// Copyright 2018 The gVisor Authors. // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package auth import ( "math" ) // UID is a user ID in an unspecified user namespace. type UID uint32 // GID is a group ID in an unspecified user namespace. type GID uint32 // In the root user namespace, user/group IDs have a 1-to-1 relationship with // the users/groups they represent. In other user namespaces, this is not the // case; for example, two different unmapped users may both "have" the overflow // UID. This means that it is generally only valid to compare user and group // IDs in the root user namespace. We assign distinct types, KUID/KGID, to such // IDs to emphasize this distinction. ("k" is for "key", as in "unique key". // Linux also uses the prefix "k", but I think they mean "kernel".) // KUID is a user ID in the root user namespace. type KUID uint32 // KGID is a group ID in the root user namespace. type KGID uint32 const ( // NoID is uint32(-1). -1 is consistently used as a special value, in Linux // and by extension in the auth package, to mean "no ID": // // - ID mapping returns -1 if the ID is not mapped. // // - Most set*id() syscalls accept -1 to mean "do not change this ID". NoID = math.MaxUint32 // OverflowUID is the default value of /proc/sys/kernel/overflowuid. The // "overflow UID" is usually [1] used when translating a user ID between // namespaces fails because the ID is not mapped. (We don't implement this // file, so the overflow UID is constant.) // // [1] "There is one notable case where unmapped user and group IDs are not // converted to the corresponding overflow ID value. When viewing a uid_map // or gid_map file in which there is no mapping for the second field, that // field is displayed as 4294967295 (-1 as an unsigned integer);" - // user_namespaces(7) OverflowUID = UID(65534) OverflowGID = GID(65534) // NobodyKUID is the user ID usually reserved for the least privileged user // "nobody". NobodyKUID = KUID(65534) NobodyKGID = KGID(65534) // RootKUID is the user ID usually used for the most privileged user "root". RootKUID = KUID(0) RootKGID = KGID(0) RootUID = UID(0) RootGID = GID(0) ) // Ok returns true if uid is not -1. func (uid UID) Ok() bool { return uid != NoID } // Ok returns true if gid is not -1. func (gid GID) Ok() bool { return gid != NoID } // Ok returns true if kuid is not -1. func (kuid KUID) Ok() bool { return kuid != NoID } // Ok returns true if kgid is not -1. func (kgid KGID) Ok() bool { return kgid != NoID } // OrOverflow returns uid if it is valid and the overflow UID otherwise. func (uid UID) OrOverflow() UID { if uid.Ok() { return uid } return OverflowUID } // OrOverflow returns gid if it is valid and the overflow GID otherwise. func (gid GID) OrOverflow() GID { if gid.Ok() { return gid } return OverflowGID } // In translates kuid into user namespace ns. If kuid is not mapped in ns, In // returns NoID. func (kuid KUID) In(ns *UserNamespace) UID { return ns.MapFromKUID(kuid) } // In translates kgid into user namespace ns. If kgid is not mapped in ns, In // returns NoID. func (kgid KGID) In(ns *UserNamespace) GID { return ns.MapFromKGID(kgid) }