package discover import ( "bufio" "fmt" "os" "reflect" "regexp" "strings" "github.com/ollama/ollama/format" ) var CudartGlobs = []string{ "/usr/local/cuda/lib64/libcudart.so*", "/usr/lib/x86_64-linux-gnu/nvidia/current/libcudart.so*", "/usr/lib/x86_64-linux-gnu/libcudart.so*", "/usr/lib/wsl/lib/libcudart.so*", "/usr/lib/wsl/drivers/*/libcudart.so*", "/opt/cuda/lib64/libcudart.so*", "/usr/local/cuda*/targets/aarch64-linux/lib/libcudart.so*", "/usr/lib/aarch64-linux-gnu/nvidia/current/libcudart.so*", "/usr/lib/aarch64-linux-gnu/libcudart.so*", "/usr/local/cuda/lib*/libcudart.so*", "/usr/lib*/libcudart.so*", "/usr/local/lib*/libcudart.so*", } var NvmlGlobs = []string{} var NvcudaGlobs = []string{ "/usr/local/cuda*/targets/*/lib/libcuda.so*", "/usr/lib/*-linux-gnu/nvidia/current/libcuda.so*", "/usr/lib/*-linux-gnu/libcuda.so*", "/usr/lib/wsl/lib/libcuda.so*", "/usr/lib/wsl/drivers/*/libcuda.so*", "/opt/cuda/lib*/libcuda.so*", "/usr/local/cuda/lib*/libcuda.so*", "/usr/lib*/libcuda.so*", "/usr/local/lib*/libcuda.so*", } var OneapiGlobs = []string{ "/usr/lib/x86_64-linux-gnu/libze_intel_gpu.so*", "/usr/lib*/libze_intel_gpu.so*", } var ( CudartMgmtName = "libcudart.so*" NvcudaMgmtName = "libcuda.so*" NvmlMgmtName = "" // not currently wired on linux OneapiMgmtName = "libze_intel_gpu.so*" ) func GetCPUMem() (memInfo, error) { var mem memInfo var total, available, free, buffers, cached, freeSwap uint64 f, err := os.Open("/proc/meminfo") if err != nil { return mem, err } defer f.Close() s := bufio.NewScanner(f) for s.Scan() { line := s.Text() switch { case strings.HasPrefix(line, "MemTotal:"): _, err = fmt.Sscanf(line, "MemTotal:%d", &total) case strings.HasPrefix(line, "MemAvailable:"): _, err = fmt.Sscanf(line, "MemAvailable:%d", &available) case strings.HasPrefix(line, "MemFree:"): _, err = fmt.Sscanf(line, "MemFree:%d", &free) case strings.HasPrefix(line, "Buffers:"): _, err = fmt.Sscanf(line, "Buffers:%d", &buffers) case strings.HasPrefix(line, "Cached:"): _, err = fmt.Sscanf(line, "Cached:%d", &cached) case strings.HasPrefix(line, "SwapFree:"): _, err = fmt.Sscanf(line, "SwapFree:%d", &freeSwap) default: continue } if err != nil { return mem, err } } mem.TotalMemory = total * format.KibiByte mem.FreeSwap = freeSwap * format.KibiByte if available > 0 { mem.FreeMemory = available * format.KibiByte } else { mem.FreeMemory = (free + buffers + cached) * format.KibiByte } return mem, nil } const CpuInfoFilename = "/proc/cpuinfo" type linuxCpuInfo struct { ID string `cpuinfo:"processor"` VendorID string `cpuinfo:"vendor_id"` ModelName string `cpuinfo:"model name"` PhysicalID string `cpuinfo:"physical id"` Siblings string `cpuinfo:"siblings"` CoreID string `cpuinfo:"core id"` } func GetCPUDetails() ([]CPU, error) { file, err := os.Open(CpuInfoFilename) if err != nil { return nil, err } reColumns := regexp.MustCompile("\t+: ") scanner := bufio.NewScanner(file) cpuInfos := []linuxCpuInfo{} cpu := &linuxCpuInfo{} for scanner.Scan() { line := scanner.Text() if sl := reColumns.Split(line, 2); len(sl) > 1 { t := reflect.TypeOf(cpu).Elem() s := reflect.ValueOf(cpu).Elem() for i := range t.NumField() { field := t.Field(i) tag := field.Tag.Get("cpuinfo") if tag == sl[0] { s.FieldByName(field.Name).SetString(sl[1]) break } } } else if strings.TrimSpace(line) == "" && cpu.ID != "" { cpuInfos = append(cpuInfos, *cpu) cpu = &linuxCpuInfo{} } } // Process the sockets/cores/threads socketByID := map[string]*CPU{} coreBySocket := map[string]map[string]struct{}{} threadsByCoreBySocket := map[string]map[string]int{} for _, c := range cpuInfos { if _, found := socketByID[c.PhysicalID]; !found { socketByID[c.PhysicalID] = &CPU{ ID: c.PhysicalID, VendorID: c.VendorID, ModelName: c.ModelName, } coreBySocket[c.PhysicalID] = map[string]struct{}{} threadsByCoreBySocket[c.PhysicalID] = map[string]int{} } if c.CoreID != "" { coreBySocket[c.PhysicalID][c.PhysicalID+":"+c.CoreID] = struct{}{} threadsByCoreBySocket[c.PhysicalID][c.PhysicalID+":"+c.CoreID]++ } else { coreBySocket[c.PhysicalID][c.PhysicalID+":"+c.ID] = struct{}{} threadsByCoreBySocket[c.PhysicalID][c.PhysicalID+":"+c.ID]++ } } // Tally up the values from the tracking maps for id, s := range socketByID { s.CoreCount = len(coreBySocket[id]) s.ThreadCount = 0 for _, tc := range threadsByCoreBySocket[id] { s.ThreadCount += tc } // This only works if HT is enabled, consider a more reliable model, maybe cache size comparisons? efficiencyCoreCount := 0 for _, threads := range threadsByCoreBySocket[id] { if threads == 1 { efficiencyCoreCount++ } } if efficiencyCoreCount == s.CoreCount { // 1:1 mapping means they're not actually efficiency cores, but regular cores s.EfficiencyCoreCount = 0 } else { s.EfficiencyCoreCount = efficiencyCoreCount } } result := []CPU{} for _, c := range socketByID { result = append(result, *c) } return result, nil }