package oval import ( "fmt" "strings" "github.com/future-architect/vuls/config" "github.com/future-architect/vuls/models" "github.com/future-architect/vuls/util" "github.com/kotakanbe/goval-dictionary/db" ovalmodels "github.com/kotakanbe/goval-dictionary/models" ) // DebianBase is the base struct of Debian and Ubuntu type DebianBase struct { Base } func (o DebianBase) update(r *models.ScanResult, defPacks defPacks) { ovalContent := *o.convertToModel(&defPacks.def) ovalContent.Type = models.NewCveContentType(o.family) vinfo, ok := r.ScannedCves[defPacks.def.Debian.CveID] if !ok { util.Log.Debugf("%s is newly detected by OVAL", defPacks.def.Debian.CveID) vinfo = models.VulnInfo{ CveID: defPacks.def.Debian.CveID, Confidences: []models.Confidence{models.OvalMatch}, CveContents: models.NewCveContents(ovalContent), } } else { cveContents := vinfo.CveContents ctype := models.NewCveContentType(o.family) if _, ok := vinfo.CveContents[ctype]; ok { util.Log.Debugf("%s OVAL will be overwritten", defPacks.def.Debian.CveID) } else { util.Log.Debugf("%s is also detected by OVAL", defPacks.def.Debian.CveID) cveContents = models.CveContents{} } vinfo.Confidences.AppendIfMissing(models.OvalMatch) cveContents[ctype] = ovalContent vinfo.CveContents = cveContents } // uniq(vinfo.PackNames + defPacks.binpkgStat) for _, pack := range vinfo.AffectedPackages { defPacks.binpkgFixstat[pack.Name] = fixStat{ notFixedYet: pack.NotFixedYet, fixedIn: pack.FixedIn, isSrcPack: false, } } // Update package status of source packages. // In the case of Debian based Linux, sometimes source package name is difined as affected package in OVAL. // To display binary package name showed in apt-get, need to convert source name to binary name. for binName := range defPacks.binpkgFixstat { if srcPack, ok := r.SrcPackages.FindByBinName(binName); ok { for _, p := range defPacks.def.AffectedPacks { if p.Name == srcPack.Name { defPacks.binpkgFixstat[binName] = fixStat{ notFixedYet: p.NotFixedYet, fixedIn: p.Version, isSrcPack: true, srcPackName: srcPack.Name, } } } } } vinfo.AffectedPackages = defPacks.toPackStatuses() vinfo.AffectedPackages.Sort() r.ScannedCves[defPacks.def.Debian.CveID] = vinfo } func (o DebianBase) convertToModel(def *ovalmodels.Definition) *models.CveContent { var refs []models.Reference for _, r := range def.References { refs = append(refs, models.Reference{ Link: r.RefURL, Source: r.Source, RefID: r.RefID, }) } return &models.CveContent{ CveID: def.Debian.CveID, Title: def.Title, Summary: def.Description, Cvss2Severity: def.Advisory.Severity, Cvss3Severity: def.Advisory.Severity, References: refs, } } // Debian is the interface for Debian OVAL type Debian struct { DebianBase } // NewDebian creates OVAL client for Debian func NewDebian() Debian { return Debian{ DebianBase{ Base{ family: config.Debian, }, }, } } // FillWithOval returns scan result after updating CVE info by OVAL func (o Debian) FillWithOval(driver db.DB, r *models.ScanResult) (nCVEs int, err error) { //Debian's uname gives both of kernel release(uname -r), version(kernel-image version) linuxImage := "linux-image-" + r.RunningKernel.Release // Add linux and set the version of running kernel to search OVAL. if r.Container.ContainerID == "" { newVer := "" if p, ok := r.Packages[linuxImage]; ok { newVer = p.NewVersion } r.Packages["linux"] = models.Package{ Name: "linux", Version: r.RunningKernel.Version, NewVersion: newVer, } } var relatedDefs ovalResult if config.Conf.OvalDict.IsFetchViaHTTP() { if relatedDefs, err = getDefsByPackNameViaHTTP(r); err != nil { return 0, err } } else { if relatedDefs, err = getDefsByPackNameFromOvalDB(driver, r); err != nil { return 0, err } } delete(r.Packages, "linux") for _, defPacks := range relatedDefs.entries { // Remove "linux" added above for oval search // linux is not a real package name (key of affected packages in OVAL) if notFixedYet, ok := defPacks.binpkgFixstat["linux"]; ok { defPacks.binpkgFixstat[linuxImage] = notFixedYet delete(defPacks.binpkgFixstat, "linux") for i, p := range defPacks.def.AffectedPacks { if p.Name == "linux" { p.Name = linuxImage defPacks.def.AffectedPacks[i] = p } } } o.update(r, defPacks) } for _, vuln := range r.ScannedCves { if cont, ok := vuln.CveContents[models.Debian]; ok { cont.SourceLink = "https://security-tracker.debian.org/tracker/" + cont.CveID vuln.CveContents[models.Debian] = cont } } return len(relatedDefs.entries), nil } // Ubuntu is the interface for Debian OVAL type Ubuntu struct { DebianBase } // NewUbuntu creates OVAL client for Debian func NewUbuntu() Ubuntu { return Ubuntu{ DebianBase{ Base{ family: config.Ubuntu, }, }, } } // FillWithOval returns scan result after updating CVE info by OVAL func (o Ubuntu) FillWithOval(driver db.DB, r *models.ScanResult) (nCVEs int, err error) { switch major(r.Release) { case "14": kernelNamesInOval := []string{ "linux-aws", "linux-azure", "linux-lts-xenial", "linux-meta", "linux-meta-aws", "linux-meta-azure", "linux-meta-lts-xenial", "linux-signed", "linux-signed-azure", "linux-signed-lts-xenial", "linux", } return o.fillWithOval(driver, r, kernelNamesInOval) case "16": kernelNamesInOval := []string{ "linux-aws", "linux-aws-hwe", "linux-azure", "linux-euclid", "linux-flo", "linux-gcp", "linux-gke", "linux-goldfish", "linux-hwe", "linux-kvm", "linux-mako", "linux-meta", "linux-meta-aws", "linux-meta-aws-hwe", "linux-meta-azure", "linux-meta-gcp", "linux-meta-hwe", "linux-meta-kvm", "linux-meta-oracle", "linux-meta-raspi2", "linux-meta-snapdragon", "linux-oem", "linux-oracle", "linux-raspi2", "linux-signed", "linux-signed-azure", "linux-signed-gcp", "linux-signed-hwe", "linux-signed-oracle", "linux-snapdragon", "linux", } return o.fillWithOval(driver, r, kernelNamesInOval) case "18": kernelNamesInOval := []string{ "linux-aws", "linux-aws-5.0", "linux-azure", "linux-gcp", "linux-gcp-5.3", "linux-gke-4.15", "linux-gke-5.0", "linux-gke-5.3", "linux-hwe", "linux-kvm", "linux-meta", "linux-meta-aws", "linux-meta-aws-5.0", "linux-meta-azure", "linux-meta-gcp", "linux-meta-gcp-5.3", "linux-meta-gke-4.15", "linux-meta-gke-5.0", "linux-meta-gke-5.3", "linux-meta-hwe", "linux-meta-kvm", "linux-meta-oem", "linux-meta-oem-osp1", "linux-meta-oracle", "linux-meta-oracle-5.0", "linux-meta-oracle-5.3", "linux-meta-raspi2", "linux-meta-raspi2-5.3", "linux-meta-snapdragon", "linux-oem", "linux-oem-osp1", "linux-oracle", "linux-oracle-5.0", "linux-oracle-5.3", "linux-raspi2", "linux-raspi2-5.3", "linux-signed", "linux-signed-azure", "linux-signed-gcp", "linux-signed-gcp-5.3", "linux-signed-gke-4.15", "linux-signed-gke-5.0", "linux-signed-gke-5.3", "linux-signed-hwe", "linux-signed-oem", "linux-signed-oem-osp1", "linux-signed-oracle", "linux-signed-oracle-5.0", "linux-signed-oracle-5.3", "linux-snapdragon", "linux", } return o.fillWithOval(driver, r, kernelNamesInOval) } return 0, fmt.Errorf("Ubuntu %s is not support for now", r.Release) } func (o Ubuntu) fillWithOval(driver db.DB, r *models.ScanResult, kernelNamesInOval []string) (nCVEs int, err error) { linuxImage := "linux-image-" + r.RunningKernel.Release runningKernelVersion := "" kernelPkgInOVAL := "" isOVALKernelPkgAdded := false unusedKernels := []models.Package{} copiedSourcePkgs := models.SrcPackages{} if r.Container.ContainerID == "" { if v, ok := r.Packages[linuxImage]; ok { runningKernelVersion = v.Version } else { util.Log.Warnf("Unable to detect vulns of running kernel because the version of the runnning kernel is unknown. server: %s", r.ServerName) } for _, n := range kernelNamesInOval { if p, ok := r.Packages[n]; ok { kernelPkgInOVAL = p.Name break } } // remove unused kernels from packages to prevent detecting vulns of unused kernel for _, n := range kernelNamesInOval { if v, ok := r.Packages[n]; ok { unusedKernels = append(unusedKernels, v) delete(r.Packages, n) } } // Remove linux-* in order to detect only vulnerabilities in the running kernel. for n := range r.Packages { if n != kernelPkgInOVAL && strings.HasPrefix(n, "linux-") { unusedKernels = append(unusedKernels, r.Packages[n]) delete(r.Packages, n) } } for srcPackName, srcPack := range r.SrcPackages { copiedSourcePkgs[srcPackName] = srcPack targetBianryNames := []string{} for _, n := range srcPack.BinaryNames { if n == kernelPkgInOVAL || !strings.HasPrefix(n, "linux-") { targetBianryNames = append(targetBianryNames, n) } } srcPack.BinaryNames = targetBianryNames r.SrcPackages[srcPackName] = srcPack } if kernelPkgInOVAL == "" { util.Log.Warnf("The OVAL name of the running kernel image %+v is not found. So vulns of `linux` wll be detected. server: %s", r.RunningKernel, r.ServerName) kernelPkgInOVAL = "linux" isOVALKernelPkgAdded = true } if runningKernelVersion != "" { r.Packages[kernelPkgInOVAL] = models.Package{ Name: kernelPkgInOVAL, Version: runningKernelVersion, } } } var relatedDefs ovalResult if config.Conf.OvalDict.IsFetchViaHTTP() { if relatedDefs, err = getDefsByPackNameViaHTTP(r); err != nil { return 0, err } } else { if relatedDefs, err = getDefsByPackNameFromOvalDB(driver, r); err != nil { return 0, err } } if isOVALKernelPkgAdded { delete(r.Packages, kernelPkgInOVAL) } for _, p := range unusedKernels { r.Packages[p.Name] = p } r.SrcPackages = copiedSourcePkgs for _, defPacks := range relatedDefs.entries { // Remove "linux" added above for searching oval // "linux" is not a real package name (key of affected packages in OVAL) if nfy, ok := defPacks.binpkgFixstat[kernelPkgInOVAL]; isOVALKernelPkgAdded && ok { defPacks.binpkgFixstat[linuxImage] = nfy delete(defPacks.binpkgFixstat, kernelPkgInOVAL) for i, p := range defPacks.def.AffectedPacks { if p.Name == kernelPkgInOVAL { p.Name = linuxImage defPacks.def.AffectedPacks[i] = p } } } o.update(r, defPacks) } for _, vuln := range r.ScannedCves { if cont, ok := vuln.CveContents[models.Ubuntu]; ok { cont.SourceLink = "http://people.ubuntu.com/~ubuntu-security/cve/" + cont.CveID vuln.CveContents[models.Ubuntu] = cont } } return len(relatedDefs.entries), nil }