| // SPDX-License-Identifier: MIT |
| /* |
| * Copyright © 2023 Intel Corporation |
| */ |
| |
| #include <drm/drm_managed.h> |
| |
| #include "regs/xe_gt_regs.h" |
| #include "regs/xe_guc_regs.h" |
| #include "regs/xe_regs.h" |
| |
| #include "xe_assert.h" |
| #include "xe_bo.h" |
| #include "xe_device.h" |
| #include "xe_device_types.h" |
| #include "xe_gt.h" |
| #include "xe_gt_printk.h" |
| #include "xe_guc.h" |
| #include "xe_hw_engine.h" |
| #include "xe_map.h" |
| #include "xe_memirq.h" |
| #include "xe_sriov.h" |
| #include "xe_sriov_printk.h" |
| |
| #define memirq_assert(m, condition) xe_tile_assert(memirq_to_tile(m), condition) |
| #define memirq_debug(m, msg...) xe_sriov_dbg_verbose(memirq_to_xe(m), "MEMIRQ: " msg) |
| |
| static struct xe_tile *memirq_to_tile(struct xe_memirq *memirq) |
| { |
| return container_of(memirq, struct xe_tile, sriov.vf.memirq); |
| } |
| |
| static struct xe_device *memirq_to_xe(struct xe_memirq *memirq) |
| { |
| return tile_to_xe(memirq_to_tile(memirq)); |
| } |
| |
| static const char *guc_name(struct xe_guc *guc) |
| { |
| return xe_gt_is_media_type(guc_to_gt(guc)) ? "media GuC" : "GuC"; |
| } |
| |
| /** |
| * DOC: Memory Based Interrupts |
| * |
| * MMIO register based interrupts infrastructure used for non-virtualized mode |
| * or SRIOV-8 (which supports 8 Virtual Functions) does not scale efficiently |
| * to allow delivering interrupts to a large number of Virtual machines or |
| * containers. Memory based interrupt status reporting provides an efficient |
| * and scalable infrastructure. |
| * |
| * For memory based interrupt status reporting hardware sequence is: |
| * * Engine writes the interrupt event to memory |
| * (Pointer to memory location is provided by SW. This memory surface must |
| * be mapped to system memory and must be marked as un-cacheable (UC) on |
| * Graphics IP Caches) |
| * * Engine triggers an interrupt to host. |
| */ |
| |
| /** |
| * DOC: Memory Based Interrupts Page Layout |
| * |
| * `Memory Based Interrupts`_ requires three different objects, which are |
| * called "page" in the specs, even if they aren't page-sized or aligned. |
| * |
| * To simplify the code we allocate a single page size object and then use |
| * offsets to embedded "pages". The address of those "pages" are then |
| * programmed in the HW via LRI and LRM in the context image. |
| * |
| * - _`Interrupt Status Report Page`: this page contains the interrupt |
| * status vectors for each unit. Each bit in the interrupt vectors is |
| * converted to a byte, with the byte being set to 0xFF when an |
| * interrupt is triggered; interrupt vectors are 16b big so each unit |
| * gets 16B. One space is reserved for each bit in one of the |
| * GT_INTR_DWx registers, so this object needs a total of 1024B. |
| * This object needs to be 4KiB aligned. |
| * |
| * - _`Interrupt Source Report Page`: this is the equivalent of the |
| * GEN11_GT_INTR_DWx registers, with each bit in those registers being |
| * mapped to a byte here. The offsets are the same, just bytes instead |
| * of bits. This object needs to be cacheline aligned. |
| * |
| * - Interrupt Mask: the HW needs a location to fetch the interrupt |
| * mask vector to be used by the LRM in the context, so we just use |
| * the next available space in the interrupt page. |
| * |
| * :: |
| * |
| * 0x0000 +===========+ <== Interrupt Status Report Page |
| * | | |
| * | | ____ +----+----------------+ |
| * | | / | 0 | USER INTERRUPT | |
| * +-----------+ __/ | 1 | | |
| * | HWE(n) | __ | | CTX SWITCH | |
| * +-----------+ \ | | WAIT SEMAPHORE | |
| * | | \____ | 15 | | |
| * | | +----+----------------+ |
| * | | |
| * 0x0400 +===========+ <== Interrupt Source Report Page |
| * | HWE(0) | |
| * | HWE(1) | |
| * | | |
| * | HWE(x) | |
| * 0x0440 +===========+ <== Interrupt Enable Mask |
| * | | |
| * | | |
| * +-----------+ |
| */ |
| |
| static void __release_xe_bo(struct drm_device *drm, void *arg) |
| { |
| struct xe_bo *bo = arg; |
| |
| xe_bo_unpin_map_no_vm(bo); |
| } |
| |
| static int memirq_alloc_pages(struct xe_memirq *memirq) |
| { |
| struct xe_device *xe = memirq_to_xe(memirq); |
| struct xe_tile *tile = memirq_to_tile(memirq); |
| struct xe_bo *bo; |
| int err; |
| |
| BUILD_BUG_ON(!IS_ALIGNED(XE_MEMIRQ_SOURCE_OFFSET, SZ_64)); |
| BUILD_BUG_ON(!IS_ALIGNED(XE_MEMIRQ_STATUS_OFFSET, SZ_4K)); |
| |
| /* XXX: convert to managed bo */ |
| bo = xe_bo_create_pin_map(xe, tile, NULL, SZ_4K, |
| ttm_bo_type_kernel, |
| XE_BO_FLAG_SYSTEM | |
| XE_BO_FLAG_GGTT | |
| XE_BO_FLAG_GGTT_INVALIDATE | |
| XE_BO_FLAG_NEEDS_UC | |
| XE_BO_FLAG_NEEDS_CPU_ACCESS); |
| if (IS_ERR(bo)) { |
| err = PTR_ERR(bo); |
| goto out; |
| } |
| |
| memirq_assert(memirq, !xe_bo_is_vram(bo)); |
| memirq_assert(memirq, !memirq->bo); |
| |
| iosys_map_memset(&bo->vmap, 0, 0, SZ_4K); |
| |
| memirq->bo = bo; |
| memirq->source = IOSYS_MAP_INIT_OFFSET(&bo->vmap, XE_MEMIRQ_SOURCE_OFFSET); |
| memirq->status = IOSYS_MAP_INIT_OFFSET(&bo->vmap, XE_MEMIRQ_STATUS_OFFSET); |
| memirq->mask = IOSYS_MAP_INIT_OFFSET(&bo->vmap, XE_MEMIRQ_ENABLE_OFFSET); |
| |
| memirq_assert(memirq, !memirq->source.is_iomem); |
| memirq_assert(memirq, !memirq->status.is_iomem); |
| memirq_assert(memirq, !memirq->mask.is_iomem); |
| |
| memirq_debug(memirq, "page offsets: source %#x status %#x\n", |
| xe_memirq_source_ptr(memirq), xe_memirq_status_ptr(memirq)); |
| |
| return drmm_add_action_or_reset(&xe->drm, __release_xe_bo, memirq->bo); |
| |
| out: |
| xe_sriov_err(memirq_to_xe(memirq), |
| "Failed to allocate memirq page (%pe)\n", ERR_PTR(err)); |
| return err; |
| } |
| |
| static void memirq_set_enable(struct xe_memirq *memirq, bool enable) |
| { |
| iosys_map_wr(&memirq->mask, 0, u32, enable ? GENMASK(15, 0) : 0); |
| |
| memirq->enabled = enable; |
| } |
| |
| /** |
| * xe_memirq_init - Initialize data used by `Memory Based Interrupts`_. |
| * @memirq: the &xe_memirq to initialize |
| * |
| * Allocate `Interrupt Source Report Page`_ and `Interrupt Status Report Page`_ |
| * used by `Memory Based Interrupts`_. |
| * |
| * These allocations are managed and will be implicitly released on unload. |
| * |
| * Note: This function shall be called only by the VF driver. |
| * |
| * If this function fails then VF driver won't be able to operate correctly. |
| * If `Memory Based Interrupts`_ are not used this function will return 0. |
| * |
| * Return: 0 on success or a negative error code on failure. |
| */ |
| int xe_memirq_init(struct xe_memirq *memirq) |
| { |
| struct xe_device *xe = memirq_to_xe(memirq); |
| int err; |
| |
| memirq_assert(memirq, IS_SRIOV_VF(xe)); |
| |
| if (!xe_device_has_memirq(xe)) |
| return 0; |
| |
| err = memirq_alloc_pages(memirq); |
| if (unlikely(err)) |
| return err; |
| |
| /* we need to start with all irqs enabled */ |
| memirq_set_enable(memirq, true); |
| |
| return 0; |
| } |
| |
| /** |
| * xe_memirq_source_ptr - Get GGTT's offset of the `Interrupt Source Report Page`_. |
| * @memirq: the &xe_memirq to query |
| * |
| * Shall be called only on VF driver when `Memory Based Interrupts`_ are used |
| * and xe_memirq_init() didn't fail. |
| * |
| * Return: GGTT's offset of the `Interrupt Source Report Page`_. |
| */ |
| u32 xe_memirq_source_ptr(struct xe_memirq *memirq) |
| { |
| memirq_assert(memirq, IS_SRIOV_VF(memirq_to_xe(memirq))); |
| memirq_assert(memirq, xe_device_has_memirq(memirq_to_xe(memirq))); |
| memirq_assert(memirq, memirq->bo); |
| |
| return xe_bo_ggtt_addr(memirq->bo) + XE_MEMIRQ_SOURCE_OFFSET; |
| } |
| |
| /** |
| * xe_memirq_status_ptr - Get GGTT's offset of the `Interrupt Status Report Page`_. |
| * @memirq: the &xe_memirq to query |
| * |
| * Shall be called only on VF driver when `Memory Based Interrupts`_ are used |
| * and xe_memirq_init() didn't fail. |
| * |
| * Return: GGTT's offset of the `Interrupt Status Report Page`_. |
| */ |
| u32 xe_memirq_status_ptr(struct xe_memirq *memirq) |
| { |
| memirq_assert(memirq, IS_SRIOV_VF(memirq_to_xe(memirq))); |
| memirq_assert(memirq, xe_device_has_memirq(memirq_to_xe(memirq))); |
| memirq_assert(memirq, memirq->bo); |
| |
| return xe_bo_ggtt_addr(memirq->bo) + XE_MEMIRQ_STATUS_OFFSET; |
| } |
| |
| /** |
| * xe_memirq_enable_ptr - Get GGTT's offset of the Interrupt Enable Mask. |
| * @memirq: the &xe_memirq to query |
| * |
| * Shall be called only on VF driver when `Memory Based Interrupts`_ are used |
| * and xe_memirq_init() didn't fail. |
| * |
| * Return: GGTT's offset of the Interrupt Enable Mask. |
| */ |
| u32 xe_memirq_enable_ptr(struct xe_memirq *memirq) |
| { |
| memirq_assert(memirq, IS_SRIOV_VF(memirq_to_xe(memirq))); |
| memirq_assert(memirq, xe_device_has_memirq(memirq_to_xe(memirq))); |
| memirq_assert(memirq, memirq->bo); |
| |
| return xe_bo_ggtt_addr(memirq->bo) + XE_MEMIRQ_ENABLE_OFFSET; |
| } |
| |
| /** |
| * xe_memirq_init_guc - Prepare GuC for `Memory Based Interrupts`_. |
| * @memirq: the &xe_memirq |
| * @guc: the &xe_guc to setup |
| * |
| * Register `Interrupt Source Report Page`_ and `Interrupt Status Report Page`_ |
| * to be used by the GuC when `Memory Based Interrupts`_ are required. |
| * |
| * Shall be called only on VF driver when `Memory Based Interrupts`_ are used |
| * and xe_memirq_init() didn't fail. |
| * |
| * Return: 0 on success or a negative error code on failure. |
| */ |
| int xe_memirq_init_guc(struct xe_memirq *memirq, struct xe_guc *guc) |
| { |
| bool is_media = xe_gt_is_media_type(guc_to_gt(guc)); |
| u32 offset = is_media ? ilog2(INTR_MGUC) : ilog2(INTR_GUC); |
| u32 source, status; |
| int err; |
| |
| memirq_assert(memirq, IS_SRIOV_VF(memirq_to_xe(memirq))); |
| memirq_assert(memirq, xe_device_has_memirq(memirq_to_xe(memirq))); |
| memirq_assert(memirq, memirq->bo); |
| |
| source = xe_memirq_source_ptr(memirq) + offset; |
| status = xe_memirq_status_ptr(memirq) + offset * SZ_16; |
| |
| err = xe_guc_self_cfg64(guc, GUC_KLV_SELF_CFG_MEMIRQ_SOURCE_ADDR_KEY, |
| source); |
| if (unlikely(err)) |
| goto failed; |
| |
| err = xe_guc_self_cfg64(guc, GUC_KLV_SELF_CFG_MEMIRQ_STATUS_ADDR_KEY, |
| status); |
| if (unlikely(err)) |
| goto failed; |
| |
| return 0; |
| |
| failed: |
| xe_sriov_err(memirq_to_xe(memirq), |
| "Failed to setup report pages in %s (%pe)\n", |
| guc_name(guc), ERR_PTR(err)); |
| return err; |
| } |
| |
| /** |
| * xe_memirq_reset - Disable processing of `Memory Based Interrupts`_. |
| * @memirq: struct xe_memirq |
| * |
| * This is part of the driver IRQ setup flow. |
| * |
| * This function shall only be used by the VF driver on platforms that use |
| * `Memory Based Interrupts`_. |
| */ |
| void xe_memirq_reset(struct xe_memirq *memirq) |
| { |
| memirq_assert(memirq, IS_SRIOV_VF(memirq_to_xe(memirq))); |
| memirq_assert(memirq, xe_device_has_memirq(memirq_to_xe(memirq))); |
| |
| if (memirq->bo) |
| memirq_set_enable(memirq, false); |
| } |
| |
| /** |
| * xe_memirq_postinstall - Enable processing of `Memory Based Interrupts`_. |
| * @memirq: the &xe_memirq |
| * |
| * This is part of the driver IRQ setup flow. |
| * |
| * This function shall only be used by the VF driver on platforms that use |
| * `Memory Based Interrupts`_. |
| */ |
| void xe_memirq_postinstall(struct xe_memirq *memirq) |
| { |
| memirq_assert(memirq, IS_SRIOV_VF(memirq_to_xe(memirq))); |
| memirq_assert(memirq, xe_device_has_memirq(memirq_to_xe(memirq))); |
| |
| if (memirq->bo) |
| memirq_set_enable(memirq, true); |
| } |
| |
| static bool memirq_received(struct xe_memirq *memirq, struct iosys_map *vector, |
| u16 offset, const char *name) |
| { |
| u8 value; |
| |
| value = iosys_map_rd(vector, offset, u8); |
| if (value) { |
| if (value != 0xff) |
| xe_sriov_err_ratelimited(memirq_to_xe(memirq), |
| "Unexpected memirq value %#x from %s at %u\n", |
| value, name, offset); |
| iosys_map_wr(vector, offset, u8, 0x00); |
| } |
| |
| return value; |
| } |
| |
| static void memirq_dispatch_engine(struct xe_memirq *memirq, struct iosys_map *status, |
| struct xe_hw_engine *hwe) |
| { |
| memirq_debug(memirq, "STATUS %s %*ph\n", hwe->name, 16, status->vaddr); |
| |
| if (memirq_received(memirq, status, ilog2(GT_RENDER_USER_INTERRUPT), hwe->name)) |
| xe_hw_engine_handle_irq(hwe, GT_RENDER_USER_INTERRUPT); |
| } |
| |
| static void memirq_dispatch_guc(struct xe_memirq *memirq, struct iosys_map *status, |
| struct xe_guc *guc) |
| { |
| const char *name = guc_name(guc); |
| |
| memirq_debug(memirq, "STATUS %s %*ph\n", name, 16, status->vaddr); |
| |
| if (memirq_received(memirq, status, ilog2(GUC_INTR_GUC2HOST), name)) |
| xe_guc_irq_handler(guc, GUC_INTR_GUC2HOST); |
| } |
| |
| /** |
| * xe_memirq_handler - The `Memory Based Interrupts`_ Handler. |
| * @memirq: the &xe_memirq |
| * |
| * This function reads and dispatches `Memory Based Interrupts`. |
| */ |
| void xe_memirq_handler(struct xe_memirq *memirq) |
| { |
| struct xe_device *xe = memirq_to_xe(memirq); |
| struct xe_tile *tile = memirq_to_tile(memirq); |
| struct xe_hw_engine *hwe; |
| enum xe_hw_engine_id id; |
| struct iosys_map map; |
| unsigned int gtid; |
| struct xe_gt *gt; |
| |
| if (!memirq->bo) |
| return; |
| |
| memirq_assert(memirq, !memirq->source.is_iomem); |
| memirq_debug(memirq, "SOURCE %*ph\n", 32, memirq->source.vaddr); |
| memirq_debug(memirq, "SOURCE %*ph\n", 32, memirq->source.vaddr + 32); |
| |
| for_each_gt(gt, xe, gtid) { |
| if (gt->tile != tile) |
| continue; |
| |
| for_each_hw_engine(hwe, gt, id) { |
| if (memirq_received(memirq, &memirq->source, hwe->irq_offset, "SRC")) { |
| map = IOSYS_MAP_INIT_OFFSET(&memirq->status, |
| hwe->irq_offset * SZ_16); |
| memirq_dispatch_engine(memirq, &map, hwe); |
| } |
| } |
| } |
| |
| /* GuC and media GuC (if present) must be checked separately */ |
| |
| if (memirq_received(memirq, &memirq->source, ilog2(INTR_GUC), "SRC")) { |
| map = IOSYS_MAP_INIT_OFFSET(&memirq->status, ilog2(INTR_GUC) * SZ_16); |
| memirq_dispatch_guc(memirq, &map, &tile->primary_gt->uc.guc); |
| } |
| |
| if (!tile->media_gt) |
| return; |
| |
| if (memirq_received(memirq, &memirq->source, ilog2(INTR_MGUC), "SRC")) { |
| map = IOSYS_MAP_INIT_OFFSET(&memirq->status, ilog2(INTR_MGUC) * SZ_16); |
| memirq_dispatch_guc(memirq, &map, &tile->media_gt->uc.guc); |
| } |
| } |