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go / pkgsite / 9250720483653b69d5899102c890e75bfcbdd27c / . / internal / postgres / versionstate.go
blob: 2ccaa020e8d335947d75feaf3faf0f4ba5db695e [file] [log] [blame]
// Copyright 2019 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package postgres
import (
"context"
"database/sql"
"fmt"
"net/http"
"sort"
"time"
"github.com/lib/pq"
"go.opencensus.io/trace"
"golang.org/x/pkgsite/internal"
"golang.org/x/pkgsite/internal/database"
"golang.org/x/pkgsite/internal/derrors"
"golang.org/x/pkgsite/internal/version"
)
// InsertIndexVersions inserts new versions into the module_version_states
// table with a status of zero.
func (db *DB) InsertIndexVersions(ctx context.Context, versions []*internal.IndexVersion) (err error) {
defer derrors.WrapStack(&err, "InsertIndexVersions(ctx, %v)", versions)
conflictAction := `
ON CONFLICT
(module_path, version)
DO UPDATE SET
index_timestamp=excluded.index_timestamp,
next_processed_after=CURRENT_TIMESTAMP`
return insertIndexVersions(ctx, db.db, versions, conflictAction)
}
// InsertNewModuleVersionFromFrontendFetch inserts a new module version into
// the module_version_states table with a status of zero that was requested
// from frontend fetch.
func (db *DB) InsertNewModuleVersionFromFrontendFetch(ctx context.Context, modulePath, resolvedVersion string) (err error) {
defer derrors.WrapStack(&err, "InsertIndexVersion(ctx, %v)", resolvedVersion)
conflictAction := `ON CONFLICT (module_path, version) DO NOTHING`
return insertIndexVersions(ctx, db.db, []*internal.IndexVersion{{Path: modulePath, Version: resolvedVersion}}, conflictAction)
}
func insertIndexVersions(ctx context.Context, ddb *database.DB, versions []*internal.IndexVersion, conflictAction string) (err error) {
var vals []interface{}
for _, v := range versions {
vals = append(vals,
v.Path,
v.Version,
version.ForSorting(v.Version),
0,
"",
"",
version.IsIncompatible(v.Version),
v.Timestamp,
)
}
cols := []string{
"module_path",
"version",
"sort_version",
"status",
"error",
"go_mod_path",
"incompatible",
"index_timestamp",
}
return ddb.Transact(ctx, sql.LevelDefault, func(tx *database.DB) error {
var updates [][2]string // (module_path, version) to update status
err := tx.BulkInsertReturning(ctx, "module_version_states", cols, vals, conflictAction,
[]string{"module_path", "version", "status"},
func(rows *sql.Rows) error {
var (
mod, ver string
status int
)
if err := rows.Scan(&mod, &ver, &status); err != nil {
return err
}
// Update a module's status to 0 if it wasn't found previously.
// See https://golang.org/issue/46117.
if status == http.StatusNotFound {
updates = append(updates, [2]string{mod, ver})
}
return nil
})
if err != nil {
return err
}
// We don't have a BulkUpdate function that works for us here
// (database.BulkUpdate can use only one column as a key). But we expect
// very few of these, so it's fine to run them individually.
for _, mv := range updates {
_, err = tx.Exec(ctx, `
UPDATE module_version_states
SET status = 0
WHERE module_path = $1 AND version = $2
`, mv[0], mv[1])
if err != nil {
return err
}
}
return nil
})
}
type ModuleVersionStateForUpdate struct {
ModulePath string
Version string
AppVersion string
Timestamp time.Time
Status int
HasGoMod bool
GoModPath string
FetchErr error
PackageVersionStates []*internal.PackageVersionState
}
// UpdateModuleVersionState inserts or updates the module_version_state table with
// the results of a fetch operation for a given module version.
func (db *DB) UpdateModuleVersionState(ctx context.Context, mvs *ModuleVersionStateForUpdate) (err error) {
defer derrors.WrapStack(&err, "UpsertModuleVersionState(ctx, %s@%s)", mvs.ModulePath, mvs.Version)
ctx, span := trace.StartSpan(ctx, "UpsertModuleVersionState")
defer span.End()
var numPackages *int
if !(mvs.Status >= http.StatusBadRequest && mvs.Status <= http.StatusNotFound) {
// If a module was fetched a 40x error in this range, we won't know how
// many packages it has.
n := len(mvs.PackageVersionStates)
numPackages = &n
}
return db.db.Transact(ctx, sql.LevelDefault, func(tx *database.DB) error {
if err := updateModuleVersionState(ctx, tx, numPackages, mvs); err != nil {
return err
}
// Sync modules.status if the module exists in the modules table.
if err := updateModulesStatus(ctx, tx, mvs.ModulePath, mvs.Version, mvs.Status); err != nil {
return err
}
if len(mvs.PackageVersionStates) == 0 {
return nil
}
return upsertPackageVersionStates(ctx, tx, mvs.PackageVersionStates)
})
}
func updateModuleVersionState(ctx context.Context, db *database.DB, numPackages *int, mvs *ModuleVersionStateForUpdate) (err error) {
defer derrors.WrapStack(&err, "upsertModuleVersionState(%q, %q, ...)", mvs.ModulePath, mvs.Version)
ctx, span := trace.StartSpan(ctx, "upsertModuleVersionState")
defer span.End()
var sqlErrorMsg string
if mvs.FetchErr != nil {
sqlErrorMsg = mvs.FetchErr.Error()
}
affected, err := db.Exec(ctx, `
UPDATE module_version_states
SET app_version=$1,
status=$2,
has_go_mod=$3,
go_mod_path=$4,
error=$5,
num_packages=$6,
try_count=try_count+1,
last_processed_at=CURRENT_TIMESTAMP,
-- back off exponentially until 1 hour, then at constant 1-hour intervals
next_processed_after=CASE
WHEN last_processed_at IS NULL THEN
CURRENT_TIMESTAMP + INTERVAL '1 minute'
WHEN 2*(next_processed_after - last_processed_at) < INTERVAL '1 hour' THEN
CURRENT_TIMESTAMP + 2*(next_processed_after - last_processed_at)
ELSE
CURRENT_TIMESTAMP + INTERVAL '1 hour'
END
WHERE
module_path=$7
AND version=$8`,
mvs.AppVersion,
mvs.Status,
mvs.HasGoMod,
mvs.GoModPath,
sqlErrorMsg,
numPackages,
mvs.ModulePath,
mvs.Version)
if err != nil {
return err
}
if affected != 1 {
return fmt.Errorf("module version state update affected %d rows, expected exactly 1", affected)
}
return nil
}
// updateModulesStatus updates the status of the module with the given modulePath
// and version, if it exists, in the modules table.
func updateModulesStatus(ctx context.Context, db *database.DB, modulePath, resolvedVersion string, status int) (err error) {
defer derrors.WrapStack(&err, "updateModulesStatus(%q, %q, %d)", modulePath, resolvedVersion, status)
query := `UPDATE modules
SET
status = $1
WHERE
module_path = $2
AND version = $3;`
affected, err := db.Exec(ctx, query, status, modulePath, resolvedVersion)
if err != nil {
return err
}
if affected > 1 {
return fmt.Errorf("module status update affected %d rows, expected at most 1", affected)
}
return nil
}
// UpdateModuleVersionStatus updates the status and error fields of a module version.
func (db *DB) UpdateModuleVersionStatus(ctx context.Context, modulePath, version string, status int, error string) (err error) {
defer derrors.WrapStack(&err, "UpdateModuleVersionStatus(%q, %q, %d)", modulePath, version, status)
query := `
UPDATE module_version_states
SET status = $3, error = $4
WHERE module_path = $1 AND version = $2
`
_, err = db.db.Exec(ctx, query, modulePath, version, status, error)
return err
}
func upsertPackageVersionStates(ctx context.Context, db *database.DB, packageVersionStates []*internal.PackageVersionState) (err error) {
defer derrors.WrapStack(&err, "upsertPackageVersionStates")
ctx, span := trace.StartSpan(ctx, "upsertPackageVersionStates")
defer span.End()
sort.Slice(packageVersionStates, func(i, j int) bool {
return packageVersionStates[i].PackagePath < packageVersionStates[j].PackagePath
})
var vals []interface{}
for _, pvs := range packageVersionStates {
vals = append(vals, pvs.PackagePath, pvs.ModulePath, pvs.Version, pvs.Status, pvs.Error)
}
return db.BulkInsert(ctx, "package_version_states",
[]string{
"package_path",
"module_path",
"version",
"status",
"error",
},
vals,
`ON CONFLICT (module_path, package_path, version)
DO UPDATE
SET
package_path=excluded.package_path,
module_path=excluded.module_path,
version=excluded.version,
status=excluded.status,
error=excluded.error`)
}
// LatestIndexTimestamp returns the last timestamp successfully inserted into
// the module_version_states table.
func (db *DB) LatestIndexTimestamp(ctx context.Context) (_ time.Time, err error) {
defer derrors.WrapStack(&err, "LatestIndexTimestamp(ctx)")
query := `SELECT index_timestamp
FROM module_version_states
ORDER BY index_timestamp DESC
LIMIT 1`
var ts time.Time
row := db.db.QueryRow(ctx, query)
switch err := row.Scan(&ts); err {
case sql.ErrNoRows:
return time.Time{}, nil
case nil:
return ts, nil
default:
return time.Time{}, err
}
}
const moduleVersionStateColumns = `
module_path,
version,
index_timestamp,
created_at,
status,
error,
try_count,
last_processed_at,
next_processed_after,
app_version,
has_go_mod,
go_mod_path,
num_packages`
// scanModuleVersionState constructs an *internal.ModuleModuleVersionState from the given
// scanner. It expects columns to be in the order of moduleVersionStateColumns.
func scanModuleVersionState(scan func(dest ...interface{}) error) (*internal.ModuleVersionState, error) {
var (
v internal.ModuleVersionState
indexTimestamp pq.NullTime
lastProcessedAt pq.NullTime
numPackages sql.NullInt64
hasGoMod sql.NullBool
)
if err := scan(&v.ModulePath, &v.Version, &indexTimestamp, &v.CreatedAt, &v.Status, &v.Error,
&v.TryCount, &v.LastProcessedAt, &v.NextProcessedAfter, &v.AppVersion, &hasGoMod, &v.GoModPath,
&numPackages); err != nil {
return nil, err
}
if indexTimestamp.Valid {
it := indexTimestamp.Time
v.IndexTimestamp = &it
}
if lastProcessedAt.Valid {
lp := lastProcessedAt.Time
v.LastProcessedAt = &lp
}
if hasGoMod.Valid {
v.HasGoMod = hasGoMod.Bool
}
if numPackages.Valid {
n := int(numPackages.Int64)
v.NumPackages = &n
}
return &v, nil
}
// queryModuleVersionStates executes a query for ModuleModuleVersionState rows. It expects the
// given queryFormat be a format specifier with exactly one argument: a %s verb
// for the query columns.
func (db *DB) queryModuleVersionStates(ctx context.Context, queryFormat string, args ...interface{}) ([]*internal.ModuleVersionState, error) {
query := fmt.Sprintf(queryFormat, moduleVersionStateColumns)
rows, err := db.db.Query(ctx, query, args...)
if err != nil {
return nil, err
}
defer rows.Close()
var versions []*internal.ModuleVersionState
for rows.Next() {
v, err := scanModuleVersionState(rows.Scan)
if err != nil {
return nil, fmt.Errorf("rows.Scan(): %v", err)
}
versions = append(versions, v)
}
return versions, nil
}
// GetRecentFailedVersions returns versions that have most recently failed.
func (db *DB) GetRecentFailedVersions(ctx context.Context, limit int) (_ []*internal.ModuleVersionState, err error) {
defer derrors.WrapStack(&err, "GetRecentFailedVersions(ctx, %d)", limit)
queryFormat := `
SELECT %s
FROM
module_version_states
WHERE status=500
ORDER BY last_processed_at DESC
LIMIT $1`
return db.queryModuleVersionStates(ctx, queryFormat, limit)
}
// GetRecentVersions returns recent versions that have been processed.
func (db *DB) GetRecentVersions(ctx context.Context, limit int) (_ []*internal.ModuleVersionState, err error) {
defer derrors.WrapStack(&err, "GetRecentVersions(ctx, %d)", limit)
queryFormat := `
SELECT %s
FROM
module_version_states
ORDER BY created_at DESC
LIMIT $1`
return db.queryModuleVersionStates(ctx, queryFormat, limit)
}
// GetModuleVersionState returns the current module version state for
// modulePath and version.
func (db *DB) GetModuleVersionState(ctx context.Context, modulePath, resolvedVersion string) (_ *internal.ModuleVersionState, err error) {
defer derrors.WrapStack(&err, "GetModuleVersionState(ctx, %q, %q)", modulePath, resolvedVersion)
query := fmt.Sprintf(`
SELECT %s
FROM
module_version_states
WHERE
module_path = $1
AND version = $2;`, moduleVersionStateColumns)
row := db.db.QueryRow(ctx, query, modulePath, resolvedVersion)
v, err := scanModuleVersionState(row.Scan)
switch err {
case nil:
return v, nil
case sql.ErrNoRows:
return nil, derrors.NotFound
default:
return nil, fmt.Errorf("row.Scan(): %v", err)
}
}
// GetPackageVersionStatesForModule returns the current package version states
// for modulePath and version.
func (db *DB) GetPackageVersionStatesForModule(ctx context.Context, modulePath, resolvedVersion string) (_ []*internal.PackageVersionState, err error) {
defer derrors.WrapStack(&err, "GetPackageVersionState(ctx, %q, %q)", modulePath, resolvedVersion)
query := `
SELECT
package_path,
module_path,
version,
status,
error
FROM
package_version_states
WHERE
module_path = $1
AND version = $2;`
var states []*internal.PackageVersionState
collect := func(rows *sql.Rows) error {
var s internal.PackageVersionState
if err := rows.Scan(&s.PackagePath, &s.ModulePath, &s.Version,
&s.Status, &s.Error); err != nil {
return fmt.Errorf("rows.Scan(): %v", err)
}
states = append(states, &s)
return nil
}
if err := db.db.RunQuery(ctx, query, collect, modulePath, resolvedVersion); err != nil {
return nil, err
}
return states, nil
}
// GetPackageVersionState returns the current package version state for
// pkgPath, modulePath and version.
func (db *DB) GetPackageVersionState(ctx context.Context, pkgPath, modulePath, resolvedVersion string) (_ *internal.PackageVersionState, err error) {
defer derrors.WrapStack(&err, "GetPackageVersionState(ctx, %q, %q, %q)", pkgPath, modulePath, resolvedVersion)
query := `
SELECT
package_path,
module_path,
version,
status,
error
FROM
package_version_states
WHERE
package_path = $1
AND module_path = $2
AND version = $3;`
var pvs internal.PackageVersionState
err = db.db.QueryRow(ctx, query, pkgPath, modulePath, resolvedVersion).Scan(
&pvs.PackagePath, &pvs.ModulePath, &pvs.Version,
&pvs.Status, &pvs.Error)
switch err {
case nil:
return &pvs, nil
case sql.ErrNoRows:
return nil, derrors.NotFound
default:
return nil, fmt.Errorf("row.Scan(): %v", err)
}
}
// VersionStats holds statistics extracted from the module_version_states
// table.
type VersionStats struct {
LatestTimestamp time.Time
VersionCounts map[int]int // from status to number of rows
}
// GetVersionStats queries the module_version_states table for aggregate
// information about the current state of module versions, grouping them by
// their current status code.
func (db *DB) GetVersionStats(ctx context.Context) (_ *VersionStats, err error) {
defer derrors.WrapStack(&err, "GetVersionStats(ctx)")
query := `
SELECT
status,
max(index_timestamp),
count(*)
FROM
module_version_states
GROUP BY status;`
stats := &VersionStats{
VersionCounts: make(map[int]int),
}
err = db.db.RunQuery(ctx, query, func(rows *sql.Rows) error {
var (
status sql.NullInt64
indexTimestamp time.Time
count int
)
if err := rows.Scan(&status, &indexTimestamp, &count); err != nil {
return fmt.Errorf("row.Scan(): %v", err)
}
if indexTimestamp.After(stats.LatestTimestamp) {
stats.LatestTimestamp = indexTimestamp
}
stats.VersionCounts[int(status.Int64)] = count
return nil
})
if err != nil {
return nil, err
}
return stats, nil
}
// HasGoMod reports whether a given module version has a go.mod file.
// It returns a NotFound error if it can't find any information.
func (db *DB) HasGoMod(ctx context.Context, modulePath, version string) (has bool, err error) {
defer derrors.WrapStack(&err, "HasGoMod(%q, %q)", modulePath, version)
// Check the module_version_states table. It has information about
// every module we've seen. Ignore rows with status == 0 because
// they haven't been processed yet.
var hasP *bool
err = db.db.QueryRow(ctx, `
SELECT has_go_mod
FROM module_version_states
WHERE module_path = $1
AND version = $2
AND status != 0
`, modulePath, version).Scan(&hasP)
if err == sql.ErrNoRows {
return false, derrors.NotFound
}
if err != nil {
return false, err
}
if hasP != nil {
return *hasP, nil
}
// the has_go_mod column hasn't been populated yet.
// Fall back to the modules table.
// This can be removed when all rows have been populated and
// module_version_states.has_go_mod is migrated to NOT NULL.
err = db.db.QueryRow(ctx, `
SELECT has_go_mod
FROM modules
WHERE module_path = $1 AND version = $2
`, modulePath, version).Scan(&has)
if err == sql.ErrNoRows {
return false, derrors.NotFound
}
if err != nil {
return false, err
}
return has, nil
}