package llm import ( "bufio" "bytes" "context" "encoding/json" "errors" "fmt" "io" "log" "log/slog" "math/rand" "net" "net/http" "os" "os/exec" "path/filepath" "runtime" "strconv" "strings" "time" "golang.org/x/sync/semaphore" "github.com/ollama/ollama/api" "github.com/ollama/ollama/envconfig" "github.com/ollama/ollama/format" "github.com/ollama/ollama/gpu" ) type LlamaServer interface { Ping(ctx context.Context) error WaitUntilRunning(ctx context.Context) error Completion(ctx context.Context, req CompletionRequest, fn func(CompletionResponse)) error Embedding(ctx context.Context, input string) ([]float32, error) Tokenize(ctx context.Context, content string) ([]int, error) Detokenize(ctx context.Context, tokens []int) (string, error) Close() error EstimatedVRAM() uint64 // Total VRAM across all GPUs EstimatedTotal() uint64 EstimatedVRAMByGPU(gpuID string) uint64 } // llmServer is an instance of the llama.cpp server type llmServer struct { port int cmd *exec.Cmd done chan error // Channel to signal when the process exits status *StatusWriter options api.Options numParallel int estimate MemoryEstimate totalLayers uint64 // gpuCount int gpus gpu.GpuInfoList // Recorded just before the model loaded, free space will be incorrect loadDuration time.Duration // Record how long it took the model to load loadProgress float32 sem *semaphore.Weighted } // LoadModel will load a model from disk. The model must be in the GGML format. // // It collects array values for arrays with a size less than or equal to // maxArraySize. If maxArraySize is 0, the default value of 1024 is used. If // the maxArraySize is negative, all arrays are collected. func LoadModel(model string, maxArraySize int) (*GGML, error) { if _, err := os.Stat(model); err != nil { return nil, err } f, err := os.Open(model) if err != nil { return nil, err } defer f.Close() ggml, _, err := DecodeGGML(f, maxArraySize) return ggml, err } // NewLlamaServer will run a server for the given GPUs // The gpu list must be a single family. func NewLlamaServer(gpus gpu.GpuInfoList, model string, ggml *GGML, adapters, projectors []string, opts api.Options, numParallel int) (LlamaServer, error) { var err error var cpuRunner string var estimate MemoryEstimate var systemTotalMemory uint64 var systemFreeMemory uint64 var systemSwapFreeMemory uint64 systemMemInfo, err := gpu.GetCPUMem() if err != nil { slog.Error("failed to lookup system memory", "error", err) } else { systemTotalMemory = systemMemInfo.TotalMemory systemFreeMemory = systemMemInfo.FreeMemory systemSwapFreeMemory = systemMemInfo.FreeSwap slog.Debug("system memory", "total", format.HumanBytes2(systemTotalMemory), "free", format.HumanBytes2(systemFreeMemory), "free_swap", format.HumanBytes2(systemSwapFreeMemory)) } // If the user wants zero GPU layers, reset the gpu list to be CPU/system ram info if opts.NumGPU == 0 { gpus = gpu.GetCPUInfo() } if len(gpus) == 1 && gpus[0].Library == "cpu" { cpuRunner = serverForCpu() estimate = EstimateGPULayers(gpus, ggml, projectors, opts) } else { estimate = EstimateGPULayers(gpus, ggml, projectors, opts) switch { case gpus[0].Library == "metal" && estimate.VRAMSize > systemTotalMemory: // disable partial offloading when model is greater than total system memory as this // can lead to locking up the system opts.NumGPU = 0 case gpus[0].Library != "metal" && estimate.Layers == 0: // Don't bother loading into the GPU if no layers can fit cpuRunner = serverForCpu() gpus = gpu.GetCPUInfo() case opts.NumGPU < 0 && estimate.Layers > 0 && gpus[0].Library != "cpu": opts.NumGPU = estimate.Layers } } // On linux and windows, over-allocating CPU memory will almost always result in an error // Darwin has fully dynamic swap so has no direct concept of free swap space if runtime.GOOS != "darwin" { systemMemoryRequired := estimate.TotalSize - estimate.VRAMSize available := systemFreeMemory + systemSwapFreeMemory if systemMemoryRequired > available { slog.Warn("model request too large for system", "requested", format.HumanBytes2(systemMemoryRequired), "available", available, "total", format.HumanBytes2(systemTotalMemory), "free", format.HumanBytes2(systemFreeMemory), "swap", format.HumanBytes2(systemSwapFreeMemory)) return nil, fmt.Errorf("model requires more system memory (%s) than is available (%s)", format.HumanBytes2(systemMemoryRequired), format.HumanBytes2(available)) } } estimate.log() // Loop through potential servers finalErr := errors.New("no suitable llama servers found") if len(adapters) > 1 { return nil, errors.New("ollama supports only one lora adapter, but multiple were provided") } availableServers := getAvailableServers() if len(availableServers) == 0 { if runtime.GOOS != "windows" { slog.Warn("llama server binary disappeared, reinitializing payloads") err = Init() if err != nil { slog.Warn("failed to reinitialize payloads", "error", err) return nil, err } availableServers = getAvailableServers() } else { return nil, finalErr } } var servers []string if cpuRunner != "" { servers = []string{cpuRunner} } else { servers = serversForGpu(gpus[0]) // All GPUs in the list are matching Library and Variant } demandLib := envconfig.LLMLibrary() if demandLib != "" { serverPath := availableServers[demandLib] if serverPath == "" { slog.Info(fmt.Sprintf("Invalid OLLAMA_LLM_LIBRARY %s - not found", demandLib)) } else { slog.Info("user override", "OLLAMA_LLM_LIBRARY", demandLib, "path", serverPath) servers = []string{demandLib} if strings.HasPrefix(demandLib, "cpu") { // Omit the GPU flag to silence the warning opts.NumGPU = -1 } } } if len(servers) == 0 { return nil, fmt.Errorf("no servers found for %v", gpus) } params := []string{ "--model", model, "--ctx-size", strconv.Itoa(opts.NumCtx), "--batch-size", strconv.Itoa(opts.NumBatch), "--embedding", } params = append(params, "--log-disable") if opts.NumGPU >= 0 { params = append(params, "--n-gpu-layers", strconv.Itoa(opts.NumGPU)) } if envconfig.Debug() { params = append(params, "--verbose") } if opts.MainGPU > 0 { params = append(params, "--main-gpu", strconv.Itoa(opts.MainGPU)) } if len(adapters) > 0 { // TODO: applying multiple adapters is not supported by the llama.cpp server yet params = append(params, "--lora", adapters[0]) } if len(projectors) > 0 { // TODO: applying multiple projectors is not supported by the llama.cpp server yet params = append(params, "--mmproj", projectors[0]) } if opts.NumThread > 0 { params = append(params, "--threads", strconv.Itoa(opts.NumThread)) } if !opts.F16KV { params = append(params, "--memory-f32") } flashAttnEnabled := envconfig.FlashAttention() for _, g := range gpus { // only cuda (compute capability 7+) and metal support flash attention if g.Library != "metal" && (g.Library != "cuda" || g.DriverMajor < 7) { flashAttnEnabled = false } // mmap has issues with partial offloading on metal if g.Library == "metal" && uint64(opts.NumGPU) > 0 && uint64(opts.NumGPU) < ggml.KV().BlockCount()+1 { opts.UseMMap = new(bool) *opts.UseMMap = false } } if flashAttnEnabled { params = append(params, "--flash-attn") } // Windows CUDA should not use mmap for best performance // Linux with a model larger than free space, mmap leads to thrashing // For CPU loads we want the memory to be allocated, not FS cache if (runtime.GOOS == "windows" && gpus[0].Library == "cuda" && opts.UseMMap == nil) || (runtime.GOOS == "linux" && systemFreeMemory < estimate.TotalSize && opts.UseMMap == nil) || (gpus[0].Library == "cpu" && opts.UseMMap == nil) || (opts.UseMMap != nil && !*opts.UseMMap) { params = append(params, "--no-mmap") } if opts.UseMLock { params = append(params, "--mlock") } if gpu.IsNUMA() && gpus[0].Library == "cpu" { numaMode := "distribute" if runtime.GOOS == "linux" { if _, err := exec.LookPath("numactl"); err == nil { numaMode = "numactl" } } params = append(params, "--numa", numaMode) } params = append(params, "--parallel", strconv.Itoa(numParallel)) if estimate.TensorSplit != "" { params = append(params, "--tensor-split", estimate.TensorSplit) } for i := range len(servers) { dir := availableServers[servers[i]] if dir == "" { // Shouldn't happen finalErr = fmt.Errorf("[%d] server %s not listed in available servers %v", i, servers[i], availableServers) slog.Error("server list inconsistent", "error", finalErr) continue } if strings.HasPrefix(servers[i], "cpu") { gpus = gpu.GetCPUInfo() } // Find an availableServers port, retry on each iteration in case the failure was a port conflict race port := 0 if a, err := net.ResolveTCPAddr("tcp", "localhost:0"); err == nil { var l *net.TCPListener if l, err = net.ListenTCP("tcp", a); err == nil { port = l.Addr().(*net.TCPAddr).Port l.Close() } } if port == 0 { slog.Debug("ResolveTCPAddr failed ", "error", err) port = rand.Intn(65535-49152) + 49152 // get a random port in the ephemeral range } finalParams := append(params, "--port", strconv.Itoa(port)) pathEnv := "LD_LIBRARY_PATH" if runtime.GOOS == "windows" { pathEnv = "PATH" } // Start with the server directory for the LD_LIBRARY_PATH/PATH libraryPaths := []string{dir} if libraryPath, ok := os.LookupEnv(pathEnv); ok { // favor our bundled library dependencies over system libraries libraryPaths = append(libraryPaths, filepath.SplitList(libraryPath)...) } // Note: we always put the dependency path first // since this was the exact version we compiled/linked against if gpus[0].DependencyPath != "" { // assume gpus from the same library have the same dependency path libraryPaths = append([]string{gpus[0].DependencyPath}, libraryPaths...) } server := filepath.Join(dir, "ollama_llama_server") if runtime.GOOS == "windows" { server += ".exe" } // Detect tmp cleaners wiping out the file _, err := os.Stat(server) if errors.Is(err, os.ErrNotExist) { slog.Warn("llama server disappeared, reinitializing payloads", "path", server, "error", err) err = Init() if err != nil { slog.Warn("failed to reinitialize payloads", "error", err) return nil, err } } s := &llmServer{ port: port, cmd: exec.Command(server, finalParams...), status: NewStatusWriter(os.Stderr), options: opts, estimate: estimate, numParallel: numParallel, sem: semaphore.NewWeighted(int64(numParallel)), totalLayers: ggml.KV().BlockCount() + 1, gpus: gpus, done: make(chan error, 1), } s.cmd.Env = os.Environ() s.cmd.Stdout = os.Stdout s.cmd.Stderr = s.status s.cmd.SysProcAttr = LlamaServerSysProcAttr envWorkarounds := [][2]string{} for _, gpu := range gpus { envWorkarounds = append(envWorkarounds, gpu.EnvWorkarounds...) } visibleDevicesEnv, visibleDevicesEnvVal := gpus.GetVisibleDevicesEnv() pathEnvVal := strings.Join(libraryPaths, string(filepath.ListSeparator)) // Update or add the path and visible devices variable with our adjusted version pathNeeded := true devicesNeeded := visibleDevicesEnv != "" for i := range s.cmd.Env { cmp := strings.SplitN(s.cmd.Env[i], "=", 2) if strings.EqualFold(cmp[0], pathEnv) { s.cmd.Env[i] = pathEnv + "=" + pathEnvVal pathNeeded = false } else if devicesNeeded && strings.EqualFold(cmp[0], visibleDevicesEnv) { s.cmd.Env[i] = visibleDevicesEnv + "=" + visibleDevicesEnvVal devicesNeeded = false } else if len(envWorkarounds) != 0 { for _, kv := range envWorkarounds { if strings.EqualFold(cmp[0], kv[0]) { s.cmd.Env[i] = kv[0] + "=" + kv[1] } } } } if pathNeeded { s.cmd.Env = append(s.cmd.Env, pathEnv+"="+pathEnvVal) } if devicesNeeded { s.cmd.Env = append(s.cmd.Env, visibleDevicesEnv+"="+visibleDevicesEnvVal) } slog.Info("starting llama server", "cmd", s.cmd.String()) if envconfig.Debug() { filteredEnv := []string{} for _, ev := range s.cmd.Env { if strings.HasPrefix(ev, "CUDA_") || strings.HasPrefix(ev, "ROCR_") || strings.HasPrefix(ev, "ROCM_") || strings.HasPrefix(ev, "HIP_") || strings.HasPrefix(ev, "GPU_") || strings.HasPrefix(ev, "HSA_") || strings.HasPrefix(ev, "GGML_") || strings.HasPrefix(ev, "PATH=") || strings.HasPrefix(ev, "LD_LIBRARY_PATH=") { filteredEnv = append(filteredEnv, ev) } } // Log at debug as the environment is inherited and might contain sensitive information slog.Debug("subprocess", "environment", filteredEnv) } if err = s.cmd.Start(); err != nil { // Detect permission denied and augment the message about noexec if errors.Is(err, os.ErrPermission) { finalErr = fmt.Errorf("unable to start server %w. %s may have noexec set. Set OLLAMA_TMPDIR for server to a writable executable directory", err, dir) continue } msg := "" if s.status != nil && s.status.LastErrMsg != "" { msg = s.status.LastErrMsg } err = fmt.Errorf("error starting the external llama server: %v %s", err, msg) finalErr = err continue } // reap subprocess when it exits go func() { err := s.cmd.Wait() // Favor a more detailed message over the process exit status if err != nil && s.status != nil && s.status.LastErrMsg != "" { slog.Debug("llama runner terminated", "error", err) if strings.Contains(s.status.LastErrMsg, "unknown model") { s.status.LastErrMsg = "this model is not supported by your version of Ollama. You may need to upgrade" } s.done <- errors.New(s.status.LastErrMsg) } else { s.done <- err } }() return s, nil } slog.Error("unable to load any llama server", "error", finalErr) return nil, finalErr } func projectorMemoryRequirements(filename string) uint64 { file, err := os.Open(filename) if err != nil { return 0 } defer file.Close() ggml, _, err := DecodeGGML(file, 0) if err != nil { return 0 } var mem uint64 for _, layer := range ggml.Tensors().Layers() { mem += layer.size() } return mem } type ServerStatus int const ( // iota is reset to 0 ServerStatusReady ServerStatus = iota ServerStatusNoSlotsAvailable ServerStatusLoadingModel ServerStatusNotResponding ServerStatusError ) func (s ServerStatus) ToString() string { switch s { case ServerStatusReady: return "llm server ready" case ServerStatusNoSlotsAvailable: return "llm busy - no slots available" case ServerStatusLoadingModel: return "llm server loading model" case ServerStatusNotResponding: return "llm server not responding" default: return "llm server error" } } type ServerStatusResp struct { Status string `json:"status"` SlotsIdle int `json:"slots_idle"` SlotsProcessing int `json:"slots_processing"` Error string `json:"error"` Progress float32 `json:"progress"` } func (s *llmServer) getServerStatus(ctx context.Context) (ServerStatus, error) { // Fail fast if its exited if s.cmd.ProcessState != nil { msg := "" if s.status != nil && s.status.LastErrMsg != "" { msg = s.status.LastErrMsg } if s.cmd.ProcessState.ExitCode() == -1 { // Most likely a signal killed it, log some more details to try to help troubleshoot slog.Warn("llama runner process no longer running", "sys", s.cmd.ProcessState.Sys(), "string", s.cmd.ProcessState.String()) } return ServerStatusError, fmt.Errorf("llama runner process no longer running: %d %s", s.cmd.ProcessState.ExitCode(), msg) } req, err := http.NewRequestWithContext(ctx, http.MethodGet, fmt.Sprintf("http://127.0.0.1:%d/health", s.port), nil) if err != nil { return ServerStatusError, fmt.Errorf("error creating GET request: %v", err) } req.Header.Set("Content-Type", "application/json") resp, err := http.DefaultClient.Do(req) if err != nil { if errors.Is(err, context.DeadlineExceeded) { return ServerStatusNotResponding, errors.New("server not responding") } return ServerStatusError, fmt.Errorf("health resp: %w", err) } defer resp.Body.Close() body, err := io.ReadAll(resp.Body) if err != nil { return ServerStatusError, fmt.Errorf("read health request: %w", err) } var status ServerStatusResp if err := json.Unmarshal(body, &status); err != nil { return ServerStatusError, fmt.Errorf("health unmarshal encode response: %w", err) } switch status.Status { case "ok": return ServerStatusReady, nil case "no slot available": return ServerStatusNoSlotsAvailable, nil case "loading model": s.loadProgress = status.Progress return ServerStatusLoadingModel, nil default: return ServerStatusError, fmt.Errorf("server error: %+v", status) } } // getServerStatusRetry will retry if ServerStatusNoSlotsAvailable is received func (s *llmServer) getServerStatusRetry(ctx context.Context) (ServerStatus, error) { var retries int for { status, err := s.getServerStatus(ctx) if err != nil { return status, err } if status == ServerStatusNoSlotsAvailable { if retries >= 10 { return status, fmt.Errorf("no slots available after %d retries", retries) } time.Sleep(5 * time.Millisecond) retries++ continue } return status, nil } } func (s *llmServer) Ping(ctx context.Context) error { _, err := s.getServerStatus(ctx) if err != nil { slog.Debug("server unhealthy", "error", err) return err } return nil } func (s *llmServer) WaitUntilRunning(ctx context.Context) error { start := time.Now() stallDuration := 5 * time.Minute // If no progress happens finalLoadDuration := 5 * time.Minute // After we hit 100%, give the runner more time to come online stallTimer := time.Now().Add(stallDuration) // give up if we stall slog.Info("waiting for llama runner to start responding") var lastStatus ServerStatus = -1 fullyLoaded := false for { select { case <-ctx.Done(): slog.Warn("client connection closed before server finished loading, aborting load") return fmt.Errorf("timed out waiting for llama runner to start: %w", ctx.Err()) case err := <-s.done: return fmt.Errorf("llama runner process has terminated: %w", err) default: } if time.Now().After(stallTimer) { // timeout msg := "" if s.status != nil && s.status.LastErrMsg != "" { msg = s.status.LastErrMsg } return fmt.Errorf("timed out waiting for llama runner to start - progress %0.2f - %s", s.loadProgress, msg) } if s.cmd.ProcessState != nil { msg := "" if s.status != nil && s.status.LastErrMsg != "" { msg = s.status.LastErrMsg } return fmt.Errorf("llama runner process no longer running: %d %s", s.cmd.ProcessState.ExitCode(), msg) } ctx, cancel := context.WithTimeout(ctx, 200*time.Millisecond) defer cancel() priorProgress := s.loadProgress status, _ := s.getServerStatus(ctx) if lastStatus != status && status != ServerStatusReady { // Only log on status changes slog.Info("waiting for server to become available", "status", status.ToString()) } switch status { case ServerStatusReady: s.loadDuration = time.Since(start) slog.Info(fmt.Sprintf("llama runner started in %0.2f seconds", s.loadDuration.Seconds())) return nil default: lastStatus = status // Reset the timer as long as we're making forward progress on the load if priorProgress != s.loadProgress { slog.Debug(fmt.Sprintf("model load progress %0.2f", s.loadProgress)) stallTimer = time.Now().Add(stallDuration) } else if !fullyLoaded && int(s.loadProgress*100.0) >= 100 { slog.Debug("model load completed, waiting for server to become available", "status", status.ToString()) stallTimer = time.Now().Add(finalLoadDuration) fullyLoaded = true } time.Sleep(time.Millisecond * 250) continue } } } const jsonGrammar = ` root ::= object value ::= object | array | string | number | ("true" | "false" | "null") ws object ::= "{" ws ( string ":" ws value ("," ws string ":" ws value)* )? "}" ws array ::= "[" ws ( value ("," ws value)* )? "]" ws string ::= "\"" ( [^"\\\x7F\x00-\x1F] | "\\" (["\\/bfnrt] | "u" [0-9a-fA-F] [0-9a-fA-F] [0-9a-fA-F] [0-9a-fA-F]) # escapes )* "\"" ws number ::= ("-"? ([0-9] | [1-9] [0-9]*)) ("." [0-9]+)? ([eE] [-+]? [0-9]+)? ws # Optional space: by convention, applied in this grammar after literal chars when allowed ws ::= ([ \t\n] ws)? ` const maxBufferSize = 512 * format.KiloByte type ImageData struct { Data []byte `json:"data"` ID int `json:"id"` } type completion struct { Content string `json:"content"` Model string `json:"model"` Prompt string `json:"prompt"` Stop bool `json:"stop"` StoppedLimit bool `json:"stopped_limit"` Timings struct { PredictedN int `json:"predicted_n"` PredictedMS float64 `json:"predicted_ms"` PromptN int `json:"prompt_n"` PromptMS float64 `json:"prompt_ms"` } } type CompletionRequest struct { Prompt string Format string Images []ImageData Options *api.Options } type CompletionResponse struct { Content string DoneReason string Done bool PromptEvalCount int PromptEvalDuration time.Duration EvalCount int EvalDuration time.Duration } func (s *llmServer) Completion(ctx context.Context, req CompletionRequest, fn func(CompletionResponse)) error { if err := s.sem.Acquire(ctx, 1); err != nil { slog.Error("Failed to acquire semaphore", "error", err) return err } defer s.sem.Release(1) // put an upper limit on num_predict to avoid the model running on forever if req.Options.NumPredict < 0 || req.Options.NumPredict > 10*s.options.NumCtx { req.Options.NumPredict = 10 * s.options.NumCtx } request := map[string]any{ "prompt": req.Prompt, "stream": true, "n_predict": req.Options.NumPredict, "n_keep": req.Options.NumKeep, "main_gpu": req.Options.MainGPU, "temperature": req.Options.Temperature, "top_k": req.Options.TopK, "top_p": req.Options.TopP, "min_p": req.Options.MinP, "tfs_z": req.Options.TFSZ, "typical_p": req.Options.TypicalP, "repeat_last_n": req.Options.RepeatLastN, "repeat_penalty": req.Options.RepeatPenalty, "presence_penalty": req.Options.PresencePenalty, "frequency_penalty": req.Options.FrequencyPenalty, "mirostat": req.Options.Mirostat, "mirostat_tau": req.Options.MirostatTau, "mirostat_eta": req.Options.MirostatEta, "penalize_nl": req.Options.PenalizeNewline, "seed": req.Options.Seed, "stop": req.Options.Stop, "image_data": req.Images, "cache_prompt": true, } // Make sure the server is ready status, err := s.getServerStatusRetry(ctx) if err != nil { return err } else if status != ServerStatusReady { return fmt.Errorf("unexpected server status: %s", status.ToString()) } if req.Format == "json" { request["grammar"] = jsonGrammar if !strings.Contains(strings.ToLower(req.Prompt), "json") { slog.Warn("Prompt does not specify that the LLM should response in JSON, but JSON format is expected. For best results specify that JSON is expected in the system prompt.") } } // Handling JSON marshaling with special characters unescaped. buffer := &bytes.Buffer{} enc := json.NewEncoder(buffer) enc.SetEscapeHTML(false) if err := enc.Encode(request); err != nil { return fmt.Errorf("failed to marshal data: %v", err) } endpoint := fmt.Sprintf("http://127.0.0.1:%d/completion", s.port) serverReq, err := http.NewRequestWithContext(ctx, http.MethodPost, endpoint, buffer) if err != nil { return fmt.Errorf("error creating POST request: %v", err) } serverReq.Header.Set("Content-Type", "application/json") res, err := http.DefaultClient.Do(serverReq) if err != nil { return fmt.Errorf("POST predict: %v", err) } defer res.Body.Close() if res.StatusCode >= 400 { bodyBytes, err := io.ReadAll(res.Body) if err != nil { return fmt.Errorf("failed reading llm error response: %w", err) } log.Printf("llm predict error: %s", bodyBytes) return fmt.Errorf("%s", bodyBytes) } scanner := bufio.NewScanner(res.Body) buf := make([]byte, 0, maxBufferSize) scanner.Buffer(buf, maxBufferSize) // keep track of the last token generated, this is used to abort if the model starts looping var lastToken string var tokenRepeat int for scanner.Scan() { select { case <-ctx.Done(): // This handles the request cancellation return ctx.Err() default: line := scanner.Bytes() if len(line) == 0 { continue } evt, ok := bytes.CutPrefix(line, []byte("data: ")) if !ok { return fmt.Errorf("error parsing llm response stream: %s", line) } var c completion if err := json.Unmarshal(evt, &c); err != nil { return fmt.Errorf("error unmarshalling llm prediction response: %v", err) } switch { case strings.TrimSpace(c.Content) == lastToken: tokenRepeat++ default: lastToken = strings.TrimSpace(c.Content) tokenRepeat = 0 } // 30 picked as an arbitrary max token repeat limit, modify as needed if tokenRepeat > 30 { slog.Debug("prediction aborted, token repeat limit reached") return ctx.Err() } if c.Content != "" { fn(CompletionResponse{ Content: c.Content, }) } if c.Stop { doneReason := "stop" if c.StoppedLimit { doneReason = "length" } fn(CompletionResponse{ Done: true, DoneReason: doneReason, PromptEvalCount: c.Timings.PromptN, PromptEvalDuration: parseDurationMs(c.Timings.PromptMS), EvalCount: c.Timings.PredictedN, EvalDuration: parseDurationMs(c.Timings.PredictedMS), }) return nil } } } if err := scanner.Err(); err != nil { if strings.Contains(err.Error(), "unexpected EOF") { s.Close() msg := "" if s.status != nil && s.status.LastErrMsg != "" { msg = s.status.LastErrMsg } return fmt.Errorf("an unknown error was encountered while running the model %s", msg) } return fmt.Errorf("error reading llm response: %v", err) } return nil } type EmbeddingRequest struct { Content string `json:"content"` } type EmbeddingResponse struct { Embedding []float32 `json:"embedding"` } func (s *llmServer) Embedding(ctx context.Context, input string) ([]float32, error) { if err := s.sem.Acquire(ctx, 1); err != nil { slog.Error("Failed to acquire semaphore", "error", err) return nil, err } defer s.sem.Release(1) // Make sure the server is ready status, err := s.getServerStatusRetry(ctx) if err != nil { return nil, err } else if status != ServerStatusReady { return nil, fmt.Errorf("unexpected server status: %s", status.ToString()) } data, err := json.Marshal(EmbeddingRequest{Content: input}) if err != nil { return nil, fmt.Errorf("error marshaling embed data: %w", err) } r, err := http.NewRequestWithContext(ctx, http.MethodPost, fmt.Sprintf("http://127.0.0.1:%d/embedding", s.port), bytes.NewBuffer(data)) if err != nil { return nil, fmt.Errorf("error creating embed request: %w", err) } r.Header.Set("Content-Type", "application/json") resp, err := http.DefaultClient.Do(r) if err != nil { return nil, fmt.Errorf("do embedding request: %w", err) } defer resp.Body.Close() body, err := io.ReadAll(resp.Body) if err != nil { return nil, fmt.Errorf("error reading embed response: %w", err) } if resp.StatusCode >= 400 { log.Printf("llm encode error: %s", body) return nil, fmt.Errorf("%s", body) } var e EmbeddingResponse if err := json.Unmarshal(body, &e); err != nil { return nil, fmt.Errorf("unmarshal tokenize response: %w", err) } return e.Embedding, nil } type TokenizeRequest struct { Content string `json:"content"` } type TokenizeResponse struct { Tokens []int `json:"tokens"` } func (s *llmServer) Tokenize(ctx context.Context, content string) ([]int, error) { // Make sure the server is ready status, err := s.getServerStatus(ctx) if err != nil { return nil, err } else if status != ServerStatusReady && status != ServerStatusNoSlotsAvailable { return nil, fmt.Errorf("unexpected server status: %s", status.ToString()) } data, err := json.Marshal(TokenizeRequest{Content: content}) if err != nil { return nil, fmt.Errorf("marshaling encode data: %w", err) } req, err := http.NewRequestWithContext(ctx, http.MethodPost, fmt.Sprintf("http://127.0.0.1:%d/tokenize", s.port), bytes.NewBuffer(data)) if err != nil { return nil, fmt.Errorf("encode request: %w", err) } req.Header.Set("Content-Type", "application/json") resp, err := http.DefaultClient.Do(req) if err != nil { return nil, fmt.Errorf("do encode request: %w", err) } defer resp.Body.Close() body, err := io.ReadAll(resp.Body) if err != nil { return nil, fmt.Errorf("read encode request: %w", err) } if resp.StatusCode >= 400 { log.Printf("llm encode error: %s", body) return nil, fmt.Errorf("%s", body) } var encoded TokenizeResponse if err := json.Unmarshal(body, &encoded); err != nil { return nil, fmt.Errorf("unmarshal encode response: %w", err) } return encoded.Tokens, nil } type DetokenizeRequest struct { Tokens []int `json:"tokens"` } type DetokenizeResponse struct { Content string `json:"content"` } func (s *llmServer) Detokenize(ctx context.Context, tokens []int) (string, error) { // Make sure the server is ready status, err := s.getServerStatus(ctx) if err != nil { return "", err } else if status != ServerStatusReady && status != ServerStatusNoSlotsAvailable { return "", fmt.Errorf("unexpected server status: %s", status.ToString()) } data, err := json.Marshal(DetokenizeRequest{Tokens: tokens}) if err != nil { return "", fmt.Errorf("marshaling decode data: %w", err) } req, err := http.NewRequestWithContext(ctx, http.MethodPost, fmt.Sprintf("http://127.0.0.1:%d/detokenize", s.port), bytes.NewBuffer(data)) if err != nil { return "", fmt.Errorf("decode request: %w", err) } req.Header.Set("Content-Type", "application/json") resp, err := http.DefaultClient.Do(req) if err != nil { return "", fmt.Errorf("do decode request: %w", err) } defer resp.Body.Close() body, err := io.ReadAll(resp.Body) if err != nil { return "", fmt.Errorf("read decode request: %w", err) } if resp.StatusCode >= 400 { log.Printf("llm decode error: %s", body) return "", fmt.Errorf("%s", body) } var decoded DetokenizeResponse if err := json.Unmarshal(body, &decoded); err != nil { return "", fmt.Errorf("unmarshal encode response: %w", err) } return decoded.Content, nil } func (s *llmServer) Close() error { if s.cmd != nil { slog.Debug("stopping llama server") if err := s.cmd.Process.Kill(); err != nil { return err } // if ProcessState is already populated, Wait already completed, no need to wait again if s.cmd.ProcessState == nil { slog.Debug("waiting for llama server to exit") <-s.done } slog.Debug("llama server stopped") } return nil } func (s *llmServer) EstimatedVRAM() uint64 { return s.estimate.VRAMSize } func (s *llmServer) EstimatedTotal() uint64 { return s.estimate.TotalSize } func (s *llmServer) EstimatedVRAMByGPU(gpuID string) uint64 { for i, gpu := range s.gpus { if gpu.ID == gpuID { return s.estimate.GPUSizes[i] } } return 0 } func parseDurationMs(ms float64) time.Duration { dur, err := time.ParseDuration(fmt.Sprintf("%fms", ms)) if err != nil { panic(err) } return dur }