// SPDX-License-Identifier: GPL-2.0 /* SandyBridge-EP/IvyTown uncore support */ #include "uncore.h" #include "uncore_discovery.h" /* SNB-EP pci bus to socket mapping */ #define SNBEP_CPUNODEID 0x40 #define SNBEP_GIDNIDMAP 0x54 /* SNB-EP Box level control */ #define SNBEP_PMON_BOX_CTL_RST_CTRL (1 << 0) #define SNBEP_PMON_BOX_CTL_RST_CTRS (1 << 1) #define SNBEP_PMON_BOX_CTL_FRZ (1 << 8) #define SNBEP_PMON_BOX_CTL_FRZ_EN (1 << 16) #define SNBEP_PMON_BOX_CTL_INT (SNBEP_PMON_BOX_CTL_RST_CTRL | \ SNBEP_PMON_BOX_CTL_RST_CTRS | \ SNBEP_PMON_BOX_CTL_FRZ_EN) /* SNB-EP event control */ #define SNBEP_PMON_CTL_EV_SEL_MASK 0x000000ff #define SNBEP_PMON_CTL_UMASK_MASK 0x0000ff00 #define SNBEP_PMON_CTL_RST (1 << 17) #define SNBEP_PMON_CTL_EDGE_DET (1 << 18) #define SNBEP_PMON_CTL_EV_SEL_EXT (1 << 21) #define SNBEP_PMON_CTL_EN (1 << 22) #define SNBEP_PMON_CTL_INVERT (1 << 23) #define SNBEP_PMON_CTL_TRESH_MASK 0xff000000 #define SNBEP_PMON_RAW_EVENT_MASK (SNBEP_PMON_CTL_EV_SEL_MASK | \ SNBEP_PMON_CTL_UMASK_MASK | \ SNBEP_PMON_CTL_EDGE_DET | \ SNBEP_PMON_CTL_INVERT | \ SNBEP_PMON_CTL_TRESH_MASK) /* SNB-EP Ubox event control */ #define SNBEP_U_MSR_PMON_CTL_TRESH_MASK 0x1f000000 #define SNBEP_U_MSR_PMON_RAW_EVENT_MASK \ (SNBEP_PMON_CTL_EV_SEL_MASK | \ SNBEP_PMON_CTL_UMASK_MASK | \ SNBEP_PMON_CTL_EDGE_DET | \ SNBEP_PMON_CTL_INVERT | \ SNBEP_U_MSR_PMON_CTL_TRESH_MASK) #define SNBEP_CBO_PMON_CTL_TID_EN (1 << 19) #define SNBEP_CBO_MSR_PMON_RAW_EVENT_MASK (SNBEP_PMON_RAW_EVENT_MASK | \ SNBEP_CBO_PMON_CTL_TID_EN) /* SNB-EP PCU event control */ #define SNBEP_PCU_MSR_PMON_CTL_OCC_SEL_MASK 0x0000c000 #define SNBEP_PCU_MSR_PMON_CTL_TRESH_MASK 0x1f000000 #define SNBEP_PCU_MSR_PMON_CTL_OCC_INVERT (1 << 30) #define SNBEP_PCU_MSR_PMON_CTL_OCC_EDGE_DET (1 << 31) #define SNBEP_PCU_MSR_PMON_RAW_EVENT_MASK \ (SNBEP_PMON_CTL_EV_SEL_MASK | \ SNBEP_PCU_MSR_PMON_CTL_OCC_SEL_MASK | \ SNBEP_PMON_CTL_EDGE_DET | \ SNBEP_PMON_CTL_INVERT | \ SNBEP_PCU_MSR_PMON_CTL_TRESH_MASK | \ SNBEP_PCU_MSR_PMON_CTL_OCC_INVERT | \ SNBEP_PCU_MSR_PMON_CTL_OCC_EDGE_DET) #define SNBEP_QPI_PCI_PMON_RAW_EVENT_MASK \ (SNBEP_PMON_RAW_EVENT_MASK | \ SNBEP_PMON_CTL_EV_SEL_EXT) /* SNB-EP pci control register */ #define SNBEP_PCI_PMON_BOX_CTL 0xf4 #define SNBEP_PCI_PMON_CTL0 0xd8 /* SNB-EP pci counter register */ #define SNBEP_PCI_PMON_CTR0 0xa0 /* SNB-EP home agent register */ #define SNBEP_HA_PCI_PMON_BOX_ADDRMATCH0 0x40 #define SNBEP_HA_PCI_PMON_BOX_ADDRMATCH1 0x44 #define SNBEP_HA_PCI_PMON_BOX_OPCODEMATCH 0x48 /* SNB-EP memory controller register */ #define SNBEP_MC_CHy_PCI_PMON_FIXED_CTL 0xf0 #define SNBEP_MC_CHy_PCI_PMON_FIXED_CTR 0xd0 /* SNB-EP QPI register */ #define SNBEP_Q_Py_PCI_PMON_PKT_MATCH0 0x228 #define SNBEP_Q_Py_PCI_PMON_PKT_MATCH1 0x22c #define SNBEP_Q_Py_PCI_PMON_PKT_MASK0 0x238 #define SNBEP_Q_Py_PCI_PMON_PKT_MASK1 0x23c /* SNB-EP Ubox register */ #define SNBEP_U_MSR_PMON_CTR0 0xc16 #define SNBEP_U_MSR_PMON_CTL0 0xc10 #define SNBEP_U_MSR_PMON_UCLK_FIXED_CTL 0xc08 #define SNBEP_U_MSR_PMON_UCLK_FIXED_CTR 0xc09 /* SNB-EP Cbo register */ #define SNBEP_C0_MSR_PMON_CTR0 0xd16 #define SNBEP_C0_MSR_PMON_CTL0 0xd10 #define SNBEP_C0_MSR_PMON_BOX_CTL 0xd04 #define SNBEP_C0_MSR_PMON_BOX_FILTER 0xd14 #define SNBEP_CBO_MSR_OFFSET 0x20 #define SNBEP_CB0_MSR_PMON_BOX_FILTER_TID 0x1f #define SNBEP_CB0_MSR_PMON_BOX_FILTER_NID 0x3fc00 #define SNBEP_CB0_MSR_PMON_BOX_FILTER_STATE 0x7c0000 #define SNBEP_CB0_MSR_PMON_BOX_FILTER_OPC 0xff800000 #define SNBEP_CBO_EVENT_EXTRA_REG(e, m, i) { \ .event = (e), \ .msr = SNBEP_C0_MSR_PMON_BOX_FILTER, \ .config_mask = (m), \ .idx = (i) \ } /* SNB-EP PCU register */ #define SNBEP_PCU_MSR_PMON_CTR0 0xc36 #define SNBEP_PCU_MSR_PMON_CTL0 0xc30 #define SNBEP_PCU_MSR_PMON_BOX_CTL 0xc24 #define SNBEP_PCU_MSR_PMON_BOX_FILTER 0xc34 #define SNBEP_PCU_MSR_PMON_BOX_FILTER_MASK 0xffffffff #define SNBEP_PCU_MSR_CORE_C3_CTR 0x3fc #define SNBEP_PCU_MSR_CORE_C6_CTR 0x3fd /* IVBEP event control */ #define IVBEP_PMON_BOX_CTL_INT (SNBEP_PMON_BOX_CTL_RST_CTRL | \ SNBEP_PMON_BOX_CTL_RST_CTRS) #define IVBEP_PMON_RAW_EVENT_MASK (SNBEP_PMON_CTL_EV_SEL_MASK | \ SNBEP_PMON_CTL_UMASK_MASK | \ SNBEP_PMON_CTL_EDGE_DET | \ SNBEP_PMON_CTL_TRESH_MASK) /* IVBEP Ubox */ #define IVBEP_U_MSR_PMON_GLOBAL_CTL 0xc00 #define IVBEP_U_PMON_GLOBAL_FRZ_ALL (1 << 31) #define IVBEP_U_PMON_GLOBAL_UNFRZ_ALL (1 << 29) #define IVBEP_U_MSR_PMON_RAW_EVENT_MASK \ (SNBEP_PMON_CTL_EV_SEL_MASK | \ SNBEP_PMON_CTL_UMASK_MASK | \ SNBEP_PMON_CTL_EDGE_DET | \ SNBEP_U_MSR_PMON_CTL_TRESH_MASK) /* IVBEP Cbo */ #define IVBEP_CBO_MSR_PMON_RAW_EVENT_MASK (IVBEP_PMON_RAW_EVENT_MASK | \ SNBEP_CBO_PMON_CTL_TID_EN) #define IVBEP_CB0_MSR_PMON_BOX_FILTER_TID (0x1fULL << 0) #define IVBEP_CB0_MSR_PMON_BOX_FILTER_LINK (0xfULL << 5) #define IVBEP_CB0_MSR_PMON_BOX_FILTER_STATE (0x3fULL << 17) #define IVBEP_CB0_MSR_PMON_BOX_FILTER_NID (0xffffULL << 32) #define IVBEP_CB0_MSR_PMON_BOX_FILTER_OPC (0x1ffULL << 52) #define IVBEP_CB0_MSR_PMON_BOX_FILTER_C6 (0x1ULL << 61) #define IVBEP_CB0_MSR_PMON_BOX_FILTER_NC (0x1ULL << 62) #define IVBEP_CB0_MSR_PMON_BOX_FILTER_ISOC (0x1ULL << 63) /* IVBEP home agent */ #define IVBEP_HA_PCI_PMON_CTL_Q_OCC_RST (1 << 16) #define IVBEP_HA_PCI_PMON_RAW_EVENT_MASK \ (IVBEP_PMON_RAW_EVENT_MASK | \ IVBEP_HA_PCI_PMON_CTL_Q_OCC_RST) /* IVBEP PCU */ #define IVBEP_PCU_MSR_PMON_RAW_EVENT_MASK \ (SNBEP_PMON_CTL_EV_SEL_MASK | \ SNBEP_PCU_MSR_PMON_CTL_OCC_SEL_MASK | \ SNBEP_PMON_CTL_EDGE_DET | \ SNBEP_PCU_MSR_PMON_CTL_TRESH_MASK | \ SNBEP_PCU_MSR_PMON_CTL_OCC_INVERT | \ SNBEP_PCU_MSR_PMON_CTL_OCC_EDGE_DET) /* IVBEP QPI */ #define IVBEP_QPI_PCI_PMON_RAW_EVENT_MASK \ (IVBEP_PMON_RAW_EVENT_MASK | \ SNBEP_PMON_CTL_EV_SEL_EXT) #define __BITS_VALUE(x, i, n) ((typeof(x))(((x) >> ((i) * (n))) & \ ((1ULL << (n)) - 1))) /* Haswell-EP Ubox */ #define HSWEP_U_MSR_PMON_CTR0 0x709 #define HSWEP_U_MSR_PMON_CTL0 0x705 #define HSWEP_U_MSR_PMON_FILTER 0x707 #define HSWEP_U_MSR_PMON_UCLK_FIXED_CTL 0x703 #define HSWEP_U_MSR_PMON_UCLK_FIXED_CTR 0x704 #define HSWEP_U_MSR_PMON_BOX_FILTER_TID (0x1 << 0) #define HSWEP_U_MSR_PMON_BOX_FILTER_CID (0x1fULL << 1) #define HSWEP_U_MSR_PMON_BOX_FILTER_MASK \ (HSWEP_U_MSR_PMON_BOX_FILTER_TID | \ HSWEP_U_MSR_PMON_BOX_FILTER_CID) /* Haswell-EP CBo */ #define HSWEP_C0_MSR_PMON_CTR0 0xe08 #define HSWEP_C0_MSR_PMON_CTL0 0xe01 #define HSWEP_C0_MSR_PMON_BOX_CTL 0xe00 #define HSWEP_C0_MSR_PMON_BOX_FILTER0 0xe05 #define HSWEP_CBO_MSR_OFFSET 0x10 #define HSWEP_CB0_MSR_PMON_BOX_FILTER_TID (0x3fULL << 0) #define HSWEP_CB0_MSR_PMON_BOX_FILTER_LINK (0xfULL << 6) #define HSWEP_CB0_MSR_PMON_BOX_FILTER_STATE (0x7fULL << 17) #define HSWEP_CB0_MSR_PMON_BOX_FILTER_NID (0xffffULL << 32) #define HSWEP_CB0_MSR_PMON_BOX_FILTER_OPC (0x1ffULL << 52) #define HSWEP_CB0_MSR_PMON_BOX_FILTER_C6 (0x1ULL << 61) #define HSWEP_CB0_MSR_PMON_BOX_FILTER_NC (0x1ULL << 62) #define HSWEP_CB0_MSR_PMON_BOX_FILTER_ISOC (0x1ULL << 63) /* Haswell-EP Sbox */ #define HSWEP_S0_MSR_PMON_CTR0 0x726 #define HSWEP_S0_MSR_PMON_CTL0 0x721 #define HSWEP_S0_MSR_PMON_BOX_CTL 0x720 #define HSWEP_SBOX_MSR_OFFSET 0xa #define HSWEP_S_MSR_PMON_RAW_EVENT_MASK (SNBEP_PMON_RAW_EVENT_MASK | \ SNBEP_CBO_PMON_CTL_TID_EN) /* Haswell-EP PCU */ #define HSWEP_PCU_MSR_PMON_CTR0 0x717 #define HSWEP_PCU_MSR_PMON_CTL0 0x711 #define HSWEP_PCU_MSR_PMON_BOX_CTL 0x710 #define HSWEP_PCU_MSR_PMON_BOX_FILTER 0x715 /* KNL Ubox */ #define KNL_U_MSR_PMON_RAW_EVENT_MASK \ (SNBEP_U_MSR_PMON_RAW_EVENT_MASK | \ SNBEP_CBO_PMON_CTL_TID_EN) /* KNL CHA */ #define KNL_CHA_MSR_OFFSET 0xc #define KNL_CHA_MSR_PMON_CTL_QOR (1 << 16) #define KNL_CHA_MSR_PMON_RAW_EVENT_MASK \ (SNBEP_CBO_MSR_PMON_RAW_EVENT_MASK | \ KNL_CHA_MSR_PMON_CTL_QOR) #define KNL_CHA_MSR_PMON_BOX_FILTER_TID 0x1ff #define KNL_CHA_MSR_PMON_BOX_FILTER_STATE (7 << 18) #define KNL_CHA_MSR_PMON_BOX_FILTER_OP (0xfffffe2aULL << 32) #define KNL_CHA_MSR_PMON_BOX_FILTER_REMOTE_NODE (0x1ULL << 32) #define KNL_CHA_MSR_PMON_BOX_FILTER_LOCAL_NODE (0x1ULL << 33) #define KNL_CHA_MSR_PMON_BOX_FILTER_NNC (0x1ULL << 37) /* KNL EDC/MC UCLK */ #define KNL_UCLK_MSR_PMON_CTR0_LOW 0x400 #define KNL_UCLK_MSR_PMON_CTL0 0x420 #define KNL_UCLK_MSR_PMON_BOX_CTL 0x430 #define KNL_UCLK_MSR_PMON_UCLK_FIXED_LOW 0x44c #define KNL_UCLK_MSR_PMON_UCLK_FIXED_CTL 0x454 #define KNL_PMON_FIXED_CTL_EN 0x1 /* KNL EDC */ #define KNL_EDC0_ECLK_MSR_PMON_CTR0_LOW 0xa00 #define KNL_EDC0_ECLK_MSR_PMON_CTL0 0xa20 #define KNL_EDC0_ECLK_MSR_PMON_BOX_CTL 0xa30 #define KNL_EDC0_ECLK_MSR_PMON_ECLK_FIXED_LOW 0xa3c #define KNL_EDC0_ECLK_MSR_PMON_ECLK_FIXED_CTL 0xa44 /* KNL MC */ #define KNL_MC0_CH0_MSR_PMON_CTR0_LOW 0xb00 #define KNL_MC0_CH0_MSR_PMON_CTL0 0xb20 #define KNL_MC0_CH0_MSR_PMON_BOX_CTL 0xb30 #define KNL_MC0_CH0_MSR_PMON_FIXED_LOW 0xb3c #define KNL_MC0_CH0_MSR_PMON_FIXED_CTL 0xb44 /* KNL IRP */ #define KNL_IRP_PCI_PMON_BOX_CTL 0xf0 #define KNL_IRP_PCI_PMON_RAW_EVENT_MASK (SNBEP_PMON_RAW_EVENT_MASK | \ KNL_CHA_MSR_PMON_CTL_QOR) /* KNL PCU */ #define KNL_PCU_PMON_CTL_EV_SEL_MASK 0x0000007f #define KNL_PCU_PMON_CTL_USE_OCC_CTR (1 << 7) #define KNL_PCU_MSR_PMON_CTL_TRESH_MASK 0x3f000000 #define KNL_PCU_MSR_PMON_RAW_EVENT_MASK \ (KNL_PCU_PMON_CTL_EV_SEL_MASK | \ KNL_PCU_PMON_CTL_USE_OCC_CTR | \ SNBEP_PCU_MSR_PMON_CTL_OCC_SEL_MASK | \ SNBEP_PMON_CTL_EDGE_DET | \ SNBEP_CBO_PMON_CTL_TID_EN | \ SNBEP_PMON_CTL_INVERT | \ KNL_PCU_MSR_PMON_CTL_TRESH_MASK | \ SNBEP_PCU_MSR_PMON_CTL_OCC_INVERT | \ SNBEP_PCU_MSR_PMON_CTL_OCC_EDGE_DET) /* SKX pci bus to socket mapping */ #define SKX_CPUNODEID 0xc0 #define SKX_GIDNIDMAP 0xd4 /* * The CPU_BUS_NUMBER MSR returns the values of the respective CPUBUSNO CSR * that BIOS programmed. MSR has package scope. * | Bit | Default | Description * | [63] | 00h | VALID - When set, indicates the CPU bus * numbers have been initialized. (RO) * |[62:48]| --- | Reserved * |[47:40]| 00h | BUS_NUM_5 - Return the bus number BIOS assigned * CPUBUSNO(5). (RO) * |[39:32]| 00h | BUS_NUM_4 - Return the bus number BIOS assigned * CPUBUSNO(4). (RO) * |[31:24]| 00h | BUS_NUM_3 - Return the bus number BIOS assigned * CPUBUSNO(3). (RO) * |[23:16]| 00h | BUS_NUM_2 - Return the bus number BIOS assigned * CPUBUSNO(2). (RO) * |[15:8] | 00h | BUS_NUM_1 - Return the bus number BIOS assigned * CPUBUSNO(1). (RO) * | [7:0] | 00h | BUS_NUM_0 - Return the bus number BIOS assigned * CPUBUSNO(0). (RO) */ #define SKX_MSR_CPU_BUS_NUMBER 0x300 #define SKX_MSR_CPU_BUS_VALID_BIT (1ULL << 63) #define BUS_NUM_STRIDE 8 /* SKX CHA */ #define SKX_CHA_MSR_PMON_BOX_FILTER_TID (0x1ffULL << 0) #define SKX_CHA_MSR_PMON_BOX_FILTER_LINK (0xfULL << 9) #define SKX_CHA_MSR_PMON_BOX_FILTER_STATE (0x3ffULL << 17) #define SKX_CHA_MSR_PMON_BOX_FILTER_REM (0x1ULL << 32) #define SKX_CHA_MSR_PMON_BOX_FILTER_LOC (0x1ULL << 33) #define SKX_CHA_MSR_PMON_BOX_FILTER_ALL_OPC (0x1ULL << 35) #define SKX_CHA_MSR_PMON_BOX_FILTER_NM (0x1ULL << 36) #define SKX_CHA_MSR_PMON_BOX_FILTER_NOT_NM (0x1ULL << 37) #define SKX_CHA_MSR_PMON_BOX_FILTER_OPC0 (0x3ffULL << 41) #define SKX_CHA_MSR_PMON_BOX_FILTER_OPC1 (0x3ffULL << 51) #define SKX_CHA_MSR_PMON_BOX_FILTER_C6 (0x1ULL << 61) #define SKX_CHA_MSR_PMON_BOX_FILTER_NC (0x1ULL << 62) #define SKX_CHA_MSR_PMON_BOX_FILTER_ISOC (0x1ULL << 63) /* SKX IIO */ #define SKX_IIO0_MSR_PMON_CTL0 0xa48 #define SKX_IIO0_MSR_PMON_CTR0 0xa41 #define SKX_IIO0_MSR_PMON_BOX_CTL 0xa40 #define SKX_IIO_MSR_OFFSET 0x20 #define SKX_PMON_CTL_TRESH_MASK (0xff << 24) #define SKX_PMON_CTL_TRESH_MASK_EXT (0xf) #define SKX_PMON_CTL_CH_MASK (0xff << 4) #define SKX_PMON_CTL_FC_MASK (0x7 << 12) #define SKX_IIO_PMON_RAW_EVENT_MASK (SNBEP_PMON_CTL_EV_SEL_MASK | \ SNBEP_PMON_CTL_UMASK_MASK | \ SNBEP_PMON_CTL_EDGE_DET | \ SNBEP_PMON_CTL_INVERT | \ SKX_PMON_CTL_TRESH_MASK) #define SKX_IIO_PMON_RAW_EVENT_MASK_EXT (SKX_PMON_CTL_TRESH_MASK_EXT | \ SKX_PMON_CTL_CH_MASK | \ SKX_PMON_CTL_FC_MASK) /* SKX IRP */ #define SKX_IRP0_MSR_PMON_CTL0 0xa5b #define SKX_IRP0_MSR_PMON_CTR0 0xa59 #define SKX_IRP0_MSR_PMON_BOX_CTL 0xa58 #define SKX_IRP_MSR_OFFSET 0x20 /* SKX UPI */ #define SKX_UPI_PCI_PMON_CTL0 0x350 #define SKX_UPI_PCI_PMON_CTR0 0x318 #define SKX_UPI_PCI_PMON_BOX_CTL 0x378 #define SKX_UPI_CTL_UMASK_EXT 0xffefff /* SKX M2M */ #define SKX_M2M_PCI_PMON_CTL0 0x228 #define SKX_M2M_PCI_PMON_CTR0 0x200 #define SKX_M2M_PCI_PMON_BOX_CTL 0x258 /* Memory Map registers device ID */ #define SNR_ICX_MESH2IIO_MMAP_DID 0x9a2 #define SNR_ICX_SAD_CONTROL_CFG 0x3f4 /* Getting I/O stack id in SAD_COTROL_CFG notation */ #define SAD_CONTROL_STACK_ID(data) (((data) >> 4) & 0x7) /* SNR Ubox */ #define SNR_U_MSR_PMON_CTR0 0x1f98 #define SNR_U_MSR_PMON_CTL0 0x1f91 #define SNR_U_MSR_PMON_UCLK_FIXED_CTL 0x1f93 #define SNR_U_MSR_PMON_UCLK_FIXED_CTR 0x1f94 /* SNR CHA */ #define SNR_CHA_RAW_EVENT_MASK_EXT 0x3ffffff #define SNR_CHA_MSR_PMON_CTL0 0x1c01 #define SNR_CHA_MSR_PMON_CTR0 0x1c08 #define SNR_CHA_MSR_PMON_BOX_CTL 0x1c00 #define SNR_C0_MSR_PMON_BOX_FILTER0 0x1c05 /* SNR IIO */ #define SNR_IIO_MSR_PMON_CTL0 0x1e08 #define SNR_IIO_MSR_PMON_CTR0 0x1e01 #define SNR_IIO_MSR_PMON_BOX_CTL 0x1e00 #define SNR_IIO_MSR_OFFSET 0x10 #define SNR_IIO_PMON_RAW_EVENT_MASK_EXT 0x7ffff /* SNR IRP */ #define SNR_IRP0_MSR_PMON_CTL0 0x1ea8 #define SNR_IRP0_MSR_PMON_CTR0 0x1ea1 #define SNR_IRP0_MSR_PMON_BOX_CTL 0x1ea0 #define SNR_IRP_MSR_OFFSET 0x10 /* SNR M2PCIE */ #define SNR_M2PCIE_MSR_PMON_CTL0 0x1e58 #define SNR_M2PCIE_MSR_PMON_CTR0 0x1e51 #define SNR_M2PCIE_MSR_PMON_BOX_CTL 0x1e50 #define SNR_M2PCIE_MSR_OFFSET 0x10 /* SNR PCU */ #define SNR_PCU_MSR_PMON_CTL0 0x1ef1 #define SNR_PCU_MSR_PMON_CTR0 0x1ef8 #define SNR_PCU_MSR_PMON_BOX_CTL 0x1ef0 #define SNR_PCU_MSR_PMON_BOX_FILTER 0x1efc /* SNR M2M */ #define SNR_M2M_PCI_PMON_CTL0 0x468 #define SNR_M2M_PCI_PMON_CTR0 0x440 #define SNR_M2M_PCI_PMON_BOX_CTL 0x438 #define SNR_M2M_PCI_PMON_UMASK_EXT 0xff /* SNR PCIE3 */ #define SNR_PCIE3_PCI_PMON_CTL0 0x508 #define SNR_PCIE3_PCI_PMON_CTR0 0x4e8 #define SNR_PCIE3_PCI_PMON_BOX_CTL 0x4e0 /* SNR IMC */ #define SNR_IMC_MMIO_PMON_FIXED_CTL 0x54 #define SNR_IMC_MMIO_PMON_FIXED_CTR 0x38 #define SNR_IMC_MMIO_PMON_CTL0 0x40 #define SNR_IMC_MMIO_PMON_CTR0 0x8 #define SNR_IMC_MMIO_PMON_BOX_CTL 0x22800 #define SNR_IMC_MMIO_OFFSET 0x4000 #define SNR_IMC_MMIO_SIZE 0x4000 #define SNR_IMC_MMIO_BASE_OFFSET 0xd0 #define SNR_IMC_MMIO_BASE_MASK 0x1FFFFFFF #define SNR_IMC_MMIO_MEM0_OFFSET 0xd8 #define SNR_IMC_MMIO_MEM0_MASK 0x7FF /* ICX CHA */ #define ICX_C34_MSR_PMON_CTR0 0xb68 #define ICX_C34_MSR_PMON_CTL0 0xb61 #define ICX_C34_MSR_PMON_BOX_CTL 0xb60 #define ICX_C34_MSR_PMON_BOX_FILTER0 0xb65 /* ICX IIO */ #define ICX_IIO_MSR_PMON_CTL0 0xa58 #define ICX_IIO_MSR_PMON_CTR0 0xa51 #define ICX_IIO_MSR_PMON_BOX_CTL 0xa50 /* ICX IRP */ #define ICX_IRP0_MSR_PMON_CTL0 0xa4d #define ICX_IRP0_MSR_PMON_CTR0 0xa4b #define ICX_IRP0_MSR_PMON_BOX_CTL 0xa4a /* ICX M2PCIE */ #define ICX_M2PCIE_MSR_PMON_CTL0 0xa46 #define ICX_M2PCIE_MSR_PMON_CTR0 0xa41 #define ICX_M2PCIE_MSR_PMON_BOX_CTL 0xa40 /* ICX UPI */ #define ICX_UPI_PCI_PMON_CTL0 0x350 #define ICX_UPI_PCI_PMON_CTR0 0x320 #define ICX_UPI_PCI_PMON_BOX_CTL 0x318 #define ICX_UPI_CTL_UMASK_EXT 0xffffff #define ICX_UBOX_DID 0x3450 /* ICX M3UPI*/ #define ICX_M3UPI_PCI_PMON_CTL0 0xd8 #define ICX_M3UPI_PCI_PMON_CTR0 0xa8 #define ICX_M3UPI_PCI_PMON_BOX_CTL 0xa0 /* ICX IMC */ #define ICX_NUMBER_IMC_CHN 3 #define ICX_IMC_MEM_STRIDE 0x4 /* SPR */ #define SPR_RAW_EVENT_MASK_EXT 0xffffff #define SPR_UBOX_DID 0x3250 /* SPR CHA */ #define SPR_CHA_PMON_CTL_TID_EN (1 << 16) #define SPR_CHA_PMON_EVENT_MASK (SNBEP_PMON_RAW_EVENT_MASK | \ SPR_CHA_PMON_CTL_TID_EN) #define SPR_CHA_PMON_BOX_FILTER_TID 0x3ff #define SPR_C0_MSR_PMON_BOX_FILTER0 0x200e DEFINE_UNCORE_FORMAT_ATTR(event, event, "config:0-7"); DEFINE_UNCORE_FORMAT_ATTR(event2, event, "config:0-6"); DEFINE_UNCORE_FORMAT_ATTR(event_ext, event, "config:0-7,21"); DEFINE_UNCORE_FORMAT_ATTR(use_occ_ctr, use_occ_ctr, "config:7"); DEFINE_UNCORE_FORMAT_ATTR(umask, umask, "config:8-15"); DEFINE_UNCORE_FORMAT_ATTR(umask_ext, umask, "config:8-15,32-43,45-55"); DEFINE_UNCORE_FORMAT_ATTR(umask_ext2, umask, "config:8-15,32-57"); DEFINE_UNCORE_FORMAT_ATTR(umask_ext3, umask, "config:8-15,32-39"); DEFINE_UNCORE_FORMAT_ATTR(umask_ext4, umask, "config:8-15,32-55"); DEFINE_UNCORE_FORMAT_ATTR(qor, qor, "config:16"); DEFINE_UNCORE_FORMAT_ATTR(edge, edge, "config:18"); DEFINE_UNCORE_FORMAT_ATTR(tid_en, tid_en, "config:19"); DEFINE_UNCORE_FORMAT_ATTR(tid_en2, tid_en, "config:16"); DEFINE_UNCORE_FORMAT_ATTR(inv, inv, "config:23"); DEFINE_UNCORE_FORMAT_ATTR(thresh9, thresh, "config:24-35"); DEFINE_UNCORE_FORMAT_ATTR(thresh8, thresh, "config:24-31"); DEFINE_UNCORE_FORMAT_ATTR(thresh6, thresh, "config:24-29"); DEFINE_UNCORE_FORMAT_ATTR(thresh5, thresh, "config:24-28"); DEFINE_UNCORE_FORMAT_ATTR(occ_sel, occ_sel, "config:14-15"); DEFINE_UNCORE_FORMAT_ATTR(occ_invert, occ_invert, "config:30"); DEFINE_UNCORE_FORMAT_ATTR(occ_edge, occ_edge, "config:14-51"); DEFINE_UNCORE_FORMAT_ATTR(occ_edge_det, occ_edge_det, "config:31"); DEFINE_UNCORE_FORMAT_ATTR(ch_mask, ch_mask, "config:36-43"); DEFINE_UNCORE_FORMAT_ATTR(ch_mask2, ch_mask, "config:36-47"); DEFINE_UNCORE_FORMAT_ATTR(fc_mask, fc_mask, "config:44-46"); DEFINE_UNCORE_FORMAT_ATTR(fc_mask2, fc_mask, "config:48-50"); DEFINE_UNCORE_FORMAT_ATTR(filter_tid, filter_tid, "config1:0-4"); DEFINE_UNCORE_FORMAT_ATTR(filter_tid2, filter_tid, "config1:0"); DEFINE_UNCORE_FORMAT_ATTR(filter_tid3, filter_tid, "config1:0-5"); DEFINE_UNCORE_FORMAT_ATTR(filter_tid4, filter_tid, "config1:0-8"); DEFINE_UNCORE_FORMAT_ATTR(filter_tid5, filter_tid, "config1:0-9"); DEFINE_UNCORE_FORMAT_ATTR(filter_cid, filter_cid, "config1:5"); DEFINE_UNCORE_FORMAT_ATTR(filter_link, filter_link, "config1:5-8"); DEFINE_UNCORE_FORMAT_ATTR(filter_link2, filter_link, "config1:6-8"); DEFINE_UNCORE_FORMAT_ATTR(filter_link3, filter_link, "config1:12"); DEFINE_UNCORE_FORMAT_ATTR(filter_nid, filter_nid, "config1:10-17"); DEFINE_UNCORE_FORMAT_ATTR(filter_nid2, filter_nid, "config1:32-47"); DEFINE_UNCORE_FORMAT_ATTR(filter_state, filter_state, "config1:18-22"); DEFINE_UNCORE_FORMAT_ATTR(filter_state2, filter_state, "config1:17-22"); DEFINE_UNCORE_FORMAT_ATTR(filter_state3, filter_state, "config1:17-23"); DEFINE_UNCORE_FORMAT_ATTR(filter_state4, filter_state, "config1:18-20"); DEFINE_UNCORE_FORMAT_ATTR(filter_state5, filter_state, "config1:17-26"); DEFINE_UNCORE_FORMAT_ATTR(filter_rem, filter_rem, "config1:32"); DEFINE_UNCORE_FORMAT_ATTR(filter_loc, filter_loc, "config1:33"); DEFINE_UNCORE_FORMAT_ATTR(filter_nm, filter_nm, "config1:36"); DEFINE_UNCORE_FORMAT_ATTR(filter_not_nm, filter_not_nm, "config1:37"); DEFINE_UNCORE_FORMAT_ATTR(filter_local, filter_local, "config1:33"); DEFINE_UNCORE_FORMAT_ATTR(filter_all_op, filter_all_op, "config1:35"); DEFINE_UNCORE_FORMAT_ATTR(filter_nnm, filter_nnm, "config1:37"); DEFINE_UNCORE_FORMAT_ATTR(filter_opc, filter_opc, "config1:23-31"); DEFINE_UNCORE_FORMAT_ATTR(filter_opc2, filter_opc, "config1:52-60"); DEFINE_UNCORE_FORMAT_ATTR(filter_opc3, filter_opc, "config1:41-60"); DEFINE_UNCORE_FORMAT_ATTR(filter_opc_0, filter_opc0, "config1:41-50"); DEFINE_UNCORE_FORMAT_ATTR(filter_opc_1, filter_opc1, "config1:51-60"); DEFINE_UNCORE_FORMAT_ATTR(filter_nc, filter_nc, "config1:62"); DEFINE_UNCORE_FORMAT_ATTR(filter_c6, filter_c6, "config1:61"); DEFINE_UNCORE_FORMAT_ATTR(filter_isoc, filter_isoc, "config1:63"); DEFINE_UNCORE_FORMAT_ATTR(filter_band0, filter_band0, "config1:0-7"); DEFINE_UNCORE_FORMAT_ATTR(filter_band1, filter_band1, "config1:8-15"); DEFINE_UNCORE_FORMAT_ATTR(filter_band2, filter_band2, "config1:16-23"); DEFINE_UNCORE_FORMAT_ATTR(filter_band3, filter_band3, "config1:24-31"); DEFINE_UNCORE_FORMAT_ATTR(match_rds, match_rds, "config1:48-51"); DEFINE_UNCORE_FORMAT_ATTR(match_rnid30, match_rnid30, "config1:32-35"); DEFINE_UNCORE_FORMAT_ATTR(match_rnid4, match_rnid4, "config1:31"); DEFINE_UNCORE_FORMAT_ATTR(match_dnid, match_dnid, "config1:13-17"); DEFINE_UNCORE_FORMAT_ATTR(match_mc, match_mc, "config1:9-12"); DEFINE_UNCORE_FORMAT_ATTR(match_opc, match_opc, "config1:5-8"); DEFINE_UNCORE_FORMAT_ATTR(match_vnw, match_vnw, "config1:3-4"); DEFINE_UNCORE_FORMAT_ATTR(match0, match0, "config1:0-31"); DEFINE_UNCORE_FORMAT_ATTR(match1, match1, "config1:32-63"); DEFINE_UNCORE_FORMAT_ATTR(mask_rds, mask_rds, "config2:48-51"); DEFINE_UNCORE_FORMAT_ATTR(mask_rnid30, mask_rnid30, "config2:32-35"); DEFINE_UNCORE_FORMAT_ATTR(mask_rnid4, mask_rnid4, "config2:31"); DEFINE_UNCORE_FORMAT_ATTR(mask_dnid, mask_dnid, "config2:13-17"); DEFINE_UNCORE_FORMAT_ATTR(mask_mc, mask_mc, "config2:9-12"); DEFINE_UNCORE_FORMAT_ATTR(mask_opc, mask_opc, "config2:5-8"); DEFINE_UNCORE_FORMAT_ATTR(mask_vnw, mask_vnw, "config2:3-4"); DEFINE_UNCORE_FORMAT_ATTR(mask0, mask0, "config2:0-31"); DEFINE_UNCORE_FORMAT_ATTR(mask1, mask1, "config2:32-63"); static void snbep_uncore_pci_disable_box(struct intel_uncore_box *box) { struct pci_dev *pdev = box->pci_dev; int box_ctl = uncore_pci_box_ctl(box); u32 config = 0; if (!pci_read_config_dword(pdev, box_ctl, &config)) { config |= SNBEP_PMON_BOX_CTL_FRZ; pci_write_config_dword(pdev, box_ctl, config); } } static void snbep_uncore_pci_enable_box(struct intel_uncore_box *box) { struct pci_dev *pdev = box->pci_dev; int box_ctl = uncore_pci_box_ctl(box); u32 config = 0; if (!pci_read_config_dword(pdev, box_ctl, &config)) { config &= ~SNBEP_PMON_BOX_CTL_FRZ; pci_write_config_dword(pdev, box_ctl, config); } } static void snbep_uncore_pci_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct pci_dev *pdev = box->pci_dev; struct hw_perf_event *hwc = &event->hw; pci_write_config_dword(pdev, hwc->config_base, hwc->config | SNBEP_PMON_CTL_EN); } static void snbep_uncore_pci_disable_event(struct intel_uncore_box *box, struct perf_event *event) { struct pci_dev *pdev = box->pci_dev; struct hw_perf_event *hwc = &event->hw; pci_write_config_dword(pdev, hwc->config_base, hwc->config); } static u64 snbep_uncore_pci_read_counter(struct intel_uncore_box *box, struct perf_event *event) { struct pci_dev *pdev = box->pci_dev; struct hw_perf_event *hwc = &event->hw; u64 count = 0; pci_read_config_dword(pdev, hwc->event_base, (u32 *)&count); pci_read_config_dword(pdev, hwc->event_base + 4, (u32 *)&count + 1); return count; } static void snbep_uncore_pci_init_box(struct intel_uncore_box *box) { struct pci_dev *pdev = box->pci_dev; int box_ctl = uncore_pci_box_ctl(box); pci_write_config_dword(pdev, box_ctl, SNBEP_PMON_BOX_CTL_INT); } static void snbep_uncore_msr_disable_box(struct intel_uncore_box *box) { u64 config; unsigned msr; msr = uncore_msr_box_ctl(box); if (msr) { rdmsrl(msr, config); config |= SNBEP_PMON_BOX_CTL_FRZ; wrmsrl(msr, config); } } static void snbep_uncore_msr_enable_box(struct intel_uncore_box *box) { u64 config; unsigned msr; msr = uncore_msr_box_ctl(box); if (msr) { rdmsrl(msr, config); config &= ~SNBEP_PMON_BOX_CTL_FRZ; wrmsrl(msr, config); } } static void snbep_uncore_msr_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; if (reg1->idx != EXTRA_REG_NONE) wrmsrl(reg1->reg, uncore_shared_reg_config(box, 0)); wrmsrl(hwc->config_base, hwc->config | SNBEP_PMON_CTL_EN); } static void snbep_uncore_msr_disable_event(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; wrmsrl(hwc->config_base, hwc->config); } static void snbep_uncore_msr_init_box(struct intel_uncore_box *box) { unsigned msr = uncore_msr_box_ctl(box); if (msr) wrmsrl(msr, SNBEP_PMON_BOX_CTL_INT); } static struct attribute *snbep_uncore_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, NULL, }; static struct attribute *snbep_uncore_ubox_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh5.attr, NULL, }; static struct attribute *snbep_uncore_cbox_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_tid_en.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, &format_attr_filter_tid.attr, &format_attr_filter_nid.attr, &format_attr_filter_state.attr, &format_attr_filter_opc.attr, NULL, }; static struct attribute *snbep_uncore_pcu_formats_attr[] = { &format_attr_event.attr, &format_attr_occ_sel.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh5.attr, &format_attr_occ_invert.attr, &format_attr_occ_edge.attr, &format_attr_filter_band0.attr, &format_attr_filter_band1.attr, &format_attr_filter_band2.attr, &format_attr_filter_band3.attr, NULL, }; static struct attribute *snbep_uncore_qpi_formats_attr[] = { &format_attr_event_ext.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, &format_attr_match_rds.attr, &format_attr_match_rnid30.attr, &format_attr_match_rnid4.attr, &format_attr_match_dnid.attr, &format_attr_match_mc.attr, &format_attr_match_opc.attr, &format_attr_match_vnw.attr, &format_attr_match0.attr, &format_attr_match1.attr, &format_attr_mask_rds.attr, &format_attr_mask_rnid30.attr, &format_attr_mask_rnid4.attr, &format_attr_mask_dnid.attr, &format_attr_mask_mc.attr, &format_attr_mask_opc.attr, &format_attr_mask_vnw.attr, &format_attr_mask0.attr, &format_attr_mask1.attr, NULL, }; static struct uncore_event_desc snbep_uncore_imc_events[] = { INTEL_UNCORE_EVENT_DESC(clockticks, "event=0xff,umask=0x00"), INTEL_UNCORE_EVENT_DESC(cas_count_read, "event=0x04,umask=0x03"), INTEL_UNCORE_EVENT_DESC(cas_count_read.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(cas_count_read.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(cas_count_write, "event=0x04,umask=0x0c"), INTEL_UNCORE_EVENT_DESC(cas_count_write.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(cas_count_write.unit, "MiB"), { /* end: all zeroes */ }, }; static struct uncore_event_desc snbep_uncore_qpi_events[] = { INTEL_UNCORE_EVENT_DESC(clockticks, "event=0x14"), INTEL_UNCORE_EVENT_DESC(txl_flits_active, "event=0x00,umask=0x06"), INTEL_UNCORE_EVENT_DESC(drs_data, "event=0x102,umask=0x08"), INTEL_UNCORE_EVENT_DESC(ncb_data, "event=0x103,umask=0x04"), { /* end: all zeroes */ }, }; static const struct attribute_group snbep_uncore_format_group = { .name = "format", .attrs = snbep_uncore_formats_attr, }; static const struct attribute_group snbep_uncore_ubox_format_group = { .name = "format", .attrs = snbep_uncore_ubox_formats_attr, }; static const struct attribute_group snbep_uncore_cbox_format_group = { .name = "format", .attrs = snbep_uncore_cbox_formats_attr, }; static const struct attribute_group snbep_uncore_pcu_format_group = { .name = "format", .attrs = snbep_uncore_pcu_formats_attr, }; static const struct attribute_group snbep_uncore_qpi_format_group = { .name = "format", .attrs = snbep_uncore_qpi_formats_attr, }; #define __SNBEP_UNCORE_MSR_OPS_COMMON_INIT() \ .disable_box = snbep_uncore_msr_disable_box, \ .enable_box = snbep_uncore_msr_enable_box, \ .disable_event = snbep_uncore_msr_disable_event, \ .enable_event = snbep_uncore_msr_enable_event, \ .read_counter = uncore_msr_read_counter #define SNBEP_UNCORE_MSR_OPS_COMMON_INIT() \ __SNBEP_UNCORE_MSR_OPS_COMMON_INIT(), \ .init_box = snbep_uncore_msr_init_box \ static struct intel_uncore_ops snbep_uncore_msr_ops = { SNBEP_UNCORE_MSR_OPS_COMMON_INIT(), }; #define SNBEP_UNCORE_PCI_OPS_COMMON_INIT() \ .init_box = snbep_uncore_pci_init_box, \ .disable_box = snbep_uncore_pci_disable_box, \ .enable_box = snbep_uncore_pci_enable_box, \ .disable_event = snbep_uncore_pci_disable_event, \ .read_counter = snbep_uncore_pci_read_counter static struct intel_uncore_ops snbep_uncore_pci_ops = { SNBEP_UNCORE_PCI_OPS_COMMON_INIT(), .enable_event = snbep_uncore_pci_enable_event, \ }; static struct event_constraint snbep_uncore_cbox_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x01, 0x1), UNCORE_EVENT_CONSTRAINT(0x02, 0x3), UNCORE_EVENT_CONSTRAINT(0x04, 0x3), UNCORE_EVENT_CONSTRAINT(0x05, 0x3), UNCORE_EVENT_CONSTRAINT(0x07, 0x3), UNCORE_EVENT_CONSTRAINT(0x09, 0x3), UNCORE_EVENT_CONSTRAINT(0x11, 0x1), UNCORE_EVENT_CONSTRAINT(0x12, 0x3), UNCORE_EVENT_CONSTRAINT(0x13, 0x3), UNCORE_EVENT_CONSTRAINT(0x1b, 0xc), UNCORE_EVENT_CONSTRAINT(0x1c, 0xc), UNCORE_EVENT_CONSTRAINT(0x1d, 0xc), UNCORE_EVENT_CONSTRAINT(0x1e, 0xc), UNCORE_EVENT_CONSTRAINT(0x1f, 0xe), UNCORE_EVENT_CONSTRAINT(0x21, 0x3), UNCORE_EVENT_CONSTRAINT(0x23, 0x3), UNCORE_EVENT_CONSTRAINT(0x31, 0x3), UNCORE_EVENT_CONSTRAINT(0x32, 0x3), UNCORE_EVENT_CONSTRAINT(0x33, 0x3), UNCORE_EVENT_CONSTRAINT(0x34, 0x3), UNCORE_EVENT_CONSTRAINT(0x35, 0x3), UNCORE_EVENT_CONSTRAINT(0x36, 0x1), UNCORE_EVENT_CONSTRAINT(0x37, 0x3), UNCORE_EVENT_CONSTRAINT(0x38, 0x3), UNCORE_EVENT_CONSTRAINT(0x39, 0x3), UNCORE_EVENT_CONSTRAINT(0x3b, 0x1), EVENT_CONSTRAINT_END }; static struct event_constraint snbep_uncore_r2pcie_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x10, 0x3), UNCORE_EVENT_CONSTRAINT(0x11, 0x3), UNCORE_EVENT_CONSTRAINT(0x12, 0x1), UNCORE_EVENT_CONSTRAINT(0x23, 0x3), UNCORE_EVENT_CONSTRAINT(0x24, 0x3), UNCORE_EVENT_CONSTRAINT(0x25, 0x3), UNCORE_EVENT_CONSTRAINT(0x26, 0x3), UNCORE_EVENT_CONSTRAINT(0x32, 0x3), UNCORE_EVENT_CONSTRAINT(0x33, 0x3), UNCORE_EVENT_CONSTRAINT(0x34, 0x3), EVENT_CONSTRAINT_END }; static struct event_constraint snbep_uncore_r3qpi_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x10, 0x3), UNCORE_EVENT_CONSTRAINT(0x11, 0x3), UNCORE_EVENT_CONSTRAINT(0x12, 0x3), UNCORE_EVENT_CONSTRAINT(0x13, 0x1), UNCORE_EVENT_CONSTRAINT(0x20, 0x3), UNCORE_EVENT_CONSTRAINT(0x21, 0x3), UNCORE_EVENT_CONSTRAINT(0x22, 0x3), UNCORE_EVENT_CONSTRAINT(0x23, 0x3), UNCORE_EVENT_CONSTRAINT(0x24, 0x3), UNCORE_EVENT_CONSTRAINT(0x25, 0x3), UNCORE_EVENT_CONSTRAINT(0x26, 0x3), UNCORE_EVENT_CONSTRAINT(0x28, 0x3), UNCORE_EVENT_CONSTRAINT(0x29, 0x3), UNCORE_EVENT_CONSTRAINT(0x2a, 0x3), UNCORE_EVENT_CONSTRAINT(0x2b, 0x3), UNCORE_EVENT_CONSTRAINT(0x2c, 0x3), UNCORE_EVENT_CONSTRAINT(0x2d, 0x3), UNCORE_EVENT_CONSTRAINT(0x2e, 0x3), UNCORE_EVENT_CONSTRAINT(0x2f, 0x3), UNCORE_EVENT_CONSTRAINT(0x30, 0x3), UNCORE_EVENT_CONSTRAINT(0x31, 0x3), UNCORE_EVENT_CONSTRAINT(0x32, 0x3), UNCORE_EVENT_CONSTRAINT(0x33, 0x3), UNCORE_EVENT_CONSTRAINT(0x34, 0x3), UNCORE_EVENT_CONSTRAINT(0x36, 0x3), UNCORE_EVENT_CONSTRAINT(0x37, 0x3), UNCORE_EVENT_CONSTRAINT(0x38, 0x3), UNCORE_EVENT_CONSTRAINT(0x39, 0x3), EVENT_CONSTRAINT_END }; static struct intel_uncore_type snbep_uncore_ubox = { .name = "ubox", .num_counters = 2, .num_boxes = 1, .perf_ctr_bits = 44, .fixed_ctr_bits = 48, .perf_ctr = SNBEP_U_MSR_PMON_CTR0, .event_ctl = SNBEP_U_MSR_PMON_CTL0, .event_mask = SNBEP_U_MSR_PMON_RAW_EVENT_MASK, .fixed_ctr = SNBEP_U_MSR_PMON_UCLK_FIXED_CTR, .fixed_ctl = SNBEP_U_MSR_PMON_UCLK_FIXED_CTL, .ops = &snbep_uncore_msr_ops, .format_group = &snbep_uncore_ubox_format_group, }; static struct extra_reg snbep_uncore_cbox_extra_regs[] = { SNBEP_CBO_EVENT_EXTRA_REG(SNBEP_CBO_PMON_CTL_TID_EN, SNBEP_CBO_PMON_CTL_TID_EN, 0x1), SNBEP_CBO_EVENT_EXTRA_REG(0x0334, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x4334, 0xffff, 0x6), SNBEP_CBO_EVENT_EXTRA_REG(0x0534, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x4534, 0xffff, 0x6), SNBEP_CBO_EVENT_EXTRA_REG(0x0934, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x4934, 0xffff, 0x6), SNBEP_CBO_EVENT_EXTRA_REG(0x4134, 0xffff, 0x6), SNBEP_CBO_EVENT_EXTRA_REG(0x0135, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x0335, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4135, 0xffff, 0xa), SNBEP_CBO_EVENT_EXTRA_REG(0x4335, 0xffff, 0xa), SNBEP_CBO_EVENT_EXTRA_REG(0x4435, 0xffff, 0x2), SNBEP_CBO_EVENT_EXTRA_REG(0x4835, 0xffff, 0x2), SNBEP_CBO_EVENT_EXTRA_REG(0x4a35, 0xffff, 0x2), SNBEP_CBO_EVENT_EXTRA_REG(0x5035, 0xffff, 0x2), SNBEP_CBO_EVENT_EXTRA_REG(0x0136, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x0336, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4136, 0xffff, 0xa), SNBEP_CBO_EVENT_EXTRA_REG(0x4336, 0xffff, 0xa), SNBEP_CBO_EVENT_EXTRA_REG(0x4436, 0xffff, 0x2), SNBEP_CBO_EVENT_EXTRA_REG(0x4836, 0xffff, 0x2), SNBEP_CBO_EVENT_EXTRA_REG(0x4a36, 0xffff, 0x2), SNBEP_CBO_EVENT_EXTRA_REG(0x4037, 0x40ff, 0x2), EVENT_EXTRA_END }; static void snbep_cbox_put_constraint(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; struct intel_uncore_extra_reg *er = &box->shared_regs[0]; int i; if (uncore_box_is_fake(box)) return; for (i = 0; i < 5; i++) { if (reg1->alloc & (0x1 << i)) atomic_sub(1 << (i * 6), &er->ref); } reg1->alloc = 0; } static struct event_constraint * __snbep_cbox_get_constraint(struct intel_uncore_box *box, struct perf_event *event, u64 (*cbox_filter_mask)(int fields)) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; struct intel_uncore_extra_reg *er = &box->shared_regs[0]; int i, alloc = 0; unsigned long flags; u64 mask; if (reg1->idx == EXTRA_REG_NONE) return NULL; raw_spin_lock_irqsave(&er->lock, flags); for (i = 0; i < 5; i++) { if (!(reg1->idx & (0x1 << i))) continue; if (!uncore_box_is_fake(box) && (reg1->alloc & (0x1 << i))) continue; mask = cbox_filter_mask(0x1 << i); if (!__BITS_VALUE(atomic_read(&er->ref), i, 6) || !((reg1->config ^ er->config) & mask)) { atomic_add(1 << (i * 6), &er->ref); er->config &= ~mask; er->config |= reg1->config & mask; alloc |= (0x1 << i); } else { break; } } raw_spin_unlock_irqrestore(&er->lock, flags); if (i < 5) goto fail; if (!uncore_box_is_fake(box)) reg1->alloc |= alloc; return NULL; fail: for (; i >= 0; i--) { if (alloc & (0x1 << i)) atomic_sub(1 << (i * 6), &er->ref); } return &uncore_constraint_empty; } static u64 snbep_cbox_filter_mask(int fields) { u64 mask = 0; if (fields & 0x1) mask |= SNBEP_CB0_MSR_PMON_BOX_FILTER_TID; if (fields & 0x2) mask |= SNBEP_CB0_MSR_PMON_BOX_FILTER_NID; if (fields & 0x4) mask |= SNBEP_CB0_MSR_PMON_BOX_FILTER_STATE; if (fields & 0x8) mask |= SNBEP_CB0_MSR_PMON_BOX_FILTER_OPC; return mask; } static struct event_constraint * snbep_cbox_get_constraint(struct intel_uncore_box *box, struct perf_event *event) { return __snbep_cbox_get_constraint(box, event, snbep_cbox_filter_mask); } static int snbep_cbox_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; struct extra_reg *er; int idx = 0; for (er = snbep_uncore_cbox_extra_regs; er->msr; er++) { if (er->event != (event->hw.config & er->config_mask)) continue; idx |= er->idx; } if (idx) { reg1->reg = SNBEP_C0_MSR_PMON_BOX_FILTER + SNBEP_CBO_MSR_OFFSET * box->pmu->pmu_idx; reg1->config = event->attr.config1 & snbep_cbox_filter_mask(idx); reg1->idx = idx; } return 0; } static struct intel_uncore_ops snbep_uncore_cbox_ops = { SNBEP_UNCORE_MSR_OPS_COMMON_INIT(), .hw_config = snbep_cbox_hw_config, .get_constraint = snbep_cbox_get_constraint, .put_constraint = snbep_cbox_put_constraint, }; static struct intel_uncore_type snbep_uncore_cbox = { .name = "cbox", .num_counters = 4, .num_boxes = 8, .perf_ctr_bits = 44, .event_ctl = SNBEP_C0_MSR_PMON_CTL0, .perf_ctr = SNBEP_C0_MSR_PMON_CTR0, .event_mask = SNBEP_CBO_MSR_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_C0_MSR_PMON_BOX_CTL, .msr_offset = SNBEP_CBO_MSR_OFFSET, .num_shared_regs = 1, .constraints = snbep_uncore_cbox_constraints, .ops = &snbep_uncore_cbox_ops, .format_group = &snbep_uncore_cbox_format_group, }; static u64 snbep_pcu_alter_er(struct perf_event *event, int new_idx, bool modify) { struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; u64 config = reg1->config; if (new_idx > reg1->idx) config <<= 8 * (new_idx - reg1->idx); else config >>= 8 * (reg1->idx - new_idx); if (modify) { hwc->config += new_idx - reg1->idx; reg1->config = config; reg1->idx = new_idx; } return config; } static struct event_constraint * snbep_pcu_get_constraint(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; struct intel_uncore_extra_reg *er = &box->shared_regs[0]; unsigned long flags; int idx = reg1->idx; u64 mask, config1 = reg1->config; bool ok = false; if (reg1->idx == EXTRA_REG_NONE || (!uncore_box_is_fake(box) && reg1->alloc)) return NULL; again: mask = 0xffULL << (idx * 8); raw_spin_lock_irqsave(&er->lock, flags); if (!__BITS_VALUE(atomic_read(&er->ref), idx, 8) || !((config1 ^ er->config) & mask)) { atomic_add(1 << (idx * 8), &er->ref); er->config &= ~mask; er->config |= config1 & mask; ok = true; } raw_spin_unlock_irqrestore(&er->lock, flags); if (!ok) { idx = (idx + 1) % 4; if (idx != reg1->idx) { config1 = snbep_pcu_alter_er(event, idx, false); goto again; } return &uncore_constraint_empty; } if (!uncore_box_is_fake(box)) { if (idx != reg1->idx) snbep_pcu_alter_er(event, idx, true); reg1->alloc = 1; } return NULL; } static void snbep_pcu_put_constraint(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; struct intel_uncore_extra_reg *er = &box->shared_regs[0]; if (uncore_box_is_fake(box) || !reg1->alloc) return; atomic_sub(1 << (reg1->idx * 8), &er->ref); reg1->alloc = 0; } static int snbep_pcu_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; int ev_sel = hwc->config & SNBEP_PMON_CTL_EV_SEL_MASK; if (ev_sel >= 0xb && ev_sel <= 0xe) { reg1->reg = SNBEP_PCU_MSR_PMON_BOX_FILTER; reg1->idx = ev_sel - 0xb; reg1->config = event->attr.config1 & (0xff << (reg1->idx * 8)); } return 0; } static struct intel_uncore_ops snbep_uncore_pcu_ops = { SNBEP_UNCORE_MSR_OPS_COMMON_INIT(), .hw_config = snbep_pcu_hw_config, .get_constraint = snbep_pcu_get_constraint, .put_constraint = snbep_pcu_put_constraint, }; static struct intel_uncore_type snbep_uncore_pcu = { .name = "pcu", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .perf_ctr = SNBEP_PCU_MSR_PMON_CTR0, .event_ctl = SNBEP_PCU_MSR_PMON_CTL0, .event_mask = SNBEP_PCU_MSR_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCU_MSR_PMON_BOX_CTL, .num_shared_regs = 1, .ops = &snbep_uncore_pcu_ops, .format_group = &snbep_uncore_pcu_format_group, }; static struct intel_uncore_type *snbep_msr_uncores[] = { &snbep_uncore_ubox, &snbep_uncore_cbox, &snbep_uncore_pcu, NULL, }; void snbep_uncore_cpu_init(void) { if (snbep_uncore_cbox.num_boxes > boot_cpu_data.x86_max_cores) snbep_uncore_cbox.num_boxes = boot_cpu_data.x86_max_cores; uncore_msr_uncores = snbep_msr_uncores; } enum { SNBEP_PCI_QPI_PORT0_FILTER, SNBEP_PCI_QPI_PORT1_FILTER, BDX_PCI_QPI_PORT2_FILTER, }; static int snbep_qpi_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; struct hw_perf_event_extra *reg2 = &hwc->branch_reg; if ((hwc->config & SNBEP_PMON_CTL_EV_SEL_MASK) == 0x38) { reg1->idx = 0; reg1->reg = SNBEP_Q_Py_PCI_PMON_PKT_MATCH0; reg1->config = event->attr.config1; reg2->reg = SNBEP_Q_Py_PCI_PMON_PKT_MASK0; reg2->config = event->attr.config2; } return 0; } static void snbep_qpi_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct pci_dev *pdev = box->pci_dev; struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; struct hw_perf_event_extra *reg2 = &hwc->branch_reg; if (reg1->idx != EXTRA_REG_NONE) { int idx = box->pmu->pmu_idx + SNBEP_PCI_QPI_PORT0_FILTER; int die = box->dieid; struct pci_dev *filter_pdev = uncore_extra_pci_dev[die].dev[idx]; if (filter_pdev) { pci_write_config_dword(filter_pdev, reg1->reg, (u32)reg1->config); pci_write_config_dword(filter_pdev, reg1->reg + 4, (u32)(reg1->config >> 32)); pci_write_config_dword(filter_pdev, reg2->reg, (u32)reg2->config); pci_write_config_dword(filter_pdev, reg2->reg + 4, (u32)(reg2->config >> 32)); } } pci_write_config_dword(pdev, hwc->config_base, hwc->config | SNBEP_PMON_CTL_EN); } static struct intel_uncore_ops snbep_uncore_qpi_ops = { SNBEP_UNCORE_PCI_OPS_COMMON_INIT(), .enable_event = snbep_qpi_enable_event, .hw_config = snbep_qpi_hw_config, .get_constraint = uncore_get_constraint, .put_constraint = uncore_put_constraint, }; #define SNBEP_UNCORE_PCI_COMMON_INIT() \ .perf_ctr = SNBEP_PCI_PMON_CTR0, \ .event_ctl = SNBEP_PCI_PMON_CTL0, \ .event_mask = SNBEP_PMON_RAW_EVENT_MASK, \ .box_ctl = SNBEP_PCI_PMON_BOX_CTL, \ .ops = &snbep_uncore_pci_ops, \ .format_group = &snbep_uncore_format_group static struct intel_uncore_type snbep_uncore_ha = { .name = "ha", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, SNBEP_UNCORE_PCI_COMMON_INIT(), }; static struct intel_uncore_type snbep_uncore_imc = { .name = "imc", .num_counters = 4, .num_boxes = 4, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .fixed_ctr = SNBEP_MC_CHy_PCI_PMON_FIXED_CTR, .fixed_ctl = SNBEP_MC_CHy_PCI_PMON_FIXED_CTL, .event_descs = snbep_uncore_imc_events, SNBEP_UNCORE_PCI_COMMON_INIT(), }; static struct intel_uncore_type snbep_uncore_qpi = { .name = "qpi", .num_counters = 4, .num_boxes = 2, .perf_ctr_bits = 48, .perf_ctr = SNBEP_PCI_PMON_CTR0, .event_ctl = SNBEP_PCI_PMON_CTL0, .event_mask = SNBEP_QPI_PCI_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCI_PMON_BOX_CTL, .num_shared_regs = 1, .ops = &snbep_uncore_qpi_ops, .event_descs = snbep_uncore_qpi_events, .format_group = &snbep_uncore_qpi_format_group, }; static struct intel_uncore_type snbep_uncore_r2pcie = { .name = "r2pcie", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 44, .constraints = snbep_uncore_r2pcie_constraints, SNBEP_UNCORE_PCI_COMMON_INIT(), }; static struct intel_uncore_type snbep_uncore_r3qpi = { .name = "r3qpi", .num_counters = 3, .num_boxes = 2, .perf_ctr_bits = 44, .constraints = snbep_uncore_r3qpi_constraints, SNBEP_UNCORE_PCI_COMMON_INIT(), }; enum { SNBEP_PCI_UNCORE_HA, SNBEP_PCI_UNCORE_IMC, SNBEP_PCI_UNCORE_QPI, SNBEP_PCI_UNCORE_R2PCIE, SNBEP_PCI_UNCORE_R3QPI, }; static struct intel_uncore_type *snbep_pci_uncores[] = { [SNBEP_PCI_UNCORE_HA] = &snbep_uncore_ha, [SNBEP_PCI_UNCORE_IMC] = &snbep_uncore_imc, [SNBEP_PCI_UNCORE_QPI] = &snbep_uncore_qpi, [SNBEP_PCI_UNCORE_R2PCIE] = &snbep_uncore_r2pcie, [SNBEP_PCI_UNCORE_R3QPI] = &snbep_uncore_r3qpi, NULL, }; static const struct pci_device_id snbep_uncore_pci_ids[] = { { /* Home Agent */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_UNC_HA), .driver_data = UNCORE_PCI_DEV_DATA(SNBEP_PCI_UNCORE_HA, 0), }, { /* MC Channel 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_UNC_IMC0), .driver_data = UNCORE_PCI_DEV_DATA(SNBEP_PCI_UNCORE_IMC, 0), }, { /* MC Channel 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_UNC_IMC1), .driver_data = UNCORE_PCI_DEV_DATA(SNBEP_PCI_UNCORE_IMC, 1), }, { /* MC Channel 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_UNC_IMC2), .driver_data = UNCORE_PCI_DEV_DATA(SNBEP_PCI_UNCORE_IMC, 2), }, { /* MC Channel 3 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_UNC_IMC3), .driver_data = UNCORE_PCI_DEV_DATA(SNBEP_PCI_UNCORE_IMC, 3), }, { /* QPI Port 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_UNC_QPI0), .driver_data = UNCORE_PCI_DEV_DATA(SNBEP_PCI_UNCORE_QPI, 0), }, { /* QPI Port 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_UNC_QPI1), .driver_data = UNCORE_PCI_DEV_DATA(SNBEP_PCI_UNCORE_QPI, 1), }, { /* R2PCIe */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_UNC_R2PCIE), .driver_data = UNCORE_PCI_DEV_DATA(SNBEP_PCI_UNCORE_R2PCIE, 0), }, { /* R3QPI Link 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_UNC_R3QPI0), .driver_data = UNCORE_PCI_DEV_DATA(SNBEP_PCI_UNCORE_R3QPI, 0), }, { /* R3QPI Link 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, PCI_DEVICE_ID_INTEL_UNC_R3QPI1), .driver_data = UNCORE_PCI_DEV_DATA(SNBEP_PCI_UNCORE_R3QPI, 1), }, { /* QPI Port 0 filter */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x3c86), .driver_data = UNCORE_PCI_DEV_DATA(UNCORE_EXTRA_PCI_DEV, SNBEP_PCI_QPI_PORT0_FILTER), }, { /* QPI Port 0 filter */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x3c96), .driver_data = UNCORE_PCI_DEV_DATA(UNCORE_EXTRA_PCI_DEV, SNBEP_PCI_QPI_PORT1_FILTER), }, { /* end: all zeroes */ } }; static struct pci_driver snbep_uncore_pci_driver = { .name = "snbep_uncore", .id_table = snbep_uncore_pci_ids, }; #define NODE_ID_MASK 0x7 /* Each three bits from 0 to 23 of GIDNIDMAP register correspond Node ID. */ #define GIDNIDMAP(config, id) (((config) >> (3 * (id))) & 0x7) static int upi_nodeid_groupid(struct pci_dev *ubox_dev, int nodeid_loc, int idmap_loc, int *nodeid, int *groupid) { int ret; /* get the Node ID of the local register */ ret = pci_read_config_dword(ubox_dev, nodeid_loc, nodeid); if (ret) goto err; *nodeid = *nodeid & NODE_ID_MASK; /* get the Node ID mapping */ ret = pci_read_config_dword(ubox_dev, idmap_loc, groupid); if (ret) goto err; err: return ret; } /* * build pci bus to socket mapping */ static int snbep_pci2phy_map_init(int devid, int nodeid_loc, int idmap_loc, bool reverse) { struct pci_dev *ubox_dev = NULL; int i, bus, nodeid, segment, die_id; struct pci2phy_map *map; int err = 0; u32 config = 0; while (1) { /* find the UBOX device */ ubox_dev = pci_get_device(PCI_VENDOR_ID_INTEL, devid, ubox_dev); if (!ubox_dev) break; bus = ubox_dev->bus->number; /* * The nodeid and idmap registers only contain enough * information to handle 8 nodes. On systems with more * than 8 nodes, we need to rely on NUMA information, * filled in from BIOS supplied information, to determine * the topology. */ if (nr_node_ids <= 8) { err = upi_nodeid_groupid(ubox_dev, nodeid_loc, idmap_loc, &nodeid, &config); if (err) break; segment = pci_domain_nr(ubox_dev->bus); raw_spin_lock(&pci2phy_map_lock); map = __find_pci2phy_map(segment); if (!map) { raw_spin_unlock(&pci2phy_map_lock); err = -ENOMEM; break; } /* * every three bits in the Node ID mapping register maps * to a particular node. */ for (i = 0; i < 8; i++) { if (nodeid == GIDNIDMAP(config, i)) { if (topology_max_die_per_package() > 1) die_id = i; else die_id = topology_phys_to_logical_pkg(i); if (die_id < 0) die_id = -ENODEV; map->pbus_to_dieid[bus] = die_id; break; } } raw_spin_unlock(&pci2phy_map_lock); } else { segment = pci_domain_nr(ubox_dev->bus); raw_spin_lock(&pci2phy_map_lock); map = __find_pci2phy_map(segment); if (!map) { raw_spin_unlock(&pci2phy_map_lock); err = -ENOMEM; break; } map->pbus_to_dieid[bus] = die_id = uncore_device_to_die(ubox_dev); raw_spin_unlock(&pci2phy_map_lock); if (WARN_ON_ONCE(die_id == -1)) { err = -EINVAL; break; } } } if (!err) { /* * For PCI bus with no UBOX device, find the next bus * that has UBOX device and use its mapping. */ raw_spin_lock(&pci2phy_map_lock); list_for_each_entry(map, &pci2phy_map_head, list) { i = -1; if (reverse) { for (bus = 255; bus >= 0; bus--) { if (map->pbus_to_dieid[bus] != -1) i = map->pbus_to_dieid[bus]; else map->pbus_to_dieid[bus] = i; } } else { for (bus = 0; bus <= 255; bus++) { if (map->pbus_to_dieid[bus] != -1) i = map->pbus_to_dieid[bus]; else map->pbus_to_dieid[bus] = i; } } } raw_spin_unlock(&pci2phy_map_lock); } pci_dev_put(ubox_dev); return err ? pcibios_err_to_errno(err) : 0; } int snbep_uncore_pci_init(void) { int ret = snbep_pci2phy_map_init(0x3ce0, SNBEP_CPUNODEID, SNBEP_GIDNIDMAP, true); if (ret) return ret; uncore_pci_uncores = snbep_pci_uncores; uncore_pci_driver = &snbep_uncore_pci_driver; return 0; } /* end of Sandy Bridge-EP uncore support */ /* IvyTown uncore support */ static void ivbep_uncore_msr_init_box(struct intel_uncore_box *box) { unsigned msr = uncore_msr_box_ctl(box); if (msr) wrmsrl(msr, IVBEP_PMON_BOX_CTL_INT); } static void ivbep_uncore_pci_init_box(struct intel_uncore_box *box) { struct pci_dev *pdev = box->pci_dev; pci_write_config_dword(pdev, SNBEP_PCI_PMON_BOX_CTL, IVBEP_PMON_BOX_CTL_INT); } #define IVBEP_UNCORE_MSR_OPS_COMMON_INIT() \ .init_box = ivbep_uncore_msr_init_box, \ .disable_box = snbep_uncore_msr_disable_box, \ .enable_box = snbep_uncore_msr_enable_box, \ .disable_event = snbep_uncore_msr_disable_event, \ .enable_event = snbep_uncore_msr_enable_event, \ .read_counter = uncore_msr_read_counter static struct intel_uncore_ops ivbep_uncore_msr_ops = { IVBEP_UNCORE_MSR_OPS_COMMON_INIT(), }; static struct intel_uncore_ops ivbep_uncore_pci_ops = { .init_box = ivbep_uncore_pci_init_box, .disable_box = snbep_uncore_pci_disable_box, .enable_box = snbep_uncore_pci_enable_box, .disable_event = snbep_uncore_pci_disable_event, .enable_event = snbep_uncore_pci_enable_event, .read_counter = snbep_uncore_pci_read_counter, }; #define IVBEP_UNCORE_PCI_COMMON_INIT() \ .perf_ctr = SNBEP_PCI_PMON_CTR0, \ .event_ctl = SNBEP_PCI_PMON_CTL0, \ .event_mask = IVBEP_PMON_RAW_EVENT_MASK, \ .box_ctl = SNBEP_PCI_PMON_BOX_CTL, \ .ops = &ivbep_uncore_pci_ops, \ .format_group = &ivbep_uncore_format_group static struct attribute *ivbep_uncore_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, NULL, }; static struct attribute *ivbep_uncore_ubox_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh5.attr, NULL, }; static struct attribute *ivbep_uncore_cbox_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_tid_en.attr, &format_attr_thresh8.attr, &format_attr_filter_tid.attr, &format_attr_filter_link.attr, &format_attr_filter_state2.attr, &format_attr_filter_nid2.attr, &format_attr_filter_opc2.attr, &format_attr_filter_nc.attr, &format_attr_filter_c6.attr, &format_attr_filter_isoc.attr, NULL, }; static struct attribute *ivbep_uncore_pcu_formats_attr[] = { &format_attr_event.attr, &format_attr_occ_sel.attr, &format_attr_edge.attr, &format_attr_thresh5.attr, &format_attr_occ_invert.attr, &format_attr_occ_edge.attr, &format_attr_filter_band0.attr, &format_attr_filter_band1.attr, &format_attr_filter_band2.attr, &format_attr_filter_band3.attr, NULL, }; static struct attribute *ivbep_uncore_qpi_formats_attr[] = { &format_attr_event_ext.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_thresh8.attr, &format_attr_match_rds.attr, &format_attr_match_rnid30.attr, &format_attr_match_rnid4.attr, &format_attr_match_dnid.attr, &format_attr_match_mc.attr, &format_attr_match_opc.attr, &format_attr_match_vnw.attr, &format_attr_match0.attr, &format_attr_match1.attr, &format_attr_mask_rds.attr, &format_attr_mask_rnid30.attr, &format_attr_mask_rnid4.attr, &format_attr_mask_dnid.attr, &format_attr_mask_mc.attr, &format_attr_mask_opc.attr, &format_attr_mask_vnw.attr, &format_attr_mask0.attr, &format_attr_mask1.attr, NULL, }; static const struct attribute_group ivbep_uncore_format_group = { .name = "format", .attrs = ivbep_uncore_formats_attr, }; static const struct attribute_group ivbep_uncore_ubox_format_group = { .name = "format", .attrs = ivbep_uncore_ubox_formats_attr, }; static const struct attribute_group ivbep_uncore_cbox_format_group = { .name = "format", .attrs = ivbep_uncore_cbox_formats_attr, }; static const struct attribute_group ivbep_uncore_pcu_format_group = { .name = "format", .attrs = ivbep_uncore_pcu_formats_attr, }; static const struct attribute_group ivbep_uncore_qpi_format_group = { .name = "format", .attrs = ivbep_uncore_qpi_formats_attr, }; static struct intel_uncore_type ivbep_uncore_ubox = { .name = "ubox", .num_counters = 2, .num_boxes = 1, .perf_ctr_bits = 44, .fixed_ctr_bits = 48, .perf_ctr = SNBEP_U_MSR_PMON_CTR0, .event_ctl = SNBEP_U_MSR_PMON_CTL0, .event_mask = IVBEP_U_MSR_PMON_RAW_EVENT_MASK, .fixed_ctr = SNBEP_U_MSR_PMON_UCLK_FIXED_CTR, .fixed_ctl = SNBEP_U_MSR_PMON_UCLK_FIXED_CTL, .ops = &ivbep_uncore_msr_ops, .format_group = &ivbep_uncore_ubox_format_group, }; static struct extra_reg ivbep_uncore_cbox_extra_regs[] = { SNBEP_CBO_EVENT_EXTRA_REG(SNBEP_CBO_PMON_CTL_TID_EN, SNBEP_CBO_PMON_CTL_TID_EN, 0x1), SNBEP_CBO_EVENT_EXTRA_REG(0x1031, 0x10ff, 0x2), SNBEP_CBO_EVENT_EXTRA_REG(0x1134, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x4134, 0xffff, 0xc), SNBEP_CBO_EVENT_EXTRA_REG(0x5134, 0xffff, 0xc), SNBEP_CBO_EVENT_EXTRA_REG(0x0334, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x4334, 0xffff, 0xc), SNBEP_CBO_EVENT_EXTRA_REG(0x0534, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x4534, 0xffff, 0xc), SNBEP_CBO_EVENT_EXTRA_REG(0x0934, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x4934, 0xffff, 0xc), SNBEP_CBO_EVENT_EXTRA_REG(0x0135, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x0335, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x2135, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x2335, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x4135, 0xffff, 0x18), SNBEP_CBO_EVENT_EXTRA_REG(0x4335, 0xffff, 0x18), SNBEP_CBO_EVENT_EXTRA_REG(0x4435, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4835, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4a35, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x5035, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x8135, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x8335, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x0136, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x0336, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x2136, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x2336, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x4136, 0xffff, 0x18), SNBEP_CBO_EVENT_EXTRA_REG(0x4336, 0xffff, 0x18), SNBEP_CBO_EVENT_EXTRA_REG(0x4436, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4836, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4a36, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x5036, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x8136, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x8336, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x4037, 0x40ff, 0x8), EVENT_EXTRA_END }; static u64 ivbep_cbox_filter_mask(int fields) { u64 mask = 0; if (fields & 0x1) mask |= IVBEP_CB0_MSR_PMON_BOX_FILTER_TID; if (fields & 0x2) mask |= IVBEP_CB0_MSR_PMON_BOX_FILTER_LINK; if (fields & 0x4) mask |= IVBEP_CB0_MSR_PMON_BOX_FILTER_STATE; if (fields & 0x8) mask |= IVBEP_CB0_MSR_PMON_BOX_FILTER_NID; if (fields & 0x10) { mask |= IVBEP_CB0_MSR_PMON_BOX_FILTER_OPC; mask |= IVBEP_CB0_MSR_PMON_BOX_FILTER_NC; mask |= IVBEP_CB0_MSR_PMON_BOX_FILTER_C6; mask |= IVBEP_CB0_MSR_PMON_BOX_FILTER_ISOC; } return mask; } static struct event_constraint * ivbep_cbox_get_constraint(struct intel_uncore_box *box, struct perf_event *event) { return __snbep_cbox_get_constraint(box, event, ivbep_cbox_filter_mask); } static int ivbep_cbox_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; struct extra_reg *er; int idx = 0; for (er = ivbep_uncore_cbox_extra_regs; er->msr; er++) { if (er->event != (event->hw.config & er->config_mask)) continue; idx |= er->idx; } if (idx) { reg1->reg = SNBEP_C0_MSR_PMON_BOX_FILTER + SNBEP_CBO_MSR_OFFSET * box->pmu->pmu_idx; reg1->config = event->attr.config1 & ivbep_cbox_filter_mask(idx); reg1->idx = idx; } return 0; } static void ivbep_cbox_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; if (reg1->idx != EXTRA_REG_NONE) { u64 filter = uncore_shared_reg_config(box, 0); wrmsrl(reg1->reg, filter & 0xffffffff); wrmsrl(reg1->reg + 6, filter >> 32); } wrmsrl(hwc->config_base, hwc->config | SNBEP_PMON_CTL_EN); } static struct intel_uncore_ops ivbep_uncore_cbox_ops = { .init_box = ivbep_uncore_msr_init_box, .disable_box = snbep_uncore_msr_disable_box, .enable_box = snbep_uncore_msr_enable_box, .disable_event = snbep_uncore_msr_disable_event, .enable_event = ivbep_cbox_enable_event, .read_counter = uncore_msr_read_counter, .hw_config = ivbep_cbox_hw_config, .get_constraint = ivbep_cbox_get_constraint, .put_constraint = snbep_cbox_put_constraint, }; static struct intel_uncore_type ivbep_uncore_cbox = { .name = "cbox", .num_counters = 4, .num_boxes = 15, .perf_ctr_bits = 44, .event_ctl = SNBEP_C0_MSR_PMON_CTL0, .perf_ctr = SNBEP_C0_MSR_PMON_CTR0, .event_mask = IVBEP_CBO_MSR_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_C0_MSR_PMON_BOX_CTL, .msr_offset = SNBEP_CBO_MSR_OFFSET, .num_shared_regs = 1, .constraints = snbep_uncore_cbox_constraints, .ops = &ivbep_uncore_cbox_ops, .format_group = &ivbep_uncore_cbox_format_group, }; static struct intel_uncore_ops ivbep_uncore_pcu_ops = { IVBEP_UNCORE_MSR_OPS_COMMON_INIT(), .hw_config = snbep_pcu_hw_config, .get_constraint = snbep_pcu_get_constraint, .put_constraint = snbep_pcu_put_constraint, }; static struct intel_uncore_type ivbep_uncore_pcu = { .name = "pcu", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .perf_ctr = SNBEP_PCU_MSR_PMON_CTR0, .event_ctl = SNBEP_PCU_MSR_PMON_CTL0, .event_mask = IVBEP_PCU_MSR_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCU_MSR_PMON_BOX_CTL, .num_shared_regs = 1, .ops = &ivbep_uncore_pcu_ops, .format_group = &ivbep_uncore_pcu_format_group, }; static struct intel_uncore_type *ivbep_msr_uncores[] = { &ivbep_uncore_ubox, &ivbep_uncore_cbox, &ivbep_uncore_pcu, NULL, }; void ivbep_uncore_cpu_init(void) { if (ivbep_uncore_cbox.num_boxes > boot_cpu_data.x86_max_cores) ivbep_uncore_cbox.num_boxes = boot_cpu_data.x86_max_cores; uncore_msr_uncores = ivbep_msr_uncores; } static struct intel_uncore_type ivbep_uncore_ha = { .name = "ha", .num_counters = 4, .num_boxes = 2, .perf_ctr_bits = 48, IVBEP_UNCORE_PCI_COMMON_INIT(), }; static struct intel_uncore_type ivbep_uncore_imc = { .name = "imc", .num_counters = 4, .num_boxes = 8, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .fixed_ctr = SNBEP_MC_CHy_PCI_PMON_FIXED_CTR, .fixed_ctl = SNBEP_MC_CHy_PCI_PMON_FIXED_CTL, .event_descs = snbep_uncore_imc_events, IVBEP_UNCORE_PCI_COMMON_INIT(), }; /* registers in IRP boxes are not properly aligned */ static unsigned ivbep_uncore_irp_ctls[] = {0xd8, 0xdc, 0xe0, 0xe4}; static unsigned ivbep_uncore_irp_ctrs[] = {0xa0, 0xb0, 0xb8, 0xc0}; static void ivbep_uncore_irp_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct pci_dev *pdev = box->pci_dev; struct hw_perf_event *hwc = &event->hw; pci_write_config_dword(pdev, ivbep_uncore_irp_ctls[hwc->idx], hwc->config | SNBEP_PMON_CTL_EN); } static void ivbep_uncore_irp_disable_event(struct intel_uncore_box *box, struct perf_event *event) { struct pci_dev *pdev = box->pci_dev; struct hw_perf_event *hwc = &event->hw; pci_write_config_dword(pdev, ivbep_uncore_irp_ctls[hwc->idx], hwc->config); } static u64 ivbep_uncore_irp_read_counter(struct intel_uncore_box *box, struct perf_event *event) { struct pci_dev *pdev = box->pci_dev; struct hw_perf_event *hwc = &event->hw; u64 count = 0; pci_read_config_dword(pdev, ivbep_uncore_irp_ctrs[hwc->idx], (u32 *)&count); pci_read_config_dword(pdev, ivbep_uncore_irp_ctrs[hwc->idx] + 4, (u32 *)&count + 1); return count; } static struct intel_uncore_ops ivbep_uncore_irp_ops = { .init_box = ivbep_uncore_pci_init_box, .disable_box = snbep_uncore_pci_disable_box, .enable_box = snbep_uncore_pci_enable_box, .disable_event = ivbep_uncore_irp_disable_event, .enable_event = ivbep_uncore_irp_enable_event, .read_counter = ivbep_uncore_irp_read_counter, }; static struct intel_uncore_type ivbep_uncore_irp = { .name = "irp", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .event_mask = IVBEP_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCI_PMON_BOX_CTL, .ops = &ivbep_uncore_irp_ops, .format_group = &ivbep_uncore_format_group, }; static struct intel_uncore_ops ivbep_uncore_qpi_ops = { .init_box = ivbep_uncore_pci_init_box, .disable_box = snbep_uncore_pci_disable_box, .enable_box = snbep_uncore_pci_enable_box, .disable_event = snbep_uncore_pci_disable_event, .enable_event = snbep_qpi_enable_event, .read_counter = snbep_uncore_pci_read_counter, .hw_config = snbep_qpi_hw_config, .get_constraint = uncore_get_constraint, .put_constraint = uncore_put_constraint, }; static struct intel_uncore_type ivbep_uncore_qpi = { .name = "qpi", .num_counters = 4, .num_boxes = 3, .perf_ctr_bits = 48, .perf_ctr = SNBEP_PCI_PMON_CTR0, .event_ctl = SNBEP_PCI_PMON_CTL0, .event_mask = IVBEP_QPI_PCI_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCI_PMON_BOX_CTL, .num_shared_regs = 1, .ops = &ivbep_uncore_qpi_ops, .format_group = &ivbep_uncore_qpi_format_group, }; static struct intel_uncore_type ivbep_uncore_r2pcie = { .name = "r2pcie", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 44, .constraints = snbep_uncore_r2pcie_constraints, IVBEP_UNCORE_PCI_COMMON_INIT(), }; static struct intel_uncore_type ivbep_uncore_r3qpi = { .name = "r3qpi", .num_counters = 3, .num_boxes = 2, .perf_ctr_bits = 44, .constraints = snbep_uncore_r3qpi_constraints, IVBEP_UNCORE_PCI_COMMON_INIT(), }; enum { IVBEP_PCI_UNCORE_HA, IVBEP_PCI_UNCORE_IMC, IVBEP_PCI_UNCORE_IRP, IVBEP_PCI_UNCORE_QPI, IVBEP_PCI_UNCORE_R2PCIE, IVBEP_PCI_UNCORE_R3QPI, }; static struct intel_uncore_type *ivbep_pci_uncores[] = { [IVBEP_PCI_UNCORE_HA] = &ivbep_uncore_ha, [IVBEP_PCI_UNCORE_IMC] = &ivbep_uncore_imc, [IVBEP_PCI_UNCORE_IRP] = &ivbep_uncore_irp, [IVBEP_PCI_UNCORE_QPI] = &ivbep_uncore_qpi, [IVBEP_PCI_UNCORE_R2PCIE] = &ivbep_uncore_r2pcie, [IVBEP_PCI_UNCORE_R3QPI] = &ivbep_uncore_r3qpi, NULL, }; static const struct pci_device_id ivbep_uncore_pci_ids[] = { { /* Home Agent 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe30), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_HA, 0), }, { /* Home Agent 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe38), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_HA, 1), }, { /* MC0 Channel 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xeb4), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_IMC, 0), }, { /* MC0 Channel 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xeb5), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_IMC, 1), }, { /* MC0 Channel 3 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xeb0), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_IMC, 2), }, { /* MC0 Channel 4 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xeb1), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_IMC, 3), }, { /* MC1 Channel 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xef4), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_IMC, 4), }, { /* MC1 Channel 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xef5), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_IMC, 5), }, { /* MC1 Channel 3 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xef0), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_IMC, 6), }, { /* MC1 Channel 4 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xef1), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_IMC, 7), }, { /* IRP */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe39), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_IRP, 0), }, { /* QPI0 Port 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe32), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_QPI, 0), }, { /* QPI0 Port 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe33), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_QPI, 1), }, { /* QPI1 Port 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe3a), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_QPI, 2), }, { /* R2PCIe */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe34), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_R2PCIE, 0), }, { /* R3QPI0 Link 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe36), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_R3QPI, 0), }, { /* R3QPI0 Link 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe37), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_R3QPI, 1), }, { /* R3QPI1 Link 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe3e), .driver_data = UNCORE_PCI_DEV_DATA(IVBEP_PCI_UNCORE_R3QPI, 2), }, { /* QPI Port 0 filter */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe86), .driver_data = UNCORE_PCI_DEV_DATA(UNCORE_EXTRA_PCI_DEV, SNBEP_PCI_QPI_PORT0_FILTER), }, { /* QPI Port 0 filter */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0xe96), .driver_data = UNCORE_PCI_DEV_DATA(UNCORE_EXTRA_PCI_DEV, SNBEP_PCI_QPI_PORT1_FILTER), }, { /* end: all zeroes */ } }; static struct pci_driver ivbep_uncore_pci_driver = { .name = "ivbep_uncore", .id_table = ivbep_uncore_pci_ids, }; int ivbep_uncore_pci_init(void) { int ret = snbep_pci2phy_map_init(0x0e1e, SNBEP_CPUNODEID, SNBEP_GIDNIDMAP, true); if (ret) return ret; uncore_pci_uncores = ivbep_pci_uncores; uncore_pci_driver = &ivbep_uncore_pci_driver; return 0; } /* end of IvyTown uncore support */ /* KNL uncore support */ static struct attribute *knl_uncore_ubox_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_tid_en.attr, &format_attr_inv.attr, &format_attr_thresh5.attr, NULL, }; static const struct attribute_group knl_uncore_ubox_format_group = { .name = "format", .attrs = knl_uncore_ubox_formats_attr, }; static struct intel_uncore_type knl_uncore_ubox = { .name = "ubox", .num_counters = 2, .num_boxes = 1, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .perf_ctr = HSWEP_U_MSR_PMON_CTR0, .event_ctl = HSWEP_U_MSR_PMON_CTL0, .event_mask = KNL_U_MSR_PMON_RAW_EVENT_MASK, .fixed_ctr = HSWEP_U_MSR_PMON_UCLK_FIXED_CTR, .fixed_ctl = HSWEP_U_MSR_PMON_UCLK_FIXED_CTL, .ops = &snbep_uncore_msr_ops, .format_group = &knl_uncore_ubox_format_group, }; static struct attribute *knl_uncore_cha_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_qor.attr, &format_attr_edge.attr, &format_attr_tid_en.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, &format_attr_filter_tid4.attr, &format_attr_filter_link3.attr, &format_attr_filter_state4.attr, &format_attr_filter_local.attr, &format_attr_filter_all_op.attr, &format_attr_filter_nnm.attr, &format_attr_filter_opc3.attr, &format_attr_filter_nc.attr, &format_attr_filter_isoc.attr, NULL, }; static const struct attribute_group knl_uncore_cha_format_group = { .name = "format", .attrs = knl_uncore_cha_formats_attr, }; static struct event_constraint knl_uncore_cha_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x11, 0x1), UNCORE_EVENT_CONSTRAINT(0x1f, 0x1), UNCORE_EVENT_CONSTRAINT(0x36, 0x1), EVENT_CONSTRAINT_END }; static struct extra_reg knl_uncore_cha_extra_regs[] = { SNBEP_CBO_EVENT_EXTRA_REG(SNBEP_CBO_PMON_CTL_TID_EN, SNBEP_CBO_PMON_CTL_TID_EN, 0x1), SNBEP_CBO_EVENT_EXTRA_REG(0x3d, 0xff, 0x2), SNBEP_CBO_EVENT_EXTRA_REG(0x35, 0xff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x36, 0xff, 0x4), EVENT_EXTRA_END }; static u64 knl_cha_filter_mask(int fields) { u64 mask = 0; if (fields & 0x1) mask |= KNL_CHA_MSR_PMON_BOX_FILTER_TID; if (fields & 0x2) mask |= KNL_CHA_MSR_PMON_BOX_FILTER_STATE; if (fields & 0x4) mask |= KNL_CHA_MSR_PMON_BOX_FILTER_OP; return mask; } static struct event_constraint * knl_cha_get_constraint(struct intel_uncore_box *box, struct perf_event *event) { return __snbep_cbox_get_constraint(box, event, knl_cha_filter_mask); } static int knl_cha_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; struct extra_reg *er; int idx = 0; for (er = knl_uncore_cha_extra_regs; er->msr; er++) { if (er->event != (event->hw.config & er->config_mask)) continue; idx |= er->idx; } if (idx) { reg1->reg = HSWEP_C0_MSR_PMON_BOX_FILTER0 + KNL_CHA_MSR_OFFSET * box->pmu->pmu_idx; reg1->config = event->attr.config1 & knl_cha_filter_mask(idx); reg1->config |= KNL_CHA_MSR_PMON_BOX_FILTER_REMOTE_NODE; reg1->config |= KNL_CHA_MSR_PMON_BOX_FILTER_LOCAL_NODE; reg1->config |= KNL_CHA_MSR_PMON_BOX_FILTER_NNC; reg1->idx = idx; } return 0; } static void hswep_cbox_enable_event(struct intel_uncore_box *box, struct perf_event *event); static struct intel_uncore_ops knl_uncore_cha_ops = { .init_box = snbep_uncore_msr_init_box, .disable_box = snbep_uncore_msr_disable_box, .enable_box = snbep_uncore_msr_enable_box, .disable_event = snbep_uncore_msr_disable_event, .enable_event = hswep_cbox_enable_event, .read_counter = uncore_msr_read_counter, .hw_config = knl_cha_hw_config, .get_constraint = knl_cha_get_constraint, .put_constraint = snbep_cbox_put_constraint, }; static struct intel_uncore_type knl_uncore_cha = { .name = "cha", .num_counters = 4, .num_boxes = 38, .perf_ctr_bits = 48, .event_ctl = HSWEP_C0_MSR_PMON_CTL0, .perf_ctr = HSWEP_C0_MSR_PMON_CTR0, .event_mask = KNL_CHA_MSR_PMON_RAW_EVENT_MASK, .box_ctl = HSWEP_C0_MSR_PMON_BOX_CTL, .msr_offset = KNL_CHA_MSR_OFFSET, .num_shared_regs = 1, .constraints = knl_uncore_cha_constraints, .ops = &knl_uncore_cha_ops, .format_group = &knl_uncore_cha_format_group, }; static struct attribute *knl_uncore_pcu_formats_attr[] = { &format_attr_event2.attr, &format_attr_use_occ_ctr.attr, &format_attr_occ_sel.attr, &format_attr_edge.attr, &format_attr_tid_en.attr, &format_attr_inv.attr, &format_attr_thresh6.attr, &format_attr_occ_invert.attr, &format_attr_occ_edge_det.attr, NULL, }; static const struct attribute_group knl_uncore_pcu_format_group = { .name = "format", .attrs = knl_uncore_pcu_formats_attr, }; static struct intel_uncore_type knl_uncore_pcu = { .name = "pcu", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .perf_ctr = HSWEP_PCU_MSR_PMON_CTR0, .event_ctl = HSWEP_PCU_MSR_PMON_CTL0, .event_mask = KNL_PCU_MSR_PMON_RAW_EVENT_MASK, .box_ctl = HSWEP_PCU_MSR_PMON_BOX_CTL, .ops = &snbep_uncore_msr_ops, .format_group = &knl_uncore_pcu_format_group, }; static struct intel_uncore_type *knl_msr_uncores[] = { &knl_uncore_ubox, &knl_uncore_cha, &knl_uncore_pcu, NULL, }; void knl_uncore_cpu_init(void) { uncore_msr_uncores = knl_msr_uncores; } static void knl_uncore_imc_enable_box(struct intel_uncore_box *box) { struct pci_dev *pdev = box->pci_dev; int box_ctl = uncore_pci_box_ctl(box); pci_write_config_dword(pdev, box_ctl, 0); } static void knl_uncore_imc_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct pci_dev *pdev = box->pci_dev; struct hw_perf_event *hwc = &event->hw; if ((event->attr.config & SNBEP_PMON_CTL_EV_SEL_MASK) == UNCORE_FIXED_EVENT) pci_write_config_dword(pdev, hwc->config_base, hwc->config | KNL_PMON_FIXED_CTL_EN); else pci_write_config_dword(pdev, hwc->config_base, hwc->config | SNBEP_PMON_CTL_EN); } static struct intel_uncore_ops knl_uncore_imc_ops = { .init_box = snbep_uncore_pci_init_box, .disable_box = snbep_uncore_pci_disable_box, .enable_box = knl_uncore_imc_enable_box, .read_counter = snbep_uncore_pci_read_counter, .enable_event = knl_uncore_imc_enable_event, .disable_event = snbep_uncore_pci_disable_event, }; static struct intel_uncore_type knl_uncore_imc_uclk = { .name = "imc_uclk", .num_counters = 4, .num_boxes = 2, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .perf_ctr = KNL_UCLK_MSR_PMON_CTR0_LOW, .event_ctl = KNL_UCLK_MSR_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .fixed_ctr = KNL_UCLK_MSR_PMON_UCLK_FIXED_LOW, .fixed_ctl = KNL_UCLK_MSR_PMON_UCLK_FIXED_CTL, .box_ctl = KNL_UCLK_MSR_PMON_BOX_CTL, .ops = &knl_uncore_imc_ops, .format_group = &snbep_uncore_format_group, }; static struct intel_uncore_type knl_uncore_imc_dclk = { .name = "imc", .num_counters = 4, .num_boxes = 6, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .perf_ctr = KNL_MC0_CH0_MSR_PMON_CTR0_LOW, .event_ctl = KNL_MC0_CH0_MSR_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .fixed_ctr = KNL_MC0_CH0_MSR_PMON_FIXED_LOW, .fixed_ctl = KNL_MC0_CH0_MSR_PMON_FIXED_CTL, .box_ctl = KNL_MC0_CH0_MSR_PMON_BOX_CTL, .ops = &knl_uncore_imc_ops, .format_group = &snbep_uncore_format_group, }; static struct intel_uncore_type knl_uncore_edc_uclk = { .name = "edc_uclk", .num_counters = 4, .num_boxes = 8, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .perf_ctr = KNL_UCLK_MSR_PMON_CTR0_LOW, .event_ctl = KNL_UCLK_MSR_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .fixed_ctr = KNL_UCLK_MSR_PMON_UCLK_FIXED_LOW, .fixed_ctl = KNL_UCLK_MSR_PMON_UCLK_FIXED_CTL, .box_ctl = KNL_UCLK_MSR_PMON_BOX_CTL, .ops = &knl_uncore_imc_ops, .format_group = &snbep_uncore_format_group, }; static struct intel_uncore_type knl_uncore_edc_eclk = { .name = "edc_eclk", .num_counters = 4, .num_boxes = 8, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .perf_ctr = KNL_EDC0_ECLK_MSR_PMON_CTR0_LOW, .event_ctl = KNL_EDC0_ECLK_MSR_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .fixed_ctr = KNL_EDC0_ECLK_MSR_PMON_ECLK_FIXED_LOW, .fixed_ctl = KNL_EDC0_ECLK_MSR_PMON_ECLK_FIXED_CTL, .box_ctl = KNL_EDC0_ECLK_MSR_PMON_BOX_CTL, .ops = &knl_uncore_imc_ops, .format_group = &snbep_uncore_format_group, }; static struct event_constraint knl_uncore_m2pcie_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x23, 0x3), EVENT_CONSTRAINT_END }; static struct intel_uncore_type knl_uncore_m2pcie = { .name = "m2pcie", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .constraints = knl_uncore_m2pcie_constraints, SNBEP_UNCORE_PCI_COMMON_INIT(), }; static struct attribute *knl_uncore_irp_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_qor.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, NULL, }; static const struct attribute_group knl_uncore_irp_format_group = { .name = "format", .attrs = knl_uncore_irp_formats_attr, }; static struct intel_uncore_type knl_uncore_irp = { .name = "irp", .num_counters = 2, .num_boxes = 1, .perf_ctr_bits = 48, .perf_ctr = SNBEP_PCI_PMON_CTR0, .event_ctl = SNBEP_PCI_PMON_CTL0, .event_mask = KNL_IRP_PCI_PMON_RAW_EVENT_MASK, .box_ctl = KNL_IRP_PCI_PMON_BOX_CTL, .ops = &snbep_uncore_pci_ops, .format_group = &knl_uncore_irp_format_group, }; enum { KNL_PCI_UNCORE_MC_UCLK, KNL_PCI_UNCORE_MC_DCLK, KNL_PCI_UNCORE_EDC_UCLK, KNL_PCI_UNCORE_EDC_ECLK, KNL_PCI_UNCORE_M2PCIE, KNL_PCI_UNCORE_IRP, }; static struct intel_uncore_type *knl_pci_uncores[] = { [KNL_PCI_UNCORE_MC_UCLK] = &knl_uncore_imc_uclk, [KNL_PCI_UNCORE_MC_DCLK] = &knl_uncore_imc_dclk, [KNL_PCI_UNCORE_EDC_UCLK] = &knl_uncore_edc_uclk, [KNL_PCI_UNCORE_EDC_ECLK] = &knl_uncore_edc_eclk, [KNL_PCI_UNCORE_M2PCIE] = &knl_uncore_m2pcie, [KNL_PCI_UNCORE_IRP] = &knl_uncore_irp, NULL, }; /* * KNL uses a common PCI device ID for multiple instances of an Uncore PMU * device type. prior to KNL, each instance of a PMU device type had a unique * device ID. * * PCI Device ID Uncore PMU Devices * ---------------------------------- * 0x7841 MC0 UClk, MC1 UClk * 0x7843 MC0 DClk CH 0, MC0 DClk CH 1, MC0 DClk CH 2, * MC1 DClk CH 0, MC1 DClk CH 1, MC1 DClk CH 2 * 0x7833 EDC0 UClk, EDC1 UClk, EDC2 UClk, EDC3 UClk, * EDC4 UClk, EDC5 UClk, EDC6 UClk, EDC7 UClk * 0x7835 EDC0 EClk, EDC1 EClk, EDC2 EClk, EDC3 EClk, * EDC4 EClk, EDC5 EClk, EDC6 EClk, EDC7 EClk * 0x7817 M2PCIe * 0x7814 IRP */ static const struct pci_device_id knl_uncore_pci_ids[] = { { /* MC0 UClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7841), .driver_data = UNCORE_PCI_DEV_FULL_DATA(10, 0, KNL_PCI_UNCORE_MC_UCLK, 0), }, { /* MC1 UClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7841), .driver_data = UNCORE_PCI_DEV_FULL_DATA(11, 0, KNL_PCI_UNCORE_MC_UCLK, 1), }, { /* MC0 DClk CH 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7843), .driver_data = UNCORE_PCI_DEV_FULL_DATA(8, 2, KNL_PCI_UNCORE_MC_DCLK, 0), }, { /* MC0 DClk CH 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7843), .driver_data = UNCORE_PCI_DEV_FULL_DATA(8, 3, KNL_PCI_UNCORE_MC_DCLK, 1), }, { /* MC0 DClk CH 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7843), .driver_data = UNCORE_PCI_DEV_FULL_DATA(8, 4, KNL_PCI_UNCORE_MC_DCLK, 2), }, { /* MC1 DClk CH 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7843), .driver_data = UNCORE_PCI_DEV_FULL_DATA(9, 2, KNL_PCI_UNCORE_MC_DCLK, 3), }, { /* MC1 DClk CH 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7843), .driver_data = UNCORE_PCI_DEV_FULL_DATA(9, 3, KNL_PCI_UNCORE_MC_DCLK, 4), }, { /* MC1 DClk CH 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7843), .driver_data = UNCORE_PCI_DEV_FULL_DATA(9, 4, KNL_PCI_UNCORE_MC_DCLK, 5), }, { /* EDC0 UClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7833), .driver_data = UNCORE_PCI_DEV_FULL_DATA(15, 0, KNL_PCI_UNCORE_EDC_UCLK, 0), }, { /* EDC1 UClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7833), .driver_data = UNCORE_PCI_DEV_FULL_DATA(16, 0, KNL_PCI_UNCORE_EDC_UCLK, 1), }, { /* EDC2 UClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7833), .driver_data = UNCORE_PCI_DEV_FULL_DATA(17, 0, KNL_PCI_UNCORE_EDC_UCLK, 2), }, { /* EDC3 UClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7833), .driver_data = UNCORE_PCI_DEV_FULL_DATA(18, 0, KNL_PCI_UNCORE_EDC_UCLK, 3), }, { /* EDC4 UClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7833), .driver_data = UNCORE_PCI_DEV_FULL_DATA(19, 0, KNL_PCI_UNCORE_EDC_UCLK, 4), }, { /* EDC5 UClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7833), .driver_data = UNCORE_PCI_DEV_FULL_DATA(20, 0, KNL_PCI_UNCORE_EDC_UCLK, 5), }, { /* EDC6 UClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7833), .driver_data = UNCORE_PCI_DEV_FULL_DATA(21, 0, KNL_PCI_UNCORE_EDC_UCLK, 6), }, { /* EDC7 UClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7833), .driver_data = UNCORE_PCI_DEV_FULL_DATA(22, 0, KNL_PCI_UNCORE_EDC_UCLK, 7), }, { /* EDC0 EClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7835), .driver_data = UNCORE_PCI_DEV_FULL_DATA(24, 2, KNL_PCI_UNCORE_EDC_ECLK, 0), }, { /* EDC1 EClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7835), .driver_data = UNCORE_PCI_DEV_FULL_DATA(25, 2, KNL_PCI_UNCORE_EDC_ECLK, 1), }, { /* EDC2 EClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7835), .driver_data = UNCORE_PCI_DEV_FULL_DATA(26, 2, KNL_PCI_UNCORE_EDC_ECLK, 2), }, { /* EDC3 EClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7835), .driver_data = UNCORE_PCI_DEV_FULL_DATA(27, 2, KNL_PCI_UNCORE_EDC_ECLK, 3), }, { /* EDC4 EClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7835), .driver_data = UNCORE_PCI_DEV_FULL_DATA(28, 2, KNL_PCI_UNCORE_EDC_ECLK, 4), }, { /* EDC5 EClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7835), .driver_data = UNCORE_PCI_DEV_FULL_DATA(29, 2, KNL_PCI_UNCORE_EDC_ECLK, 5), }, { /* EDC6 EClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7835), .driver_data = UNCORE_PCI_DEV_FULL_DATA(30, 2, KNL_PCI_UNCORE_EDC_ECLK, 6), }, { /* EDC7 EClk */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7835), .driver_data = UNCORE_PCI_DEV_FULL_DATA(31, 2, KNL_PCI_UNCORE_EDC_ECLK, 7), }, { /* M2PCIe */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7817), .driver_data = UNCORE_PCI_DEV_DATA(KNL_PCI_UNCORE_M2PCIE, 0), }, { /* IRP */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x7814), .driver_data = UNCORE_PCI_DEV_DATA(KNL_PCI_UNCORE_IRP, 0), }, { /* end: all zeroes */ } }; static struct pci_driver knl_uncore_pci_driver = { .name = "knl_uncore", .id_table = knl_uncore_pci_ids, }; int knl_uncore_pci_init(void) { int ret; /* All KNL PCI based PMON units are on the same PCI bus except IRP */ ret = snb_pci2phy_map_init(0x7814); /* IRP */ if (ret) return ret; ret = snb_pci2phy_map_init(0x7817); /* M2PCIe */ if (ret) return ret; uncore_pci_uncores = knl_pci_uncores; uncore_pci_driver = &knl_uncore_pci_driver; return 0; } /* end of KNL uncore support */ /* Haswell-EP uncore support */ static struct attribute *hswep_uncore_ubox_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh5.attr, &format_attr_filter_tid2.attr, &format_attr_filter_cid.attr, NULL, }; static const struct attribute_group hswep_uncore_ubox_format_group = { .name = "format", .attrs = hswep_uncore_ubox_formats_attr, }; static int hswep_ubox_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; reg1->reg = HSWEP_U_MSR_PMON_FILTER; reg1->config = event->attr.config1 & HSWEP_U_MSR_PMON_BOX_FILTER_MASK; reg1->idx = 0; return 0; } static struct intel_uncore_ops hswep_uncore_ubox_ops = { SNBEP_UNCORE_MSR_OPS_COMMON_INIT(), .hw_config = hswep_ubox_hw_config, .get_constraint = uncore_get_constraint, .put_constraint = uncore_put_constraint, }; static struct intel_uncore_type hswep_uncore_ubox = { .name = "ubox", .num_counters = 2, .num_boxes = 1, .perf_ctr_bits = 44, .fixed_ctr_bits = 48, .perf_ctr = HSWEP_U_MSR_PMON_CTR0, .event_ctl = HSWEP_U_MSR_PMON_CTL0, .event_mask = SNBEP_U_MSR_PMON_RAW_EVENT_MASK, .fixed_ctr = HSWEP_U_MSR_PMON_UCLK_FIXED_CTR, .fixed_ctl = HSWEP_U_MSR_PMON_UCLK_FIXED_CTL, .num_shared_regs = 1, .ops = &hswep_uncore_ubox_ops, .format_group = &hswep_uncore_ubox_format_group, }; static struct attribute *hswep_uncore_cbox_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_tid_en.attr, &format_attr_thresh8.attr, &format_attr_filter_tid3.attr, &format_attr_filter_link2.attr, &format_attr_filter_state3.attr, &format_attr_filter_nid2.attr, &format_attr_filter_opc2.attr, &format_attr_filter_nc.attr, &format_attr_filter_c6.attr, &format_attr_filter_isoc.attr, NULL, }; static const struct attribute_group hswep_uncore_cbox_format_group = { .name = "format", .attrs = hswep_uncore_cbox_formats_attr, }; static struct event_constraint hswep_uncore_cbox_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x01, 0x1), UNCORE_EVENT_CONSTRAINT(0x09, 0x1), UNCORE_EVENT_CONSTRAINT(0x11, 0x1), UNCORE_EVENT_CONSTRAINT(0x36, 0x1), UNCORE_EVENT_CONSTRAINT(0x38, 0x3), UNCORE_EVENT_CONSTRAINT(0x3b, 0x1), UNCORE_EVENT_CONSTRAINT(0x3e, 0x1), EVENT_CONSTRAINT_END }; static struct extra_reg hswep_uncore_cbox_extra_regs[] = { SNBEP_CBO_EVENT_EXTRA_REG(SNBEP_CBO_PMON_CTL_TID_EN, SNBEP_CBO_PMON_CTL_TID_EN, 0x1), SNBEP_CBO_EVENT_EXTRA_REG(0x0334, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x0534, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x0934, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x1134, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x2134, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x4134, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x4037, 0x40ff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4028, 0x40ff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4032, 0x40ff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4029, 0x40ff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4033, 0x40ff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x402A, 0x40ff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x0135, 0xffff, 0x12), SNBEP_CBO_EVENT_EXTRA_REG(0x0335, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x4135, 0xffff, 0x18), SNBEP_CBO_EVENT_EXTRA_REG(0x4435, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4835, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x5035, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4335, 0xffff, 0x18), SNBEP_CBO_EVENT_EXTRA_REG(0x4a35, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x2335, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x8335, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x2135, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x8135, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x0136, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x0336, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x4136, 0xffff, 0x18), SNBEP_CBO_EVENT_EXTRA_REG(0x4436, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4836, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x4336, 0xffff, 0x18), SNBEP_CBO_EVENT_EXTRA_REG(0x4a36, 0xffff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x2336, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x8336, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x2136, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x8136, 0xffff, 0x10), SNBEP_CBO_EVENT_EXTRA_REG(0x5036, 0xffff, 0x8), EVENT_EXTRA_END }; static u64 hswep_cbox_filter_mask(int fields) { u64 mask = 0; if (fields & 0x1) mask |= HSWEP_CB0_MSR_PMON_BOX_FILTER_TID; if (fields & 0x2) mask |= HSWEP_CB0_MSR_PMON_BOX_FILTER_LINK; if (fields & 0x4) mask |= HSWEP_CB0_MSR_PMON_BOX_FILTER_STATE; if (fields & 0x8) mask |= HSWEP_CB0_MSR_PMON_BOX_FILTER_NID; if (fields & 0x10) { mask |= HSWEP_CB0_MSR_PMON_BOX_FILTER_OPC; mask |= HSWEP_CB0_MSR_PMON_BOX_FILTER_NC; mask |= HSWEP_CB0_MSR_PMON_BOX_FILTER_C6; mask |= HSWEP_CB0_MSR_PMON_BOX_FILTER_ISOC; } return mask; } static struct event_constraint * hswep_cbox_get_constraint(struct intel_uncore_box *box, struct perf_event *event) { return __snbep_cbox_get_constraint(box, event, hswep_cbox_filter_mask); } static int hswep_cbox_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; struct extra_reg *er; int idx = 0; for (er = hswep_uncore_cbox_extra_regs; er->msr; er++) { if (er->event != (event->hw.config & er->config_mask)) continue; idx |= er->idx; } if (idx) { reg1->reg = HSWEP_C0_MSR_PMON_BOX_FILTER0 + HSWEP_CBO_MSR_OFFSET * box->pmu->pmu_idx; reg1->config = event->attr.config1 & hswep_cbox_filter_mask(idx); reg1->idx = idx; } return 0; } static void hswep_cbox_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; if (reg1->idx != EXTRA_REG_NONE) { u64 filter = uncore_shared_reg_config(box, 0); wrmsrl(reg1->reg, filter & 0xffffffff); wrmsrl(reg1->reg + 1, filter >> 32); } wrmsrl(hwc->config_base, hwc->config | SNBEP_PMON_CTL_EN); } static struct intel_uncore_ops hswep_uncore_cbox_ops = { .init_box = snbep_uncore_msr_init_box, .disable_box = snbep_uncore_msr_disable_box, .enable_box = snbep_uncore_msr_enable_box, .disable_event = snbep_uncore_msr_disable_event, .enable_event = hswep_cbox_enable_event, .read_counter = uncore_msr_read_counter, .hw_config = hswep_cbox_hw_config, .get_constraint = hswep_cbox_get_constraint, .put_constraint = snbep_cbox_put_constraint, }; static struct intel_uncore_type hswep_uncore_cbox = { .name = "cbox", .num_counters = 4, .num_boxes = 18, .perf_ctr_bits = 48, .event_ctl = HSWEP_C0_MSR_PMON_CTL0, .perf_ctr = HSWEP_C0_MSR_PMON_CTR0, .event_mask = SNBEP_CBO_MSR_PMON_RAW_EVENT_MASK, .box_ctl = HSWEP_C0_MSR_PMON_BOX_CTL, .msr_offset = HSWEP_CBO_MSR_OFFSET, .num_shared_regs = 1, .constraints = hswep_uncore_cbox_constraints, .ops = &hswep_uncore_cbox_ops, .format_group = &hswep_uncore_cbox_format_group, }; /* * Write SBOX Initialization register bit by bit to avoid spurious #GPs */ static void hswep_uncore_sbox_msr_init_box(struct intel_uncore_box *box) { unsigned msr = uncore_msr_box_ctl(box); if (msr) { u64 init = SNBEP_PMON_BOX_CTL_INT; u64 flags = 0; int i; for_each_set_bit(i, (unsigned long *)&init, 64) { flags |= (1ULL << i); wrmsrl(msr, flags); } } } static struct intel_uncore_ops hswep_uncore_sbox_msr_ops = { __SNBEP_UNCORE_MSR_OPS_COMMON_INIT(), .init_box = hswep_uncore_sbox_msr_init_box }; static struct attribute *hswep_uncore_sbox_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_tid_en.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, NULL, }; static const struct attribute_group hswep_uncore_sbox_format_group = { .name = "format", .attrs = hswep_uncore_sbox_formats_attr, }; static struct intel_uncore_type hswep_uncore_sbox = { .name = "sbox", .num_counters = 4, .num_boxes = 4, .perf_ctr_bits = 44, .event_ctl = HSWEP_S0_MSR_PMON_CTL0, .perf_ctr = HSWEP_S0_MSR_PMON_CTR0, .event_mask = HSWEP_S_MSR_PMON_RAW_EVENT_MASK, .box_ctl = HSWEP_S0_MSR_PMON_BOX_CTL, .msr_offset = HSWEP_SBOX_MSR_OFFSET, .ops = &hswep_uncore_sbox_msr_ops, .format_group = &hswep_uncore_sbox_format_group, }; static int hswep_pcu_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; int ev_sel = hwc->config & SNBEP_PMON_CTL_EV_SEL_MASK; if (ev_sel >= 0xb && ev_sel <= 0xe) { reg1->reg = HSWEP_PCU_MSR_PMON_BOX_FILTER; reg1->idx = ev_sel - 0xb; reg1->config = event->attr.config1 & (0xff << reg1->idx); } return 0; } static struct intel_uncore_ops hswep_uncore_pcu_ops = { SNBEP_UNCORE_MSR_OPS_COMMON_INIT(), .hw_config = hswep_pcu_hw_config, .get_constraint = snbep_pcu_get_constraint, .put_constraint = snbep_pcu_put_constraint, }; static struct intel_uncore_type hswep_uncore_pcu = { .name = "pcu", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .perf_ctr = HSWEP_PCU_MSR_PMON_CTR0, .event_ctl = HSWEP_PCU_MSR_PMON_CTL0, .event_mask = SNBEP_PCU_MSR_PMON_RAW_EVENT_MASK, .box_ctl = HSWEP_PCU_MSR_PMON_BOX_CTL, .num_shared_regs = 1, .ops = &hswep_uncore_pcu_ops, .format_group = &snbep_uncore_pcu_format_group, }; static struct intel_uncore_type *hswep_msr_uncores[] = { &hswep_uncore_ubox, &hswep_uncore_cbox, &hswep_uncore_sbox, &hswep_uncore_pcu, NULL, }; #define HSWEP_PCU_DID 0x2fc0 #define HSWEP_PCU_CAPID4_OFFET 0x94 #define hswep_get_chop(_cap) (((_cap) >> 6) & 0x3) static bool hswep_has_limit_sbox(unsigned int device) { struct pci_dev *dev = pci_get_device(PCI_VENDOR_ID_INTEL, device, NULL); u32 capid4; if (!dev) return false; pci_read_config_dword(dev, HSWEP_PCU_CAPID4_OFFET, &capid4); pci_dev_put(dev); if (!hswep_get_chop(capid4)) return true; return false; } void hswep_uncore_cpu_init(void) { if (hswep_uncore_cbox.num_boxes > boot_cpu_data.x86_max_cores) hswep_uncore_cbox.num_boxes = boot_cpu_data.x86_max_cores; /* Detect 6-8 core systems with only two SBOXes */ if (hswep_has_limit_sbox(HSWEP_PCU_DID)) hswep_uncore_sbox.num_boxes = 2; uncore_msr_uncores = hswep_msr_uncores; } static struct intel_uncore_type hswep_uncore_ha = { .name = "ha", .num_counters = 4, .num_boxes = 2, .perf_ctr_bits = 48, SNBEP_UNCORE_PCI_COMMON_INIT(), }; static struct uncore_event_desc hswep_uncore_imc_events[] = { INTEL_UNCORE_EVENT_DESC(clockticks, "event=0x00,umask=0x00"), INTEL_UNCORE_EVENT_DESC(cas_count_read, "event=0x04,umask=0x03"), INTEL_UNCORE_EVENT_DESC(cas_count_read.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(cas_count_read.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(cas_count_write, "event=0x04,umask=0x0c"), INTEL_UNCORE_EVENT_DESC(cas_count_write.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(cas_count_write.unit, "MiB"), { /* end: all zeroes */ }, }; static struct intel_uncore_type hswep_uncore_imc = { .name = "imc", .num_counters = 4, .num_boxes = 8, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .fixed_ctr = SNBEP_MC_CHy_PCI_PMON_FIXED_CTR, .fixed_ctl = SNBEP_MC_CHy_PCI_PMON_FIXED_CTL, .event_descs = hswep_uncore_imc_events, SNBEP_UNCORE_PCI_COMMON_INIT(), }; static unsigned hswep_uncore_irp_ctrs[] = {0xa0, 0xa8, 0xb0, 0xb8}; static u64 hswep_uncore_irp_read_counter(struct intel_uncore_box *box, struct perf_event *event) { struct pci_dev *pdev = box->pci_dev; struct hw_perf_event *hwc = &event->hw; u64 count = 0; pci_read_config_dword(pdev, hswep_uncore_irp_ctrs[hwc->idx], (u32 *)&count); pci_read_config_dword(pdev, hswep_uncore_irp_ctrs[hwc->idx] + 4, (u32 *)&count + 1); return count; } static struct intel_uncore_ops hswep_uncore_irp_ops = { .init_box = snbep_uncore_pci_init_box, .disable_box = snbep_uncore_pci_disable_box, .enable_box = snbep_uncore_pci_enable_box, .disable_event = ivbep_uncore_irp_disable_event, .enable_event = ivbep_uncore_irp_enable_event, .read_counter = hswep_uncore_irp_read_counter, }; static struct intel_uncore_type hswep_uncore_irp = { .name = "irp", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCI_PMON_BOX_CTL, .ops = &hswep_uncore_irp_ops, .format_group = &snbep_uncore_format_group, }; static struct intel_uncore_type hswep_uncore_qpi = { .name = "qpi", .num_counters = 4, .num_boxes = 3, .perf_ctr_bits = 48, .perf_ctr = SNBEP_PCI_PMON_CTR0, .event_ctl = SNBEP_PCI_PMON_CTL0, .event_mask = SNBEP_QPI_PCI_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCI_PMON_BOX_CTL, .num_shared_regs = 1, .ops = &snbep_uncore_qpi_ops, .format_group = &snbep_uncore_qpi_format_group, }; static struct event_constraint hswep_uncore_r2pcie_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x10, 0x3), UNCORE_EVENT_CONSTRAINT(0x11, 0x3), UNCORE_EVENT_CONSTRAINT(0x13, 0x1), UNCORE_EVENT_CONSTRAINT(0x23, 0x1), UNCORE_EVENT_CONSTRAINT(0x24, 0x1), UNCORE_EVENT_CONSTRAINT(0x25, 0x1), UNCORE_EVENT_CONSTRAINT(0x26, 0x3), UNCORE_EVENT_CONSTRAINT(0x27, 0x1), UNCORE_EVENT_CONSTRAINT(0x28, 0x3), UNCORE_EVENT_CONSTRAINT(0x29, 0x3), UNCORE_EVENT_CONSTRAINT(0x2a, 0x1), UNCORE_EVENT_CONSTRAINT(0x2b, 0x3), UNCORE_EVENT_CONSTRAINT(0x2c, 0x3), UNCORE_EVENT_CONSTRAINT(0x2d, 0x3), UNCORE_EVENT_CONSTRAINT(0x32, 0x3), UNCORE_EVENT_CONSTRAINT(0x33, 0x3), UNCORE_EVENT_CONSTRAINT(0x34, 0x3), UNCORE_EVENT_CONSTRAINT(0x35, 0x3), EVENT_CONSTRAINT_END }; static struct intel_uncore_type hswep_uncore_r2pcie = { .name = "r2pcie", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .constraints = hswep_uncore_r2pcie_constraints, SNBEP_UNCORE_PCI_COMMON_INIT(), }; static struct event_constraint hswep_uncore_r3qpi_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x01, 0x3), UNCORE_EVENT_CONSTRAINT(0x07, 0x7), UNCORE_EVENT_CONSTRAINT(0x08, 0x7), UNCORE_EVENT_CONSTRAINT(0x09, 0x7), UNCORE_EVENT_CONSTRAINT(0x0a, 0x7), UNCORE_EVENT_CONSTRAINT(0x0e, 0x7), UNCORE_EVENT_CONSTRAINT(0x10, 0x3), UNCORE_EVENT_CONSTRAINT(0x11, 0x3), UNCORE_EVENT_CONSTRAINT(0x12, 0x3), UNCORE_EVENT_CONSTRAINT(0x13, 0x1), UNCORE_EVENT_CONSTRAINT(0x14, 0x3), UNCORE_EVENT_CONSTRAINT(0x15, 0x3), UNCORE_EVENT_CONSTRAINT(0x1f, 0x3), UNCORE_EVENT_CONSTRAINT(0x20, 0x3), UNCORE_EVENT_CONSTRAINT(0x21, 0x3), UNCORE_EVENT_CONSTRAINT(0x22, 0x3), UNCORE_EVENT_CONSTRAINT(0x23, 0x3), UNCORE_EVENT_CONSTRAINT(0x25, 0x3), UNCORE_EVENT_CONSTRAINT(0x26, 0x3), UNCORE_EVENT_CONSTRAINT(0x28, 0x3), UNCORE_EVENT_CONSTRAINT(0x29, 0x3), UNCORE_EVENT_CONSTRAINT(0x2c, 0x3), UNCORE_EVENT_CONSTRAINT(0x2d, 0x3), UNCORE_EVENT_CONSTRAINT(0x2e, 0x3), UNCORE_EVENT_CONSTRAINT(0x2f, 0x3), UNCORE_EVENT_CONSTRAINT(0x31, 0x3), UNCORE_EVENT_CONSTRAINT(0x32, 0x3), UNCORE_EVENT_CONSTRAINT(0x33, 0x3), UNCORE_EVENT_CONSTRAINT(0x34, 0x3), UNCORE_EVENT_CONSTRAINT(0x36, 0x3), UNCORE_EVENT_CONSTRAINT(0x37, 0x3), UNCORE_EVENT_CONSTRAINT(0x38, 0x3), UNCORE_EVENT_CONSTRAINT(0x39, 0x3), EVENT_CONSTRAINT_END }; static struct intel_uncore_type hswep_uncore_r3qpi = { .name = "r3qpi", .num_counters = 3, .num_boxes = 3, .perf_ctr_bits = 44, .constraints = hswep_uncore_r3qpi_constraints, SNBEP_UNCORE_PCI_COMMON_INIT(), }; enum { HSWEP_PCI_UNCORE_HA, HSWEP_PCI_UNCORE_IMC, HSWEP_PCI_UNCORE_IRP, HSWEP_PCI_UNCORE_QPI, HSWEP_PCI_UNCORE_R2PCIE, HSWEP_PCI_UNCORE_R3QPI, }; static struct intel_uncore_type *hswep_pci_uncores[] = { [HSWEP_PCI_UNCORE_HA] = &hswep_uncore_ha, [HSWEP_PCI_UNCORE_IMC] = &hswep_uncore_imc, [HSWEP_PCI_UNCORE_IRP] = &hswep_uncore_irp, [HSWEP_PCI_UNCORE_QPI] = &hswep_uncore_qpi, [HSWEP_PCI_UNCORE_R2PCIE] = &hswep_uncore_r2pcie, [HSWEP_PCI_UNCORE_R3QPI] = &hswep_uncore_r3qpi, NULL, }; static const struct pci_device_id hswep_uncore_pci_ids[] = { { /* Home Agent 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f30), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_HA, 0), }, { /* Home Agent 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f38), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_HA, 1), }, { /* MC0 Channel 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2fb0), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_IMC, 0), }, { /* MC0 Channel 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2fb1), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_IMC, 1), }, { /* MC0 Channel 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2fb4), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_IMC, 2), }, { /* MC0 Channel 3 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2fb5), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_IMC, 3), }, { /* MC1 Channel 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2fd0), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_IMC, 4), }, { /* MC1 Channel 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2fd1), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_IMC, 5), }, { /* MC1 Channel 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2fd4), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_IMC, 6), }, { /* MC1 Channel 3 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2fd5), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_IMC, 7), }, { /* IRP */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f39), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_IRP, 0), }, { /* QPI0 Port 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f32), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_QPI, 0), }, { /* QPI0 Port 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f33), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_QPI, 1), }, { /* QPI1 Port 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f3a), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_QPI, 2), }, { /* R2PCIe */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f34), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_R2PCIE, 0), }, { /* R3QPI0 Link 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f36), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_R3QPI, 0), }, { /* R3QPI0 Link 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f37), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_R3QPI, 1), }, { /* R3QPI1 Link 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f3e), .driver_data = UNCORE_PCI_DEV_DATA(HSWEP_PCI_UNCORE_R3QPI, 2), }, { /* QPI Port 0 filter */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f86), .driver_data = UNCORE_PCI_DEV_DATA(UNCORE_EXTRA_PCI_DEV, SNBEP_PCI_QPI_PORT0_FILTER), }, { /* QPI Port 1 filter */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2f96), .driver_data = UNCORE_PCI_DEV_DATA(UNCORE_EXTRA_PCI_DEV, SNBEP_PCI_QPI_PORT1_FILTER), }, { /* end: all zeroes */ } }; static struct pci_driver hswep_uncore_pci_driver = { .name = "hswep_uncore", .id_table = hswep_uncore_pci_ids, }; int hswep_uncore_pci_init(void) { int ret = snbep_pci2phy_map_init(0x2f1e, SNBEP_CPUNODEID, SNBEP_GIDNIDMAP, true); if (ret) return ret; uncore_pci_uncores = hswep_pci_uncores; uncore_pci_driver = &hswep_uncore_pci_driver; return 0; } /* end of Haswell-EP uncore support */ /* BDX uncore support */ static struct intel_uncore_type bdx_uncore_ubox = { .name = "ubox", .num_counters = 2, .num_boxes = 1, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .perf_ctr = HSWEP_U_MSR_PMON_CTR0, .event_ctl = HSWEP_U_MSR_PMON_CTL0, .event_mask = SNBEP_U_MSR_PMON_RAW_EVENT_MASK, .fixed_ctr = HSWEP_U_MSR_PMON_UCLK_FIXED_CTR, .fixed_ctl = HSWEP_U_MSR_PMON_UCLK_FIXED_CTL, .num_shared_regs = 1, .ops = &ivbep_uncore_msr_ops, .format_group = &ivbep_uncore_ubox_format_group, }; static struct event_constraint bdx_uncore_cbox_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x09, 0x3), UNCORE_EVENT_CONSTRAINT(0x11, 0x1), UNCORE_EVENT_CONSTRAINT(0x36, 0x1), UNCORE_EVENT_CONSTRAINT(0x3e, 0x1), EVENT_CONSTRAINT_END }; static struct intel_uncore_type bdx_uncore_cbox = { .name = "cbox", .num_counters = 4, .num_boxes = 24, .perf_ctr_bits = 48, .event_ctl = HSWEP_C0_MSR_PMON_CTL0, .perf_ctr = HSWEP_C0_MSR_PMON_CTR0, .event_mask = SNBEP_CBO_MSR_PMON_RAW_EVENT_MASK, .box_ctl = HSWEP_C0_MSR_PMON_BOX_CTL, .msr_offset = HSWEP_CBO_MSR_OFFSET, .num_shared_regs = 1, .constraints = bdx_uncore_cbox_constraints, .ops = &hswep_uncore_cbox_ops, .format_group = &hswep_uncore_cbox_format_group, }; static struct intel_uncore_type bdx_uncore_sbox = { .name = "sbox", .num_counters = 4, .num_boxes = 4, .perf_ctr_bits = 48, .event_ctl = HSWEP_S0_MSR_PMON_CTL0, .perf_ctr = HSWEP_S0_MSR_PMON_CTR0, .event_mask = HSWEP_S_MSR_PMON_RAW_EVENT_MASK, .box_ctl = HSWEP_S0_MSR_PMON_BOX_CTL, .msr_offset = HSWEP_SBOX_MSR_OFFSET, .ops = &hswep_uncore_sbox_msr_ops, .format_group = &hswep_uncore_sbox_format_group, }; #define BDX_MSR_UNCORE_SBOX 3 static struct intel_uncore_type *bdx_msr_uncores[] = { &bdx_uncore_ubox, &bdx_uncore_cbox, &hswep_uncore_pcu, &bdx_uncore_sbox, NULL, }; /* Bit 7 'Use Occupancy' is not available for counter 0 on BDX */ static struct event_constraint bdx_uncore_pcu_constraints[] = { EVENT_CONSTRAINT(0x80, 0xe, 0x80), EVENT_CONSTRAINT_END }; #define BDX_PCU_DID 0x6fc0 void bdx_uncore_cpu_init(void) { if (bdx_uncore_cbox.num_boxes > boot_cpu_data.x86_max_cores) bdx_uncore_cbox.num_boxes = boot_cpu_data.x86_max_cores; uncore_msr_uncores = bdx_msr_uncores; /* Detect systems with no SBOXes */ if ((boot_cpu_data.x86_model == 86) || hswep_has_limit_sbox(BDX_PCU_DID)) uncore_msr_uncores[BDX_MSR_UNCORE_SBOX] = NULL; hswep_uncore_pcu.constraints = bdx_uncore_pcu_constraints; } static struct intel_uncore_type bdx_uncore_ha = { .name = "ha", .num_counters = 4, .num_boxes = 2, .perf_ctr_bits = 48, SNBEP_UNCORE_PCI_COMMON_INIT(), }; static struct intel_uncore_type bdx_uncore_imc = { .name = "imc", .num_counters = 4, .num_boxes = 8, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .fixed_ctr = SNBEP_MC_CHy_PCI_PMON_FIXED_CTR, .fixed_ctl = SNBEP_MC_CHy_PCI_PMON_FIXED_CTL, .event_descs = hswep_uncore_imc_events, SNBEP_UNCORE_PCI_COMMON_INIT(), }; static struct intel_uncore_type bdx_uncore_irp = { .name = "irp", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCI_PMON_BOX_CTL, .ops = &hswep_uncore_irp_ops, .format_group = &snbep_uncore_format_group, }; static struct intel_uncore_type bdx_uncore_qpi = { .name = "qpi", .num_counters = 4, .num_boxes = 3, .perf_ctr_bits = 48, .perf_ctr = SNBEP_PCI_PMON_CTR0, .event_ctl = SNBEP_PCI_PMON_CTL0, .event_mask = SNBEP_QPI_PCI_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCI_PMON_BOX_CTL, .num_shared_regs = 1, .ops = &snbep_uncore_qpi_ops, .format_group = &snbep_uncore_qpi_format_group, }; static struct event_constraint bdx_uncore_r2pcie_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x10, 0x3), UNCORE_EVENT_CONSTRAINT(0x11, 0x3), UNCORE_EVENT_CONSTRAINT(0x13, 0x1), UNCORE_EVENT_CONSTRAINT(0x23, 0x1), UNCORE_EVENT_CONSTRAINT(0x25, 0x1), UNCORE_EVENT_CONSTRAINT(0x26, 0x3), UNCORE_EVENT_CONSTRAINT(0x28, 0x3), UNCORE_EVENT_CONSTRAINT(0x2c, 0x3), UNCORE_EVENT_CONSTRAINT(0x2d, 0x3), EVENT_CONSTRAINT_END }; static struct intel_uncore_type bdx_uncore_r2pcie = { .name = "r2pcie", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .constraints = bdx_uncore_r2pcie_constraints, SNBEP_UNCORE_PCI_COMMON_INIT(), }; static struct event_constraint bdx_uncore_r3qpi_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x01, 0x7), UNCORE_EVENT_CONSTRAINT(0x07, 0x7), UNCORE_EVENT_CONSTRAINT(0x08, 0x7), UNCORE_EVENT_CONSTRAINT(0x09, 0x7), UNCORE_EVENT_CONSTRAINT(0x0a, 0x7), UNCORE_EVENT_CONSTRAINT(0x0e, 0x7), UNCORE_EVENT_CONSTRAINT(0x10, 0x3), UNCORE_EVENT_CONSTRAINT(0x11, 0x3), UNCORE_EVENT_CONSTRAINT(0x13, 0x1), UNCORE_EVENT_CONSTRAINT(0x14, 0x3), UNCORE_EVENT_CONSTRAINT(0x15, 0x3), UNCORE_EVENT_CONSTRAINT(0x1f, 0x3), UNCORE_EVENT_CONSTRAINT(0x20, 0x3), UNCORE_EVENT_CONSTRAINT(0x21, 0x3), UNCORE_EVENT_CONSTRAINT(0x22, 0x3), UNCORE_EVENT_CONSTRAINT(0x23, 0x3), UNCORE_EVENT_CONSTRAINT(0x25, 0x3), UNCORE_EVENT_CONSTRAINT(0x26, 0x3), UNCORE_EVENT_CONSTRAINT(0x28, 0x3), UNCORE_EVENT_CONSTRAINT(0x29, 0x3), UNCORE_EVENT_CONSTRAINT(0x2c, 0x3), UNCORE_EVENT_CONSTRAINT(0x2d, 0x3), UNCORE_EVENT_CONSTRAINT(0x2e, 0x3), UNCORE_EVENT_CONSTRAINT(0x2f, 0x3), UNCORE_EVENT_CONSTRAINT(0x33, 0x3), UNCORE_EVENT_CONSTRAINT(0x34, 0x3), UNCORE_EVENT_CONSTRAINT(0x36, 0x3), UNCORE_EVENT_CONSTRAINT(0x37, 0x3), UNCORE_EVENT_CONSTRAINT(0x38, 0x3), UNCORE_EVENT_CONSTRAINT(0x39, 0x3), EVENT_CONSTRAINT_END }; static struct intel_uncore_type bdx_uncore_r3qpi = { .name = "r3qpi", .num_counters = 3, .num_boxes = 3, .perf_ctr_bits = 48, .constraints = bdx_uncore_r3qpi_constraints, SNBEP_UNCORE_PCI_COMMON_INIT(), }; enum { BDX_PCI_UNCORE_HA, BDX_PCI_UNCORE_IMC, BDX_PCI_UNCORE_IRP, BDX_PCI_UNCORE_QPI, BDX_PCI_UNCORE_R2PCIE, BDX_PCI_UNCORE_R3QPI, }; static struct intel_uncore_type *bdx_pci_uncores[] = { [BDX_PCI_UNCORE_HA] = &bdx_uncore_ha, [BDX_PCI_UNCORE_IMC] = &bdx_uncore_imc, [BDX_PCI_UNCORE_IRP] = &bdx_uncore_irp, [BDX_PCI_UNCORE_QPI] = &bdx_uncore_qpi, [BDX_PCI_UNCORE_R2PCIE] = &bdx_uncore_r2pcie, [BDX_PCI_UNCORE_R3QPI] = &bdx_uncore_r3qpi, NULL, }; static const struct pci_device_id bdx_uncore_pci_ids[] = { { /* Home Agent 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f30), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_HA, 0), }, { /* Home Agent 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f38), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_HA, 1), }, { /* MC0 Channel 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6fb0), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_IMC, 0), }, { /* MC0 Channel 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6fb1), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_IMC, 1), }, { /* MC0 Channel 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6fb4), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_IMC, 2), }, { /* MC0 Channel 3 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6fb5), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_IMC, 3), }, { /* MC1 Channel 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6fd0), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_IMC, 4), }, { /* MC1 Channel 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6fd1), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_IMC, 5), }, { /* MC1 Channel 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6fd4), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_IMC, 6), }, { /* MC1 Channel 3 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6fd5), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_IMC, 7), }, { /* IRP */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f39), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_IRP, 0), }, { /* QPI0 Port 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f32), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_QPI, 0), }, { /* QPI0 Port 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f33), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_QPI, 1), }, { /* QPI1 Port 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f3a), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_QPI, 2), }, { /* R2PCIe */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f34), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_R2PCIE, 0), }, { /* R3QPI0 Link 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f36), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_R3QPI, 0), }, { /* R3QPI0 Link 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f37), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_R3QPI, 1), }, { /* R3QPI1 Link 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f3e), .driver_data = UNCORE_PCI_DEV_DATA(BDX_PCI_UNCORE_R3QPI, 2), }, { /* QPI Port 0 filter */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f86), .driver_data = UNCORE_PCI_DEV_DATA(UNCORE_EXTRA_PCI_DEV, SNBEP_PCI_QPI_PORT0_FILTER), }, { /* QPI Port 1 filter */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f96), .driver_data = UNCORE_PCI_DEV_DATA(UNCORE_EXTRA_PCI_DEV, SNBEP_PCI_QPI_PORT1_FILTER), }, { /* QPI Port 2 filter */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x6f46), .driver_data = UNCORE_PCI_DEV_DATA(UNCORE_EXTRA_PCI_DEV, BDX_PCI_QPI_PORT2_FILTER), }, { /* end: all zeroes */ } }; static struct pci_driver bdx_uncore_pci_driver = { .name = "bdx_uncore", .id_table = bdx_uncore_pci_ids, }; int bdx_uncore_pci_init(void) { int ret = snbep_pci2phy_map_init(0x6f1e, SNBEP_CPUNODEID, SNBEP_GIDNIDMAP, true); if (ret) return ret; uncore_pci_uncores = bdx_pci_uncores; uncore_pci_driver = &bdx_uncore_pci_driver; return 0; } /* end of BDX uncore support */ /* SKX uncore support */ static struct intel_uncore_type skx_uncore_ubox = { .name = "ubox", .num_counters = 2, .num_boxes = 1, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .perf_ctr = HSWEP_U_MSR_PMON_CTR0, .event_ctl = HSWEP_U_MSR_PMON_CTL0, .event_mask = SNBEP_U_MSR_PMON_RAW_EVENT_MASK, .fixed_ctr = HSWEP_U_MSR_PMON_UCLK_FIXED_CTR, .fixed_ctl = HSWEP_U_MSR_PMON_UCLK_FIXED_CTL, .ops = &ivbep_uncore_msr_ops, .format_group = &ivbep_uncore_ubox_format_group, }; static struct attribute *skx_uncore_cha_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_tid_en.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, &format_attr_filter_tid4.attr, &format_attr_filter_state5.attr, &format_attr_filter_rem.attr, &format_attr_filter_loc.attr, &format_attr_filter_nm.attr, &format_attr_filter_all_op.attr, &format_attr_filter_not_nm.attr, &format_attr_filter_opc_0.attr, &format_attr_filter_opc_1.attr, &format_attr_filter_nc.attr, &format_attr_filter_isoc.attr, NULL, }; static const struct attribute_group skx_uncore_chabox_format_group = { .name = "format", .attrs = skx_uncore_cha_formats_attr, }; static struct event_constraint skx_uncore_chabox_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x11, 0x1), UNCORE_EVENT_CONSTRAINT(0x36, 0x1), EVENT_CONSTRAINT_END }; static struct extra_reg skx_uncore_cha_extra_regs[] = { SNBEP_CBO_EVENT_EXTRA_REG(0x0334, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x0534, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x0934, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x1134, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x3134, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x9134, 0xffff, 0x4), SNBEP_CBO_EVENT_EXTRA_REG(0x35, 0xff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x36, 0xff, 0x8), SNBEP_CBO_EVENT_EXTRA_REG(0x38, 0xff, 0x3), EVENT_EXTRA_END }; static u64 skx_cha_filter_mask(int fields) { u64 mask = 0; if (fields & 0x1) mask |= SKX_CHA_MSR_PMON_BOX_FILTER_TID; if (fields & 0x2) mask |= SKX_CHA_MSR_PMON_BOX_FILTER_LINK; if (fields & 0x4) mask |= SKX_CHA_MSR_PMON_BOX_FILTER_STATE; if (fields & 0x8) { mask |= SKX_CHA_MSR_PMON_BOX_FILTER_REM; mask |= SKX_CHA_MSR_PMON_BOX_FILTER_LOC; mask |= SKX_CHA_MSR_PMON_BOX_FILTER_ALL_OPC; mask |= SKX_CHA_MSR_PMON_BOX_FILTER_NM; mask |= SKX_CHA_MSR_PMON_BOX_FILTER_NOT_NM; mask |= SKX_CHA_MSR_PMON_BOX_FILTER_OPC0; mask |= SKX_CHA_MSR_PMON_BOX_FILTER_OPC1; mask |= SKX_CHA_MSR_PMON_BOX_FILTER_NC; mask |= SKX_CHA_MSR_PMON_BOX_FILTER_ISOC; } return mask; } static struct event_constraint * skx_cha_get_constraint(struct intel_uncore_box *box, struct perf_event *event) { return __snbep_cbox_get_constraint(box, event, skx_cha_filter_mask); } static int skx_cha_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; struct extra_reg *er; int idx = 0; /* Any of the CHA events may be filtered by Thread/Core-ID.*/ if (event->hw.config & SNBEP_CBO_PMON_CTL_TID_EN) idx = SKX_CHA_MSR_PMON_BOX_FILTER_TID; for (er = skx_uncore_cha_extra_regs; er->msr; er++) { if (er->event != (event->hw.config & er->config_mask)) continue; idx |= er->idx; } if (idx) { reg1->reg = HSWEP_C0_MSR_PMON_BOX_FILTER0 + HSWEP_CBO_MSR_OFFSET * box->pmu->pmu_idx; reg1->config = event->attr.config1 & skx_cha_filter_mask(idx); reg1->idx = idx; } return 0; } static struct intel_uncore_ops skx_uncore_chabox_ops = { /* There is no frz_en for chabox ctl */ .init_box = ivbep_uncore_msr_init_box, .disable_box = snbep_uncore_msr_disable_box, .enable_box = snbep_uncore_msr_enable_box, .disable_event = snbep_uncore_msr_disable_event, .enable_event = hswep_cbox_enable_event, .read_counter = uncore_msr_read_counter, .hw_config = skx_cha_hw_config, .get_constraint = skx_cha_get_constraint, .put_constraint = snbep_cbox_put_constraint, }; static struct intel_uncore_type skx_uncore_chabox = { .name = "cha", .num_counters = 4, .perf_ctr_bits = 48, .event_ctl = HSWEP_C0_MSR_PMON_CTL0, .perf_ctr = HSWEP_C0_MSR_PMON_CTR0, .event_mask = HSWEP_S_MSR_PMON_RAW_EVENT_MASK, .box_ctl = HSWEP_C0_MSR_PMON_BOX_CTL, .msr_offset = HSWEP_CBO_MSR_OFFSET, .num_shared_regs = 1, .constraints = skx_uncore_chabox_constraints, .ops = &skx_uncore_chabox_ops, .format_group = &skx_uncore_chabox_format_group, }; static struct attribute *skx_uncore_iio_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh9.attr, &format_attr_ch_mask.attr, &format_attr_fc_mask.attr, NULL, }; static const struct attribute_group skx_uncore_iio_format_group = { .name = "format", .attrs = skx_uncore_iio_formats_attr, }; static struct event_constraint skx_uncore_iio_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x83, 0x3), UNCORE_EVENT_CONSTRAINT(0x88, 0xc), UNCORE_EVENT_CONSTRAINT(0x95, 0xc), UNCORE_EVENT_CONSTRAINT(0xc0, 0xc), UNCORE_EVENT_CONSTRAINT(0xc5, 0xc), UNCORE_EVENT_CONSTRAINT(0xd4, 0xc), UNCORE_EVENT_CONSTRAINT(0xd5, 0xc), EVENT_CONSTRAINT_END }; static void skx_iio_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; wrmsrl(hwc->config_base, hwc->config | SNBEP_PMON_CTL_EN); } static struct intel_uncore_ops skx_uncore_iio_ops = { .init_box = ivbep_uncore_msr_init_box, .disable_box = snbep_uncore_msr_disable_box, .enable_box = snbep_uncore_msr_enable_box, .disable_event = snbep_uncore_msr_disable_event, .enable_event = skx_iio_enable_event, .read_counter = uncore_msr_read_counter, }; static struct intel_uncore_topology *pmu_topology(struct intel_uncore_pmu *pmu, int die) { int idx; for (idx = 0; idx < pmu->type->num_boxes; idx++) { if (pmu->type->topology[die][idx].pmu_idx == pmu->pmu_idx) return &pmu->type->topology[die][idx]; } return NULL; } static umode_t pmu_iio_mapping_visible(struct kobject *kobj, struct attribute *attr, int die, int zero_bus_pmu) { struct intel_uncore_pmu *pmu = dev_to_uncore_pmu(kobj_to_dev(kobj)); struct intel_uncore_topology *pmut = pmu_topology(pmu, die); return (pmut && !pmut->iio->pci_bus_no && pmu->pmu_idx != zero_bus_pmu) ? 0 : attr->mode; } static umode_t skx_iio_mapping_visible(struct kobject *kobj, struct attribute *attr, int die) { /* Root bus 0x00 is valid only for pmu_idx = 0. */ return pmu_iio_mapping_visible(kobj, attr, die, 0); } static ssize_t skx_iio_mapping_show(struct device *dev, struct device_attribute *attr, char *buf) { struct intel_uncore_pmu *pmu = dev_to_uncore_pmu(dev); struct dev_ext_attribute *ea = to_dev_ext_attribute(attr); long die = (long)ea->var; struct intel_uncore_topology *pmut = pmu_topology(pmu, die); return sprintf(buf, "%04x:%02x\n", pmut ? pmut->iio->segment : 0, pmut ? pmut->iio->pci_bus_no : 0); } static int skx_msr_cpu_bus_read(int cpu, u64 *topology) { u64 msr_value; if (rdmsrl_on_cpu(cpu, SKX_MSR_CPU_BUS_NUMBER, &msr_value) || !(msr_value & SKX_MSR_CPU_BUS_VALID_BIT)) return -ENXIO; *topology = msr_value; return 0; } static int die_to_cpu(int die) { int res = 0, cpu, current_die; /* * Using cpus_read_lock() to ensure cpu is not going down between * looking at cpu_online_mask. */ cpus_read_lock(); for_each_online_cpu(cpu) { current_die = topology_logical_die_id(cpu); if (current_die == die) { res = cpu; break; } } cpus_read_unlock(); return res; } enum { IIO_TOPOLOGY_TYPE, UPI_TOPOLOGY_TYPE, TOPOLOGY_MAX }; static const size_t topology_size[TOPOLOGY_MAX] = { sizeof(*((struct intel_uncore_topology *)NULL)->iio), sizeof(*((struct intel_uncore_topology *)NULL)->upi) }; static int pmu_alloc_topology(struct intel_uncore_type *type, int topology_type) { int die, idx; struct intel_uncore_topology **topology; if (!type->num_boxes) return -EPERM; topology = kcalloc(uncore_max_dies(), sizeof(*topology), GFP_KERNEL); if (!topology) goto err; for (die = 0; die < uncore_max_dies(); die++) { topology[die] = kcalloc(type->num_boxes, sizeof(**topology), GFP_KERNEL); if (!topology[die]) goto clear; for (idx = 0; idx < type->num_boxes; idx++) { topology[die][idx].untyped = kcalloc(type->num_boxes, topology_size[topology_type], GFP_KERNEL); if (!topology[die][idx].untyped) goto clear; } } type->topology = topology; return 0; clear: for (; die >= 0; die--) { for (idx = 0; idx < type->num_boxes; idx++) kfree(topology[die][idx].untyped); kfree(topology[die]); } kfree(topology); err: return -ENOMEM; } static void pmu_free_topology(struct intel_uncore_type *type) { int die, idx; if (type->topology) { for (die = 0; die < uncore_max_dies(); die++) { for (idx = 0; idx < type->num_boxes; idx++) kfree(type->topology[die][idx].untyped); kfree(type->topology[die]); } kfree(type->topology); type->topology = NULL; } } static int skx_pmu_get_topology(struct intel_uncore_type *type, int (*topology_cb)(struct intel_uncore_type*, int, int, u64)) { int die, ret = -EPERM; u64 cpu_bus_msr; for (die = 0; die < uncore_max_dies(); die++) { ret = skx_msr_cpu_bus_read(die_to_cpu(die), &cpu_bus_msr); if (ret) break; ret = uncore_die_to_segment(die); if (ret < 0) break; ret = topology_cb(type, ret, die, cpu_bus_msr); if (ret) break; } return ret; } static int skx_iio_topology_cb(struct intel_uncore_type *type, int segment, int die, u64 cpu_bus_msr) { int idx; struct intel_uncore_topology *t; for (idx = 0; idx < type->num_boxes; idx++) { t = &type->topology[die][idx]; t->pmu_idx = idx; t->iio->segment = segment; t->iio->pci_bus_no = (cpu_bus_msr >> (idx * BUS_NUM_STRIDE)) & 0xff; } return 0; } static int skx_iio_get_topology(struct intel_uncore_type *type) { return skx_pmu_get_topology(type, skx_iio_topology_cb); } static struct attribute_group skx_iio_mapping_group = { .is_visible = skx_iio_mapping_visible, }; static const struct attribute_group *skx_iio_attr_update[] = { &skx_iio_mapping_group, NULL, }; static void pmu_clear_mapping_attr(const struct attribute_group **groups, struct attribute_group *ag) { int i; for (i = 0; groups[i]; i++) { if (groups[i] == ag) { for (i++; groups[i]; i++) groups[i - 1] = groups[i]; groups[i - 1] = NULL; break; } } } static void pmu_set_mapping(struct intel_uncore_type *type, struct attribute_group *ag, ssize_t (*show)(struct device*, struct device_attribute*, char*), int topology_type) { char buf[64]; int ret; long die = -1; struct attribute **attrs = NULL; struct dev_ext_attribute *eas = NULL; ret = pmu_alloc_topology(type, topology_type); if (ret < 0) goto clear_attr_update; ret = type->get_topology(type); if (ret < 0) goto clear_topology; /* One more for NULL. */ attrs = kcalloc((uncore_max_dies() + 1), sizeof(*attrs), GFP_KERNEL); if (!attrs) goto clear_topology; eas = kcalloc(uncore_max_dies(), sizeof(*eas), GFP_KERNEL); if (!eas) goto clear_attrs; for (die = 0; die < uncore_max_dies(); die++) { snprintf(buf, sizeof(buf), "die%ld", die); sysfs_attr_init(&eas[die].attr.attr); eas[die].attr.attr.name = kstrdup(buf, GFP_KERNEL); if (!eas[die].attr.attr.name) goto err; eas[die].attr.attr.mode = 0444; eas[die].attr.show = show; eas[die].attr.store = NULL; eas[die].var = (void *)die; attrs[die] = &eas[die].attr.attr; } ag->attrs = attrs; return; err: for (; die >= 0; die--) kfree(eas[die].attr.attr.name); kfree(eas); clear_attrs: kfree(attrs); clear_topology: pmu_free_topology(type); clear_attr_update: pmu_clear_mapping_attr(type->attr_update, ag); } static void pmu_cleanup_mapping(struct intel_uncore_type *type, struct attribute_group *ag) { struct attribute **attr = ag->attrs; if (!attr) return; for (; *attr; attr++) kfree((*attr)->name); kfree(attr_to_ext_attr(*ag->attrs)); kfree(ag->attrs); ag->attrs = NULL; pmu_free_topology(type); } static void pmu_iio_set_mapping(struct intel_uncore_type *type, struct attribute_group *ag) { pmu_set_mapping(type, ag, skx_iio_mapping_show, IIO_TOPOLOGY_TYPE); } static void skx_iio_set_mapping(struct intel_uncore_type *type) { pmu_iio_set_mapping(type, &skx_iio_mapping_group); } static void skx_iio_cleanup_mapping(struct intel_uncore_type *type) { pmu_cleanup_mapping(type, &skx_iio_mapping_group); } static struct intel_uncore_type skx_uncore_iio = { .name = "iio", .num_counters = 4, .num_boxes = 6, .perf_ctr_bits = 48, .event_ctl = SKX_IIO0_MSR_PMON_CTL0, .perf_ctr = SKX_IIO0_MSR_PMON_CTR0, .event_mask = SKX_IIO_PMON_RAW_EVENT_MASK, .event_mask_ext = SKX_IIO_PMON_RAW_EVENT_MASK_EXT, .box_ctl = SKX_IIO0_MSR_PMON_BOX_CTL, .msr_offset = SKX_IIO_MSR_OFFSET, .constraints = skx_uncore_iio_constraints, .ops = &skx_uncore_iio_ops, .format_group = &skx_uncore_iio_format_group, .attr_update = skx_iio_attr_update, .get_topology = skx_iio_get_topology, .set_mapping = skx_iio_set_mapping, .cleanup_mapping = skx_iio_cleanup_mapping, }; enum perf_uncore_iio_freerunning_type_id { SKX_IIO_MSR_IOCLK = 0, SKX_IIO_MSR_BW = 1, SKX_IIO_MSR_UTIL = 2, SKX_IIO_FREERUNNING_TYPE_MAX, }; static struct freerunning_counters skx_iio_freerunning[] = { [SKX_IIO_MSR_IOCLK] = { 0xa45, 0x1, 0x20, 1, 36 }, [SKX_IIO_MSR_BW] = { 0xb00, 0x1, 0x10, 8, 36 }, [SKX_IIO_MSR_UTIL] = { 0xb08, 0x1, 0x10, 8, 36 }, }; static struct uncore_event_desc skx_uncore_iio_freerunning_events[] = { /* Free-Running IO CLOCKS Counter */ INTEL_UNCORE_EVENT_DESC(ioclk, "event=0xff,umask=0x10"), /* Free-Running IIO BANDWIDTH Counters */ INTEL_UNCORE_EVENT_DESC(bw_in_port0, "event=0xff,umask=0x20"), INTEL_UNCORE_EVENT_DESC(bw_in_port0.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port0.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port1, "event=0xff,umask=0x21"), INTEL_UNCORE_EVENT_DESC(bw_in_port1.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port1.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port2, "event=0xff,umask=0x22"), INTEL_UNCORE_EVENT_DESC(bw_in_port2.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port2.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port3, "event=0xff,umask=0x23"), INTEL_UNCORE_EVENT_DESC(bw_in_port3.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port3.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_out_port0, "event=0xff,umask=0x24"), INTEL_UNCORE_EVENT_DESC(bw_out_port0.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port0.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_out_port1, "event=0xff,umask=0x25"), INTEL_UNCORE_EVENT_DESC(bw_out_port1.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port1.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_out_port2, "event=0xff,umask=0x26"), INTEL_UNCORE_EVENT_DESC(bw_out_port2.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port2.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_out_port3, "event=0xff,umask=0x27"), INTEL_UNCORE_EVENT_DESC(bw_out_port3.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port3.unit, "MiB"), /* Free-running IIO UTILIZATION Counters */ INTEL_UNCORE_EVENT_DESC(util_in_port0, "event=0xff,umask=0x30"), INTEL_UNCORE_EVENT_DESC(util_out_port0, "event=0xff,umask=0x31"), INTEL_UNCORE_EVENT_DESC(util_in_port1, "event=0xff,umask=0x32"), INTEL_UNCORE_EVENT_DESC(util_out_port1, "event=0xff,umask=0x33"), INTEL_UNCORE_EVENT_DESC(util_in_port2, "event=0xff,umask=0x34"), INTEL_UNCORE_EVENT_DESC(util_out_port2, "event=0xff,umask=0x35"), INTEL_UNCORE_EVENT_DESC(util_in_port3, "event=0xff,umask=0x36"), INTEL_UNCORE_EVENT_DESC(util_out_port3, "event=0xff,umask=0x37"), { /* end: all zeroes */ }, }; static struct intel_uncore_ops skx_uncore_iio_freerunning_ops = { .read_counter = uncore_msr_read_counter, .hw_config = uncore_freerunning_hw_config, }; static struct attribute *skx_uncore_iio_freerunning_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, NULL, }; static const struct attribute_group skx_uncore_iio_freerunning_format_group = { .name = "format", .attrs = skx_uncore_iio_freerunning_formats_attr, }; static struct intel_uncore_type skx_uncore_iio_free_running = { .name = "iio_free_running", .num_counters = 17, .num_boxes = 6, .num_freerunning_types = SKX_IIO_FREERUNNING_TYPE_MAX, .freerunning = skx_iio_freerunning, .ops = &skx_uncore_iio_freerunning_ops, .event_descs = skx_uncore_iio_freerunning_events, .format_group = &skx_uncore_iio_freerunning_format_group, }; static struct attribute *skx_uncore_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, NULL, }; static const struct attribute_group skx_uncore_format_group = { .name = "format", .attrs = skx_uncore_formats_attr, }; static struct intel_uncore_type skx_uncore_irp = { .name = "irp", .num_counters = 2, .num_boxes = 6, .perf_ctr_bits = 48, .event_ctl = SKX_IRP0_MSR_PMON_CTL0, .perf_ctr = SKX_IRP0_MSR_PMON_CTR0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = SKX_IRP0_MSR_PMON_BOX_CTL, .msr_offset = SKX_IRP_MSR_OFFSET, .ops = &skx_uncore_iio_ops, .format_group = &skx_uncore_format_group, }; static struct attribute *skx_uncore_pcu_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, &format_attr_occ_invert.attr, &format_attr_occ_edge_det.attr, &format_attr_filter_band0.attr, &format_attr_filter_band1.attr, &format_attr_filter_band2.attr, &format_attr_filter_band3.attr, NULL, }; static struct attribute_group skx_uncore_pcu_format_group = { .name = "format", .attrs = skx_uncore_pcu_formats_attr, }; static struct intel_uncore_ops skx_uncore_pcu_ops = { IVBEP_UNCORE_MSR_OPS_COMMON_INIT(), .hw_config = hswep_pcu_hw_config, .get_constraint = snbep_pcu_get_constraint, .put_constraint = snbep_pcu_put_constraint, }; static struct intel_uncore_type skx_uncore_pcu = { .name = "pcu", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .perf_ctr = HSWEP_PCU_MSR_PMON_CTR0, .event_ctl = HSWEP_PCU_MSR_PMON_CTL0, .event_mask = SNBEP_PCU_MSR_PMON_RAW_EVENT_MASK, .box_ctl = HSWEP_PCU_MSR_PMON_BOX_CTL, .num_shared_regs = 1, .ops = &skx_uncore_pcu_ops, .format_group = &skx_uncore_pcu_format_group, }; static struct intel_uncore_type *skx_msr_uncores[] = { &skx_uncore_ubox, &skx_uncore_chabox, &skx_uncore_iio, &skx_uncore_iio_free_running, &skx_uncore_irp, &skx_uncore_pcu, NULL, }; /* * To determine the number of CHAs, it should read bits 27:0 in the CAPID6 * register which located at Device 30, Function 3, Offset 0x9C. PCI ID 0x2083. */ #define SKX_CAPID6 0x9c #define SKX_CHA_BIT_MASK GENMASK(27, 0) static int skx_count_chabox(void) { struct pci_dev *dev = NULL; u32 val = 0; dev = pci_get_device(PCI_VENDOR_ID_INTEL, 0x2083, dev); if (!dev) goto out; pci_read_config_dword(dev, SKX_CAPID6, &val); val &= SKX_CHA_BIT_MASK; out: pci_dev_put(dev); return hweight32(val); } void skx_uncore_cpu_init(void) { skx_uncore_chabox.num_boxes = skx_count_chabox(); uncore_msr_uncores = skx_msr_uncores; } static struct intel_uncore_type skx_uncore_imc = { .name = "imc", .num_counters = 4, .num_boxes = 6, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .fixed_ctr = SNBEP_MC_CHy_PCI_PMON_FIXED_CTR, .fixed_ctl = SNBEP_MC_CHy_PCI_PMON_FIXED_CTL, .event_descs = hswep_uncore_imc_events, .perf_ctr = SNBEP_PCI_PMON_CTR0, .event_ctl = SNBEP_PCI_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCI_PMON_BOX_CTL, .ops = &ivbep_uncore_pci_ops, .format_group = &skx_uncore_format_group, }; static struct attribute *skx_upi_uncore_formats_attr[] = { &format_attr_event.attr, &format_attr_umask_ext.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, NULL, }; static const struct attribute_group skx_upi_uncore_format_group = { .name = "format", .attrs = skx_upi_uncore_formats_attr, }; static void skx_upi_uncore_pci_init_box(struct intel_uncore_box *box) { struct pci_dev *pdev = box->pci_dev; __set_bit(UNCORE_BOX_FLAG_CTL_OFFS8, &box->flags); pci_write_config_dword(pdev, SKX_UPI_PCI_PMON_BOX_CTL, IVBEP_PMON_BOX_CTL_INT); } static struct intel_uncore_ops skx_upi_uncore_pci_ops = { .init_box = skx_upi_uncore_pci_init_box, .disable_box = snbep_uncore_pci_disable_box, .enable_box = snbep_uncore_pci_enable_box, .disable_event = snbep_uncore_pci_disable_event, .enable_event = snbep_uncore_pci_enable_event, .read_counter = snbep_uncore_pci_read_counter, }; static umode_t skx_upi_mapping_visible(struct kobject *kobj, struct attribute *attr, int die) { struct intel_uncore_pmu *pmu = dev_to_uncore_pmu(kobj_to_dev(kobj)); return pmu->type->topology[die][pmu->pmu_idx].upi->enabled ? attr->mode : 0; } static ssize_t skx_upi_mapping_show(struct device *dev, struct device_attribute *attr, char *buf) { struct intel_uncore_pmu *pmu = dev_to_uncore_pmu(dev); struct dev_ext_attribute *ea = to_dev_ext_attribute(attr); long die = (long)ea->var; struct uncore_upi_topology *upi = pmu->type->topology[die][pmu->pmu_idx].upi; return sysfs_emit(buf, "upi_%d,die_%d\n", upi->pmu_idx_to, upi->die_to); } #define SKX_UPI_REG_DID 0x2058 #define SKX_UPI_REGS_ADDR_DEVICE_LINK0 0x0e #define SKX_UPI_REGS_ADDR_FUNCTION 0x00 /* * UPI Link Parameter 0 * | Bit | Default | Description * | 19:16 | 0h | base_nodeid - The NodeID of the sending socket. * | 12:8 | 00h | sending_port - The processor die port number of the sending port. */ #define SKX_KTILP0_OFFSET 0x94 /* * UPI Pcode Status. This register is used by PCode to store the link training status. * | Bit | Default | Description * | 4 | 0h | ll_status_valid — Bit indicates the valid training status * logged from PCode to the BIOS. */ #define SKX_KTIPCSTS_OFFSET 0x120 static int upi_fill_topology(struct pci_dev *dev, struct intel_uncore_topology *tp, int pmu_idx) { int ret; u32 upi_conf; struct uncore_upi_topology *upi = tp->upi; tp->pmu_idx = pmu_idx; ret = pci_read_config_dword(dev, SKX_KTIPCSTS_OFFSET, &upi_conf); if (ret) { ret = pcibios_err_to_errno(ret); goto err; } upi->enabled = (upi_conf >> 4) & 1; if (upi->enabled) { ret = pci_read_config_dword(dev, SKX_KTILP0_OFFSET, &upi_conf); if (ret) { ret = pcibios_err_to_errno(ret); goto err; } upi->die_to = (upi_conf >> 16) & 0xf; upi->pmu_idx_to = (upi_conf >> 8) & 0x1f; } err: return ret; } static int skx_upi_topology_cb(struct intel_uncore_type *type, int segment, int die, u64 cpu_bus_msr) { int idx, ret; struct intel_uncore_topology *upi; unsigned int devfn; struct pci_dev *dev = NULL; u8 bus = cpu_bus_msr >> (3 * BUS_NUM_STRIDE); for (idx = 0; idx < type->num_boxes; idx++) { upi = &type->topology[die][idx]; devfn = PCI_DEVFN(SKX_UPI_REGS_ADDR_DEVICE_LINK0 + idx, SKX_UPI_REGS_ADDR_FUNCTION); dev = pci_get_domain_bus_and_slot(segment, bus, devfn); if (dev) { ret = upi_fill_topology(dev, upi, idx); if (ret) break; } } pci_dev_put(dev); return ret; } static int skx_upi_get_topology(struct intel_uncore_type *type) { /* CPX case is not supported */ if (boot_cpu_data.x86_stepping == 11) return -EPERM; return skx_pmu_get_topology(type, skx_upi_topology_cb); } static struct attribute_group skx_upi_mapping_group = { .is_visible = skx_upi_mapping_visible, }; static const struct attribute_group *skx_upi_attr_update[] = { &skx_upi_mapping_group, NULL }; static void pmu_upi_set_mapping(struct intel_uncore_type *type, struct attribute_group *ag) { pmu_set_mapping(type, ag, skx_upi_mapping_show, UPI_TOPOLOGY_TYPE); } static void skx_upi_set_mapping(struct intel_uncore_type *type) { pmu_upi_set_mapping(type, &skx_upi_mapping_group); } static void skx_upi_cleanup_mapping(struct intel_uncore_type *type) { pmu_cleanup_mapping(type, &skx_upi_mapping_group); } static struct intel_uncore_type skx_uncore_upi = { .name = "upi", .num_counters = 4, .num_boxes = 3, .perf_ctr_bits = 48, .perf_ctr = SKX_UPI_PCI_PMON_CTR0, .event_ctl = SKX_UPI_PCI_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .event_mask_ext = SKX_UPI_CTL_UMASK_EXT, .box_ctl = SKX_UPI_PCI_PMON_BOX_CTL, .ops = &skx_upi_uncore_pci_ops, .format_group = &skx_upi_uncore_format_group, .attr_update = skx_upi_attr_update, .get_topology = skx_upi_get_topology, .set_mapping = skx_upi_set_mapping, .cleanup_mapping = skx_upi_cleanup_mapping, }; static void skx_m2m_uncore_pci_init_box(struct intel_uncore_box *box) { struct pci_dev *pdev = box->pci_dev; __set_bit(UNCORE_BOX_FLAG_CTL_OFFS8, &box->flags); pci_write_config_dword(pdev, SKX_M2M_PCI_PMON_BOX_CTL, IVBEP_PMON_BOX_CTL_INT); } static struct intel_uncore_ops skx_m2m_uncore_pci_ops = { .init_box = skx_m2m_uncore_pci_init_box, .disable_box = snbep_uncore_pci_disable_box, .enable_box = snbep_uncore_pci_enable_box, .disable_event = snbep_uncore_pci_disable_event, .enable_event = snbep_uncore_pci_enable_event, .read_counter = snbep_uncore_pci_read_counter, }; static struct intel_uncore_type skx_uncore_m2m = { .name = "m2m", .num_counters = 4, .num_boxes = 2, .perf_ctr_bits = 48, .perf_ctr = SKX_M2M_PCI_PMON_CTR0, .event_ctl = SKX_M2M_PCI_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = SKX_M2M_PCI_PMON_BOX_CTL, .ops = &skx_m2m_uncore_pci_ops, .format_group = &skx_uncore_format_group, }; static struct event_constraint skx_uncore_m2pcie_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x23, 0x3), EVENT_CONSTRAINT_END }; static struct intel_uncore_type skx_uncore_m2pcie = { .name = "m2pcie", .num_counters = 4, .num_boxes = 4, .perf_ctr_bits = 48, .constraints = skx_uncore_m2pcie_constraints, .perf_ctr = SNBEP_PCI_PMON_CTR0, .event_ctl = SNBEP_PCI_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCI_PMON_BOX_CTL, .ops = &ivbep_uncore_pci_ops, .format_group = &skx_uncore_format_group, }; static struct event_constraint skx_uncore_m3upi_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x1d, 0x1), UNCORE_EVENT_CONSTRAINT(0x1e, 0x1), UNCORE_EVENT_CONSTRAINT(0x40, 0x7), UNCORE_EVENT_CONSTRAINT(0x4e, 0x7), UNCORE_EVENT_CONSTRAINT(0x4f, 0x7), UNCORE_EVENT_CONSTRAINT(0x50, 0x7), UNCORE_EVENT_CONSTRAINT(0x51, 0x7), UNCORE_EVENT_CONSTRAINT(0x52, 0x7), EVENT_CONSTRAINT_END }; static struct intel_uncore_type skx_uncore_m3upi = { .name = "m3upi", .num_counters = 3, .num_boxes = 3, .perf_ctr_bits = 48, .constraints = skx_uncore_m3upi_constraints, .perf_ctr = SNBEP_PCI_PMON_CTR0, .event_ctl = SNBEP_PCI_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = SNBEP_PCI_PMON_BOX_CTL, .ops = &ivbep_uncore_pci_ops, .format_group = &skx_uncore_format_group, }; enum { SKX_PCI_UNCORE_IMC, SKX_PCI_UNCORE_M2M, SKX_PCI_UNCORE_UPI, SKX_PCI_UNCORE_M2PCIE, SKX_PCI_UNCORE_M3UPI, }; static struct intel_uncore_type *skx_pci_uncores[] = { [SKX_PCI_UNCORE_IMC] = &skx_uncore_imc, [SKX_PCI_UNCORE_M2M] = &skx_uncore_m2m, [SKX_PCI_UNCORE_UPI] = &skx_uncore_upi, [SKX_PCI_UNCORE_M2PCIE] = &skx_uncore_m2pcie, [SKX_PCI_UNCORE_M3UPI] = &skx_uncore_m3upi, NULL, }; static const struct pci_device_id skx_uncore_pci_ids[] = { { /* MC0 Channel 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2042), .driver_data = UNCORE_PCI_DEV_FULL_DATA(10, 2, SKX_PCI_UNCORE_IMC, 0), }, { /* MC0 Channel 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2046), .driver_data = UNCORE_PCI_DEV_FULL_DATA(10, 6, SKX_PCI_UNCORE_IMC, 1), }, { /* MC0 Channel 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x204a), .driver_data = UNCORE_PCI_DEV_FULL_DATA(11, 2, SKX_PCI_UNCORE_IMC, 2), }, { /* MC1 Channel 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2042), .driver_data = UNCORE_PCI_DEV_FULL_DATA(12, 2, SKX_PCI_UNCORE_IMC, 3), }, { /* MC1 Channel 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2046), .driver_data = UNCORE_PCI_DEV_FULL_DATA(12, 6, SKX_PCI_UNCORE_IMC, 4), }, { /* MC1 Channel 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x204a), .driver_data = UNCORE_PCI_DEV_FULL_DATA(13, 2, SKX_PCI_UNCORE_IMC, 5), }, { /* M2M0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2066), .driver_data = UNCORE_PCI_DEV_FULL_DATA(8, 0, SKX_PCI_UNCORE_M2M, 0), }, { /* M2M1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2066), .driver_data = UNCORE_PCI_DEV_FULL_DATA(9, 0, SKX_PCI_UNCORE_M2M, 1), }, { /* UPI0 Link 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2058), .driver_data = UNCORE_PCI_DEV_FULL_DATA(14, 0, SKX_PCI_UNCORE_UPI, 0), }, { /* UPI0 Link 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2058), .driver_data = UNCORE_PCI_DEV_FULL_DATA(15, 0, SKX_PCI_UNCORE_UPI, 1), }, { /* UPI1 Link 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2058), .driver_data = UNCORE_PCI_DEV_FULL_DATA(16, 0, SKX_PCI_UNCORE_UPI, 2), }, { /* M2PCIe 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2088), .driver_data = UNCORE_PCI_DEV_FULL_DATA(21, 1, SKX_PCI_UNCORE_M2PCIE, 0), }, { /* M2PCIe 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2088), .driver_data = UNCORE_PCI_DEV_FULL_DATA(22, 1, SKX_PCI_UNCORE_M2PCIE, 1), }, { /* M2PCIe 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2088), .driver_data = UNCORE_PCI_DEV_FULL_DATA(23, 1, SKX_PCI_UNCORE_M2PCIE, 2), }, { /* M2PCIe 3 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x2088), .driver_data = UNCORE_PCI_DEV_FULL_DATA(21, 5, SKX_PCI_UNCORE_M2PCIE, 3), }, { /* M3UPI0 Link 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x204D), .driver_data = UNCORE_PCI_DEV_FULL_DATA(18, 1, SKX_PCI_UNCORE_M3UPI, 0), }, { /* M3UPI0 Link 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x204E), .driver_data = UNCORE_PCI_DEV_FULL_DATA(18, 2, SKX_PCI_UNCORE_M3UPI, 1), }, { /* M3UPI1 Link 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x204D), .driver_data = UNCORE_PCI_DEV_FULL_DATA(18, 5, SKX_PCI_UNCORE_M3UPI, 2), }, { /* end: all zeroes */ } }; static struct pci_driver skx_uncore_pci_driver = { .name = "skx_uncore", .id_table = skx_uncore_pci_ids, }; int skx_uncore_pci_init(void) { /* need to double check pci address */ int ret = snbep_pci2phy_map_init(0x2014, SKX_CPUNODEID, SKX_GIDNIDMAP, false); if (ret) return ret; uncore_pci_uncores = skx_pci_uncores; uncore_pci_driver = &skx_uncore_pci_driver; return 0; } /* end of SKX uncore support */ /* SNR uncore support */ static struct intel_uncore_type snr_uncore_ubox = { .name = "ubox", .num_counters = 2, .num_boxes = 1, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .perf_ctr = SNR_U_MSR_PMON_CTR0, .event_ctl = SNR_U_MSR_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .fixed_ctr = SNR_U_MSR_PMON_UCLK_FIXED_CTR, .fixed_ctl = SNR_U_MSR_PMON_UCLK_FIXED_CTL, .ops = &ivbep_uncore_msr_ops, .format_group = &ivbep_uncore_format_group, }; static struct attribute *snr_uncore_cha_formats_attr[] = { &format_attr_event.attr, &format_attr_umask_ext2.attr, &format_attr_edge.attr, &format_attr_tid_en.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, &format_attr_filter_tid5.attr, NULL, }; static const struct attribute_group snr_uncore_chabox_format_group = { .name = "format", .attrs = snr_uncore_cha_formats_attr, }; static int snr_cha_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; reg1->reg = SNR_C0_MSR_PMON_BOX_FILTER0 + box->pmu->type->msr_offset * box->pmu->pmu_idx; reg1->config = event->attr.config1 & SKX_CHA_MSR_PMON_BOX_FILTER_TID; reg1->idx = 0; return 0; } static void snr_cha_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; if (reg1->idx != EXTRA_REG_NONE) wrmsrl(reg1->reg, reg1->config); wrmsrl(hwc->config_base, hwc->config | SNBEP_PMON_CTL_EN); } static struct intel_uncore_ops snr_uncore_chabox_ops = { .init_box = ivbep_uncore_msr_init_box, .disable_box = snbep_uncore_msr_disable_box, .enable_box = snbep_uncore_msr_enable_box, .disable_event = snbep_uncore_msr_disable_event, .enable_event = snr_cha_enable_event, .read_counter = uncore_msr_read_counter, .hw_config = snr_cha_hw_config, }; static struct intel_uncore_type snr_uncore_chabox = { .name = "cha", .num_counters = 4, .num_boxes = 6, .perf_ctr_bits = 48, .event_ctl = SNR_CHA_MSR_PMON_CTL0, .perf_ctr = SNR_CHA_MSR_PMON_CTR0, .box_ctl = SNR_CHA_MSR_PMON_BOX_CTL, .msr_offset = HSWEP_CBO_MSR_OFFSET, .event_mask = HSWEP_S_MSR_PMON_RAW_EVENT_MASK, .event_mask_ext = SNR_CHA_RAW_EVENT_MASK_EXT, .ops = &snr_uncore_chabox_ops, .format_group = &snr_uncore_chabox_format_group, }; static struct attribute *snr_uncore_iio_formats_attr[] = { &format_attr_event.attr, &format_attr_umask.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh9.attr, &format_attr_ch_mask2.attr, &format_attr_fc_mask2.attr, NULL, }; static const struct attribute_group snr_uncore_iio_format_group = { .name = "format", .attrs = snr_uncore_iio_formats_attr, }; static umode_t snr_iio_mapping_visible(struct kobject *kobj, struct attribute *attr, int die) { /* Root bus 0x00 is valid only for pmu_idx = 1. */ return pmu_iio_mapping_visible(kobj, attr, die, 1); } static struct attribute_group snr_iio_mapping_group = { .is_visible = snr_iio_mapping_visible, }; static const struct attribute_group *snr_iio_attr_update[] = { &snr_iio_mapping_group, NULL, }; static int sad_cfg_iio_topology(struct intel_uncore_type *type, u8 *sad_pmon_mapping) { u32 sad_cfg; int die, stack_id, ret = -EPERM; struct pci_dev *dev = NULL; while ((dev = pci_get_device(PCI_VENDOR_ID_INTEL, SNR_ICX_MESH2IIO_MMAP_DID, dev))) { ret = pci_read_config_dword(dev, SNR_ICX_SAD_CONTROL_CFG, &sad_cfg); if (ret) { ret = pcibios_err_to_errno(ret); break; } die = uncore_pcibus_to_dieid(dev->bus); stack_id = SAD_CONTROL_STACK_ID(sad_cfg); if (die < 0 || stack_id >= type->num_boxes) { ret = -EPERM; break; } /* Convert stack id from SAD_CONTROL to PMON notation. */ stack_id = sad_pmon_mapping[stack_id]; type->topology[die][stack_id].iio->segment = pci_domain_nr(dev->bus); type->topology[die][stack_id].pmu_idx = stack_id; type->topology[die][stack_id].iio->pci_bus_no = dev->bus->number; } pci_dev_put(dev); return ret; } /* * SNR has a static mapping of stack IDs from SAD_CONTROL_CFG notation to PMON */ enum { SNR_QAT_PMON_ID, SNR_CBDMA_DMI_PMON_ID, SNR_NIS_PMON_ID, SNR_DLB_PMON_ID, SNR_PCIE_GEN3_PMON_ID }; static u8 snr_sad_pmon_mapping[] = { SNR_CBDMA_DMI_PMON_ID, SNR_PCIE_GEN3_PMON_ID, SNR_DLB_PMON_ID, SNR_NIS_PMON_ID, SNR_QAT_PMON_ID }; static int snr_iio_get_topology(struct intel_uncore_type *type) { return sad_cfg_iio_topology(type, snr_sad_pmon_mapping); } static void snr_iio_set_mapping(struct intel_uncore_type *type) { pmu_iio_set_mapping(type, &snr_iio_mapping_group); } static void snr_iio_cleanup_mapping(struct intel_uncore_type *type) { pmu_cleanup_mapping(type, &snr_iio_mapping_group); } static struct event_constraint snr_uncore_iio_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x83, 0x3), UNCORE_EVENT_CONSTRAINT(0xc0, 0xc), UNCORE_EVENT_CONSTRAINT(0xd5, 0xc), EVENT_CONSTRAINT_END }; static struct intel_uncore_type snr_uncore_iio = { .name = "iio", .num_counters = 4, .num_boxes = 5, .perf_ctr_bits = 48, .event_ctl = SNR_IIO_MSR_PMON_CTL0, .perf_ctr = SNR_IIO_MSR_PMON_CTR0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .event_mask_ext = SNR_IIO_PMON_RAW_EVENT_MASK_EXT, .box_ctl = SNR_IIO_MSR_PMON_BOX_CTL, .msr_offset = SNR_IIO_MSR_OFFSET, .constraints = snr_uncore_iio_constraints, .ops = &ivbep_uncore_msr_ops, .format_group = &snr_uncore_iio_format_group, .attr_update = snr_iio_attr_update, .get_topology = snr_iio_get_topology, .set_mapping = snr_iio_set_mapping, .cleanup_mapping = snr_iio_cleanup_mapping, }; static struct intel_uncore_type snr_uncore_irp = { .name = "irp", .num_counters = 2, .num_boxes = 5, .perf_ctr_bits = 48, .event_ctl = SNR_IRP0_MSR_PMON_CTL0, .perf_ctr = SNR_IRP0_MSR_PMON_CTR0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = SNR_IRP0_MSR_PMON_BOX_CTL, .msr_offset = SNR_IRP_MSR_OFFSET, .ops = &ivbep_uncore_msr_ops, .format_group = &ivbep_uncore_format_group, }; static struct intel_uncore_type snr_uncore_m2pcie = { .name = "m2pcie", .num_counters = 4, .num_boxes = 5, .perf_ctr_bits = 48, .event_ctl = SNR_M2PCIE_MSR_PMON_CTL0, .perf_ctr = SNR_M2PCIE_MSR_PMON_CTR0, .box_ctl = SNR_M2PCIE_MSR_PMON_BOX_CTL, .msr_offset = SNR_M2PCIE_MSR_OFFSET, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .ops = &ivbep_uncore_msr_ops, .format_group = &ivbep_uncore_format_group, }; static int snr_pcu_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; int ev_sel = hwc->config & SNBEP_PMON_CTL_EV_SEL_MASK; if (ev_sel >= 0xb && ev_sel <= 0xe) { reg1->reg = SNR_PCU_MSR_PMON_BOX_FILTER; reg1->idx = ev_sel - 0xb; reg1->config = event->attr.config1 & (0xff << reg1->idx); } return 0; } static struct intel_uncore_ops snr_uncore_pcu_ops = { IVBEP_UNCORE_MSR_OPS_COMMON_INIT(), .hw_config = snr_pcu_hw_config, .get_constraint = snbep_pcu_get_constraint, .put_constraint = snbep_pcu_put_constraint, }; static struct intel_uncore_type snr_uncore_pcu = { .name = "pcu", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .perf_ctr = SNR_PCU_MSR_PMON_CTR0, .event_ctl = SNR_PCU_MSR_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = SNR_PCU_MSR_PMON_BOX_CTL, .num_shared_regs = 1, .ops = &snr_uncore_pcu_ops, .format_group = &skx_uncore_pcu_format_group, }; enum perf_uncore_snr_iio_freerunning_type_id { SNR_IIO_MSR_IOCLK, SNR_IIO_MSR_BW_IN, SNR_IIO_FREERUNNING_TYPE_MAX, }; static struct freerunning_counters snr_iio_freerunning[] = { [SNR_IIO_MSR_IOCLK] = { 0x1eac, 0x1, 0x10, 1, 48 }, [SNR_IIO_MSR_BW_IN] = { 0x1f00, 0x1, 0x10, 8, 48 }, }; static struct uncore_event_desc snr_uncore_iio_freerunning_events[] = { /* Free-Running IIO CLOCKS Counter */ INTEL_UNCORE_EVENT_DESC(ioclk, "event=0xff,umask=0x10"), /* Free-Running IIO BANDWIDTH IN Counters */ INTEL_UNCORE_EVENT_DESC(bw_in_port0, "event=0xff,umask=0x20"), INTEL_UNCORE_EVENT_DESC(bw_in_port0.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port0.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port1, "event=0xff,umask=0x21"), INTEL_UNCORE_EVENT_DESC(bw_in_port1.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port1.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port2, "event=0xff,umask=0x22"), INTEL_UNCORE_EVENT_DESC(bw_in_port2.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port2.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port3, "event=0xff,umask=0x23"), INTEL_UNCORE_EVENT_DESC(bw_in_port3.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port3.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port4, "event=0xff,umask=0x24"), INTEL_UNCORE_EVENT_DESC(bw_in_port4.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port4.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port5, "event=0xff,umask=0x25"), INTEL_UNCORE_EVENT_DESC(bw_in_port5.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port5.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port6, "event=0xff,umask=0x26"), INTEL_UNCORE_EVENT_DESC(bw_in_port6.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port6.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port7, "event=0xff,umask=0x27"), INTEL_UNCORE_EVENT_DESC(bw_in_port7.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port7.unit, "MiB"), { /* end: all zeroes */ }, }; static struct intel_uncore_type snr_uncore_iio_free_running = { .name = "iio_free_running", .num_counters = 9, .num_boxes = 5, .num_freerunning_types = SNR_IIO_FREERUNNING_TYPE_MAX, .freerunning = snr_iio_freerunning, .ops = &skx_uncore_iio_freerunning_ops, .event_descs = snr_uncore_iio_freerunning_events, .format_group = &skx_uncore_iio_freerunning_format_group, }; static struct intel_uncore_type *snr_msr_uncores[] = { &snr_uncore_ubox, &snr_uncore_chabox, &snr_uncore_iio, &snr_uncore_irp, &snr_uncore_m2pcie, &snr_uncore_pcu, &snr_uncore_iio_free_running, NULL, }; void snr_uncore_cpu_init(void) { uncore_msr_uncores = snr_msr_uncores; } static void snr_m2m_uncore_pci_init_box(struct intel_uncore_box *box) { struct pci_dev *pdev = box->pci_dev; int box_ctl = uncore_pci_box_ctl(box); __set_bit(UNCORE_BOX_FLAG_CTL_OFFS8, &box->flags); pci_write_config_dword(pdev, box_ctl, IVBEP_PMON_BOX_CTL_INT); } static struct intel_uncore_ops snr_m2m_uncore_pci_ops = { .init_box = snr_m2m_uncore_pci_init_box, .disable_box = snbep_uncore_pci_disable_box, .enable_box = snbep_uncore_pci_enable_box, .disable_event = snbep_uncore_pci_disable_event, .enable_event = snbep_uncore_pci_enable_event, .read_counter = snbep_uncore_pci_read_counter, }; static struct attribute *snr_m2m_uncore_formats_attr[] = { &format_attr_event.attr, &format_attr_umask_ext3.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, NULL, }; static const struct attribute_group snr_m2m_uncore_format_group = { .name = "format", .attrs = snr_m2m_uncore_formats_attr, }; static struct intel_uncore_type snr_uncore_m2m = { .name = "m2m", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .perf_ctr = SNR_M2M_PCI_PMON_CTR0, .event_ctl = SNR_M2M_PCI_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .event_mask_ext = SNR_M2M_PCI_PMON_UMASK_EXT, .box_ctl = SNR_M2M_PCI_PMON_BOX_CTL, .ops = &snr_m2m_uncore_pci_ops, .format_group = &snr_m2m_uncore_format_group, }; static void snr_uncore_pci_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct pci_dev *pdev = box->pci_dev; struct hw_perf_event *hwc = &event->hw; pci_write_config_dword(pdev, hwc->config_base, (u32)(hwc->config | SNBEP_PMON_CTL_EN)); pci_write_config_dword(pdev, hwc->config_base + 4, (u32)(hwc->config >> 32)); } static struct intel_uncore_ops snr_pcie3_uncore_pci_ops = { .init_box = snr_m2m_uncore_pci_init_box, .disable_box = snbep_uncore_pci_disable_box, .enable_box = snbep_uncore_pci_enable_box, .disable_event = snbep_uncore_pci_disable_event, .enable_event = snr_uncore_pci_enable_event, .read_counter = snbep_uncore_pci_read_counter, }; static struct intel_uncore_type snr_uncore_pcie3 = { .name = "pcie3", .num_counters = 4, .num_boxes = 1, .perf_ctr_bits = 48, .perf_ctr = SNR_PCIE3_PCI_PMON_CTR0, .event_ctl = SNR_PCIE3_PCI_PMON_CTL0, .event_mask = SKX_IIO_PMON_RAW_EVENT_MASK, .event_mask_ext = SKX_IIO_PMON_RAW_EVENT_MASK_EXT, .box_ctl = SNR_PCIE3_PCI_PMON_BOX_CTL, .ops = &snr_pcie3_uncore_pci_ops, .format_group = &skx_uncore_iio_format_group, }; enum { SNR_PCI_UNCORE_M2M, SNR_PCI_UNCORE_PCIE3, }; static struct intel_uncore_type *snr_pci_uncores[] = { [SNR_PCI_UNCORE_M2M] = &snr_uncore_m2m, [SNR_PCI_UNCORE_PCIE3] = &snr_uncore_pcie3, NULL, }; static const struct pci_device_id snr_uncore_pci_ids[] = { { /* M2M */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x344a), .driver_data = UNCORE_PCI_DEV_FULL_DATA(12, 0, SNR_PCI_UNCORE_M2M, 0), }, { /* end: all zeroes */ } }; static struct pci_driver snr_uncore_pci_driver = { .name = "snr_uncore", .id_table = snr_uncore_pci_ids, }; static const struct pci_device_id snr_uncore_pci_sub_ids[] = { { /* PCIe3 RP */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x334a), .driver_data = UNCORE_PCI_DEV_FULL_DATA(4, 0, SNR_PCI_UNCORE_PCIE3, 0), }, { /* end: all zeroes */ } }; static struct pci_driver snr_uncore_pci_sub_driver = { .name = "snr_uncore_sub", .id_table = snr_uncore_pci_sub_ids, }; int snr_uncore_pci_init(void) { /* SNR UBOX DID */ int ret = snbep_pci2phy_map_init(0x3460, SKX_CPUNODEID, SKX_GIDNIDMAP, true); if (ret) return ret; uncore_pci_uncores = snr_pci_uncores; uncore_pci_driver = &snr_uncore_pci_driver; uncore_pci_sub_driver = &snr_uncore_pci_sub_driver; return 0; } #define SNR_MC_DEVICE_ID 0x3451 static struct pci_dev *snr_uncore_get_mc_dev(unsigned int device, int id) { struct pci_dev *mc_dev = NULL; int pkg; while (1) { mc_dev = pci_get_device(PCI_VENDOR_ID_INTEL, device, mc_dev); if (!mc_dev) break; pkg = uncore_pcibus_to_dieid(mc_dev->bus); if (pkg == id) break; } return mc_dev; } static int snr_uncore_mmio_map(struct intel_uncore_box *box, unsigned int box_ctl, int mem_offset, unsigned int device) { struct pci_dev *pdev = snr_uncore_get_mc_dev(device, box->dieid); struct intel_uncore_type *type = box->pmu->type; resource_size_t addr; u32 pci_dword; if (!pdev) return -ENODEV; pci_read_config_dword(pdev, SNR_IMC_MMIO_BASE_OFFSET, &pci_dword); addr = ((resource_size_t)pci_dword & SNR_IMC_MMIO_BASE_MASK) << 23; pci_read_config_dword(pdev, mem_offset, &pci_dword); addr |= (pci_dword & SNR_IMC_MMIO_MEM0_MASK) << 12; addr += box_ctl; pci_dev_put(pdev); box->io_addr = ioremap(addr, type->mmio_map_size); if (!box->io_addr) { pr_warn("perf uncore: Failed to ioremap for %s.\n", type->name); return -EINVAL; } return 0; } static void __snr_uncore_mmio_init_box(struct intel_uncore_box *box, unsigned int box_ctl, int mem_offset, unsigned int device) { if (!snr_uncore_mmio_map(box, box_ctl, mem_offset, device)) writel(IVBEP_PMON_BOX_CTL_INT, box->io_addr); } static void snr_uncore_mmio_init_box(struct intel_uncore_box *box) { __snr_uncore_mmio_init_box(box, uncore_mmio_box_ctl(box), SNR_IMC_MMIO_MEM0_OFFSET, SNR_MC_DEVICE_ID); } static void snr_uncore_mmio_disable_box(struct intel_uncore_box *box) { u32 config; if (!box->io_addr) return; config = readl(box->io_addr); config |= SNBEP_PMON_BOX_CTL_FRZ; writel(config, box->io_addr); } static void snr_uncore_mmio_enable_box(struct intel_uncore_box *box) { u32 config; if (!box->io_addr) return; config = readl(box->io_addr); config &= ~SNBEP_PMON_BOX_CTL_FRZ; writel(config, box->io_addr); } static void snr_uncore_mmio_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; if (!box->io_addr) return; if (!uncore_mmio_is_valid_offset(box, hwc->config_base)) return; writel(hwc->config | SNBEP_PMON_CTL_EN, box->io_addr + hwc->config_base); } static void snr_uncore_mmio_disable_event(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; if (!box->io_addr) return; if (!uncore_mmio_is_valid_offset(box, hwc->config_base)) return; writel(hwc->config, box->io_addr + hwc->config_base); } static struct intel_uncore_ops snr_uncore_mmio_ops = { .init_box = snr_uncore_mmio_init_box, .exit_box = uncore_mmio_exit_box, .disable_box = snr_uncore_mmio_disable_box, .enable_box = snr_uncore_mmio_enable_box, .disable_event = snr_uncore_mmio_disable_event, .enable_event = snr_uncore_mmio_enable_event, .read_counter = uncore_mmio_read_counter, }; static struct uncore_event_desc snr_uncore_imc_events[] = { INTEL_UNCORE_EVENT_DESC(clockticks, "event=0x00,umask=0x00"), INTEL_UNCORE_EVENT_DESC(cas_count_read, "event=0x04,umask=0x0f"), INTEL_UNCORE_EVENT_DESC(cas_count_read.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(cas_count_read.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(cas_count_write, "event=0x04,umask=0x30"), INTEL_UNCORE_EVENT_DESC(cas_count_write.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(cas_count_write.unit, "MiB"), { /* end: all zeroes */ }, }; static struct intel_uncore_type snr_uncore_imc = { .name = "imc", .num_counters = 4, .num_boxes = 2, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .fixed_ctr = SNR_IMC_MMIO_PMON_FIXED_CTR, .fixed_ctl = SNR_IMC_MMIO_PMON_FIXED_CTL, .event_descs = snr_uncore_imc_events, .perf_ctr = SNR_IMC_MMIO_PMON_CTR0, .event_ctl = SNR_IMC_MMIO_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = SNR_IMC_MMIO_PMON_BOX_CTL, .mmio_offset = SNR_IMC_MMIO_OFFSET, .mmio_map_size = SNR_IMC_MMIO_SIZE, .ops = &snr_uncore_mmio_ops, .format_group = &skx_uncore_format_group, }; enum perf_uncore_snr_imc_freerunning_type_id { SNR_IMC_DCLK, SNR_IMC_DDR, SNR_IMC_FREERUNNING_TYPE_MAX, }; static struct freerunning_counters snr_imc_freerunning[] = { [SNR_IMC_DCLK] = { 0x22b0, 0x0, 0, 1, 48 }, [SNR_IMC_DDR] = { 0x2290, 0x8, 0, 2, 48 }, }; static struct uncore_event_desc snr_uncore_imc_freerunning_events[] = { INTEL_UNCORE_EVENT_DESC(dclk, "event=0xff,umask=0x10"), INTEL_UNCORE_EVENT_DESC(read, "event=0xff,umask=0x20"), INTEL_UNCORE_EVENT_DESC(read.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(read.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(write, "event=0xff,umask=0x21"), INTEL_UNCORE_EVENT_DESC(write.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(write.unit, "MiB"), { /* end: all zeroes */ }, }; static struct intel_uncore_ops snr_uncore_imc_freerunning_ops = { .init_box = snr_uncore_mmio_init_box, .exit_box = uncore_mmio_exit_box, .read_counter = uncore_mmio_read_counter, .hw_config = uncore_freerunning_hw_config, }; static struct intel_uncore_type snr_uncore_imc_free_running = { .name = "imc_free_running", .num_counters = 3, .num_boxes = 1, .num_freerunning_types = SNR_IMC_FREERUNNING_TYPE_MAX, .mmio_map_size = SNR_IMC_MMIO_SIZE, .freerunning = snr_imc_freerunning, .ops = &snr_uncore_imc_freerunning_ops, .event_descs = snr_uncore_imc_freerunning_events, .format_group = &skx_uncore_iio_freerunning_format_group, }; static struct intel_uncore_type *snr_mmio_uncores[] = { &snr_uncore_imc, &snr_uncore_imc_free_running, NULL, }; void snr_uncore_mmio_init(void) { uncore_mmio_uncores = snr_mmio_uncores; } /* end of SNR uncore support */ /* ICX uncore support */ static unsigned icx_cha_msr_offsets[] = { 0x2a0, 0x2ae, 0x2bc, 0x2ca, 0x2d8, 0x2e6, 0x2f4, 0x302, 0x310, 0x31e, 0x32c, 0x33a, 0x348, 0x356, 0x364, 0x372, 0x380, 0x38e, 0x3aa, 0x3b8, 0x3c6, 0x3d4, 0x3e2, 0x3f0, 0x3fe, 0x40c, 0x41a, 0x428, 0x436, 0x444, 0x452, 0x460, 0x46e, 0x47c, 0x0, 0xe, 0x1c, 0x2a, 0x38, 0x46, }; static int icx_cha_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; bool tie_en = !!(event->hw.config & SNBEP_CBO_PMON_CTL_TID_EN); if (tie_en) { reg1->reg = ICX_C34_MSR_PMON_BOX_FILTER0 + icx_cha_msr_offsets[box->pmu->pmu_idx]; reg1->config = event->attr.config1 & SKX_CHA_MSR_PMON_BOX_FILTER_TID; reg1->idx = 0; } return 0; } static struct intel_uncore_ops icx_uncore_chabox_ops = { .init_box = ivbep_uncore_msr_init_box, .disable_box = snbep_uncore_msr_disable_box, .enable_box = snbep_uncore_msr_enable_box, .disable_event = snbep_uncore_msr_disable_event, .enable_event = snr_cha_enable_event, .read_counter = uncore_msr_read_counter, .hw_config = icx_cha_hw_config, }; static struct intel_uncore_type icx_uncore_chabox = { .name = "cha", .num_counters = 4, .perf_ctr_bits = 48, .event_ctl = ICX_C34_MSR_PMON_CTL0, .perf_ctr = ICX_C34_MSR_PMON_CTR0, .box_ctl = ICX_C34_MSR_PMON_BOX_CTL, .msr_offsets = icx_cha_msr_offsets, .event_mask = HSWEP_S_MSR_PMON_RAW_EVENT_MASK, .event_mask_ext = SNR_CHA_RAW_EVENT_MASK_EXT, .constraints = skx_uncore_chabox_constraints, .ops = &icx_uncore_chabox_ops, .format_group = &snr_uncore_chabox_format_group, }; static unsigned icx_msr_offsets[] = { 0x0, 0x20, 0x40, 0x90, 0xb0, 0xd0, }; static struct event_constraint icx_uncore_iio_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x02, 0x3), UNCORE_EVENT_CONSTRAINT(0x03, 0x3), UNCORE_EVENT_CONSTRAINT(0x83, 0x3), UNCORE_EVENT_CONSTRAINT(0x88, 0xc), UNCORE_EVENT_CONSTRAINT(0xc0, 0xc), UNCORE_EVENT_CONSTRAINT(0xc5, 0xc), UNCORE_EVENT_CONSTRAINT(0xd5, 0xc), EVENT_CONSTRAINT_END }; static umode_t icx_iio_mapping_visible(struct kobject *kobj, struct attribute *attr, int die) { /* Root bus 0x00 is valid only for pmu_idx = 5. */ return pmu_iio_mapping_visible(kobj, attr, die, 5); } static struct attribute_group icx_iio_mapping_group = { .is_visible = icx_iio_mapping_visible, }; static const struct attribute_group *icx_iio_attr_update[] = { &icx_iio_mapping_group, NULL, }; /* * ICX has a static mapping of stack IDs from SAD_CONTROL_CFG notation to PMON */ enum { ICX_PCIE1_PMON_ID, ICX_PCIE2_PMON_ID, ICX_PCIE3_PMON_ID, ICX_PCIE4_PMON_ID, ICX_PCIE5_PMON_ID, ICX_CBDMA_DMI_PMON_ID }; static u8 icx_sad_pmon_mapping[] = { ICX_CBDMA_DMI_PMON_ID, ICX_PCIE1_PMON_ID, ICX_PCIE2_PMON_ID, ICX_PCIE3_PMON_ID, ICX_PCIE4_PMON_ID, ICX_PCIE5_PMON_ID, }; static int icx_iio_get_topology(struct intel_uncore_type *type) { return sad_cfg_iio_topology(type, icx_sad_pmon_mapping); } static void icx_iio_set_mapping(struct intel_uncore_type *type) { /* Detect ICX-D system. This case is not supported */ if (boot_cpu_data.x86_model == INTEL_FAM6_ICELAKE_D) { pmu_clear_mapping_attr(type->attr_update, &icx_iio_mapping_group); return; } pmu_iio_set_mapping(type, &icx_iio_mapping_group); } static void icx_iio_cleanup_mapping(struct intel_uncore_type *type) { pmu_cleanup_mapping(type, &icx_iio_mapping_group); } static struct intel_uncore_type icx_uncore_iio = { .name = "iio", .num_counters = 4, .num_boxes = 6, .perf_ctr_bits = 48, .event_ctl = ICX_IIO_MSR_PMON_CTL0, .perf_ctr = ICX_IIO_MSR_PMON_CTR0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .event_mask_ext = SNR_IIO_PMON_RAW_EVENT_MASK_EXT, .box_ctl = ICX_IIO_MSR_PMON_BOX_CTL, .msr_offsets = icx_msr_offsets, .constraints = icx_uncore_iio_constraints, .ops = &skx_uncore_iio_ops, .format_group = &snr_uncore_iio_format_group, .attr_update = icx_iio_attr_update, .get_topology = icx_iio_get_topology, .set_mapping = icx_iio_set_mapping, .cleanup_mapping = icx_iio_cleanup_mapping, }; static struct intel_uncore_type icx_uncore_irp = { .name = "irp", .num_counters = 2, .num_boxes = 6, .perf_ctr_bits = 48, .event_ctl = ICX_IRP0_MSR_PMON_CTL0, .perf_ctr = ICX_IRP0_MSR_PMON_CTR0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = ICX_IRP0_MSR_PMON_BOX_CTL, .msr_offsets = icx_msr_offsets, .ops = &ivbep_uncore_msr_ops, .format_group = &ivbep_uncore_format_group, }; static struct event_constraint icx_uncore_m2pcie_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x14, 0x3), UNCORE_EVENT_CONSTRAINT(0x23, 0x3), UNCORE_EVENT_CONSTRAINT(0x2d, 0x3), EVENT_CONSTRAINT_END }; static struct intel_uncore_type icx_uncore_m2pcie = { .name = "m2pcie", .num_counters = 4, .num_boxes = 6, .perf_ctr_bits = 48, .event_ctl = ICX_M2PCIE_MSR_PMON_CTL0, .perf_ctr = ICX_M2PCIE_MSR_PMON_CTR0, .box_ctl = ICX_M2PCIE_MSR_PMON_BOX_CTL, .msr_offsets = icx_msr_offsets, .constraints = icx_uncore_m2pcie_constraints, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .ops = &ivbep_uncore_msr_ops, .format_group = &ivbep_uncore_format_group, }; enum perf_uncore_icx_iio_freerunning_type_id { ICX_IIO_MSR_IOCLK, ICX_IIO_MSR_BW_IN, ICX_IIO_FREERUNNING_TYPE_MAX, }; static unsigned icx_iio_clk_freerunning_box_offsets[] = { 0x0, 0x20, 0x40, 0x90, 0xb0, 0xd0, }; static unsigned icx_iio_bw_freerunning_box_offsets[] = { 0x0, 0x10, 0x20, 0x90, 0xa0, 0xb0, }; static struct freerunning_counters icx_iio_freerunning[] = { [ICX_IIO_MSR_IOCLK] = { 0xa55, 0x1, 0x20, 1, 48, icx_iio_clk_freerunning_box_offsets }, [ICX_IIO_MSR_BW_IN] = { 0xaa0, 0x1, 0x10, 8, 48, icx_iio_bw_freerunning_box_offsets }, }; static struct uncore_event_desc icx_uncore_iio_freerunning_events[] = { /* Free-Running IIO CLOCKS Counter */ INTEL_UNCORE_EVENT_DESC(ioclk, "event=0xff,umask=0x10"), /* Free-Running IIO BANDWIDTH IN Counters */ INTEL_UNCORE_EVENT_DESC(bw_in_port0, "event=0xff,umask=0x20"), INTEL_UNCORE_EVENT_DESC(bw_in_port0.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port0.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port1, "event=0xff,umask=0x21"), INTEL_UNCORE_EVENT_DESC(bw_in_port1.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port1.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port2, "event=0xff,umask=0x22"), INTEL_UNCORE_EVENT_DESC(bw_in_port2.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port2.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port3, "event=0xff,umask=0x23"), INTEL_UNCORE_EVENT_DESC(bw_in_port3.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port3.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port4, "event=0xff,umask=0x24"), INTEL_UNCORE_EVENT_DESC(bw_in_port4.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port4.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port5, "event=0xff,umask=0x25"), INTEL_UNCORE_EVENT_DESC(bw_in_port5.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port5.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port6, "event=0xff,umask=0x26"), INTEL_UNCORE_EVENT_DESC(bw_in_port6.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port6.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port7, "event=0xff,umask=0x27"), INTEL_UNCORE_EVENT_DESC(bw_in_port7.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port7.unit, "MiB"), { /* end: all zeroes */ }, }; static struct intel_uncore_type icx_uncore_iio_free_running = { .name = "iio_free_running", .num_counters = 9, .num_boxes = 6, .num_freerunning_types = ICX_IIO_FREERUNNING_TYPE_MAX, .freerunning = icx_iio_freerunning, .ops = &skx_uncore_iio_freerunning_ops, .event_descs = icx_uncore_iio_freerunning_events, .format_group = &skx_uncore_iio_freerunning_format_group, }; static struct intel_uncore_type *icx_msr_uncores[] = { &skx_uncore_ubox, &icx_uncore_chabox, &icx_uncore_iio, &icx_uncore_irp, &icx_uncore_m2pcie, &skx_uncore_pcu, &icx_uncore_iio_free_running, NULL, }; /* * To determine the number of CHAs, it should read CAPID6(Low) and CAPID7 (High) * registers which located at Device 30, Function 3 */ #define ICX_CAPID6 0x9c #define ICX_CAPID7 0xa0 static u64 icx_count_chabox(void) { struct pci_dev *dev = NULL; u64 caps = 0; dev = pci_get_device(PCI_VENDOR_ID_INTEL, 0x345b, dev); if (!dev) goto out; pci_read_config_dword(dev, ICX_CAPID6, (u32 *)&caps); pci_read_config_dword(dev, ICX_CAPID7, (u32 *)&caps + 1); out: pci_dev_put(dev); return hweight64(caps); } void icx_uncore_cpu_init(void) { u64 num_boxes = icx_count_chabox(); if (WARN_ON(num_boxes > ARRAY_SIZE(icx_cha_msr_offsets))) return; icx_uncore_chabox.num_boxes = num_boxes; uncore_msr_uncores = icx_msr_uncores; } static struct intel_uncore_type icx_uncore_m2m = { .name = "m2m", .num_counters = 4, .num_boxes = 4, .perf_ctr_bits = 48, .perf_ctr = SNR_M2M_PCI_PMON_CTR0, .event_ctl = SNR_M2M_PCI_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .event_mask_ext = SNR_M2M_PCI_PMON_UMASK_EXT, .box_ctl = SNR_M2M_PCI_PMON_BOX_CTL, .ops = &snr_m2m_uncore_pci_ops, .format_group = &snr_m2m_uncore_format_group, }; static struct attribute *icx_upi_uncore_formats_attr[] = { &format_attr_event.attr, &format_attr_umask_ext4.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, NULL, }; static const struct attribute_group icx_upi_uncore_format_group = { .name = "format", .attrs = icx_upi_uncore_formats_attr, }; #define ICX_UPI_REGS_ADDR_DEVICE_LINK0 0x02 #define ICX_UPI_REGS_ADDR_FUNCTION 0x01 static int discover_upi_topology(struct intel_uncore_type *type, int ubox_did, int dev_link0) { struct pci_dev *ubox = NULL; struct pci_dev *dev = NULL; u32 nid, gid; int i, idx, ret = -EPERM; struct intel_uncore_topology *upi; unsigned int devfn; /* GIDNIDMAP method supports machines which have less than 8 sockets. */ if (uncore_max_dies() > 8) goto err; while ((ubox = pci_get_device(PCI_VENDOR_ID_INTEL, ubox_did, ubox))) { ret = upi_nodeid_groupid(ubox, SKX_CPUNODEID, SKX_GIDNIDMAP, &nid, &gid); if (ret) { ret = pcibios_err_to_errno(ret); break; } for (i = 0; i < 8; i++) { if (nid != GIDNIDMAP(gid, i)) continue; for (idx = 0; idx < type->num_boxes; idx++) { upi = &type->topology[nid][idx]; devfn = PCI_DEVFN(dev_link0 + idx, ICX_UPI_REGS_ADDR_FUNCTION); dev = pci_get_domain_bus_and_slot(pci_domain_nr(ubox->bus), ubox->bus->number, devfn); if (dev) { ret = upi_fill_topology(dev, upi, idx); if (ret) goto err; } } } } err: pci_dev_put(ubox); pci_dev_put(dev); return ret; } static int icx_upi_get_topology(struct intel_uncore_type *type) { return discover_upi_topology(type, ICX_UBOX_DID, ICX_UPI_REGS_ADDR_DEVICE_LINK0); } static struct attribute_group icx_upi_mapping_group = { .is_visible = skx_upi_mapping_visible, }; static const struct attribute_group *icx_upi_attr_update[] = { &icx_upi_mapping_group, NULL }; static void icx_upi_set_mapping(struct intel_uncore_type *type) { pmu_upi_set_mapping(type, &icx_upi_mapping_group); } static void icx_upi_cleanup_mapping(struct intel_uncore_type *type) { pmu_cleanup_mapping(type, &icx_upi_mapping_group); } static struct intel_uncore_type icx_uncore_upi = { .name = "upi", .num_counters = 4, .num_boxes = 3, .perf_ctr_bits = 48, .perf_ctr = ICX_UPI_PCI_PMON_CTR0, .event_ctl = ICX_UPI_PCI_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .event_mask_ext = ICX_UPI_CTL_UMASK_EXT, .box_ctl = ICX_UPI_PCI_PMON_BOX_CTL, .ops = &skx_upi_uncore_pci_ops, .format_group = &icx_upi_uncore_format_group, .attr_update = icx_upi_attr_update, .get_topology = icx_upi_get_topology, .set_mapping = icx_upi_set_mapping, .cleanup_mapping = icx_upi_cleanup_mapping, }; static struct event_constraint icx_uncore_m3upi_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x1c, 0x1), UNCORE_EVENT_CONSTRAINT(0x1d, 0x1), UNCORE_EVENT_CONSTRAINT(0x1e, 0x1), UNCORE_EVENT_CONSTRAINT(0x1f, 0x1), UNCORE_EVENT_CONSTRAINT(0x40, 0x7), UNCORE_EVENT_CONSTRAINT(0x4e, 0x7), UNCORE_EVENT_CONSTRAINT(0x4f, 0x7), UNCORE_EVENT_CONSTRAINT(0x50, 0x7), EVENT_CONSTRAINT_END }; static struct intel_uncore_type icx_uncore_m3upi = { .name = "m3upi", .num_counters = 4, .num_boxes = 3, .perf_ctr_bits = 48, .perf_ctr = ICX_M3UPI_PCI_PMON_CTR0, .event_ctl = ICX_M3UPI_PCI_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = ICX_M3UPI_PCI_PMON_BOX_CTL, .constraints = icx_uncore_m3upi_constraints, .ops = &ivbep_uncore_pci_ops, .format_group = &skx_uncore_format_group, }; enum { ICX_PCI_UNCORE_M2M, ICX_PCI_UNCORE_UPI, ICX_PCI_UNCORE_M3UPI, }; static struct intel_uncore_type *icx_pci_uncores[] = { [ICX_PCI_UNCORE_M2M] = &icx_uncore_m2m, [ICX_PCI_UNCORE_UPI] = &icx_uncore_upi, [ICX_PCI_UNCORE_M3UPI] = &icx_uncore_m3upi, NULL, }; static const struct pci_device_id icx_uncore_pci_ids[] = { { /* M2M 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x344a), .driver_data = UNCORE_PCI_DEV_FULL_DATA(12, 0, ICX_PCI_UNCORE_M2M, 0), }, { /* M2M 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x344a), .driver_data = UNCORE_PCI_DEV_FULL_DATA(13, 0, ICX_PCI_UNCORE_M2M, 1), }, { /* M2M 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x344a), .driver_data = UNCORE_PCI_DEV_FULL_DATA(14, 0, ICX_PCI_UNCORE_M2M, 2), }, { /* M2M 3 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x344a), .driver_data = UNCORE_PCI_DEV_FULL_DATA(15, 0, ICX_PCI_UNCORE_M2M, 3), }, { /* UPI Link 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x3441), .driver_data = UNCORE_PCI_DEV_FULL_DATA(2, 1, ICX_PCI_UNCORE_UPI, 0), }, { /* UPI Link 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x3441), .driver_data = UNCORE_PCI_DEV_FULL_DATA(3, 1, ICX_PCI_UNCORE_UPI, 1), }, { /* UPI Link 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x3441), .driver_data = UNCORE_PCI_DEV_FULL_DATA(4, 1, ICX_PCI_UNCORE_UPI, 2), }, { /* M3UPI Link 0 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x3446), .driver_data = UNCORE_PCI_DEV_FULL_DATA(5, 1, ICX_PCI_UNCORE_M3UPI, 0), }, { /* M3UPI Link 1 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x3446), .driver_data = UNCORE_PCI_DEV_FULL_DATA(6, 1, ICX_PCI_UNCORE_M3UPI, 1), }, { /* M3UPI Link 2 */ PCI_DEVICE(PCI_VENDOR_ID_INTEL, 0x3446), .driver_data = UNCORE_PCI_DEV_FULL_DATA(7, 1, ICX_PCI_UNCORE_M3UPI, 2), }, { /* end: all zeroes */ } }; static struct pci_driver icx_uncore_pci_driver = { .name = "icx_uncore", .id_table = icx_uncore_pci_ids, }; int icx_uncore_pci_init(void) { /* ICX UBOX DID */ int ret = snbep_pci2phy_map_init(0x3450, SKX_CPUNODEID, SKX_GIDNIDMAP, true); if (ret) return ret; uncore_pci_uncores = icx_pci_uncores; uncore_pci_driver = &icx_uncore_pci_driver; return 0; } static void icx_uncore_imc_init_box(struct intel_uncore_box *box) { unsigned int box_ctl = box->pmu->type->box_ctl + box->pmu->type->mmio_offset * (box->pmu->pmu_idx % ICX_NUMBER_IMC_CHN); int mem_offset = (box->pmu->pmu_idx / ICX_NUMBER_IMC_CHN) * ICX_IMC_MEM_STRIDE + SNR_IMC_MMIO_MEM0_OFFSET; __snr_uncore_mmio_init_box(box, box_ctl, mem_offset, SNR_MC_DEVICE_ID); } static struct intel_uncore_ops icx_uncore_mmio_ops = { .init_box = icx_uncore_imc_init_box, .exit_box = uncore_mmio_exit_box, .disable_box = snr_uncore_mmio_disable_box, .enable_box = snr_uncore_mmio_enable_box, .disable_event = snr_uncore_mmio_disable_event, .enable_event = snr_uncore_mmio_enable_event, .read_counter = uncore_mmio_read_counter, }; static struct intel_uncore_type icx_uncore_imc = { .name = "imc", .num_counters = 4, .num_boxes = 12, .perf_ctr_bits = 48, .fixed_ctr_bits = 48, .fixed_ctr = SNR_IMC_MMIO_PMON_FIXED_CTR, .fixed_ctl = SNR_IMC_MMIO_PMON_FIXED_CTL, .event_descs = snr_uncore_imc_events, .perf_ctr = SNR_IMC_MMIO_PMON_CTR0, .event_ctl = SNR_IMC_MMIO_PMON_CTL0, .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .box_ctl = SNR_IMC_MMIO_PMON_BOX_CTL, .mmio_offset = SNR_IMC_MMIO_OFFSET, .mmio_map_size = SNR_IMC_MMIO_SIZE, .ops = &icx_uncore_mmio_ops, .format_group = &skx_uncore_format_group, }; enum perf_uncore_icx_imc_freerunning_type_id { ICX_IMC_DCLK, ICX_IMC_DDR, ICX_IMC_DDRT, ICX_IMC_FREERUNNING_TYPE_MAX, }; static struct freerunning_counters icx_imc_freerunning[] = { [ICX_IMC_DCLK] = { 0x22b0, 0x0, 0, 1, 48 }, [ICX_IMC_DDR] = { 0x2290, 0x8, 0, 2, 48 }, [ICX_IMC_DDRT] = { 0x22a0, 0x8, 0, 2, 48 }, }; static struct uncore_event_desc icx_uncore_imc_freerunning_events[] = { INTEL_UNCORE_EVENT_DESC(dclk, "event=0xff,umask=0x10"), INTEL_UNCORE_EVENT_DESC(read, "event=0xff,umask=0x20"), INTEL_UNCORE_EVENT_DESC(read.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(read.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(write, "event=0xff,umask=0x21"), INTEL_UNCORE_EVENT_DESC(write.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(write.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(ddrt_read, "event=0xff,umask=0x30"), INTEL_UNCORE_EVENT_DESC(ddrt_read.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(ddrt_read.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(ddrt_write, "event=0xff,umask=0x31"), INTEL_UNCORE_EVENT_DESC(ddrt_write.scale, "6.103515625e-5"), INTEL_UNCORE_EVENT_DESC(ddrt_write.unit, "MiB"), { /* end: all zeroes */ }, }; static void icx_uncore_imc_freerunning_init_box(struct intel_uncore_box *box) { int mem_offset = box->pmu->pmu_idx * ICX_IMC_MEM_STRIDE + SNR_IMC_MMIO_MEM0_OFFSET; snr_uncore_mmio_map(box, uncore_mmio_box_ctl(box), mem_offset, SNR_MC_DEVICE_ID); } static struct intel_uncore_ops icx_uncore_imc_freerunning_ops = { .init_box = icx_uncore_imc_freerunning_init_box, .exit_box = uncore_mmio_exit_box, .read_counter = uncore_mmio_read_counter, .hw_config = uncore_freerunning_hw_config, }; static struct intel_uncore_type icx_uncore_imc_free_running = { .name = "imc_free_running", .num_counters = 5, .num_boxes = 4, .num_freerunning_types = ICX_IMC_FREERUNNING_TYPE_MAX, .mmio_map_size = SNR_IMC_MMIO_SIZE, .freerunning = icx_imc_freerunning, .ops = &icx_uncore_imc_freerunning_ops, .event_descs = icx_uncore_imc_freerunning_events, .format_group = &skx_uncore_iio_freerunning_format_group, }; static struct intel_uncore_type *icx_mmio_uncores[] = { &icx_uncore_imc, &icx_uncore_imc_free_running, NULL, }; void icx_uncore_mmio_init(void) { uncore_mmio_uncores = icx_mmio_uncores; } /* end of ICX uncore support */ /* SPR uncore support */ static void spr_uncore_msr_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; if (reg1->idx != EXTRA_REG_NONE) wrmsrl(reg1->reg, reg1->config); wrmsrl(hwc->config_base, hwc->config); } static void spr_uncore_msr_disable_event(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; struct hw_perf_event_extra *reg1 = &hwc->extra_reg; if (reg1->idx != EXTRA_REG_NONE) wrmsrl(reg1->reg, 0); wrmsrl(hwc->config_base, 0); } static int spr_cha_hw_config(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event_extra *reg1 = &event->hw.extra_reg; bool tie_en = !!(event->hw.config & SPR_CHA_PMON_CTL_TID_EN); struct intel_uncore_type *type = box->pmu->type; if (tie_en) { reg1->reg = SPR_C0_MSR_PMON_BOX_FILTER0 + HSWEP_CBO_MSR_OFFSET * type->box_ids[box->pmu->pmu_idx]; reg1->config = event->attr.config1 & SPR_CHA_PMON_BOX_FILTER_TID; reg1->idx = 0; } return 0; } static struct intel_uncore_ops spr_uncore_chabox_ops = { .init_box = intel_generic_uncore_msr_init_box, .disable_box = intel_generic_uncore_msr_disable_box, .enable_box = intel_generic_uncore_msr_enable_box, .disable_event = spr_uncore_msr_disable_event, .enable_event = spr_uncore_msr_enable_event, .read_counter = uncore_msr_read_counter, .hw_config = spr_cha_hw_config, .get_constraint = uncore_get_constraint, .put_constraint = uncore_put_constraint, }; static struct attribute *spr_uncore_cha_formats_attr[] = { &format_attr_event.attr, &format_attr_umask_ext4.attr, &format_attr_tid_en2.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, &format_attr_filter_tid5.attr, NULL, }; static const struct attribute_group spr_uncore_chabox_format_group = { .name = "format", .attrs = spr_uncore_cha_formats_attr, }; static ssize_t alias_show(struct device *dev, struct device_attribute *attr, char *buf) { struct intel_uncore_pmu *pmu = dev_to_uncore_pmu(dev); char pmu_name[UNCORE_PMU_NAME_LEN]; uncore_get_alias_name(pmu_name, pmu); return sysfs_emit(buf, "%s\n", pmu_name); } static DEVICE_ATTR_RO(alias); static struct attribute *uncore_alias_attrs[] = { &dev_attr_alias.attr, NULL }; ATTRIBUTE_GROUPS(uncore_alias); static struct intel_uncore_type spr_uncore_chabox = { .name = "cha", .event_mask = SPR_CHA_PMON_EVENT_MASK, .event_mask_ext = SPR_RAW_EVENT_MASK_EXT, .num_shared_regs = 1, .constraints = skx_uncore_chabox_constraints, .ops = &spr_uncore_chabox_ops, .format_group = &spr_uncore_chabox_format_group, .attr_update = uncore_alias_groups, }; static struct intel_uncore_type spr_uncore_iio = { .name = "iio", .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .event_mask_ext = SNR_IIO_PMON_RAW_EVENT_MASK_EXT, .format_group = &snr_uncore_iio_format_group, .attr_update = uncore_alias_groups, .constraints = icx_uncore_iio_constraints, }; static struct attribute *spr_uncore_raw_formats_attr[] = { &format_attr_event.attr, &format_attr_umask_ext4.attr, &format_attr_edge.attr, &format_attr_inv.attr, &format_attr_thresh8.attr, NULL, }; static const struct attribute_group spr_uncore_raw_format_group = { .name = "format", .attrs = spr_uncore_raw_formats_attr, }; #define SPR_UNCORE_COMMON_FORMAT() \ .event_mask = SNBEP_PMON_RAW_EVENT_MASK, \ .event_mask_ext = SPR_RAW_EVENT_MASK_EXT, \ .format_group = &spr_uncore_raw_format_group, \ .attr_update = uncore_alias_groups static struct intel_uncore_type spr_uncore_irp = { SPR_UNCORE_COMMON_FORMAT(), .name = "irp", }; static struct event_constraint spr_uncore_m2pcie_constraints[] = { UNCORE_EVENT_CONSTRAINT(0x14, 0x3), UNCORE_EVENT_CONSTRAINT(0x2d, 0x3), EVENT_CONSTRAINT_END }; static struct intel_uncore_type spr_uncore_m2pcie = { SPR_UNCORE_COMMON_FORMAT(), .name = "m2pcie", .constraints = spr_uncore_m2pcie_constraints, }; static struct intel_uncore_type spr_uncore_pcu = { .name = "pcu", .attr_update = uncore_alias_groups, }; static void spr_uncore_mmio_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct hw_perf_event *hwc = &event->hw; if (!box->io_addr) return; if (uncore_pmc_fixed(hwc->idx)) writel(SNBEP_PMON_CTL_EN, box->io_addr + hwc->config_base); else writel(hwc->config, box->io_addr + hwc->config_base); } static struct intel_uncore_ops spr_uncore_mmio_ops = { .init_box = intel_generic_uncore_mmio_init_box, .exit_box = uncore_mmio_exit_box, .disable_box = intel_generic_uncore_mmio_disable_box, .enable_box = intel_generic_uncore_mmio_enable_box, .disable_event = intel_generic_uncore_mmio_disable_event, .enable_event = spr_uncore_mmio_enable_event, .read_counter = uncore_mmio_read_counter, }; static struct intel_uncore_type spr_uncore_imc = { SPR_UNCORE_COMMON_FORMAT(), .name = "imc", .fixed_ctr_bits = 48, .fixed_ctr = SNR_IMC_MMIO_PMON_FIXED_CTR, .fixed_ctl = SNR_IMC_MMIO_PMON_FIXED_CTL, .ops = &spr_uncore_mmio_ops, }; static void spr_uncore_pci_enable_event(struct intel_uncore_box *box, struct perf_event *event) { struct pci_dev *pdev = box->pci_dev; struct hw_perf_event *hwc = &event->hw; pci_write_config_dword(pdev, hwc->config_base + 4, (u32)(hwc->config >> 32)); pci_write_config_dword(pdev, hwc->config_base, (u32)hwc->config); } static struct intel_uncore_ops spr_uncore_pci_ops = { .init_box = intel_generic_uncore_pci_init_box, .disable_box = intel_generic_uncore_pci_disable_box, .enable_box = intel_generic_uncore_pci_enable_box, .disable_event = intel_generic_uncore_pci_disable_event, .enable_event = spr_uncore_pci_enable_event, .read_counter = intel_generic_uncore_pci_read_counter, }; #define SPR_UNCORE_PCI_COMMON_FORMAT() \ SPR_UNCORE_COMMON_FORMAT(), \ .ops = &spr_uncore_pci_ops static struct intel_uncore_type spr_uncore_m2m = { SPR_UNCORE_PCI_COMMON_FORMAT(), .name = "m2m", }; static struct attribute_group spr_upi_mapping_group = { .is_visible = skx_upi_mapping_visible, }; static const struct attribute_group *spr_upi_attr_update[] = { &uncore_alias_group, &spr_upi_mapping_group, NULL }; #define SPR_UPI_REGS_ADDR_DEVICE_LINK0 0x01 static void spr_upi_set_mapping(struct intel_uncore_type *type) { pmu_upi_set_mapping(type, &spr_upi_mapping_group); } static void spr_upi_cleanup_mapping(struct intel_uncore_type *type) { pmu_cleanup_mapping(type, &spr_upi_mapping_group); } static int spr_upi_get_topology(struct intel_uncore_type *type) { return discover_upi_topology(type, SPR_UBOX_DID, SPR_UPI_REGS_ADDR_DEVICE_LINK0); } static struct intel_uncore_type spr_uncore_mdf = { SPR_UNCORE_COMMON_FORMAT(), .name = "mdf", }; #define UNCORE_SPR_NUM_UNCORE_TYPES 12 #define UNCORE_SPR_CHA 0 #define UNCORE_SPR_IIO 1 #define UNCORE_SPR_IMC 6 #define UNCORE_SPR_UPI 8 #define UNCORE_SPR_M3UPI 9 /* * The uncore units, which are supported by the discovery table, * are defined here. */ static struct intel_uncore_type *spr_uncores[UNCORE_SPR_NUM_UNCORE_TYPES] = { &spr_uncore_chabox, &spr_uncore_iio, &spr_uncore_irp, &spr_uncore_m2pcie, &spr_uncore_pcu, NULL, &spr_uncore_imc, &spr_uncore_m2m, NULL, NULL, NULL, &spr_uncore_mdf, }; /* * The uncore units, which are not supported by the discovery table, * are implemented from here. */ #define SPR_UNCORE_UPI_NUM_BOXES 4 static unsigned int spr_upi_pci_offsets[SPR_UNCORE_UPI_NUM_BOXES] = { 0, 0x8000, 0x10000, 0x18000 }; static struct intel_uncore_type spr_uncore_upi = { .event_mask = SNBEP_PMON_RAW_EVENT_MASK, .event_mask_ext = SPR_RAW_EVENT_MASK_EXT, .format_group = &spr_uncore_raw_format_group, .ops = &spr_uncore_pci_ops, .name = "upi", .attr_update = spr_upi_attr_update, .get_topology = spr_upi_get_topology, .set_mapping = spr_upi_set_mapping, .cleanup_mapping = spr_upi_cleanup_mapping, .type_id = UNCORE_SPR_UPI, .num_counters = 4, .num_boxes = SPR_UNCORE_UPI_NUM_BOXES, .perf_ctr_bits = 48, .perf_ctr = ICX_UPI_PCI_PMON_CTR0, .event_ctl = ICX_UPI_PCI_PMON_CTL0, .box_ctl = ICX_UPI_PCI_PMON_BOX_CTL, .pci_offsets = spr_upi_pci_offsets, }; static struct intel_uncore_type spr_uncore_m3upi = { SPR_UNCORE_PCI_COMMON_FORMAT(), .name = "m3upi", .type_id = UNCORE_SPR_M3UPI, .num_counters = 4, .num_boxes = SPR_UNCORE_UPI_NUM_BOXES, .perf_ctr_bits = 48, .perf_ctr = ICX_M3UPI_PCI_PMON_CTR0, .event_ctl = ICX_M3UPI_PCI_PMON_CTL0, .box_ctl = ICX_M3UPI_PCI_PMON_BOX_CTL, .pci_offsets = spr_upi_pci_offsets, .constraints = icx_uncore_m3upi_constraints, }; enum perf_uncore_spr_iio_freerunning_type_id { SPR_IIO_MSR_IOCLK, SPR_IIO_MSR_BW_IN, SPR_IIO_MSR_BW_OUT, SPR_IIO_FREERUNNING_TYPE_MAX, }; static struct freerunning_counters spr_iio_freerunning[] = { [SPR_IIO_MSR_IOCLK] = { 0x340e, 0x1, 0x10, 1, 48 }, [SPR_IIO_MSR_BW_IN] = { 0x3800, 0x1, 0x10, 8, 48 }, [SPR_IIO_MSR_BW_OUT] = { 0x3808, 0x1, 0x10, 8, 48 }, }; static struct uncore_event_desc spr_uncore_iio_freerunning_events[] = { /* Free-Running IIO CLOCKS Counter */ INTEL_UNCORE_EVENT_DESC(ioclk, "event=0xff,umask=0x10"), /* Free-Running IIO BANDWIDTH IN Counters */ INTEL_UNCORE_EVENT_DESC(bw_in_port0, "event=0xff,umask=0x20"), INTEL_UNCORE_EVENT_DESC(bw_in_port0.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port0.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port1, "event=0xff,umask=0x21"), INTEL_UNCORE_EVENT_DESC(bw_in_port1.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port1.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port2, "event=0xff,umask=0x22"), INTEL_UNCORE_EVENT_DESC(bw_in_port2.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port2.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port3, "event=0xff,umask=0x23"), INTEL_UNCORE_EVENT_DESC(bw_in_port3.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port3.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port4, "event=0xff,umask=0x24"), INTEL_UNCORE_EVENT_DESC(bw_in_port4.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port4.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port5, "event=0xff,umask=0x25"), INTEL_UNCORE_EVENT_DESC(bw_in_port5.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port5.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port6, "event=0xff,umask=0x26"), INTEL_UNCORE_EVENT_DESC(bw_in_port6.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port6.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_in_port7, "event=0xff,umask=0x27"), INTEL_UNCORE_EVENT_DESC(bw_in_port7.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_in_port7.unit, "MiB"), /* Free-Running IIO BANDWIDTH OUT Counters */ INTEL_UNCORE_EVENT_DESC(bw_out_port0, "event=0xff,umask=0x30"), INTEL_UNCORE_EVENT_DESC(bw_out_port0.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port0.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_out_port1, "event=0xff,umask=0x31"), INTEL_UNCORE_EVENT_DESC(bw_out_port1.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port1.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_out_port2, "event=0xff,umask=0x32"), INTEL_UNCORE_EVENT_DESC(bw_out_port2.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port2.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_out_port3, "event=0xff,umask=0x33"), INTEL_UNCORE_EVENT_DESC(bw_out_port3.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port3.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_out_port4, "event=0xff,umask=0x34"), INTEL_UNCORE_EVENT_DESC(bw_out_port4.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port4.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_out_port5, "event=0xff,umask=0x35"), INTEL_UNCORE_EVENT_DESC(bw_out_port5.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port5.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_out_port6, "event=0xff,umask=0x36"), INTEL_UNCORE_EVENT_DESC(bw_out_port6.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port6.unit, "MiB"), INTEL_UNCORE_EVENT_DESC(bw_out_port7, "event=0xff,umask=0x37"), INTEL_UNCORE_EVENT_DESC(bw_out_port7.scale, "3.814697266e-6"), INTEL_UNCORE_EVENT_DESC(bw_out_port7.unit, "MiB"), { /* end: all zeroes */ }, }; static struct intel_uncore_type spr_uncore_iio_free_running = { .name = "iio_free_running", .num_counters = 17, .num_freerunning_types = SPR_IIO_FREERUNNING_TYPE_MAX, .freerunning = spr_iio_freerunning, .ops = &skx_uncore_iio_freerunning_ops, .event_descs = spr_uncore_iio_freerunning_events, .format_group = &skx_uncore_iio_freerunning_format_group, }; enum perf_uncore_spr_imc_freerunning_type_id { SPR_IMC_DCLK, SPR_IMC_PQ_CYCLES, SPR_IMC_FREERUNNING_TYPE_MAX, }; static struct freerunning_counters spr_imc_freerunning[] = { [SPR_IMC_DCLK] = { 0x22b0, 0x0, 0, 1, 48 }, [SPR_IMC_PQ_CYCLES] = { 0x2318, 0x8, 0, 2, 48 }, }; static struct uncore_event_desc spr_uncore_imc_freerunning_events[] = { INTEL_UNCORE_EVENT_DESC(dclk, "event=0xff,umask=0x10"), INTEL_UNCORE_EVENT_DESC(rpq_cycles, "event=0xff,umask=0x20"), INTEL_UNCORE_EVENT_DESC(wpq_cycles, "event=0xff,umask=0x21"), { /* end: all zeroes */ }, }; #define SPR_MC_DEVICE_ID 0x3251 static void spr_uncore_imc_freerunning_init_box(struct intel_uncore_box *box) { int mem_offset = box->pmu->pmu_idx * ICX_IMC_MEM_STRIDE + SNR_IMC_MMIO_MEM0_OFFSET; snr_uncore_mmio_map(box, uncore_mmio_box_ctl(box), mem_offset, SPR_MC_DEVICE_ID); } static struct intel_uncore_ops spr_uncore_imc_freerunning_ops = { .init_box = spr_uncore_imc_freerunning_init_box, .exit_box = uncore_mmio_exit_box, .read_counter = uncore_mmio_read_counter, .hw_config = uncore_freerunning_hw_config, }; static struct intel_uncore_type spr_uncore_imc_free_running = { .name = "imc_free_running", .num_counters = 3, .mmio_map_size = SNR_IMC_MMIO_SIZE, .num_freerunning_types = SPR_IMC_FREERUNNING_TYPE_MAX, .freerunning = spr_imc_freerunning, .ops = &spr_uncore_imc_freerunning_ops, .event_descs = spr_uncore_imc_freerunning_events, .format_group = &skx_uncore_iio_freerunning_format_group, }; #define UNCORE_SPR_MSR_EXTRA_UNCORES 1 #define UNCORE_SPR_MMIO_EXTRA_UNCORES 1 #define UNCORE_SPR_PCI_EXTRA_UNCORES 2 static struct intel_uncore_type *spr_msr_uncores[UNCORE_SPR_MSR_EXTRA_UNCORES] = { &spr_uncore_iio_free_running, }; static struct intel_uncore_type *spr_mmio_uncores[UNCORE_SPR_MMIO_EXTRA_UNCORES] = { &spr_uncore_imc_free_running, }; static struct intel_uncore_type *spr_pci_uncores[UNCORE_SPR_PCI_EXTRA_UNCORES] = { &spr_uncore_upi, &spr_uncore_m3upi }; int spr_uncore_units_ignore[] = { UNCORE_SPR_UPI, UNCORE_SPR_M3UPI, UNCORE_IGNORE_END }; static void uncore_type_customized_copy(struct intel_uncore_type *to_type, struct intel_uncore_type *from_type) { if (!to_type || !from_type) return; if (from_type->name) to_type->name = from_type->name; if (from_type->fixed_ctr_bits) to_type->fixed_ctr_bits = from_type->fixed_ctr_bits; if (from_type->event_mask) to_type->event_mask = from_type->event_mask; if (from_type->event_mask_ext) to_type->event_mask_ext = from_type->event_mask_ext; if (from_type->fixed_ctr) to_type->fixed_ctr = from_type->fixed_ctr; if (from_type->fixed_ctl) to_type->fixed_ctl = from_type->fixed_ctl; if (from_type->fixed_ctr_bits) to_type->fixed_ctr_bits = from_type->fixed_ctr_bits; if (from_type->num_shared_regs) to_type->num_shared_regs = from_type->num_shared_regs; if (from_type->constraints) to_type->constraints = from_type->constraints; if (from_type->ops) to_type->ops = from_type->ops; if (from_type->event_descs) to_type->event_descs = from_type->event_descs; if (from_type->format_group) to_type->format_group = from_type->format_group; if (from_type->attr_update) to_type->attr_update = from_type->attr_update; if (from_type->set_mapping) to_type->set_mapping = from_type->set_mapping; if (from_type->get_topology) to_type->get_topology = from_type->get_topology; if (from_type->cleanup_mapping) to_type->cleanup_mapping = from_type->cleanup_mapping; } static struct intel_uncore_type ** uncore_get_uncores(enum uncore_access_type type_id, int num_extra, struct intel_uncore_type **extra) { struct intel_uncore_type **types, **start_types; int i; start_types = types = intel_uncore_generic_init_uncores(type_id, num_extra); /* Only copy the customized features */ for (; *types; types++) { if ((*types)->type_id >= UNCORE_SPR_NUM_UNCORE_TYPES) continue; uncore_type_customized_copy(*types, spr_uncores[(*types)->type_id]); } for (i = 0; i < num_extra; i++, types++) *types = extra[i]; return start_types; } static struct intel_uncore_type * uncore_find_type_by_id(struct intel_uncore_type **types, int type_id) { for (; *types; types++) { if (type_id == (*types)->type_id) return *types; } return NULL; } static int uncore_type_max_boxes(struct intel_uncore_type **types, int type_id) { struct intel_uncore_type *type; int i, max = 0; type = uncore_find_type_by_id(types, type_id); if (!type) return 0; for (i = 0; i < type->num_boxes; i++) { if (type->box_ids[i] > max) max = type->box_ids[i]; } return max + 1; } #define SPR_MSR_UNC_CBO_CONFIG 0x2FFE void spr_uncore_cpu_init(void) { struct intel_uncore_type *type; u64 num_cbo; uncore_msr_uncores = uncore_get_uncores(UNCORE_ACCESS_MSR, UNCORE_SPR_MSR_EXTRA_UNCORES, spr_msr_uncores); type = uncore_find_type_by_id(uncore_msr_uncores, UNCORE_SPR_CHA); if (type) { rdmsrl(SPR_MSR_UNC_CBO_CONFIG, num_cbo); type->num_boxes = num_cbo; } spr_uncore_iio_free_running.num_boxes = uncore_type_max_boxes(uncore_msr_uncores, UNCORE_SPR_IIO); } #define SPR_UNCORE_UPI_PCIID 0x3241 #define SPR_UNCORE_UPI0_DEVFN 0x9 #define SPR_UNCORE_M3UPI_PCIID 0x3246 #define SPR_UNCORE_M3UPI0_DEVFN 0x29 static void spr_update_device_location(int type_id) { struct intel_uncore_type *type; struct pci_dev *dev = NULL; u32 device, devfn; u64 *ctls; int die; if (type_id == UNCORE_SPR_UPI) { type = &spr_uncore_upi; device = SPR_UNCORE_UPI_PCIID; devfn = SPR_UNCORE_UPI0_DEVFN; } else if (type_id == UNCORE_SPR_M3UPI) { type = &spr_uncore_m3upi; device = SPR_UNCORE_M3UPI_PCIID; devfn = SPR_UNCORE_M3UPI0_DEVFN; } else return; ctls = kcalloc(__uncore_max_dies, sizeof(u64), GFP_KERNEL); if (!ctls) { type->num_boxes = 0; return; } while ((dev = pci_get_device(PCI_VENDOR_ID_INTEL, device, dev)) != NULL) { if (devfn != dev->devfn) continue; die = uncore_device_to_die(dev); if (die < 0) continue; ctls[die] = pci_domain_nr(dev->bus) << UNCORE_DISCOVERY_PCI_DOMAIN_OFFSET | dev->bus->number << UNCORE_DISCOVERY_PCI_BUS_OFFSET | devfn << UNCORE_DISCOVERY_PCI_DEVFN_OFFSET | type->box_ctl; } type->box_ctls = ctls; } int spr_uncore_pci_init(void) { /* * The discovery table of UPI on some SPR variant is broken, * which impacts the detection of both UPI and M3UPI uncore PMON. * Use the pre-defined UPI and M3UPI table to replace. * * The accurate location, e.g., domain and BUS number, * can only be retrieved at load time. * Update the location of UPI and M3UPI. */ spr_update_device_location(UNCORE_SPR_UPI); spr_update_device_location(UNCORE_SPR_M3UPI); uncore_pci_uncores = uncore_get_uncores(UNCORE_ACCESS_PCI, UNCORE_SPR_PCI_EXTRA_UNCORES, spr_pci_uncores); return 0; } void spr_uncore_mmio_init(void) { int ret = snbep_pci2phy_map_init(0x3250, SKX_CPUNODEID, SKX_GIDNIDMAP, true); if (ret) uncore_mmio_uncores = uncore_get_uncores(UNCORE_ACCESS_MMIO, 0, NULL); else { uncore_mmio_uncores = uncore_get_uncores(UNCORE_ACCESS_MMIO, UNCORE_SPR_MMIO_EXTRA_UNCORES, spr_mmio_uncores); spr_uncore_imc_free_running.num_boxes = uncore_type_max_boxes(uncore_mmio_uncores, UNCORE_SPR_IMC) / 2; } } /* end of SPR uncore support */