blob: 6ee8548f53dfa62d6417ad3e966530cc16de2292 [file] [log] [blame]
// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "remoting/base/util.h"
#include <math.h>
#include "base/logging.h"
#include "base/strings/stringprintf.h"
#include "base/time/time.h"
#include "media/base/video_frame.h"
#include "media/base/yuv_convert.h"
#include "third_party/libyuv/include/libyuv/convert.h"
#include "third_party/webrtc/modules/desktop_capture/desktop_region.h"
using media::VideoFrame;
namespace remoting {
enum { kBytesPerPixelRGB32 = 4 };
// Do not write LOG messages in this routine since it is called from within
// our LOG message handler. Bad things will happen.
std::string GetTimestampString() {
base::Time t = base::Time::NowFromSystemTime();
base::Time::Exploded tex;
t.LocalExplode(&tex);
return base::StringPrintf("%02d%02d/%02d%02d%02d:",
tex.month, tex.day_of_month,
tex.hour, tex.minute, tex.second);
}
int CalculateRGBOffset(int x, int y, int stride) {
return stride * y + kBytesPerPixelRGB32 * x;
}
int CalculateYOffset(int x, int y, int stride) {
DCHECK(((x & 1) == 0) && ((y & 1) == 0));
return stride * y + x;
}
int CalculateUVOffset(int x, int y, int stride) {
DCHECK(((x & 1) == 0) && ((y & 1) == 0));
return stride * y / 2 + x / 2;
}
void ConvertAndScaleYUVToRGB32Rect(
const uint8* source_yplane,
const uint8* source_uplane,
const uint8* source_vplane,
int source_ystride,
int source_uvstride,
const webrtc::DesktopSize& source_size,
const webrtc::DesktopRect& source_buffer_rect,
uint8* dest_buffer,
int dest_stride,
const webrtc::DesktopSize& dest_size,
const webrtc::DesktopRect& dest_buffer_rect,
const webrtc::DesktopRect& dest_rect) {
// N.B. It is caller's responsibility to check if strides are large enough. We
// cannot do it here anyway.
DCHECK(DoesRectContain(webrtc::DesktopRect::MakeSize(source_size),
source_buffer_rect));
DCHECK(DoesRectContain(webrtc::DesktopRect::MakeSize(dest_size),
dest_buffer_rect));
DCHECK(DoesRectContain(dest_buffer_rect, dest_rect));
DCHECK(DoesRectContain(ScaleRect(source_buffer_rect, source_size, dest_size),
dest_rect));
// If the source and/or destination buffers don't start at (0, 0)
// offset the pointers to pretend we have complete buffers.
int y_offset = - CalculateYOffset(source_buffer_rect.left(),
source_buffer_rect.top(),
source_ystride);
int uv_offset = - CalculateUVOffset(source_buffer_rect.left(),
source_buffer_rect.top(),
source_uvstride);
int rgb_offset = - CalculateRGBOffset(dest_buffer_rect.left(),
dest_buffer_rect.top(),
dest_stride);
// See if scaling is needed.
if (source_size.equals(dest_size)) {
// Calculate the inner rectangle that can be copied by the optimized
// libyuv::I420ToARGB().
webrtc::DesktopRect inner_rect =
webrtc::DesktopRect::MakeLTRB(RoundToTwosMultiple(dest_rect.left() + 1),
RoundToTwosMultiple(dest_rect.top() + 1),
dest_rect.right(), dest_rect.bottom());
// Offset pointers to point to the top left corner of the inner rectangle.
y_offset += CalculateYOffset(inner_rect.left(), inner_rect.top(),
source_ystride);
uv_offset += CalculateUVOffset(inner_rect.left(), inner_rect.top(),
source_uvstride);
rgb_offset += CalculateRGBOffset(inner_rect.left(), inner_rect.top(),
dest_stride);
libyuv::I420ToARGB(source_yplane + y_offset, source_ystride,
source_uplane + uv_offset, source_uvstride,
source_vplane + uv_offset, source_uvstride,
dest_buffer + rgb_offset, dest_stride,
inner_rect.width(), inner_rect.height());
// Now see if some pixels weren't copied due to alignment.
if (!dest_rect.equals(inner_rect)) {
webrtc::DesktopRect outer_rect =
webrtc::DesktopRect::MakeLTRB(RoundToTwosMultiple(dest_rect.left()),
RoundToTwosMultiple(dest_rect.top()),
dest_rect.right(), dest_rect.bottom());
webrtc::DesktopVector offset(outer_rect.left() - inner_rect.left(),
outer_rect.top() - inner_rect.top());
// Offset the pointers to point to the top left corner of the outer
// rectangle.
y_offset += CalculateYOffset(offset.x(), offset.y(), source_ystride);
uv_offset += CalculateUVOffset(offset.x(), offset.y(), source_uvstride);
rgb_offset += CalculateRGBOffset(offset.x(), offset.y(), dest_stride);
// Draw unaligned edges.
webrtc::DesktopRegion edges(dest_rect);
edges.Subtract(inner_rect);
for (webrtc::DesktopRegion::Iterator i(edges); !i.IsAtEnd();
i.Advance()) {
webrtc::DesktopRect rect = i.rect();
rect.Translate(-outer_rect.left(), -outer_rect.top());
media::ScaleYUVToRGB32WithRect(source_yplane + y_offset,
source_uplane + uv_offset,
source_vplane + uv_offset,
dest_buffer + rgb_offset,
source_size.width(),
source_size.height(),
dest_size.width(),
dest_size.height(),
rect.left(),
rect.top(),
rect.right(),
rect.bottom(),
source_ystride,
source_uvstride,
dest_stride);
}
}
} else {
media::ScaleYUVToRGB32WithRect(source_yplane + y_offset,
source_uplane + uv_offset,
source_vplane + uv_offset,
dest_buffer + rgb_offset,
source_size.width(),
source_size.height(),
dest_size.width(),
dest_size.height(),
dest_rect.left(),
dest_rect.top(),
dest_rect.right(),
dest_rect.bottom(),
source_ystride,
source_uvstride,
dest_stride);
}
}
int RoundToTwosMultiple(int x) {
return x & (~1);
}
webrtc::DesktopRect AlignRect(const webrtc::DesktopRect& rect) {
int x = RoundToTwosMultiple(rect.left());
int y = RoundToTwosMultiple(rect.top());
int right = RoundToTwosMultiple(rect.right() + 1);
int bottom = RoundToTwosMultiple(rect.bottom() + 1);
return webrtc::DesktopRect::MakeLTRB(x, y, right, bottom);
}
webrtc::DesktopRect ScaleRect(const webrtc::DesktopRect& rect,
const webrtc::DesktopSize& in_size,
const webrtc::DesktopSize& out_size) {
int left = (rect.left() * out_size.width()) / in_size.width();
int top = (rect.top() * out_size.height()) / in_size.height();
int right = (rect.right() * out_size.width() + in_size.width() - 1) /
in_size.width();
int bottom = (rect.bottom() * out_size.height() + in_size.height() - 1) /
in_size.height();
return webrtc::DesktopRect::MakeLTRB(left, top, right, bottom);
}
void CopyRGB32Rect(const uint8* source_buffer,
int source_stride,
const webrtc::DesktopRect& source_buffer_rect,
uint8* dest_buffer,
int dest_stride,
const webrtc::DesktopRect& dest_buffer_rect,
const webrtc::DesktopRect& dest_rect) {
DCHECK(DoesRectContain(dest_buffer_rect, dest_rect));
DCHECK(DoesRectContain(source_buffer_rect, dest_rect));
// Get the address of the starting point.
source_buffer += CalculateRGBOffset(
dest_rect.left() - source_buffer_rect.left(),
dest_rect.top() - source_buffer_rect.top(),
source_stride);
dest_buffer += CalculateRGBOffset(
dest_rect.left() - dest_buffer_rect.left(),
dest_rect.top() - dest_buffer_rect.top(),
source_stride);
// Copy pixels in the rectangle line by line.
const int bytes_per_line = kBytesPerPixelRGB32 * dest_rect.width();
for (int i = 0 ; i < dest_rect.height(); ++i) {
memcpy(dest_buffer, source_buffer, bytes_per_line);
source_buffer += source_stride;
dest_buffer += dest_stride;
}
}
std::string ReplaceLfByCrLf(const std::string& in) {
std::string out;
out.resize(2 * in.size());
char* out_p_begin = &out[0];
char* out_p = out_p_begin;
const char* in_p_begin = &in[0];
const char* in_p_end = &in[in.size()];
for (const char* in_p = in_p_begin; in_p < in_p_end; ++in_p) {
char c = *in_p;
if (c == '\n') {
*out_p++ = '\r';
}
*out_p++ = c;
}
out.resize(out_p - out_p_begin);
return out;
}
std::string ReplaceCrLfByLf(const std::string& in) {
std::string out;
out.resize(in.size());
char* out_p_begin = &out[0];
char* out_p = out_p_begin;
const char* in_p_begin = &in[0];
const char* in_p_end = &in[in.size()];
for (const char* in_p = in_p_begin; in_p < in_p_end; ++in_p) {
char c = *in_p;
if ((c == '\r') && (in_p + 1 < in_p_end) && (*(in_p + 1) == '\n')) {
*out_p++ = '\n';
++in_p;
} else {
*out_p++ = c;
}
}
out.resize(out_p - out_p_begin);
return out;
}
bool StringIsUtf8(const char* data, size_t length) {
const char* ptr = data;
const char* ptr_end = data + length;
while (ptr != ptr_end) {
if ((*ptr & 0x80) == 0) {
// Single-byte symbol.
++ptr;
} else if ((*ptr & 0xc0) == 0x80 || (*ptr & 0xfe) == 0xfe) {
// Invalid first byte.
return false;
} else {
// First byte of a multi-byte symbol. The bits from 2 to 6 are the count
// of continuation bytes (up to 5 of them).
for (char first = *ptr << 1; first & 0x80; first <<= 1) {
++ptr;
// Missing continuation byte.
if (ptr == ptr_end)
return false;
// Invalid continuation byte.
if ((*ptr & 0xc0) != 0x80)
return false;
}
++ptr;
}
}
return true;
}
bool DoesRectContain(const webrtc::DesktopRect& a,
const webrtc::DesktopRect& b) {
webrtc::DesktopRect intersection(a);
intersection.IntersectWith(b);
return intersection.equals(b);
}
} // namespace remoting