sq/libsq/pipeline.go

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package libsq
import (
"context"
"fmt"
"github.com/samber/lo"
"github.com/neilotoole/sq/libsq/source"
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"github.com/neilotoole/sq/libsq/core/record"
"github.com/neilotoole/sq/libsq/core/options"
"github.com/neilotoole/sq/libsq/ast/render"
"github.com/neilotoole/sq/libsq/core/lg"
"github.com/neilotoole/sq/libsq/core/lg/lga"
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"github.com/neilotoole/sq/libsq/ast"
"github.com/neilotoole/sq/libsq/core/errz"
"github.com/neilotoole/sq/libsq/core/sqlmodel"
"github.com/neilotoole/sq/libsq/core/sqlz"
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"github.com/neilotoole/sq/libsq/driver"
"golang.org/x/sync/errgroup"
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)
// pipeline is used to execute a SLQ query,
// and write the resulting records to a RecordWriter.
type pipeline struct {
// query is the SLQ query
query string
// qc is the context in which the query is executed.
qc *QueryContext
// rc is the Context for rendering SQL.
// This field is set during pipeline.prepare. It can't be set before
// then because the target DB to use is calculated during pipeline.prepare,
// based on the input query and other context.
rc *render.Context
// tasks contains tasks that must be completed before targetSQL
// is executed against targetDB. Typically tasks is used to
// set up the joindb before it is queried.
tasks []tasker
// targetSQL is the ultimate SQL query to be executed against targetDB.
targetSQL string
// targetDB is the destination for the ultimate SQL query to
// be executed against.
targetDB driver.Database
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}
// newPipeline parses query, returning a pipeline prepared for
// execution via pipeline.execute.
func newPipeline(ctx context.Context, qc *QueryContext, query string) (*pipeline, error) {
log := lg.FromContext(ctx)
a, err := ast.Parse(log, query)
if err != nil {
return nil, err
}
qModel, err := buildQueryModel(qc, a)
if err != nil {
return nil, err
}
p := &pipeline{
qc: qc,
query: query,
}
if err = p.prepare(ctx, qModel); err != nil {
return nil, err
}
return p, nil
}
// execute executes the pipeline, writing results to recw.
func (p *pipeline) execute(ctx context.Context, recw RecordWriter) error {
lg.FromContext(ctx).Debug(
"Execute SQL query",
lga.Src, p.targetDB.Source(),
lga.SQL, p.targetSQL,
)
if err := p.executeTasks(ctx); err != nil {
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return err
}
return QuerySQL(ctx, p.targetDB, recw, p.targetSQL)
}
// executeTasks executes any tasks in pipeline.tasks.
// These tasks may exist if preparatory work must be performed
// before pipeline.targetSQL can be executed.
func (p *pipeline) executeTasks(ctx context.Context) error {
switch len(p.tasks) {
case 0:
return nil
case 1:
return p.tasks[0].executeTask(ctx)
default:
}
g, gCtx := errgroup.WithContext(ctx)
g.SetLimit(driver.OptTuningErrgroupLimit.Get(options.FromContext(ctx)))
for _, task := range p.tasks {
task := task
g.Go(func() error {
select {
case <-gCtx.Done():
return gCtx.Err()
default:
}
return task.executeTask(gCtx)
})
}
return g.Wait()
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}
// prepareNoTable is invoked when the queryModel doesn't have a table.
// That is to say, the query doesn't have a "FROM table" clause. It is
// this function's responsibility to figure out what source to use, and
// to set the relevant pipeline fields.
func (p *pipeline) prepareNoTable(ctx context.Context, qm *queryModel) error {
log := lg.FromContext(ctx)
log.Debug("No table in query; will look for source to use...")
var (
src *source.Source
err error
handle = ast.NewInspector(qm.AST).FindFirstHandle()
)
if handle == "" {
if src = p.qc.Collection.Active(); src == nil {
log.Debug("No active source, will use scratchdb.")
p.targetDB, err = p.qc.ScratchDBOpener.OpenScratch(ctx, "scratch")
if err != nil {
return err
}
p.rc = &render.Context{
Renderer: p.targetDB.SQLDriver().Renderer(),
Args: p.qc.Args,
Dialect: p.targetDB.SQLDriver().Dialect(),
}
return nil
}
log.Debug("Using active source.", lga.Src, src)
} else if src, err = p.qc.Collection.Get(handle); err != nil {
return err
}
// At this point, src is non-nil.
if p.targetDB, err = p.qc.DBOpener.Open(ctx, src); err != nil {
return err
}
p.rc = &render.Context{
Renderer: p.targetDB.SQLDriver().Renderer(),
Args: p.qc.Args,
Dialect: p.targetDB.SQLDriver().Dialect(),
}
return nil
}
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// prepareFromTable builds the "FROM table" fragment.
//
// When this function returns, pipeline.rc will be set.
func (p *pipeline) prepareFromTable(ctx context.Context, tblSel *ast.TblSelectorNode) (fromClause string,
fromConn driver.Database, err error,
) {
handle := tblSel.Handle()
if handle == "" {
handle = p.qc.Collection.ActiveHandle()
if handle == "" {
return "", nil, errz.New("query does not specify source, and no active source")
}
}
src, err := p.qc.Collection.Get(handle)
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if err != nil {
return "", nil, err
}
fromConn, err = p.qc.DBOpener.Open(ctx, src)
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if err != nil {
return "", nil, err
}
rndr := fromConn.SQLDriver().Renderer()
p.rc = &render.Context{
Renderer: rndr,
Args: p.qc.Args,
Dialect: fromConn.SQLDriver().Dialect(),
}
fromClause, err = rndr.FromTable(p.rc, tblSel)
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if err != nil {
return "", nil, err
}
return fromClause, fromConn, nil
}
// joinClause models the SQL "JOIN" construct.
type joinClause struct {
leftTbl *ast.TblSelectorNode
joins []*ast.JoinNode
}
// tables returns a new slice containing all referenced tables.
func (jc *joinClause) tables() []*ast.TblSelectorNode {
tbls := make([]*ast.TblSelectorNode, len(jc.joins)+1)
tbls[0] = jc.leftTbl
for i := range jc.joins {
tbls[i+1] = jc.joins[i].Table()
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}
return tbls
}
// handles returns the set of (non-empty) handles from the tables,
// without any duplicates.
func (jc *joinClause) handles() []string {
handles := make([]string, len(jc.joins)+1)
handles[0] = jc.leftTbl.Handle()
for i := 0; i < len(jc.joins); i++ {
handles[i+1] = jc.joins[i].Table().Handle()
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}
handles = lo.Uniq(handles)
handles = lo.Without(handles, "")
return handles
}
// isSingleSource returns true if the joins refer to the same handle.
func (jc *joinClause) isSingleSource() bool {
leftHandle := jc.leftTbl.Handle()
for _, join := range jc.joins {
joinHandle := join.Table().Handle()
if joinHandle == "" {
continue
}
if joinHandle != leftHandle {
return false
}
}
return true
}
// prepareFromJoin builds the "JOIN" clause.
//
// When this function returns, pipeline.rc will be set.
func (p *pipeline) prepareFromJoin(ctx context.Context, jc *joinClause) (fromClause string,
fromConn driver.Database, err error,
) {
if jc.isSingleSource() {
return p.joinSingleSource(ctx, jc)
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}
return p.joinCrossSource(ctx, jc)
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}
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// joinSingleSource sets up a join against a single source.
//
// On return, pipeline.rc will be set.
func (p *pipeline) joinSingleSource(ctx context.Context, jc *joinClause) (fromClause string,
fromDB driver.Database, err error,
) {
src, err := p.qc.Collection.Get(jc.leftTbl.Handle())
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if err != nil {
return "", nil, err
}
fromDB, err = p.qc.DBOpener.Open(ctx, src)
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if err != nil {
return "", nil, err
}
rndr := fromDB.SQLDriver().Renderer()
p.rc = &render.Context{
Renderer: rndr,
Args: p.qc.Args,
Dialect: fromDB.SQLDriver().Dialect(),
}
fromClause, err = rndr.Join(p.rc, jc.leftTbl, jc.joins)
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if err != nil {
return "", nil, err
}
return fromClause, fromDB, nil
}
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// joinCrossSource returns a FROM clause that forms part of
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// the SQL SELECT statement against fromDB.
//
// On return, pipeline.rc will be set.
func (p *pipeline) joinCrossSource(ctx context.Context, jc *joinClause) (fromClause string,
fromDB driver.Database, err error,
) {
// FIXME: finish tidying up
handles := jc.handles()
srcs := make([]*source.Source, 0, len(handles))
for _, handle := range handles {
var src *source.Source
if src, err = p.qc.Collection.Get(handle); err != nil {
return "", nil, err
}
srcs = append(srcs, src)
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}
// Open the join db
joinDB, err := p.qc.JoinDBOpener.OpenJoin(ctx, srcs...)
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if err != nil {
return "", nil, err
}
rndr := joinDB.SQLDriver().Renderer()
p.rc = &render.Context{
Renderer: rndr,
Args: p.qc.Args,
Dialect: joinDB.SQLDriver().Dialect(),
}
leftHandle := jc.leftTbl.Handle()
// TODO: verify not empty
tbls := jc.tables()
for _, tbl := range tbls {
tbl := tbl
handle := tbl.Handle()
if handle == "" {
handle = leftHandle
}
var src *source.Source
if src, err = p.qc.Collection.Get(handle); err != nil {
return "", nil, err
}
var db driver.Database
if db, err = p.qc.DBOpener.Open(ctx, src); err != nil {
return "", nil, err
}
task := &joinCopyTask{
fromDB: db,
fromTblName: tbl.TblName(),
toDB: joinDB,
toTblName: tbl.TblAliasOrName(),
}
tbl.SyncTblNameAlias()
p.tasks = append(p.tasks, task)
}
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fromClause, err = rndr.Join(p.rc, jc.leftTbl, jc.joins)
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if err != nil {
return "", nil, err
}
return fromClause, joinDB, nil
}
// tasker is the interface for executing a DB task.
type tasker interface {
// executeTask executes a task against the DB.
executeTask(ctx context.Context) error
}
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// joinCopyTask is a specification of a table data copy task to be performed
// for a cross-source join. That is, the data in fromDB.fromTblName will
// be copied to a table in toDB. If colNames is
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// empty, all cols in fromTblName are to be copied.
type joinCopyTask struct {
fromDB driver.Database
fromTblName string
toDB driver.Database
toTblName string
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}
func (jt *joinCopyTask) executeTask(ctx context.Context) error {
return execCopyTable(ctx, jt.fromDB, jt.fromTblName, jt.toDB, jt.toTblName)
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}
// execCopyTable performs the work of copying fromDB.fromTblName to destDB.destTblName.
func execCopyTable(ctx context.Context, fromDB driver.Database, fromTblName string,
destDB driver.Database, destTblName string,
) error {
log := lg.FromContext(ctx)
createTblHook := func(ctx context.Context, originRecMeta record.Meta, destDB driver.Database,
tx sqlz.DB,
) error {
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destColNames := originRecMeta.Names()
destColKinds := originRecMeta.Kinds()
destTblDef := sqlmodel.NewTableDef(destTblName, destColNames, destColKinds)
err := destDB.SQLDriver().CreateTable(ctx, tx, destTblDef)
if err != nil {
return errz.Wrapf(err, "failed to create dest table %s.%s", destDB.Source().Handle, destTblName)
}
return nil
}
inserter := NewDBWriter(
destDB,
destTblName,
driver.OptTuningRecChanSize.Get(destDB.Source().Options),
createTblHook,
)
query := "SELECT * FROM " + fromDB.SQLDriver().Dialect().Enquote(fromTblName)
err := QuerySQL(ctx, fromDB, inserter, query)
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if err != nil {
return errz.Wrapf(err, "insert %s.%s failed", destDB.Source().Handle, destTblName)
}
affected, err := inserter.Wait() // Wait for the writer to finish processing
if err != nil {
return errz.Wrapf(err, "insert %s.%s failed", destDB.Source().Handle, destTblName)
}
log.Debug("Copied rows to dest", lga.Count, affected,
lga.From, fmt.Sprintf("%s.%s", fromDB.Source().Handle, fromTblName),
lga.To, fmt.Sprintf("%s.%s", destDB.Source().Handle, destTblName))
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return nil
}