2 * Copyright (c) 1995 Danny Gasparovski.
4 * Please read the file COPYRIGHT for the
5 * terms and conditions of the copyright.
11 static void sbappendsb(struct sbuf
*sb
, struct mbuf
*m
);
14 sbfree(struct sbuf
*sb
)
20 sbdrop(struct sbuf
*sb
, int num
)
22 int limit
= sb
->sb_datalen
/ 2;
25 * We can only drop how much we have
26 * This should never succeed
32 if(sb
->sb_rptr
>= sb
->sb_data
+ sb
->sb_datalen
)
33 sb
->sb_rptr
-= sb
->sb_datalen
;
35 if (sb
->sb_cc
< limit
&& sb
->sb_cc
+ num
>= limit
) {
41 sbreserve(struct sbuf
*sb
, int size
)
44 /* Already alloced, realloc if necessary */
45 if (sb
->sb_datalen
!= size
) {
46 sb
->sb_wptr
= sb
->sb_rptr
= sb
->sb_data
= (char *)realloc(sb
->sb_data
, size
);
49 sb
->sb_datalen
= size
;
54 sb
->sb_wptr
= sb
->sb_rptr
= sb
->sb_data
= (char *)malloc(size
);
57 sb
->sb_datalen
= size
;
64 * Try and write() to the socket, whatever doesn't get written
65 * append to the buffer... for a host with a fast net connection,
66 * this prevents an unnecessary copy of the data
67 * (the socket is non-blocking, so we won't hang)
70 sbappend(struct socket
*so
, struct mbuf
*m
)
74 DEBUG_CALL("sbappend");
75 DEBUG_ARG("so = %lx", (long)so
);
76 DEBUG_ARG("m = %lx", (long)m
);
77 DEBUG_ARG("m->m_len = %d", m
->m_len
);
79 /* Shouldn't happen, but... e.g. foreign host closes connection */
86 * If there is urgent data, call sosendoob
87 * if not all was sent, sowrite will take care of the rest
88 * (The rest of this function is just an optimisation)
91 sbappendsb(&so
->so_rcv
, m
);
98 * We only write if there's nothing in the buffer,
99 * ottherwise it'll arrive out of order, and hence corrupt
101 if (!so
->so_rcv
.sb_cc
)
102 ret
= slirp_send(so
, m
->m_data
, m
->m_len
, 0);
106 * Nothing was written
107 * It's possible that the socket has closed, but
108 * we don't need to check because if it has closed,
109 * it will be detected in the normal way by soread()
111 sbappendsb(&so
->so_rcv
, m
);
112 } else if (ret
!= m
->m_len
) {
114 * Something was written, but not everything..
115 * sbappendsb the rest
119 sbappendsb(&so
->so_rcv
, m
);
121 /* Whatever happened, we free the mbuf */
126 * Copy the data from m into sb
127 * The caller is responsible to make sure there's enough room
130 sbappendsb(struct sbuf
*sb
, struct mbuf
*m
)
136 if (sb
->sb_wptr
< sb
->sb_rptr
) {
137 n
= sb
->sb_rptr
- sb
->sb_wptr
;
138 if (n
> len
) n
= len
;
139 memcpy(sb
->sb_wptr
, m
->m_data
, n
);
141 /* Do the right edge first */
142 n
= sb
->sb_data
+ sb
->sb_datalen
- sb
->sb_wptr
;
143 if (n
> len
) n
= len
;
144 memcpy(sb
->sb_wptr
, m
->m_data
, n
);
147 /* Now the left edge */
148 nn
= sb
->sb_rptr
- sb
->sb_data
;
149 if (nn
> len
) nn
= len
;
150 memcpy(sb
->sb_data
,m
->m_data
+n
,nn
);
157 if (sb
->sb_wptr
>= sb
->sb_data
+ sb
->sb_datalen
)
158 sb
->sb_wptr
-= sb
->sb_datalen
;
162 * Copy data from sbuf to a normal, straight buffer
163 * Don't update the sbuf rptr, this will be
164 * done in sbdrop when the data is acked
167 sbcopy(struct sbuf
*sb
, int off
, int len
, char *to
)
171 from
= sb
->sb_rptr
+ off
;
172 if (from
>= sb
->sb_data
+ sb
->sb_datalen
)
173 from
-= sb
->sb_datalen
;
175 if (from
< sb
->sb_wptr
) {
176 if (len
> sb
->sb_cc
) len
= sb
->sb_cc
;
180 off
= (sb
->sb_data
+ sb
->sb_datalen
) - from
;
181 if (off
> len
) off
= len
;
185 memcpy(to
+off
,sb
->sb_data
,len
);