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/*
rdesktop: A Remote Desktop Protocol client.
Parsing primitives
Copyright (C) Matthew Chapman 1999-2008
Copyright 2012-2017 Henrik Andersson <hean01@cendio.se> for Cendio AB
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#ifndef _STREAM_H
#define _STREAM_H
/* Parser state */
typedef struct stream
{
unsigned char *p;
unsigned char *end;
unsigned char *data;
unsigned int size;
/* Offsets of various headers */
unsigned char *iso_hdr;
unsigned char *mcs_hdr;
unsigned char *sec_hdr;
unsigned char *rdp_hdr;
unsigned char *channel_hdr;
}
*STREAM;
void s_realloc(STREAM s, unsigned int size);
void s_free(STREAM s);
void s_reset(STREAM s);
void out_utf16s(STREAM s, const char *string);
void out_utf16s_padded(STREAM s, const char *string, size_t width, unsigned char pad);
void out_utf16s_no_eos(STREAM s, const char *string);
size_t in_ansi_string(STREAM s, char *string, size_t len);
#define s_push_layer(s,h,n) { (s)->h = (s)->p; (s)->p += n; }
#define s_pop_layer(s,h) (s)->p = (s)->h;
#define s_mark_end(s) (s)->end = (s)->p;
#define s_check(s) ((s)->p <= (s)->end)
#define s_check_rem(s,n) ((s)->p + n <= (s)->end)
#define s_check_end(s) ((s)->p == (s)->end)
#define s_length(s) ((s)->end - (s)->data)
#define s_left(s) ((s)->size - ((s)->p - (s)->data))
#if defined(L_ENDIAN) && !defined(NEED_ALIGN)
#define in_uint16_le(s,v) { v = *(uint16 *)((s)->p); (s)->p += 2; }
#define in_uint32_le(s,v) { v = *(uint32 *)((s)->p); (s)->p += 4; }
#define out_uint16_le(s,v) { *(uint16 *)((s)->p) = v; (s)->p += 2; }
#define out_uint32_le(s,v) { *(uint32 *)((s)->p) = v; (s)->p += 4; }
#else
#define in_uint16_le(s,v) { v = *((s)->p++); v += *((s)->p++) << 8; }
#define in_uint32_le(s,v) { in_uint16_le(s,v) \
v += *((s)->p++) << 16; v += *((s)->p++) << 24; }
#define out_uint16_le(s,v) { *((s)->p++) = (v) & 0xff; *((s)->p++) = ((v) >> 8) & 0xff; }
#define out_uint32_le(s,v) { out_uint16_le(s, (v) & 0xffff); out_uint16_le(s, ((v) >> 16) & 0xffff); }
#endif
#define out_uint64_le(s,v) { out_uint32_le(s, (v) & 0xffffffff); out_uint32_le(s, ((v) >> 32) & 0xffffffff); }
#if defined(B_ENDIAN) && !defined(NEED_ALIGN)
#define in_uint16_be(s,v) { v = *(uint16 *)((s)->p); (s)->p += 2; }
#define in_uint32_be(s,v) { v = *(uint32 *)((s)->p); (s)->p += 4; }
#define out_uint16_be(s,v) { *(uint16 *)((s)->p) = v; (s)->p += 2; }
#define out_uint32_be(s,v) { *(uint32 *)((s)->p) = v; (s)->p += 4; }
#define B_ENDIAN_PREFERRED
#define in_uint16(s,v) in_uint16_be(s,v)
#define in_uint32(s,v) in_uint32_be(s,v)
#define out_uint16(s,v) out_uint16_be(s,v)
#define out_uint32(s,v) out_uint32_be(s,v)
#else
#define in_uint16_be(s,v) { v = *((s)->p++); next_be(s,v); }
#define in_uint32_be(s,v) { in_uint16_be(s,v); next_be(s,v); next_be(s,v); }
#define out_uint16_be(s,v) { *((s)->p++) = ((v) >> 8) & 0xff; *((s)->p++) = (v) & 0xff; }
#define out_uint32_be(s,v) { out_uint16_be(s, ((v) >> 16) & 0xffff); out_uint16_be(s, (v) & 0xffff); }
#endif
#ifndef B_ENDIAN_PREFERRED
#define in_uint16(s,v) in_uint16_le(s,v)
#define in_uint32(s,v) in_uint32_le(s,v)
#define out_uint16(s,v) out_uint16_le(s,v)
#define out_uint32(s,v) out_uint32_le(s,v)
#endif
#define in_uint8(s,v) v = *((s)->p++);
#define in_uint8p(s,v,n) { v = (s)->p; (s)->p += n; }
#define in_uint8a(s,v,n) { memcpy(v,(s)->p,n); (s)->p += n; }
#define in_uint8s(s,n) (s)->p += n;
#define in_skip(s,n) in_uint8s(s,n)
#define out_uint8(s,v) *((s)->p++) = v;
#define out_uint8p(s,v,n) { memcpy((s)->p,v,n); (s)->p += n; }
#define out_uint8a(s,v,n) out_uint8p(s,v,n);
#define out_uint8s(s,n) { memset((s)->p,0,n); (s)->p += n; }
#define out_stream(s, v) out_uint8p(s, (v)->data, s_length((v)))
#define next_be(s,v) v = ((v) << 8) + *((s)->p++);
#endif /* _STREAM_H */
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