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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 1349 1350 1351 1352 1353 1354 1355 1356 1357 1358 1359 1360 1361 1362 1363 1364 1365 1366 1367 1368 1369 1370 1371 1372 1373 1374 1375 1376 1377 1378 1379 1380 1381 1382 1383 1384 1385 1386 1387 1388 1389 1390 1391 1392 1393 1394 1395 1396 1397 1398 1399 1400 1401 1402 1403 1404 1405 1406 1407 1408 1409 1410 1411 1412 1413 1414 1415 1416 | /* * Copyright 2013 Advanced Micro Devices, Inc. * * 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, sublicense, * 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 above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * 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 NONINFRINGEMENT. IN NO EVENT SHALL * THE COPYRIGHT HOLDER(S) OR AUTHOR(S) 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. * * Authors: Alex Deucher */ #include <linux/firmware.h> #include <drm/drmP.h> #include "amdgpu.h" #include "amdgpu_ucode.h" #include "amdgpu_trace.h" #include "cikd.h" #include "cik.h" #include "bif/bif_4_1_d.h" #include "bif/bif_4_1_sh_mask.h" #include "gca/gfx_7_2_d.h" #include "gca/gfx_7_2_enum.h" #include "gca/gfx_7_2_sh_mask.h" #include "gmc/gmc_7_1_d.h" #include "gmc/gmc_7_1_sh_mask.h" #include "oss/oss_2_0_d.h" #include "oss/oss_2_0_sh_mask.h" static const u32 sdma_offsets[SDMA_MAX_INSTANCE] = { SDMA0_REGISTER_OFFSET, SDMA1_REGISTER_OFFSET }; static void cik_sdma_set_ring_funcs(struct amdgpu_device *adev); static void cik_sdma_set_irq_funcs(struct amdgpu_device *adev); static void cik_sdma_set_buffer_funcs(struct amdgpu_device *adev); static void cik_sdma_set_vm_pte_funcs(struct amdgpu_device *adev); static int cik_sdma_soft_reset(void *handle); MODULE_FIRMWARE("radeon/bonaire_sdma.bin"); MODULE_FIRMWARE("radeon/bonaire_sdma1.bin"); MODULE_FIRMWARE("radeon/hawaii_sdma.bin"); MODULE_FIRMWARE("radeon/hawaii_sdma1.bin"); MODULE_FIRMWARE("radeon/kaveri_sdma.bin"); MODULE_FIRMWARE("radeon/kaveri_sdma1.bin"); MODULE_FIRMWARE("radeon/kabini_sdma.bin"); MODULE_FIRMWARE("radeon/kabini_sdma1.bin"); MODULE_FIRMWARE("radeon/mullins_sdma.bin"); MODULE_FIRMWARE("radeon/mullins_sdma1.bin"); u32 amdgpu_cik_gpu_check_soft_reset(struct amdgpu_device *adev); static void cik_sdma_free_microcode(struct amdgpu_device *adev) { int i; for (i = 0; i < adev->sdma.num_instances; i++) { release_firmware(adev->sdma.instance[i].fw); adev->sdma.instance[i].fw = NULL; } } /* * sDMA - System DMA * Starting with CIK, the GPU has new asynchronous * DMA engines. These engines are used for compute * and gfx. There are two DMA engines (SDMA0, SDMA1) * and each one supports 1 ring buffer used for gfx * and 2 queues used for compute. * * The programming model is very similar to the CP * (ring buffer, IBs, etc.), but sDMA has it's own * packet format that is different from the PM4 format * used by the CP. sDMA supports copying data, writing * embedded data, solid fills, and a number of other * things. It also has support for tiling/detiling of * buffers. */ /** * cik_sdma_init_microcode - load ucode images from disk * * @adev: amdgpu_device pointer * * Use the firmware interface to load the ucode images into * the driver (not loaded into hw). * Returns 0 on success, error on failure. */ static int cik_sdma_init_microcode(struct amdgpu_device *adev) { const char *chip_name; char fw_name[30]; int err = 0, i; DRM_DEBUG("\n"); switch (adev->asic_type) { case CHIP_BONAIRE: chip_name = "bonaire"; break; case CHIP_HAWAII: chip_name = "hawaii"; break; case CHIP_KAVERI: chip_name = "kaveri"; break; case CHIP_KABINI: chip_name = "kabini"; break; case CHIP_MULLINS: chip_name = "mullins"; break; default: BUG(); } for (i = 0; i < adev->sdma.num_instances; i++) { if (i == 0) snprintf(fw_name, sizeof(fw_name), "radeon/%s_sdma.bin", chip_name); else snprintf(fw_name, sizeof(fw_name), "radeon/%s_sdma1.bin", chip_name); err = request_firmware(&adev->sdma.instance[i].fw, fw_name, adev->dev); if (err) goto out; err = amdgpu_ucode_validate(adev->sdma.instance[i].fw); } out: if (err) { pr_err("cik_sdma: Failed to load firmware \"%s\"\n", fw_name); for (i = 0; i < adev->sdma.num_instances; i++) { release_firmware(adev->sdma.instance[i].fw); adev->sdma.instance[i].fw = NULL; } } return err; } /** * cik_sdma_ring_get_rptr - get the current read pointer * * @ring: amdgpu ring pointer * * Get the current rptr from the hardware (CIK+). */ static uint64_t cik_sdma_ring_get_rptr(struct amdgpu_ring *ring) { u32 rptr; rptr = ring->adev->wb.wb[ring->rptr_offs]; return (rptr & 0x3fffc) >> 2; } /** * cik_sdma_ring_get_wptr - get the current write pointer * * @ring: amdgpu ring pointer * * Get the current wptr from the hardware (CIK+). */ static uint64_t cik_sdma_ring_get_wptr(struct amdgpu_ring *ring) { struct amdgpu_device *adev = ring->adev; u32 me = (ring == &adev->sdma.instance[0].ring) ? 0 : 1; return (RREG32(mmSDMA0_GFX_RB_WPTR + sdma_offsets[me]) & 0x3fffc) >> 2; } /** * cik_sdma_ring_set_wptr - commit the write pointer * * @ring: amdgpu ring pointer * * Write the wptr back to the hardware (CIK+). */ static void cik_sdma_ring_set_wptr(struct amdgpu_ring *ring) { struct amdgpu_device *adev = ring->adev; u32 me = (ring == &adev->sdma.instance[0].ring) ? 0 : 1; WREG32(mmSDMA0_GFX_RB_WPTR + sdma_offsets[me], (lower_32_bits(ring->wptr) << 2) & 0x3fffc); } static void cik_sdma_ring_insert_nop(struct amdgpu_ring *ring, uint32_t count) { struct amdgpu_sdma_instance *sdma = amdgpu_get_sdma_instance(ring); int i; for (i = 0; i < count; i++) if (sdma && sdma->burst_nop && (i == 0)) amdgpu_ring_write(ring, ring->funcs->nop | SDMA_NOP_COUNT(count - 1)); else amdgpu_ring_write(ring, ring->funcs->nop); } /** * cik_sdma_ring_emit_ib - Schedule an IB on the DMA engine * * @ring: amdgpu ring pointer * @ib: IB object to schedule * * Schedule an IB in the DMA ring (CIK). */ static void cik_sdma_ring_emit_ib(struct amdgpu_ring *ring, struct amdgpu_ib *ib, unsigned vm_id, bool ctx_switch) { u32 extra_bits = vm_id & 0xf; /* IB packet must end on a 8 DW boundary */ cik_sdma_ring_insert_nop(ring, (12 - (lower_32_bits(ring->wptr) & 7)) % 8); amdgpu_ring_write(ring, SDMA_PACKET(SDMA_OPCODE_INDIRECT_BUFFER, 0, extra_bits)); amdgpu_ring_write(ring, ib->gpu_addr & 0xffffffe0); /* base must be 32 byte aligned */ amdgpu_ring_write(ring, upper_32_bits(ib->gpu_addr) & 0xffffffff); amdgpu_ring_write(ring, ib->length_dw); } /** * cik_sdma_ring_emit_hdp_flush - emit an hdp flush on the DMA ring * * @ring: amdgpu ring pointer * * Emit an hdp flush packet on the requested DMA ring. */ static void cik_sdma_ring_emit_hdp_flush(struct amdgpu_ring *ring) { u32 extra_bits = (SDMA_POLL_REG_MEM_EXTRA_OP(1) | SDMA_POLL_REG_MEM_EXTRA_FUNC(3)); /* == */ u32 ref_and_mask; if (ring == &ring->adev->sdma.instance[0].ring) ref_and_mask = GPU_HDP_FLUSH_DONE__SDMA0_MASK; else ref_and_mask = GPU_HDP_FLUSH_DONE__SDMA1_MASK; amdgpu_ring_write(ring, SDMA_PACKET(SDMA_OPCODE_POLL_REG_MEM, 0, extra_bits)); amdgpu_ring_write(ring, mmGPU_HDP_FLUSH_DONE << 2); amdgpu_ring_write(ring, mmGPU_HDP_FLUSH_REQ << 2); amdgpu_ring_write(ring, ref_and_mask); /* reference */ amdgpu_ring_write(ring, ref_and_mask); /* mask */ amdgpu_ring_write(ring, (0xfff << 16) | 10); /* retry count, poll interval */ } static void cik_sdma_ring_emit_hdp_invalidate(struct amdgpu_ring *ring) { amdgpu_ring_write(ring, SDMA_PACKET(SDMA_OPCODE_SRBM_WRITE, 0, 0xf000)); amdgpu_ring_write(ring, mmHDP_DEBUG0); amdgpu_ring_write(ring, 1); } /** * cik_sdma_ring_emit_fence - emit a fence on the DMA ring * * @ring: amdgpu ring pointer * @fence: amdgpu fence object * * Add a DMA fence packet to the ring to write * the fence seq number and DMA trap packet to generate * an interrupt if needed (CIK). */ static void cik_sdma_ring_emit_fence(struct amdgpu_ring *ring, u64 addr, u64 seq, unsigned flags) { bool write64bit = flags & AMDGPU_FENCE_FLAG_64BIT; /* write the fence */ amdgpu_ring_write(ring, SDMA_PACKET(SDMA_OPCODE_FENCE, 0, 0)); amdgpu_ring_write(ring, lower_32_bits(addr)); amdgpu_ring_write(ring, upper_32_bits(addr)); amdgpu_ring_write(ring, lower_32_bits(seq)); /* optionally write high bits as well */ if (write64bit) { addr += 4; amdgpu_ring_write(ring, SDMA_PACKET(SDMA_OPCODE_FENCE, 0, 0)); amdgpu_ring_write(ring, lower_32_bits(addr)); amdgpu_ring_write(ring, upper_32_bits(addr)); amdgpu_ring_write(ring, upper_32_bits(seq)); } /* generate an interrupt */ amdgpu_ring_write(ring, SDMA_PACKET(SDMA_OPCODE_TRAP, 0, 0)); } /** * cik_sdma_gfx_stop - stop the gfx async dma engines * * @adev: amdgpu_device pointer * * Stop the gfx async dma ring buffers (CIK). */ static void cik_sdma_gfx_stop(struct amdgpu_device *adev) { struct amdgpu_ring *sdma0 = &adev->sdma.instance[0].ring; struct amdgpu_ring *sdma1 = &adev->sdma.instance[1].ring; u32 rb_cntl; int i; if ((adev->mman.buffer_funcs_ring == sdma0) || (adev->mman.buffer_funcs_ring == sdma1)) amdgpu_ttm_set_active_vram_size(adev, adev->mc.visible_vram_size); for (i = 0; i < adev->sdma.num_instances; i++) { rb_cntl = RREG32(mmSDMA0_GFX_RB_CNTL + sdma_offsets[i]); rb_cntl &= ~SDMA0_GFX_RB_CNTL__RB_ENABLE_MASK; WREG32(mmSDMA0_GFX_RB_CNTL + sdma_offsets[i], rb_cntl); WREG32(mmSDMA0_GFX_IB_CNTL + sdma_offsets[i], 0); } sdma0->ready = false; sdma1->ready = false; } /** * cik_sdma_rlc_stop - stop the compute async dma engines * * @adev: amdgpu_device pointer * * Stop the compute async dma queues (CIK). */ static void cik_sdma_rlc_stop(struct amdgpu_device *adev) { /* XXX todo */ } /** * cik_ctx_switch_enable - stop the async dma engines context switch * * @adev: amdgpu_device pointer * @enable: enable/disable the DMA MEs context switch. * * Halt or unhalt the async dma engines context switch (VI). */ static void cik_ctx_switch_enable(struct amdgpu_device *adev, bool enable) { u32 f32_cntl, phase_quantum = 0; int i; if (amdgpu_sdma_phase_quantum) { unsigned value = amdgpu_sdma_phase_quantum; unsigned unit = 0; while (value > (SDMA0_PHASE0_QUANTUM__VALUE_MASK >> SDMA0_PHASE0_QUANTUM__VALUE__SHIFT)) { value = (value + 1) >> 1; unit++; } if (unit > (SDMA0_PHASE0_QUANTUM__UNIT_MASK >> SDMA0_PHASE0_QUANTUM__UNIT__SHIFT)) { value = (SDMA0_PHASE0_QUANTUM__VALUE_MASK >> SDMA0_PHASE0_QUANTUM__VALUE__SHIFT); unit = (SDMA0_PHASE0_QUANTUM__UNIT_MASK >> SDMA0_PHASE0_QUANTUM__UNIT__SHIFT); WARN_ONCE(1, "clamping sdma_phase_quantum to %uK clock cycles\n", value << unit); } phase_quantum = value << SDMA0_PHASE0_QUANTUM__VALUE__SHIFT | unit << SDMA0_PHASE0_QUANTUM__UNIT__SHIFT; } for (i = 0; i < adev->sdma.num_instances; i++) { f32_cntl = RREG32(mmSDMA0_CNTL + sdma_offsets[i]); if (enable) { f32_cntl = REG_SET_FIELD(f32_cntl, SDMA0_CNTL, AUTO_CTXSW_ENABLE, 1); if (amdgpu_sdma_phase_quantum) { WREG32(mmSDMA0_PHASE0_QUANTUM + sdma_offsets[i], phase_quantum); WREG32(mmSDMA0_PHASE1_QUANTUM + sdma_offsets[i], phase_quantum); } } else { f32_cntl = REG_SET_FIELD(f32_cntl, SDMA0_CNTL, AUTO_CTXSW_ENABLE, 0); } WREG32(mmSDMA0_CNTL + sdma_offsets[i], f32_cntl); } } /** * cik_sdma_enable - stop the async dma engines * * @adev: amdgpu_device pointer * @enable: enable/disable the DMA MEs. * * Halt or unhalt the async dma engines (CIK). */ static void cik_sdma_enable(struct amdgpu_device *adev, bool enable) { u32 me_cntl; int i; if (!enable) { cik_sdma_gfx_stop(adev); cik_sdma_rlc_stop(adev); } for (i = 0; i < adev->sdma.num_instances; i++) { me_cntl = RREG32(mmSDMA0_F32_CNTL + sdma_offsets[i]); if (enable) me_cntl &= ~SDMA0_F32_CNTL__HALT_MASK; else me_cntl |= SDMA0_F32_CNTL__HALT_MASK; WREG32(mmSDMA0_F32_CNTL + sdma_offsets[i], me_cntl); } } /** * cik_sdma_gfx_resume - setup and start the async dma engines * * @adev: amdgpu_device pointer * * Set up the gfx DMA ring buffers and enable them (CIK). * Returns 0 for success, error for failure. */ static int cik_sdma_gfx_resume(struct amdgpu_device *adev) { struct amdgpu_ring *ring; u32 rb_cntl, ib_cntl; u32 rb_bufsz; u32 wb_offset; int i, j, r; for (i = 0; i < adev->sdma.num_instances; i++) { ring = &adev->sdma.instance[i].ring; wb_offset = (ring->rptr_offs * 4); mutex_lock(&adev->srbm_mutex); for (j = 0; j < 16; j++) { cik_srbm_select(adev, 0, 0, 0, j); /* SDMA GFX */ WREG32(mmSDMA0_GFX_VIRTUAL_ADDR + sdma_offsets[i], 0); WREG32(mmSDMA0_GFX_APE1_CNTL + sdma_offsets[i], 0); /* XXX SDMA RLC - todo */ } cik_srbm_select(adev, 0, 0, 0, 0); mutex_unlock(&adev->srbm_mutex); WREG32(mmSDMA0_TILING_CONFIG + sdma_offsets[i], adev->gfx.config.gb_addr_config & 0x70); WREG32(mmSDMA0_SEM_INCOMPLETE_TIMER_CNTL + sdma_offsets[i], 0); WREG32(mmSDMA0_SEM_WAIT_FAIL_TIMER_CNTL + sdma_offsets[i], 0); /* Set ring buffer size in dwords */ rb_bufsz = order_base_2(ring->ring_size / 4); rb_cntl = rb_bufsz << 1; #ifdef __BIG_ENDIAN rb_cntl |= SDMA0_GFX_RB_CNTL__RB_SWAP_ENABLE_MASK | SDMA0_GFX_RB_CNTL__RPTR_WRITEBACK_SWAP_ENABLE_MASK; #endif WREG32(mmSDMA0_GFX_RB_CNTL + sdma_offsets[i], rb_cntl); /* Initialize the ring buffer's read and write pointers */ WREG32(mmSDMA0_GFX_RB_RPTR + sdma_offsets[i], 0); WREG32(mmSDMA0_GFX_RB_WPTR + sdma_offsets[i], 0); WREG32(mmSDMA0_GFX_IB_RPTR + sdma_offsets[i], 0); WREG32(mmSDMA0_GFX_IB_OFFSET + sdma_offsets[i], 0); /* set the wb address whether it's enabled or not */ WREG32(mmSDMA0_GFX_RB_RPTR_ADDR_HI + sdma_offsets[i], upper_32_bits(adev->wb.gpu_addr + wb_offset) & 0xFFFFFFFF); WREG32(mmSDMA0_GFX_RB_RPTR_ADDR_LO + sdma_offsets[i], ((adev->wb.gpu_addr + wb_offset) & 0xFFFFFFFC)); rb_cntl |= SDMA0_GFX_RB_CNTL__RPTR_WRITEBACK_ENABLE_MASK; WREG32(mmSDMA0_GFX_RB_BASE + sdma_offsets[i], ring->gpu_addr >> 8); WREG32(mmSDMA0_GFX_RB_BASE_HI + sdma_offsets[i], ring->gpu_addr >> 40); ring->wptr = 0; WREG32(mmSDMA0_GFX_RB_WPTR + sdma_offsets[i], lower_32_bits(ring->wptr) << 2); /* enable DMA RB */ WREG32(mmSDMA0_GFX_RB_CNTL + sdma_offsets[i], rb_cntl | SDMA0_GFX_RB_CNTL__RB_ENABLE_MASK); ib_cntl = SDMA0_GFX_IB_CNTL__IB_ENABLE_MASK; #ifdef __BIG_ENDIAN ib_cntl |= SDMA0_GFX_IB_CNTL__IB_SWAP_ENABLE_MASK; #endif /* enable DMA IBs */ WREG32(mmSDMA0_GFX_IB_CNTL + sdma_offsets[i], ib_cntl); ring->ready = true; } cik_sdma_enable(adev, true); for (i = 0; i < adev->sdma.num_instances; i++) { ring = &adev->sdma.instance[i].ring; r = amdgpu_ring_test_ring(ring); if (r) { ring->ready = false; return r; } if (adev->mman.buffer_funcs_ring == ring) amdgpu_ttm_set_active_vram_size(adev, adev->mc.real_vram_size); } return 0; } /** * cik_sdma_rlc_resume - setup and start the async dma engines * * @adev: amdgpu_device pointer * * Set up the compute DMA queues and enable them (CIK). * Returns 0 for success, error for failure. */ static int cik_sdma_rlc_resume(struct amdgpu_device *adev) { /* XXX todo */ return 0; } /** * cik_sdma_load_microcode - load the sDMA ME ucode * * @adev: amdgpu_device pointer * * Loads the sDMA0/1 ucode. * Returns 0 for success, -EINVAL if the ucode is not available. */ static int cik_sdma_load_microcode(struct amdgpu_device *adev) { const struct sdma_firmware_header_v1_0 *hdr; const __le32 *fw_data; u32 fw_size; int i, j; /* halt the MEs */ cik_sdma_enable(adev, false); for (i = 0; i < adev->sdma.num_instances; i++) { if (!adev->sdma.instance[i].fw) return -EINVAL; hdr = (const struct sdma_firmware_header_v1_0 *)adev->sdma.instance[i].fw->data; amdgpu_ucode_print_sdma_hdr(&hdr->header); fw_size = le32_to_cpu(hdr->header.ucode_size_bytes) / 4; adev->sdma.instance[i].fw_version = le32_to_cpu(hdr->header.ucode_version); adev->sdma.instance[i].feature_version = le32_to_cpu(hdr->ucode_feature_version); if (adev->sdma.instance[i].feature_version >= 20) adev->sdma.instance[i].burst_nop = true; fw_data = (const __le32 *) (adev->sdma.instance[i].fw->data + le32_to_cpu(hdr->header.ucode_array_offset_bytes)); WREG32(mmSDMA0_UCODE_ADDR + sdma_offsets[i], 0); for (j = 0; j < fw_size; j++) WREG32(mmSDMA0_UCODE_DATA + sdma_offsets[i], le32_to_cpup(fw_data++)); WREG32(mmSDMA0_UCODE_ADDR + sdma_offsets[i], adev->sdma.instance[i].fw_version); } return 0; } /** * cik_sdma_start - setup and start the async dma engines * * @adev: amdgpu_device pointer * * Set up the DMA engines and enable them (CIK). * Returns 0 for success, error for failure. */ static int cik_sdma_start(struct amdgpu_device *adev) { int r; r = cik_sdma_load_microcode(adev); if (r) return r; /* halt the engine before programing */ cik_sdma_enable(adev, false); /* enable sdma ring preemption */ cik_ctx_switch_enable(adev, true); /* start the gfx rings and rlc compute queues */ r = cik_sdma_gfx_resume(adev); if (r) return r; r = cik_sdma_rlc_resume(adev); if (r) return r; return 0; } /** * cik_sdma_ring_test_ring - simple async dma engine test * * @ring: amdgpu_ring structure holding ring information * * Test the DMA engine by writing using it to write an * value to memory. (CIK). * Returns 0 for success, error for failure. */ static int cik_sdma_ring_test_ring(struct amdgpu_ring *ring) { struct amdgpu_device *adev = ring->adev; unsigned i; unsigned index; int r; u32 tmp; u64 gpu_addr; r = amdgpu_wb_get(adev, &index); if (r) { dev_err(adev->dev, "(%d) failed to allocate wb slot\n", r); return r; } gpu_addr = adev->wb.gpu_addr + (index * 4); tmp = 0xCAFEDEAD; adev->wb.wb[index] = cpu_to_le32(tmp); r = amdgpu_ring_alloc(ring, 5); if (r) { DRM_ERROR("amdgpu: dma failed to lock ring %d (%d).\n", ring->idx, r); amdgpu_wb_free(adev, index); return r; } amdgpu_ring_write(ring, SDMA_PACKET(SDMA_OPCODE_WRITE, SDMA_WRITE_SUB_OPCODE_LINEAR, 0)); amdgpu_ring_write(ring, lower_32_bits(gpu_addr)); amdgpu_ring_write(ring, upper_32_bits(gpu_addr)); amdgpu_ring_write(ring, 1); /* number of DWs to follow */ amdgpu_ring_write(ring, 0xDEADBEEF); amdgpu_ring_commit(ring); for (i = 0; i < adev->usec_timeout; i++) { tmp = le32_to_cpu(adev->wb.wb[index]); if (tmp == 0xDEADBEEF) break; DRM_UDELAY(1); } if (i < adev->usec_timeout) { DRM_INFO("ring test on %d succeeded in %d usecs\n", ring->idx, i); } else { DRM_ERROR("amdgpu: ring %d test failed (0x%08X)\n", ring->idx, tmp); r = -EINVAL; } amdgpu_wb_free(adev, index); return r; } /** * cik_sdma_ring_test_ib - test an IB on the DMA engine * * @ring: amdgpu_ring structure holding ring information * * Test a simple IB in the DMA ring (CIK). * Returns 0 on success, error on failure. */ static int cik_sdma_ring_test_ib(struct amdgpu_ring *ring, long timeout) { struct amdgpu_device *adev = ring->adev; struct amdgpu_ib ib; struct dma_fence *f = NULL; unsigned index; u32 tmp = 0; u64 gpu_addr; long r; r = amdgpu_wb_get(adev, &index); if (r) { dev_err(adev->dev, "(%ld) failed to allocate wb slot\n", r); return r; } gpu_addr = adev->wb.gpu_addr + (index * 4); tmp = 0xCAFEDEAD; adev->wb.wb[index] = cpu_to_le32(tmp); memset(&ib, 0, sizeof(ib)); r = amdgpu_ib_get(adev, NULL, 256, &ib); if (r) { DRM_ERROR("amdgpu: failed to get ib (%ld).\n", r); goto err0; } ib.ptr[0] = SDMA_PACKET(SDMA_OPCODE_WRITE, SDMA_WRITE_SUB_OPCODE_LINEAR, 0); ib.ptr[1] = lower_32_bits(gpu_addr); ib.ptr[2] = upper_32_bits(gpu_addr); ib.ptr[3] = 1; ib.ptr[4] = 0xDEADBEEF; ib.length_dw = 5; r = amdgpu_ib_schedule(ring, 1, &ib, NULL, &f); if (r) goto err1; r = dma_fence_wait_timeout(f, false, timeout); if (r == 0) { DRM_ERROR("amdgpu: IB test timed out\n"); r = -ETIMEDOUT; goto err1; } else if (r < 0) { DRM_ERROR("amdgpu: fence wait failed (%ld).\n", r); goto err1; } tmp = le32_to_cpu(adev->wb.wb[index]); if (tmp == 0xDEADBEEF) { DRM_INFO("ib test on ring %d succeeded\n", ring->idx); r = 0; } else { DRM_ERROR("amdgpu: ib test failed (0x%08X)\n", tmp); r = -EINVAL; } err1: amdgpu_ib_free(adev, &ib, NULL); dma_fence_put(f); err0: amdgpu_wb_free(adev, index); return r; } /** * cik_sdma_vm_copy_pages - update PTEs by copying them from the GART * * @ib: indirect buffer to fill with commands * @pe: addr of the page entry * @src: src addr to copy from * @count: number of page entries to update * * Update PTEs by copying them from the GART using sDMA (CIK). */ static void cik_sdma_vm_copy_pte(struct amdgpu_ib *ib, uint64_t pe, uint64_t src, unsigned count) { unsigned bytes = count * 8; ib->ptr[ib->length_dw++] = SDMA_PACKET(SDMA_OPCODE_COPY, SDMA_WRITE_SUB_OPCODE_LINEAR, 0); ib->ptr[ib->length_dw++] = bytes; ib->ptr[ib->length_dw++] = 0; /* src/dst endian swap */ ib->ptr[ib->length_dw++] = lower_32_bits(src); ib->ptr[ib->length_dw++] = upper_32_bits(src); ib->ptr[ib->length_dw++] = lower_32_bits(pe); ib->ptr[ib->length_dw++] = upper_32_bits(pe); } /** * cik_sdma_vm_write_pages - update PTEs by writing them manually * * @ib: indirect buffer to fill with commands * @pe: addr of the page entry * @value: dst addr to write into pe * @count: number of page entries to update * @incr: increase next addr by incr bytes * * Update PTEs by writing them manually using sDMA (CIK). */ static void cik_sdma_vm_write_pte(struct amdgpu_ib *ib, uint64_t pe, uint64_t value, unsigned count, uint32_t incr) { unsigned ndw = count * 2; ib->ptr[ib->length_dw++] = SDMA_PACKET(SDMA_OPCODE_WRITE, SDMA_WRITE_SUB_OPCODE_LINEAR, 0); ib->ptr[ib->length_dw++] = lower_32_bits(pe); ib->ptr[ib->length_dw++] = upper_32_bits(pe); ib->ptr[ib->length_dw++] = ndw; for (; ndw > 0; ndw -= 2) { ib->ptr[ib->length_dw++] = lower_32_bits(value); ib->ptr[ib->length_dw++] = upper_32_bits(value); value += incr; } } /** * cik_sdma_vm_set_pages - update the page tables using sDMA * * @ib: indirect buffer to fill with commands * @pe: addr of the page entry * @addr: dst addr to write into pe * @count: number of page entries to update * @incr: increase next addr by incr bytes * @flags: access flags * * Update the page tables using sDMA (CIK). */ static void cik_sdma_vm_set_pte_pde(struct amdgpu_ib *ib, uint64_t pe, uint64_t addr, unsigned count, uint32_t incr, uint64_t flags) { /* for physically contiguous pages (vram) */ ib->ptr[ib->length_dw++] = SDMA_PACKET(SDMA_OPCODE_GENERATE_PTE_PDE, 0, 0); ib->ptr[ib->length_dw++] = lower_32_bits(pe); /* dst addr */ ib->ptr[ib->length_dw++] = upper_32_bits(pe); ib->ptr[ib->length_dw++] = lower_32_bits(flags); /* mask */ ib->ptr[ib->length_dw++] = upper_32_bits(flags); ib->ptr[ib->length_dw++] = lower_32_bits(addr); /* value */ ib->ptr[ib->length_dw++] = upper_32_bits(addr); ib->ptr[ib->length_dw++] = incr; /* increment size */ ib->ptr[ib->length_dw++] = 0; ib->ptr[ib->length_dw++] = count; /* number of entries */ } /** * cik_sdma_vm_pad_ib - pad the IB to the required number of dw * * @ib: indirect buffer to fill with padding * */ static void cik_sdma_ring_pad_ib(struct amdgpu_ring *ring, struct amdgpu_ib *ib) { struct amdgpu_sdma_instance *sdma = amdgpu_get_sdma_instance(ring); u32 pad_count; int i; pad_count = (8 - (ib->length_dw & 0x7)) % 8; for (i = 0; i < pad_count; i++) if (sdma && sdma->burst_nop && (i == 0)) ib->ptr[ib->length_dw++] = SDMA_PACKET(SDMA_OPCODE_NOP, 0, 0) | SDMA_NOP_COUNT(pad_count - 1); else ib->ptr[ib->length_dw++] = SDMA_PACKET(SDMA_OPCODE_NOP, 0, 0); } /** * cik_sdma_ring_emit_pipeline_sync - sync the pipeline * * @ring: amdgpu_ring pointer * * Make sure all previous operations are completed (CIK). */ static void cik_sdma_ring_emit_pipeline_sync(struct amdgpu_ring *ring) { uint32_t seq = ring->fence_drv.sync_seq; uint64_t addr = ring->fence_drv.gpu_addr; /* wait for idle */ amdgpu_ring_write(ring, SDMA_PACKET(SDMA_OPCODE_POLL_REG_MEM, 0, SDMA_POLL_REG_MEM_EXTRA_OP(0) | SDMA_POLL_REG_MEM_EXTRA_FUNC(3) | /* equal */ SDMA_POLL_REG_MEM_EXTRA_M)); amdgpu_ring_write(ring, addr & 0xfffffffc); amdgpu_ring_write(ring, upper_32_bits(addr) & 0xffffffff); amdgpu_ring_write(ring, seq); /* reference */ amdgpu_ring_write(ring, 0xffffffff); /* mask */ amdgpu_ring_write(ring, (0xfff << 16) | 4); /* retry count, poll interval */ } /** * cik_sdma_ring_emit_vm_flush - cik vm flush using sDMA * * @ring: amdgpu_ring pointer * @vm: amdgpu_vm pointer * * Update the page table base and flush the VM TLB * using sDMA (CIK). */ static void cik_sdma_ring_emit_vm_flush(struct amdgpu_ring *ring, unsigned vm_id, uint64_t pd_addr) { u32 extra_bits = (SDMA_POLL_REG_MEM_EXTRA_OP(0) | SDMA_POLL_REG_MEM_EXTRA_FUNC(0)); /* always */ amdgpu_ring_write(ring, SDMA_PACKET(SDMA_OPCODE_SRBM_WRITE, 0, 0xf000)); if (vm_id < 8) { amdgpu_ring_write(ring, (mmVM_CONTEXT0_PAGE_TABLE_BASE_ADDR + vm_id)); } else { amdgpu_ring_write(ring, (mmVM_CONTEXT8_PAGE_TABLE_BASE_ADDR + vm_id - 8)); } amdgpu_ring_write(ring, pd_addr >> 12); /* flush TLB */ amdgpu_ring_write(ring, SDMA_PACKET(SDMA_OPCODE_SRBM_WRITE, 0, 0xf000)); amdgpu_ring_write(ring, mmVM_INVALIDATE_REQUEST); amdgpu_ring_write(ring, 1 << vm_id); amdgpu_ring_write(ring, SDMA_PACKET(SDMA_OPCODE_POLL_REG_MEM, 0, extra_bits)); amdgpu_ring_write(ring, mmVM_INVALIDATE_REQUEST << 2); amdgpu_ring_write(ring, 0); amdgpu_ring_write(ring, 0); /* reference */ amdgpu_ring_write(ring, 0); /* mask */ amdgpu_ring_write(ring, (0xfff << 16) | 10); /* retry count, poll interval */ } static void cik_enable_sdma_mgcg(struct amdgpu_device *adev, bool enable) { u32 orig, data; if (enable && (adev->cg_flags & AMD_CG_SUPPORT_SDMA_MGCG)) { WREG32(mmSDMA0_CLK_CTRL + SDMA0_REGISTER_OFFSET, 0x00000100); WREG32(mmSDMA0_CLK_CTRL + SDMA1_REGISTER_OFFSET, 0x00000100); } else { orig = data = RREG32(mmSDMA0_CLK_CTRL + SDMA0_REGISTER_OFFSET); data |= 0xff000000; if (data != orig) WREG32(mmSDMA0_CLK_CTRL + SDMA0_REGISTER_OFFSET, data); orig = data = RREG32(mmSDMA0_CLK_CTRL + SDMA1_REGISTER_OFFSET); data |= 0xff000000; if (data != orig) WREG32(mmSDMA0_CLK_CTRL + SDMA1_REGISTER_OFFSET, data); } } static void cik_enable_sdma_mgls(struct amdgpu_device *adev, bool enable) { u32 orig, data; if (enable && (adev->cg_flags & AMD_CG_SUPPORT_SDMA_LS)) { orig = data = RREG32(mmSDMA0_POWER_CNTL + SDMA0_REGISTER_OFFSET); data |= 0x100; if (orig != data) WREG32(mmSDMA0_POWER_CNTL + SDMA0_REGISTER_OFFSET, data); orig = data = RREG32(mmSDMA0_POWER_CNTL + SDMA1_REGISTER_OFFSET); data |= 0x100; if (orig != data) WREG32(mmSDMA0_POWER_CNTL + SDMA1_REGISTER_OFFSET, data); } else { orig = data = RREG32(mmSDMA0_POWER_CNTL + SDMA0_REGISTER_OFFSET); data &= ~0x100; if (orig != data) WREG32(mmSDMA0_POWER_CNTL + SDMA0_REGISTER_OFFSET, data); orig = data = RREG32(mmSDMA0_POWER_CNTL + SDMA1_REGISTER_OFFSET); data &= ~0x100; if (orig != data) WREG32(mmSDMA0_POWER_CNTL + SDMA1_REGISTER_OFFSET, data); } } static int cik_sdma_early_init(void *handle) { struct amdgpu_device *adev = (struct amdgpu_device *)handle; adev->sdma.num_instances = SDMA_MAX_INSTANCE; cik_sdma_set_ring_funcs(adev); cik_sdma_set_irq_funcs(adev); cik_sdma_set_buffer_funcs(adev); cik_sdma_set_vm_pte_funcs(adev); return 0; } static int cik_sdma_sw_init(void *handle) { struct amdgpu_ring *ring; struct amdgpu_device *adev = (struct amdgpu_device *)handle; int r, i; r = cik_sdma_init_microcode(adev); if (r) { DRM_ERROR("Failed to load sdma firmware!\n"); return r; } /* SDMA trap event */ r = amdgpu_irq_add_id(adev, AMDGPU_IH_CLIENTID_LEGACY, 224, &adev->sdma.trap_irq); if (r) return r; /* SDMA Privileged inst */ r = amdgpu_irq_add_id(adev, AMDGPU_IH_CLIENTID_LEGACY, 241, &adev->sdma.illegal_inst_irq); if (r) return r; /* SDMA Privileged inst */ r = amdgpu_irq_add_id(adev, AMDGPU_IH_CLIENTID_LEGACY, 247, &adev->sdma.illegal_inst_irq); if (r) return r; for (i = 0; i < adev->sdma.num_instances; i++) { ring = &adev->sdma.instance[i].ring; ring->ring_obj = NULL; sprintf(ring->name, "sdma%d", i); r = amdgpu_ring_init(adev, ring, 1024, &adev->sdma.trap_irq, (i == 0) ? AMDGPU_SDMA_IRQ_TRAP0 : AMDGPU_SDMA_IRQ_TRAP1); if (r) return r; } return r; } static int cik_sdma_sw_fini(void *handle) { struct amdgpu_device *adev = (struct amdgpu_device *)handle; int i; for (i = 0; i < adev->sdma.num_instances; i++) amdgpu_ring_fini(&adev->sdma.instance[i].ring); cik_sdma_free_microcode(adev); return 0; } static int cik_sdma_hw_init(void *handle) { int r; struct amdgpu_device *adev = (struct amdgpu_device *)handle; r = cik_sdma_start(adev); if (r) return r; return r; } static int cik_sdma_hw_fini(void *handle) { struct amdgpu_device *adev = (struct amdgpu_device *)handle; cik_ctx_switch_enable(adev, false); cik_sdma_enable(adev, false); return 0; } static int cik_sdma_suspend(void *handle) { struct amdgpu_device *adev = (struct amdgpu_device *)handle; return cik_sdma_hw_fini(adev); } static int cik_sdma_resume(void *handle) { struct amdgpu_device *adev = (struct amdgpu_device *)handle; cik_sdma_soft_reset(handle); return cik_sdma_hw_init(adev); } static bool cik_sdma_is_idle(void *handle) { struct amdgpu_device *adev = (struct amdgpu_device *)handle; u32 tmp = RREG32(mmSRBM_STATUS2); if (tmp & (SRBM_STATUS2__SDMA_BUSY_MASK | SRBM_STATUS2__SDMA1_BUSY_MASK)) return false; return true; } static int cik_sdma_wait_for_idle(void *handle) { unsigned i; u32 tmp; struct amdgpu_device *adev = (struct amdgpu_device *)handle; for (i = 0; i < adev->usec_timeout; i++) { tmp = RREG32(mmSRBM_STATUS2) & (SRBM_STATUS2__SDMA_BUSY_MASK | SRBM_STATUS2__SDMA1_BUSY_MASK); if (!tmp) return 0; udelay(1); } return -ETIMEDOUT; } static int cik_sdma_soft_reset(void *handle) { u32 srbm_soft_reset = 0; struct amdgpu_device *adev = (struct amdgpu_device *)handle; u32 tmp = RREG32(mmSRBM_STATUS2); if (tmp & SRBM_STATUS2__SDMA_BUSY_MASK) { /* sdma0 */ tmp = RREG32(mmSDMA0_F32_CNTL + SDMA0_REGISTER_OFFSET); tmp |= SDMA0_F32_CNTL__HALT_MASK; WREG32(mmSDMA0_F32_CNTL + SDMA0_REGISTER_OFFSET, tmp); srbm_soft_reset |= SRBM_SOFT_RESET__SOFT_RESET_SDMA_MASK; } if (tmp & SRBM_STATUS2__SDMA1_BUSY_MASK) { /* sdma1 */ tmp = RREG32(mmSDMA0_F32_CNTL + SDMA1_REGISTER_OFFSET); tmp |= SDMA0_F32_CNTL__HALT_MASK; WREG32(mmSDMA0_F32_CNTL + SDMA1_REGISTER_OFFSET, tmp); srbm_soft_reset |= SRBM_SOFT_RESET__SOFT_RESET_SDMA1_MASK; } if (srbm_soft_reset) { tmp = RREG32(mmSRBM_SOFT_RESET); tmp |= srbm_soft_reset; dev_info(adev->dev, "SRBM_SOFT_RESET=0x%08X\n", tmp); WREG32(mmSRBM_SOFT_RESET, tmp); tmp = RREG32(mmSRBM_SOFT_RESET); udelay(50); tmp &= ~srbm_soft_reset; WREG32(mmSRBM_SOFT_RESET, tmp); tmp = RREG32(mmSRBM_SOFT_RESET); /* Wait a little for things to settle down */ udelay(50); } return 0; } static int cik_sdma_set_trap_irq_state(struct amdgpu_device *adev, struct amdgpu_irq_src *src, unsigned type, enum amdgpu_interrupt_state state) { u32 sdma_cntl; switch (type) { case AMDGPU_SDMA_IRQ_TRAP0: switch (state) { case AMDGPU_IRQ_STATE_DISABLE: sdma_cntl = RREG32(mmSDMA0_CNTL + SDMA0_REGISTER_OFFSET); sdma_cntl &= ~SDMA0_CNTL__TRAP_ENABLE_MASK; WREG32(mmSDMA0_CNTL + SDMA0_REGISTER_OFFSET, sdma_cntl); break; case AMDGPU_IRQ_STATE_ENABLE: sdma_cntl = RREG32(mmSDMA0_CNTL + SDMA0_REGISTER_OFFSET); sdma_cntl |= SDMA0_CNTL__TRAP_ENABLE_MASK; WREG32(mmSDMA0_CNTL + SDMA0_REGISTER_OFFSET, sdma_cntl); break; default: break; } break; case AMDGPU_SDMA_IRQ_TRAP1: switch (state) { case AMDGPU_IRQ_STATE_DISABLE: sdma_cntl = RREG32(mmSDMA0_CNTL + SDMA1_REGISTER_OFFSET); sdma_cntl &= ~SDMA0_CNTL__TRAP_ENABLE_MASK; WREG32(mmSDMA0_CNTL + SDMA1_REGISTER_OFFSET, sdma_cntl); break; case AMDGPU_IRQ_STATE_ENABLE: sdma_cntl = RREG32(mmSDMA0_CNTL + SDMA1_REGISTER_OFFSET); sdma_cntl |= SDMA0_CNTL__TRAP_ENABLE_MASK; WREG32(mmSDMA0_CNTL + SDMA1_REGISTER_OFFSET, sdma_cntl); break; default: break; } break; default: break; } return 0; } static int cik_sdma_process_trap_irq(struct amdgpu_device *adev, struct amdgpu_irq_src *source, struct amdgpu_iv_entry *entry) { u8 instance_id, queue_id; instance_id = (entry->ring_id & 0x3) >> 0; queue_id = (entry->ring_id & 0xc) >> 2; DRM_DEBUG("IH: SDMA trap\n"); switch (instance_id) { case 0: switch (queue_id) { case 0: amdgpu_fence_process(&adev->sdma.instance[0].ring); break; case 1: /* XXX compute */ break; case 2: /* XXX compute */ break; } break; case 1: switch (queue_id) { case 0: amdgpu_fence_process(&adev->sdma.instance[1].ring); break; case 1: /* XXX compute */ break; case 2: /* XXX compute */ break; } break; } return 0; } static int cik_sdma_process_illegal_inst_irq(struct amdgpu_device *adev, struct amdgpu_irq_src *source, struct amdgpu_iv_entry *entry) { DRM_ERROR("Illegal instruction in SDMA command stream\n"); schedule_work(&adev->reset_work); return 0; } static int cik_sdma_set_clockgating_state(void *handle, enum amd_clockgating_state state) { bool gate = false; struct amdgpu_device *adev = (struct amdgpu_device *)handle; if (state == AMD_CG_STATE_GATE) gate = true; cik_enable_sdma_mgcg(adev, gate); cik_enable_sdma_mgls(adev, gate); return 0; } static int cik_sdma_set_powergating_state(void *handle, enum amd_powergating_state state) { return 0; } static const struct amd_ip_funcs cik_sdma_ip_funcs = { .name = "cik_sdma", .early_init = cik_sdma_early_init, .late_init = NULL, .sw_init = cik_sdma_sw_init, .sw_fini = cik_sdma_sw_fini, .hw_init = cik_sdma_hw_init, .hw_fini = cik_sdma_hw_fini, .suspend = cik_sdma_suspend, .resume = cik_sdma_resume, .is_idle = cik_sdma_is_idle, .wait_for_idle = cik_sdma_wait_for_idle, .soft_reset = cik_sdma_soft_reset, .set_clockgating_state = cik_sdma_set_clockgating_state, .set_powergating_state = cik_sdma_set_powergating_state, }; static const struct amdgpu_ring_funcs cik_sdma_ring_funcs = { .type = AMDGPU_RING_TYPE_SDMA, .align_mask = 0xf, .nop = SDMA_PACKET(SDMA_OPCODE_NOP, 0, 0), .support_64bit_ptrs = false, .get_rptr = cik_sdma_ring_get_rptr, .get_wptr = cik_sdma_ring_get_wptr, .set_wptr = cik_sdma_ring_set_wptr, .emit_frame_size = 6 + /* cik_sdma_ring_emit_hdp_flush */ 3 + /* cik_sdma_ring_emit_hdp_invalidate */ 6 + /* cik_sdma_ring_emit_pipeline_sync */ 12 + /* cik_sdma_ring_emit_vm_flush */ 9 + 9 + 9, /* cik_sdma_ring_emit_fence x3 for user fence, vm fence */ .emit_ib_size = 7 + 4, /* cik_sdma_ring_emit_ib */ .emit_ib = cik_sdma_ring_emit_ib, .emit_fence = cik_sdma_ring_emit_fence, .emit_pipeline_sync = cik_sdma_ring_emit_pipeline_sync, .emit_vm_flush = cik_sdma_ring_emit_vm_flush, .emit_hdp_flush = cik_sdma_ring_emit_hdp_flush, .emit_hdp_invalidate = cik_sdma_ring_emit_hdp_invalidate, .test_ring = cik_sdma_ring_test_ring, .test_ib = cik_sdma_ring_test_ib, .insert_nop = cik_sdma_ring_insert_nop, .pad_ib = cik_sdma_ring_pad_ib, }; static void cik_sdma_set_ring_funcs(struct amdgpu_device *adev) { int i; for (i = 0; i < adev->sdma.num_instances; i++) adev->sdma.instance[i].ring.funcs = &cik_sdma_ring_funcs; } static const struct amdgpu_irq_src_funcs cik_sdma_trap_irq_funcs = { .set = cik_sdma_set_trap_irq_state, .process = cik_sdma_process_trap_irq, }; static const struct amdgpu_irq_src_funcs cik_sdma_illegal_inst_irq_funcs = { .process = cik_sdma_process_illegal_inst_irq, }; static void cik_sdma_set_irq_funcs(struct amdgpu_device *adev) { adev->sdma.trap_irq.num_types = AMDGPU_SDMA_IRQ_LAST; adev->sdma.trap_irq.funcs = &cik_sdma_trap_irq_funcs; adev->sdma.illegal_inst_irq.funcs = &cik_sdma_illegal_inst_irq_funcs; } /** * cik_sdma_emit_copy_buffer - copy buffer using the sDMA engine * * @ring: amdgpu_ring structure holding ring information * @src_offset: src GPU address * @dst_offset: dst GPU address * @byte_count: number of bytes to xfer * * Copy GPU buffers using the DMA engine (CIK). * Used by the amdgpu ttm implementation to move pages if * registered as the asic copy callback. */ static void cik_sdma_emit_copy_buffer(struct amdgpu_ib *ib, uint64_t src_offset, uint64_t dst_offset, uint32_t byte_count) { ib->ptr[ib->length_dw++] = SDMA_PACKET(SDMA_OPCODE_COPY, SDMA_COPY_SUB_OPCODE_LINEAR, 0); ib->ptr[ib->length_dw++] = byte_count; ib->ptr[ib->length_dw++] = 0; /* src/dst endian swap */ ib->ptr[ib->length_dw++] = lower_32_bits(src_offset); ib->ptr[ib->length_dw++] = upper_32_bits(src_offset); ib->ptr[ib->length_dw++] = lower_32_bits(dst_offset); ib->ptr[ib->length_dw++] = upper_32_bits(dst_offset); } /** * cik_sdma_emit_fill_buffer - fill buffer using the sDMA engine * * @ring: amdgpu_ring structure holding ring information * @src_data: value to write to buffer * @dst_offset: dst GPU address * @byte_count: number of bytes to xfer * * Fill GPU buffers using the DMA engine (CIK). */ static void cik_sdma_emit_fill_buffer(struct amdgpu_ib *ib, uint32_t src_data, uint64_t dst_offset, uint32_t byte_count) { ib->ptr[ib->length_dw++] = SDMA_PACKET(SDMA_OPCODE_CONSTANT_FILL, 0, 0); ib->ptr[ib->length_dw++] = lower_32_bits(dst_offset); ib->ptr[ib->length_dw++] = upper_32_bits(dst_offset); ib->ptr[ib->length_dw++] = src_data; ib->ptr[ib->length_dw++] = byte_count; } static const struct amdgpu_buffer_funcs cik_sdma_buffer_funcs = { .copy_max_bytes = 0x1fffff, .copy_num_dw = 7, .emit_copy_buffer = cik_sdma_emit_copy_buffer, .fill_max_bytes = 0x1fffff, .fill_num_dw = 5, .emit_fill_buffer = cik_sdma_emit_fill_buffer, }; static void cik_sdma_set_buffer_funcs(struct amdgpu_device *adev) { if (adev->mman.buffer_funcs == NULL) { adev->mman.buffer_funcs = &cik_sdma_buffer_funcs; adev->mman.buffer_funcs_ring = &adev->sdma.instance[0].ring; } } static const struct amdgpu_vm_pte_funcs cik_sdma_vm_pte_funcs = { .copy_pte = cik_sdma_vm_copy_pte, .write_pte = cik_sdma_vm_write_pte, .set_pte_pde = cik_sdma_vm_set_pte_pde, }; static void cik_sdma_set_vm_pte_funcs(struct amdgpu_device *adev) { unsigned i; if (adev->vm_manager.vm_pte_funcs == NULL) { adev->vm_manager.vm_pte_funcs = &cik_sdma_vm_pte_funcs; for (i = 0; i < adev->sdma.num_instances; i++) adev->vm_manager.vm_pte_rings[i] = &adev->sdma.instance[i].ring; adev->vm_manager.vm_pte_num_rings = adev->sdma.num_instances; } } const struct amdgpu_ip_block_version cik_sdma_ip_block = { .type = AMD_IP_BLOCK_TYPE_SDMA, .major = 2, .minor = 0, .rev = 0, .funcs = &cik_sdma_ip_funcs, }; |