/* * Copyright (C) 2018 int32_tel Corporation. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef PROFILING_INTERNAL_H #define PROFILING_INTERNAL_H #ifdef PROFILING_ON #include #include #define MAX_MSR_LIST_NUM 15U #define MAX_PROFILING_MSR_STORE_NUM 1 #define MAX_HV_MSR_LIST_NUM (MSR_AREA_COUNT) #define MAX_GROUP_NUM 1U #define COLLECT_PROFILE_DATA 0 #define COLLECT_POWER_DATA 1 #define SEP_BUF_ENTRY_SIZE 32U #define SOCWATCH_MSR_OP 100U #define MAGIC_NUMBER 0x99999988U enum MSR_CMD_STATUS { MSR_OP_READY = 0, MSR_OP_REQUESTED, MSR_OP_HANDLED }; enum MSR_CMD_TYPE { MSR_OP_NONE = 0, MSR_OP_READ, MSR_OP_WRITE, MSR_OP_READ_CLEAR }; enum PMU_MSR_TYPE { PMU_MSR_CCCR = 0, PMU_MSR_ESCR, PMU_MSR_DATA }; typedef enum IPI_COMMANDS { IPI_MSR_OP = 0, IPI_PMU_CONFIG, IPI_PMU_START, IPI_PMU_STOP, IPI_VMSW_CONFIG, IPI_UNKNOWN, } ipi_commands; typedef enum SEP_PMU_STATE { PMU_INITIALIZED = 0, PMU_SETUP, PMU_RUNNING, PMU_UNINITIALIZED, PMU_UNKNOWN } sep_pmu_state; typedef enum PROFILING_SEP_FEATURE { CORE_PMU_SAMPLING = 0, CORE_PMU_COUNTING, PEBS_PMU_SAMPLING, LBR_PMU_SAMPLING, UNCORE_PMU_SAMPLING, VM_SWITCH_TRACING, MAX_SEP_FEATURE_ID } profiling_sep_feature; typedef enum SOCWATCH_STATE { SW_SETUP = 0, SW_RUNNING, SW_STOPPED } socwatch_state; typedef enum PROFILING_SOCWATCH_FEATURE { SOCWATCH_COMMAND = 0, SOCWATCH_VM_SWITCH_TRACING, MAX_SOCWATCH_FEATURE_ID } profiling_socwatch_feature; struct profiling_version_info { int32_t major; int32_t minor; int64_t supported_features; int64_t reserved; }; struct profiling_pcpuid { uint32_t leaf; uint32_t subleaf; uint32_t eax; uint32_t ebx; uint32_t ecx; uint32_t edx; }; struct profiling_control { int32_t collector_id; int32_t reserved; uint64_t switches; }; struct profiling_vcpu_pcpu_map { int16_t vcpu_id; int16_t pcpu_id; uint32_t apic_id; }; struct profiling_vm_info { uint16_t vm_id_num; char vm_name[16]; uint16_t num_vcpus; struct profiling_vcpu_pcpu_map cpu_map[MAX_VCPUS_PER_VM]; }; struct profiling_vm_info_list { uint16_t num_vms; struct profiling_vm_info vm_list[CONFIG_MAX_VM_NUM+1]; }; struct sw_msr_op_info { uint64_t core_msr[MAX_MSR_LIST_NUM]; uint32_t cpu_id; uint32_t valid_entries; uint16_t sample_id; }; struct profiling_msr_op { /* value to write or location to write into */ uint64_t value; /* MSR address to read/write; last entry will have value of -1 */ uint32_t msr_id; /* parameter; usage depends on operation */ uint16_t param; uint8_t msr_op_type; uint8_t reg_type; }; struct profiling_msr_ops_list { int32_t collector_id; uint32_t num_entries; int32_t msr_op_state; struct profiling_msr_op entries[MAX_MSR_LIST_NUM]; }; struct profiling_pmi_config { uint32_t num_groups; uint32_t trigger_count; struct profiling_msr_op initial_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; struct profiling_msr_op start_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; struct profiling_msr_op stop_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; struct profiling_msr_op entry_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; struct profiling_msr_op exit_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; }; struct profiling_vmsw_config { int32_t collector_id; struct profiling_msr_op initial_list[MAX_MSR_LIST_NUM]; struct profiling_msr_op entry_list[MAX_MSR_LIST_NUM]; struct profiling_msr_op exit_list[MAX_MSR_LIST_NUM]; }; struct guest_vm_info { uint64_t vmenter_tsc; uint64_t vmexit_tsc; uint64_t vmexit_reason; uint64_t guest_rip; uint64_t guest_rflags; uint64_t guest_cs; uint16_t guest_vm_id; int32_t external_vector; }; struct profiling_status { uint32_t samples_logged; uint32_t samples_dropped; }; struct sep_state { sep_pmu_state pmu_state; uint32_t current_pmi_group_id; uint32_t num_pmi_groups; struct profiling_msr_op pmi_initial_msr_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; struct profiling_msr_op pmi_start_msr_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; struct profiling_msr_op pmi_stop_msr_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; struct profiling_msr_op pmi_entry_msr_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; struct profiling_msr_op pmi_exit_msr_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; uint32_t current_vmsw_group_id; uint32_t num_msw_groups; struct profiling_msr_op vmsw_initial_msr_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; struct profiling_msr_op vmsw_entry_msr_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; struct profiling_msr_op vmsw_exit_msr_list[MAX_GROUP_NUM][MAX_MSR_LIST_NUM]; /* sep handling statistics */ uint32_t samples_logged; uint32_t samples_dropped; uint32_t valid_pmi_count; uint32_t total_pmi_count; uint32_t total_vmexit_count; uint32_t frozen_well; uint32_t frozen_delayed; uint32_t nofrozen_pmi; struct msr_store_entry vmexit_msr_list[MAX_PROFILING_MSR_STORE_NUM + MAX_HV_MSR_LIST_NUM]; uint32_t vmexit_msr_cnt; uint64_t guest_debugctl_value; uint64_t saved_debugctl_value; } __aligned(8); struct data_header { int32_t collector_id; uint16_t cpu_id; uint16_t data_type; uint64_t tsc; uint64_t payload_size; uint64_t reserved; } __aligned(SEP_BUF_ENTRY_SIZE); #define DATA_HEADER_SIZE ((uint64_t)sizeof(struct data_header)) struct core_pmu_sample { /* context where PMI is triggered */ uint16_t os_id; /* reserved */ uint16_t reserved; /* the task id */ uint32_t task_id; /* instruction pointer */ uint64_t rip; /* the task name */ char task[16]; /* physical cpu ID */ uint32_t cpu_id; /* the process id */ uint32_t process_id; /* perf global status msr value (for overflow status) */ uint64_t overflow_status; /* rflags */ uint32_t rflags; /* code segment */ uint32_t cs; } __aligned(SEP_BUF_ENTRY_SIZE); #define CORE_PMU_SAMPLE_SIZE ((uint64_t)sizeof(struct core_pmu_sample)) #define NUM_LBR_ENTRY 32 struct lbr_pmu_sample { /* LBR TOS */ uint64_t lbr_tos; /* LBR FROM IP */ uint64_t lbr_from_ip[NUM_LBR_ENTRY]; /* LBR TO IP */ uint64_t lbr_to_ip[NUM_LBR_ENTRY]; /* LBR info */ uint64_t lbr_info[NUM_LBR_ENTRY]; } __aligned(SEP_BUF_ENTRY_SIZE); #define LBR_PMU_SAMPLE_SIZE ((uint64_t)sizeof(struct lbr_pmu_sample)) struct pmu_sample { /* core pmu sample */ struct core_pmu_sample csample; /* lbr pmu sample */ struct lbr_pmu_sample lsample; } __aligned(SEP_BUF_ENTRY_SIZE); struct vm_switch_trace { uint64_t vm_enter_tsc; uint64_t vm_exit_tsc; uint64_t vm_exit_reason; uint16_t os_id; uint16_t reserved; }__aligned(SEP_BUF_ENTRY_SIZE); #define VM_SWITCH_TRACE_SIZE ((uint64_t)sizeof(struct vm_switch_trace)) /* * Wrapper containing SEP sampling/profiling related data structures */ struct profiling_info_wrapper { struct profiling_msr_ops_list *msr_node; struct sep_state s_state; struct guest_vm_info vm_info; ipi_commands ipi_cmd; struct pmu_sample p_sample; struct vm_switch_trace vm_trace; socwatch_state soc_state; struct sw_msr_op_info sw_msr_info; spinlock_t sw_lock; } __aligned(8); int32_t profiling_get_version_info(struct acrn_vm *vm, uint64_t addr); int32_t profiling_get_pcpu_id(struct acrn_vm *vm, uint64_t addr); int32_t profiling_msr_ops_all_cpus(struct acrn_vm *vm, uint64_t addr); int32_t profiling_vm_list_info(struct acrn_vm *vm, uint64_t addr); int32_t profiling_get_control(struct acrn_vm *vm, uint64_t addr); int32_t profiling_set_control(struct acrn_vm *vm, uint64_t addr); int32_t profiling_configure_pmi(struct acrn_vm *vm, uint64_t addr); int32_t profiling_configure_vmsw(struct acrn_vm *vm, uint64_t addr); void profiling_ipi_handler(void *data); int32_t profiling_get_status_info(struct acrn_vm *vm, uint64_t addr); #endif #endif /* PROFILING_INTERNAL_H */