internal/postgres/unit.go - pkgsite - Git at Google

 // 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"
 	"sort"
 	"strings"

 	"github.com/Masterminds/squirrel"
 	"github.com/lib/pq"
 	"golang.org/x/pkgsite/internal"
 	"golang.org/x/pkgsite/internal/database"
 	"golang.org/x/pkgsite/internal/derrors"
 	"golang.org/x/pkgsite/internal/middleware"
 	"golang.org/x/pkgsite/internal/stdlib"
 	"golang.org/x/pkgsite/internal/version"
 )

 // GetUnitMeta returns information about the "best" entity (module, path or directory) with
 // the given path. The module and version arguments provide additional constraints.
 // If the module is unknown, pass internal.UnknownModulePath; if the version is unknown, pass
 // internal.LatestVersion.
 //
 // The rules for picking the best are:
 // 1. If the version is known but the module path is not, choose the longest module path
 //    at that version that contains fullPath.
 // 2. Otherwise, find the latest "good" version (in the modules table) that contains fullPath.
 //    a. First, follow the algorithm of the go command: prefer longer module paths, and
 //       find the latest unretracted version, using semver but preferring release to pre-release.
 //    b. If no modules have latest-version information, find the latest by sorting the versions
 //       we do have: again first by module path length, then by version.
 func (db *DB) GetUnitMeta(ctx context.Context, fullPath, requestedModulePath, requestedVersion string) (_ *internal.UnitMeta, err error) {
 	defer derrors.WrapStack(&err, "DB.GetUnitMeta(ctx, %q, %q, %q)", fullPath, requestedModulePath, requestedVersion)
 	defer middleware.ElapsedStat(ctx, "DB.GetUnitMeta")()

 	modulePath := requestedModulePath
 	v := requestedVersion
 	var lmv *internal.LatestModuleVersions
 	if requestedVersion == version.Latest {
 		modulePath, v, lmv, err = db.getLatestUnitVersion(ctx, fullPath, requestedModulePath)
 		if err != nil {
 			return nil, err
 		}
 	}
 	return db.getUnitMetaWithKnownVersion(ctx, fullPath, modulePath, v, lmv)
 }

 func (db *DB) getUnitMetaWithKnownVersion(ctx context.Context, fullPath, modulePath, version string, lmv *internal.LatestModuleVersions) (_ *internal.UnitMeta, err error) {
 	defer derrors.WrapStack(&err, "getUnitMetaWithKnownVersion")
 	defer middleware.ElapsedStat(ctx, "getUnitMetaWithKnownVersion")()

 	query := squirrel.Select(
 		"m.module_path",
 		"m.version",
 		"m.commit_time",
 		"m.source_info",
 		"m.has_go_mod",
 		"m.redistributable",
 		"u.name",
 		"u.redistributable",
 		"u.license_types",
 		"u.license_paths").
 		From("modules m").
 		Join("units u on u.module_id = m.id").
 		Join("paths p ON p.id = u.path_id").Where(squirrel.Eq{"p.path": fullPath}).
 		PlaceholderFormat(squirrel.Dollar)

 	if internal.DefaultBranches[version] || stdlib.SupportedBranches[version] {
 		query = query.
 			Join("version_map vm ON m.id = vm.module_id").
 			Where("vm.requested_version = ?", version)
 	} else {
 		query = query.Where(squirrel.Eq{"version": version})
 	}
 	if modulePath == internal.UnknownModulePath {
 		// If we don't know the module, look for the one  with the longest series path.
 		query = query.OrderBy("m.series_path DESC").Limit(1)
 	} else {
 		query = query.Where(squirrel.Eq{"m.module_path": modulePath})
 	}

 	q, args, err := query.ToSql()
 	if err != nil {
 		return nil, err
 	}
 	var (
 		licenseTypes []string
 		licensePaths []string
 		um           = internal.UnitMeta{Path: fullPath}
 	)
 	err = db.db.QueryRow(ctx, q, args...).Scan(
 		&um.ModulePath,
 		&um.Version,
 		&um.CommitTime,
 		jsonbScanner{&um.SourceInfo},
 		&um.HasGoMod,
 		&um.ModuleInfo.IsRedistributable,
 		&um.Name,
 		&um.IsRedistributable,
 		pq.Array(&licenseTypes),
 		pq.Array(&licensePaths))
 	if err == sql.ErrNoRows {
 		return nil, derrors.NotFound
 	}
 	if err != nil {
 		return nil, err
 	}

 	lics, err := zipLicenseMetadata(licenseTypes, licensePaths)
 	if err != nil {
 		return nil, err
 	}

 	if db.bypassLicenseCheck {
 		um.IsRedistributable = true
 	}
 	um.Licenses = lics

 	// If we don't have the latest version information, try to get it.
 	// We can be here if there is really no info (in which case we are repeating
 	// some work, but it's fast), or if we are ignoring the info (for instance,
 	// if all versions were retracted).
 	if lmv == nil {
 		lmv, err = db.GetLatestModuleVersions(ctx, um.ModulePath)
 		if err != nil {
 			return nil, err
 		}
 	}
 	if lmv != nil {
 		lmv.PopulateModuleInfo(&um.ModuleInfo)
 	}
 	return &um, nil
 }

 // getLatestUnitVersion gets the latest version of requestedModulePath that contains fullPath.
 // See GetUnitMeta for more details.
 func (db *DB) getLatestUnitVersion(ctx context.Context, fullPath, requestedModulePath string) (
 	modulePath, latestVersion string, lmv *internal.LatestModuleVersions, err error) {

 	defer derrors.WrapStack(&err, "getLatestUnitVersion(%q, %q)", fullPath, requestedModulePath)
 	defer middleware.ElapsedStat(ctx, "getLatestUnitVersion")()

 	modPaths := []string{requestedModulePath}
 	// If we don't know the module path, try each possible module path from longest to shortest.
 	if requestedModulePath == internal.UnknownModulePath {
 		modPaths = internal.CandidateModulePaths(fullPath)
 	}
 	// Get latest-version information for all possible modules, from longest
 	// to shortest path.
 	lmvs, err := db.getMultiLatestModuleVersions(ctx, modPaths)
 	if err != nil {
 		return "", "", nil, err
 	}
 	for _, lmv = range lmvs {
 		// Collect all the versions of this module that contain fullPath.
 		query := squirrel.Select("m.version").
 			From("modules m").
 			Join("units u on u.module_id = m.id").
 			Join("paths p ON p.id = u.path_id").
 			Where(squirrel.Eq{"m.module_path": lmv.ModulePath}).
 			Where(squirrel.Eq{"p.path": fullPath})
 		q, args, err := query.PlaceholderFormat(squirrel.Dollar).ToSql()
 		if err != nil {
 			return "", "", nil, err
 		}
 		allVersions, err := db.db.CollectStrings(ctx, q, args...)
 		if err != nil {
 			return "", "", nil, err
 		}
 		// Remove retracted versions.
 		unretractedVersions := version.RemoveIf(allVersions, lmv.IsRetracted)
 		// If there are no unretracted versions, move on. If we fall out of the
 		// loop we will pick the latest retracted version.
 		if len(unretractedVersions) == 0 {
 			continue
 		}
 		// Choose the latest version.
 		// If the cooked latest version is compatible, then by the logic of
 		// internal/version.Latest (which matches the go command), either
 		// incompatible versions should be ignored or there were no incompatible
 		// versions. In either case, remove them.
 		if !version.IsIncompatible(lmv.CookedVersion) {
 			unretractedVersions = version.RemoveIf(unretractedVersions, version.IsIncompatible)
 		}
 		// The good version should never be later than the cooked version.
 		// https://golang.org/issue/43265 documents how that could happen:
 		// 1. A pseudo-version is created off of a tagged version. In this case,
 		//    golang.zx2c4.com/wireguard@v0.0.20201119-0.20210128142622-6a128dde71d9.
 		// 2. All tagged versions are retracted.
 		// 3. A new pseudo-version is published. In this case, v0.0.0-20210506092213-60a26371f42f.
 		// Technically, the first pseudo-version is higher than the second, so it
 		// is the latest good version. But the proxy's latest endpoint returns
 		// the second pseudo-version, so that is the cooked version (and what the
 		// go command will download).
 		if lmv.CookedVersion != "" {
 			unretractedVersions = version.RemoveIf(unretractedVersions, func(v string) bool {
 				return version.Later(v, lmv.CookedVersion)
 			})
 		}
 		latestVersion = version.LatestOf(unretractedVersions)
 		break
 	}
 	if latestVersion != "" {
 		return lmv.ModulePath, latestVersion, lmv, nil
 	}
 	// If we don't have latest-version info for any path (or there are no
 	// unretracted versions for paths where we do), fall back to finding the
 	// latest good version from the longest path. We can't determine
 	// deprecations or retractions, and the "go get" command won't download the
 	// module unless a specific version is supplied. But we can still show the
 	// latest version we have.
 	query := squirrel.Select("m.module_path", "m.version").
 		From("modules m").
 		Join("units u on u.module_id = m.id").
 		Join("paths p ON p.id = u.path_id").
 		Where(squirrel.Eq{"p.path": fullPath}).
 		// Like the go command, order first by path length, then by release
 		// version, then prerelease. Without latest-version information, we
 		// ignore all adjustments for incompatible and retracted versions.
 		OrderBy("m.series_path DESC", "m.version_type = 'release' DESC", "m.sort_version DESC").
 		Limit(1)
 	q, args, err := query.PlaceholderFormat(squirrel.Dollar).ToSql()
 	if err != nil {
 		return "", "", nil, err
 	}
 	err = db.db.QueryRow(ctx, q, args...).Scan(&modulePath, &latestVersion)
 	if err == sql.ErrNoRows {
 		return "", "", nil, derrors.NotFound
 	}
 	if err != nil {
 		return "", "", nil, err
 	}
 	return modulePath, latestVersion, nil, nil
 }

 // GetUnit returns a unit from the database, along with all of the data
 // associated with that unit.
 // If bc is not nil, get only the Documentation that matches it (or nil if none do).
 func (db *DB) GetUnit(ctx context.Context, um *internal.UnitMeta, fields internal.FieldSet, bc internal.BuildContext) (_ *internal.Unit, err error) {
 	defer derrors.WrapStack(&err, "GetUnit(ctx, %q, %q, %q, %v)", um.Path, um.ModulePath, um.Version, bc)

 	u := &internal.Unit{UnitMeta: *um}
 	if fields&internal.WithMain != 0 {
 		u, err = db.getUnitWithAllFields(ctx, um, bc)
 		if err != nil {
 			return nil, err
 		}
 	}
 	if fields&internal.WithImports == 0 &&
 		fields&internal.WithLicenses == 0 {
 		return u, nil
 	}

 	defer middleware.ElapsedStat(ctx, "GetUnit")()
 	unitID, err := db.getUnitID(ctx, um.Path, um.ModulePath, um.Version)
 	if err != nil {
 		return nil, err
 	}

 	if fields&internal.WithImports != 0 {
 		imports, err := db.getImports(ctx, unitID)
 		if err != nil {
 			return nil, err
 		}
 		if len(imports) > 0 {
 			u.Imports = imports
 			u.NumImports = len(imports)
 		}
 	}
 	if fields&internal.WithLicenses != 0 {
 		lics, err := db.getLicenses(ctx, u.Path, u.ModulePath, unitID)
 		if err != nil {
 			return nil, err
 		}
 		u.LicenseContents = lics
 	}
 	if db.bypassLicenseCheck {
 		u.IsRedistributable = true
 	} else {
 		u.RemoveNonRedistributableData()
 	}
 	return u, nil
 }

 func (db *DB) getUnitID(ctx context.Context, fullPath, modulePath, resolvedVersion string) (_ int, err error) {
 	defer derrors.WrapStack(&err, "getUnitID(ctx, %q, %q, %q)", fullPath, modulePath, resolvedVersion)
 	defer middleware.ElapsedStat(ctx, "getUnitID")()
 	var unitID int
 	query := `
 		SELECT u.id
 		FROM units u
 		INNER JOIN paths p ON (p.id = u.path_id)
 		INNER JOIN modules m ON (u.module_id = m.id)
 		WHERE
 			p.path = $1
 			AND m.module_path = $2
 			AND m.version = $3;`
 	err = db.db.QueryRow(ctx, query, fullPath, modulePath, resolvedVersion).Scan(&unitID)
 	switch err {
 	case sql.ErrNoRows:
 		return 0, derrors.NotFound
 	case nil:
 		return unitID, nil
 	default:
 		return 0, err
 	}
 }

 // getImports returns the imports corresponding to unitID.
 func (db *DB) getImports(ctx context.Context, unitID int) (_ []string, err error) {
 	defer derrors.WrapStack(&err, "getImports(ctx, %d)", unitID)
 	defer middleware.ElapsedStat(ctx, "getImports")()
 	query := `
 		SELECT p.path
 		FROM paths p INNER JOIN imports i ON p.id = i.to_path_id
 		WHERE i.unit_id = $1`
 	return db.db.CollectStrings(ctx, query, unitID)
 }

 // getPackagesInUnit returns all of the packages in a unit from a
 // module_id, including the package that lives at fullPath, if present.
 func (db *DB) getPackagesInUnit(ctx context.Context, fullPath string, moduleID int) (_ []*internal.PackageMeta, err error) {
 	return getPackagesInUnit(ctx, db.db, fullPath, "", "", moduleID, db.bypassLicenseCheck)
 }

 func getPackagesInUnit(ctx context.Context, db *database.DB, fullPath, modulePath, resolvedVersion string, moduleID int, bypassLicenseCheck bool) (_ []*internal.PackageMeta, err error) {
 	defer derrors.WrapStack(&err, "getPackagesInUnit(ctx, %q, %q, %q, %d)", fullPath, modulePath, resolvedVersion, moduleID)
 	defer middleware.ElapsedStat(ctx, "getPackagesInUnit")()

 	queryBuilder := squirrel.Select(
 		"p.path",
 		"u.name",
 		"u.redistributable",
 		"d.synopsis",
 		"d.GOOS",
 		"d.GOARCH",
 		"u.license_types",
 		"u.license_paths",
 	).From("units u")

 	if moduleID != -1 {
 		queryBuilder = queryBuilder.Join("paths p ON p.id = u.path_id").
 			LeftJoin("documentation d ON d.unit_id = u.id").
 			Where(squirrel.Eq{"u.module_id": moduleID})
 	} else {
 		queryBuilder = queryBuilder.
 			Join("modules m ON u.module_id = m.id").
 			Join("paths p ON p.id = u.path_id").
 			LeftJoin("documentation d ON d.unit_id = u.id").
 			Where(squirrel.Eq{"m.module_path": modulePath}).
 			Where(squirrel.Eq{"m.version": resolvedVersion})
 	}

 	queryBuilder = queryBuilder.Where(squirrel.NotEq{"u.name": ""})

 	query, args, err := queryBuilder.PlaceholderFormat(squirrel.Dollar).ToSql()
 	if err != nil {
 		return nil, err
 	}

 	// If a package has more than build context (GOOS/GOARCH pair), it will have
 	// more than one row in documentation, and this query will produce multiple
 	// rows for that package. If we could sort the build contexts in SQL we
 	// could deal with that in the query, but we must sort in code, so we read
 	// all the rows and pick the right one afterwards.
 	type pmbc struct {
 		pm *internal.PackageMeta
 		bc internal.BuildContext
 	}
 	packagesByPath := map[string][]pmbc{}
 	collect := func(rows *sql.Rows) error {
 		var (
 			pkg          internal.PackageMeta
 			licenseTypes []string
 			licensePaths []string
 			bc           internal.BuildContext
 		)
 		if err := rows.Scan(
 			&pkg.Path,
 			&pkg.Name,
 			&pkg.IsRedistributable,
 			database.NullIsEmpty(&pkg.Synopsis),
 			database.NullIsEmpty(&bc.GOOS),
 			database.NullIsEmpty(&bc.GOARCH),
 			pq.Array(&licenseTypes),
 			pq.Array(&licensePaths),
 		); err != nil {
 			return fmt.Errorf("row.Scan(): %v", err)
 		}
 		if fullPath == stdlib.ModulePath || pkg.Path == fullPath || strings.HasPrefix(pkg.Path, fullPath+"/") {
 			lics, err := zipLicenseMetadata(licenseTypes, licensePaths)
 			if err != nil {
 				return err
 			}
 			pkg.Licenses = lics
 			packagesByPath[pkg.Path] = append(packagesByPath[pkg.Path], pmbc{&pkg, bc})
 		}
 		return nil
 	}
 	if err := db.RunQuery(ctx, query, collect, args...); err != nil {
 		return nil, err
 	}

 	var packages []*internal.PackageMeta
 	for _, ps := range packagesByPath {
 		sort.Slice(ps, func(i, j int) bool { return internal.CompareBuildContexts(ps[i].bc, ps[j].bc) < 0 })
 		packages = append(packages, ps[0].pm)
 	}
 	sort.Slice(packages, func(i, j int) bool { return packages[i].Path < packages[j].Path })
 	for _, p := range packages {
 		if bypassLicenseCheck {
 			p.IsRedistributable = true
 		} else {
 			p.RemoveNonRedistributableData()
 		}
 	}
 	return packages, nil
 }

 func (db *DB) getUnitWithAllFields(ctx context.Context, um *internal.UnitMeta, bc internal.BuildContext) (_ *internal.Unit, err error) {
 	defer derrors.WrapStack(&err, "getUnitWithAllFields(ctx, %q, %q, %q)", um.Path, um.ModulePath, um.Version)
 	defer middleware.ElapsedStat(ctx, "getUnitWithAllFields")()

 	// Get build contexts and unit ID.
 	var pathID, unitID, moduleID int
 	var bcs []internal.BuildContext
 	err = db.db.RunQuery(ctx, `
 		SELECT d.goos, d.goarch, u.id, p.id, u.module_id
 		FROM units u
 		INNER JOIN paths p ON p.id = u.path_id
 		INNER JOIN modules m ON m.id = u.module_id
 		LEFT JOIN documentation d ON d.unit_id = u.id
 		WHERE
 			p.path = $1
 			AND m.module_path = $2
 			AND m.version = $3
 	`, func(rows *sql.Rows) error {
 		var bc internal.BuildContext
 		// GOOS and GOARCH will be NULL if there are no documentation rows for
 		// the unit, but we still want the unit ID.

 		if err := rows.Scan(database.NullIsEmpty(&bc.GOOS), database.NullIsEmpty(&bc.GOARCH), &unitID, &pathID, &moduleID); err != nil {
 			return err
 		}
 		if bc.GOOS != "" && bc.GOARCH != "" {
 			bcs = append(bcs, bc)
 		}
 		return nil
 	}, um.Path, um.ModulePath, um.Version)
 	if err != nil {
 		return nil, err
 	}
 	sort.Slice(bcs, func(i, j int) bool { return internal.CompareBuildContexts(bcs[i], bcs[j]) < 0 })
 	var bcMatched internal.BuildContext
 	for _, c := range bcs {
 		if bc.Match(c) {
 			bcMatched = c
 			break
 		}
 	}
 	// Get README, documentation and import counts.
 	query := `
         SELECT
 			r.file_path,
 			r.contents,
 			d.synopsis,
 			d.source,
 			COALESCE((
 				SELECT COUNT(unit_id)
 				FROM imports
 				WHERE unit_id = u.id
 				GROUP BY unit_id
 				), 0) AS num_imports,
 			COALESCE((
 				SELECT imported_by_count
 				FROM search_documents
 				-- Only package_path_id is needed b/c it is the PK for
 				-- search_documents.
 				WHERE package_path_id = $1
 				), 0) AS num_imported_by
 		FROM units u
 		LEFT JOIN readmes r
 		ON r.unit_id = u.id

 		LEFT JOIN (
 			SELECT synopsis, source, goos, goarch, unit_id
 			FROM documentation d
 			WHERE d.GOOS = $3 AND d.GOARCH = $4
         ) d
 		ON d.unit_id = u.id
 		WHERE u.id = $2
 	`
 	var (
 		r internal.Readme
 		u internal.Unit
 	)
 	u.BuildContexts = bcs
 	var goos, goarch interface{}
 	if bcMatched.GOOS != "" {
 		goos = bcMatched.GOOS
 		goarch = bcMatched.GOARCH
 	}
 	doc := &internal.Documentation{GOOS: bcMatched.GOOS, GOARCH: bcMatched.GOARCH}
 	end := middleware.ElapsedStat(ctx, "getUnitWithAllFields-readme-and-imports")
 	err = db.db.QueryRow(ctx, query, pathID, unitID, goos, goarch).Scan(
 		database.NullIsEmpty(&r.Filepath),
 		database.NullIsEmpty(&r.Contents),
 		database.NullIsEmpty(&doc.Synopsis),
 		&doc.Source,
 		&u.NumImports,
 		&u.NumImportedBy,
 	)
 	switch err {
 	case sql.ErrNoRows:
 		// Neither a README nor documentation; that's OK, continue.
 	case nil:
 		if r.Filepath != "" && um.ModulePath != stdlib.ModulePath {
 			u.Readme = &r
 		}
 		if doc.GOOS != "" {
 			u.Documentation = []*internal.Documentation{doc}
 		}
 	default:
 		return nil, err
 	}
 	end()
 	// Get other info.
 	pkgs, err := db.getPackagesInUnit(ctx, um.Path, moduleID)
 	if err != nil {
 		return nil, err
 	}
 	u.Subdirectories = pkgs
 	u.UnitMeta = *um

 	if um.IsPackage() && !um.IsCommand() && doc.Source != nil {
 		u.SymbolHistory, err = GetSymbolHistoryForBuildContext(ctx, db.db, pathID, um.ModulePath, bcMatched)
 		if err != nil {
 			return nil, err
 		}
 	}
 	return &u, nil
 }

 type dbPath struct {
 	id              int64
 	path            string
 	moduleID        int64
 	name            string
 	licenseTypes    []string
 	licensePaths    []string
 	redistributable bool
 }

 func (db *DB) getPathsInModule(ctx context.Context, modulePath, resolvedVersion string) (_ []*dbPath, err error) {
 	defer derrors.WrapStack(&err, "DB.getPathsInModule(ctx, %q, %q)", modulePath, resolvedVersion)
 	query := `
 	SELECT
 		u.id,
 		p.path,
 		u.module_id,
 		u.name,
 		u.license_types,
 		u.license_paths,
 		u.redistributable
 	FROM
 		units u
 	INNER JOIN
 		paths p
 	ON
 		p.id = u.path_id
 	INNER JOIN
 		modules m
 	ON
 		u.module_id = m.id
 	WHERE
 		m.module_path = $1
 		AND m.version = $2
 	ORDER BY path;`

 	var paths []*dbPath
 	collect := func(rows *sql.Rows) error {
 		var p dbPath
 		if err := rows.Scan(&p.id, &p.path, &p.moduleID, &p.name, pq.Array(&p.licenseTypes),
 			pq.Array(&p.licensePaths), &p.redistributable); err != nil {
 			return fmt.Errorf("row.Scan(): %v", err)
 		}
 		paths = append(paths, &p)
 		return nil
 	}
 	if err := db.db.RunQuery(ctx, query, collect, modulePath, resolvedVersion); err != nil {
 		return nil, err
 	}
 	return paths, nil
 }

 // GetModuleReadme returns the README corresponding to the modulePath and version.
 func (db *DB) GetModuleReadme(ctx context.Context, modulePath, resolvedVersion string) (_ *internal.Readme, err error) {
 	return getModuleReadme(ctx, db.db, modulePath, resolvedVersion)
 }

 func getModuleReadme(ctx context.Context, db *database.DB, modulePath, resolvedVersion string) (_ *internal.Readme, err error) {
 	defer derrors.WrapStack(&err, "getModuleReadme(ctx, %q, %q)", modulePath, resolvedVersion)
 	var readme internal.Readme
 	err = db.QueryRow(ctx, `
 		SELECT file_path, contents
 		FROM modules m
 		INNER JOIN units u
 		ON u.module_id = m.id
 		INNER JOIN paths p
 		ON u.path_id = p.id
 		INNER JOIN readmes r
 		ON u.id = r.unit_id
 		WHERE
 		    m.module_path=$1
 			AND m.version=$2
 			AND m.module_path=p.path`, modulePath, resolvedVersion).Scan(&readme.Filepath, &readme.Contents)
 	switch err {
 	case sql.ErrNoRows:
 		return nil, derrors.NotFound
 	case nil:
 		return &readme, nil
 	default:
 		return nil, err
 	}
 }
	// 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"
	"sort"
	"strings"

	"github.com/Masterminds/squirrel"
	"github.com/lib/pq"
	"golang.org/x/pkgsite/internal"
	"golang.org/x/pkgsite/internal/database"
	"golang.org/x/pkgsite/internal/derrors"
	"golang.org/x/pkgsite/internal/middleware"
	"golang.org/x/pkgsite/internal/stdlib"
	"golang.org/x/pkgsite/internal/version"
	)

	// GetUnitMeta returns information about the "best" entity (module, path or directory) with
	// the given path. The module and version arguments provide additional constraints.
	// If the module is unknown, pass internal.UnknownModulePath; if the version is unknown, pass
	// internal.LatestVersion.
	//
	// The rules for picking the best are:
	// 1. If the version is known but the module path is not, choose the longest module path
	// at that version that contains fullPath.
	// 2. Otherwise, find the latest "good" version (in the modules table) that contains fullPath.
	// a. First, follow the algorithm of the go command: prefer longer module paths, and
	// find the latest unretracted version, using semver but preferring release to pre-release.
	// b. If no modules have latest-version information, find the latest by sorting the versions
	// we do have: again first by module path length, then by version.
	func (db DB) GetUnitMeta(ctx context.Context, fullPath, requestedModulePath, requestedVersion string) (_ internal.UnitMeta, err error) {
	defer derrors.WrapStack(&err, "DB.GetUnitMeta(ctx, %q, %q, %q)", fullPath, requestedModulePath, requestedVersion)
	defer middleware.ElapsedStat(ctx, "DB.GetUnitMeta")()

	modulePath := requestedModulePath
	v := requestedVersion
	var lmv *internal.LatestModuleVersions
	if requestedVersion == version.Latest {
	modulePath, v, lmv, err = db.getLatestUnitVersion(ctx, fullPath, requestedModulePath)
	if err != nil {
	return nil, err
	}
	}
	return db.getUnitMetaWithKnownVersion(ctx, fullPath, modulePath, v, lmv)
	}

	func (db DB) getUnitMetaWithKnownVersion(ctx context.Context, fullPath, modulePath, version string, lmv internal.LatestModuleVersions) (_ *internal.UnitMeta, err error) {
	defer derrors.WrapStack(&err, "getUnitMetaWithKnownVersion")
	defer middleware.ElapsedStat(ctx, "getUnitMetaWithKnownVersion")()

	query := squirrel.Select(
	"m.module_path",
	"m.version",
	"m.commit_time",
	"m.source_info",
	"m.has_go_mod",
	"m.redistributable",
	"u.name",
	"u.redistributable",
	"u.license_types",
	"u.license_paths").
	From("modules m").
	Join("units u on u.module_id = m.id").
	Join("paths p ON p.id = u.path_id").Where(squirrel.Eq{"p.path": fullPath}).
	PlaceholderFormat(squirrel.Dollar)

	if internal.DefaultBranches[version] \|\| stdlib.SupportedBranches[version] {
	query = query.
	Join("version_map vm ON m.id = vm.module_id").
	Where("vm.requested_version = ?", version)
	} else {
	query = query.Where(squirrel.Eq{"version": version})
	}
	if modulePath == internal.UnknownModulePath {
	// If we don't know the module, look for the one with the longest series path.
	query = query.OrderBy("m.series_path DESC").Limit(1)
	} else {
	query = query.Where(squirrel.Eq{"m.module_path": modulePath})
	}

	q, args, err := query.ToSql()
	if err != nil {
	return nil, err
	}
	var (
	licenseTypes []string
	licensePaths []string
	um = internal.UnitMeta{Path: fullPath}
	)
	err = db.db.QueryRow(ctx, q, args...).Scan(
	&um.ModulePath,
	&um.Version,
	&um.CommitTime,
	jsonbScanner{&um.SourceInfo},
	&um.HasGoMod,
	&um.ModuleInfo.IsRedistributable,
	&um.Name,
	&um.IsRedistributable,
	pq.Array(&licenseTypes),
	pq.Array(&licensePaths))
	if err == sql.ErrNoRows {
	return nil, derrors.NotFound
	}
	if err != nil {
	return nil, err
	}

	lics, err := zipLicenseMetadata(licenseTypes, licensePaths)
	if err != nil {
	return nil, err
	}

	if db.bypassLicenseCheck {
	um.IsRedistributable = true
	}
	um.Licenses = lics

	// If we don't have the latest version information, try to get it.
	// We can be here if there is really no info (in which case we are repeating
	// some work, but it's fast), or if we are ignoring the info (for instance,
	// if all versions were retracted).
	if lmv == nil {
	lmv, err = db.GetLatestModuleVersions(ctx, um.ModulePath)
	if err != nil {
	return nil, err
	}
	}
	if lmv != nil {
	lmv.PopulateModuleInfo(&um.ModuleInfo)
	}
	return &um, nil
	}

	// getLatestUnitVersion gets the latest version of requestedModulePath that contains fullPath.
	// See GetUnitMeta for more details.
	func (db *DB) getLatestUnitVersion(ctx context.Context, fullPath, requestedModulePath string) (
	modulePath, latestVersion string, lmv *internal.LatestModuleVersions, err error) {

	defer derrors.WrapStack(&err, "getLatestUnitVersion(%q, %q)", fullPath, requestedModulePath)
	defer middleware.ElapsedStat(ctx, "getLatestUnitVersion")()

	modPaths := []string{requestedModulePath}
	// If we don't know the module path, try each possible module path from longest to shortest.
	if requestedModulePath == internal.UnknownModulePath {
	modPaths = internal.CandidateModulePaths(fullPath)
	}
	// Get latest-version information for all possible modules, from longest
	// to shortest path.
	lmvs, err := db.getMultiLatestModuleVersions(ctx, modPaths)
	if err != nil {
	return "", "", nil, err
	}
	for _, lmv = range lmvs {
	// Collect all the versions of this module that contain fullPath.
	query := squirrel.Select("m.version").
	From("modules m").
	Join("units u on u.module_id = m.id").
	Join("paths p ON p.id = u.path_id").
	Where(squirrel.Eq{"m.module_path": lmv.ModulePath}).
	Where(squirrel.Eq{"p.path": fullPath})
	q, args, err := query.PlaceholderFormat(squirrel.Dollar).ToSql()
	if err != nil {
	return "", "", nil, err
	}
	allVersions, err := db.db.CollectStrings(ctx, q, args...)
	if err != nil {
	return "", "", nil, err
	}
	// Remove retracted versions.
	unretractedVersions := version.RemoveIf(allVersions, lmv.IsRetracted)
	// If there are no unretracted versions, move on. If we fall out of the
	// loop we will pick the latest retracted version.
	if len(unretractedVersions) == 0 {
	continue
	}
	// Choose the latest version.
	// If the cooked latest version is compatible, then by the logic of
	// internal/version.Latest (which matches the go command), either
	// incompatible versions should be ignored or there were no incompatible
	// versions. In either case, remove them.
	if !version.IsIncompatible(lmv.CookedVersion) {
	unretractedVersions = version.RemoveIf(unretractedVersions, version.IsIncompatible)
	}
	// The good version should never be later than the cooked version.
	// https://golang.org/issue/43265 documents how that could happen:
	// 1. A pseudo-version is created off of a tagged version. In this case,
	// golang.zx2c4.com/wireguard@v0.0.20201119-0.20210128142622-6a128dde71d9.
	// 2. All tagged versions are retracted.
	// 3. A new pseudo-version is published. In this case, v0.0.0-20210506092213-60a26371f42f.
	// Technically, the first pseudo-version is higher than the second, so it
	// is the latest good version. But the proxy's latest endpoint returns
	// the second pseudo-version, so that is the cooked version (and what the
	// go command will download).
	if lmv.CookedVersion != "" {
	unretractedVersions = version.RemoveIf(unretractedVersions, func(v string) bool {
	return version.Later(v, lmv.CookedVersion)
	})
	}
	latestVersion = version.LatestOf(unretractedVersions)
	break
	}
	if latestVersion != "" {
	return lmv.ModulePath, latestVersion, lmv, nil
	}
	// If we don't have latest-version info for any path (or there are no
	// unretracted versions for paths where we do), fall back to finding the
	// latest good version from the longest path. We can't determine
	// deprecations or retractions, and the "go get" command won't download the
	// module unless a specific version is supplied. But we can still show the
	// latest version we have.
	query := squirrel.Select("m.module_path", "m.version").
	From("modules m").
	Join("units u on u.module_id = m.id").
	Join("paths p ON p.id = u.path_id").
	Where(squirrel.Eq{"p.path": fullPath}).
	// Like the go command, order first by path length, then by release
	// version, then prerelease. Without latest-version information, we
	// ignore all adjustments for incompatible and retracted versions.
	OrderBy("m.series_path DESC", "m.version_type = 'release' DESC", "m.sort_version DESC").
	Limit(1)
	q, args, err := query.PlaceholderFormat(squirrel.Dollar).ToSql()
	if err != nil {
	return "", "", nil, err
	}
	err = db.db.QueryRow(ctx, q, args...).Scan(&modulePath, &latestVersion)
	if err == sql.ErrNoRows {
	return "", "", nil, derrors.NotFound
	}
	if err != nil {
	return "", "", nil, err
	}
	return modulePath, latestVersion, nil, nil
	}

	// GetUnit returns a unit from the database, along with all of the data
	// associated with that unit.
	// If bc is not nil, get only the Documentation that matches it (or nil if none do).
	func (db DB) GetUnit(ctx context.Context, um internal.UnitMeta, fields internal.FieldSet, bc internal.BuildContext) (_ *internal.Unit, err error) {
	defer derrors.WrapStack(&err, "GetUnit(ctx, %q, %q, %q, %v)", um.Path, um.ModulePath, um.Version, bc)

	u := &internal.Unit{UnitMeta: *um}
	if fields&internal.WithMain != 0 {
	u, err = db.getUnitWithAllFields(ctx, um, bc)
	if err != nil {
	return nil, err
	}
	}
	if fields&internal.WithImports == 0 &&
	fields&internal.WithLicenses == 0 {
	return u, nil
	}

	defer middleware.ElapsedStat(ctx, "GetUnit")()
	unitID, err := db.getUnitID(ctx, um.Path, um.ModulePath, um.Version)
	if err != nil {
	return nil, err
	}

	if fields&internal.WithImports != 0 {
	imports, err := db.getImports(ctx, unitID)
	if err != nil {
	return nil, err
	}
	if len(imports) > 0 {
	u.Imports = imports
	u.NumImports = len(imports)
	}
	}
	if fields&internal.WithLicenses != 0 {
	lics, err := db.getLicenses(ctx, u.Path, u.ModulePath, unitID)
	if err != nil {
	return nil, err
	}
	u.LicenseContents = lics
	}
	if db.bypassLicenseCheck {
	u.IsRedistributable = true
	} else {
	u.RemoveNonRedistributableData()
	}
	return u, nil
	}

	func (db *DB) getUnitID(ctx context.Context, fullPath, modulePath, resolvedVersion string) (_ int, err error) {
	defer derrors.WrapStack(&err, "getUnitID(ctx, %q, %q, %q)", fullPath, modulePath, resolvedVersion)
	defer middleware.ElapsedStat(ctx, "getUnitID")()
	var unitID int
	query := `
	SELECT u.id
	FROM units u
	INNER JOIN paths p ON (p.id = u.path_id)
	INNER JOIN modules m ON (u.module_id = m.id)
	WHERE
	p.path = $1
	AND m.module_path = $2
	AND m.version = $3;`
	err = db.db.QueryRow(ctx, query, fullPath, modulePath, resolvedVersion).Scan(&unitID)
	switch err {
	case sql.ErrNoRows:
	return 0, derrors.NotFound
	case nil:
	return unitID, nil
	default:
	return 0, err
	}
	}

	// getImports returns the imports corresponding to unitID.
	func (db *DB) getImports(ctx context.Context, unitID int) (_ []string, err error) {
	defer derrors.WrapStack(&err, "getImports(ctx, %d)", unitID)
	defer middleware.ElapsedStat(ctx, "getImports")()
	query := `
	SELECT p.path
	FROM paths p INNER JOIN imports i ON p.id = i.to_path_id
	WHERE i.unit_id = $1`
	return db.db.CollectStrings(ctx, query, unitID)
	}

	// getPackagesInUnit returns all of the packages in a unit from a
	// module_id, including the package that lives at fullPath, if present.
	func (db DB) getPackagesInUnit(ctx context.Context, fullPath string, moduleID int) (_ []internal.PackageMeta, err error) {
	return getPackagesInUnit(ctx, db.db, fullPath, "", "", moduleID, db.bypassLicenseCheck)
	}

	func getPackagesInUnit(ctx context.Context, db database.DB, fullPath, modulePath, resolvedVersion string, moduleID int, bypassLicenseCheck bool) (_ []internal.PackageMeta, err error) {
	defer derrors.WrapStack(&err, "getPackagesInUnit(ctx, %q, %q, %q, %d)", fullPath, modulePath, resolvedVersion, moduleID)
	defer middleware.ElapsedStat(ctx, "getPackagesInUnit")()

	queryBuilder := squirrel.Select(
	"p.path",
	"u.name",
	"u.redistributable",
	"d.synopsis",
	"d.GOOS",
	"d.GOARCH",
	"u.license_types",
	"u.license_paths",
	).From("units u")

	if moduleID != -1 {
	queryBuilder = queryBuilder.Join("paths p ON p.id = u.path_id").
	LeftJoin("documentation d ON d.unit_id = u.id").
	Where(squirrel.Eq{"u.module_id": moduleID})
	} else {
	queryBuilder = queryBuilder.
	Join("modules m ON u.module_id = m.id").
	Join("paths p ON p.id = u.path_id").
	LeftJoin("documentation d ON d.unit_id = u.id").
	Where(squirrel.Eq{"m.module_path": modulePath}).
	Where(squirrel.Eq{"m.version": resolvedVersion})
	}

	queryBuilder = queryBuilder.Where(squirrel.NotEq{"u.name": ""})

	query, args, err := queryBuilder.PlaceholderFormat(squirrel.Dollar).ToSql()
	if err != nil {
	return nil, err
	}

	// If a package has more than build context (GOOS/GOARCH pair), it will have
	// more than one row in documentation, and this query will produce multiple
	// rows for that package. If we could sort the build contexts in SQL we
	// could deal with that in the query, but we must sort in code, so we read
	// all the rows and pick the right one afterwards.
	type pmbc struct {
	pm *internal.PackageMeta
	bc internal.BuildContext
	}
	packagesByPath := map[string][]pmbc{}
	collect := func(rows *sql.Rows) error {
	var (
	pkg internal.PackageMeta
	licenseTypes []string
	licensePaths []string
	bc internal.BuildContext
	)
	if err := rows.Scan(
	&pkg.Path,
	&pkg.Name,
	&pkg.IsRedistributable,
	database.NullIsEmpty(&pkg.Synopsis),
	database.NullIsEmpty(&bc.GOOS),
	database.NullIsEmpty(&bc.GOARCH),
	pq.Array(&licenseTypes),
	pq.Array(&licensePaths),
	); err != nil {
	return fmt.Errorf("row.Scan(): %v", err)
	}
	if fullPath == stdlib.ModulePath \|\| pkg.Path == fullPath \|\| strings.HasPrefix(pkg.Path, fullPath+"/") {
	lics, err := zipLicenseMetadata(licenseTypes, licensePaths)
	if err != nil {
	return err
	}
	pkg.Licenses = lics
	packagesByPath[pkg.Path] = append(packagesByPath[pkg.Path], pmbc{&pkg, bc})
	}
	return nil
	}
	if err := db.RunQuery(ctx, query, collect, args...); err != nil {
	return nil, err
	}

	var packages []*internal.PackageMeta
	for _, ps := range packagesByPath {
	sort.Slice(ps, func(i, j int) bool { return internal.CompareBuildContexts(ps[i].bc, ps[j].bc) < 0 })
	packages = append(packages, ps[0].pm)
	}
	sort.Slice(packages, func(i, j int) bool { return packages[i].Path < packages[j].Path })
	for _, p := range packages {
	if bypassLicenseCheck {
	p.IsRedistributable = true
	} else {
	p.RemoveNonRedistributableData()
	}
	}
	return packages, nil
	}

	func (db DB) getUnitWithAllFields(ctx context.Context, um internal.UnitMeta, bc internal.BuildContext) (_ *internal.Unit, err error) {
	defer derrors.WrapStack(&err, "getUnitWithAllFields(ctx, %q, %q, %q)", um.Path, um.ModulePath, um.Version)
	defer middleware.ElapsedStat(ctx, "getUnitWithAllFields")()

	// Get build contexts and unit ID.
	var pathID, unitID, moduleID int
	var bcs []internal.BuildContext
	err = db.db.RunQuery(ctx, `
	SELECT d.goos, d.goarch, u.id, p.id, u.module_id
	FROM units u
	INNER JOIN paths p ON p.id = u.path_id
	INNER JOIN modules m ON m.id = u.module_id
	LEFT JOIN documentation d ON d.unit_id = u.id
	WHERE
	p.path = $1
	AND m.module_path = $2
	AND m.version = $3
	`, func(rows *sql.Rows) error {
	var bc internal.BuildContext
	// GOOS and GOARCH will be NULL if there are no documentation rows for
	// the unit, but we still want the unit ID.

	if err := rows.Scan(database.NullIsEmpty(&bc.GOOS), database.NullIsEmpty(&bc.GOARCH), &unitID, &pathID, &moduleID); err != nil {
	return err
	}
	if bc.GOOS != "" && bc.GOARCH != "" {
	bcs = append(bcs, bc)
	}
	return nil
	}, um.Path, um.ModulePath, um.Version)
	if err != nil {
	return nil, err
	}
	sort.Slice(bcs, func(i, j int) bool { return internal.CompareBuildContexts(bcs[i], bcs[j]) < 0 })
	var bcMatched internal.BuildContext
	for _, c := range bcs {
	if bc.Match(c) {
	bcMatched = c
	break
	}
	}
	// Get README, documentation and import counts.
	query := `
	SELECT
	r.file_path,
	r.contents,
	d.synopsis,
	d.source,
	COALESCE((
	SELECT COUNT(unit_id)
	FROM imports
	WHERE unit_id = u.id
	GROUP BY unit_id
	), 0) AS num_imports,
	COALESCE((
	SELECT imported_by_count
	FROM search_documents
	-- Only package_path_id is needed b/c it is the PK for
	-- search_documents.
	WHERE package_path_id = $1
	), 0) AS num_imported_by
	FROM units u
	LEFT JOIN readmes r
	ON r.unit_id = u.id

	LEFT JOIN (
	SELECT synopsis, source, goos, goarch, unit_id
	FROM documentation d
	WHERE d.GOOS = $3 AND d.GOARCH = $4
	) d
	ON d.unit_id = u.id
	WHERE u.id = $2
	`
	var (
	r internal.Readme
	u internal.Unit
	)
	u.BuildContexts = bcs
	var goos, goarch interface{}
	if bcMatched.GOOS != "" {
	goos = bcMatched.GOOS
	goarch = bcMatched.GOARCH
	}
	doc := &internal.Documentation{GOOS: bcMatched.GOOS, GOARCH: bcMatched.GOARCH}
	end := middleware.ElapsedStat(ctx, "getUnitWithAllFields-readme-and-imports")
	err = db.db.QueryRow(ctx, query, pathID, unitID, goos, goarch).Scan(
	database.NullIsEmpty(&r.Filepath),
	database.NullIsEmpty(&r.Contents),
	database.NullIsEmpty(&doc.Synopsis),
	&doc.Source,
	&u.NumImports,
	&u.NumImportedBy,
	)
	switch err {
	case sql.ErrNoRows:
	// Neither a README nor documentation; that's OK, continue.
	case nil:
	if r.Filepath != "" && um.ModulePath != stdlib.ModulePath {
	u.Readme = &r
	}
	if doc.GOOS != "" {
	u.Documentation = []*internal.Documentation{doc}
	}
	default:
	return nil, err
	}
	end()
	// Get other info.
	pkgs, err := db.getPackagesInUnit(ctx, um.Path, moduleID)
	if err != nil {
	return nil, err
	}
	u.Subdirectories = pkgs
	u.UnitMeta = *um

	if um.IsPackage() && !um.IsCommand() && doc.Source != nil {
	u.SymbolHistory, err = GetSymbolHistoryForBuildContext(ctx, db.db, pathID, um.ModulePath, bcMatched)
	if err != nil {
	return nil, err
	}
	}
	return &u, nil
	}

	type dbPath struct {
	id int64
	path string
	moduleID int64
	name string
	licenseTypes []string
	licensePaths []string
	redistributable bool
	}

	func (db DB) getPathsInModule(ctx context.Context, modulePath, resolvedVersion string) (_ []dbPath, err error) {
	defer derrors.WrapStack(&err, "DB.getPathsInModule(ctx, %q, %q)", modulePath, resolvedVersion)
	query := `
	SELECT
	u.id,
	p.path,
	u.module_id,
	u.name,
	u.license_types,
	u.license_paths,
	u.redistributable
	FROM
	units u
	INNER JOIN
	paths p
	ON
	p.id = u.path_id
	INNER JOIN
	modules m
	ON
	u.module_id = m.id
	WHERE
	m.module_path = $1
	AND m.version = $2
	ORDER BY path;`

	var paths []*dbPath
	collect := func(rows *sql.Rows) error {
	var p dbPath
	if err := rows.Scan(&p.id, &p.path, &p.moduleID, &p.name, pq.Array(&p.licenseTypes),
	pq.Array(&p.licensePaths), &p.redistributable); err != nil {
	return fmt.Errorf("row.Scan(): %v", err)
	}
	paths = append(paths, &p)
	return nil
	}
	if err := db.db.RunQuery(ctx, query, collect, modulePath, resolvedVersion); err != nil {
	return nil, err
	}
	return paths, nil
	}

	// GetModuleReadme returns the README corresponding to the modulePath and version.
	func (db DB) GetModuleReadme(ctx context.Context, modulePath, resolvedVersion string) (_ internal.Readme, err error) {
	return getModuleReadme(ctx, db.db, modulePath, resolvedVersion)
	}

	func getModuleReadme(ctx context.Context, db database.DB, modulePath, resolvedVersion string) (_ internal.Readme, err error) {
	defer derrors.WrapStack(&err, "getModuleReadme(ctx, %q, %q)", modulePath, resolvedVersion)
	var readme internal.Readme
	err = db.QueryRow(ctx, `
	SELECT file_path, contents
	FROM modules m
	INNER JOIN units u
	ON u.module_id = m.id
	INNER JOIN paths p
	ON u.path_id = p.id
	INNER JOIN readmes r
	ON u.id = r.unit_id
	WHERE
	m.module_path=$1
	AND m.version=$2
	AND m.module_path=p.path`, modulePath, resolvedVersion).Scan(&readme.Filepath, &readme.Contents)
	switch err {
	case sql.ErrNoRows:
	return nil, derrors.NotFound
	case nil:
	return &readme, nil
	default:
	return nil, err
	}
	}