101e04c3fSmrg/* 201e04c3fSmrg * Copyright 2013-2017 Advanced Micro Devices, Inc. 301e04c3fSmrg * All Rights Reserved. 401e04c3fSmrg * 501e04c3fSmrg * Permission is hereby granted, free of charge, to any person obtaining a 601e04c3fSmrg * copy of this software and associated documentation files (the "Software"), 701e04c3fSmrg * to deal in the Software without restriction, including without limitation 801e04c3fSmrg * the rights to use, copy, modify, merge, publish, distribute, sublicense, 901e04c3fSmrg * and/or sell copies of the Software, and to permit persons to whom the 1001e04c3fSmrg * Software is furnished to do so, subject to the following conditions: 1101e04c3fSmrg * 1201e04c3fSmrg * The above copyright notice and this permission notice (including the next 1301e04c3fSmrg * paragraph) shall be included in all copies or substantial portions of the 1401e04c3fSmrg * Software. 1501e04c3fSmrg * 1601e04c3fSmrg * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 1701e04c3fSmrg * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 1801e04c3fSmrg * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL 1901e04c3fSmrg * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 2001e04c3fSmrg * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, 2101e04c3fSmrg * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE 2201e04c3fSmrg * SOFTWARE. 2301e04c3fSmrg * 2401e04c3fSmrg */ 2501e04c3fSmrg 267ec681f3Smrg#include "si_build_pm4.h" 2701e04c3fSmrg#include "util/os_time.h" 2801e04c3fSmrg#include "util/u_memory.h" 2901e04c3fSmrg#include "util/u_queue.h" 3001e04c3fSmrg#include "util/u_upload_mgr.h" 3101e04c3fSmrg 327ec681f3Smrg#include <libsync.h> 3301e04c3fSmrg 3401e04c3fSmrgstruct si_fine_fence { 357ec681f3Smrg struct si_resource *buf; 367ec681f3Smrg unsigned offset; 3701e04c3fSmrg}; 3801e04c3fSmrg 397ec681f3Smrgstruct si_fence { 407ec681f3Smrg struct pipe_reference reference; 417ec681f3Smrg struct pipe_fence_handle *gfx; 427ec681f3Smrg struct tc_unflushed_batch_token *tc_token; 437ec681f3Smrg struct util_queue_fence ready; 4401e04c3fSmrg 457ec681f3Smrg /* If the context wasn't flushed at fence creation, this is non-NULL. */ 467ec681f3Smrg struct { 477ec681f3Smrg struct si_context *ctx; 487ec681f3Smrg unsigned ib_index; 497ec681f3Smrg } gfx_unflushed; 5001e04c3fSmrg 517ec681f3Smrg struct si_fine_fence fine; 5201e04c3fSmrg}; 5301e04c3fSmrg 5401e04c3fSmrg/** 5501e04c3fSmrg * Write an EOP event. 5601e04c3fSmrg * 5701e04c3fSmrg * \param event EVENT_TYPE_* 5801e04c3fSmrg * \param event_flags Optional cache flush flags (TC) 5901e04c3fSmrg * \param dst_sel MEM or TC_L2 6001e04c3fSmrg * \param int_sel NONE or SEND_DATA_AFTER_WR_CONFIRM 6101e04c3fSmrg * \param data_sel DISCARD, VALUE_32BIT, TIMESTAMP, or GDS 6201e04c3fSmrg * \param buf Buffer 6301e04c3fSmrg * \param va GPU address 6401e04c3fSmrg * \param old_value Previous fence value (for a bug workaround) 6501e04c3fSmrg * \param new_value Fence value to write for this event. 6601e04c3fSmrg */ 677ec681f3Smrgvoid si_cp_release_mem(struct si_context *ctx, struct radeon_cmdbuf *cs, unsigned event, 687ec681f3Smrg unsigned event_flags, unsigned dst_sel, unsigned int_sel, unsigned data_sel, 697ec681f3Smrg struct si_resource *buf, uint64_t va, uint32_t new_fence, 707ec681f3Smrg unsigned query_type) 7101e04c3fSmrg{ 727ec681f3Smrg unsigned op = EVENT_TYPE(event) | 737ec681f3Smrg EVENT_INDEX(event == V_028A90_CS_DONE || event == V_028A90_PS_DONE ? 6 : 5) | 747ec681f3Smrg event_flags; 757ec681f3Smrg unsigned sel = EOP_DST_SEL(dst_sel) | EOP_INT_SEL(int_sel) | EOP_DATA_SEL(data_sel); 767ec681f3Smrg bool compute_ib = !ctx->has_graphics; 777ec681f3Smrg 787ec681f3Smrg radeon_begin(cs); 797ec681f3Smrg 807ec681f3Smrg if (ctx->chip_class >= GFX9 || (compute_ib && ctx->chip_class >= GFX7)) { 817ec681f3Smrg /* A ZPASS_DONE or PIXEL_STAT_DUMP_EVENT (of the DB occlusion 827ec681f3Smrg * counters) must immediately precede every timestamp event to 837ec681f3Smrg * prevent a GPU hang on GFX9. 847ec681f3Smrg * 857ec681f3Smrg * Occlusion queries don't need to do it here, because they 867ec681f3Smrg * always do ZPASS_DONE before the timestamp. 877ec681f3Smrg */ 887ec681f3Smrg if (ctx->chip_class == GFX9 && !compute_ib && query_type != PIPE_QUERY_OCCLUSION_COUNTER && 897ec681f3Smrg query_type != PIPE_QUERY_OCCLUSION_PREDICATE && 907ec681f3Smrg query_type != PIPE_QUERY_OCCLUSION_PREDICATE_CONSERVATIVE) { 917ec681f3Smrg struct si_resource *scratch = unlikely(ctx->ws->cs_is_secure(&ctx->gfx_cs)) ? 927ec681f3Smrg ctx->eop_bug_scratch_tmz : ctx->eop_bug_scratch; 937ec681f3Smrg 947ec681f3Smrg assert(16 * ctx->screen->info.max_render_backends <= scratch->b.b.width0); 957ec681f3Smrg radeon_emit(PKT3(PKT3_EVENT_WRITE, 2, 0)); 967ec681f3Smrg radeon_emit(EVENT_TYPE(EVENT_TYPE_ZPASS_DONE) | EVENT_INDEX(1)); 977ec681f3Smrg radeon_emit(scratch->gpu_address); 987ec681f3Smrg radeon_emit(scratch->gpu_address >> 32); 997ec681f3Smrg 1007ec681f3Smrg radeon_add_to_buffer_list(ctx, &ctx->gfx_cs, scratch, RADEON_USAGE_WRITE, 1017ec681f3Smrg RADEON_PRIO_QUERY); 1027ec681f3Smrg } 1037ec681f3Smrg 1047ec681f3Smrg radeon_emit(PKT3(PKT3_RELEASE_MEM, ctx->chip_class >= GFX9 ? 6 : 5, 0)); 1057ec681f3Smrg radeon_emit(op); 1067ec681f3Smrg radeon_emit(sel); 1077ec681f3Smrg radeon_emit(va); /* address lo */ 1087ec681f3Smrg radeon_emit(va >> 32); /* address hi */ 1097ec681f3Smrg radeon_emit(new_fence); /* immediate data lo */ 1107ec681f3Smrg radeon_emit(0); /* immediate data hi */ 1117ec681f3Smrg if (ctx->chip_class >= GFX9) 1127ec681f3Smrg radeon_emit(0); /* unused */ 1137ec681f3Smrg } else { 1147ec681f3Smrg if (ctx->chip_class == GFX7 || ctx->chip_class == GFX8) { 1157ec681f3Smrg struct si_resource *scratch = ctx->eop_bug_scratch; 1167ec681f3Smrg uint64_t va = scratch->gpu_address; 1177ec681f3Smrg 1187ec681f3Smrg /* Two EOP events are required to make all engines go idle 1197ec681f3Smrg * (and optional cache flushes executed) before the timestamp 1207ec681f3Smrg * is written. 1217ec681f3Smrg */ 1227ec681f3Smrg radeon_emit(PKT3(PKT3_EVENT_WRITE_EOP, 4, 0)); 1237ec681f3Smrg radeon_emit(op); 1247ec681f3Smrg radeon_emit(va); 1257ec681f3Smrg radeon_emit(((va >> 32) & 0xffff) | sel); 1267ec681f3Smrg radeon_emit(0); /* immediate data */ 1277ec681f3Smrg radeon_emit(0); /* unused */ 1287ec681f3Smrg 1297ec681f3Smrg radeon_add_to_buffer_list(ctx, &ctx->gfx_cs, scratch, RADEON_USAGE_WRITE, 1307ec681f3Smrg RADEON_PRIO_QUERY); 1317ec681f3Smrg } 1327ec681f3Smrg 1337ec681f3Smrg radeon_emit(PKT3(PKT3_EVENT_WRITE_EOP, 4, 0)); 1347ec681f3Smrg radeon_emit(op); 1357ec681f3Smrg radeon_emit(va); 1367ec681f3Smrg radeon_emit(((va >> 32) & 0xffff) | sel); 1377ec681f3Smrg radeon_emit(new_fence); /* immediate data */ 1387ec681f3Smrg radeon_emit(0); /* unused */ 1397ec681f3Smrg } 1407ec681f3Smrg 1417ec681f3Smrg radeon_end(); 1427ec681f3Smrg 1437ec681f3Smrg if (buf) { 1447ec681f3Smrg radeon_add_to_buffer_list(ctx, &ctx->gfx_cs, buf, RADEON_USAGE_WRITE, RADEON_PRIO_QUERY); 1457ec681f3Smrg } 14601e04c3fSmrg} 14701e04c3fSmrg 14801e04c3fSmrgunsigned si_cp_write_fence_dwords(struct si_screen *screen) 14901e04c3fSmrg{ 1507ec681f3Smrg unsigned dwords = 6; 15101e04c3fSmrg 1527ec681f3Smrg if (screen->info.chip_class == GFX7 || screen->info.chip_class == GFX8) 1537ec681f3Smrg dwords *= 2; 15401e04c3fSmrg 1557ec681f3Smrg return dwords; 15601e04c3fSmrg} 15701e04c3fSmrg 1587ec681f3Smrgvoid si_cp_wait_mem(struct si_context *ctx, struct radeon_cmdbuf *cs, uint64_t va, uint32_t ref, 1597ec681f3Smrg uint32_t mask, unsigned flags) 16001e04c3fSmrg{ 1617ec681f3Smrg radeon_begin(cs); 1627ec681f3Smrg radeon_emit(PKT3(PKT3_WAIT_REG_MEM, 5, 0)); 1637ec681f3Smrg radeon_emit(WAIT_REG_MEM_MEM_SPACE(1) | flags); 1647ec681f3Smrg radeon_emit(va); 1657ec681f3Smrg radeon_emit(va >> 32); 1667ec681f3Smrg radeon_emit(ref); /* reference value */ 1677ec681f3Smrg radeon_emit(mask); /* mask */ 1687ec681f3Smrg radeon_emit(4); /* poll interval */ 1697ec681f3Smrg radeon_end(); 17001e04c3fSmrg} 17101e04c3fSmrg 1727ec681f3Smrgstatic void si_add_fence_dependency(struct si_context *sctx, struct pipe_fence_handle *fence) 17301e04c3fSmrg{ 1747ec681f3Smrg struct radeon_winsys *ws = sctx->ws; 17501e04c3fSmrg 1767ec681f3Smrg ws->cs_add_fence_dependency(&sctx->gfx_cs, fence, 0); 17701e04c3fSmrg} 17801e04c3fSmrg 1797ec681f3Smrgstatic void si_add_syncobj_signal(struct si_context *sctx, struct pipe_fence_handle *fence) 18001e04c3fSmrg{ 1817ec681f3Smrg sctx->ws->cs_add_syncobj_signal(&sctx->gfx_cs, fence); 18201e04c3fSmrg} 18301e04c3fSmrg 1847ec681f3Smrgstatic void si_fence_reference(struct pipe_screen *screen, struct pipe_fence_handle **dst, 1857ec681f3Smrg struct pipe_fence_handle *src) 18601e04c3fSmrg{ 1877ec681f3Smrg struct radeon_winsys *ws = ((struct si_screen *)screen)->ws; 1887ec681f3Smrg struct si_fence **sdst = (struct si_fence **)dst; 1897ec681f3Smrg struct si_fence *ssrc = (struct si_fence *)src; 1907ec681f3Smrg 1917ec681f3Smrg if (pipe_reference(&(*sdst)->reference, &ssrc->reference)) { 1927ec681f3Smrg ws->fence_reference(&(*sdst)->gfx, NULL); 1937ec681f3Smrg tc_unflushed_batch_token_reference(&(*sdst)->tc_token, NULL); 1947ec681f3Smrg si_resource_reference(&(*sdst)->fine.buf, NULL); 1957ec681f3Smrg FREE(*sdst); 1967ec681f3Smrg } 1977ec681f3Smrg *sdst = ssrc; 19801e04c3fSmrg} 19901e04c3fSmrg 2007ec681f3Smrgstatic struct si_fence *si_create_multi_fence() 20101e04c3fSmrg{ 2027ec681f3Smrg struct si_fence *fence = CALLOC_STRUCT(si_fence); 2037ec681f3Smrg if (!fence) 2047ec681f3Smrg return NULL; 20501e04c3fSmrg 2067ec681f3Smrg pipe_reference_init(&fence->reference, 1); 2077ec681f3Smrg util_queue_fence_init(&fence->ready); 20801e04c3fSmrg 2097ec681f3Smrg return fence; 21001e04c3fSmrg} 21101e04c3fSmrg 21201e04c3fSmrgstruct pipe_fence_handle *si_create_fence(struct pipe_context *ctx, 2137ec681f3Smrg struct tc_unflushed_batch_token *tc_token) 21401e04c3fSmrg{ 2157ec681f3Smrg struct si_fence *fence = si_create_multi_fence(); 2167ec681f3Smrg if (!fence) 2177ec681f3Smrg return NULL; 21801e04c3fSmrg 2197ec681f3Smrg util_queue_fence_reset(&fence->ready); 2207ec681f3Smrg tc_unflushed_batch_token_reference(&fence->tc_token, tc_token); 22101e04c3fSmrg 2227ec681f3Smrg return (struct pipe_fence_handle *)fence; 22301e04c3fSmrg} 22401e04c3fSmrg 2257ec681f3Smrgstatic bool si_fine_fence_signaled(struct radeon_winsys *rws, const struct si_fine_fence *fine) 22601e04c3fSmrg{ 2277ec681f3Smrg char *map = 2287ec681f3Smrg rws->buffer_map(rws, fine->buf->buf, NULL, PIPE_MAP_READ | PIPE_MAP_UNSYNCHRONIZED); 2297ec681f3Smrg if (!map) 2307ec681f3Smrg return false; 23101e04c3fSmrg 2327ec681f3Smrg uint32_t *fence = (uint32_t *)(map + fine->offset); 2337ec681f3Smrg return *fence != 0; 23401e04c3fSmrg} 23501e04c3fSmrg 2367ec681f3Smrgstatic void si_fine_fence_set(struct si_context *ctx, struct si_fine_fence *fine, unsigned flags) 23701e04c3fSmrg{ 2387ec681f3Smrg uint32_t *fence_ptr; 2397ec681f3Smrg 2407ec681f3Smrg assert(util_bitcount(flags & (PIPE_FLUSH_TOP_OF_PIPE | PIPE_FLUSH_BOTTOM_OF_PIPE)) == 1); 2417ec681f3Smrg 2427ec681f3Smrg /* Use cached system memory for the fence. */ 2437ec681f3Smrg u_upload_alloc(ctx->cached_gtt_allocator, 0, 4, 4, &fine->offset, 2447ec681f3Smrg (struct pipe_resource **)&fine->buf, (void **)&fence_ptr); 2457ec681f3Smrg if (!fine->buf) 2467ec681f3Smrg return; 2477ec681f3Smrg 2487ec681f3Smrg *fence_ptr = 0; 2497ec681f3Smrg 2507ec681f3Smrg if (flags & PIPE_FLUSH_TOP_OF_PIPE) { 2517ec681f3Smrg uint32_t value = 0x80000000; 2527ec681f3Smrg 2537ec681f3Smrg si_cp_write_data(ctx, fine->buf, fine->offset, 4, V_370_MEM, V_370_PFP, &value); 2547ec681f3Smrg } else if (flags & PIPE_FLUSH_BOTTOM_OF_PIPE) { 2557ec681f3Smrg uint64_t fence_va = fine->buf->gpu_address + fine->offset; 2567ec681f3Smrg 2577ec681f3Smrg radeon_add_to_buffer_list(ctx, &ctx->gfx_cs, fine->buf, RADEON_USAGE_WRITE, RADEON_PRIO_QUERY); 2587ec681f3Smrg si_cp_release_mem(ctx, &ctx->gfx_cs, V_028A90_BOTTOM_OF_PIPE_TS, 0, EOP_DST_SEL_MEM, 2597ec681f3Smrg EOP_INT_SEL_NONE, EOP_DATA_SEL_VALUE_32BIT, NULL, fence_va, 0x80000000, 2607ec681f3Smrg PIPE_QUERY_GPU_FINISHED); 2617ec681f3Smrg } else { 2627ec681f3Smrg assert(false); 2637ec681f3Smrg } 26401e04c3fSmrg} 26501e04c3fSmrg 2667ec681f3Smrgstatic bool si_fence_finish(struct pipe_screen *screen, struct pipe_context *ctx, 2677ec681f3Smrg struct pipe_fence_handle *fence, uint64_t timeout) 26801e04c3fSmrg{ 2697ec681f3Smrg struct radeon_winsys *rws = ((struct si_screen *)screen)->ws; 2707ec681f3Smrg struct si_fence *sfence = (struct si_fence *)fence; 2717ec681f3Smrg struct si_context *sctx; 2727ec681f3Smrg int64_t abs_timeout = os_time_get_absolute_timeout(timeout); 2737ec681f3Smrg 2747ec681f3Smrg ctx = threaded_context_unwrap_sync(ctx); 2757ec681f3Smrg sctx = (struct si_context *)(ctx ? ctx : NULL); 2767ec681f3Smrg 2777ec681f3Smrg if (!util_queue_fence_is_signalled(&sfence->ready)) { 2787ec681f3Smrg if (sfence->tc_token) { 2797ec681f3Smrg /* Ensure that si_flush_from_st will be called for 2807ec681f3Smrg * this fence, but only if we're in the API thread 2817ec681f3Smrg * where the context is current. 2827ec681f3Smrg * 2837ec681f3Smrg * Note that the batch containing the flush may already 2847ec681f3Smrg * be in flight in the driver thread, so the fence 2857ec681f3Smrg * may not be ready yet when this call returns. 2867ec681f3Smrg */ 2877ec681f3Smrg threaded_context_flush(ctx, sfence->tc_token, timeout == 0); 2887ec681f3Smrg } 2897ec681f3Smrg 2907ec681f3Smrg if (!timeout) 2917ec681f3Smrg return false; 2927ec681f3Smrg 2937ec681f3Smrg if (timeout == PIPE_TIMEOUT_INFINITE) { 2947ec681f3Smrg util_queue_fence_wait(&sfence->ready); 2957ec681f3Smrg } else { 2967ec681f3Smrg if (!util_queue_fence_wait_timeout(&sfence->ready, abs_timeout)) 2977ec681f3Smrg return false; 2987ec681f3Smrg } 2997ec681f3Smrg 3007ec681f3Smrg if (timeout && timeout != PIPE_TIMEOUT_INFINITE) { 3017ec681f3Smrg int64_t time = os_time_get_nano(); 3027ec681f3Smrg timeout = abs_timeout > time ? abs_timeout - time : 0; 3037ec681f3Smrg } 3047ec681f3Smrg } 3057ec681f3Smrg 3067ec681f3Smrg if (!sfence->gfx) 3077ec681f3Smrg return true; 3087ec681f3Smrg 3097ec681f3Smrg if (sfence->fine.buf && si_fine_fence_signaled(rws, &sfence->fine)) { 3107ec681f3Smrg rws->fence_reference(&sfence->gfx, NULL); 3117ec681f3Smrg si_resource_reference(&sfence->fine.buf, NULL); 3127ec681f3Smrg return true; 3137ec681f3Smrg } 3147ec681f3Smrg 3157ec681f3Smrg /* Flush the gfx IB if it hasn't been flushed yet. */ 3167ec681f3Smrg if (sctx && sfence->gfx_unflushed.ctx == sctx && 3177ec681f3Smrg sfence->gfx_unflushed.ib_index == sctx->num_gfx_cs_flushes) { 3187ec681f3Smrg /* Section 4.1.2 (Signaling) of the OpenGL 4.6 (Core profile) 3197ec681f3Smrg * spec says: 3207ec681f3Smrg * 3217ec681f3Smrg * "If the sync object being blocked upon will not be 3227ec681f3Smrg * signaled in finite time (for example, by an associated 3237ec681f3Smrg * fence command issued previously, but not yet flushed to 3247ec681f3Smrg * the graphics pipeline), then ClientWaitSync may hang 3257ec681f3Smrg * forever. To help prevent this behavior, if 3267ec681f3Smrg * ClientWaitSync is called and all of the following are 3277ec681f3Smrg * true: 3287ec681f3Smrg * 3297ec681f3Smrg * * the SYNC_FLUSH_COMMANDS_BIT bit is set in flags, 3307ec681f3Smrg * * sync is unsignaled when ClientWaitSync is called, 3317ec681f3Smrg * * and the calls to ClientWaitSync and FenceSync were 3327ec681f3Smrg * issued from the same context, 3337ec681f3Smrg * 3347ec681f3Smrg * then the GL will behave as if the equivalent of Flush 3357ec681f3Smrg * were inserted immediately after the creation of sync." 3367ec681f3Smrg * 3377ec681f3Smrg * This means we need to flush for such fences even when we're 3387ec681f3Smrg * not going to wait. 3397ec681f3Smrg */ 3407ec681f3Smrg si_flush_gfx_cs(sctx, (timeout ? 0 : PIPE_FLUSH_ASYNC) | RADEON_FLUSH_START_NEXT_GFX_IB_NOW, 3417ec681f3Smrg NULL); 3427ec681f3Smrg sfence->gfx_unflushed.ctx = NULL; 3437ec681f3Smrg 3447ec681f3Smrg if (!timeout) 3457ec681f3Smrg return false; 3467ec681f3Smrg 3477ec681f3Smrg /* Recompute the timeout after all that. */ 3487ec681f3Smrg if (timeout && timeout != PIPE_TIMEOUT_INFINITE) { 3497ec681f3Smrg int64_t time = os_time_get_nano(); 3507ec681f3Smrg timeout = abs_timeout > time ? abs_timeout - time : 0; 3517ec681f3Smrg } 3527ec681f3Smrg } 3537ec681f3Smrg 3547ec681f3Smrg if (rws->fence_wait(rws, sfence->gfx, timeout)) 3557ec681f3Smrg return true; 3567ec681f3Smrg 3577ec681f3Smrg /* Re-check in case the GPU is slow or hangs, but the commands before 3587ec681f3Smrg * the fine-grained fence have completed. */ 3597ec681f3Smrg if (sfence->fine.buf && si_fine_fence_signaled(rws, &sfence->fine)) 3607ec681f3Smrg return true; 3617ec681f3Smrg 3627ec681f3Smrg return false; 36301e04c3fSmrg} 36401e04c3fSmrg 3657ec681f3Smrgstatic void si_create_fence_fd(struct pipe_context *ctx, struct pipe_fence_handle **pfence, int fd, 3667ec681f3Smrg enum pipe_fd_type type) 36701e04c3fSmrg{ 3687ec681f3Smrg struct si_screen *sscreen = (struct si_screen *)ctx->screen; 3697ec681f3Smrg struct radeon_winsys *ws = sscreen->ws; 3707ec681f3Smrg struct si_fence *sfence; 37101e04c3fSmrg 3727ec681f3Smrg *pfence = NULL; 37301e04c3fSmrg 3747ec681f3Smrg sfence = si_create_multi_fence(); 3757ec681f3Smrg if (!sfence) 3767ec681f3Smrg return; 37701e04c3fSmrg 3787ec681f3Smrg switch (type) { 3797ec681f3Smrg case PIPE_FD_TYPE_NATIVE_SYNC: 3807ec681f3Smrg if (!sscreen->info.has_fence_to_handle) 3817ec681f3Smrg goto finish; 38201e04c3fSmrg 3837ec681f3Smrg sfence->gfx = ws->fence_import_sync_file(ws, fd); 3847ec681f3Smrg break; 38501e04c3fSmrg 3867ec681f3Smrg case PIPE_FD_TYPE_SYNCOBJ: 3877ec681f3Smrg if (!sscreen->info.has_syncobj) 3887ec681f3Smrg goto finish; 38901e04c3fSmrg 3907ec681f3Smrg sfence->gfx = ws->fence_import_syncobj(ws, fd); 3917ec681f3Smrg break; 39201e04c3fSmrg 3937ec681f3Smrg default: 3947ec681f3Smrg unreachable("bad fence fd type when importing"); 3957ec681f3Smrg } 39601e04c3fSmrg 39701e04c3fSmrgfinish: 3987ec681f3Smrg if (!sfence->gfx) { 3997ec681f3Smrg FREE(sfence); 4007ec681f3Smrg return; 4017ec681f3Smrg } 40201e04c3fSmrg 4037ec681f3Smrg *pfence = (struct pipe_fence_handle *)sfence; 40401e04c3fSmrg} 40501e04c3fSmrg 4067ec681f3Smrgstatic int si_fence_get_fd(struct pipe_screen *screen, struct pipe_fence_handle *fence) 40701e04c3fSmrg{ 4087ec681f3Smrg struct si_screen *sscreen = (struct si_screen *)screen; 4097ec681f3Smrg struct radeon_winsys *ws = sscreen->ws; 4107ec681f3Smrg struct si_fence *sfence = (struct si_fence *)fence; 4117ec681f3Smrg int gfx_fd = -1; 4127ec681f3Smrg 4137ec681f3Smrg if (!sscreen->info.has_fence_to_handle) 4147ec681f3Smrg return -1; 4157ec681f3Smrg 4167ec681f3Smrg util_queue_fence_wait(&sfence->ready); 4177ec681f3Smrg 4187ec681f3Smrg /* Deferred fences aren't supported. */ 4197ec681f3Smrg assert(!sfence->gfx_unflushed.ctx); 4207ec681f3Smrg if (sfence->gfx_unflushed.ctx) 4217ec681f3Smrg return -1; 4227ec681f3Smrg 4237ec681f3Smrg if (sfence->gfx) { 4247ec681f3Smrg gfx_fd = ws->fence_export_sync_file(ws, sfence->gfx); 4257ec681f3Smrg if (gfx_fd == -1) { 4267ec681f3Smrg return -1; 4277ec681f3Smrg } 4287ec681f3Smrg } 4297ec681f3Smrg 4307ec681f3Smrg /* If we don't have FDs at this point, it means we don't have fences 4317ec681f3Smrg * either. */ 4327ec681f3Smrg if (gfx_fd == -1) 4337ec681f3Smrg return ws->export_signalled_sync_file(ws); 4347ec681f3Smrg 4357ec681f3Smrg return gfx_fd; 43601e04c3fSmrg} 43701e04c3fSmrg 4387ec681f3Smrgstatic void si_flush_all_queues(struct pipe_context *ctx, 4397ec681f3Smrg struct pipe_fence_handle **fence, 4407ec681f3Smrg unsigned flags, bool force_flush) 44101e04c3fSmrg{ 4427ec681f3Smrg struct pipe_screen *screen = ctx->screen; 4437ec681f3Smrg struct si_context *sctx = (struct si_context *)ctx; 4447ec681f3Smrg struct radeon_winsys *ws = sctx->ws; 4457ec681f3Smrg struct pipe_fence_handle *gfx_fence = NULL; 4467ec681f3Smrg bool deferred_fence = false; 4477ec681f3Smrg struct si_fine_fence fine = {}; 4487ec681f3Smrg unsigned rflags = PIPE_FLUSH_ASYNC; 4497ec681f3Smrg 4507ec681f3Smrg if (!(flags & PIPE_FLUSH_DEFERRED)) { 4517ec681f3Smrg si_flush_implicit_resources(sctx); 4527ec681f3Smrg } 4537ec681f3Smrg 4547ec681f3Smrg if (flags & PIPE_FLUSH_END_OF_FRAME) 4557ec681f3Smrg rflags |= PIPE_FLUSH_END_OF_FRAME; 4567ec681f3Smrg 4577ec681f3Smrg if (flags & (PIPE_FLUSH_TOP_OF_PIPE | PIPE_FLUSH_BOTTOM_OF_PIPE)) { 4587ec681f3Smrg assert(flags & PIPE_FLUSH_DEFERRED); 4597ec681f3Smrg assert(fence); 4607ec681f3Smrg 4617ec681f3Smrg si_fine_fence_set(sctx, &fine, flags); 4627ec681f3Smrg } 4637ec681f3Smrg 4647ec681f3Smrg if (force_flush) { 4657ec681f3Smrg sctx->initial_gfx_cs_size = 0; 4667ec681f3Smrg } 4677ec681f3Smrg 4687ec681f3Smrg if (!radeon_emitted(&sctx->gfx_cs, sctx->initial_gfx_cs_size)) { 4697ec681f3Smrg if (fence) 4707ec681f3Smrg ws->fence_reference(&gfx_fence, sctx->last_gfx_fence); 4717ec681f3Smrg if (!(flags & PIPE_FLUSH_DEFERRED)) 4727ec681f3Smrg ws->cs_sync_flush(&sctx->gfx_cs); 4737ec681f3Smrg 4747ec681f3Smrg tc_driver_internal_flush_notify(sctx->tc); 4757ec681f3Smrg } else { 4767ec681f3Smrg /* Instead of flushing, create a deferred fence. Constraints: 4777ec681f3Smrg * - the gallium frontend must allow a deferred flush. 4787ec681f3Smrg * - the gallium frontend must request a fence. 4797ec681f3Smrg * - fence_get_fd is not allowed. 4807ec681f3Smrg * Thread safety in fence_finish must be ensured by the gallium frontend. 4817ec681f3Smrg */ 4827ec681f3Smrg if (flags & PIPE_FLUSH_DEFERRED && !(flags & PIPE_FLUSH_FENCE_FD) && fence) { 4837ec681f3Smrg gfx_fence = sctx->ws->cs_get_next_fence(&sctx->gfx_cs); 4847ec681f3Smrg deferred_fence = true; 4857ec681f3Smrg } else { 4867ec681f3Smrg si_flush_gfx_cs(sctx, rflags, fence ? &gfx_fence : NULL); 4877ec681f3Smrg } 4887ec681f3Smrg } 4897ec681f3Smrg 4907ec681f3Smrg /* Both engines can signal out of order, so we need to keep both fences. */ 4917ec681f3Smrg if (fence) { 4927ec681f3Smrg struct si_fence *new_fence; 4937ec681f3Smrg 4947ec681f3Smrg if (flags & TC_FLUSH_ASYNC) { 4957ec681f3Smrg new_fence = (struct si_fence *)*fence; 4967ec681f3Smrg assert(new_fence); 4977ec681f3Smrg } else { 4987ec681f3Smrg new_fence = si_create_multi_fence(); 4997ec681f3Smrg if (!new_fence) { 5007ec681f3Smrg ws->fence_reference(&gfx_fence, NULL); 5017ec681f3Smrg goto finish; 5027ec681f3Smrg } 5037ec681f3Smrg 5047ec681f3Smrg screen->fence_reference(screen, fence, NULL); 5057ec681f3Smrg *fence = (struct pipe_fence_handle *)new_fence; 5067ec681f3Smrg } 5077ec681f3Smrg 5087ec681f3Smrg /* If both fences are NULL, fence_finish will always return true. */ 5097ec681f3Smrg new_fence->gfx = gfx_fence; 5107ec681f3Smrg 5117ec681f3Smrg if (deferred_fence) { 5127ec681f3Smrg new_fence->gfx_unflushed.ctx = sctx; 5137ec681f3Smrg new_fence->gfx_unflushed.ib_index = sctx->num_gfx_cs_flushes; 5147ec681f3Smrg } 5157ec681f3Smrg 5167ec681f3Smrg new_fence->fine = fine; 5177ec681f3Smrg fine.buf = NULL; 5187ec681f3Smrg 5197ec681f3Smrg if (flags & TC_FLUSH_ASYNC) { 5207ec681f3Smrg util_queue_fence_signal(&new_fence->ready); 5217ec681f3Smrg tc_unflushed_batch_token_reference(&new_fence->tc_token, NULL); 5227ec681f3Smrg } 5237ec681f3Smrg } 5247ec681f3Smrg assert(!fine.buf); 52501e04c3fSmrgfinish: 5267ec681f3Smrg if (!(flags & (PIPE_FLUSH_DEFERRED | PIPE_FLUSH_ASYNC))) { 5277ec681f3Smrg ws->cs_sync_flush(&sctx->gfx_cs); 5287ec681f3Smrg } 5297ec681f3Smrg} 5307ec681f3Smrg 5317ec681f3Smrgstatic void si_flush_from_st(struct pipe_context *ctx, struct pipe_fence_handle **fence, 5327ec681f3Smrg unsigned flags) 5337ec681f3Smrg{ 5347ec681f3Smrg return si_flush_all_queues(ctx, fence, flags, false); 53501e04c3fSmrg} 53601e04c3fSmrg 5377ec681f3Smrgstatic void si_fence_server_signal(struct pipe_context *ctx, struct pipe_fence_handle *fence) 53801e04c3fSmrg{ 5397ec681f3Smrg struct si_context *sctx = (struct si_context *)ctx; 5407ec681f3Smrg struct si_fence *sfence = (struct si_fence *)fence; 5417ec681f3Smrg 5427ec681f3Smrg assert(sfence->gfx); 5437ec681f3Smrg 5447ec681f3Smrg if (sfence->gfx) 5457ec681f3Smrg si_add_syncobj_signal(sctx, sfence->gfx); 5467ec681f3Smrg 5477ec681f3Smrg /** 5487ec681f3Smrg * The spec does not require a flush here. We insert a flush 5497ec681f3Smrg * because syncobj based signals are not directly placed into 5507ec681f3Smrg * the command stream. Instead the signal happens when the 5517ec681f3Smrg * submission associated with the syncobj finishes execution. 5527ec681f3Smrg * 5537ec681f3Smrg * Therefore, we must make sure that we flush the pipe to avoid 5547ec681f3Smrg * new work being emitted and getting executed before the signal 5557ec681f3Smrg * operation. 5567ec681f3Smrg * 5577ec681f3Smrg * Forces a flush even if the GFX CS is empty. 5587ec681f3Smrg */ 5597ec681f3Smrg si_flush_all_queues(ctx, NULL, PIPE_FLUSH_ASYNC, true); 56001e04c3fSmrg} 56101e04c3fSmrg 5627ec681f3Smrgstatic void si_fence_server_sync(struct pipe_context *ctx, struct pipe_fence_handle *fence) 56301e04c3fSmrg{ 5647ec681f3Smrg struct si_context *sctx = (struct si_context *)ctx; 5657ec681f3Smrg struct si_fence *sfence = (struct si_fence *)fence; 5667ec681f3Smrg 5677ec681f3Smrg util_queue_fence_wait(&sfence->ready); 5687ec681f3Smrg 5697ec681f3Smrg /* Unflushed fences from the same context are no-ops. */ 5707ec681f3Smrg if (sfence->gfx_unflushed.ctx && sfence->gfx_unflushed.ctx == sctx) 5717ec681f3Smrg return; 5727ec681f3Smrg 5737ec681f3Smrg /* All unflushed commands will not start execution before this fence 5747ec681f3Smrg * dependency is signalled. That's fine. Flushing is very expensive 5757ec681f3Smrg * if we get fence_server_sync after every draw call. (which happens 5767ec681f3Smrg * with Android/SurfaceFlinger) 5777ec681f3Smrg * 5787ec681f3Smrg * In a nutshell, when CPU overhead is greater than GPU overhead, 5797ec681f3Smrg * or when the time it takes to execute an IB on the GPU is less than 5807ec681f3Smrg * the time it takes to create and submit that IB, flushing decreases 5817ec681f3Smrg * performance. Therefore, DO NOT FLUSH. 5827ec681f3Smrg */ 5837ec681f3Smrg if (sfence->gfx) 5847ec681f3Smrg si_add_fence_dependency(sctx, sfence->gfx); 58501e04c3fSmrg} 58601e04c3fSmrg 58701e04c3fSmrgvoid si_init_fence_functions(struct si_context *ctx) 58801e04c3fSmrg{ 5897ec681f3Smrg ctx->b.flush = si_flush_from_st; 5907ec681f3Smrg ctx->b.create_fence_fd = si_create_fence_fd; 5917ec681f3Smrg ctx->b.fence_server_sync = si_fence_server_sync; 5927ec681f3Smrg ctx->b.fence_server_signal = si_fence_server_signal; 59301e04c3fSmrg} 59401e04c3fSmrg 59501e04c3fSmrgvoid si_init_screen_fence_functions(struct si_screen *screen) 59601e04c3fSmrg{ 5977ec681f3Smrg screen->b.fence_finish = si_fence_finish; 5987ec681f3Smrg screen->b.fence_reference = si_fence_reference; 5997ec681f3Smrg screen->b.fence_get_fd = si_fence_get_fd; 60001e04c3fSmrg} 601