updater: Refactor and merge fetcher responses

Fixes #17 and lays the groundwork for #19.
This commit is contained in:
Quentin Machu 2015-12-01 14:58:17 -05:00
parent 867279a5c9
commit a7b683d4ba
8 changed files with 257 additions and 199 deletions

View File

@ -14,10 +14,7 @@
package updater
import (
"github.com/coreos/clair/database"
"github.com/coreos/clair/utils/types"
)
import "github.com/coreos/clair/database"
var fetchers = make(map[string]Fetcher)
@ -31,17 +28,8 @@ type FetcherResponse struct {
FlagName string
FlagValue string
Notes []string
Vulnerabilities []FetcherVulnerability
}
// FetcherVulnerability represents an individual vulnerability processed from
// an update.
type FetcherVulnerability struct {
ID string
Link string
Description string
Priority types.Priority
FixedIn []*database.Package
Vulnerabilities []*database.Vulnerability
Packages []*database.Package
}
// RegisterFetcher makes a Fetcher available by the provided name.

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@ -24,8 +24,8 @@ import (
"strings"
"github.com/coreos/clair/database"
cerrors "github.com/coreos/clair/utils/errors"
"github.com/coreos/clair/updater"
cerrors "github.com/coreos/clair/utils/errors"
"github.com/coreos/clair/utils/types"
)
@ -114,7 +114,8 @@ func buildResponse(jsonReader io.Reader, latestKnownHash string) (resp updater.F
}
// Extract vulnerability data from Debian's JSON schema.
vulnerabilities, unknownReleases := parseDebianJSON(&data)
var unknownReleases map[string]struct{}
resp.Vulnerabilities, resp.Packages, unknownReleases = parseDebianJSON(&data)
// Log unknown releases
for k := range unknownReleases {
@ -123,16 +124,11 @@ func buildResponse(jsonReader io.Reader, latestKnownHash string) (resp updater.F
log.Warning(note)
}
// Convert the vulnerabilities map to a slice in the response
for _, v := range vulnerabilities {
resp.Vulnerabilities = append(resp.Vulnerabilities, v)
}
return resp, nil
}
func parseDebianJSON(data *jsonData) (vulnerabilities map[string]updater.FetcherVulnerability, unknownReleases map[string]struct{}) {
vulnerabilities = make(map[string]updater.FetcherVulnerability)
func parseDebianJSON(data *jsonData) (vulnerabilities []*database.Vulnerability, packages []*database.Package, unknownReleases map[string]struct{}) {
mvulnerabilities := make(map[string]*database.Vulnerability)
unknownReleases = make(map[string]struct{})
for pkgName, pkgNode := range *data {
@ -150,9 +146,9 @@ func parseDebianJSON(data *jsonData) (vulnerabilities map[string]updater.Fetcher
}
// Get or create the vulnerability.
vulnerability, vulnerabilityAlreadyExists := vulnerabilities[vulnName]
vulnerability, vulnerabilityAlreadyExists := mvulnerabilities[vulnName]
if !vulnerabilityAlreadyExists {
vulnerability = updater.FetcherVulnerability{
vulnerability = &database.Vulnerability{
ID: vulnName,
Link: strings.Join([]string{cveURLPrefix, "/", vulnName}, ""),
Priority: types.Unknown,
@ -191,14 +187,20 @@ func parseDebianJSON(data *jsonData) (vulnerabilities map[string]updater.Fetcher
Name: pkgName,
Version: version,
}
vulnerability.FixedIn = append(vulnerability.FixedIn, pkg)
vulnerability.FixedInNodes = append(vulnerability.FixedInNodes, pkg.GetNode())
packages = append(packages, pkg)
// Store the vulnerability.
vulnerabilities[vulnName] = vulnerability
mvulnerabilities[vulnName] = vulnerability
}
}
}
// Convert the vulnerabilities map to a slice
for _, v := range mvulnerabilities {
vulnerabilities = append(vulnerabilities, v)
}
return
}

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@ -38,39 +38,49 @@ func TestDebianParser(t *testing.T) {
assert.Equal(t, types.Low, vulnerability.Priority)
assert.Equal(t, "This vulnerability is not very dangerous.", vulnerability.Description)
if assert.Len(t, vulnerability.FixedIn, 2) {
assert.Contains(t, vulnerability.FixedIn, &database.Package{
expectedPackages := []*database.Package{
&database.Package{
OS: "debian:8",
Name: "aptdaemon",
Version: types.MaxVersion,
})
assert.Contains(t, vulnerability.FixedIn, &database.Package{
},
&database.Package{
OS: "debian:unstable",
Name: "aptdaemon",
Version: types.NewVersionUnsafe("1.1.1+bzr982-1"),
})
},
}
for _, expectedPackage := range expectedPackages {
assert.Contains(t, response.Packages, expectedPackage)
assert.Contains(t, vulnerability.FixedInNodes, expectedPackage.GetNode())
}
} else if vulnerability.ID == "CVE-2003-0779" {
assert.Equal(t, "https://security-tracker.debian.org/tracker/CVE-2003-0779", vulnerability.Link)
assert.Equal(t, types.High, vulnerability.Priority)
assert.Equal(t, "But this one is very dangerous.", vulnerability.Description)
if assert.Len(t, vulnerability.FixedIn, 3) {
assert.Contains(t, vulnerability.FixedIn, &database.Package{
expectedPackages := []*database.Package{
&database.Package{
OS: "debian:8",
Name: "aptdaemon",
Version: types.NewVersionUnsafe("0.7.0"),
})
assert.Contains(t, vulnerability.FixedIn, &database.Package{
},
&database.Package{
OS: "debian:unstable",
Name: "aptdaemon",
Version: types.NewVersionUnsafe("0.7.0"),
})
assert.Contains(t, vulnerability.FixedIn, &database.Package{
},
&database.Package{
OS: "debian:8",
Name: "asterisk",
Version: types.NewVersionUnsafe("0.5.56"),
})
},
}
for _, expectedPackage := range expectedPackages {
assert.Contains(t, response.Packages, expectedPackage)
assert.Contains(t, vulnerability.FixedInNodes, expectedPackage.GetNode())
}
} else {
assert.Fail(t, "Wrong vulnerability name: ", vulnerability.ID)

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@ -24,8 +24,8 @@ import (
"strings"
"github.com/coreos/clair/database"
cerrors "github.com/coreos/clair/utils/errors"
"github.com/coreos/clair/updater"
cerrors "github.com/coreos/clair/utils/errors"
"github.com/coreos/clair/utils/types"
)
@ -128,17 +128,14 @@ func (f *RHELFetcher) FetchUpdate() (resp updater.FetcherResponse, err error) {
}
// Parse the XML.
vs, err := parseRHSA(r.Body)
vs, pkgs, err := parseRHSA(r.Body)
if err != nil {
return resp, err
}
// Collect vulnerabilities.
for _, v := range vs {
if len(v.FixedIn) > 0 {
resp.Vulnerabilities = append(resp.Vulnerabilities, v)
}
}
resp.Vulnerabilities = append(resp.Vulnerabilities, vs...)
resp.Packages = append(resp.Packages, pkgs...)
}
// Set the flag if we found anything.
@ -152,7 +149,7 @@ func (f *RHELFetcher) FetchUpdate() (resp updater.FetcherResponse, err error) {
return resp, nil
}
func parseRHSA(ovalReader io.Reader) (vulnerabilities []updater.FetcherVulnerability, err error) {
func parseRHSA(ovalReader io.Reader) (vulnerabilities []*database.Vulnerability, packages []*database.Package, err error) {
// Decode the XML.
var ov oval
err = xml.NewDecoder(ovalReader).Decode(&ov)
@ -163,18 +160,21 @@ func parseRHSA(ovalReader io.Reader) (vulnerabilities []updater.FetcherVulnerabi
}
// Iterate over the definitions and collect any vulnerabilities that affect
// more than one package.
// at least one package.
for _, definition := range ov.Definitions {
packages := toPackages(definition.Criteria)
if len(packages) > 0 {
vuln := updater.FetcherVulnerability{
pkgs := toPackages(definition.Criteria)
if len(pkgs) > 0 {
vulnerability := &database.Vulnerability{
ID: name(definition),
Link: link(definition),
Priority: priority(definition),
Description: description(definition),
FixedIn: packages,
}
vulnerabilities = append(vulnerabilities, vuln)
for _, p := range pkgs {
vulnerability.FixedInNodes = append(vulnerability.FixedInNodes, p.GetNode())
}
vulnerabilities = append(vulnerabilities, vulnerability)
packages = append(packages, pkgs...)
}
}

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@ -31,52 +31,62 @@ func TestRHELParser(t *testing.T) {
// Test parsing testdata/fetcher_rhel_test.1.xml
testFile, _ := os.Open(path + "/testdata/fetcher_rhel_test.1.xml")
vulnerabilities, err := parseRHSA(testFile)
vulnerabilities, packages, err := parseRHSA(testFile)
if assert.Nil(t, err) && assert.Len(t, vulnerabilities, 1) {
assert.Equal(t, "RHSA-2015:1193", vulnerabilities[0].ID)
assert.Equal(t, "https://rhn.redhat.com/errata/RHSA-2015-1193.html", vulnerabilities[0].Link)
assert.Equal(t, types.Medium, vulnerabilities[0].Priority)
assert.Equal(t, `Xerces-C is a validating XML parser written in a portable subset of C++. A flaw was found in the way the Xerces-C XML parser processed certain XML documents. A remote attacker could provide specially crafted XML input that, when parsed by an application using Xerces-C, would cause that application to crash.`, vulnerabilities[0].Description)
if assert.Len(t, vulnerabilities[0].FixedIn, 3) {
assert.Contains(t, vulnerabilities[0].FixedIn, &database.Package{
expectedPackages := []*database.Package{
&database.Package{
OS: "centos:7",
Name: "xerces-c",
Version: types.NewVersionUnsafe("3.1.1-7.el7_1"),
})
assert.Contains(t, vulnerabilities[0].FixedIn, &database.Package{
},
&database.Package{
OS: "centos:7",
Name: "xerces-c-devel",
Version: types.NewVersionUnsafe("3.1.1-7.el7_1"),
})
assert.Contains(t, vulnerabilities[0].FixedIn, &database.Package{
},
&database.Package{
OS: "centos:7",
Name: "xerces-c-doc",
Version: types.NewVersionUnsafe("3.1.1-7.el7_1"),
})
},
}
for _, expectedPackage := range expectedPackages {
assert.Contains(t, packages, expectedPackage)
assert.Contains(t, vulnerabilities[0].FixedInNodes, expectedPackage.GetNode())
}
}
// Test parsing testdata/fetcher_rhel_test.2.xml
testFile, _ = os.Open(path + "/testdata/fetcher_rhel_test.2.xml")
vulnerabilities, err = parseRHSA(testFile)
vulnerabilities, packages, err = parseRHSA(testFile)
if assert.Nil(t, err) && assert.Len(t, vulnerabilities, 1) {
assert.Equal(t, "RHSA-2015:1207", vulnerabilities[0].ID)
assert.Equal(t, "https://rhn.redhat.com/errata/RHSA-2015-1207.html", vulnerabilities[0].Link)
assert.Equal(t, types.Critical, vulnerabilities[0].Priority)
assert.Equal(t, `Mozilla Firefox is an open source web browser. XULRunner provides the XUL Runtime environment for Mozilla Firefox. Several flaws were found in the processing of malformed web content. A web page containing malicious content could cause Firefox to crash or, potentially, execute arbitrary code with the privileges of the user running Firefox.`, vulnerabilities[0].Description)
if assert.Len(t, vulnerabilities[0].FixedIn, 2) {
assert.Contains(t, vulnerabilities[0].FixedIn, &database.Package{
expectedPackages := []*database.Package{
&database.Package{
OS: "centos:6",
Name: "firefox",
Version: types.NewVersionUnsafe("38.1.0-1.el6_6"),
})
assert.Contains(t, vulnerabilities[0].FixedIn, &database.Package{
},
&database.Package{
OS: "centos:7",
Name: "firefox",
Version: types.NewVersionUnsafe("38.1.0-1.el7_1"),
})
},
}
for _, expectedPackage := range expectedPackages {
assert.Contains(t, packages, expectedPackage)
assert.Contains(t, vulnerabilities[0].FixedInNodes, expectedPackage.GetNode())
}
}
}

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@ -133,13 +133,14 @@ func (fetcher *UbuntuFetcher) FetchUpdate() (resp updater.FetcherResponse, err e
}
defer file.Close()
v, unknownReleases, err := parseUbuntuCVE(file)
v, pkgs, unknownReleases, err := parseUbuntuCVE(file)
if err != nil {
return resp, err
}
if len(v.FixedIn) > 0 {
if len(v.FixedInNodes) > 0 {
resp.Vulnerabilities = append(resp.Vulnerabilities, v)
resp.Packages = append(resp.Packages, pkgs...)
}
// Log any unknown releases.
@ -255,7 +256,8 @@ func getRevisionNumber(pathToRepo string) (int, error) {
return revno, nil
}
func parseUbuntuCVE(fileContent io.Reader) (vulnerability updater.FetcherVulnerability, unknownReleases map[string]struct{}, err error) {
func parseUbuntuCVE(fileContent io.Reader) (vulnerability *database.Vulnerability, packages []*database.Package, unknownReleases map[string]struct{}, err error) {
vulnerability = &database.Vulnerability{}
unknownReleases = make(map[string]struct{})
readingDescription := false
scanner := bufio.NewScanner(fileContent)
@ -351,7 +353,13 @@ func parseUbuntuCVE(fileContent io.Reader) (vulnerability updater.FetcherVulnera
}
// Create and add the new package.
vulnerability.FixedIn = append(vulnerability.FixedIn, &database.Package{OS: "ubuntu:" + database.UbuntuReleasesMapping[md["release"]], Name: md["package"], Version: version})
pkg := &database.Package{
OS: "ubuntu:" + database.UbuntuReleasesMapping[md["release"]],
Name: md["package"],
Version: version,
}
packages = append(packages, pkg)
vulnerability.FixedInNodes = append(vulnerability.FixedInNodes, pkg.GetNode())
}
}
}

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@ -32,7 +32,7 @@ func TestUbuntuParser(t *testing.T) {
// Test parsing testdata/fetcher_
testData, _ := os.Open(path + "/testdata/fetcher_ubuntu_test.txt")
defer testData.Close()
vulnerability, unknownReleases, err := parseUbuntuCVE(testData)
vulnerability, packages, unknownReleases, err := parseUbuntuCVE(testData)
if assert.Nil(t, err) {
assert.Equal(t, "CVE-2015-4471", vulnerability.ID)
assert.Equal(t, types.Medium, vulnerability.Priority)
@ -42,22 +42,27 @@ func TestUbuntuParser(t *testing.T) {
_, hasUnkownRelease := unknownReleases["unknown"]
assert.True(t, hasUnkownRelease)
if assert.Len(t, vulnerability.FixedIn, 3) {
assert.Contains(t, vulnerability.FixedIn, &database.Package{
expectedPackages := []*database.Package{
&database.Package{
OS: "ubuntu:14.04",
Name: "libmspack",
Version: types.MaxVersion,
})
assert.Contains(t, vulnerability.FixedIn, &database.Package{
},
&database.Package{
OS: "ubuntu:15.04",
Name: "libmspack",
Version: types.NewVersionUnsafe("0.4-3"),
})
assert.Contains(t, vulnerability.FixedIn, &database.Package{
},
&database.Package{
OS: "ubuntu:15.10",
Name: "libmspack-anotherpkg",
Version: types.NewVersionUnsafe("0.1"),
})
},
}
for _, expectedPackage := range expectedPackages {
assert.Contains(t, packages, expectedPackage)
assert.Contains(t, vulnerability.FixedInNodes, expectedPackage.GetNode())
}
}
}

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@ -17,6 +17,8 @@
package updater
import (
"encoding/json"
"fmt"
"math/rand"
"strconv"
"time"
@ -30,23 +32,12 @@ import (
const (
flagName = "updater"
notesFlagName = "updater/notes"
refreshLockDuration = time.Minute * 8
lockDuration = refreshLockDuration + time.Minute*2
// healthMaxConsecutiveLocalFailures defines the number of times the updater
// can fail before we should tag it as unhealthy
healthMaxConsecutiveLocalFailures = 5
)
var (
log = capnslog.NewPackageLogger("github.com/coreos/clair", "updater")
healthLatestSuccessfulUpdate time.Time
healthLockOwner string
healthIdentifier string
healthConsecutiveLocalFailures int
healthNotes []string
)
var log = capnslog.NewPackageLogger("github.com/coreos/clair", "updater")
func init() {
health.RegisterHealthchecker("updater", Healthcheck)
@ -63,19 +54,17 @@ func Run(interval time.Duration, st *utils.Stopper) {
}
whoAmI := uuid.New()
healthIdentifier = whoAmI
log.Infof("updater service started. lock identifier: %s", whoAmI)
for {
// Set the next update time to (last update time + interval) or now if there
// is no last update time stored in database (first update) or if an error
// occurs
nextUpdate := time.Now().UTC()
if lastUpdateTSS, err := database.GetFlagValue(flagName); err == nil && lastUpdateTSS != "" {
if lastUpdateTS, err := strconv.ParseInt(lastUpdateTSS, 10, 64); err == nil {
healthLatestSuccessfulUpdate = time.Unix(lastUpdateTS, 0)
nextUpdate = time.Unix(lastUpdateTS, 0).Add(interval)
}
var nextUpdate time.Time
if lastUpdate := getLastUpdate(); !lastUpdate.IsZero() {
nextUpdate = lastUpdate.Add(interval)
} else {
nextUpdate = time.Now().UTC()
}
// If the next update timer is in the past, then try to update.
@ -84,8 +73,6 @@ func Run(interval time.Duration, st *utils.Stopper) {
log.Debug("attempting to obtain update lock")
hasLock, hasLockUntil := database.Lock(flagName, lockDuration, whoAmI)
if hasLock {
healthLockOwner = healthIdentifier
// Launch update in a new go routine.
doneC := make(chan bool, 1)
go func() {
@ -105,6 +92,8 @@ func Run(interval time.Duration, st *utils.Stopper) {
// Unlock the update.
database.Unlock(flagName, whoAmI)
continue
} else {
lockOwner, lockExpiration, err := database.LockInfo(flagName)
if err != nil {
@ -113,7 +102,6 @@ func Run(interval time.Duration, st *utils.Stopper) {
} else {
log.Debugf("update lock is already taken by %s until %v", lockOwner, lockExpiration)
nextUpdate = lockExpiration
healthLockOwner = lockOwner
}
}
}
@ -137,8 +125,62 @@ func Run(interval time.Duration, st *utils.Stopper) {
func Update() {
log.Info("updating vulnerabilities")
// Fetch updates.
status, responses := fetch()
// Merge responses.
vulnerabilities, packages, flags, notes, err := mergeAndVerify(responses)
if err != nil {
log.Errorf("an error occured when merging update responses: %s", err)
return
}
responses = nil
// TODO(Quentin-M): Complete informations using NVD
// Insert packages.
log.Tracef("beginning insertion of %d packages for update", len(packages))
err = database.InsertPackages(packages)
if err != nil {
log.Errorf("an error occured when inserting packages for update: %s", err)
return
}
packages = nil
// Insert vulnerabilities.
log.Tracef("beginning insertion of %d vulnerabilities for update", len(vulnerabilities))
notifications, err := database.InsertVulnerabilities(vulnerabilities)
if err != nil {
log.Errorf("an error occured when inserting vulnerabilities for update: %s", err)
return
}
vulnerabilities = nil
// Insert notifications into the database.
err = database.InsertNotifications(notifications, database.GetDefaultNotificationWrapper())
if err != nil {
log.Errorf("an error occured when inserting notifications for update: %s", err)
return
}
notifications = nil
// Update flags and notes.
for flagName, flagValue := range flags {
database.UpdateFlag(flagName, flagValue)
}
database.UpdateFlag(notesFlagName, notes)
// Update last successful update if every fetchers worked properly.
if status {
database.UpdateFlag(flagName, strconv.FormatInt(time.Now().UTC().Unix(), 10))
}
log.Info("update finished")
}
// fetch get data from the registered fetchers, in parallel.
func fetch() (status bool, responses []*FetcherResponse) {
// Fetch updates in parallel.
var status = true
status = true
var responseC = make(chan *FetcherResponse, 0)
for n, f := range fetchers {
go func(name string, fetcher Fetcher) {
@ -155,129 +197,122 @@ func Update() {
}
// Collect results of updates.
var responses []*FetcherResponse
var notes []string
for i := 0; i < len(fetchers); {
select {
case resp := <-responseC:
for i := 0; i < len(fetchers); i++ {
resp := <-responseC
if resp != nil {
responses = append(responses, resp)
notes = append(notes, resp.Notes...)
}
i++
}
}
close(responseC)
return
}
// TODO(Quentin-M): Merge responses together
// TODO(Quentin-M): Complete informations using NVD
// merge put all the responses together (vulnerabilities, packages, flags, notes), ensure the
// uniqueness of vulnerabilities and packages and verify that every vulnerability's fixedInNodes
// have their corresponding package definition.
func mergeAndVerify(responses []*FetcherResponse) (svulnerabilities []*database.Vulnerability, spackages []*database.Package, flags map[string]string, snotes string, err error) {
vulnerabilities := make(map[string]*database.Vulnerability)
packages := make(map[string]*database.Package)
flags = make(map[string]string)
var notes []string
// Store flags out of the response struct.
flags := make(map[string]string)
// Merge responses.
for _, response := range responses {
// Notes
notes = append(notes, response.Notes...)
// Flags
if response.FlagName != "" && response.FlagValue != "" {
flags[response.FlagName] = response.FlagValue
}
// Packages
for _, p := range response.Packages {
node := p.GetNode()
if _, ok := packages[node]; !ok {
packages[node] = p
}
// Update health notes.
healthNotes = notes
// Build list of packages.
var packages []*database.Package
for _, response := range responses {
}
// Vulnerabilities
for _, v := range response.Vulnerabilities {
packages = append(packages, v.FixedIn...)
}
}
// Insert packages into the database.
log.Tracef("beginning insertion of %d packages for update", len(packages))
t := time.Now()
err := database.InsertPackages(packages)
log.Tracef("inserting %d packages took %v", len(packages), time.Since(t))
if err != nil {
log.Errorf("an error occured when inserting packages for update: %s", err)
updateHealth(false)
return
}
packages = nil
// Build a list of vulnerabilties.
var vulnerabilities []*database.Vulnerability
for _, response := range responses {
for _, v := range response.Vulnerabilities {
var packageNodes []string
for _, pkg := range v.FixedIn {
packageNodes = append(packageNodes, pkg.Node)
}
vulnerabilities = append(vulnerabilities, &database.Vulnerability{ID: v.ID, Link: v.Link, Priority: v.Priority, Description: v.Description, FixedInNodes: packageNodes})
}
}
responses = nil
// Insert vulnerabilities into the database.
log.Tracef("beginning insertion of %d vulnerabilities for update", len(vulnerabilities))
t = time.Now()
notifications, err := database.InsertVulnerabilities(vulnerabilities)
log.Tracef("inserting %d vulnerabilities took %v", len(vulnerabilities), time.Since(t))
if err != nil {
log.Errorf("an error occured when inserting vulnerabilities for update: %s", err)
updateHealth(false)
return
}
vulnerabilities = nil
// Insert notifications into the database.
err = database.InsertNotifications(notifications, database.GetDefaultNotificationWrapper())
if err != nil {
log.Errorf("an error occured when inserting notifications for update: %s", err)
updateHealth(false)
return
}
notifications = nil
// Update flags in the database.
for flagName, flagValue := range flags {
database.UpdateFlag(flagName, flagValue)
}
// Update health depending on the status of the fetchers.
updateHealth(status)
if status {
now := time.Now().UTC()
database.UpdateFlag(flagName, strconv.FormatInt(now.Unix(), 10))
healthLatestSuccessfulUpdate = now
}
log.Info("update finished")
}
func updateHealth(s bool) {
if s == false {
healthConsecutiveLocalFailures++
if vulnerability, ok := vulnerabilities[v.ID]; !ok {
vulnerabilities[v.ID] = v
} else {
healthConsecutiveLocalFailures = 0
mergeVulnerability(vulnerability, v)
}
}
}
// Verify that the packages used in the vulnerabilities are specified.
for _, v := range vulnerabilities {
for _, node := range v.FixedInNodes {
if _, ok := packages[node]; !ok {
err = fmt.Errorf("vulnerability %s is fixed by an unspecified package", v.ID)
return
}
}
}
// Convert data and return
for _, v := range vulnerabilities {
svulnerabilities = append(svulnerabilities, v)
}
for _, p := range packages {
spackages = append(spackages, p)
}
bnotes, _ := json.Marshal(notes)
snotes = string(bnotes)
return
}
// mergeVulnerability updates the target vulnerability structure using the specified one.
func mergeVulnerability(target, source *database.Vulnerability) {
if source.Link != "" {
target.Link = source.Link
}
if source.Description != "" {
target.Description = source.Description
}
if source.Priority.Compare(target.Priority) > 0 {
target.Priority = source.Priority
}
for _, node := range source.FixedInNodes {
if !utils.Contains(node, target.FixedInNodes) {
target.FixedInNodes = append(target.FixedInNodes, node)
}
}
}
// Healthcheck returns the health of the updater service.
func Healthcheck() health.Status {
notes := getNotes()
return health.Status{
IsEssential: false,
IsHealthy: healthConsecutiveLocalFailures < healthMaxConsecutiveLocalFailures,
IsHealthy: len(notes) == 0,
Details: struct {
HealthIdentifier string
HealthLockOwner string
LatestSuccessfulUpdate time.Time
ConsecutiveLocalFailures int
Notes []string `json:",omitempty"`
}{
HealthIdentifier: healthIdentifier,
HealthLockOwner: healthLockOwner,
LatestSuccessfulUpdate: healthLatestSuccessfulUpdate,
ConsecutiveLocalFailures: healthConsecutiveLocalFailures,
Notes: healthNotes,
LatestSuccessfulUpdate: getLastUpdate(),
Notes: notes,
},
}
}
func getLastUpdate() time.Time {
if lastUpdateTSS, err := database.GetFlagValue(flagName); err == nil && lastUpdateTSS != "" {
if lastUpdateTS, err := strconv.ParseInt(lastUpdateTSS, 10, 64); err == nil {
return time.Unix(lastUpdateTS, 0).UTC()
}
}
return time.Time{}
}
func getNotes() (notes []string) {
if jsonNotes, err := database.GetFlagValue(notesFlagName); err == nil && jsonNotes != "" {
json.Unmarshal([]byte(jsonNotes), notes)
}
return
}