cc-backend/internal/graph/schema.resolvers.go

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package graph
// This file will be automatically regenerated based on the schema, any resolver implementations
// will be copied through when generating and any unknown code will be moved to the end.
// Code generated by github.com/99designs/gqlgen version v0.17.49
import (
"context"
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"errors"
"fmt"
"regexp"
"slices"
"strconv"
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"strings"
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"time"
"github.com/ClusterCockpit/cc-backend/internal/config"
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"github.com/ClusterCockpit/cc-backend/internal/graph/generated"
"github.com/ClusterCockpit/cc-backend/internal/graph/model"
"github.com/ClusterCockpit/cc-backend/internal/metricDataDispatcher"
"github.com/ClusterCockpit/cc-backend/internal/repository"
"github.com/ClusterCockpit/cc-backend/pkg/archive"
"github.com/ClusterCockpit/cc-backend/pkg/log"
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"github.com/ClusterCockpit/cc-backend/pkg/schema"
)
// Partitions is the resolver for the partitions field.
func (r *clusterResolver) Partitions(ctx context.Context, obj *schema.Cluster) ([]string, error) {
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return r.Repo.Partitions(obj.Name)
}
// Tags is the resolver for the tags field.
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func (r *jobResolver) Tags(ctx context.Context, obj *schema.Job) ([]*schema.Tag, error) {
return r.Repo.GetTags(ctx, &obj.ID)
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}
// ConcurrentJobs is the resolver for the concurrentJobs field.
func (r *jobResolver) ConcurrentJobs(ctx context.Context, obj *schema.Job) (*model.JobLinkResultList, error) {
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if obj.State == schema.JobStateRunning {
obj.Duration = int32(time.Now().Unix() - obj.StartTimeUnix)
}
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if obj.Exclusive != 1 && obj.Duration > 600 {
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return r.Repo.FindConcurrentJobs(ctx, obj)
}
return nil, nil
}
// Footprint is the resolver for the footprint field.
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func (r *jobResolver) Footprint(ctx context.Context, obj *schema.Job) ([]*model.FootprintValue, error) {
rawFootprint, err := r.Repo.FetchFootprint(obj)
if err != nil {
log.Warn("Error while fetching job footprint data")
return nil, err
}
res := []*model.FootprintValue{}
for name, value := range rawFootprint {
parts := strings.Split(name, "_")
statPart := parts[len(parts)-1]
nameParts := parts[:len(parts)-1]
res = append(res, &model.FootprintValue{
Name: strings.Join(nameParts, "_"),
Stat: statPart,
Value: value,
})
}
return res, err
}
// EnergyFootprint is the resolver for the energyFootprint field.
func (r *jobResolver) EnergyFootprint(ctx context.Context, obj *schema.Job) ([]*model.EnergyFootprintValue, error) {
rawEnergyFootprint, err := r.Repo.FetchEnergyFootprint(obj)
if err != nil {
log.Warn("Error while fetching job energy footprint data")
return nil, err
}
res := []*model.EnergyFootprintValue{}
for name, value := range rawEnergyFootprint {
// Suboptimal: Nearly hardcoded metric name expectations
matchCpu := regexp.MustCompile(`cpu|Cpu|CPU`)
matchAcc := regexp.MustCompile(`acc|Acc|ACC`)
matchMem := regexp.MustCompile(`mem|Mem|MEM`)
matchCore := regexp.MustCompile(`core|Core|CORE`)
hwType := ""
switch test := name; { // NOtice ';' for var declaration
case matchCpu.MatchString(test):
hwType = "CPU"
case matchAcc.MatchString(test):
hwType = "Accelerator"
case matchMem.MatchString(test):
hwType = "Memory"
case matchCore.MatchString(test):
hwType = "Core"
default:
hwType = "Hardware"
}
res = append(res, &model.EnergyFootprintValue{
Hardware: hwType,
Metric: name,
Value: value,
})
}
return res, err
}
// MetaData is the resolver for the metaData field.
func (r *jobResolver) MetaData(ctx context.Context, obj *schema.Job) (any, error) {
return r.Repo.FetchMetadata(obj)
}
// UserData is the resolver for the userData field.
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func (r *jobResolver) UserData(ctx context.Context, obj *schema.Job) (*model.User, error) {
return repository.GetUserRepository().FetchUserInCtx(ctx, obj.User)
}
// Name is the resolver for the name field.
func (r *metricValueResolver) Name(ctx context.Context, obj *schema.MetricValue) (*string, error) {
panic(fmt.Errorf("not implemented: Name - name"))
}
// CreateTag is the resolver for the createTag field.
func (r *mutationResolver) CreateTag(ctx context.Context, typeArg string, name string, scope string) (*schema.Tag, error) {
id, err := r.Repo.CreateTag(typeArg, name, scope)
if err != nil {
log.Warn("Error while creating tag")
return nil, err
}
return &schema.Tag{ID: id, Type: typeArg, Name: name, Scope: scope}, nil
}
// DeleteTag is the resolver for the deleteTag field.
func (r *mutationResolver) DeleteTag(ctx context.Context, id string) (string, error) {
panic(fmt.Errorf("not implemented: DeleteTag - deleteTag"))
}
// AddTagsToJob is the resolver for the addTagsToJob field.
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func (r *mutationResolver) AddTagsToJob(ctx context.Context, job string, tagIds []string) ([]*schema.Tag, error) {
// Selectable Tags Pre-Filtered by Scope in Frontend: No backend check required
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jid, err := strconv.ParseInt(job, 10, 64)
if err != nil {
log.Warn("Error while adding tag to job")
return nil, err
}
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tags := []*schema.Tag{}
for _, tagId := range tagIds {
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tid, err := strconv.ParseInt(tagId, 10, 64)
if err != nil {
log.Warn("Error while parsing tag id")
return nil, err
}
if tags, err = r.Repo.AddTag(ctx, jid, tid); err != nil {
log.Warn("Error while adding tag")
return nil, err
}
}
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return tags, nil
}
// RemoveTagsFromJob is the resolver for the removeTagsFromJob field.
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func (r *mutationResolver) RemoveTagsFromJob(ctx context.Context, job string, tagIds []string) ([]*schema.Tag, error) {
// Removable Tags Pre-Filtered by Scope in Frontend: No backend check required
jid, err := strconv.ParseInt(job, 10, 64)
if err != nil {
log.Warn("Error while parsing job id")
return nil, err
}
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tags := []*schema.Tag{}
for _, tagId := range tagIds {
tid, err := strconv.ParseInt(tagId, 10, 64)
if err != nil {
log.Warn("Error while parsing tag id")
return nil, err
}
if tags, err = r.Repo.RemoveTag(ctx, jid, tid); err != nil {
log.Warn("Error while removing tag")
return nil, err
}
}
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return tags, nil
}
// UpdateConfiguration is the resolver for the updateConfiguration field.
func (r *mutationResolver) UpdateConfiguration(ctx context.Context, name string, value string) (*string, error) {
if err := repository.GetUserCfgRepo().UpdateConfig(name, value, repository.GetUserFromContext(ctx)); err != nil {
log.Warn("Error while updating user config")
return nil, err
}
return nil, nil
}
// Clusters is the resolver for the clusters field.
func (r *queryResolver) Clusters(ctx context.Context) ([]*schema.Cluster, error) {
return archive.Clusters, nil
}
// Tags is the resolver for the tags field.
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func (r *queryResolver) Tags(ctx context.Context) ([]*schema.Tag, error) {
return r.Repo.GetTags(ctx, nil)
}
// GlobalMetrics is the resolver for the globalMetrics field.
func (r *queryResolver) GlobalMetrics(ctx context.Context) ([]*schema.GlobalMetricListItem, error) {
return archive.GlobalMetricList, nil
}
// User is the resolver for the user field.
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func (r *queryResolver) User(ctx context.Context, username string) (*model.User, error) {
return repository.GetUserRepository().FetchUserInCtx(ctx, username)
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}
// AllocatedNodes is the resolver for the allocatedNodes field.
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func (r *queryResolver) AllocatedNodes(ctx context.Context, cluster string) ([]*model.Count, error) {
data, err := r.Repo.AllocatedNodes(cluster)
if err != nil {
log.Warn("Error while fetching allocated nodes")
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return nil, err
}
counts := make([]*model.Count, 0, len(data))
for subcluster, hosts := range data {
counts = append(counts, &model.Count{
Name: subcluster,
Count: len(hosts),
})
}
return counts, nil
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}
// Job is the resolver for the job field.
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func (r *queryResolver) Job(ctx context.Context, id string) (*schema.Job, error) {
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numericId, err := strconv.ParseInt(id, 10, 64)
if err != nil {
log.Warn("Error while parsing job id")
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return nil, err
}
job, err := r.Repo.FindById(ctx, numericId)
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if err != nil {
log.Warn("Error while finding job by id")
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return nil, err
}
if user := repository.GetUserFromContext(ctx); user != nil &&
job.User != user.Username &&
user.HasNotRoles([]schema.Role{schema.RoleAdmin, schema.RoleSupport, schema.RoleManager}) {
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return nil, errors.New("you are not allowed to see this job")
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}
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return job, nil
}
// JobMetrics is the resolver for the jobMetrics field.
func (r *queryResolver) JobMetrics(ctx context.Context, id string, metrics []string, scopes []schema.MetricScope, resolution *int) ([]*model.JobMetricWithName, error) {
if resolution == nil && config.Keys.EnableResampling != nil {
defaultRes := slices.Max(config.Keys.EnableResampling.Resolutions)
resolution = &defaultRes
}
job, err := r.Query().Job(ctx, id)
if err != nil {
log.Warn("Error while querying job for metrics")
return nil, err
}
data, err := metricDataDispatcher.LoadData(job, metrics, scopes, ctx, *resolution)
if err != nil {
log.Warn("Error while loading job data")
return nil, err
}
res := []*model.JobMetricWithName{}
for name, md := range data {
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for scope, metric := range md {
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res = append(res, &model.JobMetricWithName{
Name: name,
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Scope: scope,
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Metric: metric,
})
}
}
return res, err
}
// JobsFootprints is the resolver for the jobsFootprints field.
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func (r *queryResolver) JobsFootprints(ctx context.Context, filter []*model.JobFilter, metrics []string) (*model.Footprints, error) {
return r.jobsFootprints(ctx, filter, metrics)
}
// Jobs is the resolver for the jobs field.
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func (r *queryResolver) Jobs(ctx context.Context, filter []*model.JobFilter, page *model.PageRequest, order *model.OrderByInput) (*model.JobResultList, error) {
if page == nil {
page = &model.PageRequest{
ItemsPerPage: 50,
Page: 1,
}
}
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jobs, err := r.Repo.QueryJobs(ctx, filter, page, order)
if err != nil {
log.Warn("Error while querying jobs")
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return nil, err
}
count, err := r.Repo.CountJobs(ctx, filter)
if err != nil {
log.Warn("Error while counting jobs")
return nil, err
}
if !config.Keys.UiDefaults["job_list_usePaging"].(bool) {
hasNextPage := false
// page.Page += 1 : Simple, but expensive
// Example Page 4 @ 10 IpP : Does item 41 exist?
// Minimal Page 41 @ 1 IpP : If len(result) is 1, Page 5 @ 10 IpP exists.
nextPage := &model.PageRequest{
ItemsPerPage: 1,
Page: ((page.Page * page.ItemsPerPage) + 1),
}
nextJobs, err := r.Repo.QueryJobs(ctx, filter, nextPage, order)
if err != nil {
log.Warn("Error while querying next jobs")
return nil, err
}
if len(nextJobs) == 1 {
hasNextPage = true
}
return &model.JobResultList{Items: jobs, Count: &count, HasNextPage: &hasNextPage}, nil
} else {
return &model.JobResultList{Items: jobs, Count: &count}, nil
}
}
// JobsStatistics is the resolver for the jobsStatistics field.
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func (r *queryResolver) JobsStatistics(ctx context.Context, filter []*model.JobFilter, metrics []string, page *model.PageRequest, sortBy *model.SortByAggregate, groupBy *model.Aggregate) ([]*model.JobsStatistics, error) {
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var err error
var stats []*model.JobsStatistics
if requireField(ctx, "totalJobs") || requireField(ctx, "totalWalltime") || requireField(ctx, "totalNodes") || requireField(ctx, "totalCores") ||
requireField(ctx, "totalAccs") || requireField(ctx, "totalNodeHours") || requireField(ctx, "totalCoreHours") || requireField(ctx, "totalAccHours") {
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if groupBy == nil {
stats, err = r.Repo.JobsStats(ctx, filter)
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} else {
stats, err = r.Repo.JobsStatsGrouped(ctx, filter, page, sortBy, groupBy)
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}
} else {
stats = make([]*model.JobsStatistics, 0, 1)
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stats = append(stats, &model.JobsStatistics{})
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}
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if groupBy != nil {
if requireField(ctx, "shortJobs") {
stats, err = r.Repo.AddJobCountGrouped(ctx, filter, groupBy, stats, "short")
}
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if requireField(ctx, "runningJobs") {
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stats, err = r.Repo.AddJobCountGrouped(ctx, filter, groupBy, stats, "running")
}
} else {
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if requireField(ctx, "shortJobs") {
stats, err = r.Repo.AddJobCount(ctx, filter, stats, "short")
}
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if requireField(ctx, "runningJobs") {
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stats, err = r.Repo.AddJobCount(ctx, filter, stats, "running")
}
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}
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if err != nil {
return nil, err
}
if requireField(ctx, "histDuration") || requireField(ctx, "histNumNodes") || requireField(ctx, "histNumCores") || requireField(ctx, "histNumAccs") {
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if groupBy == nil {
stats[0], err = r.Repo.AddHistograms(ctx, filter, stats[0])
if err != nil {
return nil, err
}
} else {
return nil, errors.New("histograms only implemented without groupBy argument")
}
}
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if requireField(ctx, "histMetrics") {
if groupBy == nil {
stats[0], err = r.Repo.AddMetricHistograms(ctx, filter, metrics, stats[0])
if err != nil {
return nil, err
}
} else {
return nil, errors.New("metric histograms only implemented without groupBy argument")
}
}
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return stats, nil
}
// RooflineHeatmap is the resolver for the rooflineHeatmap field.
func (r *queryResolver) RooflineHeatmap(ctx context.Context, filter []*model.JobFilter, rows int, cols int, minX float64, minY float64, maxX float64, maxY float64) ([][]float64, error) {
return r.rooflineHeatmap(ctx, filter, rows, cols, minX, minY, maxX, maxY)
}
// NodeMetrics is the resolver for the nodeMetrics field.
func (r *queryResolver) NodeMetrics(ctx context.Context, cluster string, nodes []string, scopes []schema.MetricScope, metrics []string, from time.Time, to time.Time) ([]*model.NodeMetrics, error) {
user := repository.GetUserFromContext(ctx)
if user != nil && !user.HasRole(schema.RoleAdmin) {
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return nil, errors.New("you need to be an administrator for this query")
}
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if metrics == nil {
for _, mc := range archive.GetCluster(cluster).MetricConfig {
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metrics = append(metrics, mc.Name)
}
}
data, err := metricDataDispatcher.LoadNodeData(cluster, metrics, nodes, scopes, from, to, ctx)
if err != nil {
log.Warn("Error while loading node data")
return nil, err
}
nodeMetrics := make([]*model.NodeMetrics, 0, len(data))
for hostname, metrics := range data {
host := &model.NodeMetrics{
Host: hostname,
Metrics: make([]*model.JobMetricWithName, 0, len(metrics)*len(scopes)),
}
host.SubCluster, _ = archive.GetSubClusterByNode(cluster, hostname)
for metric, scopedMetrics := range metrics {
for _, scopedMetric := range scopedMetrics {
host.Metrics = append(host.Metrics, &model.JobMetricWithName{
Name: metric,
Scope: schema.MetricScopeNode,
Metric: scopedMetric,
})
}
}
nodeMetrics = append(nodeMetrics, host)
}
return nodeMetrics, nil
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}
// NumberOfNodes is the resolver for the numberOfNodes field.
func (r *subClusterResolver) NumberOfNodes(ctx context.Context, obj *schema.SubCluster) (int, error) {
nodeList, err := archive.ParseNodeList(obj.Nodes)
if err != nil {
return 0, err
}
return nodeList.NodeCount(), nil
}
// Cluster returns generated.ClusterResolver implementation.
func (r *Resolver) Cluster() generated.ClusterResolver { return &clusterResolver{r} }
// Job returns generated.JobResolver implementation.
func (r *Resolver) Job() generated.JobResolver { return &jobResolver{r} }
// MetricValue returns generated.MetricValueResolver implementation.
func (r *Resolver) MetricValue() generated.MetricValueResolver { return &metricValueResolver{r} }
// Mutation returns generated.MutationResolver implementation.
func (r *Resolver) Mutation() generated.MutationResolver { return &mutationResolver{r} }
// Query returns generated.QueryResolver implementation.
func (r *Resolver) Query() generated.QueryResolver { return &queryResolver{r} }
// SubCluster returns generated.SubClusterResolver implementation.
func (r *Resolver) SubCluster() generated.SubClusterResolver { return &subClusterResolver{r} }
type clusterResolver struct{ *Resolver }
type jobResolver struct{ *Resolver }
type metricValueResolver struct{ *Resolver }
type mutationResolver struct{ *Resolver }
type queryResolver struct{ *Resolver }
type subClusterResolver struct{ *Resolver }