/* * Copyright © 2009 Corbin Simpson * Copyright © 2011 Marek Olšák * All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining * a copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sub license, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NON-INFRINGEMENT. IN NO EVENT SHALL THE COPYRIGHT HOLDERS, AUTHORS * AND/OR ITS SUPPLIERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, * ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE * USE OR OTHER DEALINGS IN THE SOFTWARE. * * The above copyright notice and this permission notice (including the * next paragraph) shall be included in all copies or substantial portions * of the Software. */ #include "radeon_drm_bo.h" #include "radeon_drm_cs.h" #include "radeon_drm_public.h" #include "util/os_file.h" #include "util/u_cpu_detect.h" #include "util/u_memory.h" #include "util/u_hash_table.h" #include "util/u_pointer.h" #include #include #include #include #include #include #include static struct hash_table *fd_tab = NULL; static mtx_t fd_tab_mutex = _MTX_INITIALIZER_NP; /* Enable/disable feature access for one command stream. * If enable == true, return true on success. * Otherwise, return false. * * We basically do the same thing kernel does, because we have to deal * with multiple contexts (here command streams) backed by one winsys. */ static bool radeon_set_fd_access(struct radeon_drm_cs *applier, struct radeon_drm_cs **owner, mtx_t *mutex, unsigned request, const char *request_name, bool enable) { struct drm_radeon_info info; unsigned value = enable ? 1 : 0; memset(&info, 0, sizeof(info)); mtx_lock(&*mutex); /* Early exit if we are sure the request will fail. */ if (enable) { if (*owner) { mtx_unlock(&*mutex); return false; } } else { if (*owner != applier) { mtx_unlock(&*mutex); return false; } } /* Pass through the request to the kernel. */ info.value = (unsigned long)&value; info.request = request; if (drmCommandWriteRead(applier->ws->fd, DRM_RADEON_INFO, &info, sizeof(info)) != 0) { mtx_unlock(&*mutex); return false; } /* Update the rights in the winsys. */ if (enable) { if (value) { *owner = applier; mtx_unlock(&*mutex); return true; } } else { *owner = NULL; } mtx_unlock(&*mutex); return false; } static bool radeon_get_drm_value(int fd, unsigned request, const char *errname, uint32_t *out) { struct drm_radeon_info info; int retval; memset(&info, 0, sizeof(info)); info.value = (unsigned long)out; info.request = request; retval = drmCommandWriteRead(fd, DRM_RADEON_INFO, &info, sizeof(info)); if (retval) { if (errname) { fprintf(stderr, "radeon: Failed to get %s, error number %d\n", errname, retval); } return false; } return true; } /* Helper function to do the ioctls needed for setup and init. */ static bool do_winsys_init(struct radeon_drm_winsys *ws) { struct drm_radeon_gem_info gem_info; int retval; drmVersionPtr version; memset(&gem_info, 0, sizeof(gem_info)); /* We do things in a specific order here. * * DRM version first. We need to be sure we're running on a KMS chipset. * This is also for some features. * * Then, the PCI ID. This is essential and should return usable numbers * for all Radeons. If this fails, we probably got handed an FD for some * non-Radeon card. * * The GEM info is actually bogus on the kernel side, as well as our side * (see radeon_gem_info_ioctl in radeon_gem.c) but that's alright because * we don't actually use the info for anything yet. * * The GB and Z pipe requests should always succeed, but they might not * return sensical values for all chipsets, but that's alright because * the pipe drivers already know that. */ /* Get DRM version. */ version = drmGetVersion(ws->fd); if (version->version_major != 2 || version->version_minor < 12) { fprintf(stderr, "%s: DRM version is %d.%d.%d but this driver is " "only compatible with 2.12.0 (kernel 3.2) or later.\n", __FUNCTION__, version->version_major, version->version_minor, version->version_patchlevel); drmFreeVersion(version); return false; } ws->info.drm_major = version->version_major; ws->info.drm_minor = version->version_minor; ws->info.drm_patchlevel = version->version_patchlevel; ws->info.is_amdgpu = false; drmFreeVersion(version); /* Get PCI ID. */ if (!radeon_get_drm_value(ws->fd, RADEON_INFO_DEVICE_ID, "PCI ID", &ws->info.pci_id)) return false; /* Check PCI ID. */ switch (ws->info.pci_id) { #define CHIPSET(pci_id, name, cfamily) case pci_id: ws->info.family = CHIP_##cfamily; ws->gen = DRV_R300; break; #include "pci_ids/r300_pci_ids.h" #undef CHIPSET #define CHIPSET(pci_id, name, cfamily) case pci_id: ws->info.family = CHIP_##cfamily; ws->gen = DRV_R600; break; #include "pci_ids/r600_pci_ids.h" #undef CHIPSET #define CHIPSET(pci_id, cfamily) \ case pci_id: \ ws->info.family = CHIP_##cfamily; \ ws->info.name = #cfamily; \ ws->gen = DRV_SI; \ break; #include "pci_ids/radeonsi_pci_ids.h" #undef CHIPSET default: fprintf(stderr, "radeon: Invalid PCI ID.\n"); return false; } switch (ws->info.family) { default: case CHIP_UNKNOWN: fprintf(stderr, "radeon: Unknown family.\n"); return false; case CHIP_R300: case CHIP_R350: case CHIP_RV350: case CHIP_RV370: case CHIP_RV380: case CHIP_RS400: case CHIP_RC410: case CHIP_RS480: ws->info.chip_class = R300; break; case CHIP_R420: /* R4xx-based cores. */ case CHIP_R423: case CHIP_R430: case CHIP_R480: case CHIP_R481: case CHIP_RV410: case CHIP_RS600: case CHIP_RS690: case CHIP_RS740: ws->info.chip_class = R400; break; case CHIP_RV515: /* R5xx-based cores. */ case CHIP_R520: case CHIP_RV530: case CHIP_R580: case CHIP_RV560: case CHIP_RV570: ws->info.chip_class = R500; break; case CHIP_R600: case CHIP_RV610: case CHIP_RV630: case CHIP_RV670: case CHIP_RV620: case CHIP_RV635: case CHIP_RS780: case CHIP_RS880: ws->info.chip_class = R600; break; case CHIP_RV770: case CHIP_RV730: case CHIP_RV710: case CHIP_RV740: ws->info.chip_class = R700; break; case CHIP_CEDAR: case CHIP_REDWOOD: case CHIP_JUNIPER: case CHIP_CYPRESS: case CHIP_HEMLOCK: case CHIP_PALM: case CHIP_SUMO: case CHIP_SUMO2: case CHIP_BARTS: case CHIP_TURKS: case CHIP_CAICOS: ws->info.chip_class = EVERGREEN; break; case CHIP_CAYMAN: case CHIP_ARUBA: ws->info.chip_class = CAYMAN; break; case CHIP_TAHITI: case CHIP_PITCAIRN: case CHIP_VERDE: case CHIP_OLAND: case CHIP_HAINAN: ws->info.chip_class = GFX6; break; case CHIP_BONAIRE: case CHIP_KAVERI: case CHIP_KABINI: case CHIP_HAWAII: ws->info.chip_class = GFX7; break; } /* Set which chips don't have dedicated VRAM. */ switch (ws->info.family) { case CHIP_RS400: case CHIP_RC410: case CHIP_RS480: case CHIP_RS600: case CHIP_RS690: case CHIP_RS740: case CHIP_RS780: case CHIP_RS880: case CHIP_PALM: case CHIP_SUMO: case CHIP_SUMO2: case CHIP_ARUBA: case CHIP_KAVERI: case CHIP_KABINI: ws->info.has_dedicated_vram = false; break; default: ws->info.has_dedicated_vram = true; } ws->info.num_rings[RING_GFX] = 1; /* Check for dma */ ws->info.num_rings[RING_DMA] = 0; /* DMA is disabled on R700. There is IB corruption and hangs. */ if (ws->info.chip_class >= EVERGREEN && ws->info.drm_minor >= 27) { ws->info.num_rings[RING_DMA] = 1; } /* Check for UVD and VCE */ ws->info.has_hw_decode = false; ws->info.vce_fw_version = 0x00000000; if (ws->info.drm_minor >= 32) { uint32_t value = RADEON_CS_RING_UVD; if (radeon_get_drm_value(ws->fd, RADEON_INFO_RING_WORKING, "UVD Ring working", &value)) { ws->info.has_hw_decode = value; ws->info.num_rings[RING_UVD] = 1; } value = RADEON_CS_RING_VCE; if (radeon_get_drm_value(ws->fd, RADEON_INFO_RING_WORKING, NULL, &value) && value) { if (radeon_get_drm_value(ws->fd, RADEON_INFO_VCE_FW_VERSION, "VCE FW version", &value)) { ws->info.vce_fw_version = value; ws->info.num_rings[RING_VCE] = 1; } } } /* Check for userptr support. */ { struct drm_radeon_gem_userptr args = {0}; /* If the ioctl doesn't exist, -EINVAL is returned. * * If the ioctl exists, it should return -EACCES * if RADEON_GEM_USERPTR_READONLY or RADEON_GEM_USERPTR_REGISTER * aren't set. */ ws->info.has_userptr = drmCommandWriteRead(ws->fd, DRM_RADEON_GEM_USERPTR, &args, sizeof(args)) == -EACCES; } /* Get GEM info. */ retval = drmCommandWriteRead(ws->fd, DRM_RADEON_GEM_INFO, &gem_info, sizeof(gem_info)); if (retval) { fprintf(stderr, "radeon: Failed to get MM info, error number %d\n", retval); return false; } ws->info.gart_size = gem_info.gart_size; ws->info.vram_size = gem_info.vram_size; ws->info.vram_vis_size = gem_info.vram_visible; /* Older versions of the kernel driver reported incorrect values, and * didn't support more than 256MB of visible VRAM anyway */ if (ws->info.drm_minor < 49) ws->info.vram_vis_size = MIN2(ws->info.vram_vis_size, 256*1024*1024); /* Radeon allocates all buffers contiguously, which makes large allocations * unlikely to succeed. */ if (ws->info.has_dedicated_vram) ws->info.max_alloc_size = ws->info.vram_size * 0.7; else ws->info.max_alloc_size = ws->info.gart_size * 0.7; if (ws->info.drm_minor < 40) ws->info.max_alloc_size = MIN2(ws->info.max_alloc_size, 256*1024*1024); /* Both 32-bit and 64-bit address spaces only have 4GB. */ ws->info.max_alloc_size = MIN2(ws->info.max_alloc_size, 3ull*1024*1024*1024); /* Get max clock frequency info and convert it to MHz */ radeon_get_drm_value(ws->fd, RADEON_INFO_MAX_SCLK, NULL, &ws->info.max_shader_clock); ws->info.max_shader_clock /= 1000; ws->num_cpus = sysconf(_SC_NPROCESSORS_ONLN); /* Generation-specific queries. */ if (ws->gen == DRV_R300) { if (!radeon_get_drm_value(ws->fd, RADEON_INFO_NUM_GB_PIPES, "GB pipe count", &ws->info.r300_num_gb_pipes)) return false; if (!radeon_get_drm_value(ws->fd, RADEON_INFO_NUM_Z_PIPES, "Z pipe count", &ws->info.r300_num_z_pipes)) return false; } else if (ws->gen >= DRV_R600) { uint32_t tiling_config = 0; if (!radeon_get_drm_value(ws->fd, RADEON_INFO_NUM_BACKENDS, "num backends", &ws->info.num_render_backends)) return false; /* get the GPU counter frequency, failure is not fatal */ radeon_get_drm_value(ws->fd, RADEON_INFO_CLOCK_CRYSTAL_FREQ, NULL, &ws->info.clock_crystal_freq); radeon_get_drm_value(ws->fd, RADEON_INFO_TILING_CONFIG, NULL, &tiling_config); ws->info.r600_num_banks = ws->info.chip_class >= EVERGREEN ? 4 << ((tiling_config & 0xf0) >> 4) : 4 << ((tiling_config & 0x30) >> 4); ws->info.pipe_interleave_bytes = ws->info.chip_class >= EVERGREEN ? 256 << ((tiling_config & 0xf00) >> 8) : 256 << ((tiling_config & 0xc0) >> 6); if (!ws->info.pipe_interleave_bytes) ws->info.pipe_interleave_bytes = ws->info.chip_class >= EVERGREEN ? 512 : 256; radeon_get_drm_value(ws->fd, RADEON_INFO_NUM_TILE_PIPES, NULL, &ws->info.num_tile_pipes); /* "num_tiles_pipes" must be equal to the number of pipes (Px) in the * pipe config field of the GB_TILE_MODE array. Only one card (Tahiti) * reports a different value (12). Fix it by setting what's in the * GB_TILE_MODE array (8). */ if (ws->gen == DRV_SI && ws->info.num_tile_pipes == 12) ws->info.num_tile_pipes = 8; if (radeon_get_drm_value(ws->fd, RADEON_INFO_BACKEND_MAP, NULL, &ws->info.r600_gb_backend_map)) ws->info.r600_gb_backend_map_valid = true; /* Default value. */ ws->info.enabled_rb_mask = u_bit_consecutive(0, ws->info.num_render_backends); /* * This fails (silently) on non-GCN or older kernels, overwriting the * default enabled_rb_mask with the result of the last query. */ if (ws->gen >= DRV_SI) radeon_get_drm_value(ws->fd, RADEON_INFO_SI_BACKEND_ENABLED_MASK, NULL, &ws->info.enabled_rb_mask); ws->info.r600_has_virtual_memory = false; if (ws->info.drm_minor >= 13) { uint32_t ib_vm_max_size; ws->info.r600_has_virtual_memory = true; if (!radeon_get_drm_value(ws->fd, RADEON_INFO_VA_START, NULL, &ws->va_start)) ws->info.r600_has_virtual_memory = false; if (!radeon_get_drm_value(ws->fd, RADEON_INFO_IB_VM_MAX_SIZE, NULL, &ib_vm_max_size)) ws->info.r600_has_virtual_memory = false; radeon_get_drm_value(ws->fd, RADEON_INFO_VA_UNMAP_WORKING, NULL, &ws->va_unmap_working); } if (ws->gen == DRV_R600 && !debug_get_bool_option("RADEON_VA", false)) ws->info.r600_has_virtual_memory = false; } /* Get max pipes, this is only needed for compute shaders. All evergreen+ * chips have at least 2 pipes, so we use 2 as a default. */ ws->info.r600_max_quad_pipes = 2; radeon_get_drm_value(ws->fd, RADEON_INFO_MAX_PIPES, NULL, &ws->info.r600_max_quad_pipes); /* All GPUs have at least one compute unit */ ws->info.num_good_compute_units = 1; radeon_get_drm_value(ws->fd, RADEON_INFO_ACTIVE_CU_COUNT, NULL, &ws->info.num_good_compute_units); radeon_get_drm_value(ws->fd, RADEON_INFO_MAX_SE, NULL, &ws->info.max_se); switch (ws->info.family) { case CHIP_HAINAN: case CHIP_KABINI: ws->info.num_tcc_blocks = 2; break; case CHIP_VERDE: case CHIP_OLAND: case CHIP_BONAIRE: case CHIP_KAVERI: ws->info.num_tcc_blocks = 4; break; case CHIP_PITCAIRN: ws->info.num_tcc_blocks = 8; break; case CHIP_TAHITI: ws->info.num_tcc_blocks = 12; break; case CHIP_HAWAII: ws->info.num_tcc_blocks = 16; break; default: ws->info.num_tcc_blocks = 0; break; } if (!ws->info.max_se) { switch (ws->info.family) { default: ws->info.max_se = 1; break; case CHIP_CYPRESS: case CHIP_HEMLOCK: case CHIP_BARTS: case CHIP_CAYMAN: case CHIP_TAHITI: case CHIP_PITCAIRN: case CHIP_BONAIRE: ws->info.max_se = 2; break; case CHIP_HAWAII: ws->info.max_se = 4; break; } } ws->info.num_se = ws->info.max_se; radeon_get_drm_value(ws->fd, RADEON_INFO_MAX_SH_PER_SE, NULL, &ws->info.max_sh_per_se); if (ws->gen == DRV_SI) { ws->info.max_good_cu_per_sa = ws->info.min_good_cu_per_sa = ws->info.num_good_compute_units / (ws->info.max_se * ws->info.max_sh_per_se); } radeon_get_drm_value(ws->fd, RADEON_INFO_ACCEL_WORKING2, NULL, &ws->accel_working2); if (ws->info.family == CHIP_HAWAII && ws->accel_working2 < 2) { fprintf(stderr, "radeon: GPU acceleration for Hawaii disabled, " "returned accel_working2 value %u is smaller than 2. " "Please install a newer kernel.\n", ws->accel_working2); return false; } if (ws->info.chip_class == GFX7) { if (!radeon_get_drm_value(ws->fd, RADEON_INFO_CIK_MACROTILE_MODE_ARRAY, NULL, ws->info.cik_macrotile_mode_array)) { fprintf(stderr, "radeon: Kernel 3.13 is required for Sea Islands support.\n"); return false; } } if (ws->info.chip_class >= GFX6) { if (!radeon_get_drm_value(ws->fd, RADEON_INFO_SI_TILE_MODE_ARRAY, NULL, ws->info.si_tile_mode_array)) { fprintf(stderr, "radeon: Kernel 3.10 is required for Southern Islands support.\n"); return false; } } /* Hawaii with old firmware needs type2 nop packet. * accel_working2 with value 3 indicates the new firmware. */ ws->info.gfx_ib_pad_with_type2 = ws->info.chip_class <= GFX6 || (ws->info.family == CHIP_HAWAII && ws->accel_working2 < 3); ws->info.tcc_cache_line_size = 64; /* TC L2 line size on GCN */ ws->info.ib_alignment = 4096; ws->info.kernel_flushes_hdp_before_ib = ws->info.drm_minor >= 40; /* HTILE is broken with 1D tiling on old kernels and GFX7. */ ws->info.htile_cmask_support_1d_tiling = ws->info.chip_class != GFX7 || ws->info.drm_minor >= 38; ws->info.si_TA_CS_BC_BASE_ADDR_allowed = ws->info.drm_minor >= 48; ws->info.has_bo_metadata = false; ws->info.has_gpu_reset_status_query = ws->info.drm_minor >= 43; ws->info.has_eqaa_surface_allocator = false; ws->info.has_format_bc1_through_bc7 = ws->info.drm_minor >= 31; ws->info.kernel_flushes_tc_l2_after_ib = true; /* Old kernels disallowed register writes via COPY_DATA * that are used for indirect compute dispatches. */ ws->info.has_indirect_compute_dispatch = ws->info.chip_class == GFX7 || (ws->info.chip_class == GFX6 && ws->info.drm_minor >= 45); /* GFX6 doesn't support unaligned loads. */ ws->info.has_unaligned_shader_loads = ws->info.chip_class == GFX7 && ws->info.drm_minor >= 50; ws->info.has_sparse_vm_mappings = false; /* 2D tiling on GFX7 is supported since DRM 2.35.0 */ ws->info.has_2d_tiling = ws->info.chip_class <= GFX6 || ws->info.drm_minor >= 35; ws->info.has_read_registers_query = ws->info.drm_minor >= 42; ws->info.max_alignment = 1024*1024; ws->info.has_graphics = true; ws->info.cpdma_prefetch_writes_memory = true; ws->info.max_wave64_per_simd = 10; ws->info.num_physical_sgprs_per_simd = 512; ws->info.num_physical_wave64_vgprs_per_simd = 256; /* Potential hang on Kabini: */ ws->info.use_late_alloc = ws->info.family != CHIP_KABINI; ws->check_vm = strstr(debug_get_option("R600_DEBUG", ""), "check_vm") != NULL || strstr(debug_get_option("AMD_DEBUG", ""), "check_vm") != NULL; return true; } static void radeon_winsys_destroy(struct radeon_winsys *rws) { struct radeon_drm_winsys *ws = (struct radeon_drm_winsys*)rws; if (util_queue_is_initialized(&ws->cs_queue)) util_queue_destroy(&ws->cs_queue); mtx_destroy(&ws->hyperz_owner_mutex); mtx_destroy(&ws->cmask_owner_mutex); if (ws->info.r600_has_virtual_memory) pb_slabs_deinit(&ws->bo_slabs); pb_cache_deinit(&ws->bo_cache); if (ws->gen >= DRV_R600) { radeon_surface_manager_free(ws->surf_man); } _mesa_hash_table_destroy(ws->bo_names, NULL); _mesa_hash_table_destroy(ws->bo_handles, NULL); _mesa_hash_table_u64_destroy(ws->bo_vas, NULL); mtx_destroy(&ws->bo_handles_mutex); mtx_destroy(&ws->vm32.mutex); mtx_destroy(&ws->vm64.mutex); mtx_destroy(&ws->bo_fence_lock); if (ws->fd >= 0) close(ws->fd); FREE(rws); } static void radeon_query_info(struct radeon_winsys *rws, struct radeon_info *info) { *info = ((struct radeon_drm_winsys *)rws)->info; } static bool radeon_cs_request_feature(struct radeon_cmdbuf *rcs, enum radeon_feature_id fid, bool enable) { struct radeon_drm_cs *cs = radeon_drm_cs(rcs); switch (fid) { case RADEON_FID_R300_HYPERZ_ACCESS: return radeon_set_fd_access(cs, &cs->ws->hyperz_owner, &cs->ws->hyperz_owner_mutex, RADEON_INFO_WANT_HYPERZ, "Hyper-Z", enable); case RADEON_FID_R300_CMASK_ACCESS: return radeon_set_fd_access(cs, &cs->ws->cmask_owner, &cs->ws->cmask_owner_mutex, RADEON_INFO_WANT_CMASK, "AA optimizations", enable); } return false; } uint32_t radeon_drm_get_gpu_reset_counter(struct radeon_drm_winsys *ws) { uint64_t retval = 0; if (!ws->info.has_gpu_reset_status_query) return 0; radeon_get_drm_value(ws->fd, RADEON_INFO_GPU_RESET_COUNTER, "gpu-reset-counter", (uint32_t*)&retval); return retval; } static uint64_t radeon_query_value(struct radeon_winsys *rws, enum radeon_value_id value) { struct radeon_drm_winsys *ws = (struct radeon_drm_winsys*)rws; uint64_t retval = 0; switch (value) { case RADEON_REQUESTED_VRAM_MEMORY: return ws->allocated_vram; case RADEON_REQUESTED_GTT_MEMORY: return ws->allocated_gtt; case RADEON_MAPPED_VRAM: return ws->mapped_vram; case RADEON_MAPPED_GTT: return ws->mapped_gtt; case RADEON_BUFFER_WAIT_TIME_NS: return ws->buffer_wait_time; case RADEON_NUM_MAPPED_BUFFERS: return ws->num_mapped_buffers; case RADEON_TIMESTAMP: if (ws->info.drm_minor < 20 || ws->gen < DRV_R600) { assert(0); return 0; } radeon_get_drm_value(ws->fd, RADEON_INFO_TIMESTAMP, "timestamp", (uint32_t*)&retval); return retval; case RADEON_NUM_GFX_IBS: return ws->num_gfx_IBs; case RADEON_NUM_SDMA_IBS: return ws->num_sdma_IBs; case RADEON_NUM_BYTES_MOVED: radeon_get_drm_value(ws->fd, RADEON_INFO_NUM_BYTES_MOVED, "num-bytes-moved", (uint32_t*)&retval); return retval; case RADEON_NUM_EVICTIONS: case RADEON_NUM_VRAM_CPU_PAGE_FAULTS: case RADEON_VRAM_VIS_USAGE: case RADEON_GFX_BO_LIST_COUNTER: case RADEON_GFX_IB_SIZE_COUNTER: return 0; /* unimplemented */ case RADEON_VRAM_USAGE: radeon_get_drm_value(ws->fd, RADEON_INFO_VRAM_USAGE, "vram-usage", (uint32_t*)&retval); return retval; case RADEON_GTT_USAGE: radeon_get_drm_value(ws->fd, RADEON_INFO_GTT_USAGE, "gtt-usage", (uint32_t*)&retval); return retval; case RADEON_GPU_TEMPERATURE: radeon_get_drm_value(ws->fd, RADEON_INFO_CURRENT_GPU_TEMP, "gpu-temp", (uint32_t*)&retval); return retval; case RADEON_CURRENT_SCLK: radeon_get_drm_value(ws->fd, RADEON_INFO_CURRENT_GPU_SCLK, "current-gpu-sclk", (uint32_t*)&retval); return retval; case RADEON_CURRENT_MCLK: radeon_get_drm_value(ws->fd, RADEON_INFO_CURRENT_GPU_MCLK, "current-gpu-mclk", (uint32_t*)&retval); return retval; case RADEON_CS_THREAD_TIME: return util_queue_get_thread_time_nano(&ws->cs_queue, 0); } return 0; } static bool radeon_read_registers(struct radeon_winsys *rws, unsigned reg_offset, unsigned num_registers, uint32_t *out) { struct radeon_drm_winsys *ws = (struct radeon_drm_winsys*)rws; unsigned i; for (i = 0; i < num_registers; i++) { uint32_t reg = reg_offset + i*4; if (!radeon_get_drm_value(ws->fd, RADEON_INFO_READ_REG, NULL, ®)) return false; out[i] = reg; } return true; } DEBUG_GET_ONCE_BOOL_OPTION(thread, "RADEON_THREAD", true) static bool radeon_winsys_unref(struct radeon_winsys *ws) { struct radeon_drm_winsys *rws = (struct radeon_drm_winsys*)ws; bool destroy; /* When the reference counter drops to zero, remove the fd from the table. * This must happen while the mutex is locked, so that * radeon_drm_winsys_create in another thread doesn't get the winsys * from the table when the counter drops to 0. */ mtx_lock(&fd_tab_mutex); destroy = pipe_reference(&rws->reference, NULL); if (destroy && fd_tab) { _mesa_hash_table_remove_key(fd_tab, intptr_to_pointer(rws->fd)); if (_mesa_hash_table_num_entries(fd_tab) == 0) { _mesa_hash_table_destroy(fd_tab, NULL); fd_tab = NULL; } } mtx_unlock(&fd_tab_mutex); return destroy; } static void radeon_pin_threads_to_L3_cache(struct radeon_winsys *ws, unsigned cache) { struct radeon_drm_winsys *rws = (struct radeon_drm_winsys*)ws; if (util_queue_is_initialized(&rws->cs_queue)) { util_set_thread_affinity(rws->cs_queue.threads[0], util_cpu_caps.L3_affinity_mask[cache], NULL, UTIL_MAX_CPUS); } } static bool radeon_cs_is_secure(struct radeon_cmdbuf* cs) { return false; } PUBLIC struct radeon_winsys * radeon_drm_winsys_create(int fd, const struct pipe_screen_config *config, radeon_screen_create_t screen_create) { struct radeon_drm_winsys *ws; mtx_lock(&fd_tab_mutex); if (!fd_tab) { fd_tab = util_hash_table_create_fd_keys(); } ws = util_hash_table_get(fd_tab, intptr_to_pointer(fd)); if (ws) { pipe_reference(NULL, &ws->reference); mtx_unlock(&fd_tab_mutex); return &ws->base; } ws = CALLOC_STRUCT(radeon_drm_winsys); if (!ws) { mtx_unlock(&fd_tab_mutex); return NULL; } ws->fd = os_dupfd_cloexec(fd); if (!do_winsys_init(ws)) goto fail1; pb_cache_init(&ws->bo_cache, RADEON_MAX_CACHED_HEAPS, 500000, ws->check_vm ? 1.0f : 2.0f, 0, MIN2(ws->info.vram_size, ws->info.gart_size), radeon_bo_destroy, radeon_bo_can_reclaim); if (ws->info.r600_has_virtual_memory) { /* There is no fundamental obstacle to using slab buffer allocation * without GPUVM, but enabling it requires making sure that the drivers * honor the address offset. */ if (!pb_slabs_init(&ws->bo_slabs, RADEON_SLAB_MIN_SIZE_LOG2, RADEON_SLAB_MAX_SIZE_LOG2, RADEON_MAX_SLAB_HEAPS, ws, radeon_bo_can_reclaim_slab, radeon_bo_slab_alloc, radeon_bo_slab_free)) goto fail_cache; ws->info.min_alloc_size = 1 << RADEON_SLAB_MIN_SIZE_LOG2; } else { ws->info.min_alloc_size = ws->info.gart_page_size; } if (ws->gen >= DRV_R600) { ws->surf_man = radeon_surface_manager_new(ws->fd); if (!ws->surf_man) goto fail_slab; } /* init reference */ pipe_reference_init(&ws->reference, 1); /* Set functions. */ ws->base.unref = radeon_winsys_unref; ws->base.destroy = radeon_winsys_destroy; ws->base.query_info = radeon_query_info; ws->base.pin_threads_to_L3_cache = radeon_pin_threads_to_L3_cache; ws->base.cs_request_feature = radeon_cs_request_feature; ws->base.query_value = radeon_query_value; ws->base.read_registers = radeon_read_registers; ws->base.cs_is_secure = radeon_cs_is_secure; radeon_drm_bo_init_functions(ws); radeon_drm_cs_init_functions(ws); radeon_surface_init_functions(ws); (void) mtx_init(&ws->hyperz_owner_mutex, mtx_plain); (void) mtx_init(&ws->cmask_owner_mutex, mtx_plain); ws->bo_names = util_hash_table_create_ptr_keys(); ws->bo_handles = util_hash_table_create_ptr_keys(); ws->bo_vas = _mesa_hash_table_u64_create(NULL); (void) mtx_init(&ws->bo_handles_mutex, mtx_plain); (void) mtx_init(&ws->vm32.mutex, mtx_plain); (void) mtx_init(&ws->vm64.mutex, mtx_plain); (void) mtx_init(&ws->bo_fence_lock, mtx_plain); list_inithead(&ws->vm32.holes); list_inithead(&ws->vm64.holes); /* The kernel currently returns 8MB. Make sure this doesn't change. */ if (ws->va_start > 8 * 1024 * 1024) { /* Not enough 32-bit address space. */ radeon_winsys_destroy(&ws->base); mtx_unlock(&fd_tab_mutex); return NULL; } ws->vm32.start = ws->va_start; ws->vm32.end = 1ull << 32; /* The maximum is 8GB of virtual address space limited by the kernel. * It's obviously not enough for bigger cards, like Hawaiis with 4GB * and 8GB of physical memory and 4GB of GART. * * Older kernels set the limit to 4GB, which is even worse, so they only * have 32-bit address space. */ if (ws->info.drm_minor >= 41) { ws->vm64.start = 1ull << 32; ws->vm64.end = 1ull << 33; } /* TTM aligns the BO size to the CPU page size */ ws->info.gart_page_size = sysconf(_SC_PAGESIZE); ws->info.pte_fragment_size = 64 * 1024; /* GPUVM page size */ if (ws->num_cpus > 1 && debug_get_option_thread()) util_queue_init(&ws->cs_queue, "rcs", 8, 1, 0); /* Create the screen at the end. The winsys must be initialized * completely. * * Alternatively, we could create the screen based on "ws->gen" * and link all drivers into one binary blob. */ ws->base.screen = screen_create(&ws->base, config); if (!ws->base.screen) { radeon_winsys_destroy(&ws->base); mtx_unlock(&fd_tab_mutex); return NULL; } _mesa_hash_table_insert(fd_tab, intptr_to_pointer(ws->fd), ws); /* We must unlock the mutex once the winsys is fully initialized, so that * other threads attempting to create the winsys from the same fd will * get a fully initialized winsys and not just half-way initialized. */ mtx_unlock(&fd_tab_mutex); return &ws->base; fail_slab: if (ws->info.r600_has_virtual_memory) pb_slabs_deinit(&ws->bo_slabs); fail_cache: pb_cache_deinit(&ws->bo_cache); fail1: mtx_unlock(&fd_tab_mutex); if (ws->surf_man) radeon_surface_manager_free(ws->surf_man); if (ws->fd >= 0) close(ws->fd); FREE(ws); return NULL; }