xref: /titanic_50/usr/src/lib/libast/common/sfio/sfmove.c (revision 20c794b39650d115e17a15983b6b82e46238cf45)
1 /***********************************************************************
2 *                                                                      *
3 *               This software is part of the ast package               *
4 *           Copyright (c) 1985-2007 AT&T Knowledge Ventures            *
5 *                      and is licensed under the                       *
6 *                  Common Public License, Version 1.0                  *
7 *                      by AT&T Knowledge Ventures                      *
8 *                                                                      *
9 *                A copy of the License is available at                 *
10 *            http://www.opensource.org/licenses/cpl1.0.txt             *
11 *         (with md5 checksum 059e8cd6165cb4c31e351f2b69388fd9)         *
12 *                                                                      *
13 *              Information and Software Systems Research               *
14 *                            AT&T Research                             *
15 *                           Florham Park NJ                            *
16 *                                                                      *
17 *                 Glenn Fowler <gsf@research.att.com>                  *
18 *                  David Korn <dgk@research.att.com>                   *
19 *                   Phong Vo <kpv@research.att.com>                    *
20 *                                                                      *
21 ***********************************************************************/
22 #include	"sfhdr.h"
23 
24 /*	Move data from one stream to another.
25 **	This code is written so that it'll work even in the presence
26 **	of stacking streams, pool, and discipline.
27 **	If you must change it, be gentle.
28 **
29 **	Written by Kiem-Phong Vo.
30 */
31 #define MAX_SSIZE	((ssize_t)((~((size_t)0)) >> 1))
32 
33 #if __STD_C
34 Sfoff_t sfmove(Sfio_t* fr, Sfio_t* fw, Sfoff_t n, reg int rc)
35 #else
36 Sfoff_t sfmove(fr,fw,n,rc)
37 Sfio_t*	fr;	/* moving data from this stream */
38 Sfio_t*	fw;	/* moving data to this stream */
39 Sfoff_t		n;	/* number of bytes/records to move. <0 for unbounded move */
40 reg int		rc;	/* record separator */
41 #endif
42 {
43 	reg uchar	*cp, *next;
44 	reg ssize_t	r, w;
45 	reg uchar	*endb;
46 	reg int		direct;
47 	Sfoff_t		n_move, sk, cur;
48 	uchar		*rbuf = NIL(uchar*);
49 	ssize_t		rsize = 0;
50 
51 	SFMTXSTART(fr, (Sfoff_t)0);
52 	if(fw)
53 		SFMTXLOCK(fw);
54 
55 	for(n_move = 0; n != 0; )
56 	{
57 		if(rc >= 0) /* moving records, let sfgetr() deal with record reading */
58 		{	if(!(cp = (uchar*)sfgetr(fr,rc,0)) )
59 				n = 0;
60 			else
61 			{	r = sfvalue(fr);
62 				if(fw && (w = SFWRITE(fw, cp, r)) != r)
63 				{	if(fr->extent >= 0 )
64 						(void)SFSEEK(fr,(Sfoff_t)(-r),SEEK_CUR);
65 					if(fw->extent >= 0 && w > 0)
66 						(void)SFSEEK(fw,(Sfoff_t)(-w),SEEK_CUR);
67 					n = 0;
68 				}
69 				else
70 				{	n_move += 1;
71 					if(n > 0)
72 						n -= 1;
73 				}
74 			}
75 			continue;
76 		}
77 
78 		/* get the streams into the right mode */
79 		if(fr->mode != SF_READ && _sfmode(fr,SF_READ,0) < 0)
80 			break;
81 
82 		SFLOCK(fr,0);
83 
84 		/* flush the write buffer as necessary to make room */
85 		if(fw)
86 		{	if(fw->mode != SF_WRITE && _sfmode(fw,SF_WRITE,0) < 0 )
87 				break;
88 			SFLOCK(fw,0);
89 			if(fw->next >= fw->endb ||
90 			   (fw->next > fw->data && fr->extent < 0 &&
91 			    (fw->extent < 0 || (fw->flags&SF_SHARE)) ) )
92 				if(SFFLSBUF(fw,-1) < 0 )
93 					break;
94 		}
95 		else if((cur = SFSEEK(fr, (Sfoff_t)0, SEEK_CUR)) >= 0 )
96 		{	sk = n > 0 ? SFSEEK(fr, n, SEEK_CUR) : SFSEEK(fr, 0, SEEK_END);
97 			if(sk > cur) /* safe to skip over data in current stream */
98 			{	n_move += sk - cur;
99 				if(n > 0)
100 					n -= sk - cur;
101 				continue;
102 			}
103 			/* else: stream unstacking may happen below */
104 		}
105 
106 		/* about to move all, set map to a large amount */
107 		if(n < 0 && (fr->bits&SF_MMAP) && !(fr->bits&SF_MVSIZE) )
108 		{	SFMVSET(fr);
109 			fr->bits |= SF_SEQUENTIAL; /* sequentially access data */
110 		}
111 
112 		/* try reading a block of data */
113 		direct = 0;
114 		if((r = fr->endb - (next = fr->next)) <= 0)
115 		{	/* amount of data remained to be read */
116 			if((w = n > MAX_SSIZE ? MAX_SSIZE : (ssize_t)n) < 0)
117 			{	if(fr->extent < 0)
118 					w = fr->data == fr->tiny ? SF_GRAIN : fr->size;
119 				else if((fr->extent-fr->here) > SF_NMAP*SF_PAGE)
120 					w = SF_NMAP*SF_PAGE;
121 				else	w = (ssize_t)(fr->extent-fr->here);
122 			}
123 
124 			/* use a decent buffer for data transfer but make sure
125 			   that if we overread, the left over can be retrieved
126 			*/
127 			if(!(fr->flags&SF_STRING) && !(fr->bits&SF_MMAP) &&
128 			   (n < 0 || fr->extent >= 0) )
129 			{	reg ssize_t maxw = 4*(_Sfpage > 0 ? _Sfpage : SF_PAGE);
130 
131 				/* direct transfer to a seekable write stream */
132 				if(fw && fw->extent >= 0 && w <= (fw->endb-fw->next) )
133 				{	w = fw->endb - (next = fw->next);
134 					direct = SF_WRITE;
135 				}
136 				else if(w > fr->size && maxw > fr->size)
137 				{	/* making our own buffer */
138 					if(w >= maxw)
139 						w = maxw;
140 					else	w = ((w+fr->size-1)/fr->size)*fr->size;
141 					if(rsize <= 0 && (rbuf = (uchar*)malloc(w)) )
142 						rsize = w;
143 					if(rbuf)
144 					{	next = rbuf;
145 						w = rsize;
146 						direct = SF_STRING;
147 					}
148 				}
149 			}
150 
151 			if(!direct)
152 			{	/* make sure we don't read too far ahead */
153 				if(n > 0 && fr->extent < 0 && (fr->flags&SF_SHARE) )
154 				{	if((Sfoff_t)(r = fr->size) > n)
155 						r = (ssize_t)n;
156 				}
157 				else	r = -1;
158 				if((r = SFFILBUF(fr,r)) <= 0)
159 					break;
160 				next = fr->next;
161 			}
162 			else
163 			{	/* actual amount to be read */
164 				if(n > 0 && n < w)
165 					w = (ssize_t)n;
166 
167 				if((r = SFRD(fr,next,w,fr->disc)) > 0)
168 					fr->next = fr->endb = fr->endr = fr->data;
169 				else if(r == 0)
170 					break;		/* eof */
171 				else	goto again;	/* popped stack */
172 			}
173 		}
174 
175 		/* compute the extent of data to be moved */
176 		endb = next+r;
177 		if(n > 0)
178 		{	if(r > n)
179 				r = (ssize_t)n;
180 			n -= r;
181 		}
182 		n_move += r;
183 		cp = next+r;
184 
185 		if(!direct)
186 			fr->next += r;
187 		else if((w = endb-cp) > 0)
188 		{	/* move left-over to read stream */
189 			if(w > fr->size)
190 				w = fr->size;
191 			memcpy((Void_t*)fr->data,(Void_t*)cp,w);
192 			fr->endb = fr->data+w;
193 			if((w = endb - (cp+w)) > 0)
194 				(void)SFSK(fr,(Sfoff_t)(-w),SEEK_CUR,fr->disc);
195 		}
196 
197 		if(fw)
198 		{	if(direct == SF_WRITE)
199 				fw->next += r;
200 			else if(r <= (fw->endb-fw->next) )
201 			{	memcpy((Void_t*)fw->next,(Void_t*)next,r);
202 				fw->next += r;
203 			}
204 			else if((w = SFWRITE(fw,(Void_t*)next,r)) != r)
205 			{	/* a write error happened */
206 				if(w > 0)
207 				{	r -= w;
208 					n_move -= r;
209 				}
210 				if(fr->extent >= 0)
211 					(void)SFSEEK(fr,(Sfoff_t)(-r),SEEK_CUR);
212 				break;
213 			}
214 		}
215 
216 	again:
217 		SFOPEN(fr,0);
218 		if(fw)
219 			SFOPEN(fw,0);
220 	}
221 
222 	if(n < 0 && (fr->bits&SF_MMAP) && (fr->bits&SF_MVSIZE))
223 	{	/* back to normal access mode */
224 		SFMVUNSET(fr);
225 		if((fr->bits&SF_SEQUENTIAL) && (fr->data))
226 			SFMMSEQOFF(fr,fr->data,fr->endb-fr->data);
227 		fr->bits &= ~SF_SEQUENTIAL;
228 	}
229 
230 	if(rbuf)
231 		free(rbuf);
232 
233 	SFOPEN(fr,0);
234 	if(fw)
235 	{	SFOPEN(fw,0);
236 		SFMTXUNLOCK(fw);
237 	}
238 
239 	SFMTXRETURN(fr, n_move);
240 }
241