package logic import ( scn "blackforestbytes.com/simplecloudnotifier" "blackforestbytes.com/simplecloudnotifier/api/apierr" "blackforestbytes.com/simplecloudnotifier/api/ginresp" "blackforestbytes.com/simplecloudnotifier/models" "context" "errors" "fmt" "github.com/gin-gonic/gin" "github.com/glebarez/go-sqlite" "github.com/rs/zerolog/log" "gogs.mikescher.com/BlackForestBytes/goext/dataext" "gogs.mikescher.com/BlackForestBytes/goext/ginext" "gogs.mikescher.com/BlackForestBytes/goext/langext" "math/rand" "runtime/debug" "time" ) type RequestOptions struct { IgnoreWrongContentType bool } func (app *Application) DoRequest(gectx *ginext.AppContext, g *gin.Context, fn func(ctx *AppContext, finishSuccess func(r ginext.HTTPResponse) ginext.HTTPResponse) ginext.HTTPResponse) ginext.HTTPResponse { maxRetry := scn.Conf.RequestMaxRetry retrySleep := scn.Conf.RequestRetrySleep reqctx := g.Request.Context() t0 := time.Now() for ctr := 1; ; ctr++ { ictx, cancel := context.WithTimeout(gectx, app.Config.RequestTimeout) actx := CreateAppContext(app, g, ictx, cancel) wrap, stackTrace, panicObj := callPanicSafe(func(ctx *AppContext, finishSuccess func(r ginext.HTTPResponse) ginext.HTTPResponse) ginext.HTTPResponse { authheader := g.GetHeader("Authorization") perm, err := app.getPermissions(actx, authheader) if err != nil { cancel() return ginresp.APIError(g, 400, apierr.PERM_QUERY_FAIL, "Failed to determine permissions", err) } actx.permissions = perm g.Set("perm", perm) return fn(actx, finishSuccess) }, actx, actx._FinishSuccess) if panicObj != nil { log.Error().Interface("panicObj", panicObj).Msg("Panic occured (in gin handler)") log.Error().Msg(stackTrace) wrap = ginresp.APIError(g, 500, apierr.PANIC, "A panic occured in the HTTP handler", errors.New(fmt.Sprintf("%+v\n\n@:\n%s", panicObj, stackTrace))) } if g.Writer.Written() { if scn.Conf.ReqLogEnabled { app.InsertRequestLog(createRequestLog(g, t0, ctr, nil, langext.Ptr("Writing in WrapperFunc is not supported"))) } panic("Writing in WrapperFunc is not supported") } if ctr < maxRetry && isSqlite3Busy(wrap) { log.Warn().Int("counter", ctr).Str("url", g.Request.URL.String()).Msg("Retry request (ErrBusy)") err := resetBody(g) if err != nil { panic(err) } time.Sleep(time.Duration(int64(float64(retrySleep) * (0.5 + rand.Float64())))) continue } if reqctx.Err() == nil { if scn.Conf.ReqLogEnabled { app.InsertRequestLog(createRequestLog(g, t0, ctr, wrap, nil)) } if scw, ok := wrap.(ginext.InspectableHTTPResponse); ok { statuscode := scw.Statuscode() if statuscode/100 != 2 { log.Warn().Str("url", g.Request.Method+"::"+g.Request.URL.String()).Msg(fmt.Sprintf("Request failed with statuscode %d", statuscode)) } } else { log.Warn().Str("url", g.Request.Method+"::"+g.Request.URL.String()).Msg(fmt.Sprintf("Request failed with statuscode [unknown]")) } } return wrap } } func callPanicSafe(fn func(ctx *AppContext, finishSuccess func(r ginext.HTTPResponse) ginext.HTTPResponse) ginext.HTTPResponse, actx *AppContext, fnFin func(r ginext.HTTPResponse) ginext.HTTPResponse) (res ginext.HTTPResponse, stackTrace string, panicObj any) { defer func() { if rec := recover(); rec != nil { res = nil stackTrace = string(debug.Stack()) panicObj = rec } }() res = fn(actx, fnFin) return res, "", nil } func createRequestLog(g *gin.Context, t0 time.Time, ctr int, resp ginext.HTTPResponse, panicstr *string) models.RequestLog { t1 := time.Now() ua := g.Request.UserAgent() auth := g.Request.Header.Get("Authorization") ct := g.Request.Header.Get("Content-Type") var reqbody []byte = nil if g.Request.Body != nil { brcbody, err := g.Request.Body.(dataext.BufferedReadCloser).BufferedAll() if err == nil { reqbody = brcbody } } var strreqbody *string = nil if len(reqbody) < scn.Conf.ReqLogMaxBodySize { strreqbody = langext.Ptr(string(reqbody)) } var respbody *string = nil var strrespbody *string = nil if resp != nil { if resp2, ok := resp.(ginext.InspectableHTTPResponse); ok { respbody = resp2.BodyString(g) if respbody != nil && len(*respbody) < scn.Conf.ReqLogMaxBodySize { strrespbody = respbody } } } permObj, hasPerm := g.Get("perm") hasTok := false if hasPerm { hasTok = permObj.(models.PermissionSet).Token != nil } var statuscode *int64 = nil if resp != nil { if resp2, ok := resp.(ginext.InspectableHTTPResponse); ok { statuscode = langext.Ptr(int64(resp2.Statuscode())) } } var contentType = "" if resp != nil { if resp2, ok := resp.(ginext.InspectableHTTPResponse); ok { contentType = resp2.ContentType() } } return models.RequestLog{ Method: g.Request.Method, URI: g.Request.URL.String(), UserAgent: langext.Conditional(ua == "", nil, &ua), Authentication: langext.Conditional(auth == "", nil, &auth), RequestBody: strreqbody, RequestBodySize: int64(len(reqbody)), RequestContentType: ct, RemoteIP: g.RemoteIP(), KeyID: langext.ConditionalFn10(hasTok, func() *models.KeyTokenID { return langext.Ptr(permObj.(models.PermissionSet).Token.KeyTokenID) }, nil), UserID: langext.ConditionalFn10(hasTok, func() *models.UserID { return langext.Ptr(permObj.(models.PermissionSet).Token.OwnerUserID) }, nil), Permissions: langext.ConditionalFn10(hasTok, func() *string { return langext.Ptr(permObj.(models.PermissionSet).Token.Permissions.String()) }, nil), ResponseStatuscode: statuscode, ResponseBodySize: langext.ConditionalFn10(strrespbody != nil, func() *int64 { return langext.Ptr(int64(len(*respbody))) }, nil), ResponseBody: strrespbody, ResponseContentType: contentType, RetryCount: int64(ctr), Panicked: panicstr != nil, PanicStr: panicstr, ProcessingTime: t1.Sub(t0), TimestampStart: t0, TimestampFinish: t1, } } func resetBody(g *gin.Context) error { if g.Request.Body == nil { return nil } err := g.Request.Body.(dataext.BufferedReadCloser).Reset() if err != nil { return err } return nil } func isSqlite3Busy(r ginext.HTTPResponse) bool { if errwrap, ok := r.(interface{ Unwrap() error }); ok && errwrap != nil { { var s3err *sqlite.Error if errors.As(errwrap.Unwrap(), &s3err) { if s3err.Code() == 5 { // [5] == SQLITE_BUSY return true } } } } return false } func BuildGinRequestError(g *gin.Context, fieldtype string, err error) ginext.HTTPResponse { switch fieldtype { case "URI": return ginresp.APIError(g, 400, apierr.BINDFAIL_URI_PARAM, "Failed to read uri", err) case "QUERY": return ginresp.APIError(g, 400, apierr.BINDFAIL_QUERY_PARAM, "Failed to read query", err) case "JSON": return ginresp.APIError(g, 400, apierr.BINDFAIL_BODY_PARAM, "Failed to read JSON body", err) case "BODY": return ginresp.APIError(g, 400, apierr.BINDFAIL_BODY_PARAM, "Failed to read query", err) case "FORM": return ginresp.APIError(g, 400, apierr.BINDFAIL_BODY_PARAM, "Failed to read multipart-form / urlencoded-form", err) case "HEADER": return ginresp.APIError(g, 400, apierr.BINDFAIL_HEADER_PARAM, "Failed to read header", err) case "INIT": return ginresp.APIError(g, 400, apierr.INTERNAL_EXCEPTION, "Failed to init context", err) default: return ginresp.APIError(g, 400, apierr.INTERNAL_EXCEPTION, "Failed to init", err) } }