crowdsec/cmd/crowdsec-cli/hubtest_table.go
Thibault "bui" Koechlin 8cca4346a5
Application Security Engine Support (#2273)
Add a new datasource that:
- Receives HTTP requests from remediation components
- Apply rules on them to determine whether they are malicious or not
- Rules can be evaluated in-band (the remediation component will block the request directly) or out-band (the RC will let the request through, but crowdsec can still process the rule matches with scenarios)

The PR also adds support for 2 new hub items:
- appsec-configs: Configure the Application Security Engine (which rules to load, in which phase)
- appsec-rules: a rule that is added in the Application Security Engine (can use either our own format, or seclang)

---------

Co-authored-by: alteredCoder <kevin@crowdsec.net>
Co-authored-by: Sebastien Blot <sebastien@crowdsec.net>
Co-authored-by: mmetc <92726601+mmetc@users.noreply.github.com>
Co-authored-by: Marco Mariani <marco@crowdsec.net>
2023-12-07 12:21:04 +01:00

102 lines
2.6 KiB
Go

package main
import (
"fmt"
"io"
"github.com/aquasecurity/table"
"github.com/enescakir/emoji"
"github.com/crowdsecurity/crowdsec/pkg/hubtest"
)
func hubTestResultTable(out io.Writer, testResult map[string]bool) {
t := newLightTable(out)
t.SetHeaders("Test", "Result")
t.SetHeaderAlignment(table.AlignLeft)
t.SetAlignment(table.AlignLeft)
for testName, success := range testResult {
status := emoji.CheckMarkButton.String()
if !success {
status = emoji.CrossMark.String()
}
t.AddRow(testName, status)
}
t.Render()
}
func hubTestListTable(out io.Writer, tests []*hubtest.HubTestItem) {
t := newLightTable(out)
t.SetHeaders("Name", "Path")
t.SetHeaderAlignment(table.AlignLeft, table.AlignLeft)
t.SetAlignment(table.AlignLeft, table.AlignLeft)
for _, test := range tests {
t.AddRow(test.Name, test.Path)
}
t.Render()
}
func hubTestParserCoverageTable(out io.Writer, coverage []hubtest.Coverage) {
t := newLightTable(out)
t.SetHeaders("Parser", "Status", "Number of tests")
t.SetHeaderAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft)
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft)
parserTested := 0
for _, test := range coverage {
status := emoji.RedCircle.String()
if test.TestsCount > 0 {
status = emoji.GreenCircle.String()
parserTested++
}
t.AddRow(test.Name, status, fmt.Sprintf("%d times (across %d tests)", test.TestsCount, len(test.PresentIn)))
}
t.Render()
}
func hubTestAppsecRuleCoverageTable(out io.Writer, coverage []hubtest.Coverage) {
t := newLightTable(out)
t.SetHeaders("Appsec Rule", "Status", "Number of tests")
t.SetHeaderAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft)
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft)
parserTested := 0
for _, test := range coverage {
status := emoji.RedCircle.String()
if test.TestsCount > 0 {
status = emoji.GreenCircle.String()
parserTested++
}
t.AddRow(test.Name, status, fmt.Sprintf("%d times (across %d tests)", test.TestsCount, len(test.PresentIn)))
}
t.Render()
}
func hubTestScenarioCoverageTable(out io.Writer, coverage []hubtest.Coverage) {
t := newLightTable(out)
t.SetHeaders("Scenario", "Status", "Number of tests")
t.SetHeaderAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft)
t.SetAlignment(table.AlignLeft, table.AlignLeft, table.AlignLeft)
parserTested := 0
for _, test := range coverage {
status := emoji.RedCircle.String()
if test.TestsCount > 0 {
status = emoji.GreenCircle.String()
parserTested++
}
t.AddRow(test.Name, status, fmt.Sprintf("%d times (across %d tests)", test.TestsCount, len(test.PresentIn)))
}
t.Render()
}