104 lines
3.3 KiB
Go
104 lines
3.3 KiB
Go
package rtcp
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import (
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"fmt"
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"reflect"
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)
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/*
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Converts an RTCP Packet into a human-readable format. The Packets
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themselves can control the presentation as follows:
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- Fields of a type that have a String() method will be formatted
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with that String method (which should not emit '\n' characters)
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- Otherwise, fields with a tag containing a "fmt" string will use that
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format when serializing the value. For example, to format an SSRC
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value as base 16 insted of base 10:
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type ExamplePacket struct {
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LocalSSRC uint32 `fmt:"0x%X"`
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RemotsSSRCs []uint32 `fmt:"%X"`
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}
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- If no fmt string is present, "%+v" is used by default
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The intention of this stringify() function is to simplify creation
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of String() methods on new packet types, as it provides a simple
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baseline implementation that works well in the majority of cases.
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*/
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func stringify(p Packet) string {
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value := reflect.Indirect(reflect.ValueOf(p))
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return formatField(value.Type().String(), "", p, "")
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}
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func formatField(name string, format string, f interface{}, indent string) string { //nolint:gocognit
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out := indent
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value := reflect.ValueOf(f)
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if !value.IsValid() {
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return fmt.Sprintf("%s%s: <nil>\n", out, name)
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}
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isPacket := reflect.TypeOf(f).Implements(reflect.TypeOf((*Packet)(nil)).Elem())
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// Resolve pointers to their underlying values
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if value.Type().Kind() == reflect.Ptr && !value.IsNil() {
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underlying := reflect.Indirect(value)
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if underlying.IsValid() {
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value = underlying
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}
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}
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// If the field type has a custom String method, use that
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// (unless we're a packet, since we want to avoid recursing
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// back into this function if the Packet's String() method
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// uses it)
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if stringMethod := value.MethodByName("String"); !isPacket && stringMethod.IsValid() {
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out += fmt.Sprintf("%s: %s\n", name, stringMethod.Call([]reflect.Value{}))
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return out
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}
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switch value.Kind() {
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case reflect.Struct:
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out += fmt.Sprintf("%s:\n", name)
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for i := 0; i < value.NumField(); i++ {
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if value.Field(i).CanInterface() {
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format = value.Type().Field(i).Tag.Get("fmt")
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if format == "" {
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format = "%+v"
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}
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out += formatField(value.Type().Field(i).Name, format, value.Field(i).Interface(), indent+"\t")
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}
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}
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case reflect.Slice:
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childKind := value.Type().Elem().Kind()
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_, hasStringMethod := value.Type().Elem().MethodByName("String")
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if hasStringMethod || childKind == reflect.Struct || childKind == reflect.Ptr || childKind == reflect.Interface || childKind == reflect.Slice {
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out += fmt.Sprintf("%s:\n", name)
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for i := 0; i < value.Len(); i++ {
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childName := fmt.Sprint(i)
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// Since interfaces can hold different types of things, we add the
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// most specific type name to the name to make it clear what the
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// subsequent fields represent.
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if value.Index(i).Kind() == reflect.Interface {
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childName += fmt.Sprintf(" (%s)", reflect.Indirect(reflect.ValueOf(value.Index(i).Interface())).Type())
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}
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if value.Index(i).CanInterface() {
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out += formatField(childName, format, value.Index(i).Interface(), indent+"\t")
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}
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}
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return out
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}
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// If we didn't take care of stringing the value already, we fall through to the
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// generic case. This will print slices of basic types on a single line.
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fallthrough
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default:
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if value.CanInterface() {
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out += fmt.Sprintf("%s: "+format+"\n", name, value.Interface())
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}
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}
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return out
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}
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