internal/frontend/search.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 frontend

 import (
 	"context"
 	"errors"
 	"fmt"
 	"math"
 	"net/http"
 	"path"
 	"strings"
 	"time"

 	"github.com/google/safehtml/template"
 	"golang.org/x/pkgsite/internal"
 	"golang.org/x/pkgsite/internal/derrors"
 	"golang.org/x/pkgsite/internal/log"
 	"golang.org/x/pkgsite/internal/postgres"
 )

 const defaultSearchLimit = 10

 // SearchPage contains all of the data that the search template needs to
 // populate.
 type SearchPage struct {
 	basePage
 	Pagination pagination
 	Results    []*SearchResult
 }

 // SearchResult contains data needed to display a single search result.
 type SearchResult struct {
 	Name           string
 	PackagePath    string
 	ModulePath     string
 	Synopsis       string
 	DisplayVersion string
 	Licenses       []string
 	CommitTime     string
 	NumImportedBy  uint64
 	Approximate    bool
 }

 // fetchSearchPage fetches data matching the search query from the database and
 // returns a SearchPage.
 func fetchSearchPage(ctx context.Context, db *postgres.DB, query string, pageParams paginationParams) (*SearchPage, error) {
 	maxResultCount := maxSearchOffset + pageParams.limit
 	dbresults, err := db.Search(ctx, query, pageParams.limit, pageParams.offset(), maxResultCount)
 	if err != nil {
 		return nil, err
 	}

 	var results []*SearchResult
 	for _, r := range dbresults {
 		results = append(results, &SearchResult{
 			Name:           r.Name,
 			PackagePath:    r.PackagePath,
 			ModulePath:     r.ModulePath,
 			Synopsis:       r.Synopsis,
 			DisplayVersion: displayVersion(r.Version, r.ModulePath),
 			Licenses:       r.Licenses,
 			CommitTime:     elapsedTime(r.CommitTime),
 			NumImportedBy:  r.NumImportedBy,
 		})
 	}

 	var (
 		numResults  int
 		approximate bool
 	)
 	if len(dbresults) > 0 {
 		numResults = int(dbresults[0].NumResults)
 		if dbresults[0].Approximate {
 			// 128 buckets corresponds to a standard error of 10%.
 			// http://algo.inria.fr/flajolet/Publications/FlFuGaMe07.pdf
 			numResults = approximateNumber(numResults, 0.1)
 			approximate = true
 		}
 	}

 	pgs := newPagination(pageParams, len(results), numResults)
 	pgs.Approximate = approximate
 	return &SearchPage{
 		Results:    results,
 		Pagination: pgs,
 	}, nil
 }

 // approximateNumber returns an approximation of the estimate, calibrated by
 // the statistical estimate of standard error.
 // i.e., a number that isn't misleading when we say '1-10 of approximately N
 // results', but that is still close to our estimate.
 func approximateNumber(estimate int, sigma float64) int {
 	expectedErr := sigma * float64(estimate)
 	// Compute the unit by rounding the error the logarithmically closest power
 	// of 10, so that 300->100, but 400->1000.
 	unit := math.Pow(10, math.Round(math.Log10(expectedErr)))
 	// Now round the estimate to the nearest unit.
 	return int(unit * math.Round(float64(estimate)/unit))
 }

 // Search constraints.
 const (
 	// maxSearchQueryLength represents the max number of characters that a search
 	// query can be. For PostgreSQL 11, there is a max length of 2K bytes:
 	// https://www.postgresql.org/docs/11/textsearch-limitations.html. No valid
 	// searches on pkg.go.dev will need more than the maxSearchQueryLength.
 	maxSearchQueryLength = 500

 	// maxSearchOffset is the maximum allowed offset into the search results.
 	// This prevents some very CPU-intensive queries from running.
 	maxSearchOffset = 90

 	// maxSearchPageSize is the maximum allowed limit for search results.
 	maxSearchPageSize = 100
 )

 // serveSearch applies database data to the search template. Handles endpoint
 // /search?q=<query>. If <query> is an exact match for a package path, the user
 // will be redirected to the details page.
 func (s *Server) serveSearch(w http.ResponseWriter, r *http.Request, ds internal.DataSource) error {
 	if r.Method != http.MethodGet {
 		return &serverError{status: http.StatusMethodNotAllowed}
 	}
 	db, ok := ds.(*postgres.DB)
 	if !ok {
 		// The proxydatasource does not support the imported by page.
 		return proxydatasourceNotSupportedErr()
 	}

 	ctx := r.Context()
 	query := searchQuery(r)
 	if len(query) > maxSearchQueryLength {
 		return &serverError{
 			status: http.StatusBadRequest,
 			epage: &errorPage{
 				messageTemplate: template.MakeTrustedTemplate(
 					`<h3 class="Error-message">Search query too long.</h3>`),
 			},
 		}
 	}
 	if query == "" {
 		http.Redirect(w, r, "/", http.StatusFound)
 		return nil
 	}
 	pageParams := newPaginationParams(r, defaultSearchLimit)
 	if pageParams.offset() > maxSearchOffset {
 		return &serverError{
 			status: http.StatusBadRequest,
 			epage: &errorPage{
 				messageTemplate: template.MakeTrustedTemplate(
 					`<h3 class="Error-message">Search page number too large.</h3>`),
 			},
 		}
 	}
 	if pageParams.limit > maxSearchPageSize {
 		return &serverError{
 			status: http.StatusBadRequest,
 			epage: &errorPage{
 				messageTemplate: template.MakeTrustedTemplate(
 					`<h3 class="Error-message">Search page size too large.</h3>`),
 			},
 		}
 	}

 	if path := searchRequestRedirectPath(ctx, ds, query); path != "" {
 		http.Redirect(w, r, path, http.StatusFound)
 		return nil
 	}
 	page, err := fetchSearchPage(ctx, db, query, pageParams)
 	if err != nil {
 		return fmt.Errorf("fetchSearchPage(ctx, db, %q): %v", query, err)
 	}
 	page.basePage = s.newBasePage(r, fmt.Sprintf("%s - Search Results", query))
 	s.servePage(ctx, w, "search.tmpl", page)
 	return nil
 }

 // searchRequestRedirectPath returns the path that a search request should be
 // redirected to, or the empty string if there is no such path. If the user
 // types an existing package path into the search bar, we will redirect the
 // user to the details page. Standard library packages that only contain one
 // element (such as fmt, errors, etc.) will not redirect, to allow users to
 // search by those terms.
 func searchRequestRedirectPath(ctx context.Context, ds internal.DataSource, query string) string {
 	urlSchemeIdx := strings.Index(query, "://")
 	if urlSchemeIdx > -1 {
 		query = query[urlSchemeIdx+3:]
 	}
 	requestedPath := path.Clean(query)
 	if !strings.Contains(requestedPath, "/") {
 		return ""
 	}
 	um, err := ds.GetUnitMeta(ctx, requestedPath, internal.UnknownModulePath, internal.LatestVersion)
 	if err != nil {
 		if !errors.Is(err, derrors.NotFound) {
 			log.Errorf(ctx, "searchRequestRedirectPath(%q): %v", requestedPath, err)
 		}
 		return ""
 	}
 	if um.IsPackage() || um.ModulePath != requestedPath {
 		return fmt.Sprintf("/%s", requestedPath)
 	}
 	return fmt.Sprintf("/mod/%s", requestedPath)
 }

 // searchQuery extracts a search query from the request.
 func searchQuery(r *http.Request) string {
 	return strings.TrimSpace(r.FormValue("q"))
 }

 // elapsedTime takes a date and returns returns human-readable,
 // relative timestamps based on the following rules:
 // (1) 'X hours ago' when X < 6
 // (2) 'today' between 6 hours and 1 day ago
 // (3) 'Y days ago' when Y < 6
 // (4) A date formatted like "Jan 2, 2006" for anything further back
 func elapsedTime(date time.Time) string {
 	elapsedHours := int(time.Since(date).Hours())
 	if elapsedHours == 1 {
 		return "1 hour ago"
 	} else if elapsedHours < 6 {
 		return fmt.Sprintf("%d hours ago", elapsedHours)
 	}

 	elapsedDays := elapsedHours / 24
 	if elapsedDays < 1 {
 		return "today"
 	} else if elapsedDays == 1 {
 		return "1 day ago"
 	} else if elapsedDays < 6 {
 		return fmt.Sprintf("%d days ago", elapsedDays)
 	}

 	return date.Format("Jan _2, 2006")
 }
	// 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 frontend

	import (
	"context"
	"errors"
	"fmt"
	"math"
	"net/http"
	"path"
	"strings"
	"time"

	"github.com/google/safehtml/template"
	"golang.org/x/pkgsite/internal"
	"golang.org/x/pkgsite/internal/derrors"
	"golang.org/x/pkgsite/internal/log"
	"golang.org/x/pkgsite/internal/postgres"
	)

	const defaultSearchLimit = 10

	// SearchPage contains all of the data that the search template needs to
	// populate.
	type SearchPage struct {
	basePage
	Pagination pagination
	Results []*SearchResult
	}

	// SearchResult contains data needed to display a single search result.
	type SearchResult struct {
	Name string
	PackagePath string
	ModulePath string
	Synopsis string
	DisplayVersion string
	Licenses []string
	CommitTime string
	NumImportedBy uint64
	Approximate bool
	}

	// fetchSearchPage fetches data matching the search query from the database and
	// returns a SearchPage.
	func fetchSearchPage(ctx context.Context, db postgres.DB, query string, pageParams paginationParams) (SearchPage, error) {
	maxResultCount := maxSearchOffset + pageParams.limit
	dbresults, err := db.Search(ctx, query, pageParams.limit, pageParams.offset(), maxResultCount)
	if err != nil {
	return nil, err
	}

	var results []*SearchResult
	for _, r := range dbresults {
	results = append(results, &SearchResult{
	Name: r.Name,
	PackagePath: r.PackagePath,
	ModulePath: r.ModulePath,
	Synopsis: r.Synopsis,
	DisplayVersion: displayVersion(r.Version, r.ModulePath),
	Licenses: r.Licenses,
	CommitTime: elapsedTime(r.CommitTime),
	NumImportedBy: r.NumImportedBy,
	})
	}

	var (
	numResults int
	approximate bool
	)
	if len(dbresults) > 0 {
	numResults = int(dbresults[0].NumResults)
	if dbresults[0].Approximate {
	// 128 buckets corresponds to a standard error of 10%.
	// http://algo.inria.fr/flajolet/Publications/FlFuGaMe07.pdf
	numResults = approximateNumber(numResults, 0.1)
	approximate = true
	}
	}

	pgs := newPagination(pageParams, len(results), numResults)
	pgs.Approximate = approximate
	return &SearchPage{
	Results: results,
	Pagination: pgs,
	}, nil
	}

	// approximateNumber returns an approximation of the estimate, calibrated by
	// the statistical estimate of standard error.
	// i.e., a number that isn't misleading when we say '1-10 of approximately N
	// results', but that is still close to our estimate.
	func approximateNumber(estimate int, sigma float64) int {
	expectedErr := sigma * float64(estimate)
	// Compute the unit by rounding the error the logarithmically closest power
	// of 10, so that 300->100, but 400->1000.
	unit := math.Pow(10, math.Round(math.Log10(expectedErr)))
	// Now round the estimate to the nearest unit.
	return int(unit * math.Round(float64(estimate)/unit))
	}

	// Search constraints.
	const (
	// maxSearchQueryLength represents the max number of characters that a search
	// query can be. For PostgreSQL 11, there is a max length of 2K bytes:
	// https://www.postgresql.org/docs/11/textsearch-limitations.html. No valid
	// searches on pkg.go.dev will need more than the maxSearchQueryLength.
	maxSearchQueryLength = 500

	// maxSearchOffset is the maximum allowed offset into the search results.
	// This prevents some very CPU-intensive queries from running.
	maxSearchOffset = 90

	// maxSearchPageSize is the maximum allowed limit for search results.
	maxSearchPageSize = 100
	)

	// serveSearch applies database data to the search template. Handles endpoint
	// /search?q=<query>. If <query> is an exact match for a package path, the user
	// will be redirected to the details page.
	func (s Server) serveSearch(w http.ResponseWriter, r http.Request, ds internal.DataSource) error {
	if r.Method != http.MethodGet {
	return &serverError{status: http.StatusMethodNotAllowed}
	}
	db, ok := ds.(*postgres.DB)
	if !ok {
	// The proxydatasource does not support the imported by page.
	return proxydatasourceNotSupportedErr()
	}

	ctx := r.Context()
	query := searchQuery(r)
	if len(query) > maxSearchQueryLength {
	return &serverError{
	status: http.StatusBadRequest,
	epage: &errorPage{
	messageTemplate: template.MakeTrustedTemplate(
	`<h3 class="Error-message">Search query too long.</h3>`),
	},
	}
	}
	if query == "" {
	http.Redirect(w, r, "/", http.StatusFound)
	return nil
	}
	pageParams := newPaginationParams(r, defaultSearchLimit)
	if pageParams.offset() > maxSearchOffset {
	return &serverError{
	status: http.StatusBadRequest,
	epage: &errorPage{
	messageTemplate: template.MakeTrustedTemplate(
	`<h3 class="Error-message">Search page number too large.</h3>`),
	},
	}
	}
	if pageParams.limit > maxSearchPageSize {
	return &serverError{
	status: http.StatusBadRequest,
	epage: &errorPage{
	messageTemplate: template.MakeTrustedTemplate(
	`<h3 class="Error-message">Search page size too large.</h3>`),
	},
	}
	}

	if path := searchRequestRedirectPath(ctx, ds, query); path != "" {
	http.Redirect(w, r, path, http.StatusFound)
	return nil
	}
	page, err := fetchSearchPage(ctx, db, query, pageParams)
	if err != nil {
	return fmt.Errorf("fetchSearchPage(ctx, db, %q): %v", query, err)
	}
	page.basePage = s.newBasePage(r, fmt.Sprintf("%s - Search Results", query))
	s.servePage(ctx, w, "search.tmpl", page)
	return nil
	}

	// searchRequestRedirectPath returns the path that a search request should be
	// redirected to, or the empty string if there is no such path. If the user
	// types an existing package path into the search bar, we will redirect the
	// user to the details page. Standard library packages that only contain one
	// element (such as fmt, errors, etc.) will not redirect, to allow users to
	// search by those terms.
	func searchRequestRedirectPath(ctx context.Context, ds internal.DataSource, query string) string {
	urlSchemeIdx := strings.Index(query, "://")
	if urlSchemeIdx > -1 {
	query = query[urlSchemeIdx+3:]
	}
	requestedPath := path.Clean(query)
	if !strings.Contains(requestedPath, "/") {
	return ""
	}
	um, err := ds.GetUnitMeta(ctx, requestedPath, internal.UnknownModulePath, internal.LatestVersion)
	if err != nil {
	if !errors.Is(err, derrors.NotFound) {
	log.Errorf(ctx, "searchRequestRedirectPath(%q): %v", requestedPath, err)
	}
	return ""
	}
	if um.IsPackage() \|\| um.ModulePath != requestedPath {
	return fmt.Sprintf("/%s", requestedPath)
	}
	return fmt.Sprintf("/mod/%s", requestedPath)
	}

	// searchQuery extracts a search query from the request.
	func searchQuery(r *http.Request) string {
	return strings.TrimSpace(r.FormValue("q"))
	}

	// elapsedTime takes a date and returns returns human-readable,
	// relative timestamps based on the following rules:
	// (1) 'X hours ago' when X < 6
	// (2) 'today' between 6 hours and 1 day ago
	// (3) 'Y days ago' when Y < 6
	// (4) A date formatted like "Jan 2, 2006" for anything further back
	func elapsedTime(date time.Time) string {
	elapsedHours := int(time.Since(date).Hours())
	if elapsedHours == 1 {
	return "1 hour ago"
	} else if elapsedHours < 6 {
	return fmt.Sprintf("%d hours ago", elapsedHours)
	}

	elapsedDays := elapsedHours / 24
	if elapsedDays < 1 {
	return "today"
	} else if elapsedDays == 1 {
	return "1 day ago"
	} else if elapsedDays < 6 {
	return fmt.Sprintf("%d days ago", elapsedDays)
	}

	return date.Format("Jan _2, 2006")
	}