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FFmpeg/libavfilter/af_stereowiden.c

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/*
* Copyright (C) 2012 VLC authors and VideoLAN
* Author : Sukrit Sangwan < sukritsangwan at gmail dot com >
*
* This file is part of FFmpeg.
*
* FFmpeg 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 2.1 of the License, or (at your option) any later version.
*
* FFmpeg 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with FFmpeg; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "libavutil/channel_layout.h"
#include "libavutil/opt.h"
#include "avfilter.h"
#include "audio.h"
#include "formats.h"
typedef struct StereoWidenContext {
const AVClass *class;
float delay;
float feedback;
float crossfeed;
float drymix;
float *buffer;
avfilter/af_stereowiden: fix read/write past the end of buffer The stereowiden filter uses a buffer, s->buffer[], and a pointer within the buffer, s->write, to implement inter-channel delays. The loop which applies the delayed samples turns out to be faulty. 109 for (n = 0; n < in->nb_samples; n++, src += 2, dst += 2) { 110 const float left = src[0], right = src[1]; 111 float *read = s->write + 2; 112 113 if (read > s->buffer + s->length) 114 read = s->buffer; 115 116 dst[0] = drymix * left - crossfeed * right - feedback * read[1]; 117 dst[1] = drymix * right - crossfeed * left - feedback * read[0]; 118 119 s->write[0] = left; 120 s->write[1] = right; 121 122 if (s->write == s->buffer + s->length) 123 s->write = s->buffer; 124 else 125 s->write += 2; 126 } For one, the buffer gets written past its end in lines 119-120, before the bound check is done in lines 122-123. This can be easily confirmed by valgrind. ==3544== Invalid read of size 4 ==3544== at 0x593B41: filter_frame (af_stereowiden.c:116) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid read of size 4 ==3544== at 0x593B66: filter_frame (af_stereowiden.c:117) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B79: filter_frame (af_stereowiden.c:119) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B7D: filter_frame (af_stereowiden.c:120) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd Also, using two separate pointers, s->write and read = s->write + 2, does not seem to be well thought out. To apply the delay of s->buffer[], it is enough to read the delayed samples at the current position within the buffer, and then to store new samples at the same current position. Thus the application of delayed samples can probably be best described with a single pointer s->cur. I also introduce a minor change to ensure that the size of s->buffer[] is always a multiple of 2. Since the delay parameter is a float, it is otherwise possible to trick the code into allocating off-by-one buffer.
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float *cur;
int length;
} StereoWidenContext;
#define OFFSET(x) offsetof(StereoWidenContext, x)
#define A AV_OPT_FLAG_AUDIO_PARAM|AV_OPT_FLAG_FILTERING_PARAM
#define AT AV_OPT_FLAG_AUDIO_PARAM|AV_OPT_FLAG_FILTERING_PARAM|AV_OPT_FLAG_RUNTIME_PARAM
static const AVOption stereowiden_options[] = {
{ "delay", "set delay time", OFFSET(delay), AV_OPT_TYPE_FLOAT, {.dbl=20}, 1, 100, A },
{ "feedback", "set feedback gain", OFFSET(feedback), AV_OPT_TYPE_FLOAT, {.dbl=.3}, 0, 0.9, AT },
{ "crossfeed", "set cross feed", OFFSET(crossfeed), AV_OPT_TYPE_FLOAT, {.dbl=.3}, 0, 0.8, AT },
{ "drymix", "set dry-mix", OFFSET(drymix), AV_OPT_TYPE_FLOAT, {.dbl=.8}, 0, 1.0, AT },
{ NULL }
};
AVFILTER_DEFINE_CLASS(stereowiden);
static int query_formats(AVFilterContext *ctx)
{
AVFilterFormats *formats = NULL;
AVFilterChannelLayouts *layout = NULL;
int ret;
if ((ret = ff_add_format (&formats, AV_SAMPLE_FMT_FLT )) < 0 ||
(ret = ff_set_common_formats (ctx , formats )) < 0 ||
(ret = ff_add_channel_layout (&layout , AV_CH_LAYOUT_STEREO)) < 0 ||
(ret = ff_set_common_channel_layouts (ctx , layout )) < 0)
return ret;
return ff_set_common_all_samplerates(ctx);
}
static int config_input(AVFilterLink *inlink)
{
AVFilterContext *ctx = inlink->dst;
StereoWidenContext *s = ctx->priv;
avfilter/af_stereowiden: fix read/write past the end of buffer The stereowiden filter uses a buffer, s->buffer[], and a pointer within the buffer, s->write, to implement inter-channel delays. The loop which applies the delayed samples turns out to be faulty. 109 for (n = 0; n < in->nb_samples; n++, src += 2, dst += 2) { 110 const float left = src[0], right = src[1]; 111 float *read = s->write + 2; 112 113 if (read > s->buffer + s->length) 114 read = s->buffer; 115 116 dst[0] = drymix * left - crossfeed * right - feedback * read[1]; 117 dst[1] = drymix * right - crossfeed * left - feedback * read[0]; 118 119 s->write[0] = left; 120 s->write[1] = right; 121 122 if (s->write == s->buffer + s->length) 123 s->write = s->buffer; 124 else 125 s->write += 2; 126 } For one, the buffer gets written past its end in lines 119-120, before the bound check is done in lines 122-123. This can be easily confirmed by valgrind. ==3544== Invalid read of size 4 ==3544== at 0x593B41: filter_frame (af_stereowiden.c:116) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid read of size 4 ==3544== at 0x593B66: filter_frame (af_stereowiden.c:117) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B79: filter_frame (af_stereowiden.c:119) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B7D: filter_frame (af_stereowiden.c:120) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd Also, using two separate pointers, s->write and read = s->write + 2, does not seem to be well thought out. To apply the delay of s->buffer[], it is enough to read the delayed samples at the current position within the buffer, and then to store new samples at the same current position. Thus the application of delayed samples can probably be best described with a single pointer s->cur. I also introduce a minor change to ensure that the size of s->buffer[] is always a multiple of 2. Since the delay parameter is a float, it is otherwise possible to trick the code into allocating off-by-one buffer.
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s->length = s->delay * inlink->sample_rate / 1000;
s->length *= 2;
s->buffer = av_calloc(s->length, sizeof(*s->buffer));
if (!s->buffer)
return AVERROR(ENOMEM);
avfilter/af_stereowiden: fix read/write past the end of buffer The stereowiden filter uses a buffer, s->buffer[], and a pointer within the buffer, s->write, to implement inter-channel delays. The loop which applies the delayed samples turns out to be faulty. 109 for (n = 0; n < in->nb_samples; n++, src += 2, dst += 2) { 110 const float left = src[0], right = src[1]; 111 float *read = s->write + 2; 112 113 if (read > s->buffer + s->length) 114 read = s->buffer; 115 116 dst[0] = drymix * left - crossfeed * right - feedback * read[1]; 117 dst[1] = drymix * right - crossfeed * left - feedback * read[0]; 118 119 s->write[0] = left; 120 s->write[1] = right; 121 122 if (s->write == s->buffer + s->length) 123 s->write = s->buffer; 124 else 125 s->write += 2; 126 } For one, the buffer gets written past its end in lines 119-120, before the bound check is done in lines 122-123. This can be easily confirmed by valgrind. ==3544== Invalid read of size 4 ==3544== at 0x593B41: filter_frame (af_stereowiden.c:116) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid read of size 4 ==3544== at 0x593B66: filter_frame (af_stereowiden.c:117) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B79: filter_frame (af_stereowiden.c:119) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B7D: filter_frame (af_stereowiden.c:120) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd Also, using two separate pointers, s->write and read = s->write + 2, does not seem to be well thought out. To apply the delay of s->buffer[], it is enough to read the delayed samples at the current position within the buffer, and then to store new samples at the same current position. Thus the application of delayed samples can probably be best described with a single pointer s->cur. I also introduce a minor change to ensure that the size of s->buffer[] is always a multiple of 2. Since the delay parameter is a float, it is otherwise possible to trick the code into allocating off-by-one buffer.
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s->cur = s->buffer;
return 0;
}
static int filter_frame(AVFilterLink *inlink, AVFrame *in)
{
AVFilterContext *ctx = inlink->dst;
AVFilterLink *outlink = ctx->outputs[0];
StereoWidenContext *s = ctx->priv;
const float *src = (const float *)in->data[0];
const float drymix = s->drymix;
const float crossfeed = s->crossfeed;
const float feedback = s->feedback;
AVFrame *out;
float *dst;
int n;
if (av_frame_is_writable(in)) {
out = in;
} else {
out = ff_get_audio_buffer(outlink, in->nb_samples);
if (!out) {
av_frame_free(&in);
return AVERROR(ENOMEM);
}
av_frame_copy_props(out, in);
}
dst = (float *)out->data[0];
avfilter/af_stereowiden: fix read/write past the end of buffer The stereowiden filter uses a buffer, s->buffer[], and a pointer within the buffer, s->write, to implement inter-channel delays. The loop which applies the delayed samples turns out to be faulty. 109 for (n = 0; n < in->nb_samples; n++, src += 2, dst += 2) { 110 const float left = src[0], right = src[1]; 111 float *read = s->write + 2; 112 113 if (read > s->buffer + s->length) 114 read = s->buffer; 115 116 dst[0] = drymix * left - crossfeed * right - feedback * read[1]; 117 dst[1] = drymix * right - crossfeed * left - feedback * read[0]; 118 119 s->write[0] = left; 120 s->write[1] = right; 121 122 if (s->write == s->buffer + s->length) 123 s->write = s->buffer; 124 else 125 s->write += 2; 126 } For one, the buffer gets written past its end in lines 119-120, before the bound check is done in lines 122-123. This can be easily confirmed by valgrind. ==3544== Invalid read of size 4 ==3544== at 0x593B41: filter_frame (af_stereowiden.c:116) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid read of size 4 ==3544== at 0x593B66: filter_frame (af_stereowiden.c:117) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B79: filter_frame (af_stereowiden.c:119) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B7D: filter_frame (af_stereowiden.c:120) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd Also, using two separate pointers, s->write and read = s->write + 2, does not seem to be well thought out. To apply the delay of s->buffer[], it is enough to read the delayed samples at the current position within the buffer, and then to store new samples at the same current position. Thus the application of delayed samples can probably be best described with a single pointer s->cur. I also introduce a minor change to ensure that the size of s->buffer[] is always a multiple of 2. Since the delay parameter is a float, it is otherwise possible to trick the code into allocating off-by-one buffer.
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for (n = 0; n < in->nb_samples; n++, src += 2, dst += 2, s->cur += 2) {
const float left = src[0], right = src[1];
avfilter/af_stereowiden: fix read/write past the end of buffer The stereowiden filter uses a buffer, s->buffer[], and a pointer within the buffer, s->write, to implement inter-channel delays. The loop which applies the delayed samples turns out to be faulty. 109 for (n = 0; n < in->nb_samples; n++, src += 2, dst += 2) { 110 const float left = src[0], right = src[1]; 111 float *read = s->write + 2; 112 113 if (read > s->buffer + s->length) 114 read = s->buffer; 115 116 dst[0] = drymix * left - crossfeed * right - feedback * read[1]; 117 dst[1] = drymix * right - crossfeed * left - feedback * read[0]; 118 119 s->write[0] = left; 120 s->write[1] = right; 121 122 if (s->write == s->buffer + s->length) 123 s->write = s->buffer; 124 else 125 s->write += 2; 126 } For one, the buffer gets written past its end in lines 119-120, before the bound check is done in lines 122-123. This can be easily confirmed by valgrind. ==3544== Invalid read of size 4 ==3544== at 0x593B41: filter_frame (af_stereowiden.c:116) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid read of size 4 ==3544== at 0x593B66: filter_frame (af_stereowiden.c:117) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B79: filter_frame (af_stereowiden.c:119) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B7D: filter_frame (af_stereowiden.c:120) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd Also, using two separate pointers, s->write and read = s->write + 2, does not seem to be well thought out. To apply the delay of s->buffer[], it is enough to read the delayed samples at the current position within the buffer, and then to store new samples at the same current position. Thus the application of delayed samples can probably be best described with a single pointer s->cur. I also introduce a minor change to ensure that the size of s->buffer[] is always a multiple of 2. Since the delay parameter is a float, it is otherwise possible to trick the code into allocating off-by-one buffer.
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if (s->cur == s->buffer + s->length)
s->cur = s->buffer;
if (ctx->is_disabled) {
dst[0] = left;
dst[1] = right;
} else {
dst[0] = drymix * left - crossfeed * right - feedback * s->cur[1];
dst[1] = drymix * right - crossfeed * left - feedback * s->cur[0];
}
avfilter/af_stereowiden: fix read/write past the end of buffer The stereowiden filter uses a buffer, s->buffer[], and a pointer within the buffer, s->write, to implement inter-channel delays. The loop which applies the delayed samples turns out to be faulty. 109 for (n = 0; n < in->nb_samples; n++, src += 2, dst += 2) { 110 const float left = src[0], right = src[1]; 111 float *read = s->write + 2; 112 113 if (read > s->buffer + s->length) 114 read = s->buffer; 115 116 dst[0] = drymix * left - crossfeed * right - feedback * read[1]; 117 dst[1] = drymix * right - crossfeed * left - feedback * read[0]; 118 119 s->write[0] = left; 120 s->write[1] = right; 121 122 if (s->write == s->buffer + s->length) 123 s->write = s->buffer; 124 else 125 s->write += 2; 126 } For one, the buffer gets written past its end in lines 119-120, before the bound check is done in lines 122-123. This can be easily confirmed by valgrind. ==3544== Invalid read of size 4 ==3544== at 0x593B41: filter_frame (af_stereowiden.c:116) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid read of size 4 ==3544== at 0x593B66: filter_frame (af_stereowiden.c:117) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B79: filter_frame (af_stereowiden.c:119) ==3544== Address 0xb1b03c0 is 0 bytes after a block of size 7,680 alloc'd ==3544== ==3544== Invalid write of size 4 ==3544== at 0x593B7D: filter_frame (af_stereowiden.c:120) ==3544== Address 0xb1b03c4 is 4 bytes after a block of size 7,680 alloc'd Also, using two separate pointers, s->write and read = s->write + 2, does not seem to be well thought out. To apply the delay of s->buffer[], it is enough to read the delayed samples at the current position within the buffer, and then to store new samples at the same current position. Thus the application of delayed samples can probably be best described with a single pointer s->cur. I also introduce a minor change to ensure that the size of s->buffer[] is always a multiple of 2. Since the delay parameter is a float, it is otherwise possible to trick the code into allocating off-by-one buffer.
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s->cur[0] = left;
s->cur[1] = right;
}
if (out != in)
av_frame_free(&in);
return ff_filter_frame(outlink, out);
}
static av_cold void uninit(AVFilterContext *ctx)
{
StereoWidenContext *s = ctx->priv;
av_freep(&s->buffer);
}
static const AVFilterPad inputs[] = {
{
.name = "default",
.type = AVMEDIA_TYPE_AUDIO,
.filter_frame = filter_frame,
.config_props = config_input,
},
};
static const AVFilterPad outputs[] = {
{
.name = "default",
.type = AVMEDIA_TYPE_AUDIO,
},
};
const AVFilter ff_af_stereowiden = {
.name = "stereowiden",
.description = NULL_IF_CONFIG_SMALL("Apply stereo widening effect."),
.priv_size = sizeof(StereoWidenContext),
.priv_class = &stereowiden_class,
.uninit = uninit,
2021-08-12 13:05:31 +02:00
FILTER_INPUTS(inputs),
FILTER_OUTPUTS(outputs),
avfilter: Replace query_formats callback with union of list and callback If one looks at the many query_formats callbacks in existence, one will immediately recognize that there is one type of default callback for video and a slightly different default callback for audio: It is "return ff_set_common_formats_from_list(ctx, pix_fmts);" for video with a filter-specific pix_fmts list. For audio, it is the same with a filter-specific sample_fmts list together with ff_set_common_all_samplerates() and ff_set_common_all_channel_counts(). This commit allows to remove the boilerplate query_formats callbacks by replacing said callback with a union consisting the old callback and pointers for pixel and sample format arrays. For the not uncommon case in which these lists only contain a single entry (besides the sentinel) enum AVPixelFormat and enum AVSampleFormat fields are also added to the union to store them directly in the AVFilter, thereby avoiding a relocation. The state of said union will be contained in a new, dedicated AVFilter field (the nb_inputs and nb_outputs fields have been shrunk to uint8_t in order to create a hole for this new field; this is no problem, as the maximum of all the nb_inputs is four; for nb_outputs it is only two). The state's default value coincides with the earlier default of query_formats being unset, namely that the filter accepts all formats (and also sample rates and channel counts/layouts for audio) provided that these properties agree coincide for all inputs and outputs. By using different union members for audio and video filters the type-unsafety of using the same functions for audio and video lists will furthermore be more confined to formats.c than before. When the new fields are used, they will also avoid allocations: Currently something nearly equivalent to ff_default_query_formats() is called after every successful call to a query_formats callback; yet in the common case that the newly allocated AVFilterFormats are not used at all (namely if there are no free links) these newly allocated AVFilterFormats are freed again without ever being used. Filters no longer using the callback will not exhibit this any more. Reviewed-by: Paul B Mahol <onemda@gmail.com> Reviewed-by: Nicolas George <george@nsup.org> Signed-off-by: Andreas Rheinhardt <andreas.rheinhardt@outlook.com>
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FILTER_QUERY_FUNC(query_formats),
.flags = AVFILTER_FLAG_SUPPORT_TIMELINE_INTERNAL,
.process_command = ff_filter_process_command,
};