, sizeof (ctf_dmdef_t));
1.1  darran 		}
1.1  darran 		break;
1.1  darran 	case CTF_K_FUNCTION:
1.1  darran 		ctf_free(dtd->dtd_u.dtu_argv, sizeof (ctf_id_t) *
1.1  darran 		    CTF_INFO_VLEN(dtd->dtd_data.ctt_info));
1.1  darran 		break;
1.1  darran 	}
1.1  darran
1.1  darran 	if (dtd->dtd_name) {
1.1  darran 		len = strlen(dtd->dtd_name) + 1;
1.1  darran 		ctf_free(dtd->dtd_name, len);
1.1  darran 		fp->ctf_dtstrlen -= len;
1.1  darran 	}
1.1  darran
1.1  darran 	ctf_list_delete(&fp->ctf_dtdefs, dtd);
1.1  darran 	ctf_free(dtd, sizeof (ctf_dtdef_t));
1.1  darran }
1.1  darran
1.1  darran ctf_dtdef_t *
1.1  darran ctf_dtd_lookup(ctf_file_t *fp, ctf_id_t type)
1.1  darran {
1.1  darran 	ulong_t h = type & (fp->ctf_dthashlen - 1);
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran
1.1  darran 	if (fp->ctf_dthash == NULL)
1.1  darran 		return (NULL);
1.1  darran
1.1  darran 	for (dtd = fp->ctf_dthash[h]; dtd != NULL; dtd = dtd->dtd_hash) {
1.1  darran 		if (dtd->dtd_type == type)
1.1  darran 			break;
1.1  darran 	}
1.1  darran
1.1  darran 	return (dtd);
1.1  darran }
1.1  darran
1.1  darran /*
1.1  darran  * Discard all of the dynamic type definitions that have been added to the
1.1  darran  * container since the last call to ctf_update().  We locate such types by
1.1  darran  * scanning the list and deleting elements that have type IDs greater than
1.1  darran  * ctf_dtoldid, which is set by ctf_update(), above.
1.1  darran  */
1.1  darran int
1.1  darran ctf_discard(ctf_file_t *fp)
1.1  darran {
1.1  darran 	ctf_dtdef_t *dtd, *ntd;
1.1  darran
1.1  darran 	if (!(fp->ctf_flags & LCTF_RDWR))
1.1  darran 		return (ctf_set_errno(fp, ECTF_RDONLY));
1.1  darran
1.1  darran 	if (!(fp->ctf_flags & LCTF_DIRTY))
1.1  darran 		return (0); /* no update required */
1.1  darran
1.1  darran 	for (dtd = ctf_list_next(&fp->ctf_dtdefs); dtd != NULL; dtd = ntd) {
1.1  darran 		if (dtd->dtd_type <= fp->ctf_dtoldid)
1.1  darran 			continue; /* skip types that have been committed */
1.1  darran
1.1  darran 		ntd = ctf_list_next(dtd);
1.1  darran 		ctf_dtd_delete(fp, dtd);
1.1  darran 	}
1.1  darran
1.1  darran 	fp->ctf_dtnextid = fp->ctf_dtoldid + 1;
1.1  darran 	fp->ctf_flags &= ~LCTF_DIRTY;
1.1  darran
1.1  darran 	return (0);
1.1  darran }
1.1  darran
1.1  darran static ctf_id_t
1.1  darran ctf_add_generic(ctf_file_t *fp, uint_t flag, const char *name, ctf_dtdef_t **rp)
1.1  darran {
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_id_t type;
1.1  darran 	char *s = NULL;
1.1  darran
1.1  darran 	if (flag != CTF_ADD_NONROOT && flag != CTF_ADD_ROOT)
1.1  darran 		return (ctf_set_errno(fp, EINVAL));
1.1  darran
1.1  darran 	if (!(fp->ctf_flags & LCTF_RDWR))
1.1  darran 		return (ctf_set_errno(fp, ECTF_RDONLY));
1.1  darran
1.1  darran 	if (CTF_INDEX_TO_TYPE(fp->ctf_dtnextid, 1) > CTF_MAX_TYPE)
1.1  darran 		return (ctf_set_errno(fp, ECTF_FULL));
1.1  darran
1.1  darran 	if ((dtd = ctf_alloc(sizeof (ctf_dtdef_t))) == NULL)
1.1  darran 		return (ctf_set_errno(fp, EAGAIN));
1.1  darran
1.1  darran 	if (name != NULL && (s = ctf_strdup(name)) == NULL) {
1.1  darran 		ctf_free(dtd, sizeof (ctf_dtdef_t));
1.1  darran 		return (ctf_set_errno(fp, EAGAIN));
1.1  darran 	}
1.1  darran
1.1  darran 	type = fp->ctf_dtnextid++;
1.1  darran 	type = CTF_INDEX_TO_TYPE(type, (fp->ctf_flags & LCTF_CHILD));
1.1  darran
1.1  darran 	bzero(dtd, sizeof (ctf_dtdef_t));
1.1  darran 	dtd->dtd_name = s;
1.1  darran 	dtd->dtd_type = type;
1.1  darran
1.1  darran 	if (s != NULL)
1.1  darran 		fp->ctf_dtstrlen += strlen(s) + 1;
1.1  darran
1.1  darran 	ctf_dtd_insert(fp, dtd);
1.1  darran 	fp->ctf_flags |= LCTF_DIRTY;
1.1  darran
1.1  darran 	*rp = dtd;
1.1  darran 	return (type);
1.1  darran }
1.1  darran
1.1  darran /*
1.1  darran  * When encoding integer sizes, we want to convert a byte count in the range
1.1  darran  * 1-8 to the closest power of 2 (e.g. 3->4, 5->8, etc).  The clp2() function
1.1  darran  * is a clever implementation from "Hacker's Delight" by Henry Warren, Jr.
1.1  darran  */
1.1  darran static size_t
1.1  darran clp2(size_t x)
1.1  darran {
1.1  darran 	x--;
1.1  darran
1.1  darran 	x |= (x >> 1);
1.1  darran 	x |= (x >> 2);
1.1  darran 	x |= (x >> 4);
1.1  darran 	x |= (x >> 8);
1.1  darran 	x |= (x >> 16);
1.1  darran
1.1  darran 	return (x + 1);
1.1  darran }
1.1  darran
1.1  darran static ctf_id_t
1.1  darran ctf_add_encoded(ctf_file_t *fp, uint_t flag,
1.1  darran     const char *name, const ctf_encoding_t *ep, uint_t kind)
1.1  darran {
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_id_t type;
1.1  darran
1.1  darran 	if (ep == NULL)
1.1  darran 		return (ctf_set_errno(fp, EINVAL));
1.1  darran
1.1  darran 	if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR)
1.1  darran 		return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 	dtd->dtd_data.ctt_info = CTF_TYPE_INFO(kind, flag, 0);
1.1  darran 	dtd->dtd_data.ctt_size = clp2(P2ROUNDUP(ep->cte_bits, NBBY) / NBBY);
1.1  darran 	dtd->dtd_u.dtu_enc = *ep;
1.1  darran
1.1  darran 	return (type);
1.1  darran }
1.1  darran
1.1  darran static ctf_id_t
1.1  darran ctf_add_reftype(ctf_file_t *fp, uint_t flag, ctf_id_t ref, uint_t kind)
1.1  darran {
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_id_t type;
1.1  darran
1.1  darran 	if (ref == CTF_ERR || ref < 0 || ref > CTF_MAX_TYPE)
1.1  darran 		return (ctf_set_errno(fp, EINVAL));
1.1  darran
1.1  darran 	if ((type = ctf_add_generic(fp, flag, NULL, &dtd)) == CTF_ERR)
1.1  darran 		return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 	dtd->dtd_data.ctt_info = CTF_TYPE_INFO(kind, flag, 0);
1.1  darran 	dtd->dtd_data.ctt_type = (ushort_t)ref;
1.1  darran
1.1  darran 	return (type);
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_integer(ctf_file_t *fp, uint_t flag,
1.1  darran     const char *name, const ctf_encoding_t *ep)
1.1  darran {
1.1  darran 	return (ctf_add_encoded(fp, flag, name, ep, CTF_K_INTEGER));
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_float(ctf_file_t *fp, uint_t flag,
1.1  darran     const char *name, const ctf_encoding_t *ep)
1.1  darran {
1.1  darran 	return (ctf_add_encoded(fp, flag, name, ep, CTF_K_FLOAT));
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_pointer(ctf_file_t *fp, uint_t flag, ctf_id_t ref)
1.1  darran {
1.1  darran 	return (ctf_add_reftype(fp, flag, ref, CTF_K_POINTER));
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_array(ctf_file_t *fp, uint_t flag, const ctf_arinfo_t *arp)
1.1  darran {
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_id_t type;
1.1  darran
1.1  darran 	if (arp == NULL)
1.1  darran 		return (ctf_set_errno(fp, EINVAL));
1.1  darran
1.1  darran 	if ((type = ctf_add_generic(fp, flag, NULL, &dtd)) == CTF_ERR)
1.1  darran 		return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 	dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_ARRAY, flag, 0);
1.1  darran 	dtd->dtd_data.ctt_size = 0;
1.1  darran 	dtd->dtd_u.dtu_arr = *arp;
1.1  darran
1.1  darran 	return (type);
1.1  darran }
1.1  darran
1.1  darran int
1.1  darran ctf_set_array(ctf_file_t *fp, ctf_id_t type, const ctf_arinfo_t *arp)
1.1  darran {
1.1  darran 	ctf_dtdef_t *dtd = ctf_dtd_lookup(fp, type);
1.1  darran
1.1  darran 	if (!(fp->ctf_flags & LCTF_RDWR))
1.1  darran 		return (ctf_set_errno(fp, ECTF_RDONLY));
1.1  darran
1.1  darran 	if (dtd == NULL || CTF_INFO_KIND(dtd->dtd_data.ctt_info) != CTF_K_ARRAY)
1.1  darran 		return (ctf_set_errno(fp, ECTF_BADID));
1.1  darran
1.1  darran 	fp->ctf_flags |= LCTF_DIRTY;
1.1  darran 	dtd->dtd_u.dtu_arr = *arp;
1.1  darran
1.1  darran 	return (0);
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_function(ctf_file_t *fp, uint_t flag,
1.1  darran     const ctf_funcinfo_t *ctc, const ctf_id_t *argv)
1.1  darran {
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_id_t type;
1.1  darran 	uint_t vlen;
1.1  darran 	ctf_id_t *vdat = NULL;
1.1  darran
1.1  darran 	if (ctc == NULL || (ctc->ctc_flags & ~CTF_FUNC_VARARG) != 0 ||
1.1  darran 	    (ctc->ctc_argc != 0 && argv == NULL))
1.1  darran 		return (ctf_set_errno(fp, EINVAL));
1.1  darran
1.1  darran 	vlen = ctc->ctc_argc;
1.1  darran 	if (ctc->ctc_flags & CTF_FUNC_VARARG)
1.1  darran 		vlen++; /* add trailing zero to indicate varargs (see below) */
1.1  darran
1.1  darran 	if (vlen > CTF_MAX_VLEN)
1.1  darran 		return (ctf_set_errno(fp, EOVERFLOW));
1.1  darran
1.1  darran 	if (vlen != 0 && (vdat = ctf_alloc(sizeof (ctf_id_t) * vlen)) == NULL)
1.1  darran 		return (ctf_set_errno(fp, EAGAIN));
1.1  darran
1.1  darran 	if ((type = ctf_add_generic(fp, flag, NULL, &dtd)) == CTF_ERR) {
1.1  darran 		ctf_free(vdat, sizeof (ctf_id_t) * vlen);
1.1  darran 		return (CTF_ERR); /* errno is set for us */
1.1  darran 	}
1.1  darran
1.1  darran 	dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_FUNCTION, flag, vlen);
1.1  darran 	dtd->dtd_data.ctt_type = (ushort_t)ctc->ctc_return;
1.1  darran
1.1  darran 	bcopy(argv, vdat, sizeof (ctf_id_t) * ctc->ctc_argc);
1.1  darran 	if (ctc->ctc_flags & CTF_FUNC_VARARG)
1.1  darran 		vdat[vlen - 1] = 0; /* add trailing zero to indicate varargs */
1.1  darran 	dtd->dtd_u.dtu_argv = vdat;
1.1  darran
1.1  darran 	return (type);
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_struct(ctf_file_t *fp, uint_t flag, const char *name)
1.1  darran {
1.1  darran 	ctf_hash_t *hp = &fp->ctf_structs;
1.1  darran 	ctf_helem_t *hep = NULL;
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_id_t type;
1.1  darran
1.1  darran 	if (name != NULL)
1.1  darran 		hep = ctf_hash_lookup(hp, fp, name, strlen(name));
1.1  darran
1.1  darran 	if (hep != NULL && ctf_type_kind(fp, hep->h_type) == CTF_K_FORWARD)
1.1  darran 		dtd = ctf_dtd_lookup(fp, type = hep->h_type);
1.1  darran 	else if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR)
1.1  darran 		return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 	dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_STRUCT, flag, 0);
1.1  darran 	dtd->dtd_data.ctt_size = 0;
1.1  darran
1.1  darran 	return (type);
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_union(ctf_file_t *fp, uint_t flag, const char *name)
1.1  darran {
1.1  darran 	ctf_hash_t *hp = &fp->ctf_unions;
1.1  darran 	ctf_helem_t *hep = NULL;
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_id_t type;
1.1  darran
1.1  darran 	if (name != NULL)
1.1  darran 		hep = ctf_hash_lookup(hp, fp, name, strlen(name));
1.1  darran
1.1  darran 	if (hep != NULL && ctf_type_kind(fp, hep->h_type) == CTF_K_FORWARD)
1.1  darran 		dtd = ctf_dtd_lookup(fp, type = hep->h_type);
1.1  darran 	else if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR)
1.1  darran 		return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 	dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_UNION, flag, 0);
1.1  darran 	dtd->dtd_data.ctt_size = 0;
1.1  darran
1.1  darran 	return (type);
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_enum(ctf_file_t *fp, uint_t flag, const char *name)
1.1  darran {
1.1  darran 	ctf_hash_t *hp = &fp->ctf_enums;
1.1  darran 	ctf_helem_t *hep = NULL;
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_id_t type;
1.1  darran
1.1  darran 	if (name != NULL)
1.1  darran 		hep = ctf_hash_lookup(hp, fp, name, strlen(name));
1.1  darran
1.1  darran 	if (hep != NULL && ctf_type_kind(fp, hep->h_type) == CTF_K_FORWARD)
1.1  darran 		dtd = ctf_dtd_lookup(fp, type = hep->h_type);
1.1  darran 	else if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR)
1.1  darran 		return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 	dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_ENUM, flag, 0);
1.1  darran 	dtd->dtd_data.ctt_size = fp->ctf_dmodel->ctd_int;
1.1  darran
1.1  darran 	return (type);
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_forward(ctf_file_t *fp, uint_t flag, const char *name, uint_t kind)
1.1  darran {
1.1  darran 	ctf_hash_t *hp;
1.1  darran 	ctf_helem_t *hep;
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_id_t type;
1.1  darran
1.1  darran 	switch (kind) {
1.1  darran 	case CTF_K_STRUCT:
1.1  darran 		hp = &fp->ctf_structs;
1.1  darran 		break;
1.1  darran 	case CTF_K_UNION:
1.1  darran 		hp = &fp->ctf_unions;
1.1  darran 		break;
1.1  darran 	case CTF_K_ENUM:
1.1  darran 		hp = &fp->ctf_enums;
1.1  darran 		break;
1.1  darran 	default:
1.1  darran 		return (ctf_set_errno(fp, ECTF_NOTSUE));
1.1  darran 	}
1.1  darran
1.1  darran 	/*
1.1  darran 	 * If the type is already defined or exists as a forward tag, just
1.1  darran 	 * return the ctf_id_t of the existing definition.
1.1  darran 	 */
1.1  darran 	if (name != NULL && (hep = ctf_hash_lookup(hp,
1.1  darran 	    fp, name, strlen(name))) != NULL)
1.1  darran 		return (hep->h_type);
1.1  darran
1.1  darran 	if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR)
1.1  darran 		return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 	dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_FORWARD, flag, 0);
1.1  darran 	dtd->dtd_data.ctt_type = kind;
1.1  darran
1.1  darran 	return (type);
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_typedef(ctf_file_t *fp, uint_t flag, const char *name, ctf_id_t ref)
1.1  darran {
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_id_t type;
1.1  darran
1.1  darran 	if (ref == CTF_ERR || ref < 0 || ref > CTF_MAX_TYPE)
1.1  darran 		return (ctf_set_errno(fp, EINVAL));
1.1  darran
1.1  darran 	if ((type = ctf_add_generic(fp, flag, name, &dtd)) == CTF_ERR)
1.1  darran 		return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 	dtd->dtd_data.ctt_info = CTF_TYPE_INFO(CTF_K_TYPEDEF, flag, 0);
1.1  darran 	dtd->dtd_data.ctt_type = (ushort_t)ref;
1.1  darran
1.1  darran 	return (type);
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_volatile(ctf_file_t *fp, uint_t flag, ctf_id_t ref)
1.1  darran {
1.1  darran 	return (ctf_add_reftype(fp, flag, ref, CTF_K_VOLATILE));
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_const(ctf_file_t *fp, uint_t flag, ctf_id_t ref)
1.1  darran {
1.1  darran 	return (ctf_add_reftype(fp, flag, ref, CTF_K_CONST));
1.1  darran }
1.1  darran
1.1  darran ctf_id_t
1.1  darran ctf_add_restrict(ctf_file_t *fp, uint_t flag, ctf_id_t ref)
1.1  darran {
1.1  darran 	return (ctf_add_reftype(fp, flag, ref, CTF_K_RESTRICT));
1.1  darran }
1.1  darran
1.1  darran int
1.1  darran ctf_add_enumerator(ctf_file_t *fp, ctf_id_t enid, const char *name, int value)
1.1  darran {
1.1  darran 	ctf_dtdef_t *dtd = ctf_dtd_lookup(fp, enid);
1.1  darran 	ctf_dmdef_t *dmd;
1.1  darran
1.1  darran 	uint_t kind, vlen, root;
1.1  darran 	char *s;
1.1  darran
1.1  darran 	if (name == NULL)
1.1  darran 		return (ctf_set_errno(fp, EINVAL));
1.1  darran
1.1  darran 	if (!(fp->ctf_flags & LCTF_RDWR))
1.1  darran 		return (ctf_set_errno(fp, ECTF_RDONLY));
1.1  darran
1.1  darran 	if (dtd == NULL)
1.1  darran 		return (ctf_set_errno(fp, ECTF_BADID));
1.1  darran
1.1  darran 	kind = CTF_INFO_KIND(dtd->dtd_data.ctt_info);
1.1  darran 	root = CTF_INFO_ISROOT(dtd->dtd_data.ctt_info);
1.1  darran 	vlen = CTF_INFO_VLEN(dtd->dtd_data.ctt_info);
1.1  darran
1.1  darran 	if (kind != CTF_K_ENUM)
1.1  darran 		return (ctf_set_errno(fp, ECTF_NOTENUM));
1.1  darran
1.1  darran 	if (vlen == CTF_MAX_VLEN)
1.1  darran 		return (ctf_set_errno(fp, ECTF_DTFULL));
1.1  darran
1.1  darran 	for (dmd = ctf_list_next(&dtd->dtd_u.dtu_members);
1.1  darran 	    dmd != NULL; dmd = ctf_list_next(dmd)) {
1.1  darran 		if (strcmp(dmd->dmd_name, name) == 0)
1.1  darran 			return (ctf_set_errno(fp, ECTF_DUPMEMBER));
1.1  darran 	}
1.1  darran
1.1  darran 	if ((dmd = ctf_alloc(sizeof (ctf_dmdef_t))) == NULL)
1.1  darran 		return (ctf_set_errno(fp, EAGAIN));
1.1  darran
1.1  darran 	if ((s = ctf_strdup(name)) == NULL) {
1.1  darran 		ctf_free(dmd, sizeof (ctf_dmdef_t));
1.1  darran 		return (ctf_set_errno(fp, EAGAIN));
1.1  darran 	}
1.1  darran
1.1  darran 	dmd->dmd_name = s;
1.1  darran 	dmd->dmd_type = CTF_ERR;
1.1  darran 	dmd->dmd_offset = 0;
1.1  darran 	dmd->dmd_value = value;
1.1  darran
1.1  darran 	dtd->dtd_data.ctt_info = CTF_TYPE_INFO(kind, root, vlen + 1);
1.1  darran 	ctf_list_append(&dtd->dtd_u.dtu_members, dmd);
1.1  darran
1.1  darran 	fp->ctf_dtstrlen += strlen(s) + 1;
1.1  darran 	fp->ctf_flags |= LCTF_DIRTY;
1.1  darran
1.1  darran 	return (0);
1.1  darran }
1.1  darran
1.1  darran int
1.1  darran ctf_add_member(ctf_file_t *fp, ctf_id_t souid, const char *name, ctf_id_t type)
1.1  darran {
1.1  darran 	ctf_dtdef_t *dtd = ctf_dtd_lookup(fp, souid);
1.1  darran 	ctf_dmdef_t *dmd;
1.1  darran
1.1  darran 	ssize_t msize, malign, ssize;
1.1  darran 	uint_t kind, vlen, root;
1.1  darran 	char *s = NULL;
1.1  darran
1.1  darran 	if (!(fp->ctf_flags & LCTF_RDWR))
1.1  darran 		return (ctf_set_errno(fp, ECTF_RDONLY));
1.1  darran
1.1  darran 	if (dtd == NULL)
1.1  darran 		return (ctf_set_errno(fp, ECTF_BADID));
1.1  darran
1.1  darran 	kind = CTF_INFO_KIND(dtd->dtd_data.ctt_info);
1.1  darran 	root = CTF_INFO_ISROOT(dtd->dtd_data.ctt_info);
1.1  darran 	vlen = CTF_INFO_VLEN(dtd->dtd_data.ctt_info);
1.1  darran
1.1  darran 	if (kind != CTF_K_STRUCT && kind != CTF_K_UNION)
1.1  darran 		return (ctf_set_errno(fp, ECTF_NOTSOU));
1.1  darran
1.1  darran 	if (vlen == CTF_MAX_VLEN)
1.1  darran 		return (ctf_set_errno(fp, ECTF_DTFULL));
1.1  darran
1.1  darran 	if (name != NULL) {
1.1  darran 		for (dmd = ctf_list_next(&dtd->dtd_u.dtu_members);
1.1  darran 		    dmd != NULL; dmd = ctf_list_next(dmd)) {
1.1  darran 			if (dmd->dmd_name != NULL &&
1.1  darran 			    strcmp(dmd->dmd_name, name) == 0)
1.1  darran 				return (ctf_set_errno(fp, ECTF_DUPMEMBER));
1.1  darran 		}
1.1  darran 	}
1.1  darran
1.1  darran 	if ((msize = ctf_type_size(fp, type)) == CTF_ERR ||
1.1  darran 	    (malign = ctf_type_align(fp, type)) == CTF_ERR)
1.1  darran 		return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 	if ((dmd = ctf_alloc(sizeof (ctf_dmdef_t))) == NULL)
1.1  darran 		return (ctf_set_errno(fp, EAGAIN));
1.1  darran
1.1  darran 	if (name != NULL && (s = ctf_strdup(name)) == NULL) {
1.1  darran 		ctf_free(dmd, sizeof (ctf_dmdef_t));
1.1  darran 		return (ctf_set_errno(fp, EAGAIN));
1.1  darran 	}
1.1  darran
1.1  darran 	dmd->dmd_name = s;
1.1  darran 	dmd->dmd_type = type;
1.1  darran 	dmd->dmd_value = -1;
1.1  darran
1.1  darran 	if (kind == CTF_K_STRUCT && vlen != 0) {
1.1  darran 		ctf_dmdef_t *lmd = ctf_list_prev(&dtd->dtd_u.dtu_members);
1.1  darran 		ctf_id_t ltype = ctf_type_resolve(fp, lmd->dmd_type);
1.1  darran 		size_t off = lmd->dmd_offset;
1.1  darran
1.1  darran 		ctf_encoding_t linfo;
1.1  darran 		ssize_t lsize;
1.1  darran
1.1  darran 		if (ctf_type_encoding(fp, ltype, &linfo) != CTF_ERR)
1.1  darran 			off += linfo.cte_bits;
1.1  darran 		else if ((lsize = ctf_type_size(fp, ltype)) != CTF_ERR)
1.1  darran 			off += lsize * NBBY;
1.1  darran
1.1  darran 		/*
1.1  darran 		 * Round up the offset of the end of the last member to the
1.1  darran 		 * next byte boundary, convert 'off' to bytes, and then round
1.1  darran 		 * it up again to the next multiple of the alignment required
1.1  darran 		 * by the new member.  Finally, convert back to bits and store
1.1  darran 		 * the result in dmd_offset.  Technically we could do more
1.1  darran 		 * efficient packing if the new member is a bit-field, but
1.1  darran 		 * we're the "compiler" and ANSI says we can do as we choose.
1.1  darran 		 */
1.1  darran 		off = roundup(off, NBBY) / NBBY;
1.1  darran 		off = roundup(off, MAX(malign, 1));
1.1  darran 		dmd->dmd_offset = off * NBBY;
1.1  darran 		ssize = off + msize;
1.1  darran 	} else {
1.1  darran 		dmd->dmd_offset = 0;
1.1  darran 		ssize = ctf_get_ctt_size(fp, &dtd->dtd_data, NULL, NULL);
1.1  darran 		ssize = MAX(ssize, msize);
1.1  darran 	}
1.1  darran
1.1  darran 	if (ssize > CTF_MAX_SIZE) {
1.1  darran 		dtd->dtd_data.ctt_size = CTF_LSIZE_SENT;
1.1  darran 		dtd->dtd_data.ctt_lsizehi = CTF_SIZE_TO_LSIZE_HI(ssize);
1.1  darran 		dtd->dtd_data.ctt_lsizelo = CTF_SIZE_TO_LSIZE_LO(ssize);
1.1  darran 	} else
1.1  darran 		dtd->dtd_data.ctt_size = (ushort_t)ssize;
1.1  darran
1.1  darran 	dtd->dtd_data.ctt_info = CTF_TYPE_INFO(kind, root, vlen + 1);
1.1  darran 	ctf_list_append(&dtd->dtd_u.dtu_members, dmd);
1.1  darran
1.1  darran 	if (s != NULL)
1.1  darran 		fp->ctf_dtstrlen += strlen(s) + 1;
1.1  darran
1.1  darran 	fp->ctf_flags |= LCTF_DIRTY;
1.1  darran 	return (0);
1.1  darran }
1.1  darran
1.1  darran static int
1.1  darran enumcmp(const char *name, int value, void *arg)
1.1  darran {
1.1  darran 	ctf_bundle_t *ctb = arg;
1.1  darran 	int bvalue;
1.1  darran
1.1  darran 	return (ctf_enum_value(ctb->ctb_file, ctb->ctb_type,
1.1  darran 	    name, &bvalue) == CTF_ERR || value != bvalue);
1.1  darran }
1.1  darran
1.1  darran static int
1.1  darran enumadd(const char *name, int value, void *arg)
1.1  darran {
1.1  darran 	ctf_bundle_t *ctb = arg;
1.1  darran
1.1  darran 	return (ctf_add_enumerator(ctb->ctb_file, ctb->ctb_type,
1.1  darran 	    name, value) == CTF_ERR);
1.1  darran }
1.1  darran
1.1  darran /*ARGSUSED*/
1.1  darran static int
1.1  darran membcmp(const char *name, ctf_id_t type, ulong_t offset, void *arg)
1.1  darran {
1.1  darran 	ctf_bundle_t *ctb = arg;
1.1  darran 	ctf_membinfo_t ctm;
1.1  darran
1.1  darran 	return (ctf_member_info(ctb->ctb_file, ctb->ctb_type,
1.1  darran 	    name, &ctm) == CTF_ERR || ctm.ctm_offset != offset);
1.1  darran }
1.1  darran
1.1  darran static int
1.1  darran membadd(const char *name, ctf_id_t type, ulong_t offset, void *arg)
1.1  darran {
1.1  darran 	ctf_bundle_t *ctb = arg;
1.1  darran 	ctf_dmdef_t *dmd;
1.1  darran 	char *s = NULL;
1.1  darran
1.1  darran 	if ((dmd = ctf_alloc(sizeof (ctf_dmdef_t))) == NULL)
1.1  darran 		return (ctf_set_errno(ctb->ctb_file, EAGAIN));
1.1  darran
1.1  darran 	if (name != NULL && (s = ctf_strdup(name)) == NULL) {
1.1  darran 		ctf_free(dmd, sizeof (ctf_dmdef_t));
1.1  darran 		return (ctf_set_errno(ctb->ctb_file, EAGAIN));
1.1  darran 	}
1.1  darran
1.1  darran 	/*
1.1  darran 	 * For now, dmd_type is copied as the src_fp's type; it is reset to an
1.1  darran 	 * equivalent dst_fp type by a final loop in ctf_add_type(), below.
1.1  darran 	 */
1.1  darran 	dmd->dmd_name = s;
1.1  darran 	dmd->dmd_type = type;
1.1  darran 	dmd->dmd_offset = offset;
1.1  darran 	dmd->dmd_value = -1;
1.1  darran
1.1  darran 	ctf_list_append(&ctb->ctb_dtd->dtd_u.dtu_members, dmd);
1.1  darran
1.1  darran 	if (s != NULL)
1.1  darran 		ctb->ctb_file->ctf_dtstrlen += strlen(s) + 1;
1.1  darran
1.1  darran 	ctb->ctb_file->ctf_flags |= LCTF_DIRTY;
1.1  darran 	return (0);
1.1  darran }
1.1  darran
1.1  darran /*
1.1  darran  * The ctf_add_type routine is used to copy a type from a source CTF container
1.1  darran  * to a dynamic destination container.  This routine operates recursively by
1.1  darran  * following the source type's links and embedded member types.  If the
1.1  darran  * destination container already contains a named type which has the same
1.1  darran  * attributes, then we succeed and return this type but no changes occur.
1.1  darran  */
1.1  darran ctf_id_t
1.1  darran ctf_add_type(ctf_file_t *dst_fp, ctf_file_t *src_fp, ctf_id_t src_type)
1.1  darran {
1.1  darran 	ctf_id_t dst_type = CTF_ERR;
1.1  darran 	uint_t dst_kind = CTF_K_UNKNOWN;
1.1  darran
1.1  darran 	const ctf_type_t *tp;
1.1  darran 	const char *name;
1.1  darran 	uint_t kind, flag, vlen;
1.1  darran
1.1  darran 	ctf_bundle_t src, dst;
1.1  darran 	ctf_encoding_t src_en, dst_en;
1.1  darran 	ctf_arinfo_t src_ar, dst_ar;
1.1  darran
1.1  darran 	ctf_dtdef_t *dtd;
1.1  darran 	ctf_funcinfo_t ctc;
1.1  darran 	ssize_t size;
1.1  darran
1.1  darran 	ctf_hash_t *hp;
1.1  darran 	ctf_helem_t *hep;
1.1  darran
1.1  darran 	if (!(dst_fp->ctf_flags & LCTF_RDWR))
1.1  darran 		return (ctf_set_errno(dst_fp, ECTF_RDONLY));
1.1  darran
1.1  darran 	if ((tp = ctf_lookup_by_id(&src_fp, src_type)) == NULL)
1.1  darran 		return (ctf_set_errno(dst_fp, ctf_errno(src_fp)));
1.1  darran
1.1  darran 	name = ctf_strptr(src_fp, tp->ctt_name);
1.1  darran 	kind = LCTF_INFO_KIND(src_fp, tp->ctt_info);
1.1  darran 	flag = LCTF_INFO_ROOT(src_fp, tp->ctt_info);
1.1  darran 	vlen = LCTF_INFO_VLEN(src_fp, tp->ctt_info);
1.1  darran
1.1  darran 	switch (kind) {
1.1  darran 	case CTF_K_STRUCT:
1.1  darran 		hp = &dst_fp->ctf_structs;
1.1  darran 		break;
1.1  darran 	case CTF_K_UNION:
1.1  darran 		hp = &dst_fp->ctf_unions;
1.1  darran 		break;
1.1  darran 	case CTF_K_ENUM:
1.1  darran 		hp = &dst_fp->ctf_enums;
1.1  darran 		break;
1.1  darran 	default:
1.1  darran 		hp = &dst_fp->ctf_names;
1.1  darran 		break;
1.1  darran 	}
1.1  darran
1.1  darran 	/*
1.1  darran 	 * If the source type has a name and is a root type (visible at the
1.1  darran 	 * top-level scope), lookup the name in the destination container and
1.1  darran 	 * verify that it is of the same kind before we do anything else.
1.1  darran 	 */
1.1  darran 	if ((flag & CTF_ADD_ROOT) && name[0] != '\0' &&
1.1  darran 	    (hep = ctf_hash_lookup(hp, dst_fp, name, strlen(name))) != NULL) {
1.1  darran 		dst_type = (ctf_id_t)hep->h_type;
1.1  darran 		dst_kind = ctf_type_kind(dst_fp, dst_type);
1.1  darran 	}
1.1  darran
1.1  darran 	/*
1.1  darran 	 * If an identically named dst_type exists, fail with ECTF_CONFLICT
1.1  darran 	 * unless dst_type is a forward declaration and src_type is a struct,
1.1  darran 	 * union, or enum (i.e. the definition of the previous forward decl).
1.1  darran 	 */
1.1  darran 	if (dst_type != CTF_ERR && dst_kind != kind && (
1.1  darran 	    dst_kind != CTF_K_FORWARD || (kind != CTF_K_ENUM &&
1.1  darran 	    kind != CTF_K_STRUCT && kind != CTF_K_UNION)))
1.1  darran 		return (ctf_set_errno(dst_fp, ECTF_CONFLICT));
1.1  darran
1.1  darran 	/*
1.1  darran 	 * If the non-empty name was not found in the appropriate hash, search
1.1  darran 	 * the list of pending dynamic definitions that are not yet committed.
1.1  darran 	 * If a matching name and kind are found, assume this is the type that
1.1  darran 	 * we are looking for.  This is necessary to permit ctf_add_type() to
1.1  darran 	 * operate recursively on entities such as a struct that contains a
1.1  darran 	 * pointer member that refers to the same struct type.
1.1  darran 	 */
1.1  darran 	if (dst_type == CTF_ERR && name[0] != '\0') {
1.1  darran 		for (dtd = ctf_list_prev(&dst_fp->ctf_dtdefs); dtd != NULL &&
1.1  darran 		    dtd->dtd_type > dst_fp->ctf_dtoldid;
1.1  darran 		    dtd = ctf_list_prev(dtd)) {
1.1  darran 			if (CTF_INFO_KIND(dtd->dtd_data.ctt_info) == kind &&
1.1  darran 			    dtd->dtd_name != NULL &&
1.1  darran 			    strcmp(dtd->dtd_name, name) == 0)
1.1  darran 				return (dtd->dtd_type);
1.1  darran 		}
1.1  darran 	}
1.1  darran
1.1  darran 	src.ctb_file = src_fp;
1.1  darran 	src.ctb_type = src_type;
1.1  darran 	src.ctb_dtd = NULL;
1.1  darran
1.1  darran 	dst.ctb_file = dst_fp;
1.1  darran 	dst.ctb_type = dst_type;
1.1  darran 	dst.ctb_dtd = NULL;
1.1  darran
1.1  darran 	/*
1.1  darran 	 * Now perform kind-specific processing.  If dst_type is CTF_ERR, then
1.1  darran 	 * we add a new type with the same properties as src_type to dst_fp.
1.1  darran 	 * If dst_type is not CTF_ERR, then we verify that dst_type has the
1.1  darran 	 * same attributes as src_type.  We recurse for embedded references.
1.1  darran 	 */
1.1  darran 	switch (kind) {
1.1  darran 	case CTF_K_INTEGER:
1.1  darran 	case CTF_K_FLOAT:
1.1  darran 		if (ctf_type_encoding(src_fp, src_type, &src_en) != 0)
1.1  darran 			return (ctf_set_errno(dst_fp, ctf_errno(src_fp)));
1.1  darran
1.1  darran 		if (dst_type != CTF_ERR) {
1.1  darran 			if (ctf_type_encoding(dst_fp, dst_type, &dst_en) != 0)
1.1  darran 				return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 			if (bcmp(&src_en, &dst_en, sizeof (ctf_encoding_t)))
1.1  darran 				return (ctf_set_errno(dst_fp, ECTF_CONFLICT));
1.1  darran
1.1  darran 		} else if (kind == CTF_K_INTEGER) {
1.1  darran 			dst_type = ctf_add_integer(dst_fp, flag, name, &src_en);
1.1  darran 		} else
1.1  darran 			dst_type = ctf_add_float(dst_fp, flag, name, &src_en);
1.1  darran 		break;
1.1  darran
1.1  darran 	case CTF_K_POINTER:
1.1  darran 	case CTF_K_VOLATILE:
1.1  darran 	case CTF_K_CONST:
1.1  darran 	case CTF_K_RESTRICT:
1.1  darran 		src_type = ctf_type_reference(src_fp, src_type);
1.1  darran 		src_type = ctf_add_type(dst_fp, src_fp, src_type);
1.1  darran
1.1  darran 		if (src_type == CTF_ERR)
1.1  darran 			return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 		dst_type = ctf_add_reftype(dst_fp, flag, src_type, kind);
1.1  darran 		break;
1.1  darran
1.1  darran 	case CTF_K_ARRAY:
1.1  darran 		if (ctf_array_info(src_fp, src_type, &src_ar) == CTF_ERR)
1.1  darran 			return (ctf_set_errno(dst_fp, ctf_errno(src_fp)));
1.1  darran
1.1  darran 		src_ar.ctr_contents =
1.1  darran 		    ctf_add_type(dst_fp, src_fp, src_ar.ctr_contents);
1.1  darran 		src_ar.ctr_index =
1.1  darran 		    ctf_add_type(dst_fp, src_fp, src_ar.ctr_index);
1.1  darran 		src_ar.ctr_nelems = src_ar.ctr_nelems;
1.1  darran
1.1  darran 		if (src_ar.ctr_contents == CTF_ERR ||
1.1  darran 		    src_ar.ctr_index == CTF_ERR)
1.1  darran 			return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 		if (dst_type != CTF_ERR) {
1.1  darran 			if (ctf_array_info(dst_fp, dst_type, &dst_ar) != 0)
1.1  darran 				return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 			if (bcmp(&src_ar, &dst_ar, sizeof (ctf_arinfo_t)))
1.1  darran 				return (ctf_set_errno(dst_fp, ECTF_CONFLICT));
1.1  darran 		} else
1.1  darran 			dst_type = ctf_add_array(dst_fp, flag, &src_ar);
1.1  darran 		break;
1.1  darran
1.1  darran 	case CTF_K_FUNCTION:
1.1  darran 		ctc.ctc_return = ctf_add_type(dst_fp, src_fp, tp->ctt_type);
1.1  darran 		ctc.ctc_argc = 0;
1.1  darran 		ctc.ctc_flags = 0;
1.1  darran
1.1  darran 		if (ctc.ctc_return == CTF_ERR)
1.1  darran 			return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 		dst_type = ctf_add_function(dst_fp, flag, &ctc, NULL);
1.1  darran 		break;
1.1  darran
1.1  darran 	case CTF_K_STRUCT:
1.1  darran 	case CTF_K_UNION: {
1.1  darran 		ctf_dmdef_t *dmd;
1.1  darran 		int errs = 0;
1.1  darran
1.1  darran 		/*
1.1  darran 		 * Technically to match a struct or union we need to check both
1.1  darran 		 * ways (src members vs. dst, dst members vs. src) but we make
1.1  darran 		 * this more optimal by only checking src vs. dst and comparing
1.1  darran 		 * the total size of the structure (which we must do anyway)
1.1  darran 		 * which covers the possibility of dst members not in src.
1.1  darran 		 * This optimization can be defeated for unions, but is so
1.1  darran 		 * pathological as to render it irrelevant for our purposes.
1.1  darran 		 */
1.1  darran 		if (dst_type != CTF_ERR && dst_kind != CTF_K_FORWARD) {
1.1  darran 			if (ctf_type_size(src_fp, src_type) !=
1.1  darran 			    ctf_type_size(dst_fp, dst_type))
1.1  darran 				return (ctf_set_errno(dst_fp, ECTF_CONFLICT));
1.1  darran
1.1  darran 			if (ctf_member_iter(src_fp, src_type, membcmp, &dst))
1.1  darran 				return (ctf_set_errno(dst_fp, ECTF_CONFLICT));
1.1  darran
1.1  darran 			break;
1.1  darran 		}
1.1  darran
1.1  darran 		/*
1.1  darran 		 * Unlike the other cases, copying structs and unions is done
1.1  darran 		 * manually so as to avoid repeated lookups in ctf_add_member
1.1  darran 		 * and to ensure the exact same member offsets as in src_type.
1.1  darran 		 */
1.1  darran 		dst_type = ctf_add_generic(dst_fp, flag, name, &dtd);
1.1  darran 		if (dst_type == CTF_ERR)
1.1  darran 			return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 		dst.ctb_type = dst_type;
1.1  darran 		dst.ctb_dtd = dtd;
1.1  darran
1.1  darran 		if (ctf_member_iter(src_fp, src_type, membadd, &dst) != 0)
1.1  darran 			errs++; /* increment errs and fail at bottom of case */
1.1  darran
1.1  darran 		if ((size = ctf_type_size(src_fp, src_type)) > CTF_MAX_SIZE) {
1.1  darran 			dtd->dtd_data.ctt_size = CTF_LSIZE_SENT;
1.1  darran 			dtd->dtd_data.ctt_lsizehi = CTF_SIZE_TO_LSIZE_HI(size);
1.1  darran 			dtd->dtd_data.ctt_lsizelo = CTF_SIZE_TO_LSIZE_LO(size);
1.1  darran 		} else
1.1  darran 			dtd->dtd_data.ctt_size = (ushort_t)size;
1.1  darran
1.1  darran 		dtd->dtd_data.ctt_info = CTF_TYPE_INFO(kind, flag, vlen);
1.1  darran
1.1  darran 		/*
1.1  darran 		 * Make a final pass through the members changing each dmd_type
1.1  darran 		 * (a src_fp type) to an equivalent type in dst_fp.  We pass
1.1  darran 		 * through all members, leaving any that fail set to CTF_ERR.
1.1  darran 		 */
1.1  darran 		for (dmd = ctf_list_next(&dtd->dtd_u.dtu_members);
1.1  darran 		    dmd != NULL; dmd = ctf_list_next(dmd)) {
1.1  darran 			if ((dmd->dmd_type = ctf_add_type(dst_fp, src_fp,
1.1  darran 			    dmd->dmd_type)) == CTF_ERR)
1.1  darran 				errs++;
1.1  darran 		}
1.1  darran
1.1  darran 		if (errs)
1.1  darran 			return (CTF_ERR); /* errno is set for us */
1.1  darran 		break;
1.1  darran 	}
1.1  darran
1.1  darran 	case CTF_K_ENUM:
1.1  darran 		if (dst_type != CTF_ERR && dst_kind != CTF_K_FORWARD) {
1.1  darran 			if (ctf_enum_iter(src_fp, src_type, enumcmp, &dst) ||
1.1  darran 			    ctf_enum_iter(dst_fp, dst_type, enumcmp, &src))
1.1  darran 				return (ctf_set_errno(dst_fp, ECTF_CONFLICT));
1.1  darran 		} else {
1.1  darran 			dst_type = ctf_add_enum(dst_fp, flag, name);
1.1  darran 			if ((dst.ctb_type = dst_type) == CTF_ERR ||
1.1  darran 			    ctf_enum_iter(src_fp, src_type, enumadd, &dst))
1.1  darran 				return (CTF_ERR); /* errno is set for us */
1.1  darran 		}
1.1  darran 		break;
1.1  darran
1.1  darran 	case CTF_K_FORWARD:
1.1  darran 		if (dst_type == CTF_ERR) {
1.1  darran 			dst_type = ctf_add_forward(dst_fp,
1.1  darran 			    flag, name, CTF_K_STRUCT); /* assume STRUCT */
1.1  darran 		}
1.1  darran 		break;
1.1  darran
1.1  darran 	case CTF_K_TYPEDEF:
1.1  darran 		src_type = ctf_type_reference(src_fp, src_type);
1.1  darran 		src_type = ctf_add_type(dst_fp, src_fp, src_type);
1.1  darran
1.1  darran 		if (src_type == CTF_ERR)
1.1  darran 			return (CTF_ERR); /* errno is set for us */
1.1  darran
1.1  darran 		/*
1.1  darran 		 * If dst_type is not CTF_ERR at this point, we should check if
1.1  darran 		 * ctf_type_reference(dst_fp, dst_type) != src_type and if so
1.1  darran 		 * fail with ECTF_CONFLICT.  However, this causes problems with
1.1  darran 		 * <sys/types.h> typedefs that vary based on things like if
1.1  darran 		 * _ILP32x then pid_t is int otherwise long.  We therefore omit
1.1  darran 		 * this check and assume that if the identically named typedef
1.1  darran 		 * already exists in dst_fp, it is correct or equivalent.
1.1  darran 		 */
1.1  darran 		if (dst_type == CTF_ERR) {
1.1  darran 			dst_type = ctf_add_typedef(dst_fp, flag,
1.1  darran 			    name, src_type);
1.1  darran 		}
1.1  darran 		break;
1.1  darran
1.1  darran 	default:
1.1  darran 		return (ctf_set_errno(dst_fp, ECTF_CORRUPT));
1.1  darran 	}
1.1  darran
1.1  darran 	return (dst_type);
1.1  darran }