1da6c28aaSamw /*
2da6c28aaSamw * CDDL HEADER START
3da6c28aaSamw *
4da6c28aaSamw * The contents of this file are subject to the terms of the
5da6c28aaSamw * Common Development and Distribution License (the "License").
6da6c28aaSamw * You may not use this file except in compliance with the License.
7da6c28aaSamw *
8da6c28aaSamw * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
9da6c28aaSamw * or http://www.opensolaris.org/os/licensing.
10da6c28aaSamw * See the License for the specific language governing permissions
11da6c28aaSamw * and limitations under the License.
12da6c28aaSamw *
13da6c28aaSamw * When distributing Covered Code, include this CDDL HEADER in each
14da6c28aaSamw * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
15da6c28aaSamw * If applicable, add the following below this CDDL HEADER, with the
16da6c28aaSamw * fields enclosed by brackets "[]" replaced with your own identifying
17da6c28aaSamw * information: Portions Copyright [yyyy] [name of copyright owner]
18da6c28aaSamw *
19da6c28aaSamw * CDDL HEADER END
20da6c28aaSamw */
21da6c28aaSamw /*
227f667e74Sjose borrego * Copyright 2009 Sun Microsystems, Inc. All rights reserved.
23da6c28aaSamw * Use is subject to license terms.
24*3299f39fSGordon Ross *
25*3299f39fSGordon Ross * Copyright 2013 Nexenta Systems, Inc. All rights reserved.
26da6c28aaSamw */
27da6c28aaSamw
28da6c28aaSamw /*
298d7e4166Sjose borrego * NDR heap management. The heap is used for temporary storage by
30da6c28aaSamw * both the client and server side library routines. In order to
31da6c28aaSamw * support the different requirements of the various RPCs, the heap
32da6c28aaSamw * can grow dynamically if required. We start with a single block
33da6c28aaSamw * and perform sub-allocations from it. If an RPC requires more space
34da6c28aaSamw * we will continue to add it a block at a time. This means that we
35da6c28aaSamw * don't hog lots of memory on every call to support the few times
36da6c28aaSamw * that we actually need a lot heap space.
37da6c28aaSamw *
38da6c28aaSamw * Note that there is no individual free function. Once space has been
39da6c28aaSamw * allocated, it remains allocated until the heap is destroyed. This
40da6c28aaSamw * shouldn't be an issue because the heap is being filled with data to
41da6c28aaSamw * be marshalled or unmarshalled and we need it all to be there until
42da6c28aaSamw * the point that the entire heap is no longer required.
43da6c28aaSamw */
44da6c28aaSamw
45da6c28aaSamw #include <sys/errno.h>
46da6c28aaSamw #include <stdlib.h>
47da6c28aaSamw #include <string.h>
48da6c28aaSamw #include <strings.h>
49da6c28aaSamw #include <sys/uio.h>
50da6c28aaSamw
51*3299f39fSGordon Ross #include <libmlrpc.h>
52*3299f39fSGordon Ross #include <ndr_wchar.h>
53da6c28aaSamw
54da6c28aaSamw /*
55da6c28aaSamw * Allocate a heap structure and the first heap block. For many RPC
56da6c28aaSamw * operations this will be the only time we need to malloc memory
57da6c28aaSamw * in this instance of the heap. The only point of note here is that
58da6c28aaSamw * we put the heap management data in the first block to avoid a
598d7e4166Sjose borrego * second malloc. Make sure that sizeof(ndr_heap_t) is smaller
608d7e4166Sjose borrego * than NDR_HEAP_BLKSZ.
61da6c28aaSamw *
62da6c28aaSamw * Note that the heap management data is at the start of the first block.
63da6c28aaSamw *
64da6c28aaSamw * Returns a pointer to the newly created heap, which is used like an
65da6c28aaSamw * opaque handle with the rest of the heap management interface..
66da6c28aaSamw */
678d7e4166Sjose borrego ndr_heap_t *
ndr_heap_create(void)688d7e4166Sjose borrego ndr_heap_create(void)
69da6c28aaSamw {
708d7e4166Sjose borrego ndr_heap_t *heap;
71da6c28aaSamw char *base;
727f667e74Sjose borrego size_t allocsize = sizeof (ndr_heap_t) + NDR_HEAP_BLKSZ;
73da6c28aaSamw
747f667e74Sjose borrego if ((heap = malloc(allocsize)) == NULL)
75da6c28aaSamw return (NULL);
76da6c28aaSamw
777f667e74Sjose borrego base = (char *)heap;
788d7e4166Sjose borrego bzero(heap, sizeof (ndr_heap_t));
79da6c28aaSamw
808d7e4166Sjose borrego heap->iovcnt = NDR_HEAP_MAXIOV;
81da6c28aaSamw heap->iov = heap->iovec;
82da6c28aaSamw heap->iov->iov_base = base;
838d7e4166Sjose borrego heap->iov->iov_len = sizeof (ndr_heap_t);
847f667e74Sjose borrego heap->top = base + allocsize;
858d7e4166Sjose borrego heap->next = base + sizeof (ndr_heap_t);
86da6c28aaSamw
87da6c28aaSamw return (heap);
88da6c28aaSamw }
89da6c28aaSamw
90da6c28aaSamw /*
91da6c28aaSamw * Deallocate all of the memory associated with a heap. This is the
92da6c28aaSamw * only way to deallocate heap memory, it isn't possible to free the
93da6c28aaSamw * space obtained by individual malloc calls.
94da6c28aaSamw *
95da6c28aaSamw * Note that the first block contains the heap management data, which
96da6c28aaSamw * is deleted last.
97da6c28aaSamw */
98da6c28aaSamw void
ndr_heap_destroy(ndr_heap_t * heap)998d7e4166Sjose borrego ndr_heap_destroy(ndr_heap_t *heap)
100da6c28aaSamw {
101da6c28aaSamw int i;
102da6c28aaSamw char *p;
103da6c28aaSamw
104da6c28aaSamw if (heap) {
1058d7e4166Sjose borrego for (i = 1; i < NDR_HEAP_MAXIOV; ++i) {
106da6c28aaSamw if ((p = heap->iovec[i].iov_base) != NULL)
107da6c28aaSamw free(p);
108da6c28aaSamw }
109da6c28aaSamw
110da6c28aaSamw free(heap);
111da6c28aaSamw }
112da6c28aaSamw }
113da6c28aaSamw
114da6c28aaSamw /*
115da6c28aaSamw * Allocate space in the specified heap. All requests are padded, if
116da6c28aaSamw * required, to ensure dword alignment. If the current iov will be
117da6c28aaSamw * exceeded, we allocate a new block and setup the next iov. Otherwise
118da6c28aaSamw * all we have to do is move the next pointer and update the current
119da6c28aaSamw * iov length.
120da6c28aaSamw *
121da6c28aaSamw * On success, a pointer to the allocated (dword aligned) area is
122da6c28aaSamw * returned. Otherwise a null pointer is returned.
123da6c28aaSamw */
124da6c28aaSamw void *
ndr_heap_malloc(ndr_heap_t * heap,unsigned size)1258d7e4166Sjose borrego ndr_heap_malloc(ndr_heap_t *heap, unsigned size)
126da6c28aaSamw {
127da6c28aaSamw char *p;
128da6c28aaSamw int incr_size;
129da6c28aaSamw
1308d7e4166Sjose borrego size += NDR_ALIGN4(size);
131da6c28aaSamw
132da6c28aaSamw if (heap == NULL || size == 0)
133da6c28aaSamw return (NULL);
134da6c28aaSamw
135da6c28aaSamw p = heap->next;
136da6c28aaSamw
137da6c28aaSamw if (p + size > heap->top) {
138da6c28aaSamw if ((heap->iovcnt == 0) || ((--heap->iovcnt) == 0))
139da6c28aaSamw return (NULL);
140da6c28aaSamw
1418d7e4166Sjose borrego incr_size = (size < NDR_HEAP_BLKSZ) ? NDR_HEAP_BLKSZ : size;
142da6c28aaSamw
143da6c28aaSamw if ((p = (char *)malloc(incr_size)) == NULL)
144da6c28aaSamw return (NULL);
145da6c28aaSamw
146da6c28aaSamw ++heap->iov;
147da6c28aaSamw heap->iov->iov_base = p;
148da6c28aaSamw heap->iov->iov_len = 0;
149da6c28aaSamw heap->top = p + incr_size;
150da6c28aaSamw }
151da6c28aaSamw
152da6c28aaSamw heap->next = p + size;
153da6c28aaSamw heap->iov->iov_len += size;
154da6c28aaSamw return ((void *)p);
155da6c28aaSamw }
156da6c28aaSamw
157*3299f39fSGordon Ross /*
158*3299f39fSGordon Ross * Convenience function to copy some memory into the heap.
159*3299f39fSGordon Ross */
160*3299f39fSGordon Ross void *
ndr_heap_dupmem(ndr_heap_t * heap,const void * mem,size_t len)161*3299f39fSGordon Ross ndr_heap_dupmem(ndr_heap_t *heap, const void *mem, size_t len)
162*3299f39fSGordon Ross {
163*3299f39fSGordon Ross void *p;
164*3299f39fSGordon Ross
165*3299f39fSGordon Ross if (mem == NULL)
166*3299f39fSGordon Ross return (NULL);
167*3299f39fSGordon Ross
168*3299f39fSGordon Ross if ((p = ndr_heap_malloc(heap, len)) != NULL)
169*3299f39fSGordon Ross (void) memcpy(p, mem, len);
170*3299f39fSGordon Ross
171*3299f39fSGordon Ross return (p);
172*3299f39fSGordon Ross }
173*3299f39fSGordon Ross
174da6c28aaSamw /*
175da6c28aaSamw * Convenience function to do heap strdup.
176da6c28aaSamw */
177da6c28aaSamw void *
ndr_heap_strdup(ndr_heap_t * heap,const char * s)1788d7e4166Sjose borrego ndr_heap_strdup(ndr_heap_t *heap, const char *s)
179da6c28aaSamw {
180da6c28aaSamw int len;
181da6c28aaSamw void *p;
182da6c28aaSamw
183da6c28aaSamw if (s == NULL)
184da6c28aaSamw return (NULL);
185da6c28aaSamw
186da6c28aaSamw /*
187da6c28aaSamw * We don't need to clutter the heap with empty strings.
188da6c28aaSamw */
189da6c28aaSamw if ((len = strlen(s)) == 0)
190da6c28aaSamw return ("");
191da6c28aaSamw
192*3299f39fSGordon Ross p = ndr_heap_dupmem(heap, s, len+1);
193da6c28aaSamw
194da6c28aaSamw return (p);
195da6c28aaSamw }
196da6c28aaSamw
1978d7e4166Sjose borrego /*
1988d7e4166Sjose borrego * Make an ndr_mstring_t from a regular string.
1998d7e4166Sjose borrego */
2008d7e4166Sjose borrego int
ndr_heap_mstring(ndr_heap_t * heap,const char * s,ndr_mstring_t * out)2018d7e4166Sjose borrego ndr_heap_mstring(ndr_heap_t *heap, const char *s, ndr_mstring_t *out)
2028d7e4166Sjose borrego {
203*3299f39fSGordon Ross size_t slen;
204*3299f39fSGordon Ross
2058d7e4166Sjose borrego if (s == NULL || out == NULL)
2068d7e4166Sjose borrego return (-1);
2078d7e4166Sjose borrego
208*3299f39fSGordon Ross /*
209*3299f39fSGordon Ross * Determine the WC strlen of s
210*3299f39fSGordon Ross * Was ndr__wcequiv_strlen(s)
211*3299f39fSGordon Ross */
212*3299f39fSGordon Ross slen = ndr__mbstowcs(NULL, s, NDR_STRING_MAX);
213*3299f39fSGordon Ross if (slen == (size_t)-1)
214*3299f39fSGordon Ross return (-1);
215*3299f39fSGordon Ross
216*3299f39fSGordon Ross out->length = slen * sizeof (ndr_wchar_t);
217*3299f39fSGordon Ross out->allosize = out->length + sizeof (ndr_wchar_t);
2188d7e4166Sjose borrego
2198d7e4166Sjose borrego if ((out->str = ndr_heap_strdup(heap, s)) == NULL)
2208d7e4166Sjose borrego return (-1);
2218d7e4166Sjose borrego
2228d7e4166Sjose borrego return (0);
2238d7e4166Sjose borrego }
2248d7e4166Sjose borrego
225da6c28aaSamw /*
226da6c28aaSamw * Our regular string marshalling always creates null terminated strings
227da6c28aaSamw * but some Windows clients and servers are pedantic about the string
228da6c28aaSamw * formats they will accept and require non-null terminated strings.
229da6c28aaSamw * This function can be used to build a wide-char, non-null terminated
230da6c28aaSamw * string in the heap as a varying/conformant array. We need to do the
231da6c28aaSamw * wide-char conversion here because the marshalling code won't be
232da6c28aaSamw * aware that this is really a string.
233da6c28aaSamw */
234da6c28aaSamw void
ndr_heap_mkvcs(ndr_heap_t * heap,char * s,ndr_vcstr_t * vc)2358d7e4166Sjose borrego ndr_heap_mkvcs(ndr_heap_t *heap, char *s, ndr_vcstr_t *vc)
236da6c28aaSamw {
237*3299f39fSGordon Ross size_t slen;
238da6c28aaSamw int mlen;
239da6c28aaSamw
240*3299f39fSGordon Ross /*
241*3299f39fSGordon Ross * Determine the WC strlen of s
242*3299f39fSGordon Ross * Was ndr__wcequiv_strlen(s)
243*3299f39fSGordon Ross */
244*3299f39fSGordon Ross slen = ndr__mbstowcs(NULL, s, NDR_STRING_MAX);
245*3299f39fSGordon Ross if (slen == (size_t)-1)
246*3299f39fSGordon Ross slen = 0;
2472c1b14e5Sjose borrego
248*3299f39fSGordon Ross vc->wclen = slen * sizeof (ndr_wchar_t);
249*3299f39fSGordon Ross vc->wcsize = vc->wclen;
2502c1b14e5Sjose borrego
251*3299f39fSGordon Ross /*
252*3299f39fSGordon Ross * alloc one extra wchar for a null
253*3299f39fSGordon Ross * See slen + 1 arg for mbstowcs
254*3299f39fSGordon Ross */
255*3299f39fSGordon Ross mlen = sizeof (ndr_vcs_t) + vc->wcsize + sizeof (ndr_wchar_t);
2568d7e4166Sjose borrego vc->vcs = ndr_heap_malloc(heap, mlen);
2572c1b14e5Sjose borrego
2582c1b14e5Sjose borrego if (vc->vcs) {
2592c1b14e5Sjose borrego vc->vcs->vc_first_is = 0;
260*3299f39fSGordon Ross vc->vcs->vc_length_is = slen;
261*3299f39fSGordon Ross (void) ndr__mbstowcs(vc->vcs->buffer, s, slen + 1);
2622c1b14e5Sjose borrego }
2632c1b14e5Sjose borrego }
2642c1b14e5Sjose borrego
2652c1b14e5Sjose borrego void
ndr_heap_mkvcb(ndr_heap_t * heap,uint8_t * data,uint32_t datalen,ndr_vcbuf_t * vcbuf)2668d7e4166Sjose borrego ndr_heap_mkvcb(ndr_heap_t *heap, uint8_t *data, uint32_t datalen,
2678d7e4166Sjose borrego ndr_vcbuf_t *vcbuf)
2682c1b14e5Sjose borrego {
2692c1b14e5Sjose borrego int mlen;
2702c1b14e5Sjose borrego
2712c1b14e5Sjose borrego if (data == NULL || datalen == 0) {
2728d7e4166Sjose borrego bzero(vcbuf, sizeof (ndr_vcbuf_t));
2732c1b14e5Sjose borrego return;
2742c1b14e5Sjose borrego }
2752c1b14e5Sjose borrego
2762c1b14e5Sjose borrego vcbuf->len = datalen;
2772c1b14e5Sjose borrego vcbuf->size = datalen;
278da6c28aaSamw
2798d7e4166Sjose borrego mlen = sizeof (ndr_vcbuf_t) + datalen;
280da6c28aaSamw
2818d7e4166Sjose borrego vcbuf->vcb = ndr_heap_malloc(heap, mlen);
282da6c28aaSamw
2832c1b14e5Sjose borrego if (vcbuf->vcb) {
2842c1b14e5Sjose borrego vcbuf->vcb->vc_first_is = 0;
2852c1b14e5Sjose borrego vcbuf->vcb->vc_length_is = datalen;
2862c1b14e5Sjose borrego bcopy(data, vcbuf->vcb->buffer, datalen);
287da6c28aaSamw }
288da6c28aaSamw }
289da6c28aaSamw
2908d7e4166Sjose borrego /*
291*3299f39fSGordon Ross * Removed ndr_heap_siddup(), now using ndr_heap_dupmem().
2928d7e4166Sjose borrego */
2938d7e4166Sjose borrego
294da6c28aaSamw int
ndr_heap_used(ndr_heap_t * heap)2958d7e4166Sjose borrego ndr_heap_used(ndr_heap_t *heap)
296da6c28aaSamw {
297da6c28aaSamw int used = 0;
298da6c28aaSamw int i;
299da6c28aaSamw
3008d7e4166Sjose borrego for (i = 0; i < NDR_HEAP_MAXIOV; ++i)
301da6c28aaSamw used += heap->iovec[i].iov_len;
302da6c28aaSamw
303da6c28aaSamw return (used);
304da6c28aaSamw }
305da6c28aaSamw
306da6c28aaSamw int
ndr_heap_avail(ndr_heap_t * heap)3078d7e4166Sjose borrego ndr_heap_avail(ndr_heap_t *heap)
308da6c28aaSamw {
309da6c28aaSamw int avail;
310da6c28aaSamw int count;
311da6c28aaSamw
312da6c28aaSamw count = (heap->iovcnt == 0) ? 0 : (heap->iovcnt - 1);
313da6c28aaSamw
3148d7e4166Sjose borrego avail = count * NDR_HEAP_BLKSZ;
315da6c28aaSamw avail += (heap->top - heap->next);
316da6c28aaSamw
317da6c28aaSamw return (avail);
318da6c28aaSamw }
319