minitor-go/monitor_test.go
Ian Fijolek 860c2cdf43
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continuous-integration/drone/push Build is passing
Add custom type to parse out seconds as int and durations as strings
2021-05-12 10:33:42 -07:00

315 lines
10 KiB
Go

package main
import (
"log"
"testing"
"time"
)
// TestMonitorIsValid tests the Monitor.IsValid()
func TestMonitorIsValid(t *testing.T) {
cases := []struct {
monitor Monitor
expected bool
name string
}{
{Monitor{Command: CommandOrShell{Command: []string{"echo", "test"}}, AlertDown: []string{"log"}}, true, "Command only"},
{Monitor{Command: CommandOrShell{ShellCommand: "echo test"}, AlertDown: []string{"log"}}, true, "CommandShell only"},
{Monitor{Command: CommandOrShell{Command: []string{"echo", "test"}}}, false, "No AlertDown"},
{Monitor{AlertDown: []string{"log"}}, false, "No commands"},
{Monitor{Command: CommandOrShell{Command: []string{"echo", "test"}}, AlertDown: []string{"log"}, AlertAfter: -1}, false, "Invalid alert threshold, -1"},
}
for _, c := range cases {
log.Printf("Testing case %s", c.name)
actual := c.monitor.IsValid()
if actual != c.expected {
t.Errorf("IsValid(%v), expected=%t actual=%t", c.name, c.expected, actual)
log.Printf("Case failed: %s", c.name)
}
log.Println("-----")
}
}
// TestMonitorShouldCheck tests the Monitor.ShouldCheck()
func TestMonitorShouldCheck(t *testing.T) {
timeNow := time.Now()
timeTenSecAgo := time.Now().Add(time.Second * -10)
timeTwentySecAgo := time.Now().Add(time.Second * -20)
cases := []struct {
monitor Monitor
expected bool
name string
}{
{Monitor{}, true, "Empty"},
{Monitor{lastCheck: timeNow, CheckInterval: SecondsOrDuration{time.Second * 15}}, false, "Just checked"},
{Monitor{lastCheck: timeTenSecAgo, CheckInterval: SecondsOrDuration{time.Second * 15}}, false, "-10s"},
{Monitor{lastCheck: timeTwentySecAgo, CheckInterval: SecondsOrDuration{time.Second * 15}}, true, "-20s"},
}
for _, c := range cases {
actual := c.monitor.ShouldCheck()
if actual != c.expected {
t.Errorf("ShouldCheck(%v), expected=%t actual=%t", c.name, c.expected, actual)
}
}
}
// TestMonitorIsUp tests the Monitor.IsUp()
func TestMonitorIsUp(t *testing.T) {
cases := []struct {
monitor Monitor
expected bool
name string
}{
{Monitor{}, true, "Empty"},
{Monitor{alertCount: 1}, false, "Has alert"},
{Monitor{alertCount: -1}, false, "Negative alerts"},
{Monitor{alertCount: 0}, true, "No alerts"},
}
for _, c := range cases {
log.Printf("Testing case %s", c.name)
actual := c.monitor.IsUp()
if actual != c.expected {
t.Errorf("IsUp(%v), expected=%t actual=%t", c.name, c.expected, actual)
log.Printf("Case failed: %s", c.name)
}
log.Println("-----")
}
}
// TestMonitorGetAlertNames tests that proper alert names are returned
func TestMonitorGetAlertNames(t *testing.T) {
cases := []struct {
monitor Monitor
up bool
expected []string
name string
}{
{Monitor{}, true, nil, "Empty up"},
{Monitor{}, false, nil, "Empty down"},
{Monitor{AlertUp: []string{"alert"}}, true, []string{"alert"}, "Return up"},
{Monitor{AlertDown: []string{"alert"}}, false, []string{"alert"}, "Return down"},
}
for _, c := range cases {
log.Printf("Testing case %s", c.name)
actual := c.monitor.GetAlertNames(c.up)
if !EqualSliceString(actual, c.expected) {
t.Errorf("GetAlertNames(%v), expected=%v actual=%v", c.name, c.expected, actual)
log.Printf("Case failed: %s", c.name)
}
log.Println("-----")
}
}
// TestMonitorSuccess tests the Monitor.success()
func TestMonitorSuccess(t *testing.T) {
cases := []struct {
monitor Monitor
expectNotice bool
name string
}{
{Monitor{}, false, "Empty"},
{Monitor{alertCount: 0}, false, "No alerts"},
{Monitor{alertCount: 1}, true, "Has alert"},
}
for _, c := range cases {
log.Printf("Testing case %s", c.name)
notice := c.monitor.success()
hasNotice := (notice != nil)
if hasNotice != c.expectNotice {
t.Errorf("success(%v), expected=%t actual=%t", c.name, c.expectNotice, hasNotice)
log.Printf("Case failed: %s", c.name)
}
log.Println("-----")
}
}
// TestMonitorFailureAlertAfter tests that alerts will not trigger until
// hitting the threshold provided by AlertAfter
func TestMonitorFailureAlertAfter(t *testing.T) {
cases := []struct {
monitor Monitor
expectNotice bool
name string
}{
{Monitor{AlertAfter: 1}, true, "Empty"}, // Defaults to true because and AlertEvery default to 0
{Monitor{failureCount: 0, AlertAfter: 1, AlertEvery: 1}, true, "Alert after 1: first failure"},
{Monitor{failureCount: 1, AlertAfter: 1, AlertEvery: 1}, true, "Alert after 1: second failure"},
{Monitor{failureCount: 0, AlertAfter: 20, AlertEvery: 1}, false, "Alert after 20: first failure"},
{Monitor{failureCount: 19, AlertAfter: 20, AlertEvery: 1}, true, "Alert after 20: 20th failure"},
{Monitor{failureCount: 20, AlertAfter: 20, AlertEvery: 1}, true, "Alert after 20: 21st failure"},
}
for _, c := range cases {
log.Printf("Testing case %s", c.name)
notice := c.monitor.failure()
hasNotice := (notice != nil)
if hasNotice != c.expectNotice {
t.Errorf("failure(%v), expected=%t actual=%t", c.name, c.expectNotice, hasNotice)
log.Printf("Case failed: %s", c.name)
}
log.Println("-----")
}
}
// TestMonitorFailureAlertEvery tests that alerts will trigger
// on the expected intervals
func TestMonitorFailureAlertEvery(t *testing.T) {
cases := []struct {
monitor Monitor
expectNotice bool
name string
}{
/*
TODO: Actually found a bug in original implementation. There is an inconsistency in the way AlertAfter is treated.
For "First alert only" (ie. AlertEvery=0), it is the number of failures to ignore before alerting, so AlertAfter=1
will ignore the first failure and alert on the second failure
For other intervals (ie. AlertEvery=1), it is essentially indexed on one. Essentially making AlertAfter=1 trigger
on the first failure.
For usabilty, this should be consistent. Consistent with what though? minitor-py? Or itself? Dun dun duuuunnnnn!
*/
{Monitor{AlertAfter: 1}, true, "Empty"}, // Defaults to true because AlertAfter and AlertEvery default to 0
// Alert first time only, after 1
{Monitor{failureCount: 0, AlertAfter: 1, AlertEvery: 0}, true, "Alert first time only after 1: first failure"},
{Monitor{failureCount: 1, AlertAfter: 1, AlertEvery: 0}, false, "Alert first time only after 1: second failure"},
{Monitor{failureCount: 2, AlertAfter: 1, AlertEvery: 0}, false, "Alert first time only after 1: third failure"},
// Alert every time, after 1
{Monitor{failureCount: 0, AlertAfter: 1, AlertEvery: 1}, true, "Alert every time after 1: first failure"},
{Monitor{failureCount: 1, AlertAfter: 1, AlertEvery: 1}, true, "Alert every time after 1: second failure"},
{Monitor{failureCount: 1, AlertAfter: 1, AlertEvery: 1}, true, "Alert every time after 1: third failure"},
// Alert every other time, after 1
{Monitor{failureCount: 0, AlertAfter: 1, AlertEvery: 2}, true, "Alert every other time after 1: first failure"},
{Monitor{failureCount: 1, AlertAfter: 1, AlertEvery: 2}, false, "Alert every other time after 1: second failure"},
{Monitor{failureCount: 2, AlertAfter: 1, AlertEvery: 2}, true, "Alert every other time after 1: third failure"},
{Monitor{failureCount: 3, AlertAfter: 1, AlertEvery: 2}, false, "Alert every other time after 1: fourth failure"},
}
for _, c := range cases {
log.Printf("Testing case %s", c.name)
notice := c.monitor.failure()
hasNotice := (notice != nil)
if hasNotice != c.expectNotice {
t.Errorf("failure(%v), expected=%t actual=%t", c.name, c.expectNotice, hasNotice)
log.Printf("Case failed: %s", c.name)
}
log.Println("-----")
}
}
// TestMonitorFailureExponential tests that alerts will trigger
// with an exponential backoff after repeated failures
func TestMonitorFailureExponential(t *testing.T) {
cases := []struct {
expectNotice bool
name string
}{
{true, "Alert exponential after 1: first failure"},
{true, "Alert exponential after 1: second failure"},
{false, "Alert exponential after 1: third failure"},
{true, "Alert exponential after 1: fourth failure"},
{false, "Alert exponential after 1: fifth failure"},
{false, "Alert exponential after 1: sixth failure"},
{false, "Alert exponential after 1: seventh failure"},
{true, "Alert exponential after 1: eighth failure"},
}
// Unlike previous tests, this one requires a static Monitor with repeated
// calls to the failure method
monitor := Monitor{failureCount: 0, AlertAfter: 1, AlertEvery: -1}
for _, c := range cases {
log.Printf("Testing case %s", c.name)
notice := monitor.failure()
hasNotice := (notice != nil)
if hasNotice != c.expectNotice {
t.Errorf("failure(%v), expected=%t actual=%t", c.name, c.expectNotice, hasNotice)
log.Printf("Case failed: %s", c.name)
}
log.Println("-----")
}
}
// TestMonitorCheck tests successful and failed commands and shell commands
func TestMonitorCheck(t *testing.T) {
type expected struct {
isSuccess bool
hasNotice bool
lastOutput string
}
cases := []struct {
monitor Monitor
expect expected
name string
}{
{
Monitor{Command: CommandOrShell{Command: []string{"echo", "success"}}},
expected{isSuccess: true, hasNotice: false, lastOutput: "success\n"},
"Test successful command",
},
{
Monitor{Command: CommandOrShell{ShellCommand: "echo success"}},
expected{isSuccess: true, hasNotice: false, lastOutput: "success\n"},
"Test successful command shell",
},
{
Monitor{Command: CommandOrShell{Command: []string{"total", "failure"}}},
expected{isSuccess: false, hasNotice: true, lastOutput: ""},
"Test failed command",
},
{
Monitor{Command: CommandOrShell{ShellCommand: "false"}},
expected{isSuccess: false, hasNotice: true, lastOutput: ""},
"Test failed command shell",
},
}
for _, c := range cases {
log.Printf("Testing case %s", c.name)
isSuccess, notice := c.monitor.Check()
if isSuccess != c.expect.isSuccess {
t.Errorf("Check(%v) (success), expected=%t actual=%t", c.name, c.expect.isSuccess, isSuccess)
log.Printf("Case failed: %s", c.name)
}
hasNotice := (notice != nil)
if hasNotice != c.expect.hasNotice {
t.Errorf("Check(%v) (notice), expected=%t actual=%t", c.name, c.expect.hasNotice, hasNotice)
log.Printf("Case failed: %s", c.name)
}
lastOutput := c.monitor.lastOutput
if lastOutput != c.expect.lastOutput {
t.Errorf("Check(%v) (output), expected=%v actual=%v", c.name, c.expect.lastOutput, lastOutput)
log.Printf("Case failed: %s", c.name)
}
log.Println("-----")
}
}