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libc/winsup/cygwin/security.h

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/* security.h: security declarations
This file is part of Cygwin.
This software is a copyrighted work licensed under the terms of the
Cygwin license. Please consult the file "CYGWIN_LICENSE" for
details. */
#pragma once
#include <accctrl.h>
#include <dsgetdc.h>
/* Special file attribute set in set_created_file_access to flag that a file
has just been created. Used in get_posix_access. */
#define S_JUSTCREATED 0x80000000
/* UID/GID */
void uinfo_init ();
bool check_token_membership (PSID);
#define ILLEGAL_UID ((uid_t)-1)
#define ILLEGAL_GID ((gid_t)-1)
/* Offset for accounts in the primary domain of the machine. */
#define PRIMARY_POSIX_OFFSET (0x00100000)
/* Fake POSIX offsets used in scenarios in which the account has no permission
to fetch the POSIX offset, or when the admins have set the offset to an
unreasonable low value. The values are chosen in the hope that they won't
collide with "real" offsets. */
#define NOACCESS_POSIX_OFFSET (0xfe500000)
#define UNUSABLE_POSIX_OFFSET (0xfea00000)
/* For UNIX accounts not mapped to Windows accounts via winbind, Samba returns
SIDs of the form S-1-22-x-y, with x == 1 for users and x == 2 for groups,
and y == UNIX uid/gid. NFS returns no SIDs at all, but the plain UNIX
uid/gid values.
UNIX uid/gid values are mapped to Cygwin uid/gid values 0xff000000 +
unix uid/gid. This *might* collide with a posix_offset of some trusted
domain, but it's *very* unlikely. Define the mapping as macro. */
#define UNIX_POSIX_OFFSET (0xff000000)
#define UNIX_POSIX_MASK (0x00ffffff)
#define MAP_UNIX_TO_CYGWIN_ID(id) (UNIX_POSIX_OFFSET \
| ((id) & UNIX_POSIX_MASK))
#ifdef __i386__
#define ILLEGAL_UID16 ((__uid16_t)-1)
#define ILLEGAL_GID16 ((__gid16_t)-1)
#define uid16touid32(u16) ((u16)==ILLEGAL_UID16?ILLEGAL_UID:(uid_t)(u16))
#define gid16togid32(g16) ((g16)==ILLEGAL_GID16?ILLEGAL_GID:(gid_t)(g16))
#endif
#define MAX_DACL_LEN(n) (sizeof (ACL) \
+ (n) * (sizeof (ACCESS_ALLOWED_ACE) - sizeof (DWORD) \
+ SECURITY_MAX_SID_SIZE))
#define SD_MIN_SIZE (sizeof (SECURITY_DESCRIPTOR) + MAX_DACL_LEN (1))
#define ACL_MAXIMUM_SIZE 65532 /* Yeah, right. 64K - sizeof (DWORD). */
#define SD_MAXIMUM_SIZE 65536
#define NO_SID ((PSID)NULL)
#ifndef SE_CREATE_TOKEN_PRIVILEGE
#define SE_CREATE_TOKEN_PRIVILEGE 2U
#define SE_ASSIGNPRIMARYTOKEN_PRIVILEGE 3U
#define SE_LOCK_MEMORY_PRIVILEGE 4U
#define SE_INCREASE_QUOTA_PRIVILEGE 5U
#define SE_MACHINE_ACCOUNT_PRIVILEGE 6U
#define SE_TCB_PRIVILEGE 7U
#define SE_SECURITY_PRIVILEGE 8U
#define SE_TAKE_OWNERSHIP_PRIVILEGE 9U
#define SE_LOAD_DRIVER_PRIVILEGE 10U
#define SE_SYSTEM_PROFILE_PRIVILEGE 11U
#define SE_SYSTEMTIME_PRIVILEGE 12U
#define SE_PROF_SINGLE_PROCESS_PRIVILEGE 13U
#define SE_INC_BASE_PRIORITY_PRIVILEGE 14U
#define SE_CREATE_PAGEFILE_PRIVILEGE 15U
#define SE_CREATE_PERMANENT_PRIVILEGE 16U
#define SE_BACKUP_PRIVILEGE 17U
#define SE_RESTORE_PRIVILEGE 18U
#define SE_SHUTDOWN_PRIVILEGE 19U
#define SE_DEBUG_PRIVILEGE 20U
#define SE_AUDIT_PRIVILEGE 21U
#define SE_SYSTEM_ENVIRONMENT_PRIVILEGE 22U
#define SE_CHANGE_NOTIFY_PRIVILEGE 23U
#define SE_REMOTE_SHUTDOWN_PRIVILEGE 24U
#define SE_UNDOCK_PRIVILEGE 25U
#define SE_SYNC_AGENT_PRIVILEGE 26U
#define SE_ENABLE_DELEGATION_PRIVILEGE 27U
#define SE_MANAGE_VOLUME_PRIVILEGE 28U
#define SE_IMPERSONATE_PRIVILEGE 29U
#define SE_CREATE_GLOBAL_PRIVILEGE 30U
#define SE_TRUSTED_CREDMAN_ACCESS_PRIVILEGE 31U
#define SE_RELABEL_PRIVILEGE 32U
#define SE_INCREASE_WORKING_SET_PRIVILEGE 33U
#define SE_TIME_ZONE_PRIVILEGE 34U
#define SE_CREATE_SYMBOLIC_LINK_PRIVILEGE 35U
#define SE_MAX_WELL_KNOWN_PRIVILEGE SE_CREATE_SYMBOLIC_LINK_PRIVILEGE
#endif /* ! SE_CREATE_TOKEN_PRIVILEGE */
/* Added for debugging purposes. */
typedef struct {
BYTE Revision;
BYTE SubAuthorityCount;
SID_IDENTIFIER_AUTHORITY IdentifierAuthority;
DWORD SubAuthority[SID_MAX_SUB_AUTHORITIES];
} DBGSID, *PDBGSID;
/* Macro to define variable length SID structures */
#define MKSID(name, comment, authority, count, rid...) \
static NO_COPY struct { \
BYTE Revision; \
BYTE SubAuthorityCount; \
SID_IDENTIFIER_AUTHORITY IdentifierAuthority; \
DWORD SubAuthority[count]; \
} name##_struct = { SID_REVISION, count, {authority}, {rid}}; \
cygpsid NO_COPY name = (PSID) &name##_struct;
#define FILE_READ_BITS (FILE_READ_DATA | GENERIC_READ | GENERIC_ALL)
#define FILE_WRITE_BITS (FILE_WRITE_DATA | GENERIC_WRITE | GENERIC_ALL)
#define FILE_EXEC_BITS (FILE_EXECUTE | GENERIC_EXECUTE | GENERIC_ALL)
/* Convenience macros. The Windows SID access functions are crude. */
#define sid_id_auth(s) \
(RtlIdentifierAuthoritySid (s)->Value[5])
#define sid_sub_auth_count(s) \
(*RtlSubAuthorityCountSid ((s)))
#define sid_sub_auth(s,i) \
(*RtlSubAuthoritySid ((s),(i)))
#define sid_sub_auth_rid(s) \
(*RtlSubAuthoritySid ((s), (*RtlSubAuthorityCountSid ((s)) - 1)))
#ifdef __cplusplus
extern "C"
{
#endif
/* We need these declarations, otherwise g++ complains that the below
inline methods use an undefined function, if ntdll.h isn't included. */
BOOLEAN NTAPI RtlEqualSid (PSID, PSID);
NTSTATUS NTAPI RtlCopySid (ULONG, PSID, PSID);
#ifdef __cplusplus
}
#endif
class cyg_ldap;
class cygpsid {
protected:
PSID psid;
public:
cygpsid () {}
cygpsid (PSID nsid) { psid = nsid; }
operator PSID () const { return psid; }
const PSID operator= (PSID nsid) { return psid = nsid;}
uid_t get_id (BOOL search_grp, int *type, cyg_ldap *pldap);
int get_uid (cyg_ldap *pldap) { return get_id (FALSE, NULL, pldap); }
int get_gid (cyg_ldap *pldap) { return get_id (TRUE, NULL, pldap); }
PWCHAR pstring (PWCHAR nsidstr) const;
PWCHAR string (PWCHAR nsidstr) const;
char *pstring (char *nsidstr) const;
char *string (char *nsidstr) const;
bool operator== (const PSID nsid) const
{
if (!psid || !nsid)
return nsid == psid;
return RtlEqualSid (psid, nsid);
}
bool operator!= (const PSID nsid) const
{ return !(*this == nsid); }
bool operator== (const char *nsidstr) const;
bool operator!= (const char *nsidstr) const
{ return !(*this == nsidstr); }
void debug_print (const char *prefix = NULL) const
{
char buf[256] __attribute__ ((unused));
debug_printf ("%s %s", prefix ?: "", string (buf) ?: "NULL");
}
};
class cygsid : public cygpsid {
char sbuf[SECURITY_MAX_SID_SIZE];
bool well_known_sid;
const PSID getfromstr (PCWSTR nsidstr, bool well_known);
const PSID getfromstr (const char *nsidstr, bool well_known);
PSID get_sid (DWORD s, DWORD cnt, DWORD *r, bool well_known);
inline const PSID assign (const PSID nsid, bool well_known)
{
if (!nsid)
psid = NO_SID;
else
{
psid = (PSID) sbuf;
RtlCopySid (SECURITY_MAX_SID_SIZE, psid, nsid);
well_known_sid = well_known;
}
return psid;
}
public:
inline operator const PSID () { return psid; }
inline bool is_well_known_sid () { return well_known_sid; }
/* Both, = and *= are assignment operators. = creates a "normal" SID,
*= marks the SID as being a well-known SID. This difference is
important when creating a SID list for LSA authentication. */
inline const PSID operator= (cygsid &nsid)
{ return assign (nsid, nsid.well_known_sid); }
inline const PSID operator= (const PSID nsid)
{ return assign (nsid, false); }
inline const PSID operator= (PCWSTR nsidstr)
{ return getfromstr (nsidstr, false); }
inline const PSID operator= (const char *nsidstr)
{ return getfromstr (nsidstr, false); }
inline const PSID operator*= (cygsid &nsid)
{ return assign (nsid, true); }
inline const PSID operator*= (const PSID nsid)
{ return assign (nsid, true); }
inline const PSID operator*= (PCWSTR nsidstr)
{ return getfromstr (nsidstr, true); }
inline const PSID operator*= (const char *nsidstr)
{ return getfromstr (nsidstr, true); }
inline cygsid () : cygpsid ((PSID) sbuf), well_known_sid (false) {}
inline cygsid (const PSID nsid) { *this = nsid; }
inline cygsid (const char *nstrsid) { *this = nstrsid; }
inline cygsid (cygsid &nsid) { *this = nsid; }
inline PSID set () { return psid = (PSID) sbuf; }
inline BOOL getfrompw_gecos (const struct passwd *pw)
{
char *sp = (pw && pw->pw_gecos) ? strrchr (pw->pw_gecos, ',') : NULL;
return (*this = sp ? sp + 1 : sp) != NO_SID;
}
inline BOOL getfromgr_passwd (const struct group *gr)
{
char *sp = (gr && gr->gr_passwd) ? gr->gr_passwd : NULL;
return (*this = sp) != NO_SID;
}
const PSID create (DWORD auth, DWORD subauth_cnt, ...);
bool append (DWORD rid);
/* Implemented in pwdgrp.h. */
BOOL getfrompw (const struct passwd *pw);
BOOL getfromgr (const struct group *gr);
void debug_print (const char *prefix = NULL) const
{
char buf[256] __attribute__ ((unused));
debug_printf ("%s %s%s", prefix ?: "", string (buf) ?: "NULL", well_known_sid ? " (*)" : " (+)");
}
};
typedef enum { cygsidlist_empty, cygsidlist_alloc, cygsidlist_auto } cygsidlist_type;
class cygsidlist {
int maxcnt;
int cnt;
BOOL add (const PSID nsi, bool well_known); /* Only with auto for now */
public:
cygsid *sids;
cygsidlist_type type;
cygsidlist (cygsidlist_type t, int m)
: maxcnt (m), cnt (0), type (t)
{
if (t == cygsidlist_alloc)
sids = alloc_sids (m);
else
sids = new cygsid [m];
}
~cygsidlist () { if (type == cygsidlist_auto) delete [] sids; }
BOOL addfromgr (struct group *gr) /* Only with alloc */
{ return sids[cnt].getfromgr (gr) && ++cnt; }
/* += adds a "normal" SID, *= adds a well-known SID. See comment in class
cygsid above. */
BOOL operator+= (cygsid &si) { return add ((PSID) si,
si.is_well_known_sid ()); }
BOOL operator+= (const char *sidstr) { cygsid nsi (sidstr);
return add ((PSID) nsi,
nsi.is_well_known_sid ());
}
BOOL operator+= (const PSID psid) { return add (psid, false); }
BOOL operator*= (cygsid &si) { return add ((PSID) si, true); }
BOOL operator*= (const char *sidstr) { cygsid nsi (sidstr);
return add ((PSID) nsi, true); }
BOOL operator*= (const PSID psid) { return add (psid, true); }
void count (int ncnt)
{ cnt = ncnt; }
int count () const { return cnt; }
int non_well_known_count () const
{
int wcnt = 0;
for (int i = 0; i < cnt; ++i)
if (!sids[i].is_well_known_sid ())
++wcnt;
return wcnt;
}
int position (const PSID sid) const
{
for (int i = 0; i < cnt; ++i)
if (sids[i] == sid)
return i;
return -1;
}
int next_non_well_known_sid (int idx)
{
while (++idx < cnt)
if (!sids[idx].is_well_known_sid ())
return idx;
return -1;
}
BOOL contains (const PSID sid) const { return position (sid) >= 0; }
cygsid *alloc_sids (int n);
void free_sids ();
void debug_print (const char *prefix = NULL) const
{
debug_printf ("-- begin sidlist ---");
if (!cnt)
debug_printf ("No elements");
for (int i = 0; i < cnt; ++i)
sids[i].debug_print (prefix);
debug_printf ("-- ende sidlist ---");
}
};
/* Wrapper class to allow simple deleting of buffer space allocated
by read_sd() */
class security_descriptor {
protected:
PSECURITY_DESCRIPTOR psd;
DWORD sd_size;
public:
security_descriptor () : psd (NULL), sd_size (0) {}
~security_descriptor () { free (); }
PSECURITY_DESCRIPTOR malloc (size_t nsize);
PSECURITY_DESCRIPTOR realloc (size_t nsize);
void free ();
inline DWORD size () const { return sd_size; }
inline DWORD copy (void *buf, DWORD buf_size) const {
if (buf_size < size ())
return sd_size;
memcpy (buf, psd, sd_size);
return 0;
}
inline operator const PSECURITY_DESCRIPTOR () { return psd; }
inline operator PSECURITY_DESCRIPTOR *() { return &psd; }
inline void operator =(PSECURITY_DESCRIPTOR nsd) { psd = nsd; }
};
class user_groups {
public:
cygsid pgsid;
cygsidlist sgsids;
BOOL ischanged;
BOOL issetgroups () const { return (sgsids.type == cygsidlist_alloc); }
void update_supp (const cygsidlist &newsids)
{
sgsids.free_sids ();
sgsids = newsids;
ischanged = TRUE;
}
void clear_supp ()
{
if (issetgroups ())
{
sgsids.free_sids ();
ischanged = TRUE;
}
}
void update_pgrp (const PSID sid)
{
pgsid = sid;
ischanged = TRUE;
}
};
extern cygpsid well_known_null_sid;
extern cygpsid well_known_world_sid;
extern cygpsid well_known_local_sid;
extern cygpsid well_known_console_logon_sid;
extern cygpsid well_known_creator_owner_sid;
extern cygpsid well_known_creator_group_sid;
extern cygpsid well_known_dialup_sid;
extern cygpsid well_known_network_sid;
extern cygpsid well_known_batch_sid;
extern cygpsid well_known_interactive_sid;
extern cygpsid well_known_service_sid;
extern cygpsid well_known_authenticated_users_sid;
extern cygpsid well_known_this_org_sid;
extern cygpsid well_known_system_sid;
extern cygpsid well_known_local_service_sid;
extern cygpsid well_known_network_service_sid;
extern cygpsid well_known_builtin_sid;
extern cygpsid well_known_admins_sid;
extern cygpsid well_known_users_sid;
extern cygpsid trusted_installer_sid;
extern cygpsid mandatory_medium_integrity_sid;
extern cygpsid mandatory_high_integrity_sid;
extern cygpsid mandatory_system_integrity_sid;
extern cygpsid well_known_samba_unix_user_fake_sid;
bool privilege_luid (const PWCHAR pname, LUID &luid, bool &high_integrity);
extern inline BOOL
well_known_sid_type (SID_NAME_USE type)
{
return type == SidTypeAlias || type == SidTypeWellKnownGroup;
}
extern inline BOOL
legal_sid_type (SID_NAME_USE type)
{
return type == SidTypeUser || type == SidTypeGroup
|| type == SidTypeAlias || type == SidTypeWellKnownGroup;
}
class path_conv;
/* File manipulation */
int __reg3 get_file_attribute (HANDLE, path_conv &, mode_t *,
uid_t *, gid_t *);
int __reg3 set_created_file_access (HANDLE, path_conv &, mode_t);
int __reg2 get_object_sd (HANDLE, security_descriptor &);
int __reg3 get_object_attribute (HANDLE, uid_t *, gid_t *, mode_t *);
int __reg3 set_object_attribute (HANDLE, uid_t, gid_t, mode_t);
int __reg3 create_object_sd_from_attribute (uid_t, gid_t, mode_t,
security_descriptor &);
int __reg3 set_object_sd (HANDLE, security_descriptor &, bool);
int __reg3 get_reg_attribute (HKEY hkey, mode_t *, uid_t *, gid_t *);
LONG __reg3 get_file_sd (HANDLE fh, path_conv &, security_descriptor &, bool);
LONG __reg3 set_file_sd (HANDLE fh, path_conv &, security_descriptor &, bool);
bool __reg3 add_access_allowed_ace (PACL, DWORD, PSID, size_t &, DWORD);
bool __reg3 add_access_denied_ace (PACL, DWORD, PSID, size_t &, DWORD);
int __reg3 check_file_access (path_conv &, int, bool);
int __reg3 check_registry_access (HANDLE, int, bool);
void set_security_attribute (path_conv &pc, int attribute,
PSECURITY_ATTRIBUTES psa,
security_descriptor &sd_buf);
bool authz_get_user_attribute (mode_t *attribute, PSECURITY_DESCRIPTOR psd,
PSID user_sid);
/* sec_acl.cc */
struct acl;
extern "C" int aclsort32 (int, int, struct acl *);
extern "C" int acl32 (const char *, int, int, struct acl *);
int searchace (struct acl *, int, int, uid_t id = ILLEGAL_UID);
PSECURITY_DESCRIPTOR set_posix_access (mode_t, uid_t, gid_t, struct acl *, int,
security_descriptor &, bool);
int get_posix_access (PSECURITY_DESCRIPTOR, mode_t *, uid_t *, gid_t *,
struct acl *, int, bool * = NULL);
int getacl (HANDLE, path_conv &, int, struct acl *);
int setacl (HANDLE, path_conv &, int, struct acl *, bool &);
/* Set impersonation or restricted token. */
void set_imp_token (HANDLE token, int type);
/* Function creating a token by calling NtCreateToken. */
HANDLE create_token (cygsid &usersid, user_groups &groups);
/* LSA authentication function. */
HANDLE lsaauth (cygsid &, user_groups &);
/* LSA private key storage authentication, same as when using service logons. */
HANDLE lsaprivkeyauth (struct passwd *pw);
/* Verify an existing token */
bool verify_token (HANDLE token, cygsid &usersid, user_groups &groups, bool *pintern = NULL);
/* Get groups of a user */
bool get_server_groups (cygsidlist &grp_list, PSID usersid);
/* Extract U-domain\user field from passwd entry. */
void extract_nt_dom_user (const struct passwd *pw, PWCHAR domain, PWCHAR user);
/* Get default logonserver for a domain. */
bool get_logon_server (PCWSTR domain, PWCHAR wserver, ULONG flags);
/* Fetch user profile path from registry, if it already exists. */
PWCHAR get_user_profile_directory (PCWSTR sidstr, PWCHAR path, SIZE_T path_len);
/* Load user profile if it's not already loaded. */
HANDLE load_user_profile (HANDLE token, struct passwd *pw, cygpsid &sid);
HANDLE lsa_open_policy (PWCHAR server, ACCESS_MASK access);
void lsa_close_policy (HANDLE lsa);
/* sec_helper.cc: Security helper functions. */
int set_privilege (HANDLE token, DWORD privilege, bool enable);
void set_cygwin_privileges (HANDLE token);
#define _push_thread_privilege(_priv, _val, _check) { \
HANDLE _dup_token = NULL; \
HANDLE _token = (cygheap->user.issetuid () && (_check)) \
? cygheap->user.primary_token () : hProcToken; \
if (!DuplicateTokenEx (_token, MAXIMUM_ALLOWED, NULL, \
SecurityImpersonation, TokenImpersonation, \
&_dup_token)) \
debug_printf ("DuplicateTokenEx: %E"); \
else if (!ImpersonateLoggedOnUser (_dup_token)) \
debug_printf ("ImpersonateLoggedOnUser: %E"); \
else \
set_privilege (_dup_token, (_priv), (_val));
#define push_thread_privilege(_priv, _val) _push_thread_privilege(_priv,_val,1)
#define push_self_privilege(_priv, _val) _push_thread_privilege(_priv,_val,0)
#define pop_thread_privilege() \
if (_dup_token) \
{ \
if (!cygheap->user.issetuid ()) \
RevertToSelf (); \
else \
cygheap->user.reimpersonate (); \
CloseHandle (_dup_token); \
} \
}
#define pop_self_privilege() pop_thread_privilege()
/* shared.cc: */
/* Various types of security attributes for use in Create* functions. */
extern SECURITY_ATTRIBUTES sec_none, sec_none_nih, sec_all, sec_all_nih;
extern SECURITY_ATTRIBUTES *__reg3 __sec_user (PVOID, PSID, PSID,
DWORD, BOOL);
extern PSECURITY_DESCRIPTOR _recycler_sd (void *buf, bool users, bool dir);
#define recycler_sd(users,dir) \
(_recycler_sd (alloca (sizeof (SECURITY_DESCRIPTOR) + MAX_DACL_LEN (3)), \
(users), \
(dir)))
extern PSECURITY_DESCRIPTOR _everyone_sd (void *buf, ACCESS_MASK access);
#define everyone_sd(access) (_everyone_sd (alloca (SD_MIN_SIZE), (access)))
#define sec_none_cloexec(f) (((f) & O_CLOEXEC ? &sec_none_nih : &sec_none))
extern bool sec_acl (PACL acl, bool original, bool admins, PSID sid1 = NO_SID,
PSID sid2 = NO_SID, DWORD access2 = 0);
ssize_t __reg3 read_ea (HANDLE, path_conv &, const char *,
char *, size_t);
int __reg3 write_ea (HANDLE, path_conv &, const char *, const char *,
size_t, int);
/* Note: sid1 is usually (read: currently always) the current user's
effective sid (cygheap->user.sid ()). */
extern inline SECURITY_ATTRIBUTES *
sec_user_nih (SECURITY_ATTRIBUTES *sa_buf, PSID sid1, PSID sid2 = NULL,
DWORD access2 = 0)
{
return __sec_user (sa_buf, sid1, sid2, access2, FALSE);
}
extern inline SECURITY_ATTRIBUTES *
sec_user (SECURITY_ATTRIBUTES *sa_buf, PSID sid1, PSID sid2 = NULL,
DWORD access2 = 0)
{
return __sec_user (sa_buf, sid1, sid2, access2, TRUE);
}
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