mirror of
https://github.com/netbirdio/netbird.git
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765aba2c1c
propagate context from all the API calls and log request ID, account ID and peer ID --------- Co-authored-by: Zoltan Papp <zoltan.pmail@gmail.com>
395 lines
11 KiB
Go
395 lines
11 KiB
Go
package posture
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import (
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"context"
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"errors"
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"net/netip"
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"regexp"
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"github.com/hashicorp/go-version"
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"github.com/rs/xid"
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"github.com/netbirdio/netbird/management/server/http/api"
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nbpeer "github.com/netbirdio/netbird/management/server/peer"
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"github.com/netbirdio/netbird/management/server/status"
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)
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const (
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NBVersionCheckName = "NBVersionCheck"
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OSVersionCheckName = "OSVersionCheck"
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GeoLocationCheckName = "GeoLocationCheck"
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PeerNetworkRangeCheckName = "PeerNetworkRangeCheck"
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ProcessCheckName = "ProcessCheck"
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CheckActionAllow string = "allow"
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CheckActionDeny string = "deny"
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)
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var (
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countryCodeRegex = regexp.MustCompile("^[a-zA-Z]{2}$")
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)
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// Check represents an interface for performing a check on a peer.
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type Check interface {
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Name() string
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Check(ctx context.Context, peer nbpeer.Peer) (bool, error)
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Validate() error
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}
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type Checks struct {
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// ID of the posture checks
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ID string `gorm:"primaryKey"`
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// Name of the posture checks
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Name string
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// Description of the posture checks visible in the UI
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Description string
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// AccountID is a reference to the Account that this object belongs
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AccountID string `json:"-" gorm:"index"`
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// Checks is a set of objects that perform the actual checks
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Checks ChecksDefinition `gorm:"serializer:json"`
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}
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// ChecksDefinition contains definition of actual check
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type ChecksDefinition struct {
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NBVersionCheck *NBVersionCheck `json:",omitempty"`
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OSVersionCheck *OSVersionCheck `json:",omitempty"`
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GeoLocationCheck *GeoLocationCheck `json:",omitempty"`
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PeerNetworkRangeCheck *PeerNetworkRangeCheck `json:",omitempty"`
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ProcessCheck *ProcessCheck `json:",omitempty"`
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}
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// Copy returns a copy of a checks definition.
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func (cd ChecksDefinition) Copy() ChecksDefinition {
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var cdCopy ChecksDefinition
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if cd.NBVersionCheck != nil {
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cdCopy.NBVersionCheck = &NBVersionCheck{
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MinVersion: cd.NBVersionCheck.MinVersion,
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}
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}
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if cd.OSVersionCheck != nil {
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cdCopy.OSVersionCheck = &OSVersionCheck{}
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osCheck := cd.OSVersionCheck
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if osCheck.Android != nil {
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cdCopy.OSVersionCheck.Android = &MinVersionCheck{MinVersion: osCheck.Android.MinVersion}
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}
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if osCheck.Darwin != nil {
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cdCopy.OSVersionCheck.Darwin = &MinVersionCheck{MinVersion: osCheck.Darwin.MinVersion}
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}
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if osCheck.Ios != nil {
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cdCopy.OSVersionCheck.Ios = &MinVersionCheck{MinVersion: osCheck.Ios.MinVersion}
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}
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if osCheck.Linux != nil {
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cdCopy.OSVersionCheck.Linux = &MinKernelVersionCheck{MinKernelVersion: osCheck.Linux.MinKernelVersion}
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}
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if osCheck.Windows != nil {
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cdCopy.OSVersionCheck.Windows = &MinKernelVersionCheck{MinKernelVersion: osCheck.Windows.MinKernelVersion}
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}
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}
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if cd.GeoLocationCheck != nil {
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geoCheck := cd.GeoLocationCheck
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cdCopy.GeoLocationCheck = &GeoLocationCheck{
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Action: geoCheck.Action,
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Locations: make([]Location, len(geoCheck.Locations)),
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}
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copy(cdCopy.GeoLocationCheck.Locations, geoCheck.Locations)
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}
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if cd.PeerNetworkRangeCheck != nil {
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peerNetRangeCheck := cd.PeerNetworkRangeCheck
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cdCopy.PeerNetworkRangeCheck = &PeerNetworkRangeCheck{
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Action: peerNetRangeCheck.Action,
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Ranges: make([]netip.Prefix, len(peerNetRangeCheck.Ranges)),
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}
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copy(cdCopy.PeerNetworkRangeCheck.Ranges, peerNetRangeCheck.Ranges)
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}
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if cd.ProcessCheck != nil {
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processCheck := cd.ProcessCheck
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cdCopy.ProcessCheck = &ProcessCheck{
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Processes: make([]Process, len(processCheck.Processes)),
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}
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copy(cdCopy.ProcessCheck.Processes, processCheck.Processes)
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}
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return cdCopy
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}
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// TableName returns the name of the table for the Checks model in the database.
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func (*Checks) TableName() string {
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return "posture_checks"
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}
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// Copy returns a copy of a posture checks.
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func (pc *Checks) Copy() *Checks {
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checks := &Checks{
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ID: pc.ID,
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Name: pc.Name,
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Description: pc.Description,
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AccountID: pc.AccountID,
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Checks: pc.Checks.Copy(),
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}
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return checks
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}
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// EventMeta returns activity event meta-related to this posture checks.
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func (pc *Checks) EventMeta() map[string]any {
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return map[string]any{"name": pc.Name}
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}
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// GetChecks returns list of all initialized checks definitions
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func (pc *Checks) GetChecks() []Check {
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var checks []Check
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if pc.Checks.NBVersionCheck != nil {
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checks = append(checks, pc.Checks.NBVersionCheck)
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}
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if pc.Checks.OSVersionCheck != nil {
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checks = append(checks, pc.Checks.OSVersionCheck)
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}
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if pc.Checks.GeoLocationCheck != nil {
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checks = append(checks, pc.Checks.GeoLocationCheck)
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}
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if pc.Checks.PeerNetworkRangeCheck != nil {
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checks = append(checks, pc.Checks.PeerNetworkRangeCheck)
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}
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if pc.Checks.ProcessCheck != nil {
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checks = append(checks, pc.Checks.ProcessCheck)
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}
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return checks
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}
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func NewChecksFromAPIPostureCheck(source api.PostureCheck) (*Checks, error) {
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description := ""
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if source.Description != nil {
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description = *source.Description
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}
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return buildPostureCheck(source.Id, source.Name, description, source.Checks)
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}
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func NewChecksFromAPIPostureCheckUpdate(source api.PostureCheckUpdate, postureChecksID string) (*Checks, error) {
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return buildPostureCheck(postureChecksID, source.Name, source.Description, *source.Checks)
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}
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func buildPostureCheck(postureChecksID string, name string, description string, checks api.Checks) (*Checks, error) {
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if postureChecksID == "" {
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postureChecksID = xid.New().String()
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}
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postureChecks := Checks{
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ID: postureChecksID,
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Name: name,
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Description: description,
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}
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if nbVersionCheck := checks.NbVersionCheck; nbVersionCheck != nil {
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postureChecks.Checks.NBVersionCheck = &NBVersionCheck{
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MinVersion: nbVersionCheck.MinVersion,
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}
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}
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if osVersionCheck := checks.OsVersionCheck; osVersionCheck != nil {
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postureChecks.Checks.OSVersionCheck = &OSVersionCheck{
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Android: (*MinVersionCheck)(osVersionCheck.Android),
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Darwin: (*MinVersionCheck)(osVersionCheck.Darwin),
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Ios: (*MinVersionCheck)(osVersionCheck.Ios),
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Linux: (*MinKernelVersionCheck)(osVersionCheck.Linux),
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Windows: (*MinKernelVersionCheck)(osVersionCheck.Windows),
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}
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}
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if geoLocationCheck := checks.GeoLocationCheck; geoLocationCheck != nil {
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postureChecks.Checks.GeoLocationCheck = toPostureGeoLocationCheck(geoLocationCheck)
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}
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var err error
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if peerNetworkRangeCheck := checks.PeerNetworkRangeCheck; peerNetworkRangeCheck != nil {
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postureChecks.Checks.PeerNetworkRangeCheck, err = toPeerNetworkRangeCheck(peerNetworkRangeCheck)
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if err != nil {
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return nil, status.Errorf(status.InvalidArgument, "invalid network prefix")
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}
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}
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if processCheck := checks.ProcessCheck; processCheck != nil {
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postureChecks.Checks.ProcessCheck = toProcessCheck(processCheck)
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}
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return &postureChecks, nil
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}
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func (pc *Checks) ToAPIResponse() *api.PostureCheck {
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var checks api.Checks
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if pc.Checks.NBVersionCheck != nil {
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checks.NbVersionCheck = &api.NBVersionCheck{
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MinVersion: pc.Checks.NBVersionCheck.MinVersion,
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}
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}
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if pc.Checks.OSVersionCheck != nil {
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checks.OsVersionCheck = &api.OSVersionCheck{
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Android: (*api.MinVersionCheck)(pc.Checks.OSVersionCheck.Android),
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Darwin: (*api.MinVersionCheck)(pc.Checks.OSVersionCheck.Darwin),
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Ios: (*api.MinVersionCheck)(pc.Checks.OSVersionCheck.Ios),
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Linux: (*api.MinKernelVersionCheck)(pc.Checks.OSVersionCheck.Linux),
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Windows: (*api.MinKernelVersionCheck)(pc.Checks.OSVersionCheck.Windows),
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}
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}
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if pc.Checks.GeoLocationCheck != nil {
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checks.GeoLocationCheck = toGeoLocationCheckResponse(pc.Checks.GeoLocationCheck)
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}
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if pc.Checks.PeerNetworkRangeCheck != nil {
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checks.PeerNetworkRangeCheck = toPeerNetworkRangeCheckResponse(pc.Checks.PeerNetworkRangeCheck)
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}
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if pc.Checks.ProcessCheck != nil {
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checks.ProcessCheck = toProcessCheckResponse(pc.Checks.ProcessCheck)
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}
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return &api.PostureCheck{
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Id: pc.ID,
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Name: pc.Name,
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Description: &pc.Description,
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Checks: checks,
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}
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}
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// Validate checks the validity of a posture checks.
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func (pc *Checks) Validate() error {
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if pc.Name == "" {
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return errors.New("posture checks name shouldn't be empty")
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}
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checks := pc.GetChecks()
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if len(checks) == 0 {
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return errors.New("posture checks shouldn't be empty")
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}
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for _, check := range checks {
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if err := check.Validate(); err != nil {
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return err
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}
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}
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return nil
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}
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func isVersionValid(ver string) bool {
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newVersion, err := version.NewVersion(ver)
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if err != nil {
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return false
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}
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if newVersion != nil {
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return true
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}
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return false
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}
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func toGeoLocationCheckResponse(geoLocationCheck *GeoLocationCheck) *api.GeoLocationCheck {
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locations := make([]api.Location, 0, len(geoLocationCheck.Locations))
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for _, loc := range geoLocationCheck.Locations {
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l := loc // make G601 happy
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var cityName *string
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if loc.CityName != "" {
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cityName = &l.CityName
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}
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locations = append(locations, api.Location{
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CityName: cityName,
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CountryCode: loc.CountryCode,
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})
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}
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return &api.GeoLocationCheck{
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Action: api.GeoLocationCheckAction(geoLocationCheck.Action),
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Locations: locations,
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}
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}
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func toPostureGeoLocationCheck(apiGeoLocationCheck *api.GeoLocationCheck) *GeoLocationCheck {
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locations := make([]Location, 0, len(apiGeoLocationCheck.Locations))
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for _, loc := range apiGeoLocationCheck.Locations {
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cityName := ""
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if loc.CityName != nil {
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cityName = *loc.CityName
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}
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locations = append(locations, Location{
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CountryCode: loc.CountryCode,
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CityName: cityName,
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})
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}
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return &GeoLocationCheck{
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Action: string(apiGeoLocationCheck.Action),
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Locations: locations,
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}
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}
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func toPeerNetworkRangeCheckResponse(check *PeerNetworkRangeCheck) *api.PeerNetworkRangeCheck {
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netPrefixes := make([]string, 0, len(check.Ranges))
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for _, netPrefix := range check.Ranges {
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netPrefixes = append(netPrefixes, netPrefix.String())
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}
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return &api.PeerNetworkRangeCheck{
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Ranges: netPrefixes,
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Action: api.PeerNetworkRangeCheckAction(check.Action),
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}
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}
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func toPeerNetworkRangeCheck(check *api.PeerNetworkRangeCheck) (*PeerNetworkRangeCheck, error) {
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prefixes := make([]netip.Prefix, 0)
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for _, prefix := range check.Ranges {
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parsedPrefix, err := netip.ParsePrefix(prefix)
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if err != nil {
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return nil, err
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}
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prefixes = append(prefixes, parsedPrefix)
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}
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return &PeerNetworkRangeCheck{
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Ranges: prefixes,
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Action: string(check.Action),
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}, nil
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}
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func toProcessCheckResponse(check *ProcessCheck) *api.ProcessCheck {
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processes := make([]api.Process, 0, len(check.Processes))
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for i := range check.Processes {
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processes = append(processes, api.Process{
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LinuxPath: &check.Processes[i].LinuxPath,
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MacPath: &check.Processes[i].MacPath,
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WindowsPath: &check.Processes[i].WindowsPath,
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})
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}
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return &api.ProcessCheck{
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Processes: processes,
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}
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}
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func toProcessCheck(check *api.ProcessCheck) *ProcessCheck {
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processes := make([]Process, 0, len(check.Processes))
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for _, process := range check.Processes {
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var p Process
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if process.LinuxPath != nil {
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p.LinuxPath = *process.LinuxPath
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}
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if process.MacPath != nil {
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p.MacPath = *process.MacPath
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}
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if process.WindowsPath != nil {
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p.WindowsPath = *process.WindowsPath
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}
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processes = append(processes, p)
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}
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return &ProcessCheck{
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Processes: processes,
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}
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}
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