Some further information from the comments:
The application determines the SID of a user whose access rights are being checked.
GetNamedSecurityInfo on each directory, the application calls
GetEffectiveRightsFromAcl with the SID of the user. It is the latter call that is taking most of the time.
GetEffectiveRightsFromAcl checks the ACL against the user's SID and the SIDs of any groups the user is a member of. It is likely slow because determining a user's groups requires a round trip to the domain controller.
There are two possible fixes and a dead end:
Outside the loop, determine the SID of the user and the SIDs of the user's groups. (TODO: Check if nested groups are handled automatically, or if they must be resolved recursively.)
To determine the effective rights for an ACL:
- Use an ACCESS_MASK (actually a DWORD) to represent the rights mask. Initialize it to zero.
- Process the ACEs in the ACL in reverse order. This ensures that earlier ACEs take precedence.
- If an ACE refers to any of the previously determined SIDs then, for access-allowed ACEs OR the ACE's mask with your rights mask and for access-denied ACEs mask off the ACE's mask from your rights mask.
Once you've processed all the ACEs your rights mask holds the answer.
Skip Inherited ACLs
In many directory hierarchies most or all of the files and directories will inherit their permissions from their parents. However, this doesn't help. Inherited ACLs may not be active on the parent, so the effective rights of the children won't match the effective rights of the parent. So an ACL still has to be checked even if it inherited.
Cache the result of GetEffectiveRightsFromAcl
Simply create a map from ACLs to effective rights masks. To do this you need a way of comparing ACLs. You can't just compare entire ACLs using memcmp because ACL.AclSize includes the size of extra padding. Instead, compare the number of ACEs, and if they are the same compare the individual ACEs using memcmp.
I tried this on my
Program Files directory. Scanning the whole directory structure required 6 calls to
GetEffectiveRightsFromAcl. The remaining 2,708 directories were resolved from the cache so it was much faster.
The following implements a cached version of
GetEffectiveRightsFromAcl. Note that error-handling is lacking, and it never frees the PACLs it puts in the map.
// Compare two access-control lists.
// Return <0 if acl1<acl2, 0 if acl1==acl2 and >0 if acl1>acl2.
// The ordering is arbitrary but consistent.
int aclcmp(PACL acl1, PACL acl2)
// First compare by number of ACEs
int c = acl1->AceCount - acl2->AceCount;
// We have the same number of ACEs, so compare each ACE
int aceCount = acl1->AceCount;
for (int aceIndex = 0; aceIndex != aceCount; ++aceIndex)
// Get the ACEs
GetAce(acl1, aceIndex, (LPVOID*)&ace1);
GetAce(acl2, aceIndex, (LPVOID*)&ace2);
// Compare the ACE sizes
c = ace1->AceSize - ace2->AceSize;
// Compare the ACE content
c = memcmp(ace1, ace2, ace1->AceSize);
// Less-than operator for pointers to ACLs
bool operator()(const PACL& acl1, const PACL& acl2) const
return aclcmp(acl1, acl2) < 0;
// Map from pointers-to-ACLs to access masks
typedef std::map<PACL, ACCESS_MASK, ComparePAcl> AclToAccessMask;
// Just to check how the cache performs
DWORD foundCount = 0;
DWORD notFoundCount = 0;
// Same as GetEffectiveRightsFromAcl but caches results.
// Note that this must be called with the same trustee to get meaningful results.
DWORD CachedGetEffectiveRightsFromAcl(PACL pacl, PTRUSTEE pTrustee, PACCESS_MASK pAccessRights)
AclToAccessMask::const_iterator it = aclToAccessMask.find(pacl);
if (it != aclToAccessMask.end())
// The ACL is in the cache
*pAccessRights = it->second;
// The ACL is not in the cache
DWORD rc = GetEffectiveRightsFromAcl(pacl, pTrustee, pAccessRights);
if (rc != ERROR_SUCCESS)
// TODO: Clean up copies of ACLs afterwards
PACL aclcopy = (PACL)malloc(pacl->AclSize);
memcpy(aclcopy, pacl, pacl->AclSize);