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Kernel: Make internal framebuffer bpp constexpr defined in libc

This commit is contained in:
Bananymous 2023-11-29 20:07:33 +02:00
parent 7090388c70
commit 327b330338
4 changed files with 34 additions and 38 deletions
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48
kernel/kernel/Device/FramebufferDevice.cpp
View File

@ -9,9 +9,6 @@
namespace Kernel
{
// Internally we hold 32 bpp buffer (top 8 bits not used)
static constexpr uint32_t bytes_per_pixel_internal = 4;
static uint32_t get_framebuffer_device_index()
{
static uint32_t index = 0;
@ -75,7 +72,7 @@ namespace Kernel
m_video_buffer = TRY(VirtualRange::create_to_vaddr_range(
PageTable::kernel(),
KERNEL_OFFSET, UINTPTR_MAX,
BAN::Math::div_round_up<size_t>(m_width * m_height * bytes_per_pixel_internal, PAGE_SIZE) * PAGE_SIZE,
BAN::Math::div_round_up<size_t>(m_width * m_height * (BANAN_FB_BPP / 8), PAGE_SIZE) * PAGE_SIZE,
PageTable::Flags::ReadWrite | PageTable::Flags::Present,
true
));
@ -94,15 +91,14 @@ namespace Kernel
auto& fb_info = buffer.as<framebuffer_info_t>();
fb_info.width = m_width;
fb_info.height = m_height;
fb_info.bpp = m_bpp;
return sizeof(framebuffer_info_t);
}
if ((size_t)offset >= m_width * m_height * bytes_per_pixel_internal)
if ((size_t)offset >= m_width * m_height * (BANAN_FB_BPP / 8))
return 0;
size_t bytes_to_copy = BAN::Math::min<size_t>(m_width * m_height * bytes_per_pixel_internal - offset, buffer.size());
size_t bytes_to_copy = BAN::Math::min<size_t>(m_width * m_height * (BANAN_FB_BPP / 8) - offset, buffer.size());
memcpy(buffer.data(), reinterpret_cast<void*>(m_video_buffer->vaddr() + offset), bytes_to_copy);
return bytes_to_copy;
@ -112,14 +108,14 @@ namespace Kernel
{
if (offset < 0)
return BAN::Error::from_errno(EINVAL);
if ((size_t)offset >= m_width * m_height * bytes_per_pixel_internal)
if ((size_t)offset >= m_width * m_height * (BANAN_FB_BPP / 8))
return 0;
size_t bytes_to_copy = BAN::Math::min<size_t>(m_width * m_height * bytes_per_pixel_internal - offset, buffer.size());
size_t bytes_to_copy = BAN::Math::min<size_t>(m_width * m_height * (BANAN_FB_BPP / 8) - offset, buffer.size());
memcpy(reinterpret_cast<void*>(m_video_buffer->vaddr() + offset), buffer.data(), bytes_to_copy);
uint32_t first_pixel = offset / bytes_per_pixel_internal;
uint32_t pixel_count = BAN::Math::div_round_up<uint32_t>(bytes_to_copy + (offset % bytes_per_pixel_internal), bytes_per_pixel_internal);
uint32_t first_pixel = offset / (BANAN_FB_BPP / 8);
uint32_t pixel_count = BAN::Math::div_round_up<uint32_t>(bytes_to_copy + (offset % (BANAN_FB_BPP / 8)), (BANAN_FB_BPP / 8));
sync_pixels_linear(first_pixel, pixel_count);
return bytes_to_copy;
@ -129,8 +125,12 @@ namespace Kernel
{
if (x >= m_width || y >= m_height)
return;
auto* video_buffer_u32 = reinterpret_cast<uint32_t*>(m_video_buffer->vaddr());
video_buffer_u32[y * m_width + x] = rgb;
auto* video_buffer_u8 = reinterpret_cast<uint8_t*>(m_video_buffer->vaddr());
video_buffer_u8[(y * m_width + x) * (BANAN_FB_BPP / 8) + 0] = rgb >> 0;
video_buffer_u8[(y * m_width + x) * (BANAN_FB_BPP / 8) + 1] = rgb >> 8;
video_buffer_u8[(y * m_width + x) * (BANAN_FB_BPP / 8) + 2] = rgb >> 16;
if constexpr(BANAN_FB_BPP == 32)
video_buffer_u8[(y * m_width + x) * (BANAN_FB_BPP / 8) + 3] = rgb >> 24;
}
void FramebufferDevice::sync_pixels_full()
@ -143,9 +143,9 @@ namespace Kernel
uint32_t row = i / m_width;
uint32_t idx = i % m_width;
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 0] = video_buffer_u8[i * bytes_per_pixel_internal + 0];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 1] = video_buffer_u8[i * bytes_per_pixel_internal + 1];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 2] = video_buffer_u8[i * bytes_per_pixel_internal + 2];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 0] = video_buffer_u8[i * (BANAN_FB_BPP / 8) + 0];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 1] = video_buffer_u8[i * (BANAN_FB_BPP / 8) + 1];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 2] = video_buffer_u8[i * (BANAN_FB_BPP / 8) + 2];
}
}
@ -164,9 +164,9 @@ namespace Kernel
uint32_t row = (first_pixel + i) / m_width;
uint32_t idx = (first_pixel + i) % m_width;
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 0] = video_buffer_u8[(first_pixel + i) * bytes_per_pixel_internal + 0];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 1] = video_buffer_u8[(first_pixel + i) * bytes_per_pixel_internal + 1];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 2] = video_buffer_u8[(first_pixel + i) * bytes_per_pixel_internal + 2];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 0] = video_buffer_u8[(first_pixel + i) * (BANAN_FB_BPP / 8) + 0];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 1] = video_buffer_u8[(first_pixel + i) * (BANAN_FB_BPP / 8) + 1];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 2] = video_buffer_u8[(first_pixel + i) * (BANAN_FB_BPP / 8) + 2];
}
}
@ -186,9 +186,9 @@ namespace Kernel
{
for (uint32_t idx = top_right_x; idx < top_right_x + width; idx++)
{
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 0] = video_buffer_u8[(row * m_width + idx) * bytes_per_pixel_internal + 0];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 1] = video_buffer_u8[(row * m_width + idx) * bytes_per_pixel_internal + 1];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 2] = video_buffer_u8[(row * m_width + idx) * bytes_per_pixel_internal + 2];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 0] = video_buffer_u8[(row * m_width + idx) * (BANAN_FB_BPP / 8) + 0];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 1] = video_buffer_u8[(row * m_width + idx) * (BANAN_FB_BPP / 8) + 1];
video_memory_u8[(row * m_pitch) + (idx * m_bpp / 8) + 2] = video_buffer_u8[(row * m_width + idx) * (BANAN_FB_BPP / 8) + 2];
}
}
}
@ -224,8 +224,8 @@ namespace Kernel
size = (vaddr - m_vaddr) + m_size;
m_framebuffer->sync_pixels_linear(
(vaddr - m_vaddr) / bytes_per_pixel_internal,
BAN::Math::div_round_up<uint32_t>((vaddr % bytes_per_pixel_internal) + size, bytes_per_pixel_internal)
(vaddr - m_vaddr) / (BANAN_FB_BPP / 8),
BAN::Math::div_round_up<uint32_t>((vaddr % (BANAN_FB_BPP / 8)) + size, (BANAN_FB_BPP / 8))
);
return {};

3
libc/include/sys/framebuffer.h
View File

@ -7,11 +7,12 @@ __BEGIN_DECLS
#include <stdint.h>
#define BANAN_FB_BPP 32
struct framebuffer_info_t
{
uint32_t width;
uint32_t height;
uint8_t bpp;
};
__END_DECLS

19
userspace/image/Image.cpp
View File

@ -103,14 +103,9 @@ bool Image::render_to_framebuffer()
return false;
}
if (fb_info.bpp != 24 && fb_info.bpp != 32)
{
fprintf(stderr, "unsupported framebuffer bpp\n");
close(fd);
return false;
}
ASSERT(BANAN_FB_BPP == 24 || BANAN_FB_BPP == 32);
size_t mmap_size = fb_info.height * fb_info.width * fb_info.bpp / 8;
size_t mmap_size = fb_info.height * fb_info.width * BANAN_FB_BPP / 8;
void* mmap_addr = mmap(nullptr, mmap_size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
if (mmap_addr == MAP_FAILED)
@ -126,11 +121,11 @@ bool Image::render_to_framebuffer()
{
for (uint64_t x = 0; x < BAN::Math::min<uint64_t>(width(), fb_info.width); x++)
{
u8_fb[(y * fb_info.width + x) * fb_info.bpp / 8 + 0] = m_bitmap[y * width() + x].r;
u8_fb[(y * fb_info.width + x) * fb_info.bpp / 8 + 1] = m_bitmap[y * width() + x].g;
u8_fb[(y * fb_info.width + x) * fb_info.bpp / 8 + 2] = m_bitmap[y * width() + x].b;
if (fb_info.bpp == 32)
u8_fb[(y * fb_info.width + x) * fb_info.bpp / 8 + 3] = m_bitmap[y * width() + x].a;
u8_fb[(y * fb_info.width + x) * BANAN_FB_BPP / 8 + 0] = m_bitmap[y * width() + x].r;
u8_fb[(y * fb_info.width + x) * BANAN_FB_BPP / 8 + 1] = m_bitmap[y * width() + x].g;
u8_fb[(y * fb_info.width + x) * BANAN_FB_BPP / 8 + 2] = m_bitmap[y * width() + x].b;
if constexpr(BANAN_FB_BPP == 32)
u8_fb[(y * fb_info.width + x) * BANAN_FB_BPP / 8 + 3] = m_bitmap[y * width() + x].a;
}
}

2
userspace/test-framebuffer/main.cpp
View File

@ -19,7 +19,7 @@ int main()
return 1;
}
size_t fb_size = fb_info.width * fb_info.height * fb_info.bpp / 8;
size_t fb_size = fb_info.width * fb_info.height * BANAN_FB_BPP / 8;
void* addr = mmap(nullptr, fb_size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0);
if (addr == MAP_FAILED)