package influxdb
import (
"context"
"encoding/json"
"errors"
"fmt"
"strconv"
"time"
"github.com/influxdata/flux"
"github.com/influxdata/flux/ast"
"github.com/influxdata/flux/ast/edit"
"github.com/influxdata/flux/parser"
"github.com/influxdata/influxdb/task/options"
)
const (
TaskDefaultPageSize = 100
TaskMaxPageSize = 500
TaskStatusActive = "active"
TaskStatusInactive = "inactive"
)
// Task is a task. 🎊
type Task struct {
ID ID `json:"id"`
OrganizationID ID `json:"orgID"`
Organization string `json:"org"`
AuthorizationID ID `json:"authorizationID"`
Name string `json:"name"`
Status string `json:"status"`
Flux string `json:"flux"`
Every string `json:"every,omitempty"`
Cron string `json:"cron,omitempty"`
Offset string `json:"offset,omitempty"`
LatestCompleted string `json:"latestCompleted,omitempty"`
CreatedAt string `json:"createdAt,omitempty"`
UpdatedAt string `json:"updatedAt,omitempty"`
}
// Run is a record created when a run of a task is scheduled.
type Run struct {
ID ID `json:"id,omitempty"`
TaskID ID `json:"taskID"`
Status string `json:"status"`
ScheduledFor string `json:"scheduledFor"`
StartedAt string `json:"startedAt,omitempty"`
FinishedAt string `json:"finishedAt,omitempty"`
RequestedAt string `json:"requestedAt,omitempty"`
Log []Log `json:"log"`
}
// Log represents a link to a log resource
type Log struct {
Time string `json:"time"`
Message string `json:"message"`
}
func (l Log) String() string {
return l.Time + ": " + l.Message
}
// TaskService represents a service for managing one-off and recurring tasks.
type TaskService interface {
// FindTaskByID returns a single task
FindTaskByID(ctx context.Context, id ID) (*Task, error)
// FindTasks returns a list of tasks that match a filter (limit 100) and the total count
// of matching tasks.
FindTasks(ctx context.Context, filter TaskFilter) ([]*Task, int, error)
// CreateTask creates a new task.
// The owner of the task is inferred from the authorizer associated with ctx.
CreateTask(ctx context.Context, t TaskCreate) (*Task, error)
// UpdateTask updates a single task with changeset.
UpdateTask(ctx context.Context, id ID, upd TaskUpdate) (*Task, error)
// DeleteTask removes a task by ID and purges all associated data and scheduled runs.
DeleteTask(ctx context.Context, id ID) error
// FindLogs returns logs for a run.
FindLogs(ctx context.Context, filter LogFilter) ([]*Log, int, error)
// FindRuns returns a list of runs that match a filter and the total count of returned runs.
FindRuns(ctx context.Context, filter RunFilter) ([]*Run, int, error)
// FindRunByID returns a single run.
FindRunByID(ctx context.Context, taskID, runID ID) (*Run, error)
// CancelRun cancels a currently running run.
CancelRun(ctx context.Context, taskID, runID ID) error
// RetryRun creates and returns a new run (which is a retry of another run).
RetryRun(ctx context.Context, taskID, runID ID) (*Run, error)
// ForceRun forces a run to occur with unix timestamp scheduledFor, to be executed as soon as possible.
// The value of scheduledFor may or may not align with the task's schedule.
ForceRun(ctx context.Context, taskID ID, scheduledFor int64) (*Run, error)
}
// TaskCreate is the set of values to create a task.
type TaskCreate struct {
Flux string `json:"flux"`
Status string `json:"status,omitempty"`
OrganizationID ID `json:"orgID,omitempty"`
Organization string `json:"org,omitempty"`
Token string `json:"token,omitempty"`
}
func (t TaskCreate) Validate() error {
switch {
case t.Flux == "":
return errors.New("missing flux")
case !t.OrganizationID.Valid() && t.Organization == "":
return errors.New("missing orgID and org")
case t.Status != "" && t.Status != TaskStatusActive && t.Status != TaskStatusInactive:
return fmt.Errorf("invalid task status: %q", t.Status)
}
return nil
}
// TaskUpdate represents updates to a task. Options updates override any options set in the Flux field.
type TaskUpdate struct {
Flux *string `json:"flux,omitempty"`
Status *string `json:"status,omitempty"`
// Options gets unmarshalled from json as if it was flat, with the same level as Flux and Status.
Options options.Options // when we unmarshal this gets unmarshalled from flat key-values
// Optional token override.
Token string `json:"token,omitempty"`
}
func (t *TaskUpdate) UnmarshalJSON(data []byte) error {
// this is a type so we can marshal string into durations nicely
jo := struct {
Flux *string `json:"flux,omitempty"`
Status *string `json:"status,omitempty"`
Name string `json:"name,omitempty"`
// Cron is a cron style time schedule that can be used in place of Every.
Cron string `json:"cron,omitempty"`
// Every represents a fixed period to repeat execution.
// It gets marshalled from a string duration, i.e.: "10s" is 10 seconds
Every flux.Duration `json:"every,omitempty"`
// Offset represents a delay before execution.
// It gets marshalled from a string duration, i.e.: "10s" is 10 seconds
Offset flux.Duration `json:"offset,omitempty"`
Concurrency int64 `json:"concurrency,omitempty"`
Retry int64 `json:"retry,omitempty"`
Token string `json:"token,omitempty"`
}{}
if err := json.Unmarshal(data, &jo); err != nil {
return err
}
t.Options.Name = jo.Name
t.Options.Cron = jo.Cron
t.Options.Every = time.Duration(jo.Every)
t.Options.Offset = time.Duration(jo.Offset)
t.Options.Concurrency = jo.Concurrency
t.Options.Retry = jo.Retry
t.Flux = jo.Flux
t.Status = jo.Status
t.Token = jo.Token
return nil
}
func (t TaskUpdate) MarshalJSON() ([]byte, error) {
jo := struct {
Flux *string `json:"flux,omitempty"`
Status *string `json:"status,omitempty"`
Name string `json:"name,omitempty"`
// Cron is a cron style time schedule that can be used in place of Every.
Cron string `json:"cron,omitempty"`
// Every represents a fixed period to repeat execution.
Every flux.Duration `json:"every,omitempty"`
// Offset represents a delay before execution.
Offset flux.Duration `json:"offset,omitempty"`
Concurrency int64 `json:"concurrency,omitempty"`
Retry int64 `json:"retry,omitempty"`
Token string `json:"token,omitempty"`
}{}
jo.Name = t.Options.Name
jo.Cron = t.Options.Cron
jo.Every = flux.Duration(t.Options.Every)
jo.Offset = flux.Duration(t.Options.Offset)
jo.Concurrency = t.Options.Concurrency
jo.Retry = t.Options.Retry
jo.Flux = t.Flux
jo.Status = t.Status
jo.Token = t.Token
return json.Marshal(jo)
}
func (t TaskUpdate) Validate() error {
switch {
case t.Options.Every != 0 && t.Options.Cron != "":
return errors.New("cannot specify both every and cron")
case t.Flux == nil && t.Status == nil && t.Options.IsZero() && t.Token == "":
return errors.New("cannot update task without content")
case t.Status != nil && *t.Status != TaskStatusActive && *t.Status != TaskStatusInactive:
return fmt.Errorf("invalid task status: %q", *t.Status)
}
return nil
}
// UpdateFlux updates the TaskUpdate to go from updating options to updating a flux string, that now has those updated options in it
// It zeros the options in the TaskUpdate.
func (t *TaskUpdate) UpdateFlux(oldFlux string) error {
if t.Flux != nil && *t.Flux != "" {
oldFlux = *t.Flux
}
parsedPKG := parser.ParseSource(oldFlux)
if ast.Check(parsedPKG) > 0 {
return ast.GetError(parsedPKG)
}
parsed := parsedPKG.Files[0]
if t.Options.Every != 0 && t.Options.Cron != "" {
return errors.New("cannot specify both every and cron")
}
op := make(map[string]ast.Expression, 4)
if t.Options.Name != "" {
op["name"] = &ast.StringLiteral{Value: t.Options.Name}
}
if t.Options.Every != 0 {
d := ast.Duration{Magnitude: int64(t.Options.Every), Unit: "ns"}
op["every"] = &ast.DurationLiteral{Values: []ast.Duration{d}}
}
if t.Options.Cron != "" {
op["cron"] = &ast.StringLiteral{Value: t.Options.Cron}
}
if t.Options.Offset != 0 {
d := ast.Duration{Magnitude: int64(t.Options.Offset), Unit: "ns"}
op["offset"] = &ast.DurationLiteral{Values: []ast.Duration{d}}
}
if len(op) > 0 {
editFunc := func(opt *ast.OptionStatement) (ast.Expression, error) {
a, ok := opt.Assignment.(*ast.VariableAssignment)
if !ok {
return nil, errors.New("option assignment must be variable assignment")
}
obj, ok := a.Init.(*ast.ObjectExpression)
if !ok {
return nil, fmt.Errorf("value is is %s, not an object expression", a.Init.Type())
}
// modify in the keys and values that already are in the ast
for _, p := range obj.Properties {
k := p.Key.Key()
switch k {
case "name":
if name, ok := op["name"]; ok && t.Options.Name != "" {
delete(op, "name")
p.Value = name
}
case "offset":
if offset, ok := op["offset"]; ok && t.Options.Offset != 0 {
delete(op, "offset")
p.Value = offset
}
case "every":
if every, ok := op["every"]; ok && t.Options.Every != 0 {
delete(op, "every")
p.Value = every
} else if cron, ok := op["cron"]; ok && t.Options.Cron != "" {
delete(op, "cron")
p.Value = cron
p.Key = &ast.Identifier{Name: "cron"}
}
case "cron":
if cron, ok := op["cron"]; ok && t.Options.Cron != "" {
delete(op, "cron")
p.Value = cron
} else if every, ok := op["every"]; ok && t.Options.Every != 0 {
delete(op, "every")
p.Key = &ast.Identifier{Name: "every"}
p.Value = every
}
}
}
// add in new keys and values to the ast
for k := range op {
obj.Properties = append(obj.Properties, &ast.Property{
Key: &ast.Identifier{Name: k},
Value: op[k],
})
}
return nil, nil
}
ok, err := edit.Option(parsed, "task", editFunc)
if err != nil {
return err
}
if !ok {
return errors.New("unable to edit option")
}
t.Options.Clear()
s := ast.Format(parsed)
t.Flux = &s
}
return nil
}
// TaskFilter represents a set of filters that restrict the returned results
type TaskFilter struct {
After *ID
OrganizationID *ID
Organization string
User *ID
Limit int
}
// QueryParams Converts TaskFilter fields to url query params.
func (f TaskFilter) QueryParams() map[string][]string {
qp := map[string][]string{}
if f.After != nil {
qp["after"] = []string{f.After.String()}
}
if f.OrganizationID != nil {
qp["orgID"] = []string{f.OrganizationID.String()}
}
if f.Organization != "" {
qp["org"] = []string{f.Organization}
}
if f.User != nil {
qp["user"] = []string{f.User.String()}
}
if f.Limit > 0 {
qp["limit"] = []string{strconv.Itoa(f.Limit)}
}
return qp
}
// RunFilter represents a set of filters that restrict the returned results
type RunFilter struct {
// Task ID is required for listing runs.
Task ID
After *ID
Limit int
AfterTime string
BeforeTime string
}
// LogFilter represents a set of filters that restrict the returned log results.
type LogFilter struct {
// Task ID is required.
Task ID
// The optional Run ID limits logs to a single run.
Run *ID
}