// SPDX-License-Identifier: GPL-2.0-or-later /* * Zebra privileges header. * * Copyright (C) 2003 Paul Jakma. */ #ifndef _ZEBRA_PRIVS_H #define _ZEBRA_PRIVS_H #include #include #include "lib/queue.h" #ifdef __cplusplus extern "C" { #endif /* list of zebra capabilities */ typedef enum { ZCAP_SETID, ZCAP_BIND, ZCAP_NET_ADMIN, ZCAP_SYS_ADMIN, ZCAP_NET_RAW, ZCAP_CHROOT, ZCAP_NICE, ZCAP_PTRACE, ZCAP_DAC_OVERRIDE, ZCAP_READ_SEARCH, ZCAP_FOWNER, ZCAP_IPC_LOCK, ZCAP_SYS_RAWIO, ZCAP_MAX } zebra_capabilities_t; typedef enum { ZPRIVS_LOWERED, ZPRIVS_RAISED, ZPRIVS_UNKNOWN, } zebra_privs_current_t; typedef enum { ZPRIVS_RAISE, ZPRIVS_LOWER, } zebra_privs_ops_t; struct zebra_privs_refs_t { STAILQ_ENTRY(zebra_privs_refs_t) entry; pthread_t tid; uint32_t refcount; const char *raised_in_funcname; }; struct zebra_privs_t { zebra_capabilities_t *caps_p; /* caps required for operation */ zebra_capabilities_t *caps_i; /* caps to allow inheritance of */ int cap_num_p; /* number of caps in arrays */ int cap_num_i; /* Mutex and counter used to avoid race conditions in multi-threaded * processes. If privs status is process-wide, we need to * control changes to the privilege status among threads. * If privs changes are per-thread, we need to be able to * manage that too. */ pthread_mutex_t mutex; struct zebra_privs_refs_t process_refs; STAILQ_HEAD(thread_refs_q, zebra_privs_refs_t) thread_refs; const char *user; /* user and group to run as */ const char *group; const char *vty_group; /* group to chown vty socket to */ /* methods */ int (*change)(zebra_privs_ops_t); /* change privileges, 0 on success */ zebra_privs_current_t (*current_state)( void); /* current privilege state */ }; struct zprivs_ids_t { /* -1 is undefined */ uid_t uid_priv; /* privileged uid */ uid_t uid_normal; /* normal uid */ gid_t gid_priv; /* privileged uid */ gid_t gid_normal; /* normal uid */ gid_t gid_vty; /* vty gid */ }; extern struct zebra_privs_t *lib_privs; /* initialise zebra privileges */ extern void zprivs_preinit(struct zebra_privs_t *zprivs); extern void zprivs_init(struct zebra_privs_t *zprivs); /* drop all and terminate privileges */ extern void zprivs_terminate(struct zebra_privs_t *); /* query for runtime uid's and gid's, eg vty needs this */ extern void zprivs_get_ids(struct zprivs_ids_t *); /* * Wrapper around zprivs, to be used as: * frr_with_privs(&privs) { * ... code ... * if (error) * break; -- break can be used to get out of the block * ... code ... * } * * The argument to frr_with_privs() can be NULL to leave privileges as-is * (mostly useful for conditional privilege-raising, i.e.:) * frr_with_privs(cond ? &privs : NULL) {} * * NB: The code block is always executed, regardless of whether privileges * could be raised or not, or whether NULL was given or not. This is fully * intentional; the user may have configured some RBAC or similar that we * are not aware of, but that allows our code to proceed without privileges. * * The point of this wrapper is to prevent accidental bugs where privileges * are elevated but then not dropped. This can happen when, for example, a * "return", "goto" or "break" in the middle of the elevated-privilege code * skips past the privilege dropping call. * * The macro below uses variable cleanup to drop privileges as soon as the * code block is left in any way (and thus the _privs variable goes out of * scope.) _once is just a trick to run the loop exactly once. */ extern struct zebra_privs_t *_zprivs_raise(struct zebra_privs_t *privs, const char *funcname); extern void _zprivs_lower(struct zebra_privs_t **privs); #define frr_with_privs(privs) \ for (struct zebra_privs_t *_once = NULL, \ *_privs __attribute__( \ (unused, cleanup(_zprivs_lower))) = \ _zprivs_raise(privs, __func__); \ _once == NULL; _once = (void *)1) #ifdef __cplusplus } #endif #endif /* _ZEBRA_PRIVS_H */