Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Jonathan Kim | 324 | 20.20% | 4 | 10.26% |
Tao Zhou | 282 | 17.58% | 12 | 30.77% |
Felix Kuhling | 246 | 15.34% | 2 | 5.13% |
Mukul Joshi | 245 | 15.27% | 3 | 7.69% |
Dennis Li | 211 | 13.15% | 2 | 5.13% |
Alex Deucher | 107 | 6.67% | 1 | 2.56% |
Shaoyun Liu | 92 | 5.74% | 1 | 2.56% |
Yong Zhao | 25 | 1.56% | 3 | 7.69% |
yipechai | 19 | 1.18% | 2 | 5.13% |
Andrew Lewycky | 18 | 1.12% | 2 | 5.13% |
Hawking Zhang | 16 | 1.00% | 1 | 2.56% |
Lan Xiao | 8 | 0.50% | 1 | 2.56% |
Graham Sider | 6 | 0.37% | 2 | 5.13% |
Harish Kasiviswanathan | 3 | 0.19% | 1 | 2.56% |
Li Yang | 1 | 0.06% | 1 | 2.56% |
Rajneesh Bhardwaj | 1 | 0.06% | 1 | 2.56% |
Total | 1604 | 39 |
/* * Copyright 2023 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. */ #include "kfd_events.h" #include "kfd_debug.h" #include "soc15_int.h" #include "kfd_device_queue_manager.h" /* * GFX10 SQ Interrupts * * There are 3 encoding types of interrupts sourced from SQ sent as a 44-bit * packet to the Interrupt Handler: * Auto - Generated by the SQG (various cmd overflows, timestamps etc) * Wave - Generated by S_SENDMSG through a shader program * Error - HW generated errors (Illegal instructions, Memviols, EDC etc) * * The 44-bit packet is mapped as {context_id1[7:0],context_id0[31:0]} plus * 4-bits for VMID (SOC15_VMID_FROM_IH_ENTRY) as such: * * - context_id1[7:6] * Encoding type (0 = Auto, 1 = Wave, 2 = Error) * * - context_id0[24] * PRIV bit indicates that Wave S_SEND or error occurred within trap * * - context_id0[22:0] * 23-bit data with the following layout per encoding type: * Auto - only context_id0[8:0] is used, which reports various interrupts * generated by SQG. The rest is 0. * Wave - user data sent from m0 via S_SENDMSG * Error - Error type (context_id0[22:19]), Error Details (rest of bits) * * The other context_id bits show coordinates (SE/SH/CU/SIMD/WGP) for wave * S_SENDMSG and Errors. These are 0 for Auto. */ enum SQ_INTERRUPT_WORD_ENCODING { SQ_INTERRUPT_WORD_ENCODING_AUTO = 0x0, SQ_INTERRUPT_WORD_ENCODING_INST, SQ_INTERRUPT_WORD_ENCODING_ERROR, }; enum SQ_INTERRUPT_ERROR_TYPE { SQ_INTERRUPT_ERROR_TYPE_EDC_FUE = 0x0, SQ_INTERRUPT_ERROR_TYPE_ILLEGAL_INST, SQ_INTERRUPT_ERROR_TYPE_MEMVIOL, SQ_INTERRUPT_ERROR_TYPE_EDC_FED, }; /* SQ_INTERRUPT_WORD_AUTO_CTXID */ #define SQ_INTERRUPT_WORD_AUTO_CTXID0__THREAD_TRACE__SHIFT 0 #define SQ_INTERRUPT_WORD_AUTO_CTXID0__WLT__SHIFT 1 #define SQ_INTERRUPT_WORD_AUTO_CTXID0__THREAD_TRACE_BUF0_FULL__SHIFT 2 #define SQ_INTERRUPT_WORD_AUTO_CTXID0__THREAD_TRACE_BUF1_FULL__SHIFT 3 #define SQ_INTERRUPT_WORD_AUTO_CTXID0__THREAD_TRACE_UTC_ERROR__SHIFT 7 #define SQ_INTERRUPT_WORD_AUTO_CTXID1__SE_ID__SHIFT 4 #define SQ_INTERRUPT_WORD_AUTO_CTXID1__ENCODING__SHIFT 6 #define SQ_INTERRUPT_WORD_AUTO_CTXID0__THREAD_TRACE_MASK 0x00000001 #define SQ_INTERRUPT_WORD_AUTO_CTXID0__WLT_MASK 0x00000002 #define SQ_INTERRUPT_WORD_AUTO_CTXID0__THREAD_TRACE_BUF0_FULL_MASK 0x00000004 #define SQ_INTERRUPT_WORD_AUTO_CTXID0__THREAD_TRACE_BUF1_FULL_MASK 0x00000008 #define SQ_INTERRUPT_WORD_AUTO_CTXID0__THREAD_TRACE_UTC_ERROR_MASK 0x00000080 #define SQ_INTERRUPT_WORD_AUTO_CTXID1__SE_ID_MASK 0x030 #define SQ_INTERRUPT_WORD_AUTO_CTXID1__ENCODING_MASK 0x0c0 /* SQ_INTERRUPT_WORD_WAVE_CTXID */ #define SQ_INTERRUPT_WORD_WAVE_CTXID0__DATA__SHIFT 0 #define SQ_INTERRUPT_WORD_WAVE_CTXID0__SA_ID__SHIFT 23 #define SQ_INTERRUPT_WORD_WAVE_CTXID0__PRIV__SHIFT 24 #define SQ_INTERRUPT_WORD_WAVE_CTXID0__WAVE_ID__SHIFT 25 #define SQ_INTERRUPT_WORD_WAVE_CTXID0__SIMD_ID__SHIFT 30 #define SQ_INTERRUPT_WORD_WAVE_CTXID1__WGP_ID__SHIFT 0 #define SQ_INTERRUPT_WORD_WAVE_CTXID1__SE_ID__SHIFT 4 #define SQ_INTERRUPT_WORD_WAVE_CTXID1__ENCODING__SHIFT 6 #define SQ_INTERRUPT_WORD_WAVE_CTXID0__DATA_MASK 0x000007fffff #define SQ_INTERRUPT_WORD_WAVE_CTXID0__SA_ID_MASK 0x0000800000 #define SQ_INTERRUPT_WORD_WAVE_CTXID0__PRIV_MASK 0x00001000000 #define SQ_INTERRUPT_WORD_WAVE_CTXID0__WAVE_ID_MASK 0x0003e000000 #define SQ_INTERRUPT_WORD_WAVE_CTXID0__SIMD_ID_MASK 0x000c0000000 #define SQ_INTERRUPT_WORD_WAVE_CTXID1__WGP_ID_MASK 0x00f #define SQ_INTERRUPT_WORD_WAVE_CTXID1__SE_ID_MASK 0x030 #define SQ_INTERRUPT_WORD_WAVE_CTXID1__ENCODING_MASK 0x0c0 #define KFD_CTXID0__ERR_TYPE_MASK 0x780000 #define KFD_CTXID0__ERR_TYPE__SHIFT 19 /* GFX10 SQ interrupt ENC type bit (context_id1[7:6]) for wave s_sendmsg */ #define KFD_CONTEXT_ID1_ENC_TYPE_WAVE_MASK 0x40 /* GFX10 SQ interrupt PRIV bit (context_id0[24]) for s_sendmsg inside trap */ #define KFD_CONTEXT_ID0_PRIV_MASK 0x1000000 /* * The debugger will send user data(m0) with PRIV=1 to indicate it requires * notification from the KFD with the following queue id (DOORBELL_ID) and * trap code (TRAP_CODE). */ #define KFD_CONTEXT_ID0_DEBUG_DOORBELL_MASK 0x0003ff #define KFD_CONTEXT_ID0_DEBUG_TRAP_CODE_SHIFT 10 #define KFD_CONTEXT_ID0_DEBUG_TRAP_CODE_MASK 0x07fc00 #define KFD_DEBUG_DOORBELL_ID(ctxid0) ((ctxid0) & \ KFD_CONTEXT_ID0_DEBUG_DOORBELL_MASK) #define KFD_DEBUG_TRAP_CODE(ctxid0) (((ctxid0) & \ KFD_CONTEXT_ID0_DEBUG_TRAP_CODE_MASK) \ >> KFD_CONTEXT_ID0_DEBUG_TRAP_CODE_SHIFT) #define KFD_DEBUG_CP_BAD_OP_ECODE_MASK 0x3fffc00 #define KFD_DEBUG_CP_BAD_OP_ECODE_SHIFT 10 #define KFD_DEBUG_CP_BAD_OP_ECODE(ctxid0) (((ctxid0) & \ KFD_DEBUG_CP_BAD_OP_ECODE_MASK) \ >> KFD_DEBUG_CP_BAD_OP_ECODE_SHIFT) static void event_interrupt_poison_consumption(struct kfd_node *dev, uint16_t pasid, uint16_t client_id) { enum amdgpu_ras_block block = 0; int old_poison, ret = -EINVAL; uint32_t reset = 0; struct kfd_process *p = kfd_lookup_process_by_pasid(pasid); if (!p) return; /* all queues of a process will be unmapped in one time */ old_poison = atomic_cmpxchg(&p->poison, 0, 1); kfd_unref_process(p); if (old_poison) return; switch (client_id) { case SOC15_IH_CLIENTID_SE0SH: case SOC15_IH_CLIENTID_SE1SH: case SOC15_IH_CLIENTID_SE2SH: case SOC15_IH_CLIENTID_SE3SH: case SOC15_IH_CLIENTID_UTCL2: ret = kfd_dqm_evict_pasid(dev->dqm, pasid); block = AMDGPU_RAS_BLOCK__GFX; if (ret) reset = AMDGPU_RAS_GPU_RESET_MODE2_RESET; break; case SOC15_IH_CLIENTID_SDMA0: case SOC15_IH_CLIENTID_SDMA1: case SOC15_IH_CLIENTID_SDMA2: case SOC15_IH_CLIENTID_SDMA3: case SOC15_IH_CLIENTID_SDMA4: block = AMDGPU_RAS_BLOCK__SDMA; reset = AMDGPU_RAS_GPU_RESET_MODE2_RESET; break; default: break; } kfd_signal_poison_consumed_event(dev, pasid); /* resetting queue passes, do page retirement without gpu reset * resetting queue fails, fallback to gpu reset solution */ if (!ret) dev_warn(dev->adev->dev, "RAS poison consumption, unmap queue flow succeeded: client id %d\n", client_id); else dev_warn(dev->adev->dev, "RAS poison consumption, fall back to gpu reset flow: client id %d\n", client_id); amdgpu_amdkfd_ras_poison_consumption_handler(dev->adev, block, reset); } static bool event_interrupt_isr_v10(struct kfd_node *dev, const uint32_t *ih_ring_entry, uint32_t *patched_ihre, bool *patched_flag) { uint16_t source_id, client_id, pasid, vmid; const uint32_t *data = ih_ring_entry; source_id = SOC15_SOURCE_ID_FROM_IH_ENTRY(ih_ring_entry); client_id = SOC15_CLIENT_ID_FROM_IH_ENTRY(ih_ring_entry); /* Only handle interrupts from KFD VMIDs */ vmid = SOC15_VMID_FROM_IH_ENTRY(ih_ring_entry); if (!KFD_IRQ_IS_FENCE(client_id, source_id) && (vmid < dev->vm_info.first_vmid_kfd || vmid > dev->vm_info.last_vmid_kfd)) return false; pasid = SOC15_PASID_FROM_IH_ENTRY(ih_ring_entry); /* Only handle clients we care about */ if (client_id != SOC15_IH_CLIENTID_GRBM_CP && client_id != SOC15_IH_CLIENTID_SDMA0 && client_id != SOC15_IH_CLIENTID_SDMA1 && client_id != SOC15_IH_CLIENTID_SDMA2 && client_id != SOC15_IH_CLIENTID_SDMA3 && client_id != SOC15_IH_CLIENTID_SDMA4 && client_id != SOC15_IH_CLIENTID_SDMA5 && client_id != SOC15_IH_CLIENTID_SDMA6 && client_id != SOC15_IH_CLIENTID_SDMA7 && client_id != SOC15_IH_CLIENTID_VMC && client_id != SOC15_IH_CLIENTID_VMC1 && client_id != SOC15_IH_CLIENTID_UTCL2 && client_id != SOC15_IH_CLIENTID_SE0SH && client_id != SOC15_IH_CLIENTID_SE1SH && client_id != SOC15_IH_CLIENTID_SE2SH && client_id != SOC15_IH_CLIENTID_SE3SH) return false; pr_debug("client id 0x%x, source id %d, vmid %d, pasid 0x%x. raw data:\n", client_id, source_id, vmid, pasid); pr_debug("%8X, %8X, %8X, %8X, %8X, %8X, %8X, %8X.\n", data[0], data[1], data[2], data[3], data[4], data[5], data[6], data[7]); /* If there is no valid PASID, it's likely a bug */ if (WARN_ONCE(pasid == 0, "Bug: No PASID in KFD interrupt")) return 0; /* Interrupt types we care about: various signals and faults. * They will be forwarded to a work queue (see below). */ return source_id == SOC15_INTSRC_CP_END_OF_PIPE || source_id == SOC15_INTSRC_SDMA_TRAP || source_id == SOC15_INTSRC_SQ_INTERRUPT_MSG || source_id == SOC15_INTSRC_CP_BAD_OPCODE || client_id == SOC15_IH_CLIENTID_VMC || client_id == SOC15_IH_CLIENTID_VMC1 || client_id == SOC15_IH_CLIENTID_UTCL2 || KFD_IRQ_IS_FENCE(client_id, source_id); } static void event_interrupt_wq_v10(struct kfd_node *dev, const uint32_t *ih_ring_entry) { uint16_t source_id, client_id, pasid, vmid; uint32_t context_id0, context_id1; uint32_t encoding, sq_intr_err_type; source_id = SOC15_SOURCE_ID_FROM_IH_ENTRY(ih_ring_entry); client_id = SOC15_CLIENT_ID_FROM_IH_ENTRY(ih_ring_entry); pasid = SOC15_PASID_FROM_IH_ENTRY(ih_ring_entry); vmid = SOC15_VMID_FROM_IH_ENTRY(ih_ring_entry); context_id0 = SOC15_CONTEXT_ID0_FROM_IH_ENTRY(ih_ring_entry); context_id1 = SOC15_CONTEXT_ID1_FROM_IH_ENTRY(ih_ring_entry); if (client_id == SOC15_IH_CLIENTID_GRBM_CP || client_id == SOC15_IH_CLIENTID_SE0SH || client_id == SOC15_IH_CLIENTID_SE1SH || client_id == SOC15_IH_CLIENTID_SE2SH || client_id == SOC15_IH_CLIENTID_SE3SH) { if (source_id == SOC15_INTSRC_CP_END_OF_PIPE) kfd_signal_event_interrupt(pasid, context_id0, 32); else if (source_id == SOC15_INTSRC_SQ_INTERRUPT_MSG) { encoding = REG_GET_FIELD(context_id1, SQ_INTERRUPT_WORD_WAVE_CTXID1, ENCODING); switch (encoding) { case SQ_INTERRUPT_WORD_ENCODING_AUTO: pr_debug_ratelimited( "sq_intr: auto, se %d, ttrace %d, wlt %d, ttrac_buf0_full %d, ttrac_buf1_full %d, ttrace_utc_err %d\n", REG_GET_FIELD(context_id1, SQ_INTERRUPT_WORD_AUTO_CTXID1, SE_ID), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_AUTO_CTXID0, THREAD_TRACE), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_AUTO_CTXID0, WLT), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_AUTO_CTXID0, THREAD_TRACE_BUF0_FULL), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_AUTO_CTXID0, THREAD_TRACE_BUF1_FULL), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_AUTO_CTXID0, THREAD_TRACE_UTC_ERROR)); break; case SQ_INTERRUPT_WORD_ENCODING_INST: pr_debug_ratelimited("sq_intr: inst, se %d, data 0x%x, sa %d, priv %d, wave_id %d, simd_id %d, wgp_id %d\n", REG_GET_FIELD(context_id1, SQ_INTERRUPT_WORD_WAVE_CTXID1, SE_ID), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_WAVE_CTXID0, DATA), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_WAVE_CTXID0, SA_ID), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_WAVE_CTXID0, PRIV), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_WAVE_CTXID0, WAVE_ID), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_WAVE_CTXID0, SIMD_ID), REG_GET_FIELD(context_id1, SQ_INTERRUPT_WORD_WAVE_CTXID1, WGP_ID)); if (context_id0 & SQ_INTERRUPT_WORD_WAVE_CTXID0__PRIV_MASK) { if (kfd_set_dbg_ev_from_interrupt(dev, pasid, KFD_DEBUG_DOORBELL_ID(context_id0), KFD_DEBUG_TRAP_CODE(context_id0), NULL, 0)) return; } break; case SQ_INTERRUPT_WORD_ENCODING_ERROR: sq_intr_err_type = REG_GET_FIELD(context_id0, KFD_CTXID0, ERR_TYPE); pr_warn_ratelimited("sq_intr: error, se %d, data 0x%x, sa %d, priv %d, wave_id %d, simd_id %d, wgp_id %d, err_type %d\n", REG_GET_FIELD(context_id1, SQ_INTERRUPT_WORD_WAVE_CTXID1, SE_ID), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_WAVE_CTXID0, DATA), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_WAVE_CTXID0, SA_ID), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_WAVE_CTXID0, PRIV), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_WAVE_CTXID0, WAVE_ID), REG_GET_FIELD(context_id0, SQ_INTERRUPT_WORD_WAVE_CTXID0, SIMD_ID), REG_GET_FIELD(context_id1, SQ_INTERRUPT_WORD_WAVE_CTXID1, WGP_ID), sq_intr_err_type); if (sq_intr_err_type != SQ_INTERRUPT_ERROR_TYPE_ILLEGAL_INST && sq_intr_err_type != SQ_INTERRUPT_ERROR_TYPE_MEMVIOL) { event_interrupt_poison_consumption(dev, pasid, source_id); return; } break; default: break; } kfd_signal_event_interrupt(pasid, context_id0 & 0x7fffff, 23); } else if (source_id == SOC15_INTSRC_CP_BAD_OPCODE && KFD_DBG_EC_TYPE_IS_PACKET(KFD_DEBUG_CP_BAD_OP_ECODE(context_id0))) { kfd_set_dbg_ev_from_interrupt(dev, pasid, KFD_DEBUG_DOORBELL_ID(context_id0), KFD_EC_MASK(KFD_DEBUG_CP_BAD_OP_ECODE(context_id0)), NULL, 0); } } else if (client_id == SOC15_IH_CLIENTID_SDMA0 || client_id == SOC15_IH_CLIENTID_SDMA1 || client_id == SOC15_IH_CLIENTID_SDMA2 || client_id == SOC15_IH_CLIENTID_SDMA3 || (client_id == SOC15_IH_CLIENTID_SDMA3_Sienna_Cichlid && KFD_GC_VERSION(dev) == IP_VERSION(10, 3, 0)) || client_id == SOC15_IH_CLIENTID_SDMA4 || client_id == SOC15_IH_CLIENTID_SDMA5 || client_id == SOC15_IH_CLIENTID_SDMA6 || client_id == SOC15_IH_CLIENTID_SDMA7) { if (source_id == SOC15_INTSRC_SDMA_TRAP) { kfd_signal_event_interrupt(pasid, context_id0 & 0xfffffff, 28); } else if (source_id == SOC15_INTSRC_SDMA_ECC) { event_interrupt_poison_consumption(dev, pasid, source_id); return; } } else if (client_id == SOC15_IH_CLIENTID_VMC || client_id == SOC15_IH_CLIENTID_VMC1 || client_id == SOC15_IH_CLIENTID_UTCL2) { struct kfd_vm_fault_info info = {0}; uint16_t ring_id = SOC15_RING_ID_FROM_IH_ENTRY(ih_ring_entry); uint32_t node_id = SOC15_NODEID_FROM_IH_ENTRY(ih_ring_entry); uint32_t vmid_type = SOC15_VMID_TYPE_FROM_IH_ENTRY(ih_ring_entry); int hub_inst = 0; struct kfd_hsa_memory_exception_data exception_data; /* gfxhub */ if (!vmid_type && dev->adev->gfx.funcs->ih_node_to_logical_xcc) { hub_inst = dev->adev->gfx.funcs->ih_node_to_logical_xcc(dev->adev, node_id); if (hub_inst < 0) hub_inst = 0; } /* mmhub */ if (vmid_type && client_id == SOC15_IH_CLIENTID_VMC) hub_inst = node_id / 4; if (amdgpu_amdkfd_ras_query_utcl2_poison_status(dev->adev, hub_inst, vmid_type)) { event_interrupt_poison_consumption(dev, pasid, client_id); return; } info.vmid = vmid; info.mc_id = client_id; info.page_addr = ih_ring_entry[4] | (uint64_t)(ih_ring_entry[5] & 0xf) << 32; info.prot_valid = ring_id & 0x08; info.prot_read = ring_id & 0x10; info.prot_write = ring_id & 0x20; memset(&exception_data, 0, sizeof(exception_data)); exception_data.gpu_id = dev->id; exception_data.va = (info.page_addr) << PAGE_SHIFT; exception_data.failure.NotPresent = info.prot_valid ? 1 : 0; exception_data.failure.NoExecute = info.prot_exec ? 1 : 0; exception_data.failure.ReadOnly = info.prot_write ? 1 : 0; exception_data.failure.imprecise = 0; kfd_set_dbg_ev_from_interrupt(dev, pasid, -1, KFD_EC_MASK(EC_DEVICE_MEMORY_VIOLATION), &exception_data, sizeof(exception_data)); } else if (KFD_IRQ_IS_FENCE(client_id, source_id)) { kfd_process_close_interrupt_drain(pasid); } } const struct kfd_event_interrupt_class event_interrupt_class_v10 = { .interrupt_isr = event_interrupt_isr_v10, .interrupt_wq = event_interrupt_wq_v10, };
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