Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Matthew Brost | 956 | 95.79% | 1 | 11.11% |
Lucas De Marchi | 13 | 1.30% | 3 | 33.33% |
Francois Dugast | 11 | 1.10% | 2 | 22.22% |
Balasubramani Vivekanandan | 9 | 0.90% | 1 | 11.11% |
Rodrigo Vivi | 6 | 0.60% | 1 | 11.11% |
Daniele Ceraolo Spurio | 3 | 0.30% | 1 | 11.11% |
Total | 998 | 9 |
// SPDX-License-Identifier: MIT /* * Copyright © 2022 Intel Corporation */ #include "xe_wopcm.h" #include "regs/xe_guc_regs.h" #include "xe_device.h" #include "xe_force_wake.h" #include "xe_gt.h" #include "xe_mmio.h" #include "xe_uc_fw.h" /** * DOC: Write Once Protected Content Memory (WOPCM) Layout * * The layout of the WOPCM will be fixed after writing to GuC WOPCM size and * offset registers whose values are calculated and determined by HuC/GuC * firmware size and set of hardware requirements/restrictions as shown below: * * :: * * +=========> +====================+ <== WOPCM Top * ^ | HW contexts RSVD | * | +===> +====================+ <== GuC WOPCM Top * | ^ | | * | | | | * | | | | * | GuC | | * | WOPCM | | * | Size +--------------------+ * WOPCM | | GuC FW RSVD | * | | +--------------------+ * | | | GuC Stack RSVD | * | | +------------------- + * | v | GuC WOPCM RSVD | * | +===> +====================+ <== GuC WOPCM base * | | WOPCM RSVD | * | +------------------- + <== HuC Firmware Top * v | HuC FW | * +=========> +====================+ <== WOPCM Base * * GuC accessible WOPCM starts at GuC WOPCM base and ends at GuC WOPCM top. * The top part of the WOPCM is reserved for hardware contexts (e.g. RC6 * context). */ /* Default WOPCM size is 2MB from Gen11, 1MB on previous platforms */ /* FIXME: Larger size require for 2 tile PVC, do a proper probe sooner or later */ #define DGFX_WOPCM_SIZE SZ_4M /* FIXME: Larger size require for MTL, do a proper probe sooner or later */ #define MTL_WOPCM_SIZE SZ_4M #define WOPCM_SIZE SZ_2M #define MAX_WOPCM_SIZE SZ_8M /* 16KB WOPCM (RSVD WOPCM) is reserved from HuC firmware top. */ #define WOPCM_RESERVED_SIZE SZ_16K /* 16KB reserved at the beginning of GuC WOPCM. */ #define GUC_WOPCM_RESERVED SZ_16K /* 8KB from GUC_WOPCM_RESERVED is reserved for GuC stack. */ #define GUC_WOPCM_STACK_RESERVED SZ_8K /* GuC WOPCM Offset value needs to be aligned to 16KB. */ #define GUC_WOPCM_OFFSET_ALIGNMENT (1UL << GUC_WOPCM_OFFSET_SHIFT) /* 36KB WOPCM reserved at the end of WOPCM */ #define WOPCM_HW_CTX_RESERVED (SZ_32K + SZ_4K) static inline struct xe_gt *wopcm_to_gt(struct xe_wopcm *wopcm) { return container_of(wopcm, struct xe_gt, uc.wopcm); } static inline struct xe_device *wopcm_to_xe(struct xe_wopcm *wopcm) { return gt_to_xe(wopcm_to_gt(wopcm)); } static u32 context_reserved_size(void) { return WOPCM_HW_CTX_RESERVED; } static bool __check_layout(struct xe_device *xe, u32 wopcm_size, u32 guc_wopcm_base, u32 guc_wopcm_size, u32 guc_fw_size, u32 huc_fw_size) { const u32 ctx_rsvd = context_reserved_size(); u32 size; size = wopcm_size - ctx_rsvd; if (unlikely(guc_wopcm_base >= size || guc_wopcm_size > size - guc_wopcm_base)) { drm_err(&xe->drm, "WOPCM: invalid GuC region layout: %uK + %uK > %uK\n", guc_wopcm_base / SZ_1K, guc_wopcm_size / SZ_1K, size / SZ_1K); return false; } size = guc_fw_size + GUC_WOPCM_RESERVED + GUC_WOPCM_STACK_RESERVED; if (unlikely(guc_wopcm_size < size)) { drm_err(&xe->drm, "WOPCM: no space for %s: %uK < %uK\n", xe_uc_fw_type_repr(XE_UC_FW_TYPE_GUC), guc_wopcm_size / SZ_1K, size / SZ_1K); return false; } size = huc_fw_size + WOPCM_RESERVED_SIZE; if (unlikely(guc_wopcm_base < size)) { drm_err(&xe->drm, "WOPCM: no space for %s: %uK < %uK\n", xe_uc_fw_type_repr(XE_UC_FW_TYPE_HUC), guc_wopcm_base / SZ_1K, size / SZ_1K); return false; } return true; } static bool __wopcm_regs_locked(struct xe_gt *gt, u32 *guc_wopcm_base, u32 *guc_wopcm_size) { u32 reg_base = xe_mmio_read32(gt, DMA_GUC_WOPCM_OFFSET); u32 reg_size = xe_mmio_read32(gt, GUC_WOPCM_SIZE); if (!(reg_size & GUC_WOPCM_SIZE_LOCKED) || !(reg_base & GUC_WOPCM_OFFSET_VALID)) return false; *guc_wopcm_base = reg_base & GUC_WOPCM_OFFSET_MASK; *guc_wopcm_size = reg_size & GUC_WOPCM_SIZE_MASK; return true; } static int __wopcm_init_regs(struct xe_device *xe, struct xe_gt *gt, struct xe_wopcm *wopcm) { u32 base = wopcm->guc.base; u32 size = wopcm->guc.size; u32 huc_agent = xe_uc_fw_is_available(>->uc.huc.fw) ? HUC_LOADING_AGENT_GUC : 0; u32 mask; int err; XE_WARN_ON(!(base & GUC_WOPCM_OFFSET_MASK)); XE_WARN_ON(base & ~GUC_WOPCM_OFFSET_MASK); XE_WARN_ON(!(size & GUC_WOPCM_SIZE_MASK)); XE_WARN_ON(size & ~GUC_WOPCM_SIZE_MASK); mask = GUC_WOPCM_SIZE_MASK | GUC_WOPCM_SIZE_LOCKED; err = xe_mmio_write32_and_verify(gt, GUC_WOPCM_SIZE, size, mask, size | GUC_WOPCM_SIZE_LOCKED); if (err) goto err_out; mask = GUC_WOPCM_OFFSET_MASK | GUC_WOPCM_OFFSET_VALID | huc_agent; err = xe_mmio_write32_and_verify(gt, DMA_GUC_WOPCM_OFFSET, base | huc_agent, mask, base | huc_agent | GUC_WOPCM_OFFSET_VALID); if (err) goto err_out; return 0; err_out: drm_notice(&xe->drm, "Failed to init uC WOPCM registers!\n"); drm_notice(&xe->drm, "%s(%#x)=%#x\n", "DMA_GUC_WOPCM_OFFSET", DMA_GUC_WOPCM_OFFSET.addr, xe_mmio_read32(gt, DMA_GUC_WOPCM_OFFSET)); drm_notice(&xe->drm, "%s(%#x)=%#x\n", "GUC_WOPCM_SIZE", GUC_WOPCM_SIZE.addr, xe_mmio_read32(gt, GUC_WOPCM_SIZE)); return err; } u32 xe_wopcm_size(struct xe_device *xe) { return IS_DGFX(xe) ? DGFX_WOPCM_SIZE : xe->info.platform == XE_METEORLAKE ? MTL_WOPCM_SIZE : WOPCM_SIZE; } /** * xe_wopcm_init() - Initialize the WOPCM structure. * @wopcm: pointer to xe_wopcm. * * This function will partition WOPCM space based on GuC and HuC firmware sizes * and will allocate max remaining for use by GuC. This function will also * enforce platform dependent hardware restrictions on GuC WOPCM offset and * size. It will fail the WOPCM init if any of these checks fail, so that the * following WOPCM registers setup and GuC firmware uploading would be aborted. */ int xe_wopcm_init(struct xe_wopcm *wopcm) { struct xe_device *xe = wopcm_to_xe(wopcm); struct xe_gt *gt = wopcm_to_gt(wopcm); u32 guc_fw_size = xe_uc_fw_get_upload_size(>->uc.guc.fw); u32 huc_fw_size = xe_uc_fw_get_upload_size(>->uc.huc.fw); u32 ctx_rsvd = context_reserved_size(); u32 guc_wopcm_base; u32 guc_wopcm_size; bool locked; int ret = 0; if (!guc_fw_size) return -EINVAL; wopcm->size = xe_wopcm_size(xe); drm_dbg(&xe->drm, "WOPCM: %uK\n", wopcm->size / SZ_1K); xe_force_wake_assert_held(gt_to_fw(gt), XE_FW_GT); XE_WARN_ON(guc_fw_size >= wopcm->size); XE_WARN_ON(huc_fw_size >= wopcm->size); XE_WARN_ON(ctx_rsvd + WOPCM_RESERVED_SIZE >= wopcm->size); locked = __wopcm_regs_locked(gt, &guc_wopcm_base, &guc_wopcm_size); if (locked) { drm_dbg(&xe->drm, "GuC WOPCM is already locked [%uK, %uK)\n", guc_wopcm_base / SZ_1K, guc_wopcm_size / SZ_1K); /* * When the GuC wopcm base and size are preprogrammed by * BIOS/IFWI, check against the max allowed wopcm size to * validate if the programmed values align to the wopcm layout. */ wopcm->size = MAX_WOPCM_SIZE; goto check; } /* * Aligned value of guc_wopcm_base will determine available WOPCM space * for HuC firmware and mandatory reserved area. */ guc_wopcm_base = huc_fw_size + WOPCM_RESERVED_SIZE; guc_wopcm_base = ALIGN(guc_wopcm_base, GUC_WOPCM_OFFSET_ALIGNMENT); /* * Need to clamp guc_wopcm_base now to make sure the following math is * correct. Formal check of whole WOPCM layout will be done below. */ guc_wopcm_base = min(guc_wopcm_base, wopcm->size - ctx_rsvd); /* Aligned remainings of usable WOPCM space can be assigned to GuC. */ guc_wopcm_size = wopcm->size - ctx_rsvd - guc_wopcm_base; guc_wopcm_size &= GUC_WOPCM_SIZE_MASK; drm_dbg(&xe->drm, "Calculated GuC WOPCM [%uK, %uK)\n", guc_wopcm_base / SZ_1K, guc_wopcm_size / SZ_1K); check: if (__check_layout(xe, wopcm->size, guc_wopcm_base, guc_wopcm_size, guc_fw_size, huc_fw_size)) { wopcm->guc.base = guc_wopcm_base; wopcm->guc.size = guc_wopcm_size; XE_WARN_ON(!wopcm->guc.base); XE_WARN_ON(!wopcm->guc.size); } else { drm_notice(&xe->drm, "Unsuccessful WOPCM partitioning\n"); return -E2BIG; } if (!locked) ret = __wopcm_init_regs(xe, gt, wopcm); return ret; }
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