// Copyright 2022 Woodpecker Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package docker import ( "encoding/base64" "encoding/json" "maps" "regexp" "strings" "github.com/docker/docker/api/types/container" "go.woodpecker-ci.org/woodpecker/v2/pipeline/backend/common" "go.woodpecker-ci.org/woodpecker/v2/pipeline/backend/types" ) // Valid container volumes must have at least two components, source and destination. const minVolumeComponents = 2 // returns a container configuration. func (e *docker) toConfig(step *types.Step) *container.Config { config := &container.Config{ Image: step.Image, Labels: map[string]string{ "wp_uuid": step.UUID, "wp_step": step.Name, }, WorkingDir: step.WorkingDir, AttachStdout: true, AttachStderr: true, Volumes: toVol(step.Volumes), } configEnv := make(map[string]string) maps.Copy(configEnv, step.Environment) if len(step.Commands) > 0 { env, entry := common.GenerateContainerConf(step.Commands, e.info.OSType, step.WorkingDir) for k, v := range env { configEnv[k] = v } config.Entrypoint = entry // step.WorkingDir will be respected by the generated script config.WorkingDir = step.WorkspaceBase } if len(step.Entrypoint) > 0 { config.Entrypoint = step.Entrypoint } if len(configEnv) != 0 { config.Env = toEnv(configEnv) } return config } func toContainerName(step *types.Step) string { return "wp_" + step.UUID } // returns a container host configuration. func toHostConfig(step *types.Step, conf *config) *container.HostConfig { config := &container.HostConfig{ Resources: container.Resources{ CPUQuota: conf.resourceLimit.CPUQuota, CPUShares: conf.resourceLimit.CPUShares, CpusetCpus: conf.resourceLimit.CPUSet, Memory: conf.resourceLimit.MemLimit, MemorySwap: conf.resourceLimit.MemSwapLimit, }, ShmSize: conf.resourceLimit.ShmSize, LogConfig: container.LogConfig{ Type: "json-file", }, Privileged: step.Privileged, } if len(step.NetworkMode) != 0 { config.NetworkMode = container.NetworkMode(step.NetworkMode) } if len(step.DNS) != 0 { config.DNS = step.DNS } if len(step.DNSSearch) != 0 { config.DNSSearch = step.DNSSearch } extraHosts := []string{} for _, hostAlias := range step.ExtraHosts { extraHosts = append(extraHosts, hostAlias.Name+":"+hostAlias.IP) } if len(step.ExtraHosts) != 0 { config.ExtraHosts = extraHosts } if len(step.Devices) != 0 { config.Devices = toDev(step.Devices) } if len(step.Volumes) != 0 { config.Binds = step.Volumes } config.Tmpfs = map[string]string{} for _, path := range step.Tmpfs { if !strings.Contains(path, ":") { config.Tmpfs[path] = "" continue } parts, err := splitVolumeParts(path) if err != nil { continue } config.Tmpfs[parts[0]] = parts[1] } return config } // helper function that converts a slice of volume paths to a set of // unique volume names. func toVol(paths []string) map[string]struct{} { if len(paths) == 0 { return nil } set := make(map[string]struct{}) for _, path := range paths { parts, err := splitVolumeParts(path) if err != nil { continue } if len(parts) < minVolumeComponents { continue } set[parts[1]] = struct{}{} } return set } // helper function that converts a key value map of environment variables to a // string slice in key=value format. func toEnv(env map[string]string) []string { var envs []string for k, v := range env { if k != "" { envs = append(envs, k+"="+v) } } return envs } // toDev converts a slice of volume paths to a set of device mappings for // use in a Docker container config. It handles splitting the volume paths // into host and container paths, and setting default permissions. func toDev(paths []string) []container.DeviceMapping { var devices []container.DeviceMapping for _, path := range paths { parts, err := splitVolumeParts(path) if err != nil { continue } if len(parts) < minVolumeComponents { continue } if strings.HasSuffix(parts[1], ":ro") || strings.HasSuffix(parts[1], ":rw") { parts[1] = parts[1][:len(parts[1])-1] } devices = append(devices, container.DeviceMapping{ PathOnHost: parts[0], PathInContainer: parts[1], CgroupPermissions: "rwm", }) } return devices } // helper function that serializes the auth configuration as JSON // base64 payload. func encodeAuthToBase64(authConfig types.Auth) (string, error) { buf, err := json.Marshal(authConfig) if err != nil { return "", err } return base64.URLEncoding.EncodeToString(buf), nil } // splitVolumeParts splits a volume string into its constituent parts. // // The parts are: // // 1. The path on the host machine // 2. The path inside the container // 3. The read/write mode // // It handles Windows and Linux style volume paths. func splitVolumeParts(volumeParts string) ([]string, error) { // cspell:disable-next-line pattern := `^((?:[\w]\:)?[^\:]*)\:((?:[\w]\:)?[^\:]*)(?:\:([rwom]*))?` r, err := regexp.Compile(pattern) if err != nil { return []string{}, err } if r.MatchString(volumeParts) { results := r.FindStringSubmatch(volumeParts)[1:] var cleanResults []string for _, item := range results { if item != "" { cleanResults = append(cleanResults, item) } } return cleanResults, nil } return strings.Split(volumeParts, ":"), nil }