/* * Copyright (c) 2014 Google Inc. All rights reserved * Contributed by Stephane Eranian * * 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 AUTHORS OR COPYRIGHT * HOLDERS 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. * * This file is part of libpfm, a performance monitoring support library for * applications on Linux. * * PMU: ivbep_unc_cbo (Intel IvyBridge-EP C-Box uncore PMU) */ #define CBO_FILT_MESIF(a, b, c, d) \ { .uname = "STATE_"#a,\ .udesc = #b" cacheline state",\ .ufilters[0] = 1ULL << (17 + (c)),\ .grpid = d, \ } #define CBO_FILT_MESIFS(d) \ CBO_FILT_MESIF(I, Invalid, 0, d), \ CBO_FILT_MESIF(S, Shared, 1, d), \ CBO_FILT_MESIF(E, Exclusive, 2, d), \ CBO_FILT_MESIF(M, Modified, 3, d), \ CBO_FILT_MESIF(F, Forward, 4, d), \ { .uname = "STATE_MESIF",\ .udesc = "Any cache line state",\ .ufilters[0] = 0x3fULL << 17,\ .grpid = d, \ .uflags = INTEL_X86_NCOMBO | INTEL_X86_DFL, \ } #define CBO_FILT_OPC(d) \ { .uname = "OPC_RFO",\ .udesc = "Demand data RFO (combine with any OPCODE umask)",\ .ufilters[1] = 0x180ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_CRD",\ .udesc = "Demand code read (combine with any OPCODE umask)",\ .ufilters[1] = 0x181ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_DRD",\ .udesc = "Demand data read (combine with any OPCODE umask)",\ .ufilters[1] = 0x182ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_PRD",\ .udesc = "Partial reads (UC) (combine with any OPCODE umask)",\ .ufilters[1] = 0x187ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_WCILF",\ .udesc = "Full Stream store (combine with any OPCODE umask)", \ .ufilters[1] = 0x18cULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_WCIL",\ .udesc = "Partial Stream store (combine with any OPCODE umask)", \ .ufilters[1] = 0x18dULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_PF_RFO",\ .udesc = "Prefetch RFO into LLC but do not pass to L2 (includes hints) (combine with any OPCODE umask)", \ .ufilters[1] = 0x190ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_PF_CODE",\ .udesc = "Prefetch code into LLC but do not pass to L2 (includes hints) (combine with any OPCODE umask)", \ .ufilters[1] = 0x191ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_PF_DATA",\ .udesc = "Prefetch data into LLC but do not pass to L2 (includes hints) (combine with any OPCODE umask)", \ .ufilters[1] = 0x192ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_PCIWILF",\ .udesc = "PCIe write (non-allocating) (combine with any OPCODE umask)", \ .ufilters[1] = 0x194ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_PCIPRD",\ .udesc = "PCIe UC read (combine with any OPCODE umask)", \ .ufilters[1] = 0x195ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_PCIITOM",\ .udesc = "PCIe write (allocating) (combine with any OPCODE umask)", \ .ufilters[1] = 0x19cULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_PCIRDCUR",\ .udesc = "PCIe read current (combine with any OPCODE umask)", \ .ufilters[1] = 0x19eULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_WBMTOI",\ .udesc = "Request writeback modified invalidate line (combine with any OPCODE umask)", \ .ufilters[1] = 0x1c4ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_WBMTOE",\ .udesc = "Request writeback modified set to exclusive (combine with any OPCODE umask)", \ .ufilters[1] = 0x1c5ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_ITOM",\ .udesc = "Request invalidate line (combine with any OPCODE umask)", \ .ufilters[1] = 0x1c8ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_PCINSRD",\ .udesc = "PCIe non-snoop read (combine with any OPCODE umask)", \ .ufilters[1] = 0x1e4ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_PCINSWR",\ .udesc = "PCIe non-snoop write (partial) (combine with any OPCODE umask)", \ .ufilters[1] = 0x1e5ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ }, \ { .uname = "OPC_PCINSWRF",\ .udesc = "PCIe non-snoop write (full) (combine with any OPCODE umask)", \ .ufilters[1] = 0x1e6ULL << 20, \ .uflags = INTEL_X86_NCOMBO, \ .grpid = d, \ } static const intel_x86_umask_t ivbep_unc_c_llc_lookup[]={ { .uname = "DATA_READ", .udesc = "Data read requests", .grpid = 0, .ucode = 0x300, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WRITE", .udesc = "Write requests. Includes all write transactions (cached, uncached)", .grpid = 0, .ucode = 0x500, .uflags = INTEL_X86_NCOMBO, }, { .uname = "REMOTE_SNOOP", .udesc = "External snoop request", .grpid = 0, .ucode = 0x900, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ANY", .udesc = "Any request", .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_DFL, .ucode = 0x1100, }, { .uname = "NID", .udesc = "Match a given RTID destination NID (must provide nf=X modifier)", .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .grpid = 1, .ucode = 0x4100, .uflags = INTEL_X86_GRP_DFL_NONE }, CBO_FILT_MESIFS(2), }; static const intel_x86_umask_t ivbep_unc_c_llc_victims[]={ { .uname = "STATE_M", .udesc = "Lines in M state", .ucode = 0x100, .grpid = 0, }, { .uname = "STATE_E", .udesc = "Lines in E state", .ucode = 0x200, .grpid = 0, }, { .uname = "STATE_S", .udesc = "Lines in S state", .ucode = 0x400, .grpid = 0, }, { .uname = "MISS", .udesc = "TBD", .ucode = 0x800, .grpid = 0, }, { .uname = "NID", .udesc = "Victimized Lines matching the NID filter (must provide nf=X modifier)", .ucode = 0x4000, .uflags = INTEL_X86_GRP_DFL_NONE, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .grpid = 1, }, }; static const intel_x86_umask_t ivbep_unc_c_ring_ad_used[]={ { .uname = "UP_VR0_EVEN", .udesc = "Up and Even ring polarity filter on virtual ring 0", .ucode = 0x100, }, { .uname = "UP_VR0_ODD", .udesc = "Up and odd ring polarity filter on virtual ring 0", .ucode = 0x200, }, { .uname = "DOWN_VR0_EVEN", .udesc = "Down and even ring polarity filter on virtual ring 0", .ucode = 0x400, }, { .uname = "DOWN_VR0_ODD", .udesc = "Down and odd ring polarity filter on virtual ring 0", .ucode = 0x800, }, { .uname = "UP_VR1_EVEN", .udesc = "Up and Even ring polarity filter on virtual ring 1", .ucode = 0x1000, }, { .uname = "UP_VR1_ODD", .udesc = "Up and odd ring polarity filter on virtual ring 1", .ucode = 0x2000, }, { .uname = "DOWN_VR1_EVEN", .udesc = "Down and even ring polarity filter on virtual ring 1", .ucode = 0x4000, }, { .uname = "DOWN_VR1_ODD", .udesc = "Down and odd ring polarity filter on virtual ring 1", .ucode = 0x8000, }, { .uname = "UP", .udesc = "Up on any virtual ring", .ucode = 0x3300, }, { .uname = "DOWN", .udesc = "Down any virtual ring", .ucode = 0xcc00, }, }; static const intel_x86_umask_t ivbep_unc_c_ring_bounces[]={ { .uname = "AD_IRQ", .udesc = "TBD", .ucode = 0x200, }, { .uname = "AK", .udesc = "Acknowledgments to core", .ucode = 0x400, }, { .uname = "BL", .udesc = "Data responses to core", .ucode = 0x800, }, { .uname = "IV", .udesc = "Snoops of processor cache", .ucode = 0x1000, }, }; static const intel_x86_umask_t ivbep_unc_c_ring_iv_used[]={ { .uname = "ANY", .udesc = "Any filter", .ucode = 0xf00, .uflags = INTEL_X86_DFL, }, { .uname = "UP", .udesc = "Filter on any up polarity", .ucode = 0x3300, }, { .uname = "DOWN", .udesc = "Filter on any down polarity", .ucode = 0xcc00, }, }; static const intel_x86_umask_t ivbep_unc_c_rxr_ext_starved[]={ { .uname = "IRQ", .udesc = "Irq externally starved, therefore blocking the IPQ", .ucode = 0x100, }, { .uname = "IPQ", .udesc = "IPQ externally starved, therefore blocking the IRQ", .ucode = 0x200, }, { .uname = "PRQ", .udesc = "IRQ is blocking the ingress queue and causing starvation", .ucode = 0x400, }, { .uname = "ISMQ_BIDS", .udesc = "Number of time the ISMQ bids", .ucode = 0x800, }, }; static const intel_x86_umask_t ivbep_unc_c_rxr_inserts[]={ { .uname = "IPQ", .udesc = "IPQ", .ucode = 0x400, .uflags = INTEL_X86_NCOMBO, }, { .uname = "IRQ", .udesc = "IRQ", .ucode = 0x100, .uflags = INTEL_X86_NCOMBO, }, { .uname = "IRQ_REJECTED", .udesc = "IRQ rejected", .ucode = 0x200, .uflags = INTEL_X86_NCOMBO, }, { .uname = "VFIFO", .udesc = "Counts the number of allocated into the IRQ ordering FIFO", .ucode = 0x1000, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t ivbep_unc_c_rxr_ipq_retry[]={ { .uname = "ADDR_CONFLICT", .udesc = "Address conflict", .ucode = 0x400, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ANY", .udesc = "Any Reject", .ucode = 0x100, .uflags = INTEL_X86_NCOMBO | INTEL_X86_DFL, }, { .uname = "FULL", .udesc = "No Egress credits", .ucode = 0x200, .uflags = INTEL_X86_NCOMBO, }, { .uname = "QPI_CREDITS", .udesc = "No QPI credits", .ucode = 0x1000, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t ivbep_unc_c_rxr_irq_retry[]={ { .uname = "ADDR_CONFLICT", .udesc = "Address conflict", .ucode = 0x400, .uflags = INTEL_X86_NCOMBO, }, { .uname = "ANY", .udesc = "Any reject", .ucode = 0x100, .uflags = INTEL_X86_NCOMBO | INTEL_X86_DFL, }, { .uname = "FULL", .udesc = "No Egress credits", .ucode = 0x200, .uflags = INTEL_X86_NCOMBO, }, { .uname = "QPI_CREDITS", .udesc = "No QPI credits", .ucode = 0x1000, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RTID", .udesc = "No RTIDs", .ucode = 0x800, .uflags = INTEL_X86_NCOMBO, }, { .uname = "IIO_CREDITS", .udesc = "No IIO Credits", .ucode = 0x2000, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t ivbep_unc_c_rxr_ismq_retry[]={ { .uname = "ANY", .udesc = "Any reject", .ucode = 0x100, .uflags = INTEL_X86_NCOMBO | INTEL_X86_DFL, }, { .uname = "FULL", .udesc = "No Egress credits", .ucode = 0x200, .uflags = INTEL_X86_NCOMBO, }, { .uname = "IIO_CREDITS", .udesc = "No IIO credits", .ucode = 0x2000, .uflags = INTEL_X86_NCOMBO, }, { .uname = "QPI_CREDITS", .udesc = "NO QPI credits", .ucode = 0x1000, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RTID", .udesc = "No RTIDs", .ucode = 0x800, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WB_CREDITS", .udesc = "No WB credits", .ucode = 0x8000, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t ivbep_unc_c_tor_inserts[]={ { .uname = "OPCODE", .udesc = "Number of transactions inserted into the TOR that match an opcode (must provide opc_* umask)", .ucode = 0x100, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "MISS_OPCODE", .udesc = "Number of miss transactions inserted into the TOR that match an opcode (must provide opc_* umask)", .ucode = 0x300, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "EVICTION", .udesc = "Number of Evictions transactions inserted into TOR", .ucode = 0x400, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "ALL", .udesc = "Number of transactions inserted in TOR", .ucode = 0x800, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_DFL | INTEL_X86_EXCL_GRP_GT, }, { .uname = "WB", .udesc = "Number of write transactions inserted into the TOR", .ucode = 0x1000, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "LOCAL_OPCODE", .udesc = "Number of opcode-matched transactions inserted into the TOR that are satisfied by locally homed memory", .ucode = 0x2100, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "MISS_LOCAL_OPCODE", .udesc = "Number of miss opcode-matched transactions inserted into the TOR that are satisfied by locally homed memory", .ucode = 0x2300, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "LOCAL", .udesc = "Number of transactions inserted into the TOR that are satisfied by locally homed memory", .ucode = 0x2800, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "MISS_LOCAL", .udesc = "Number of miss transactions inserted into the TOR that are satisfied by locally homed memory", .ucode = 0x2a00, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "NID_OPCODE", .udesc = "Number of transactions inserted into the TOR that match a NID and opcode (must provide opc_* umask and nf=X modifier)", .ucode = 0x4100, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO, }, { .uname = "NID_MISS_OPCODE", .udesc = "Number of NID and opcode matched miss transactions inserted into the TOR (must provide opc_* umask and nf=X modifier)", .ucode = 0x4300, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO, }, { .uname = "NID_EVICTION", .udesc = "Number of NID-matched eviction transactions inserted into the TOR (must provide nf=X modifier)", .ucode = 0x4400, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "NID_ALL", .udesc = "Number of NID-matched transactions inserted into the TOR (must provide nf=X modifier)", .ucode = 0x4800, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "NID_MISS_ALL", .udesc = "Number of NID-matched miss transactions that were inserted into the TOR (must provide nf=X modifier)", .ucode = 0x4a00, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "NID_WB", .udesc = "Number of NID-matched write back transactions inserted into the TOR (must provide nf=X modifier)", .ucode = 0x5000, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "REMOTE_OPCODE", .udesc = "Number of opcode-matched transactions inserted into the TOR that are satisfied by remote caches or memory", .ucode = 0x8100, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "MISS_REMOTE_OPCODE", .udesc = "Number of miss opcode-matched transactions inserted into the TOR that are satisfied by remote caches or memory", .ucode = 0x8300, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "REMOTE", .udesc = "Number of transactions inserted into the TOR that are satisfied by remote caches or memory", .ucode = 0x8800, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "MISS_REMOTE", .udesc = "Number of miss transactions inserted into the TOR that are satisfied by remote caches or memory", .ucode = 0x8a00, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, CBO_FILT_OPC(1) }; static const intel_x86_umask_t ivbep_unc_c_tor_occupancy[]={ { .uname = "OPCODE", .udesc = "Number of TOR entries that match an opcode (must provide opc_* umask)", .ucode = 0x100, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "MISS_OPCODE", .udesc = "Number of TOR entries that match a NID and an opcode (must provide opc_* umask)", .ucode = 0x300, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "EVICTION", .udesc = "Number of outstanding eviction transactions in the TOR", .ucode = 0x400, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "ALL", .udesc = "All valid TOR entries", .ucode = 0x800, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_DFL | INTEL_X86_EXCL_GRP_GT, }, { .uname = "MISS_ALL", .udesc = "Number of outstanding miss requests in the TOR", .ucode = 0xa00, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "WB", .udesc = "Number of write transactions in the TOR. Does not include RFO, but actual operations that contain data being sent from the core", .ucode = 0x1000, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "LOCAL_OPCODE", .udesc = "Number of opcode-matched transactions in the TOR that are satisfied by locally homed memory", .ucode = 0x2100, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "MISS_LOCAL_OPCODE", .udesc = "Number of miss opcode-matched transactions in the TOR that are satisfied by locally homed memory", .ucode = 0x2300, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "LOCAL", .udesc = "Number of transactions in the TOR that are satisfied by locally homed memory", .ucode = 0x2800, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "MISS_LOCAL", .udesc = "Number of miss transactions in the TOR that are satisfied by locally homed memory", .ucode = 0x2a00, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "NID_OPCODE", .udesc = "Number of NID-matched TOR entries that an opcode (must provide nf=X modifier and opc_* umask)", .ucode = 0x4100, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO, }, { .uname = "NID_MISS_OPCODE", .udesc = "Number of NID-matched outstanding miss requests in the TOR that an opcode (must provide nf=X modifier and opc_* umask)", .ucode = 0x4300, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO, }, { .uname = "NID_EVICTION", .udesc = "Number of NID-matched outstanding requests in the TOR (must provide a nf=X modifier)", .ucode = 0x4400, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "NID_ALL", .udesc = "Number of NID-matched outstanding requests in the TOR (must provide nf=X modifier)", .ucode = 0x4800, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "NID_MISS_ALL", .udesc = "Number of NID-matched outstanding miss requests in the TOR (must provide a nf=X modifier)", .ucode = 0x4a00, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "NID_WB", .udesc = "Number of NID-matched write transactions in the TOR (must provide a nf=X modifier)", .ucode = 0x5000, .grpid = 0, .umodmsk_req = _SNBEP_UNC_ATTR_NF1, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "REMOTE_OPCODE", .udesc = "Number of opcode-matched transactions in the TOR that are satisfied by remote caches or memory", .ucode = 0x8100, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "MISS_REMOTE_OPCODE", .udesc = "Number of miss opcode-matched transactions in the TOR that are satisfied by remote caches or memory", .ucode = 0x8300, .grpid = 0, .uflags = INTEL_X86_NCOMBO, }, { .uname = "REMOTE", .udesc = "Number of transactions in the TOR that are satisfied by remote caches or memory", .ucode = 0x8800, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, { .uname = "MISS_REMOTE", .udesc = "Number of miss transactions inserted into the TOR that are satisfied by remote caches or memory", .ucode = 0x8a00, .grpid = 0, .uflags = INTEL_X86_NCOMBO | INTEL_X86_EXCL_GRP_GT, }, CBO_FILT_OPC(1) }; static const intel_x86_umask_t ivbep_unc_c_txr_inserts[]={ { .uname = "AD_CACHE", .udesc = "Counts the number of ring transactions from Cachebo to AD ring", .ucode = 0x100, .uflags = INTEL_X86_NCOMBO, }, { .uname = "AK_CACHE", .udesc = "Counts the number of ring transactions from Cachebo to AK ring", .ucode = 0x200, .uflags = INTEL_X86_NCOMBO, }, { .uname = "BL_CACHE", .udesc = "Counts the number of ring transactions from Cachebo to BL ring", .ucode = 0x400, .uflags = INTEL_X86_NCOMBO, }, { .uname = "IV_CACHE", .udesc = "Counts the number of ring transactions from Cachebo ton IV ring", .ucode = 0x800, .uflags = INTEL_X86_NCOMBO, }, { .uname = "AD_CORE", .udesc = "Counts the number of ring transactions from Corebo to AD ring", .ucode = 0x1000, .uflags = INTEL_X86_NCOMBO, }, { .uname = "AK_CORE", .udesc = "Counts the number of ring transactions from Corebo to AK ring", .ucode = 0x2000, .uflags = INTEL_X86_NCOMBO, }, { .uname = "BL_CORE", .udesc = "Counts the number of ring transactions from Corebo to BL ring", .ucode = 0x4000, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_umask_t ivbep_unc_c_txr_ads_used[]={ { .uname = "AD", .udesc = "onto AD ring", .ucode = 0x100, .uflags = INTEL_X86_NCOMBO, }, { .uname = "AK", .udesc = "Onto AK ring", .ucode = 0x200, .uflags = INTEL_X86_NCOMBO, }, { .uname = "BL", .udesc = "Onto BL ring", .ucode = 0x400, .uflags = INTEL_X86_NCOMBO, } }; static const intel_x86_umask_t ivbep_unc_c_misc[]={ { .uname = "RSPI_WAS_FSE", .udesc = "Counts the number of times when a SNoop hit in FSE states and triggered a silent eviction. This is useful because this information is lost in the PRE encodings", .ucode = 0x100, .uflags = INTEL_X86_NCOMBO, }, { .uname = "WC_ALIASING", .udesc = "Counts the number of times a USWC write (WCIL(F)) transaction hits in the LLC in M state, triggering a WBMTOI followed by the USWC write. This occurs when there is WC aliasing", .ucode = 0x200, .uflags = INTEL_X86_NCOMBO, }, { .uname = "STARTED", .udesc = "TBD", .ucode = 0x400, .uflags = INTEL_X86_NCOMBO, }, { .uname = "RFO_HIT_S", .udesc = "Counts the number of times that an RFO hits in S state. This is useful for determining if it might be good for a workload to use RSPIWB instead of RSPSWB", .ucode = 0x800, .uflags = INTEL_X86_NCOMBO, }, }; static const intel_x86_entry_t intel_ivbep_unc_c_pe[]={ { .name = "UNC_C_CLOCKTICKS", .desc = "C-box Uncore clockticks", .modmsk = 0x0, .cntmsk = 0xf, .code = 0x00, .flags = INTEL_X86_FIXED, }, { .name = "UNC_C_COUNTER0_OCCUPANCY", .desc = "Counter 0 occupancy. Counts the occupancy related information by filtering CB0 occupancy count captured in counter 0.", .modmsk = IVBEP_UNC_CBO_ATTRS, .cntmsk = 0xe, .code = 0x1f, }, { .name = "UNC_C_LLC_LOOKUP", .desc = "Cache lookups", .modmsk = IVBEP_UNC_CBO_NID_ATTRS, .cntmsk = 0x3, .code = 0x34, .ngrp = 3, .flags = INTEL_X86_NO_AUTOENCODE, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_llc_lookup), .umasks = ivbep_unc_c_llc_lookup, }, { .name = "UNC_C_LLC_VICTIMS", .desc = "Lines victimized", .modmsk = IVBEP_UNC_CBO_NID_ATTRS, .cntmsk = 0x3, .code = 0x37, .flags = INTEL_X86_NO_AUTOENCODE, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_llc_victims), .ngrp = 2, .umasks = ivbep_unc_c_llc_victims, }, { .name = "UNC_C_MISC", .desc = "Miscellaneous C-Box events", .modmsk = IVBEP_UNC_CBO_ATTRS, .cntmsk = 0x3, .code = 0x39, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_misc), .ngrp = 1, .umasks = ivbep_unc_c_misc, }, { .name = "UNC_C_RING_AD_USED", .desc = "Address ring in use. Counts number of cycles ring is being used at this ring stop", .modmsk = IVBEP_UNC_CBO_ATTRS, .cntmsk = 0xc, .code = 0x1b, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_ring_ad_used), .ngrp = 1, .umasks = ivbep_unc_c_ring_ad_used, }, { .name = "UNC_C_RING_AK_USED", .desc = "Acknowledgement ring in use. Counts number of cycles ring is being used at this ring stop", .modmsk = IVBEP_UNC_CBO_ATTRS, .cntmsk = 0xc, .code = 0x1c, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_ring_ad_used), /* identical to RING_AD_USED */ .ngrp = 1, .umasks = ivbep_unc_c_ring_ad_used, }, { .name = "UNC_C_RING_BL_USED", .desc = "Bus or Data ring in use. Counts number of cycles ring is being used at this ring stop", .modmsk = IVBEP_UNC_CBO_ATTRS, .cntmsk = 0xc, .code = 0x1d, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_ring_ad_used), /* identical to RING_AD_USED */ .ngrp = 1, .umasks = ivbep_unc_c_ring_ad_used, }, { .name = "UNC_C_RING_BOUNCES", .desc = "Number of LLC responses that bounced in the ring", .modmsk = IVBEP_UNC_CBO_ATTRS, .cntmsk = 0x3, .code = 0x05, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_ring_bounces), .ngrp = 1, .umasks = ivbep_unc_c_ring_bounces, }, { .name = "UNC_C_RING_IV_USED", .desc = "Invalidate ring in use. Counts number of cycles ring is being used at this ring stop", .modmsk = IVBEP_UNC_CBO_ATTRS, .cntmsk = 0xc, .code = 0x1e, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_ring_iv_used), .ngrp = 1, .umasks = ivbep_unc_c_ring_iv_used, }, { .name = "UNC_C_RING_SRC_THRTL", .desc = "TDB", .modmsk = IVBEP_UNC_CBO_ATTRS, .cntmsk = 0x3, .code = 0x07, }, { .name = "UNC_C_RXR_EXT_STARVED", .desc = "Ingress arbiter blocking cycles", .modmsk = IVBEP_UNC_CBO_ATTRS, .cntmsk = 0x3, .code = 0x12, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_rxr_ext_starved), .ngrp = 1, .umasks = ivbep_unc_c_rxr_ext_starved, }, { .name = "UNC_C_RXR_INSERTS", .desc = "Ingress Allocations", .code = 0x13, .cntmsk = 0x3, .ngrp = 1, .modmsk = IVBEP_UNC_CBO_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_rxr_inserts), .umasks = ivbep_unc_c_rxr_inserts }, { .name = "UNC_C_RXR_IPQ_RETRY", .desc = "Probe Queue Retries", .code = 0x31, .cntmsk = 0x3, .ngrp = 1, .modmsk = IVBEP_UNC_CBO_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_rxr_ipq_retry), .umasks = ivbep_unc_c_rxr_ipq_retry }, { .name = "UNC_C_RXR_IRQ_RETRY", .desc = "Ingress Request Queue Rejects", .code = 0x32, .cntmsk = 0x3, .ngrp = 1, .modmsk = IVBEP_UNC_CBO_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_rxr_irq_retry), .umasks = ivbep_unc_c_rxr_irq_retry }, { .name = "UNC_C_RXR_ISMQ_RETRY", .desc = "ISMQ Retries", .code = 0x33, .cntmsk = 0x3, .ngrp = 1, .modmsk = IVBEP_UNC_CBO_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_rxr_ismq_retry), .umasks = ivbep_unc_c_rxr_ismq_retry }, { .name = "UNC_C_RXR_OCCUPANCY", .desc = "Ingress Occupancy", .code = 0x11, .cntmsk = 0x1, .ngrp = 1, .modmsk = IVBEP_UNC_CBO_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_rxr_inserts), .umasks = ivbep_unc_c_rxr_inserts, /* identical to ivbep_unc_c_rxr_inserts */ }, { .name = "UNC_C_TOR_INSERTS", .desc = "TOR Inserts", .code = 0x35, .cntmsk = 0x3, .ngrp = 2, .modmsk = IVBEP_UNC_CBO_NID_ATTRS | _SNBEP_UNC_ATTR_ISOC | _SNBEP_UNC_ATTR_NC, .flags = INTEL_X86_NO_AUTOENCODE, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_tor_inserts), .umasks = ivbep_unc_c_tor_inserts }, { .name = "UNC_C_TOR_OCCUPANCY", .desc = "TOR Occupancy", .code = 0x36, .cntmsk = 0x1, .ngrp = 2, .modmsk = IVBEP_UNC_CBO_NID_ATTRS | _SNBEP_UNC_ATTR_ISOC | _SNBEP_UNC_ATTR_NC, .flags = INTEL_X86_NO_AUTOENCODE, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_tor_occupancy), .umasks = ivbep_unc_c_tor_occupancy }, { .name = "UNC_C_TXR_ADS_USED", .desc = "Egress events", .code = 0x04, .cntmsk = 0x3, .ngrp = 1, .modmsk = IVBEP_UNC_CBO_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_txr_ads_used), .umasks = ivbep_unc_c_txr_ads_used }, { .name = "UNC_C_TXR_INSERTS", .desc = "Egress allocations", .code = 0x02, .cntmsk = 0x3, .ngrp = 1, .modmsk = IVBEP_UNC_CBO_ATTRS, .numasks = LIBPFM_ARRAY_SIZE(ivbep_unc_c_txr_inserts), .umasks = ivbep_unc_c_txr_inserts }, };