In the editor, we read back the data from the GPU to display the buffer values. So when we create the buffer uninitialized, we end up reading back garbage data and displaying it in the editor.
Many GPUs zero-initialize buffers by default, but it isn't guaranteed behaviour, so its best to initialize it ourselves to be safe
RenderingServerDefault::_draw wants to get all of the materials. The threaded
loader is still loading the materials:
1) The main thread locks canvas_singleton->shader.mutex via
RendererRD::Utilities::update_dirty_resources
-> RendererRD::MaterialStorage::_update_queued_materials
-> RendererCanvasRenderRD::CanvasMaterialData::update_parameters()
2) RendererCanvasRenderRD::CanvasMaterialData::update_parameters() wants
to get the current shader via ShaderRD::version_get_shader. This
eventually wants to wait on the load of that shader via
WorkerThreadPool::wait_for_group_task_completion in
ShaderRD::_compile_version_end
At this point the main thread is waiting for the threaded load to finish
loading the shader. Meanwhile in a thread not too far away the load is
progressing:
1) The loader is loading the tres in ResourceLoaderText::load which
eventually wants to ShaderMaterial::set_shader
2) We eventually end up in RendererCanvasRenderRD::CanvasShaderData::set_code
3) set_code wants to lock canvas_singleton->shader.mutex to protect
against concurrent compilation
At this point the main thread is waiting on the load to complete, but
holds "canvas_singleton->shader.mutex" via update_parameters(), and the
loader is waiting on "canvas_singleton->shader.mutex" in set_code.
Tragedy ensues etc.
To fix the problem we don't acquire the lock until after we're sure
we're done compiling the shader.
The same pattern exists in scene_shader_forward_clustered.cpp which
was created in the same commit as the code in the canvas singleton.
With this change the deadlock can no longer occur as set_code() can now run
concurrently with RenderingServerDefault::_draw() as the path where the
main thread waits on the workerthreadpool with
canvas_singleton->shader.mutex held can no longer occur.
Data integrity wise: previously you'd think that
canvas_singleton->shader.mutex would have protected against metadata
changes to uniforms, ubo_offsets, and texture_uniforms but set_code() used
to write to some of these (uniforms, ubo_size) without taking the lock with
no ill effects because the material isn't updated until the shader has loaded.
A similar pattern was found in scene_shader_forward_mobile.cpp and was
fixed in the same way.
The Mobile renderer doesn't support TAA, but we still configured
the 3D buffers as if TAA was enabled after turning an error into
a warning previously.
This also adds a similar early return to screen-space AA when
on Compatibility to avoid unnecessary 3D buffer reconfiguration.