package graph import ( "errors" "fmt" "regexp" "strings" "github.com/ClusterCockpit/cc-jobarchive/graph/model" sq "github.com/Masterminds/squirrel" "github.com/jmoiron/sqlx" ) // This file will not be regenerated automatically. // // It serves as dependency injection for your app, add any dependencies you require here. type Resolver struct { DB *sqlx.DB ClusterConfigs []*model.Cluster } var jobTableCols []string = []string{"id", "job_id", "user_id", "project_id", "cluster_id", "start_time", "duration", "job_state", "num_nodes", "node_list", "flops_any_avg", "mem_bw_avg", "net_bw_avg", "file_bw_avg", "load_avg"} type Scannable interface { Scan(dest ...interface{}) error } // Helper function for scanning jobs with the `jobTableCols` columns selected. func scanJob(row Scannable) (*model.Job, error) { job := &model.Job{HasProfile: true} var nodeList string if err := row.Scan( &job.ID, &job.JobID, &job.UserID, &job.ProjectID, &job.ClusterID, &job.StartTime, &job.Duration, &job.State, &job.NumNodes, &nodeList, &job.FlopsAnyAvg, &job.MemBwAvg, &job.NetBwAvg, &job.FileBwAvg, &job.LoadAvg); err != nil { return nil, err } job.Nodes = strings.Split(nodeList, ",") return job, nil } // Helper function for the `jobs` GraphQL-Query. Is also used elsewhere when a list of jobs is needed. func (r *Resolver) queryJobs(filters []*model.JobFilter, page *model.PageRequest, order *model.OrderByInput) ([]*model.Job, int, error) { query := sq.Select(jobTableCols...).From("job") if order != nil { field := toSnakeCase(order.Field) if order.Order == model.SortDirectionEnumAsc { query = query.OrderBy(fmt.Sprintf("job.%s ASC", field)) } else if order.Order == model.SortDirectionEnumDesc { query = query.OrderBy(fmt.Sprintf("job.%s DESC", field)) } else { return nil, 0, errors.New("invalid sorting order") } } if page != nil { limit := uint64(page.ItemsPerPage) query = query.Offset((uint64(page.Page) - 1) * limit).Limit(limit) } else { query = query.Limit(50) } for _, f := range filters { query = buildWhereClause(f, query) } rows, err := query.RunWith(r.DB).Query() if err != nil { return nil, 0, err } defer rows.Close() jobs := make([]*model.Job, 0, 50) for rows.Next() { job, err := scanJob(rows) if err != nil { return nil, 0, err } jobs = append(jobs, job) } query = sq.Select("count(*)").From("job") for _, f := range filters { query = buildWhereClause(f, query) } rows, err = query.RunWith(r.DB).Query() if err != nil { return nil, 0, err } defer rows.Close() var count int rows.Next() if err := rows.Scan(&count); err != nil { return nil, 0, err } return jobs, count, nil } // Build a sq.SelectBuilder out of a model.JobFilter. func buildWhereClause(filter *model.JobFilter, query sq.SelectBuilder) sq.SelectBuilder { if filter.Tags != nil { query = query.Join("jobtag ON jobtag.job_id = job.id").Where("jobtag.tag_id IN ?", filter.Tags) } if filter.JobID != nil { query = buildStringCondition("job.job_id", filter.JobID, query) } if filter.UserID != nil { query = buildStringCondition("job.user_id", filter.UserID, query) } if filter.ProjectID != nil { query = buildStringCondition("job.project_id", filter.ProjectID, query) } if filter.ClusterID != nil { query = buildStringCondition("job.cluster_id", filter.ClusterID, query) } if filter.StartTime != nil { query = buildTimeCondition("job.start_time", filter.StartTime, query) } if filter.Duration != nil { query = buildIntCondition("job.duration", filter.Duration, query) } if filter.IsRunning != nil { if *filter.IsRunning { query = query.Where("job.job_state = 'running'") } else { query = query.Where("job.job_state = 'completed'") } } if filter.NumNodes != nil { query = buildIntCondition("job.num_nodes", filter.NumNodes, query) } if filter.FlopsAnyAvg != nil { query = buildFloatCondition("job.flops_any_avg", filter.FlopsAnyAvg, query) } if filter.MemBwAvg != nil { query = buildFloatCondition("job.mem_bw_avg", filter.MemBwAvg, query) } if filter.LoadAvg != nil { query = buildFloatCondition("job.load_avg", filter.LoadAvg, query) } if filter.MemUsedMax != nil { query = buildFloatCondition("job.mem_used_max", filter.MemUsedMax, query) } return query } func buildIntCondition(field string, cond *model.IntRange, query sq.SelectBuilder) sq.SelectBuilder { return query.Where(field+" BETWEEN ? AND ?", cond.From, cond.To) } func buildTimeCondition(field string, cond *model.TimeRange, query sq.SelectBuilder) sq.SelectBuilder { if cond.From != nil && cond.To != nil { return query.Where(field+" BETWEEN ? AND ?", cond.From.Unix(), cond.To.Unix()) } else if cond.From != nil { return query.Where("? <= "+field, cond.From.Unix()) } else if cond.To != nil { return query.Where(field+" <= ?", cond.To.Unix()) } else { return query } } func buildFloatCondition(field string, cond *model.FloatRange, query sq.SelectBuilder) sq.SelectBuilder { return query.Where(field+" BETWEEN ? AND ?", cond.From, cond.To) } func buildStringCondition(field string, cond *model.StringInput, query sq.SelectBuilder) sq.SelectBuilder { if cond.Eq != nil { return query.Where(field+" = ?", *cond.Eq) } if cond.StartsWith != nil { return query.Where(field+"LIKE ?", fmt.Sprint(*cond.StartsWith, "%")) } if cond.EndsWith != nil { return query.Where(field+"LIKE ?", fmt.Sprint("%", *cond.StartsWith)) } if cond.Contains != nil { return query.Where(field+"LIKE ?", fmt.Sprint("%", *cond.StartsWith, "%")) } return query } func toSnakeCase(str string) string { matchFirstCap := regexp.MustCompile("(.)([A-Z][a-z]+)") matchAllCap := regexp.MustCompile("([a-z0-9])([A-Z])") snake := matchFirstCap.ReplaceAllString(str, "${1}_${2}") snake = matchAllCap.ReplaceAllString(snake, "${1}_${2}") return strings.ToLower(snake) }