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icingadb/tests/object_sync_test.go
Eric Lippmann e31b101f4f Upgrade go-redis to v9 
Co-Authored-By: Alvar Penning <alvar.penning@icinga.com>
2024-03-22 15:32:15 +01:00

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package icingadb_test
import (
"bytes"
"context"
"database/sql"
_ "embed"
"fmt"
"github.com/icinga/icinga-testing/services"
"github.com/icinga/icinga-testing/utils"
"github.com/icinga/icinga-testing/utils/eventually"
localutils "github.com/icinga/icingadb/tests/internal/utils"
"github.com/icinga/icingadb/tests/internal/value"
"github.com/jmoiron/sqlx"
"github.com/redis/go-redis/v9"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"go.uber.org/zap"
"golang.org/x/exp/slices"
"io"
"reflect"
"sort"
"strings"
"testing"
"text/template"
"time"
)
//go:embed object_sync_test.conf
var testSyncConfRaw string
var testSyncConfTemplate = template.Must(template.New("testdata.conf").Parse(testSyncConfRaw))
var usergroups = []string{
"testusergroup1",
"testusergroup2",
"testusergroup3",
}
// Map of users to a set of their groups
var users = map[string]map[string]struct{}{
"testuser1": {"testusergroup1": {}, "testusergroup3": {}},
"testuser2": {"testusergroup2": {}},
"testuser3": {"testusergroup3": {}, "testusergroup1": {}},
}
func TestObjectSync(t *testing.T) {
logger := it.Logger(t)
type Data struct {
GenericPrefixes []string
Hosts []Host
Services []Service
Users []User
Notifications []Notification
NotificationUsers map[string]map[string]struct{}
NotificationUserGroups []string
}
data := &Data{
// Some name prefixes to loop over in the template to generate multiple instances of objects,
// for example default-host, some-host, and other-host.
GenericPrefixes: []string{"default", "some", "other"},
Hosts: makeTestSyncHosts(t),
Services: makeTestSyncServices(t),
Users: makeTestUsers(t),
Notifications: makeTestNotifications(t),
NotificationUsers: users,
NotificationUserGroups: usergroups,
}
r := it.RedisServerT(t)
rdb := getDatabase(t)
i := it.Icinga2NodeT(t, "master")
conf := bytes.NewBuffer(nil)
err := testSyncConfTemplate.Execute(conf, data)
require.NoError(t, err, "render icinga2 config")
for _, host := range data.Hosts {
err := writeIcinga2ConfigObject(conf, host)
require.NoError(t, err, "generate icinga2 host config")
}
for _, service := range data.Services {
err := writeIcinga2ConfigObject(conf, service)
require.NoError(t, err, "generate icinga2 service config")
}
for _, user := range data.Users {
err := writeIcinga2ConfigObject(conf, user)
require.NoError(t, err, "generate icinga2 user config")
}
for _, notification := range data.Notifications {
err := writeIcinga2ConfigObject(conf, notification)
require.NoError(t, err, "generate icinga2 notification config")
}
//logger.Sugar().Infof("config:\n\n%s\n\n", conf.String())
i.WriteConfig("etc/icinga2/conf.d/testdata.conf", conf.Bytes())
i.EnableIcingaDb(r)
i.Reload()
// Wait for Icinga 2 to signal a successful dump before starting
// Icinga DB to ensure that we actually test the initial sync.
logger.Debug("waiting for icinga2 dump done signal")
waitForDumpDoneSignal(t, r, 20*time.Second, 100*time.Millisecond)
// Only after that, start Icinga DB.
logger.Debug("starting icingadb")
it.IcingaDbInstanceT(t, r, rdb)
db, err := sqlx.Open(rdb.Driver(), rdb.DSN())
require.NoError(t, err, "connecting to SQL database shouldn't fail")
t.Cleanup(func() { _ = db.Close() })
t.Run("Host", func(t *testing.T) {
t.Parallel()
for _, host := range data.Hosts {
host := host
t.Run("Verify-"+host.VariantInfoString(), func(t *testing.T) {
t.Parallel()
eventually.Assert(t, func(t require.TestingT) {
verifyIcingaDbRow(t, db, host)
}, 20*time.Second, 1*time.Second)
if host.Vars != nil {
t.Run("CustomVar", func(t *testing.T) {
logger := it.Logger(t)
eventually.Assert(t, func(t require.TestingT) {
host.Vars.VerifyCustomVar(t, logger, db, host)
}, 20*time.Second, 1*time.Second)
})
t.Run("CustomVarFlat", func(t *testing.T) {
logger := it.Logger(t)
eventually.Assert(t, func(t require.TestingT) {
host.Vars.VerifyCustomVarFlat(t, logger, db, host)
}, 20*time.Second, 1*time.Second)
})
}
})
}
})
t.Run("Service", func(t *testing.T) {
t.Parallel()
for _, service := range data.Services {
service := service
t.Run("Verify-"+service.VariantInfoString(), func(t *testing.T) {
t.Parallel()
eventually.Assert(t, func(t require.TestingT) {
verifyIcingaDbRow(t, db, service)
}, 20*time.Second, 1*time.Second)
if service.Vars != nil {
t.Run("CustomVar", func(t *testing.T) {
logger := it.Logger(t)
eventually.Assert(t, func(t require.TestingT) {
service.Vars.VerifyCustomVar(t, logger, db, service)
}, 20*time.Second, 1*time.Second)
})
t.Run("CustomVarFlat", func(t *testing.T) {
logger := it.Logger(t)
eventually.Assert(t, func(t require.TestingT) {
service.Vars.VerifyCustomVarFlat(t, logger, db, service)
}, 20*time.Second, 1*time.Second)
})
}
})
}
})
t.Run("HostGroup", func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Run("Member", func(t *testing.T) { t.Parallel(); t.Skip() })
t.Run("CustomVar", func(t *testing.T) { t.Parallel(); t.Skip() })
})
t.Run("ServiceGroup", func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Run("Member", func(t *testing.T) { t.Parallel(); t.Skip() })
t.Run("CustomVar", func(t *testing.T) { t.Parallel(); t.Skip() })
})
t.Run("Endpoint", func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Skip()
})
for _, commandType := range []string{"CheckCommend", "EventCommand", "NotificationCommand"} {
commandType := commandType
t.Run(commandType, func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Run("Argument", func(t *testing.T) { t.Parallel(); t.Skip() })
t.Run("EnvVar", func(t *testing.T) { t.Parallel(); t.Skip() })
t.Run("CustomVar", func(t *testing.T) { t.Parallel(); t.Skip() })
})
}
t.Run("Comment", func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Skip()
})
t.Run("Downtime", func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Skip()
})
t.Run("Notification", func(t *testing.T) {
t.Parallel()
for _, notification := range data.Notifications {
notification := notification
t.Run("Verify-"+notification.VariantInfoString(), func(t *testing.T) {
t.Parallel()
eventually.Assert(t, func(t require.TestingT) {
notification.verify(t, db)
}, 20*time.Second, 1*time.Second)
if notification.Vars != nil {
t.Run("CustomVar", func(t *testing.T) {
logger := it.Logger(t)
eventually.Assert(t, func(t require.TestingT) {
notification.Vars.VerifyCustomVar(t, logger, db, notification)
}, 20*time.Second, 1*time.Second)
})
t.Run("CustomVarFlat", func(t *testing.T) {
logger := it.Logger(t)
eventually.Assert(t, func(t require.TestingT) {
notification.Vars.VerifyCustomVarFlat(t, logger, db, notification)
}, 20*time.Second, 1*time.Second)
})
}
})
}
})
t.Run("TimePeriod", func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Run("Range", func(t *testing.T) { t.Parallel(); t.Skip() })
t.Run("OverrideInclude", func(t *testing.T) { t.Parallel(); t.Skip() })
t.Run("OverrideExclude", func(t *testing.T) { t.Parallel(); t.Skip() })
t.Run("CustomVar", func(t *testing.T) { t.Parallel(); t.Skip() })
})
t.Run("CustomVar", func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Skip()
})
t.Run("CustomVarFlat", func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Skip()
})
t.Run("User", func(t *testing.T) {
t.Parallel()
for _, user := range data.Users {
user := user
t.Run("Verify-"+user.VariantInfoString(), func(t *testing.T) {
t.Parallel()
eventually.Assert(t, func(t require.TestingT) {
verifyIcingaDbRow(t, db, user)
}, 20*time.Second, 1*time.Second)
})
}
t.Run("UserCustomVar", func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Skip()
})
})
t.Run("UserGroup", func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Run("Member", func(t *testing.T) { t.Parallel(); t.Skip() })
t.Run("CustomVar", func(t *testing.T) { t.Parallel(); t.Skip() })
})
t.Run("Zone", func(t *testing.T) {
t.Parallel()
// TODO(jb): add tests
t.Skip()
})
t.Run("RuntimeUpdates", func(t *testing.T) {
t.Parallel()
// Wait some time to give Icinga DB a chance to finish the initial sync.
// TODO(jb): properly wait for this? but I don't know of a good way to detect this at the moment
time.Sleep(20 * time.Second)
client := i.ApiClient()
t.Run("Service", func(t *testing.T) {
t.Parallel()
for _, service := range makeTestSyncServices(t) {
service := service
t.Run("CreateAndDelete-"+service.VariantInfoString(), func(t *testing.T) {
t.Parallel()
client.CreateObject(t, "services", *service.HostName+"!"+service.Name, map[string]interface{}{
"attrs": makeIcinga2ApiAttributes(service, false),
})
eventually.Assert(t, func(t require.TestingT) {
verifyIcingaDbRow(t, db, service)
}, 20*time.Second, 1*time.Second)
if service.Vars != nil {
t.Run("CustomVar", func(t *testing.T) {
logger := it.Logger(t)
eventually.Assert(t, func(t require.TestingT) {
service.Vars.VerifyCustomVar(t, logger, db, service)
}, 20*time.Second, 1*time.Second)
})
t.Run("CustomVarFlat", func(t *testing.T) {
logger := it.Logger(t)
eventually.Assert(t, func(t require.TestingT) {
service.Vars.VerifyCustomVarFlat(t, logger, db, service)
}, 20*time.Second, 1*time.Second)
})
}
client.DeleteObject(t, "services", *service.HostName+"!"+service.Name, false)
require.Eventuallyf(t, func() bool {
var count int
err := db.Get(&count, db.Rebind("SELECT COUNT(*) FROM service WHERE name = ?"), service.Name)
require.NoError(t, err, "querying service count should not fail")
return count == 0
}, 20*time.Second, 1*time.Second, "service with name=%q should be removed from database", service.Name)
})
}
t.Run("Update", func(t *testing.T) {
t.Parallel()
for _, service := range makeTestSyncServices(t) {
service := service
t.Run(service.VariantInfoString(), func(t *testing.T) {
t.Parallel()
// Start with the final host_name and zone. Finding out what happens when you change this on an
// existing object might be fun, but not at this time.
client.CreateObject(t, "services", *service.HostName+"!"+service.Name, map[string]interface{}{
"attrs": map[string]interface{}{
"check_command": "default-checkcommand",
"zone": service.ZoneName,
},
})
require.Eventuallyf(t, func() bool {
var count int
err := db.Get(&count, db.Rebind("SELECT COUNT(*) FROM service WHERE name = ?"), service.Name)
require.NoError(t, err, "querying service count should not fail")
return count == 1
}, 20*time.Second, 1*time.Second, "service with name=%q should exist in database", service.Name)
client.UpdateObject(t, "services", *service.HostName+"!"+service.Name, map[string]interface{}{
"attrs": makeIcinga2ApiAttributes(service, true),
})
eventually.Assert(t, func(t require.TestingT) {
verifyIcingaDbRow(t, db, service)
}, 20*time.Second, 1*time.Second)
if service.Vars != nil {
t.Run("CustomVar", func(t *testing.T) {
logger := it.Logger(t)
eventually.Assert(t, func(t require.TestingT) {
service.Vars.VerifyCustomVar(t, logger, db, service)
}, 20*time.Second, 1*time.Second)
})
t.Run("CustomVarFlat", func(t *testing.T) {
logger := it.Logger(t)
eventually.Assert(t, func(t require.TestingT) {
service.Vars.VerifyCustomVarFlat(t, logger, db, service)
}, 20*time.Second, 1*time.Second)
})
}
client.DeleteObject(t, "services", *service.HostName+"!"+service.Name, false)
})
}
})
})
t.Run("User", func(t *testing.T) {
t.Parallel()
for _, user := range makeTestUsers(t) {
user := user
t.Run("CreateAndDelete-"+user.VariantInfoString(), func(t *testing.T) {
t.Parallel()
client.CreateObject(t, "users", user.Name, map[string]interface{}{
"attrs": makeIcinga2ApiAttributes(user, false),
})
eventually.Assert(t, func(t require.TestingT) {
verifyIcingaDbRow(t, db, user)
}, 20*time.Second, 1*time.Second)
client.DeleteObject(t, "users", user.Name, false)
require.Eventuallyf(t, func() bool {
var count int
err := db.Get(&count, db.Rebind(`SELECT COUNT(*) FROM "user" WHERE name = ?`), user.Name)
require.NoError(t, err, "querying user count should not fail")
return count == 0
}, 20*time.Second, 1*time.Second, "user with name=%q should be removed from database", user.Name)
})
}
t.Run("Update", func(t *testing.T) {
t.Parallel()
userName := utils.UniqueName(t, "user")
client.CreateObject(t, "users", userName, map[string]interface{}{
"attrs": map[string]interface{}{},
})
require.Eventuallyf(t, func() bool {
var count int
err := db.Get(&count, db.Rebind(`SELECT COUNT(*) FROM "user" WHERE name = ?`), userName)
require.NoError(t, err, "querying user count should not fail")
return count == 1
}, 20*time.Second, 1*time.Second, "user with name=%q should exist in database", userName)
for _, user := range makeTestUsers(t) {
user := user
user.Name = userName
t.Run(user.VariantInfoString(), func(t *testing.T) {
client.UpdateObject(t, "users", userName, map[string]interface{}{
"attrs": makeIcinga2ApiAttributes(user, true),
})
eventually.Assert(t, func(t require.TestingT) {
verifyIcingaDbRow(t, db, user)
}, 20*time.Second, 1*time.Second)
})
}
client.DeleteObject(t, "users", userName, false)
})
})
t.Run("Notifications", func(t *testing.T) {
t.Parallel()
for _, notification := range makeTestNotifications(t) {
notification := notification
t.Run("CreateAndDelete-"+notification.VariantInfoString(), func(t *testing.T) {
t.Parallel()
client.CreateObject(t, "notifications", notification.fullName(), map[string]interface{}{
"attrs": makeIcinga2ApiAttributes(notification, false),
})
eventually.Assert(t, func(t require.TestingT) {
notification.verify(t, db)
}, 20*time.Second, 200*time.Millisecond)
client.DeleteObject(t, "notifications", notification.fullName(), false)
require.Eventuallyf(t, func() bool {
var count int
err := db.Get(&count, db.Rebind("SELECT COUNT(*) FROM notification WHERE name = ?"), notification.fullName())
require.NoError(t, err, "querying notification count should not fail")
return count == 0
}, 20*time.Second, 200*time.Millisecond, "notification with name=%q should be removed from database", notification.fullName())
})
}
t.Run("Update", func(t *testing.T) {
t.Parallel()
baseNotification := Notification{
Name: utils.UniqueName(t, "notification"),
HostName: newString("default-host"),
ServiceName: newString("default-service"),
Command: "default-notificationcommand",
Users: []string{"default-user"},
UserGroups: []string{"default-usergroup"},
Interval: 1800,
}
client.CreateObject(t, "notifications", baseNotification.fullName(), map[string]interface{}{
"attrs": makeIcinga2ApiAttributes(baseNotification, false),
})
require.Eventuallyf(t, func() bool {
var count int
err := db.Get(&count, db.Rebind("SELECT COUNT(*) FROM notification WHERE name = ?"), baseNotification.fullName())
require.NoError(t, err, "querying notification count should not fail")
return count == 1
}, 20*time.Second, 200*time.Millisecond, "notification with name=%q should exist in database", baseNotification.fullName())
// TODO: Currently broken, but has been tested manually multiple times. Gets more time after RC2
/*t.Run("CreateAndDeleteUser", func(t *testing.T) {
groupName := utils.UniqueName(t, "group")
userName := "testuser112312321"
// Create usergroup
client.CreateObject(t, "usergroups", groupName, nil)
baseNotification.UserGroups = []string{groupName}
client.UpdateObject(t, "notifications", baseNotification.fullName(), map[string]interface{}{
"attrs": map[string]interface{}{
"user_groups": baseNotification.UserGroups,
},
})
eventually.Assert(t, func(t require.TestingT) {
baseNotification.verify(t, db)
}, 20*time.Second, 1*time.Second)
// Create user
users[userName] = map[string]struct{}{groupName: {}}
client.CreateObject(t, "users", userName, map[string]interface{}{
"attrs": map[string]interface{}{
"groups": baseNotification.UserGroups,
},
})
require.Eventuallyf(t, func() bool {
var count int
err := db.Get(&count, "SELECT COUNT(*) FROM user WHERE name = ?", userName)
require.NoError(t, err, "querying user count should not fail")
return count == 1
}, 20*time.Second, 200*time.Millisecond, "user with name=%q should exist in database", userName)
eventually.Assert(t, func(t require.TestingT) {
baseNotification.verify(t, db)
}, 20*time.Second, 1*time.Second)
// Delete user
delete(users, userName)
client.DeleteObject(t, "users", userName, false)
eventually.Assert(t, func(t require.TestingT) {
baseNotification.verify(t, db)
}, 20*time.Second, 1*time.Second)
// Remove group
baseNotification.UserGroups = []string{}
client.UpdateObject(t, "notifications", baseNotification.fullName(), map[string]interface{}{
"attrs": map[string]interface{}{
"user_groups": baseNotification.UserGroups,
},
})
client.DeleteObject(t, "usergroups", groupName, false)
eventually.Assert(t, func(t require.TestingT) {
baseNotification.verify(t, db)
}, 20*time.Second, 1*time.Second)
})*/
for _, notification := range makeTestNotifications(t) {
notification := notification
notification.Name = baseNotification.Name
t.Run(notification.VariantInfoString(), func(t *testing.T) {
client.UpdateObject(t, "notifications", notification.fullName(), map[string]interface{}{
"attrs": makeIcinga2ApiAttributes(notification, true),
})
eventually.Assert(t, func(t require.TestingT) {
notification.verify(t, db)
}, 20*time.Second, 200*time.Millisecond)
})
}
client.DeleteObject(t, "notifications", baseNotification.fullName(), false)
})
})
// TODO(jb): add tests for remaining config object types
})
}
// waitForDumpDoneSignal reads from the icinga:dump Redis stream until there is a signal for key="*" state="done",
// that is icinga2 signals that it has completed its initial config dump.
func waitForDumpDoneSignal(t *testing.T, r services.RedisServer, wait time.Duration, interval time.Duration) {
rc := r.Open()
defer func() { _ = rc.Close() }()
require.Eventually(t, func() bool {
stream, err := rc.XRead(context.Background(), &redis.XReadArgs{
Streams: []string{"icinga:dump", "0-0"},
Block: -1,
}).Result()
if err == redis.Nil {
// empty stream
return false
}
require.NoError(t, err, "redis xread should succeed")
for _, message := range stream[0].Messages {
key, ok := message.Values["key"]
require.Truef(t, ok, "icinga:dump message should contain 'key': %+v", message)
state, ok := message.Values["state"]
require.Truef(t, ok, "icinga:dump message should contain 'state': %+v", message)
if key == "*" && state == "done" {
return true
}
}
return false
}, wait, interval, "icinga2 should signal key='*' state='done'")
}
type Host struct {
Name string ` icingadb:"name"`
DisplayName string `icinga2:"display_name" icingadb:"display_name"`
Address string `icinga2:"address" icingadb:"address"`
Address6 string `icinga2:"address6" icingadb:"address6"`
CheckCommandName string `icinga2:"check_command" icingadb:"checkcommand_name"`
MaxCheckAttempts float64 `icinga2:"max_check_attempts" icingadb:"max_check_attempts"`
CheckPeriodName string `icinga2:"check_period" icingadb:"check_timeperiod_name"`
CheckTimeout float64 `icinga2:"check_timeout" icingadb:"check_timeout"`
CheckInterval float64 `icinga2:"check_interval" icingadb:"check_interval"`
RetryInterval float64 `icinga2:"retry_interval" icingadb:"check_retry_interval"`
EnableNotifications bool `icinga2:"enable_notifications" icingadb:"notifications_enabled"`
EnableActiveChecks bool `icinga2:"enable_active_checks" icingadb:"active_checks_enabled"`
EnablePassiveChecks bool `icinga2:"enable_passive_checks" icingadb:"passive_checks_enabled"`
EnableEventHandler bool `icinga2:"enable_event_handler" icingadb:"event_handler_enabled"`
EnableFlapping bool `icinga2:"enable_flapping" icingadb:"flapping_enabled"`
FlappingThresholdHigh float64 `icinga2:"flapping_threshold_high" icingadb:"flapping_threshold_high"`
FlappingThresholdLow float64 `icinga2:"flapping_threshold_low" icingadb:"flapping_threshold_low"`
EnablePerfdata bool `icinga2:"enable_perfdata" icingadb:"perfdata_enabled"`
EventCommandName string `icinga2:"event_command" icingadb:"eventcommand_name"`
Volatile bool `icinga2:"volatile" icingadb:"is_volatile"`
ZoneName string `icinga2:"zone" icingadb:"zone_name"`
CommandEndpointName string `icinga2:"command_endpoint" icingadb:"command_endpoint_name"`
Notes string `icinga2:"notes" icingadb:"notes"`
NotesUrl *string `icinga2:"notes_url" icingadb:"notes_url.notes_url"`
ActionUrl *string `icinga2:"action_url" icingadb:"action_url.action_url"`
IconImage *string `icinga2:"icon_image" icingadb:"icon_image.icon_image"`
IconImageAlt string `icinga2:"icon_image_alt" icingadb:"icon_image_alt"`
Vars *CustomVarTestData `icinga2:"vars"`
// TODO(jb): groups
utils.VariantInfo
}
func makeTestSyncHosts(t *testing.T) []Host {
host := Host{
Address: "127.0.0.1",
Address6: "::1",
CheckCommandName: "hostalive",
MaxCheckAttempts: 3,
CheckTimeout: 60,
CheckInterval: 10,
RetryInterval: 5,
FlappingThresholdHigh: 80,
FlappingThresholdLow: 20,
}
hosts := utils.MakeVariants(host).
Vary("DisplayName", "Some Display Name", "Other Display Name").
Vary("Address", "192.0.2.23", "192.0.2.42").
Vary("Address6", "2001:db8::23", "2001:db8::42").
Vary("CheckCommandName", "some-checkcommand", "other-checkcommand").
Vary("MaxCheckAttempts", 5.0, 7.0).
Vary("CheckPeriodName", "some-timeperiod", "other-timeperiod").
Vary("CheckTimeout", 30. /* TODO(jb): 5 */, 120.0).
Vary("CheckInterval", 20. /* TODO(jb): 5 */, 30.0).
Vary("RetryInterval", 1. /* TODO(jb): 5 */, 2.0).
Vary("EnableNotifications", true, false).
Vary("EnableActiveChecks", true, false).
Vary("EnablePassiveChecks", true, false).
Vary("EnableEventHandler", true, false).
Vary("EnableFlapping", true, false).
Vary("FlappingThresholdHigh", 90.0, 95.5).
Vary("FlappingThresholdLow", 5.5, 10.0).
Vary("EnablePerfdata", true, false).
Vary("EventCommandName", "some-eventcommand", "other-eventcommand").
Vary("Volatile", true, false).
Vary("ZoneName", "some-zone", "other-zone").
Vary("CommandEndpointName", "some-endpoint", "other-endpoint").
Vary("Notes", "Some Notes", "Other Notes").
Vary("NotesUrl", newString("https://some.notes.invalid/host"), newString("http://other.notes.invalid/host")).
Vary("ActionUrl", newString("https://some.action.invalid/host"), newString("http://other.actions.invalid/host")).
Vary("IconImage", newString("https://some.icon.invalid/host.png"), newString("http://other.icon.invalid/host.jpg")).
Vary("IconImageAlt", "Some Icon Image Alt", "Other Icon Image Alt").
Vary("Vars", localutils.AnySliceToInterfaceSlice(makeCustomVarTestData(t))...).
ResultAsBaseTypeSlice().([]Host)
for i := range hosts {
hosts[i].Name = utils.UniqueName(t, "host")
if hosts[i].DisplayName == "" {
// if no display_name is set, it defaults to name
hosts[i].DisplayName = hosts[i].Name
}
if hosts[i].ZoneName == "" {
hosts[i].ZoneName = "master"
}
}
return hosts
}
type Service struct {
Name string ` icingadb:"name"`
DisplayName string `icinga2:"display_name" icingadb:"display_name"`
HostName *string `icinga2:"host_name,nomodify" icingadb:"host.name"`
CheckCommandName string `icinga2:"check_command" icingadb:"checkcommand_name"`
MaxCheckAttempts float64 `icinga2:"max_check_attempts" icingadb:"max_check_attempts"`
CheckPeriodName string `icinga2:"check_period" icingadb:"check_timeperiod_name"`
CheckTimeout float64 `icinga2:"check_timeout" icingadb:"check_timeout"`
CheckInterval float64 `icinga2:"check_interval" icingadb:"check_interval"`
RetryInterval float64 `icinga2:"retry_interval" icingadb:"check_retry_interval"`
EnableNotifications bool `icinga2:"enable_notifications" icingadb:"notifications_enabled"`
EnableActiveChecks bool `icinga2:"enable_active_checks" icingadb:"active_checks_enabled"`
EnablePassiveChecks bool `icinga2:"enable_passive_checks" icingadb:"passive_checks_enabled"`
EnableEventHandler bool `icinga2:"enable_event_handler" icingadb:"event_handler_enabled"`
EnableFlapping bool `icinga2:"enable_flapping" icingadb:"flapping_enabled"`
FlappingThresholdHigh float64 `icinga2:"flapping_threshold_high" icingadb:"flapping_threshold_high"`
FlappingThresholdLow float64 `icinga2:"flapping_threshold_low" icingadb:"flapping_threshold_low"`
EnablePerfdata bool `icinga2:"enable_perfdata" icingadb:"perfdata_enabled"`
EventCommandName string `icinga2:"event_command" icingadb:"eventcommand_name"`
Volatile bool `icinga2:"volatile" icingadb:"is_volatile"`
ZoneName string `icinga2:"zone" icingadb:"zone_name"`
CommandEndpointName string `icinga2:"command_endpoint" icingadb:"command_endpoint_name"`
Notes string `icinga2:"notes" icingadb:"notes"`
NotesUrl *string `icinga2:"notes_url" icingadb:"notes_url.notes_url"`
ActionUrl *string `icinga2:"action_url" icingadb:"action_url.action_url"`
IconImage *string `icinga2:"icon_image" icingadb:"icon_image.icon_image"`
IconImageAlt string `icinga2:"icon_image_alt" icingadb:"icon_image_alt"`
Vars *CustomVarTestData `icinga2:"vars"`
// TODO(jb): groups
utils.VariantInfo
}
func makeTestSyncServices(t *testing.T) []Service {
service := Service{
HostName: newString("default-host"),
CheckCommandName: "default-checkcommand",
MaxCheckAttempts: 3,
CheckTimeout: 60,
CheckInterval: 10,
RetryInterval: 5,
EnableNotifications: true,
EnableActiveChecks: true,
EnablePassiveChecks: true,
EnableEventHandler: true,
EnableFlapping: true,
FlappingThresholdHigh: 80,
FlappingThresholdLow: 20,
EnablePerfdata: true,
Volatile: false,
}
services := utils.MakeVariants(service).
Vary("HostName", newString("some-host"), newString("other-host")).
Vary("DisplayName", "Some Display Name", "Other Display Name").
Vary("CheckCommandName", "some-checkcommand", "other-checkcommand").
Vary("MaxCheckAttempts", 5.0, 7.0).
Vary("CheckPeriodName", "some-timeperiod", "other-timeperiod").
Vary("CheckTimeout", 23.0 /* TODO(jb): .42 */, 120.0).
Vary("CheckInterval", 20.0, 42.0 /* TODO(jb): .23 */).
Vary("RetryInterval", 1.0 /* TODO(jb): .5 */, 15.0).
Vary("EnableNotifications", true, false).
Vary("EnableActiveChecks", true, false).
Vary("EnablePassiveChecks", true, false).
Vary("EnableEventHandler", true, false).
Vary("EnableFlapping", true, false).
Vary("FlappingThresholdHigh", 95.0, 99.5).
Vary("FlappingThresholdLow", 0.5, 10.0).
Vary("EnablePerfdata", true, false).
Vary("EventCommandName", "some-eventcommand", "other-eventcommand").
Vary("Volatile", true, false).
Vary("ZoneName", "some-zone", "other-zone").
Vary("CommandEndpointName", "some-endpoint", "other-endpoint").
Vary("Notes", "Some Notes", "Other Notes").
Vary("NotesUrl", newString("https://some.notes.invalid/service"), newString("http://other.notes.invalid/service")).
Vary("ActionUrl", newString("https://some.action.invalid/service"), newString("http://other.actions.invalid/service")).
Vary("IconImage", newString("https://some.icon.invalid/service.png"), newString("http://other.icon.invalid/service.jpg")).
Vary("IconImageAlt", "Some Icon Image Alt", "Other Icon Image Alt").
Vary("Vars", localutils.AnySliceToInterfaceSlice(makeCustomVarTestData(t))...).
ResultAsBaseTypeSlice().([]Service)
for i := range services {
services[i].Name = utils.UniqueName(t, "service")
if services[i].DisplayName == "" {
// if no display_name is set, it defaults to name
services[i].DisplayName = services[i].Name
}
if services[i].ZoneName == "" {
services[i].ZoneName = "master"
}
}
return services
}
type User struct {
// TODO(jb): vars, groups
Name string ` icingadb:"name"`
DisplayName string `icinga2:"display_name" icingadb:"display_name"`
Email string `icinga2:"email" icingadb:"email"`
Pager string `icinga2:"pager" icingadb:"pager"`
EnableNotifications bool `icinga2:"enable_notifications" icingadb:"notifications_enabled"`
Period *string `icinga2:"period" icingadb:"timeperiod.name"`
Types value.NotificationTypes `icinga2:"types" icingadb:"types"`
States value.NotificationStates `icinga2:"states" icingadb:"states"`
utils.VariantInfo
}
func makeTestUsers(t *testing.T) []User {
users := utils.MakeVariants(User{EnableNotifications: true}).
Vary("DisplayName", "Some Display Name", "Other Display Name").
Vary("Email", "some@email.invalid", "other@email.invalid").
Vary("Pager", "some pager", "other pager").
Vary("EnableNotifications", true, false).
Vary("Period", newString("some-timeperiod"), newString("other-timeperiod")).
Vary("Types",
value.NotificationTypes{"DowntimeStart", "DowntimeEnd", "DowntimeRemoved"},
value.NotificationTypes{"Custom"},
value.NotificationTypes{"Acknowledgement"},
value.NotificationTypes{"Problem", "Recovery"},
value.NotificationTypes{"FlappingStart", "FlappingEnd"},
value.NotificationTypes{"DowntimeStart", "Problem", "FlappingStart"},
value.NotificationTypes{"DowntimeEnd", "DowntimeRemoved", "Recovery", "FlappingEnd"},
value.NotificationTypes{"DowntimeStart", "DowntimeEnd", "DowntimeRemoved", "Custom", "Acknowledgement", "Problem", "Recovery", "FlappingStart", "FlappingEnd"},
value.NotificationTypes{"Custom", "Acknowledgement"},
).
Vary("States",
value.NotificationStates{},
value.NotificationStates{"Up", "Down"},
value.NotificationStates{"OK", "Warning", "Critical", "Unknown"},
value.NotificationStates{"Critical", "Down"},
value.NotificationStates{"OK", "Warning", "Critical", "Unknown", "Up", "Down"}).
ResultAsBaseTypeSlice().([]User)
for i := range users {
users[i].Name = utils.UniqueName(t, "user")
if users[i].DisplayName == "" {
users[i].DisplayName = users[i].Name
}
}
return users
}
type Notification struct {
Name string ` icingadb:"name"`
HostName *string `icinga2:"host_name,nomodify" icingadb:"host.name"`
ServiceName *string `icinga2:"service_name,nomodify" icingadb:"service.name"`
Command string `icinga2:"command" icingadb:"notificationcommand.name"`
Times map[string]string `icinga2:"times"`
Interval int `icinga2:"interval" icingadb:"notification_interval"`
Period *string `icinga2:"period" icingadb:"timeperiod.name"`
//Zone string `icinga2:"zone" icingadb:"zone.name"`
Types value.NotificationTypes `icinga2:"types" icingadb:"types"`
States value.NotificationStates `icinga2:"states" icingadb:"states"`
Users []string `icinga2:"users"`
UserGroups []string `icinga2:"user_groups"`
Vars *CustomVarTestData `icinga2:"vars"`
utils.VariantInfo
}
func (n Notification) fullName() string {
if n.ServiceName == nil {
return *n.HostName + "!" + n.Name
} else {
return *n.HostName + "!" + *n.ServiceName + "!" + n.Name
}
}
func (n Notification) verify(t require.TestingT, db *sqlx.DB) {
verifyIcingaDbRow(t, db, n)
// Check if the "notification_user" table has been populated correctly
{
query := `SELECT u.name FROM notification n JOIN notification_user nu ON n.id = nu.notification_id JOIN "user" u ON u.id = nu.user_id WHERE n.name = ? ORDER BY u.name`
var rows []string
err := db.Select(&rows, db.Rebind(query), n.fullName())
require.NoError(t, err, "SQL query")
expected := append([]string(nil), n.Users...)
sort.Strings(expected)
assert.Equal(t, expected, rows, "Users in database should be equal")
}
// Check if the "notification_groups" table has been populated correctly
{
query := "SELECT ug.name FROM notification n JOIN notification_usergroup ng ON n.id = ng.notification_id JOIN usergroup ug ON ug.id = ng.usergroup_id WHERE n.name = ? ORDER BY ug.name"
var rows []string
err := db.Select(&rows, db.Rebind(query), n.fullName())
require.NoError(t, err, "SQL query")
expected := append([]string(nil), n.UserGroups...)
sort.Strings(expected)
require.Equal(t, expected, rows, "Usergroups in database should be equal")
}
// Check if the "notification_recipients" table has been populated correctly
{
type Row struct {
User *string `db:"username"`
Group *string `db:"groupname"`
}
var expected []Row
for _, user := range n.Users {
expected = append(expected, Row{User: newString(user)})
}
for _, userGroup := range n.UserGroups {
expected = append(expected, Row{Group: newString(userGroup)})
for user, groups := range users {
if _, ok := groups[userGroup]; ok {
expected = append(expected, Row{User: newString(user), Group: newString(userGroup)})
}
}
}
sort.Slice(expected, func(i, j int) bool {
r1 := expected[i]
r2 := expected[j]
stringComparePtr := func(a, b *string) int {
if a == nil && b == nil {
return 0
} else if a == nil {
return -1
} else if b == nil {
return 1
}
return strings.Compare(*a, *b)
}
switch stringComparePtr(r1.User, r2.User) {
case -1:
return true
case 1:
return false
default:
return stringComparePtr(r1.Group, r2.Group) == -1
}
})
query := "SELECT u.name AS username, ug.name AS groupname FROM notification n " +
"JOIN notification_recipient nr ON n.id = nr.notification_id " +
`LEFT JOIN "user" u ON u.id = nr.user_id ` +
"LEFT JOIN usergroup ug ON ug.id = nr.usergroup_id " +
"WHERE n.name = ? " +
"ORDER BY u.name IS NOT NULL, u.name, ug.name IS NOT NULL, ug.name"
var rows []Row
err := db.Select(&rows, db.Rebind(query), n.fullName())
require.NoError(t, err, "SQL query")
require.Equal(t, expected, rows, "Recipients in database should be equal")
}
}
func makeTestNotifications(t *testing.T) []Notification {
notification := Notification{
HostName: newString("default-host"),
ServiceName: newString("default-service"),
Command: "default-notificationcommand",
Users: []string{"default-user", "testuser1", "testuser2", "testuser3"},
UserGroups: []string{"default-usergroup", "testusergroup1", "testusergroup2", "testusergroup3"},
Interval: 1800,
}
notifications := utils.MakeVariants(notification).
//Vary("TimesBegin", 5, 999, 23980, 525, 666, 0).
//Vary("TimesEnd", 0, 453, 74350, 423, 235, 63477).
Vary("Interval", 5, 453, 74350, 423, 235, 63477).
Vary("Period", newString("some-timeperiod"), newString("other-timeperiod")).
Vary("Types",
value.NotificationTypes{"DowntimeStart", "DowntimeEnd", "DowntimeRemoved"},
value.NotificationTypes{"Custom"},
value.NotificationTypes{"Acknowledgement"},
value.NotificationTypes{"Problem", "Recovery"},
value.NotificationTypes{"FlappingStart", "FlappingEnd"},
value.NotificationTypes{"DowntimeStart", "Problem", "FlappingStart"},
value.NotificationTypes{"DowntimeEnd", "DowntimeRemoved", "Recovery", "FlappingEnd"},
value.NotificationTypes{"DowntimeStart", "DowntimeEnd", "DowntimeRemoved", "Custom", "Acknowledgement", "Problem", "Recovery", "FlappingStart", "FlappingEnd"},
value.NotificationTypes{"Custom", "Acknowledgement"},
).
Vary("States",
value.NotificationStates{},
value.NotificationStates{"OK", "Warning", "Critical", "Unknown"},
value.NotificationStates{"OK", "Unknown"}).
Vary("Users", localutils.AnySliceToInterfaceSlice(localutils.SliceSubsets(
"default-user", "some-user", "other-user", "testuser1", "testuser2", "testuser3"))...).
Vary("UserGroups", localutils.AnySliceToInterfaceSlice(localutils.SliceSubsets(
"default-usergroup", "some-usergroup", "other-usergroup", "testusergroup1", "testusergroup2", "testusergroup3"))...).
ResultAsBaseTypeSlice().([]Notification)
for i := range notifications {
notifications[i].Name = utils.UniqueName(t, "notification")
}
return notifications
}
// writeIcinga2ConfigObjects emits config objects as icinga2 DSL to a writer
// based on the type of obj and its field having icinga2 struct tags.
func writeIcinga2ConfigObject(w io.Writer, obj interface{}) error {
o := reflect.ValueOf(obj)
name := o.FieldByName("Name").Interface()
typ := o.Type()
typeName := typ.Name()
_, err := fmt.Fprintf(w, "object %s %s {\n", typeName, value.ToIcinga2Config(name))
if err != nil {
return err
}
for fieldIndex := 0; fieldIndex < typ.NumField(); fieldIndex++ {
tag := typ.Field(fieldIndex).Tag.Get("icinga2")
attr := strings.Split(tag, ",")[0]
if attr != "" {
if v := o.Field(fieldIndex).Interface(); v != nil {
_, err := fmt.Fprintf(w, "\t%s = %s\n", attr, value.ToIcinga2Config(v))
if err != nil {
return err
}
}
}
}
_, err = fmt.Fprintf(w, "}\n")
return err
}
// makeIcinga2ApiAttributes generates a map that can be JSON marshaled and passed to the icinga2 API
// based on the type of obj and its field having icinga2 struct tags. Fields that are marked as "nomodify"
// (for example `icinga2:"host_name,nomodify"`) are omitted if the modify parameter is set to true.
func makeIcinga2ApiAttributes(obj interface{}, modify bool) map[string]interface{} {
attrs := make(map[string]interface{})
o := reflect.ValueOf(obj)
typ := o.Type()
for fieldIndex := 0; fieldIndex < typ.NumField(); fieldIndex++ {
tag := typ.Field(fieldIndex).Tag.Get("icinga2")
parts := strings.Split(tag, ",")
attr := parts[0]
flags := parts[1:]
if attr == "" || (modify && slices.Contains(flags, "nomodify")) {
continue
}
if val := o.Field(fieldIndex).Interface(); val != nil {
attrs[attr] = value.ToIcinga2Api(val)
}
}
return attrs
}
// verifyIcingaDbRow checks that the object given by obj is properly present in the SQL database. It checks compares all
// struct fields that have an icingadb tag set to the column name. It automatically joins tables if required.
func verifyIcingaDbRow(t require.TestingT, db *sqlx.DB, obj interface{}) {
o := reflect.ValueOf(obj)
name := o.FieldByName("Name").Interface()
typ := o.Type()
typeName := typ.Name()
if notification, ok := obj.(Notification); ok {
name = notification.fullName()
}
type ColumnValueExpected struct {
Column string
Value interface{}
Expected interface{}
}
joinColumns := func(cs []ColumnValueExpected) string {
var c []string
for i := range cs {
var quotedParts []string
for _, part := range strings.Split(cs[i].Column, ".") {
quotedParts = append(quotedParts, `"`+part+`"`)
}
c = append(c, strings.Join(quotedParts, "."))
}
return strings.Join(c, ", ")
}
scanSlice := func(cs []ColumnValueExpected) []interface{} {
var vs []interface{}
for i := range cs {
vs = append(vs, cs[i].Value)
}
return vs
}
table := strings.ToLower(typeName)
var columns []ColumnValueExpected
joins := make(map[string]struct{})
for fieldIndex := 0; fieldIndex < typ.NumField(); fieldIndex++ {
if col := typ.Field(fieldIndex).Tag.Get("icingadb"); col != "" && col != "name" {
if val := o.Field(fieldIndex).Interface(); val != nil {
dbVal := value.ToIcingaDb(val)
scanVal := reflect.New(reflect.TypeOf(dbVal)).Interface()
if strings.Contains(col, ".") {
parts := strings.SplitN(col, ".", 2)
joins[parts[0]] = struct{}{}
} else {
col = table + "." + col
}
columns = append(columns, ColumnValueExpected{
Column: col,
Value: scanVal,
Expected: dbVal,
})
}
}
}
joinsQuery := ""
for join := range joins {
joinsQuery += fmt.Sprintf(` LEFT JOIN "%s" ON "%s"."id" = "%s"."%s_id"`, join, join, table, join)
}
query := fmt.Sprintf(`SELECT %s FROM "%s" %s WHERE "%s"."name" = ?`,
joinColumns(columns), table, joinsQuery, table)
rows, err := db.Query(db.Rebind(query), name)
require.NoError(t, err, "SQL query: %s", query)
defer func() { _ = rows.Close() }()
require.True(t, rows.Next(), "SQL query should return a row: %s", query)
err = rows.Scan(scanSlice(columns)...)
require.NoError(t, err, "SQL scan: %s", query)
for _, col := range columns {
got := reflect.ValueOf(col.Value).Elem().Interface()
assert.Equalf(t, col.Expected, got, "%s should match", col.Column)
}
require.False(t, rows.Next(), "SQL query should return only one row: %s", query)
}
// newString allocates a new *string and initializes it. This helper function exists as
// there seems to be no way to achieve this within a single statement.
func newString(s string) *string {
return &s
}
type CustomVarTestData struct {
Value interface{} // Value to put into config or API
Vars map[string]string // Expected values in customvar table
VarsFlat map[string]sql.NullString // Expected values in customvar_flat table
}
func (c *CustomVarTestData) Icinga2ConfigValue() string {
if c == nil {
return value.ToIcinga2Config(nil)
}
return value.ToIcinga2Config(c.Value)
}
func (c *CustomVarTestData) Icinga2ApiValue() interface{} {
if c == nil {
return value.ToIcinga2Api(nil)
}
return value.ToIcinga2Api(c.Value)
}
func (c *CustomVarTestData) VerifyCustomVar(t require.TestingT, logger *zap.Logger, db *sqlx.DB, obj interface{}) {
c.verify(t, logger, db, obj, false)
}
func (c *CustomVarTestData) VerifyCustomVarFlat(t require.TestingT, logger *zap.Logger, db *sqlx.DB, obj interface{}) {
c.verify(t, logger, db, obj, true)
}
func (c *CustomVarTestData) verify(t require.TestingT, logger *zap.Logger, db *sqlx.DB, obj interface{}, flat bool) {
o := reflect.ValueOf(obj)
name := o.FieldByName("Name").Interface()
typ := o.Type()
typeName := typ.Name()
table := strings.ToLower(typeName)
query := ""
if flat {
query += "SELECT customvar_flat.flatname, customvar_flat.flatvalue "
} else {
query += "SELECT customvar.name, customvar.value "
}
query += "FROM " + table + "_customvar " +
"JOIN " + table + " ON " + table + ".id = " + table + "_customvar." + table + "_id " +
"JOIN customvar ON customvar.id = " + table + "_customvar.customvar_id "
if flat {
query += "JOIN customvar_flat ON customvar_flat.customvar_id = customvar.id "
}
query += "WHERE " + table + ".name = ?"
rows, err := db.Query(db.Rebind(query), name)
require.NoError(t, err, "querying customvars")
defer func() { _ = rows.Close() }()
// copy map to remove items while reading from the database
expected := make(map[string]sql.NullString)
if flat {
for k, v := range c.VarsFlat {
expected[k] = v
}
} else {
for k, v := range c.Vars {
expected[k] = toDBString(v)
}
}
for rows.Next() {
var cvName string
var cvValue sql.NullString
err = rows.Scan(&cvName, &cvValue)
require.NoError(t, err, "scanning query row")
logger.Debug("custom var from database",
zap.Bool("flat", flat),
zap.String("object-type", typeName),
zap.Any("object-name", name),
zap.String("custom-var-name", cvName),
zap.String("custom-var-value", cvValue.String))
if cvExpected, ok := expected[cvName]; ok {
assert.Equalf(t, cvExpected, cvValue, "custom var %q", cvName)
delete(expected, cvName)
} else if !ok {
assert.Failf(t, "unexpected custom var", "%q: %q", cvName, cvValue.String)
}
}
for k, v := range expected {
assert.Failf(t, "missing custom var", "%q: %q", k, v)
}
}
func makeCustomVarTestData(t *testing.T) []*CustomVarTestData {
var data []*CustomVarTestData
// Icinga deduplicates identical custom variables between objects, therefore add a unique identifier to names and
// values to force it to actually sync new variables instead of just changing the mapping of objects to variables.
id := utils.UniqueName(t, "customvar")
// simple string values
data = append(data, &CustomVarTestData{
Value: map[string]interface{}{
id + "-hello": id + " world",
id + "-foo": id + " bar",
},
Vars: map[string]string{
id + "-hello": `"` + id + ` world"`,
id + "-foo": `"` + id + ` bar"`,
},
VarsFlat: map[string]sql.NullString{
id + "-hello": toDBString(id + " world"),
id + "-foo": toDBString(id + " bar"),
},
})
// empty custom vars of type array and dictionaries
data = append(data, &CustomVarTestData{
Value: map[string]interface{}{
id + "-empty-list": []interface{}{},
id + "-empty-nested-list": []interface{}{[]interface{}{}},
id + "-empty-dict": map[string]interface{}{},
id + "-empty-nested-dict": map[string]interface{}{
"some-key": map[string]interface{}{},
},
},
Vars: map[string]string{
id + "-empty-list": `[]`,
id + "-empty-nested-list": `[[]]`,
id + "-empty-dict": `{}`,
id + "-empty-nested-dict": `{"some-key":{}}`,
},
VarsFlat: map[string]sql.NullString{
id + "-empty-list": {},
id + "-empty-nested-list[0]": {},
id + "-empty-dict": {},
id + "-empty-nested-dict.some-key": {},
},
})
// complex example
data = append(data, &CustomVarTestData{
Value: map[string]interface{}{
id + "-array": []interface{}{"foo", 23, "bar"},
id + "-dict": map[string]interface{}{
"some-key": "some-value",
"other-key": "other-value",
},
id + "-string": "hello icinga",
id + "-int": -1,
id + "-float": 13.37,
id + "-true": true,
id + "-false": false,
id + "-null": nil,
id + "-nested-dict": map[string]interface{}{
"top-level-entry": "good morning",
"array": []interface{}{"answer?", 42},
"dict": map[string]interface{}{"another-key": "another-value", "yet-another-key": 4711},
},
id + "-nested-array": []interface{}{
[]interface{}{1, 2, 3},
map[string]interface{}{"contains-a-map": "yes", "really?": true},
-42,
},
},
Vars: map[string]string{
id + "-array": `["foo",23,"bar"]`,
id + "-dict": `{"other-key":"other-value","some-key":"some-value"}`,
id + "-string": `"hello icinga"`,
id + "-int": `-1`,
id + "-float": `13.37`,
id + "-true": `true`,
id + "-false": `false`,
id + "-null": `null`,
id + "-nested-dict": `{"array":["answer?",42],"dict":{"another-key":"another-value","yet-another-key":4711},"top-level-entry":"good morning"}`,
id + "-nested-array": `[[1,2,3],{"contains-a-map":"yes","really?":true},-42]`,
},
VarsFlat: map[string]sql.NullString{
id + "-array[0]": toDBString(`foo`),
id + "-array[1]": toDBString(`23`),
id + "-array[2]": toDBString(`bar`),
id + "-dict.some-key": toDBString(`some-value`),
id + "-dict.other-key": toDBString(`other-value`),
id + "-string": toDBString(`hello icinga`),
id + "-int": toDBString(`-1`),
id + "-float": toDBString(`13.37`),
id + "-true": toDBString(`true`),
id + "-false": toDBString(`false`),
id + "-null": toDBString(`null`),
id + "-nested-dict.dict.another-key": toDBString(`another-value`),
id + "-nested-dict.dict.yet-another-key": toDBString(`4711`),
id + "-nested-dict.array[0]": toDBString(`answer?`),
id + "-nested-dict.array[1]": toDBString(`42`),
id + "-nested-dict.top-level-entry": toDBString(`good morning`),
id + "-nested-array[0][0]": toDBString(`1`),
id + "-nested-array[0][1]": toDBString(`2`),
id + "-nested-array[0][2]": toDBString(`3`),
id + "-nested-array[1].contains-a-map": toDBString(`yes`),
id + "-nested-array[1].really?": toDBString(`true`),
id + "-nested-array[2]": toDBString(`-42`),
},
})
// two sets of variables that share keys but have different values
data = append(data, &CustomVarTestData{
Value: map[string]interface{}{
"a": "foo",
"b": []interface{}{"bar", 42, -13.37},
"c": map[string]interface{}{"a": true, "b": false, "c": nil},
},
Vars: map[string]string{
"a": `"foo"`,
"b": `["bar",42,-13.37]`,
"c": `{"a":true,"b":false,"c":null}`,
},
VarsFlat: map[string]sql.NullString{
"a": toDBString("foo"),
"b[0]": toDBString(`bar`),
"b[1]": toDBString(`42`),
"b[2]": toDBString(`-13.37`),
"c.a": toDBString(`true`),
"c.b": toDBString(`false`),
"c.c": toDBString(`null`),
},
}, &CustomVarTestData{
Value: map[string]interface{}{
"a": -13.37,
"b": []interface{}{true, false, nil},
"c": map[string]interface{}{"a": "foo", "b": "bar", "c": 42},
},
Vars: map[string]string{
"a": "-13.37",
"b": `[true,false,null]`,
"c": `{"a":"foo","b":"bar","c":42}`,
},
VarsFlat: map[string]sql.NullString{
"a": toDBString(`-13.37`),
"b[0]": toDBString(`true`),
"b[1]": toDBString(`false`),
"b[2]": toDBString(`null`),
"c.a": toDBString("foo"),
"c.b": toDBString(`bar`),
"c.c": toDBString(`42`),
},
})
return data
}
func toDBString(str string) sql.NullString {
return sql.NullString{String: str, Valid: true}
}
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