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Diffstat (limited to 'drivers/gpu/nova-core/regs.rs')
| -rw-r--r-- | drivers/gpu/nova-core/regs.rs | 411 |
1 files changed, 411 insertions, 0 deletions
diff --git a/drivers/gpu/nova-core/regs.rs b/drivers/gpu/nova-core/regs.rs new file mode 100644 index 000000000000..82cc6c0790e5 --- /dev/null +++ b/drivers/gpu/nova-core/regs.rs @@ -0,0 +1,411 @@ +// SPDX-License-Identifier: GPL-2.0 + +// Required to retain the original register names used by OpenRM, which are all capital snake case +// but are mapped to types. +#![allow(non_camel_case_types)] + +#[macro_use] +pub(crate) mod macros; + +use kernel::prelude::*; + +use crate::{ + falcon::{ + DmaTrfCmdSize, + FalconCoreRev, + FalconCoreRevSubversion, + FalconFbifMemType, + FalconFbifTarget, + FalconModSelAlgo, + FalconSecurityModel, + PFalcon2Base, + PFalconBase, + PeregrineCoreSelect, // + }, + gpu::{ + Architecture, + Chipset, // + }, + num::FromSafeCast, +}; + +// PMC + +register!(NV_PMC_BOOT_0 @ 0x00000000, "Basic revision information about the GPU" { + 3:0 minor_revision as u8, "Minor revision of the chip"; + 7:4 major_revision as u8, "Major revision of the chip"; + 8:8 architecture_1 as u8, "MSB of the architecture"; + 23:20 implementation as u8, "Implementation version of the architecture"; + 28:24 architecture_0 as u8, "Lower bits of the architecture"; +}); + +impl NV_PMC_BOOT_0 { + pub(crate) fn is_older_than_fermi(self) -> bool { + // From https://github.com/NVIDIA/open-gpu-doc/tree/master/manuals : + const NV_PMC_BOOT_0_ARCHITECTURE_GF100: u8 = 0xc; + + // Older chips left arch1 zeroed out. That, combined with an arch0 value that is less than + // GF100, means "older than Fermi". + self.architecture_1() == 0 && self.architecture_0() < NV_PMC_BOOT_0_ARCHITECTURE_GF100 + } +} + +register!(NV_PMC_BOOT_42 @ 0x00000a00, "Extended architecture information" { + 15:12 minor_revision as u8, "Minor revision of the chip"; + 19:16 major_revision as u8, "Major revision of the chip"; + 23:20 implementation as u8, "Implementation version of the architecture"; + 29:24 architecture as u8 ?=> Architecture, "Architecture value"; +}); + +impl NV_PMC_BOOT_42 { + /// Combines `architecture` and `implementation` to obtain a code unique to the chipset. + pub(crate) fn chipset(self) -> Result<Chipset> { + self.architecture() + .map(|arch| { + ((arch as u32) << Self::IMPLEMENTATION_RANGE.len()) + | u32::from(self.implementation()) + }) + .and_then(Chipset::try_from) + } + + /// Returns the raw architecture value from the register. + fn architecture_raw(self) -> u8 { + ((self.0 >> Self::ARCHITECTURE_RANGE.start()) & ((1 << Self::ARCHITECTURE_RANGE.len()) - 1)) + as u8 + } +} + +impl kernel::fmt::Display for NV_PMC_BOOT_42 { + fn fmt(&self, f: &mut kernel::fmt::Formatter<'_>) -> kernel::fmt::Result { + write!( + f, + "boot42 = 0x{:08x} (architecture 0x{:x}, implementation 0x{:x})", + self.0, + self.architecture_raw(), + self.implementation() + ) + } +} + +// PBUS + +register!(NV_PBUS_SW_SCRATCH @ 0x00001400[64] {}); + +register!(NV_PBUS_SW_SCRATCH_0E_FRTS_ERR => NV_PBUS_SW_SCRATCH[0xe], + "scratch register 0xe used as FRTS firmware error code" { + 31:16 frts_err_code as u16; +}); + +// PFB + +// The following two registers together hold the physical system memory address that is used by the +// GPU to perform sysmembar operations (see `fb::SysmemFlush`). + +register!(NV_PFB_NISO_FLUSH_SYSMEM_ADDR @ 0x00100c10 { + 31:0 adr_39_08 as u32; +}); + +register!(NV_PFB_NISO_FLUSH_SYSMEM_ADDR_HI @ 0x00100c40 { + 23:0 adr_63_40 as u32; +}); + +register!(NV_PFB_PRI_MMU_LOCAL_MEMORY_RANGE @ 0x00100ce0 { + 3:0 lower_scale as u8; + 9:4 lower_mag as u8; + 30:30 ecc_mode_enabled as bool; +}); + +register!(NV_PGSP_QUEUE_HEAD @ 0x00110c00 { + 31:0 address as u32; +}); + +impl NV_PFB_PRI_MMU_LOCAL_MEMORY_RANGE { + /// Returns the usable framebuffer size, in bytes. + pub(crate) fn usable_fb_size(self) -> u64 { + let size = (u64::from(self.lower_mag()) << u64::from(self.lower_scale())) + * u64::from_safe_cast(kernel::sizes::SZ_1M); + + if self.ecc_mode_enabled() { + // Remove the amount of memory reserved for ECC (one per 16 units). + size / 16 * 15 + } else { + size + } + } +} + +register!(NV_PFB_PRI_MMU_WPR2_ADDR_LO@0x001fa824 { + 31:4 lo_val as u32, "Bits 12..40 of the lower (inclusive) bound of the WPR2 region"; +}); + +impl NV_PFB_PRI_MMU_WPR2_ADDR_LO { + /// Returns the lower (inclusive) bound of the WPR2 region. + pub(crate) fn lower_bound(self) -> u64 { + u64::from(self.lo_val()) << 12 + } +} + +register!(NV_PFB_PRI_MMU_WPR2_ADDR_HI@0x001fa828 { + 31:4 hi_val as u32, "Bits 12..40 of the higher (exclusive) bound of the WPR2 region"; +}); + +impl NV_PFB_PRI_MMU_WPR2_ADDR_HI { + /// Returns the higher (exclusive) bound of the WPR2 region. + /// + /// A value of zero means the WPR2 region is not set. + pub(crate) fn higher_bound(self) -> u64 { + u64::from(self.hi_val()) << 12 + } +} + +// PGC6 register space. +// +// `GC6` is a GPU low-power state where VRAM is in self-refresh and the GPU is powered down (except +// for power rails needed to keep self-refresh working and important registers and hardware +// blocks). +// +// These scratch registers remain powered on even in a low-power state and have a designated group +// number. + +// Boot Sequence Interface (BSI) register used to determine +// if GSP reload/resume has completed during the boot process. +register!(NV_PGC6_BSI_SECURE_SCRATCH_14 @ 0x001180f8 { + 26:26 boot_stage_3_handoff as bool; +}); + +// Privilege level mask register. It dictates whether the host CPU has privilege to access the +// `PGC6_AON_SECURE_SCRATCH_GROUP_05` register (which it needs to read GFW_BOOT). +register!(NV_PGC6_AON_SECURE_SCRATCH_GROUP_05_PRIV_LEVEL_MASK @ 0x00118128, + "Privilege level mask register" { + 0:0 read_protection_level0 as bool, "Set after FWSEC lowers its protection level"; +}); + +// OpenRM defines this as a register array, but doesn't specify its size and only uses its first +// element. Be conservative until we know the actual size or need to use more registers. +register!(NV_PGC6_AON_SECURE_SCRATCH_GROUP_05 @ 0x00118234[1] {}); + +register!( + NV_PGC6_AON_SECURE_SCRATCH_GROUP_05_0_GFW_BOOT => NV_PGC6_AON_SECURE_SCRATCH_GROUP_05[0], + "Scratch group 05 register 0 used as GFW boot progress indicator" { + 7:0 progress as u8, "Progress of GFW boot (0xff means completed)"; + } +); + +impl NV_PGC6_AON_SECURE_SCRATCH_GROUP_05_0_GFW_BOOT { + /// Returns `true` if GFW boot is completed. + pub(crate) fn completed(self) -> bool { + self.progress() == 0xff + } +} + +register!(NV_PGC6_AON_SECURE_SCRATCH_GROUP_42 @ 0x001183a4 { + 31:0 value as u32; +}); + +register!( + NV_USABLE_FB_SIZE_IN_MB => NV_PGC6_AON_SECURE_SCRATCH_GROUP_42, + "Scratch group 42 register used as framebuffer size" { + 31:0 value as u32, "Usable framebuffer size, in megabytes"; + } +); + +impl NV_USABLE_FB_SIZE_IN_MB { + /// Returns the usable framebuffer size, in bytes. + pub(crate) fn usable_fb_size(self) -> u64 { + u64::from(self.value()) * u64::from_safe_cast(kernel::sizes::SZ_1M) + } +} + +// PDISP + +register!(NV_PDISP_VGA_WORKSPACE_BASE @ 0x00625f04 { + 3:3 status_valid as bool, "Set if the `addr` field is valid"; + 31:8 addr as u32, "VGA workspace base address divided by 0x10000"; +}); + +impl NV_PDISP_VGA_WORKSPACE_BASE { + /// Returns the base address of the VGA workspace, or `None` if none exists. + pub(crate) fn vga_workspace_addr(self) -> Option<u64> { + if self.status_valid() { + Some(u64::from(self.addr()) << 16) + } else { + None + } + } +} + +// FUSE + +pub(crate) const NV_FUSE_OPT_FPF_SIZE: usize = 16; + +register!(NV_FUSE_OPT_FPF_NVDEC_UCODE1_VERSION @ 0x00824100[NV_FUSE_OPT_FPF_SIZE] { + 15:0 data as u16; +}); + +register!(NV_FUSE_OPT_FPF_SEC2_UCODE1_VERSION @ 0x00824140[NV_FUSE_OPT_FPF_SIZE] { + 15:0 data as u16; +}); + +register!(NV_FUSE_OPT_FPF_GSP_UCODE1_VERSION @ 0x008241c0[NV_FUSE_OPT_FPF_SIZE] { + 15:0 data as u16; +}); + +// PFALCON + +register!(NV_PFALCON_FALCON_IRQSCLR @ PFalconBase[0x00000004] { + 4:4 halt as bool; + 6:6 swgen0 as bool; +}); + +register!(NV_PFALCON_FALCON_MAILBOX0 @ PFalconBase[0x00000040] { + 31:0 value as u32; +}); + +register!(NV_PFALCON_FALCON_MAILBOX1 @ PFalconBase[0x00000044] { + 31:0 value as u32; +}); + +// Used to store version information about the firmware running +// on the Falcon processor. +register!(NV_PFALCON_FALCON_OS @ PFalconBase[0x00000080] { + 31:0 value as u32; +}); + +register!(NV_PFALCON_FALCON_RM @ PFalconBase[0x00000084] { + 31:0 value as u32; +}); + +register!(NV_PFALCON_FALCON_HWCFG2 @ PFalconBase[0x000000f4] { + 10:10 riscv as bool; + 12:12 mem_scrubbing as bool, "Set to 0 after memory scrubbing is completed"; + 31:31 reset_ready as bool, "Signal indicating that reset is completed (GA102+)"; +}); + +impl NV_PFALCON_FALCON_HWCFG2 { + /// Returns `true` if memory scrubbing is completed. + pub(crate) fn mem_scrubbing_done(self) -> bool { + !self.mem_scrubbing() + } +} + +register!(NV_PFALCON_FALCON_CPUCTL @ PFalconBase[0x00000100] { + 1:1 startcpu as bool; + 4:4 halted as bool; + 6:6 alias_en as bool; +}); + +register!(NV_PFALCON_FALCON_BOOTVEC @ PFalconBase[0x00000104] { + 31:0 value as u32; +}); + +register!(NV_PFALCON_FALCON_DMACTL @ PFalconBase[0x0000010c] { + 0:0 require_ctx as bool; + 1:1 dmem_scrubbing as bool; + 2:2 imem_scrubbing as bool; + 6:3 dmaq_num as u8; + 7:7 secure_stat as bool; +}); + +register!(NV_PFALCON_FALCON_DMATRFBASE @ PFalconBase[0x00000110] { + 31:0 base as u32; +}); + +register!(NV_PFALCON_FALCON_DMATRFMOFFS @ PFalconBase[0x00000114] { + 23:0 offs as u32; +}); + +register!(NV_PFALCON_FALCON_DMATRFCMD @ PFalconBase[0x00000118] { + 0:0 full as bool; + 1:1 idle as bool; + 3:2 sec as u8; + 4:4 imem as bool; + 5:5 is_write as bool; + 10:8 size as u8 ?=> DmaTrfCmdSize; + 14:12 ctxdma as u8; + 16:16 set_dmtag as u8; +}); + +register!(NV_PFALCON_FALCON_DMATRFFBOFFS @ PFalconBase[0x0000011c] { + 31:0 offs as u32; +}); + +register!(NV_PFALCON_FALCON_DMATRFBASE1 @ PFalconBase[0x00000128] { + 8:0 base as u16; +}); + +register!(NV_PFALCON_FALCON_HWCFG1 @ PFalconBase[0x0000012c] { + 3:0 core_rev as u8 ?=> FalconCoreRev, "Core revision"; + 5:4 security_model as u8 ?=> FalconSecurityModel, "Security model"; + 7:6 core_rev_subversion as u8 ?=> FalconCoreRevSubversion, "Core revision subversion"; +}); + +register!(NV_PFALCON_FALCON_CPUCTL_ALIAS @ PFalconBase[0x00000130] { + 1:1 startcpu as bool; +}); + +// Actually known as `NV_PSEC_FALCON_ENGINE` and `NV_PGSP_FALCON_ENGINE` depending on the falcon +// instance. +register!(NV_PFALCON_FALCON_ENGINE @ PFalconBase[0x000003c0] { + 0:0 reset as bool; +}); + +register!(NV_PFALCON_FBIF_TRANSCFG @ PFalconBase[0x00000600[8]] { + 1:0 target as u8 ?=> FalconFbifTarget; + 2:2 mem_type as bool => FalconFbifMemType; +}); + +register!(NV_PFALCON_FBIF_CTL @ PFalconBase[0x00000624] { + 7:7 allow_phys_no_ctx as bool; +}); + +/* PFALCON2 */ + +register!(NV_PFALCON2_FALCON_MOD_SEL @ PFalcon2Base[0x00000180] { + 7:0 algo as u8 ?=> FalconModSelAlgo; +}); + +register!(NV_PFALCON2_FALCON_BROM_CURR_UCODE_ID @ PFalcon2Base[0x00000198] { + 7:0 ucode_id as u8; +}); + +register!(NV_PFALCON2_FALCON_BROM_ENGIDMASK @ PFalcon2Base[0x0000019c] { + 31:0 value as u32; +}); + +// OpenRM defines this as a register array, but doesn't specify its size and only uses its first +// element. Be conservative until we know the actual size or need to use more registers. +register!(NV_PFALCON2_FALCON_BROM_PARAADDR @ PFalcon2Base[0x00000210[1]] { + 31:0 value as u32; +}); + +// PRISCV + +register!(NV_PRISCV_RISCV_CPUCTL @ PFalcon2Base[0x00000388] { + 0:0 halted as bool; + 7:7 active_stat as bool; +}); + +register!(NV_PRISCV_RISCV_BCR_CTRL @ PFalcon2Base[0x00000668] { + 0:0 valid as bool; + 4:4 core_select as bool => PeregrineCoreSelect; + 8:8 br_fetch as bool; +}); + +// The modules below provide registers that are not identical on all supported chips. They should +// only be used in HAL modules. + +pub(crate) mod gm107 { + // FUSE + + register!(NV_FUSE_STATUS_OPT_DISPLAY @ 0x00021c04 { + 0:0 display_disabled as bool; + }); +} + +pub(crate) mod ga100 { + // FUSE + + register!(NV_FUSE_STATUS_OPT_DISPLAY @ 0x00820c04 { + 0:0 display_disabled as bool; + }); +} |