// SPDX-License-Identifier: GPL-2.0 use kernel::prelude::*; use crate::driver::Bar0; use crate::falcon::{Falcon, FalconBromParams, FalconEngine}; use crate::gpu::Chipset; mod ga102; /// Hardware Abstraction Layer for Falcon cores. /// /// Implements chipset-specific low-level operations. The trait is generic against [`FalconEngine`] /// so its `BASE` parameter can be used in order to avoid runtime bound checks when accessing /// registers. pub(crate) trait FalconHal<E: FalconEngine>: Sync { /// Activates the Falcon core if the engine is a risvc/falcon dual engine. fn select_core(&self, _falcon: &Falcon<E>, _bar: &Bar0) -> Result { Ok(()) } /// Returns the fused version of the signature to use in order to run a HS firmware on this /// falcon instance. `engine_id_mask` and `ucode_id` are obtained from the firmware header. fn signature_reg_fuse_version( &self, falcon: &Falcon<E>, bar: &Bar0, engine_id_mask: u16, ucode_id: u8, ) -> Result<u32>; /// Program the boot ROM registers prior to starting a secure firmware. fn program_brom(&self, falcon: &Falcon<E>, bar: &Bar0, params: &FalconBromParams) -> Result; } /// Returns a boxed falcon HAL adequate for `chipset`. /// /// We use a heap-allocated trait object instead of a statically defined one because the /// generic `FalconEngine` argument makes it difficult to define all the combinations /// statically. pub(super) fn falcon_hal<E: FalconEngine + 'static>( chipset: Chipset, ) -> Result<KBox<dyn FalconHal<E>>> { use Chipset::*; let hal = match chipset { GA102 | GA103 | GA104 | GA106 | GA107 => { KBox::new(ga102::Ga102::<E>::new(), GFP_KERNEL)? as KBox<dyn FalconHal<E>> } _ => return Err(ENOTSUPP), }; Ok(hal) }