/* * Copyright (c) 2021, Liav A. * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #define MAX_RESOLUTION_WIDTH 4096 #define MAX_RESOLUTION_HEIGHT 2160 namespace Kernel { NonnullRefPtr FramebufferDevice::create(const GraphicsDevice& adapter, size_t output_port_index, PhysicalAddress paddr, size_t width, size_t height, size_t pitch) { return adopt_ref(*new FramebufferDevice(adapter, output_port_index, paddr, width, height, pitch)); } KResultOr FramebufferDevice::mmap(Process& process, FileDescription&, Memory::VirtualRange const& range, u64 offset, int prot, bool shared) { SpinlockLocker lock(m_activation_lock); REQUIRE_PROMISE(video); if (!shared) return ENODEV; if (offset != 0) return ENXIO; if (range.size() != Memory::page_round_up(framebuffer_size_in_bytes())) return EOVERFLOW; auto maybe_vmobject = Memory::AnonymousVMObject::try_create_for_physical_range(m_framebuffer_address, Memory::page_round_up(framebuffer_size_in_bytes())); if (maybe_vmobject.is_error()) return maybe_vmobject.error(); m_userspace_real_framebuffer_vmobject = maybe_vmobject.release_value(); auto maybe_real_framebuffer_vmobject = Memory::AnonymousVMObject::try_create_for_physical_range(m_framebuffer_address, Memory::page_round_up(framebuffer_size_in_bytes())); if (maybe_real_framebuffer_vmobject.is_error()) return maybe_real_framebuffer_vmobject.error(); m_real_framebuffer_vmobject = maybe_real_framebuffer_vmobject.release_value(); auto maybe_swapped_framebuffer_vmobject = Memory::AnonymousVMObject::try_create_with_size(Memory::page_round_up(framebuffer_size_in_bytes()), AllocationStrategy::AllocateNow); if (maybe_swapped_framebuffer_vmobject.is_error()) return maybe_swapped_framebuffer_vmobject.error(); m_swapped_framebuffer_vmobject = maybe_swapped_framebuffer_vmobject.release_value(); m_real_framebuffer_region = MM.allocate_kernel_region_with_vmobject(*m_real_framebuffer_vmobject, Memory::page_round_up(framebuffer_size_in_bytes()), "Framebuffer", Memory::Region::Access::ReadWrite); if (!m_real_framebuffer_region) return ENOMEM; m_swapped_framebuffer_region = MM.allocate_kernel_region_with_vmobject(*m_swapped_framebuffer_vmobject, Memory::page_round_up(framebuffer_size_in_bytes()), "Framebuffer Swap (Blank)", Memory::Region::Access::ReadWrite); if (!m_swapped_framebuffer_region) return ENOMEM; RefPtr chosen_vmobject; if (m_graphical_writes_enabled) { chosen_vmobject = m_real_framebuffer_vmobject; } else { chosen_vmobject = m_swapped_framebuffer_vmobject; } auto result = process.address_space().allocate_region_with_vmobject( range, chosen_vmobject.release_nonnull(), 0, "Framebuffer", prot, shared); if (!result.is_error()) { m_userspace_framebuffer_region = result.value(); } return result; } void FramebufferDevice::deactivate_writes() { SpinlockLocker lock(m_activation_lock); if (!m_userspace_framebuffer_region) return; memcpy(m_swapped_framebuffer_region->vaddr().as_ptr(), m_real_framebuffer_region->vaddr().as_ptr(), Memory::page_round_up(framebuffer_size_in_bytes())); auto vmobject = m_swapped_framebuffer_vmobject; m_userspace_framebuffer_region->set_vmobject(vmobject.release_nonnull()); m_userspace_framebuffer_region->remap(); m_graphical_writes_enabled = false; } void FramebufferDevice::activate_writes() { SpinlockLocker lock(m_activation_lock); if (!m_userspace_framebuffer_region || !m_real_framebuffer_vmobject) return; // restore the image we had in the void area // FIXME: if we happen to have multiple Framebuffers that are writing to that location // we will experience glitches... memcpy(m_real_framebuffer_region->vaddr().as_ptr(), m_swapped_framebuffer_region->vaddr().as_ptr(), Memory::page_round_up(framebuffer_size_in_bytes())); auto vmobject = m_userspace_real_framebuffer_vmobject; m_userspace_framebuffer_region->set_vmobject(vmobject.release_nonnull()); m_userspace_framebuffer_region->remap(); m_graphical_writes_enabled = true; } String FramebufferDevice::device_name() const { return String::formatted("fb{}", minor()); } UNMAP_AFTER_INIT KResult FramebufferDevice::initialize() { // FIXME: Would be nice to be able to unify this with mmap above, but this // function is UNMAP_AFTER_INIT for the time being. auto maybe_real_framebuffer_vmobject = Memory::AnonymousVMObject::try_create_for_physical_range(m_framebuffer_address, Memory::page_round_up(framebuffer_size_in_bytes())); if (maybe_real_framebuffer_vmobject.is_error()) return maybe_real_framebuffer_vmobject.error(); m_real_framebuffer_vmobject = maybe_real_framebuffer_vmobject.release_value(); auto maybe_swapped_framebuffer_vmobject = Memory::AnonymousVMObject::try_create_with_size(Memory::page_round_up(framebuffer_size_in_bytes()), AllocationStrategy::AllocateNow); if (maybe_swapped_framebuffer_vmobject.is_error()) return maybe_swapped_framebuffer_vmobject.error(); m_swapped_framebuffer_vmobject = maybe_swapped_framebuffer_vmobject.release_value(); m_real_framebuffer_region = MM.allocate_kernel_region_with_vmobject(*m_real_framebuffer_vmobject, Memory::page_round_up(framebuffer_size_in_bytes()), "Framebuffer", Memory::Region::Access::ReadWrite); if (!m_real_framebuffer_region) return ENOMEM; m_swapped_framebuffer_region = MM.allocate_kernel_region_with_vmobject(*m_swapped_framebuffer_vmobject, Memory::page_round_up(framebuffer_size_in_bytes()), "Framebuffer Swap (Blank)", Memory::Region::Access::ReadWrite); if (!m_swapped_framebuffer_region) return ENOMEM; return KSuccess; } UNMAP_AFTER_INIT FramebufferDevice::FramebufferDevice(const GraphicsDevice& adapter, size_t output_port_index, PhysicalAddress addr, size_t width, size_t height, size_t pitch) : BlockDevice(29, GraphicsManagement::the().allocate_minor_device_number()) , m_framebuffer_address(addr) , m_framebuffer_pitch(pitch) , m_framebuffer_width(width) , m_framebuffer_height(height) , m_output_port_index(output_port_index) , m_graphics_adapter(adapter) { VERIFY(!m_framebuffer_address.is_null()); VERIFY(m_framebuffer_pitch); VERIFY(m_framebuffer_width); VERIFY(m_framebuffer_height); dbgln("Framebuffer {}: address={}, pitch={}, width={}, height={}", minor(), addr, pitch, width, height); } size_t FramebufferDevice::framebuffer_size_in_bytes() const { if (m_graphics_adapter->double_framebuffering_capable()) return m_framebuffer_pitch * m_framebuffer_height * 2; return m_framebuffer_pitch * m_framebuffer_height; } KResult FramebufferDevice::ioctl(FileDescription&, unsigned request, Userspace arg) { REQUIRE_PROMISE(video); switch (request) { case FB_IOCTL_GET_SIZE_IN_BYTES: { auto user_size = static_ptr_cast(arg); size_t value = framebuffer_size_in_bytes(); if (!copy_to_user(user_size, &value)) return EFAULT; return KSuccess; } case FB_IOCTL_GET_BUFFER: { auto user_index = static_ptr_cast(arg); int value = m_y_offset == 0 ? 0 : 1; if (!copy_to_user(user_index, &value)) return EFAULT; if (!m_graphics_adapter->double_framebuffering_capable()) return ENOTIMPL; return KSuccess; } case FB_IOCTL_SET_BUFFER: { auto buffer = static_cast(arg.ptr()); if (buffer != 0 && buffer != 1) return EINVAL; if (!m_graphics_adapter->double_framebuffering_capable()) return ENOTIMPL; m_graphics_adapter->set_y_offset(m_output_port_index, buffer == 0 ? 0 : m_framebuffer_height); return KSuccess; } case FB_IOCTL_GET_RESOLUTION: { auto user_resolution = static_ptr_cast(arg); FBResolution resolution {}; resolution.pitch = m_framebuffer_pitch; resolution.width = m_framebuffer_width; resolution.height = m_framebuffer_height; if (!copy_to_user(user_resolution, &resolution)) return EFAULT; return KSuccess; } case FB_IOCTL_SET_RESOLUTION: { auto user_resolution = static_ptr_cast(arg); FBResolution resolution; if (!copy_from_user(&resolution, user_resolution)) return EFAULT; if (resolution.width > MAX_RESOLUTION_WIDTH || resolution.height > MAX_RESOLUTION_HEIGHT) return EINVAL; if (!m_graphics_adapter->modesetting_capable()) { resolution.pitch = m_framebuffer_pitch; resolution.width = m_framebuffer_width; resolution.height = m_framebuffer_height; if (!copy_to_user(user_resolution, &resolution)) return EFAULT; return ENOTIMPL; } if (!m_graphics_adapter->try_to_set_resolution(m_output_port_index, resolution.width, resolution.height)) { m_framebuffer_pitch = m_framebuffer_width * sizeof(u32); dbgln_if(FRAMEBUFFER_DEVICE_DEBUG, "Reverting resolution: [{}x{}]", m_framebuffer_width, m_framebuffer_height); // Note: We try to revert everything back, and if it doesn't work, just assert. if (!m_graphics_adapter->try_to_set_resolution(m_output_port_index, m_framebuffer_width, m_framebuffer_height)) { VERIFY_NOT_REACHED(); } resolution.pitch = m_framebuffer_pitch; resolution.width = m_framebuffer_width; resolution.height = m_framebuffer_height; if (!copy_to_user(user_resolution, &resolution)) return EFAULT; return EINVAL; } m_framebuffer_width = resolution.width; m_framebuffer_height = resolution.height; m_framebuffer_pitch = m_framebuffer_width * sizeof(u32); dbgln_if(FRAMEBUFFER_DEVICE_DEBUG, "New resolution: [{}x{}]", m_framebuffer_width, m_framebuffer_height); resolution.pitch = m_framebuffer_pitch; resolution.width = m_framebuffer_width; resolution.height = m_framebuffer_height; if (!copy_to_user(user_resolution, &resolution)) return EFAULT; return KSuccess; } case FB_IOCTL_GET_BUFFER_OFFSET: { auto user_buffer_offset = static_ptr_cast(arg); FBBufferOffset buffer_offset; if (!copy_from_user(&buffer_offset, user_buffer_offset)) return EFAULT; if (buffer_offset.buffer_index != 0 && buffer_offset.buffer_index != 1) return EINVAL; buffer_offset.offset = (size_t)buffer_offset.buffer_index * m_framebuffer_pitch * m_framebuffer_height; if (!copy_to_user(user_buffer_offset, &buffer_offset)) return EFAULT; return KSuccess; } case FB_IOCTL_FLUSH_BUFFERS: return ENOTSUP; default: return EINVAL; }; } }