// SPDX-License-Identifier: MIT /* * Copyright © 2024 Intel Corporation */ #include #include #include "abi/guc_klvs_abi.h" #include "xe_guc_klv_helpers.h" #include "xe_guc_klv_thresholds_set.h" #define make_u64(hi, lo) ((u64)((u64)(u32)(hi) << 32 | (u32)(lo))) /** * xe_guc_klv_key_to_string - Convert KLV key into friendly name. * @key: the `GuC KLV`_ key * * Return: name of the KLV key. */ const char *xe_guc_klv_key_to_string(u16 key) { switch (key) { /* VGT POLICY keys */ case GUC_KLV_VGT_POLICY_SCHED_IF_IDLE_KEY: return "sched_if_idle"; case GUC_KLV_VGT_POLICY_ADVERSE_SAMPLE_PERIOD_KEY: return "sample_period"; case GUC_KLV_VGT_POLICY_RESET_AFTER_VF_SWITCH_KEY: return "reset_engine"; /* VF CFG keys */ case GUC_KLV_VF_CFG_GGTT_START_KEY: return "ggtt_start"; case GUC_KLV_VF_CFG_GGTT_SIZE_KEY: return "ggtt_size"; case GUC_KLV_VF_CFG_LMEM_SIZE_KEY: return "lmem_size"; case GUC_KLV_VF_CFG_NUM_CONTEXTS_KEY: return "num_contexts"; case GUC_KLV_VF_CFG_TILE_MASK_KEY: return "tile_mask"; case GUC_KLV_VF_CFG_NUM_DOORBELLS_KEY: return "num_doorbells"; case GUC_KLV_VF_CFG_EXEC_QUANTUM_KEY: return "exec_quantum"; case GUC_KLV_VF_CFG_PREEMPT_TIMEOUT_KEY: return "preempt_timeout"; case GUC_KLV_VF_CFG_BEGIN_DOORBELL_ID_KEY: return "begin_db_id"; case GUC_KLV_VF_CFG_BEGIN_CONTEXT_ID_KEY: return "begin_ctx_id"; /* VF CFG threshold keys */ #define define_threshold_key_to_string_case(TAG, NAME, ...) \ \ case MAKE_GUC_KLV_VF_CFG_THRESHOLD_KEY(TAG): \ return #NAME; /* private: auto-generated case statements */ MAKE_XE_GUC_KLV_THRESHOLDS_SET(define_threshold_key_to_string_case) #undef define_threshold_key_to_string_case default: return "(unknown)"; } } /** * xe_guc_klv_print - Print content of the buffer with `GuC KLV`_. * @klvs: the buffer with KLVs * @num_dwords: number of dwords (u32) available in the buffer * @p: the &drm_printer * * The buffer may contain more than one KLV. */ void xe_guc_klv_print(const u32 *klvs, u32 num_dwords, struct drm_printer *p) { while (num_dwords >= GUC_KLV_LEN_MIN) { u32 key = FIELD_GET(GUC_KLV_0_KEY, klvs[0]); u32 len = FIELD_GET(GUC_KLV_0_LEN, klvs[0]); klvs += GUC_KLV_LEN_MIN; num_dwords -= GUC_KLV_LEN_MIN; if (num_dwords < len) { drm_printf(p, "{ key %#06x : truncated %zu of %zu bytes %*ph } # %s\n", key, num_dwords * sizeof(u32), len * sizeof(u32), (int)(num_dwords * sizeof(u32)), klvs, xe_guc_klv_key_to_string(key)); return; } switch (len) { case 0: drm_printf(p, "{ key %#06x : no value } # %s\n", key, xe_guc_klv_key_to_string(key)); break; case 1: drm_printf(p, "{ key %#06x : 32b value %u } # %s\n", key, klvs[0], xe_guc_klv_key_to_string(key)); break; case 2: drm_printf(p, "{ key %#06x : 64b value %#llx } # %s\n", key, make_u64(klvs[1], klvs[0]), xe_guc_klv_key_to_string(key)); break; default: drm_printf(p, "{ key %#06x : %zu bytes %*ph } # %s\n", key, len * sizeof(u32), (int)(len * sizeof(u32)), klvs, xe_guc_klv_key_to_string(key)); break; } klvs += len; num_dwords -= len; } /* we don't expect any leftovers, fix if KLV header is ever changed */ BUILD_BUG_ON(GUC_KLV_LEN_MIN > 1); } /** * xe_guc_klv_count - Count KLVs present in the buffer. * @klvs: the buffer with KLVs * @num_dwords: number of dwords (u32) in the buffer * * Return: number of recognized KLVs or * a negative error code if KLV buffer is truncated. */ int xe_guc_klv_count(const u32 *klvs, u32 num_dwords) { int num_klvs = 0; while (num_dwords >= GUC_KLV_LEN_MIN) { u32 len = FIELD_GET(GUC_KLV_0_LEN, klvs[0]); if (num_dwords < len + GUC_KLV_LEN_MIN) break; klvs += GUC_KLV_LEN_MIN + len; num_dwords -= GUC_KLV_LEN_MIN + len; num_klvs++; } return num_dwords ? -ENODATA : num_klvs; }