/src/libmodi/libfmos/libfmos_adc.c

Source (jump to first uncovered line)
/*
 * ADC (un)compression functions
 *
 * Copyright (C) 2019-2024, Joachim Metz <joachim.metz@gmail.com>
 *
 * Refer to AUTHORS for acknowledgements.
 *
 * This program is free software: you can redistribute it and/or modify
 * it under the terms of the GNU Lesser 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 Lesser General Public License
 * along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */

#include <common.h>
#include <memory.h>
#include <types.h>

#include "libfmos_adc.h"
#include "libfmos_libcerror.h"
#include "libfmos_libcnotify.h"

/* Decompresses ADC compressed data
 * Returns 1 on success or -1 on error
 */
int libfmos_adc_decompress(
     const uint8_t *compressed_data,
     size_t compressed_data_size,
     uint8_t *uncompressed_data,
     size_t *uncompressed_data_size,
     libcerror_error_t **error )
{
  static char *function              = "libfmos_adc_decompress";
  size_t compressed_data_offset      = 0;
  size_t match_offset                = 0;
  size_t safe_uncompressed_data_size = 0;
  size_t uncompressed_data_offset    = 0;
  uint16_t distance                  = 0;
  uint8_t oppcode                    = 0;
  uint8_t size                       = 0;

#if defined( HAVE_DEBUG_OUTPUT )
  size_t debug_match_offset          = 0;
  uint16_t debug_match_size          = 0;
#endif

  if( compressed_data == NULL )
  {
    libcerror_error_set(
     error,
     LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
     LIBCERROR_ARGUMENT_ERROR_INVALID_VALUE,
     "%s: invalid compressed data.",
     function );

    return( -1 );
  }
  if( compressed_data_size > (size_t) SSIZE_MAX )
  {
    libcerror_error_set(
     error,
     LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
     LIBCERROR_ARGUMENT_ERROR_VALUE_EXCEEDS_MAXIMUM,
     "%s: invalid compressed data size value exceeds maximum.",
     function );

    return( -1 );
  }
  if( uncompressed_data == NULL )
  {
    libcerror_error_set(
     error,
     LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
     LIBCERROR_ARGUMENT_ERROR_INVALID_VALUE,
     "%s: invalid uncompressed data.",
     function );

    return( -1 );
  }
  if( uncompressed_data_size == NULL )
  {
    libcerror_error_set(
     error,
     LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
     LIBCERROR_ARGUMENT_ERROR_INVALID_VALUE,
     "%s: invalid uncompressed data size.",
     function );

    return( -1 );
  }
  safe_uncompressed_data_size = *uncompressed_data_size;

  if( safe_uncompressed_data_size > (size_t) SSIZE_MAX )
  {
    libcerror_error_set(
     error,
     LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
     LIBCERROR_ARGUMENT_ERROR_VALUE_EXCEEDS_MAXIMUM,
     "%s: invalid uncompressed data size value exceeds maximum.",
     function );

    return( -1 );
  }
  while( compressed_data_offset < compressed_data_size )
  {
    if( uncompressed_data_offset >= safe_uncompressed_data_size )
    {
      break;
    }
    if( compressed_data_offset >= compressed_data_size )
    {
      libcerror_error_set(
       error,
       LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
       LIBCERROR_ARGUMENT_ERROR_VALUE_TOO_SMALL,
       "%s: compressed data size value too small.",
       function );

      return( -1 );
    }
    oppcode = compressed_data[ compressed_data_offset++ ];

    if( ( oppcode & 0x80 ) != 0 )
    {
      size = ( oppcode & 0x7f ) + 1;

      if( ( (size_t) size > compressed_data_size )
       || ( compressed_data_offset > ( compressed_data_size - size ) ) )
      {
        libcerror_error_set(
         error,
         LIBCERROR_ERROR_DOMAIN_RUNTIME,
         LIBCERROR_RUNTIME_ERROR_VALUE_OUT_OF_BOUNDS,
         "%s: literal size value exceeds compressed data size.",
         function );

        return( -1 );
      }
      if( ( (size_t) size > safe_uncompressed_data_size )
       || ( uncompressed_data_offset > ( safe_uncompressed_data_size - size ) ) )
      {
        libcerror_error_set(
         error,
         LIBCERROR_ERROR_DOMAIN_RUNTIME,
         LIBCERROR_RUNTIME_ERROR_VALUE_OUT_OF_BOUNDS,
         "%s: literal size value exceeds uncompressed data size.",
         function );

        return( -1 );
      }
#if defined( HAVE_DEBUG_OUTPUT )
      if( libcnotify_verbose != 0 )
      {
        libcnotify_printf(
         "%s: literal:\n",
         function );
        libcnotify_print_data(
         &( compressed_data[ compressed_data_offset ] ),
         size,
         LIBCNOTIFY_PRINT_DATA_FLAG_GROUP_DATA );
      }
#endif
      if( memory_copy(
           &( uncompressed_data[ uncompressed_data_offset ] ),
           &( compressed_data[ compressed_data_offset ] ),
           (size_t) size ) == NULL )
      {
        libcerror_error_set(
         error,
         LIBCERROR_ERROR_DOMAIN_MEMORY,
         LIBCERROR_MEMORY_ERROR_COPY_FAILED,
         "%s: unable to copy literal to uncompressed data.",
         function );

        return( -1 );
      }
      compressed_data_offset   += (size_t) size;
      uncompressed_data_offset += (size_t) size;
    }
    else
    {
      if( ( oppcode & 0x40 ) != 0 )
      {
        if( ( compressed_data_size < 2 )
         || ( compressed_data_offset > ( compressed_data_size - 2 ) ) )
        {
          libcerror_error_set(
           error,
           LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
           LIBCERROR_ARGUMENT_ERROR_VALUE_TOO_SMALL,
           "%s: compressed data size value too small.",
           function );

          return( -1 );
        }
        size       = ( oppcode & 0x3f ) + 4;
        distance   = compressed_data[ compressed_data_offset++ ];
        distance <<= 8;
        distance  |= compressed_data[ compressed_data_offset++ ];
      }
      else
      {
        if( compressed_data_offset >= compressed_data_size )
        {
          libcerror_error_set(
           error,
           LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
           LIBCERROR_ARGUMENT_ERROR_VALUE_TOO_SMALL,
           "%s: compressed data size value too small.",
           function );

          return( -1 );
        }
        size       = ( ( oppcode & 0x3f ) >> 2 ) + 3;
        distance   = oppcode & 0x03;
        distance <<= 8;
        distance  |= compressed_data[ compressed_data_offset++ ];
      }
      if( (size_t) distance >= uncompressed_data_offset )
      {
        libcerror_error_set(
         error,
         LIBCERROR_ERROR_DOMAIN_RUNTIME,
         LIBCERROR_RUNTIME_ERROR_VALUE_OUT_OF_BOUNDS,
         "%s: invalid distance value out of bounds.",
         function );

        return( -1 );
      }
      if( uncompressed_data_offset < 1 )
      {
        libcerror_error_set(
         error,
         LIBCERROR_ERROR_DOMAIN_RUNTIME,
         LIBCERROR_RUNTIME_ERROR_VALUE_OUT_OF_BOUNDS,
         "%s: invalid uncompressed data offset value out of bounds.",
         function );

        return( -1 );
      }
      match_offset = uncompressed_data_offset - distance - 1;

      if( ( (size_t) size > safe_uncompressed_data_size )
       || ( uncompressed_data_offset > ( safe_uncompressed_data_size - size ) ) )
      {
        libcerror_error_set(
         error,
         LIBCERROR_ERROR_DOMAIN_RUNTIME,
         LIBCERROR_RUNTIME_ERROR_VALUE_OUT_OF_BOUNDS,
         "%s: invalid match size value out of bounds.",
         function );

        return( -1 );
      }
#if defined( HAVE_DEBUG_OUTPUT )
      if( libcnotify_verbose != 0 )
      {
        debug_match_offset = match_offset;
        debug_match_size   = size;

        libcnotify_printf(
         "%s: match offset\t\t\t\t\t\t: 0x%" PRIzx "\n",
         function,
         debug_match_offset );
      }
#endif
      while( size > 0 )
      {
        uncompressed_data[ uncompressed_data_offset++ ] = uncompressed_data[ match_offset++ ];

        size--;
      }
#if defined( HAVE_DEBUG_OUTPUT )
      if( libcnotify_verbose != 0 )
      {
        libcnotify_printf(
         "%s: match:\n",
         function );
        libcnotify_print_data(
         &( uncompressed_data[ debug_match_offset ] ),
         debug_match_size,
         LIBCNOTIFY_PRINT_DATA_FLAG_GROUP_DATA );
      }
#endif
    }
  }
  *uncompressed_data_size = uncompressed_data_offset;

  return( 1 );
}


Coverage Report

Created: 2024-02-25 07:19

Line	Count	Source (jump to first uncovered line)
1		/*
2		* ADC (un)compression functions
3		*
4		* Copyright (C) 2019-2024, Joachim Metz <joachim.metz@gmail.com>
5		*
6		* Refer to AUTHORS for acknowledgements.
7		*
8		* This program is free software: you can redistribute it and/or modify
9		* it under the terms of the GNU Lesser General Public License as published by
10		* the Free Software Foundation, either version 3 of the License, or
11		* (at your option) any later version.
12		*
13		* This program is distributed in the hope that it will be useful,
14		* but WITHOUT ANY WARRANTY; without even the implied warranty of
15		* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16		* GNU General Public License for more details.
17		*
18		* You should have received a copy of the GNU Lesser General Public License
19		* along with this program. If not, see <https://www.gnu.org/licenses/>.
20		*/
21
22		#include <common.h>
23		#include <memory.h>
24		#include <types.h>
25
26		#include "libfmos_adc.h"
27		#include "libfmos_libcerror.h"
28		#include "libfmos_libcnotify.h"
29
30		/* Decompresses ADC compressed data
31		* Returns 1 on success or -1 on error
32		*/
33		int libfmos_adc_decompress(
34		const uint8_t *compressed_data,
35		size_t compressed_data_size,
36		uint8_t *uncompressed_data,
37		size_t *uncompressed_data_size,
38		libcerror_error_t **error )
39	0	{
40	0	static char *function = "libfmos_adc_decompress";
41	0	size_t compressed_data_offset = 0;
42	0	size_t match_offset = 0;
43	0	size_t safe_uncompressed_data_size = 0;
44	0	size_t uncompressed_data_offset = 0;
45	0	uint16_t distance = 0;
46	0	uint8_t oppcode = 0;
47	0	uint8_t size = 0;
48
49		#if defined( HAVE_DEBUG_OUTPUT )
50		size_t debug_match_offset = 0;
51		uint16_t debug_match_size = 0;
52		#endif
53
54	0	if( compressed_data == NULL )
55	0	{
56	0	libcerror_error_set(
57	0	error,
58	0	LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
59	0	LIBCERROR_ARGUMENT_ERROR_INVALID_VALUE,
60	0	"%s: invalid compressed data.",
61	0	function );
62
63	0	return( -1 );
64	0	}
65	0	if( compressed_data_size > (size_t) SSIZE_MAX )
66	0	{
67	0	libcerror_error_set(
68	0	error,
69	0	LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
70	0	LIBCERROR_ARGUMENT_ERROR_VALUE_EXCEEDS_MAXIMUM,
71	0	"%s: invalid compressed data size value exceeds maximum.",
72	0	function );
73
74	0	return( -1 );
75	0	}
76	0	if( uncompressed_data == NULL )
77	0	{
78	0	libcerror_error_set(
79	0	error,
80	0	LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
81	0	LIBCERROR_ARGUMENT_ERROR_INVALID_VALUE,
82	0	"%s: invalid uncompressed data.",
83	0	function );
84
85	0	return( -1 );
86	0	}
87	0	if( uncompressed_data_size == NULL )
88	0	{
89	0	libcerror_error_set(
90	0	error,
91	0	LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
92	0	LIBCERROR_ARGUMENT_ERROR_INVALID_VALUE,
93	0	"%s: invalid uncompressed data size.",
94	0	function );
95
96	0	return( -1 );
97	0	}
98	0	safe_uncompressed_data_size = *uncompressed_data_size;
99
100	0	if( safe_uncompressed_data_size > (size_t) SSIZE_MAX )
101	0	{
102	0	libcerror_error_set(
103	0	error,
104	0	LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
105	0	LIBCERROR_ARGUMENT_ERROR_VALUE_EXCEEDS_MAXIMUM,
106	0	"%s: invalid uncompressed data size value exceeds maximum.",
107	0	function );
108
109	0	return( -1 );
110	0	}
111	0	while( compressed_data_offset < compressed_data_size )
112	0	{
113	0	if( uncompressed_data_offset >= safe_uncompressed_data_size )
114	0	{
115	0	break;
116	0	}
117	0	if( compressed_data_offset >= compressed_data_size )
118	0	{
119	0	libcerror_error_set(
120	0	error,
121	0	LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
122	0	LIBCERROR_ARGUMENT_ERROR_VALUE_TOO_SMALL,
123	0	"%s: compressed data size value too small.",
124	0	function );
125
126	0	return( -1 );
127	0	}
128	0	oppcode = compressed_data[ compressed_data_offset++ ];
129
130	0	if( ( oppcode & 0x80 ) != 0 )
131	0	{
132	0	size = ( oppcode & 0x7f ) + 1;
133
134	0	if( ( (size_t) size > compressed_data_size )
135	0	\|\| ( compressed_data_offset > ( compressed_data_size - size ) ) )
136	0	{
137	0	libcerror_error_set(
138	0	error,
139	0	LIBCERROR_ERROR_DOMAIN_RUNTIME,
140	0	LIBCERROR_RUNTIME_ERROR_VALUE_OUT_OF_BOUNDS,
141	0	"%s: literal size value exceeds compressed data size.",
142	0	function );
143
144	0	return( -1 );
145	0	}
146	0	if( ( (size_t) size > safe_uncompressed_data_size )
147	0	\|\| ( uncompressed_data_offset > ( safe_uncompressed_data_size - size ) ) )
148	0	{
149	0	libcerror_error_set(
150	0	error,
151	0	LIBCERROR_ERROR_DOMAIN_RUNTIME,
152	0	LIBCERROR_RUNTIME_ERROR_VALUE_OUT_OF_BOUNDS,
153	0	"%s: literal size value exceeds uncompressed data size.",
154	0	function );
155
156	0	return( -1 );
157	0	}
158		#if defined( HAVE_DEBUG_OUTPUT )
159		if( libcnotify_verbose != 0 )
160		{
161		libcnotify_printf(
162		"%s: literal:\n",
163		function );
164		libcnotify_print_data(
165		&( compressed_data[ compressed_data_offset ] ),
166		size,
167		LIBCNOTIFY_PRINT_DATA_FLAG_GROUP_DATA );
168		}
169		#endif
170	0	if( memory_copy(
171	0	&( uncompressed_data[ uncompressed_data_offset ] ),
172	0	&( compressed_data[ compressed_data_offset ] ),
173	0	(size_t) size ) == NULL )
174	0	{
175	0	libcerror_error_set(
176	0	error,
177	0	LIBCERROR_ERROR_DOMAIN_MEMORY,
178	0	LIBCERROR_MEMORY_ERROR_COPY_FAILED,
179	0	"%s: unable to copy literal to uncompressed data.",
180	0	function );
181
182	0	return( -1 );
183	0	}
184	0	compressed_data_offset += (size_t) size;
185	0	uncompressed_data_offset += (size_t) size;
186	0	}
187	0	else
188	0	{
189	0	if( ( oppcode & 0x40 ) != 0 )
190	0	{
191	0	if( ( compressed_data_size < 2 )
192	0	\|\| ( compressed_data_offset > ( compressed_data_size - 2 ) ) )
193	0	{
194	0	libcerror_error_set(
195	0	error,
196	0	LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
197	0	LIBCERROR_ARGUMENT_ERROR_VALUE_TOO_SMALL,
198	0	"%s: compressed data size value too small.",
199	0	function );
200
201	0	return( -1 );
202	0	}
203	0	size = ( oppcode & 0x3f ) + 4;
204	0	distance = compressed_data[ compressed_data_offset++ ];
205	0	distance <<= 8;
206	0	distance \|= compressed_data[ compressed_data_offset++ ];
207	0	}
208	0	else
209	0	{
210	0	if( compressed_data_offset >= compressed_data_size )
211	0	{
212	0	libcerror_error_set(
213	0	error,
214	0	LIBCERROR_ERROR_DOMAIN_ARGUMENTS,
215	0	LIBCERROR_ARGUMENT_ERROR_VALUE_TOO_SMALL,
216	0	"%s: compressed data size value too small.",
217	0	function );
218
219	0	return( -1 );
220	0	}
221	0	size = ( ( oppcode & 0x3f ) >> 2 ) + 3;
222	0	distance = oppcode & 0x03;
223	0	distance <<= 8;
224	0	distance \|= compressed_data[ compressed_data_offset++ ];
225	0	}
226	0	if( (size_t) distance >= uncompressed_data_offset )
227	0	{
228	0	libcerror_error_set(
229	0	error,
230	0	LIBCERROR_ERROR_DOMAIN_RUNTIME,
231	0	LIBCERROR_RUNTIME_ERROR_VALUE_OUT_OF_BOUNDS,
232	0	"%s: invalid distance value out of bounds.",
233	0	function );
234
235	0	return( -1 );
236	0	}
237	0	if( uncompressed_data_offset < 1 )
238	0	{
239	0	libcerror_error_set(
240	0	error,
241	0	LIBCERROR_ERROR_DOMAIN_RUNTIME,
242	0	LIBCERROR_RUNTIME_ERROR_VALUE_OUT_OF_BOUNDS,
243	0	"%s: invalid uncompressed data offset value out of bounds.",
244	0	function );
245
246	0	return( -1 );
247	0	}
248	0	match_offset = uncompressed_data_offset - distance - 1;
249
250	0	if( ( (size_t) size > safe_uncompressed_data_size )
251	0	\|\| ( uncompressed_data_offset > ( safe_uncompressed_data_size - size ) ) )
252	0	{
253	0	libcerror_error_set(
254	0	error,
255	0	LIBCERROR_ERROR_DOMAIN_RUNTIME,
256	0	LIBCERROR_RUNTIME_ERROR_VALUE_OUT_OF_BOUNDS,
257	0	"%s: invalid match size value out of bounds.",
258	0	function );
259
260	0	return( -1 );
261	0	}
262		#if defined( HAVE_DEBUG_OUTPUT )
263		if( libcnotify_verbose != 0 )
264		{
265		debug_match_offset = match_offset;
266		debug_match_size = size;
267
268		libcnotify_printf(
269		"%s: match offset\t\t\t\t\t\t: 0x%" PRIzx "\n",
270		function,
271		debug_match_offset );
272		}
273		#endif
274	0	while( size > 0 )
275	0	{
276	0	uncompressed_data[ uncompressed_data_offset++ ] = uncompressed_data[ match_offset++ ];
277
278	0	size--;
279	0	}
280		#if defined( HAVE_DEBUG_OUTPUT )
281		if( libcnotify_verbose != 0 )
282		{
283		libcnotify_printf(
284		"%s: match:\n",
285		function );
286		libcnotify_print_data(
287		&( uncompressed_data[ debug_match_offset ] ),
288		debug_match_size,
289		LIBCNOTIFY_PRINT_DATA_FLAG_GROUP_DATA );
290		}
291		#endif
292	0	}
293	0	}
294	0	*uncompressed_data_size = uncompressed_data_offset;
295
296	0	return( 1 );
297	0	}
298