crowdsec/pkg/parser/node.go

488 lines
16 KiB
Go

package parser
import (
"fmt"
"net"
"github.com/antonmedv/expr"
"github.com/antonmedv/expr/vm"
"github.com/crowdsecurity/crowdsec/pkg/exprhelpers"
"github.com/crowdsecurity/crowdsec/pkg/types"
"github.com/davecgh/go-spew/spew"
"github.com/prometheus/client_golang/prometheus"
"github.com/sirupsen/logrus"
log "github.com/sirupsen/logrus"
)
type Node struct {
FormatVersion string `yaml:"format"`
//Enable config + runtime debug of node via config o/
Debug bool `yaml:"debug,omitempty"`
//If enabled, the node (and its child) will report their own statistics
Profiling bool `yaml:"profiling,omitempty"`
//Name, author, description and reference(s) for parser pattern
Name string `yaml:"name,omitempty"`
Author string `yaml:"author,omitempty"`
Description string `yaml:"description,omitempty"`
Rerferences []string `yaml:"references,omitempty"`
//if debug is present in the node, keep its specific logger in runtime structure
logger *log.Entry `yaml:"-"`
//This is mostly a hack to make writting less repetive.
//relying on stage, we know which field to parse, and we
//can as well promote log to next stage on success
Stage string `yaml:"stage,omitempty"`
//OnSuccess allows to tag a node to be able to move log to next stage on success
OnSuccess string `yaml:"onsuccess,omitempty"`
rn string //this is only for us in debug, a random generated name for each node
//Filter is executed at runtime (with current log line as context)
//and must succeed or node is exited
Filter string `yaml:"filter,omitempty"`
RunTimeFilter *vm.Program `yaml:"-" json:"-"` //the actual compiled filter
//If node has leafs, execute all of them until one asks for a 'break'
SuccessNodes []Node `yaml:"nodes,omitempty"`
//Flag used to describe when to 'break' or return an 'error'
// BreakBehaviour string `yaml:"break,omitempty"`
// Error string `yaml:"error,omitempty"`
/* If the node is actually a leaf, it can have : grok, enrich, statics */
//pattern_syntax are named grok patterns that are re-utilised over several grok patterns
SubGroks map[string]string `yaml:"pattern_syntax,omitempty"`
//Holds a grok pattern
Grok types.GrokPattern `yaml:"grok,omitempty"`
//Statics can be present in any type of node and is executed last
Statics []types.ExtraField `yaml:"statics,omitempty"`
//Whitelists
Whitelist types.Whitelist `yaml:"whitelist,omitempty"`
Data []*types.DataSource `yaml:"data,omitempty"`
}
func (n *Node) validate(pctx *UnixParserCtx) error {
//stage is being set automagically
if n.Stage == "" {
return fmt.Errorf("stage needs to be an existing stage")
}
/* "" behaves like continue */
if n.OnSuccess != "continue" && n.OnSuccess != "next_stage" && n.OnSuccess != "" {
return fmt.Errorf("onsuccess '%s' not continue,next_stage", n.OnSuccess)
}
if n.Filter != "" && n.RunTimeFilter == nil {
return fmt.Errorf("non-empty filter '%s' was not compiled", n.Filter)
}
if n.Grok.RunTimeRegexp != nil || n.Grok.TargetField != "" {
if n.Grok.TargetField == "" {
return fmt.Errorf("grok's apply_on can't be empty")
}
if n.Grok.RegexpName == "" && n.Grok.RegexpValue == "" {
return fmt.Errorf("grok needs 'pattern' or 'name'")
}
}
for idx, static := range n.Statics {
if static.Method != "" {
if static.ExpValue == "" {
return fmt.Errorf("static %d : when method is set, expression must be present", idx)
}
method_found := false
for _, enricherCtx := range ECTX {
if _, ok := enricherCtx.Funcs[static.Method]; ok {
method_found = true
break
}
}
if !method_found {
return fmt.Errorf("the method '%s' doesn't exist", static.Method)
}
} else {
if static.Meta == "" && static.Parsed == "" && static.TargetByName == "" {
return fmt.Errorf("static %d : at least one of meta/event/target must be set", idx)
}
if static.Value == "" && static.RunTimeValue == nil {
return fmt.Errorf("static %d value or expression must be set", idx)
}
}
}
return nil
}
func (n *Node) process(p *types.Event, ctx UnixParserCtx) (bool, error) {
var NodeState bool
clog := n.logger
clog.Debugf("Event entering node")
if n.RunTimeFilter != nil {
//Evaluate node's filter
output, err := expr.Run(n.RunTimeFilter, exprhelpers.GetExprEnv(map[string]interface{}{"evt": p}))
if err != nil {
clog.Warningf("failed to run filter : %v", err)
clog.Debugf("Event leaving node : ko")
return false, nil
}
switch out := output.(type) {
case bool:
/* filter returned false, don't process Node */
if !out {
clog.Debugf("eval(FALSE) '%s'", n.Filter)
clog.Debugf("Event leaving node : ko")
return false, nil
}
default:
clog.Warningf("Expr '%s' returned non-bool, abort : %T", n.Filter, output)
clog.Debugf("Event leaving node : ko")
return false, nil
}
NodeState = true
clog.Debugf("eval(TRUE) '%s'", n.Filter)
} else {
clog.Tracef("Node has not filter, enter")
NodeState = true
}
if n.Profiling && n.Name != "" {
NodesHits.With(prometheus.Labels{"source": p.Line.Src, "name": n.Name}).Inc()
}
set := false
var src net.IP
/*overflow and log don't hold the source ip in the same field, should be changed */
/* perform whitelist checks for ips, cidr accordingly */
if p.Type == types.LOG {
if _, ok := p.Meta["source_ip"]; ok {
src = net.ParseIP(p.Meta["source_ip"])
}
} else if p.Type == types.OVFLW {
src = net.ParseIP(p.Overflow.Source_ip)
}
if src != nil {
for _, v := range n.Whitelist.B_Ips {
if v.Equal(src) {
clog.Infof("Event from [%s] is whitelisted by Ips !", src)
p.Whitelisted = true
set = true
}
}
for _, v := range n.Whitelist.B_Cidrs {
if v.Contains(src) {
clog.Debugf("Event from [%s] is whitelisted by Cidrs !", src)
p.Whitelisted = true
set = true
} else {
clog.Debugf("whitelist: %s not in [%s]", src, v)
}
}
} else {
clog.Debugf("no ip in event, cidr/ip whitelists not checked")
}
/* run whitelist expression tests anyway */
for _, e := range n.Whitelist.B_Exprs {
output, err := expr.Run(e, exprhelpers.GetExprEnv(map[string]interface{}{"evt": p}))
if err != nil {
clog.Warningf("failed to run whitelist expr : %v", err)
clog.Debugf("Event leaving node : ko")
return false, nil
}
switch out := output.(type) {
case bool:
/* filter returned false, don't process Node */
if out {
clog.Infof("Event is whitelisted by Expr !")
p.Whitelisted = true
set = true
}
}
}
if set {
p.WhiteListReason = n.Whitelist.Reason
/*huglily wipe the ban order if the event is whitelisted and it's an overflow */
if p.Type == types.OVFLW { /*don't do this at home kids */
// p.Overflow.OverflowAction = ""
//Break this for now. Souldn't have been done this way, but that's not taht serious
/*only display logs when we discard ban to avoid spam*/
clog.Infof("Ban for %s whitelisted, reason [%s]", p.Overflow.Source.Ip.String(), n.Whitelist.Reason)
}
}
//Iterate on leafs
if len(n.SuccessNodes) > 0 {
for _, leaf := range n.SuccessNodes {
//clog.Debugf("Processing sub-node %d/%d : %s", idx, len(n.SuccessNodes), leaf.rn)
ret, err := leaf.process(p, ctx)
if err != nil {
clog.Tracef("\tNode (%s) failed : %v", leaf.rn, err)
clog.Debugf("Event leaving node : ko")
return false, err
}
clog.Tracef("\tsub-node (%s) ret : %v (strategy:%s)", leaf.rn, ret, n.OnSuccess)
if ret {
NodeState = true
/* if chil is successful, stop processing */
if n.OnSuccess == "next_stage" {
clog.Debugf("child is success, OnSuccess=next_stage, skip")
break
}
} else {
NodeState = false
}
}
}
/*todo : check if a node made the state change ?*/
/* should the childs inherit the on_success behaviour */
clog.Tracef("State after nodes : %v", NodeState)
//Process grok if present, should be exclusive with nodes :)
gstr := ""
if n.Grok.RunTimeRegexp != nil {
clog.Tracef("Processing grok pattern : %s : %p", n.Grok.RegexpName, n.Grok.RunTimeRegexp)
//for unparsed, parsed etc. set sensible defaults to reduce user hassle
if n.Grok.TargetField == "" {
clog.Fatalf("not default field and no specified on stage '%s'", n.Stage)
} else {
//it's a hack to avoid using real reflect
if n.Grok.TargetField == "Line.Raw" {
gstr = p.Line.Raw
} else if val, ok := p.Parsed[n.Grok.TargetField]; ok {
gstr = val
} else {
clog.Debugf("(%s) target field '%s' doesn't exist in %v", n.rn, n.Grok.TargetField, p.Parsed)
NodeState = false
//return false, nil
}
}
var groklabel string
if n.Grok.RegexpName == "" {
groklabel = fmt.Sprintf("%5.5s...", n.Grok.RegexpValue)
} else {
groklabel = n.Grok.RegexpName
}
grok := n.Grok.RunTimeRegexp.Parse(gstr)
if len(grok) > 0 {
clog.Debugf("+ Grok '%s' returned %d entries to merge in Parsed", groklabel, len(grok))
//We managed to grok stuff, merged into parse
for k, v := range grok {
clog.Debugf("\t.Parsed['%s'] = '%s'", k, v)
p.Parsed[k] = v
}
// if the grok succeed, process associated statics
err := ProcessStatics(n.Grok.Statics, p, clog)
if err != nil {
clog.Fatalf("(%s) Failed to process statics : %v", n.rn, err)
}
} else {
//grok failed, node failed
clog.Debugf("+ Grok '%s' didn't return data on '%s'", groklabel, gstr)
//clog.Tracef("on '%s'", gstr)
NodeState = false
}
} else {
clog.Tracef("! No grok pattern : %p", n.Grok.RunTimeRegexp)
}
//grok or leafs failed, don't process statics
if !NodeState {
if n.Profiling && n.Name != "" {
NodesHitsKo.With(prometheus.Labels{"source": p.Line.Src, "name": n.Name}).Inc()
}
clog.Debugf("Event leaving node : ko")
return NodeState, nil
}
if n.Profiling && n.Name != "" {
NodesHitsOk.With(prometheus.Labels{"source": p.Line.Src, "name": n.Name}).Inc()
}
if len(n.Statics) > 0 {
clog.Debugf("+ Processing %d statics", len(n.Statics))
// if all else is good, process node's statics
err := ProcessStatics(n.Statics, p, clog)
if err != nil {
clog.Fatalf("Failed to process statics : %v", err)
}
} else {
clog.Tracef("! No node statics")
}
if NodeState {
clog.Debugf("Event leaving node : ok")
log.Tracef("node is successful, check strategy")
if n.OnSuccess == "next_stage" {
idx := stageidx(p.Stage, ctx.Stages)
//we're at the last stage
if idx+1 == len(ctx.Stages) {
clog.Debugf("node reached the last stage : %s", p.Stage)
} else {
clog.Debugf("move Event from stage %s to %s", p.Stage, ctx.Stages[idx+1])
p.Stage = ctx.Stages[idx+1]
}
} else {
clog.Tracef("no strategy on success (%s), continue !", n.OnSuccess)
}
} else {
clog.Debugf("Event leaving node : ko")
}
clog.Tracef("Node successful, continue")
return NodeState, nil
}
func (n *Node) compile(pctx *UnixParserCtx) error {
var err error
var valid bool
valid = false
dumpr := spew.ConfigState{MaxDepth: 1, DisablePointerAddresses: true}
n.rn = seed.Generate()
log.Debugf("compile, node is %s", n.Stage)
/* if the node has debugging enabled, create a specific logger with debug
that will be used only for processing this node ;) */
if n.Debug {
var clog = logrus.New()
if types.ConfigureLogger(clog) != err {
log.Fatalf("While creating bucket-specific logger : %s", err)
}
clog.SetLevel(log.DebugLevel)
n.logger = clog.WithFields(log.Fields{
"id": n.rn,
})
n.logger.Infof("%s has debug enabled", n.Name)
} else {
/* else bind it to the default one (might find something more elegant here)*/
n.logger = log.WithFields(log.Fields{
"id": n.rn,
})
}
/* display info about top-level nodes, they should be the only one with explicit stage name ?*/
n.logger = n.logger.WithFields(log.Fields{"stage": n.Stage, "name": n.Name})
n.logger.Tracef("Compiling : %s", dumpr.Sdump(n))
//compile filter if present
if n.Filter != "" {
n.RunTimeFilter, err = expr.Compile(n.Filter, expr.Env(exprhelpers.GetExprEnv(map[string]interface{}{"evt": &types.Event{}})))
if err != nil {
return fmt.Errorf("compilation of '%s' failed: %v", n.Filter, err)
}
}
/* handle pattern_syntax and groks */
for node, pattern := range n.SubGroks {
n.logger.Debugf("Adding subpattern '%s' : '%s'", node, pattern)
if err := pctx.Grok.Add(node, pattern); err != nil {
n.logger.Errorf("Unable to compile subpattern %s : %v", node, err)
return err
}
}
/* load grok by name or compile in-place */
if n.Grok.RegexpName != "" {
n.logger.Debugf("+ Regexp Compilation '%s'", n.Grok.RegexpName)
n.Grok.RunTimeRegexp, err = pctx.Grok.Get(n.Grok.RegexpName)
if err != nil {
n.logger.Fatalf("Unable to find grok '%s' : %v\n", n.Grok.RegexpName, err)
}
if n.Grok.RunTimeRegexp == nil {
n.logger.Fatalf("Didn't find regexp : %s", n.Grok.RegexpName)
}
n.logger.Debugf("%s regexp: %s", n.Grok.RegexpName, n.Grok.RunTimeRegexp.Regexp.String())
valid = true
} else if n.Grok.RegexpValue != "" {
//n.logger.Debugf("+ Regexp Compilation '%s'", n.Grok.RegexpValue)
n.Grok.RunTimeRegexp, err = pctx.Grok.Compile(n.Grok.RegexpValue)
if err != nil {
n.logger.Fatalf("Failed to compile grok '%s': %v\n", n.Grok.RegexpValue, err)
}
if n.Grok.RunTimeRegexp == nil {
// We shouldn't be here because compilation succeeded, so regexp shouldn't be nil
n.logger.Fatalf("Grok compilation failure: %s", n.Grok.RegexpValue)
}
n.logger.Debugf("%s regexp : %s", n.Grok.RegexpValue, n.Grok.RunTimeRegexp.Regexp.String())
valid = true
}
/* load grok statics */
if len(n.Grok.Statics) > 0 {
//compile expr statics if present
for idx := range n.Grok.Statics {
if n.Grok.Statics[idx].ExpValue != "" {
n.Grok.Statics[idx].RunTimeValue, err = expr.Compile(n.Grok.Statics[idx].ExpValue,
expr.Env(exprhelpers.GetExprEnv(map[string]interface{}{"evt": &types.Event{}})))
if err != nil {
return err
}
}
}
valid = true
}
/* compile leafs if present */
if len(n.SuccessNodes) > 0 {
for idx := range n.SuccessNodes {
if n.SuccessNodes[idx].Name == "" {
n.SuccessNodes[idx].Name = fmt.Sprintf("child-%s", n.Name)
}
/*propagate debug/stats to child nodes*/
if !n.SuccessNodes[idx].Debug && n.Debug {
n.SuccessNodes[idx].Debug = true
}
if !n.SuccessNodes[idx].Profiling && n.Profiling {
n.SuccessNodes[idx].Profiling = true
}
n.SuccessNodes[idx].Stage = n.Stage
err = n.SuccessNodes[idx].compile(pctx)
if err != nil {
return err
}
}
valid = true
}
/* load statics if present */
for idx := range n.Statics {
if n.Statics[idx].ExpValue != "" {
n.Statics[idx].RunTimeValue, err = expr.Compile(n.Statics[idx].ExpValue, expr.Env(exprhelpers.GetExprEnv(map[string]interface{}{"evt": &types.Event{}})))
if err != nil {
n.logger.Errorf("Statics Compilation failed %v.", err)
return err
}
}
valid = true
}
/* compile whitelists if present */
for _, v := range n.Whitelist.Ips {
n.Whitelist.B_Ips = append(n.Whitelist.B_Ips, net.ParseIP(v))
n.logger.Debugf("adding ip %s to whitelists", net.ParseIP(v))
valid = true
}
for _, v := range n.Whitelist.Cidrs {
_, tnet, err := net.ParseCIDR(v)
if err != nil {
n.logger.Fatalf("Unable to parse cidr whitelist '%s' : %v.", v, err)
}
n.Whitelist.B_Cidrs = append(n.Whitelist.B_Cidrs, tnet)
n.logger.Debugf("adding cidr %s to whitelists", tnet)
valid = true
}
for _, v := range n.Whitelist.Exprs {
expr, err := expr.Compile(v, expr.Env(exprhelpers.GetExprEnv(map[string]interface{}{"evt": &types.Event{}})))
if err != nil {
n.logger.Fatalf("Unable to compile whitelist expression '%s' : %v.", v, err)
}
n.Whitelist.B_Exprs = append(n.Whitelist.B_Exprs, expr)
n.logger.Debugf("adding expression %s to whitelists", v)
valid = true
}
if !valid {
/* node is empty, error force return */
n.logger.Infof("Node is empty: %s", spew.Sdump(n))
n.Stage = ""
}
if err := n.validate(pctx); err != nil {
return err
//n.logger.Fatalf("Node is invalid : %s", err)
}
return nil
}