mirror of
https://github.com/ClusterCockpit/cc-metric-collector.git
synced 2024-11-14 05:57:25 +01:00
426 lines
12 KiB
Go
426 lines
12 KiB
Go
package ccTopology
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import (
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"fmt"
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"log"
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"os"
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"path/filepath"
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"regexp"
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"strconv"
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"strings"
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cclogger "github.com/ClusterCockpit/cc-metric-collector/pkg/ccLogger"
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"golang.org/x/exp/slices"
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)
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const SYSFS_CPUBASE = `/sys/devices/system/cpu`
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// Structure holding all information about a hardware thread
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// See https://www.kernel.org/doc/Documentation/ABI/stable/sysfs-devices-system-cpu
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type HwthreadEntry struct {
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// for each CPUx:
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CpuID int // CPU / hardware thread ID
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SMT int // Simultaneous Multithreading ID
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CoreCPUsList []int // CPUs within the same core
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Core int // Socket local core ID
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Socket int // Sockets (physical) ID
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Die int // Die ID
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NumaDomain int // NUMA Domain
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}
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var cache struct {
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HwthreadList []int // List of CPU hardware threads
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SMTList []int // List of symmetric hyper threading IDs
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CoreList []int // List of CPU core IDs
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SocketList []int // List of CPU sockets (physical) IDs
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DieList []int // List of CPU Die IDs
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NumaDomainList []int // List of NUMA Domains
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CpuData []HwthreadEntry
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}
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// fileToInt reads an integer value from a sysfs file
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// In case of an error -1 is returned
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func fileToInt(path string) int {
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buffer, err := os.ReadFile(path)
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if err != nil {
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log.Print(err)
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cclogger.ComponentError("ccTopology", "fileToInt", "Reading", path, ":", err.Error())
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return -1
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}
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stringBuffer := strings.TrimSpace(string(buffer))
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id, err := strconv.Atoi(stringBuffer)
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if err != nil {
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cclogger.ComponentError("ccTopology", "fileToInt", "Parsing", path, ":", stringBuffer, err.Error())
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return -1
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}
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return id
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}
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// fileToList reads a list from a sysfs file
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// A list consists of value ranges separated by colon
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// A range can be a single value or a range of values given by a startValue-endValue
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// In case of an error nil is returned
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func fileToList(path string) []int {
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// Read list
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buffer, err := os.ReadFile(path)
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if err != nil {
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log.Print(err)
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cclogger.ComponentError("ccTopology", "fileToList", "Reading", path, ":", err.Error())
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return nil
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}
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// Create list
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list := make([]int, 0)
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stringBuffer := strings.TrimSpace(string(buffer))
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for _, valueRangeString := range strings.Split(stringBuffer, ",") {
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valueRange := strings.Split(valueRangeString, "-")
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switch len(valueRange) {
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case 1:
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singleValue, err := strconv.Atoi(valueRange[0])
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if err != nil {
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cclogger.ComponentError("CCTopology", "fileToList", "Parsing", valueRange[0], ":", err.Error())
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return nil
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}
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list = append(list, singleValue)
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case 2:
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startValue, err := strconv.Atoi(valueRange[0])
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if err != nil {
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cclogger.ComponentError("CCTopology", "fileToList", "Parsing", valueRange[0], ":", err.Error())
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return nil
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}
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endValue, err := strconv.Atoi(valueRange[1])
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if err != nil {
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cclogger.ComponentError("CCTopology", "fileToList", "Parsing", valueRange[1], ":", err.Error())
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return nil
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}
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for value := startValue; value <= endValue; value++ {
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list = append(list, value)
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}
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}
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}
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return list
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}
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// init initializes the cache structure
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func init() {
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getHWThreads :=
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func() []int {
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globPath := filepath.Join(SYSFS_CPUBASE, "cpu[0-9]*")
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regexPath := filepath.Join(SYSFS_CPUBASE, "cpu([[:digit:]]+)")
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regex := regexp.MustCompile(regexPath)
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// File globbing for hardware threads
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files, err := filepath.Glob(globPath)
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if err != nil {
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cclogger.ComponentError("CCTopology", "init:getHWThreads", err.Error())
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return nil
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}
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hwThreadIDs := make([]int, len(files))
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for i, file := range files {
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// Extract hardware thread ID
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matches := regex.FindStringSubmatch(file)
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if len(matches) != 2 {
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cclogger.ComponentError("CCTopology", "init:getHWThreads: Failed to extract hardware thread ID from ", file)
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return nil
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}
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// Convert hardware thread ID to int
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id, err := strconv.Atoi(matches[1])
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if err != nil {
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cclogger.ComponentError("CCTopology", "init:getHWThreads: Failed to convert to int hardware thread ID ", matches[1])
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return nil
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}
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hwThreadIDs[i] = id
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}
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// Sort hardware thread IDs
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slices.Sort(hwThreadIDs)
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return hwThreadIDs
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}
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getNumaDomain :=
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func(basePath string) int {
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globPath := filepath.Join(basePath, "node*")
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regexPath := filepath.Join(basePath, "node([[:digit:]]+)")
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regex := regexp.MustCompile(regexPath)
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// File globbing for NUMA node
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files, err := filepath.Glob(globPath)
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if err != nil {
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cclogger.ComponentError("CCTopology", "init:getNumaDomain", err.Error())
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return -1
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}
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// Check, that exactly one NUMA domain was found
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if len(files) != 1 {
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cclogger.ComponentError("CCTopology", "init:getNumaDomain", "Number of NUMA domains != 1: ", len(files))
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return -1
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}
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// Extract NUMA node ID
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matches := regex.FindStringSubmatch(files[0])
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if len(matches) != 2 {
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cclogger.ComponentError("CCTopology", "init:getNumaDomain", "Failed to extract NUMA node ID from: ", files[0])
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return -1
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}
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id, err := strconv.Atoi(matches[1])
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if err != nil {
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cclogger.ComponentError("CCTopology", "init:getNumaDomain", "Failed to parse NUMA node ID from: ", matches[1])
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return -1
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}
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return id
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}
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cache.HwthreadList = getHWThreads()
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cache.CoreList = make([]int, len(cache.HwthreadList))
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cache.SocketList = make([]int, len(cache.HwthreadList))
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cache.DieList = make([]int, len(cache.HwthreadList))
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cache.SMTList = make([]int, len(cache.HwthreadList))
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cache.NumaDomainList = make([]int, len(cache.HwthreadList))
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cache.CpuData = make([]HwthreadEntry, len(cache.HwthreadList))
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for i, c := range cache.HwthreadList {
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// Set cpuBase directory for topology lookup
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cpuBase := filepath.Join(SYSFS_CPUBASE, fmt.Sprintf("cpu%d", c))
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topoBase := filepath.Join(cpuBase, "topology")
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// Lookup Core ID
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cache.CoreList[i] = fileToInt(filepath.Join(topoBase, "core_id"))
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// Lookup socket / physical package ID
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cache.SocketList[i] = fileToInt(filepath.Join(topoBase, "physical_package_id"))
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// Lookup CPU die id
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cache.DieList[i] = fileToInt(filepath.Join(topoBase, "die_id"))
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if cache.DieList[i] < 0 {
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cache.DieList[i] = cache.SocketList[i]
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}
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// Lookup List of CPUs within the same core
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coreCPUsList := fileToList(filepath.Join(topoBase, "core_cpus_list"))
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// Find index of CPU ID in List of CPUs within the same core
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// if not found return -1
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cache.SMTList[i] = slices.Index(coreCPUsList, c)
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// Lookup NUMA domain id
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cache.NumaDomainList[i] = getNumaDomain(cpuBase)
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cache.CpuData[i] =
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HwthreadEntry{
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CpuID: cache.HwthreadList[i],
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SMT: cache.SMTList[i],
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CoreCPUsList: coreCPUsList,
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Socket: cache.SocketList[i],
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NumaDomain: cache.NumaDomainList[i],
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Die: cache.DieList[i],
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Core: cache.CoreList[i],
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}
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}
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slices.Sort(cache.HwthreadList)
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cache.HwthreadList = slices.Compact(cache.HwthreadList)
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slices.Sort(cache.SMTList)
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cache.SMTList = slices.Compact(cache.SMTList)
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slices.Sort(cache.CoreList)
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cache.CoreList = slices.Compact(cache.CoreList)
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slices.Sort(cache.SocketList)
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cache.SocketList = slices.Compact(cache.SocketList)
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slices.Sort(cache.DieList)
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cache.DieList = slices.Compact(cache.DieList)
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slices.Sort(cache.NumaDomainList)
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cache.NumaDomainList = slices.Compact(cache.NumaDomainList)
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}
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// SocketList gets the list of CPU socket IDs
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func SocketList() []int {
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return slices.Clone(cache.SocketList)
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}
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// HwthreadList gets the list of hardware thread IDs in the order of listing in /proc/cpuinfo
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func HwthreadList() []int {
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return slices.Clone(cache.HwthreadList)
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}
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// Get list of hardware thread IDs in the order of listing in /proc/cpuinfo
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// Deprecated! Use HwthreadList()
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func CpuList() []int {
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return HwthreadList()
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}
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// CoreList gets the list of CPU core IDs in the order of listing in /proc/cpuinfo
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func CoreList() []int {
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return slices.Clone(cache.CoreList)
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}
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// Get list of NUMA node IDs
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func NumaNodeList() []int {
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return slices.Clone(cache.NumaDomainList)
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}
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// DieList gets the list of CPU die IDs
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func DieList() []int {
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if len(cache.DieList) > 0 {
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return slices.Clone(cache.DieList)
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}
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return SocketList()
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}
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// GetTypeList gets the list of specified type using the naming format inside ClusterCockpit
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func GetTypeList(topology_type string) []int {
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switch topology_type {
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case "node":
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return []int{0}
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case "socket":
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return SocketList()
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case "die":
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return DieList()
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case "memoryDomain":
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return NumaNodeList()
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case "core":
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return CoreList()
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case "hwthread":
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return HwthreadList()
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}
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return []int{}
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}
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// CpuData returns CPU data for each hardware thread
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func CpuData() []HwthreadEntry {
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// return a deep copy to protect cache data
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c := slices.Clone(cache.CpuData)
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for i := range c {
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c[i].CoreCPUsList = slices.Clone(cache.CpuData[i].CoreCPUsList)
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}
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return c
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}
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// Structure holding basic information about a CPU
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type CpuInformation struct {
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NumHWthreads int
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SMTWidth int
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NumSockets int
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NumDies int
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NumCores int
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NumNumaDomains int
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}
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// CpuInformation reports basic information about the CPU
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func CpuInfo() CpuInformation {
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return CpuInformation{
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NumNumaDomains: len(cache.NumaDomainList),
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SMTWidth: len(cache.SMTList),
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NumDies: len(cache.DieList),
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NumCores: len(cache.CoreList),
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NumSockets: len(cache.SocketList),
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NumHWthreads: len(cache.HwthreadList),
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}
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}
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// GetHwthreadSocket gets the CPU socket ID for a given hardware thread ID
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// In case hardware thread ID is not found -1 is returned
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func GetHwthreadSocket(cpuID int) int {
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for i := range cache.CpuData {
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d := &cache.CpuData[i]
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if d.CpuID == cpuID {
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return d.Socket
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}
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}
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return -1
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}
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// GetHwthreadNumaDomain gets the NUMA domain ID for a given hardware thread ID
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// In case hardware thread ID is not found -1 is returned
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func GetHwthreadNumaDomain(cpuID int) int {
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for i := range cache.CpuData {
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d := &cache.CpuData[i]
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if d.CpuID == cpuID {
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return d.NumaDomain
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}
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}
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return -1
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}
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// GetHwthreadDie gets the CPU die ID for a given hardware thread ID
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// In case hardware thread ID is not found -1 is returned
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func GetHwthreadDie(cpuID int) int {
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for i := range cache.CpuData {
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d := &cache.CpuData[i]
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if d.CpuID == cpuID {
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return d.Die
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}
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}
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return -1
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}
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// GetHwthreadCore gets the CPU core ID for a given hardware thread ID
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// In case hardware thread ID is not found -1 is returned
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func GetHwthreadCore(cpuID int) int {
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for i := range cache.CpuData {
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d := &cache.CpuData[i]
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if d.CpuID == cpuID {
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return d.Core
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}
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}
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return -1
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}
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// GetSocketHwthreads gets all hardware thread IDs associated with a CPU socket
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func GetSocketHwthreads(socket int) []int {
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cpuList := make([]int, 0)
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for i := range cache.CpuData {
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d := &cache.CpuData[i]
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if d.Socket == socket {
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cpuList = append(cpuList, d.CpuID)
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}
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}
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return cpuList
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}
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// GetNumaDomainHwthreads gets the all hardware thread IDs associated with a NUMA domain
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func GetNumaDomainHwthreads(numaDomain int) []int {
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cpuList := make([]int, 0)
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for i := range cache.CpuData {
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d := &cache.CpuData[i]
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if d.NumaDomain == numaDomain {
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cpuList = append(cpuList, d.CpuID)
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}
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}
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return cpuList
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}
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// GetDieHwthreads gets all hardware thread IDs associated with a CPU die
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func GetDieHwthreads(die int) []int {
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cpuList := make([]int, 0)
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for i := range cache.CpuData {
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d := &cache.CpuData[i]
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if d.Die == die {
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cpuList = append(cpuList, d.CpuID)
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}
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}
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return cpuList
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}
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// GetCoreHwthreads get all hardware thread IDs associated with a CPU core
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func GetCoreHwthreads(core int) []int {
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cpuList := make([]int, 0)
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for i := range cache.CpuData {
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d := &cache.CpuData[i]
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if d.Core == core {
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cpuList = append(cpuList, d.CpuID)
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}
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}
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return cpuList
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}
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