#include "pch.h" #pragma hdrstop #include "sfmsec.h" #define AFP_MIN_ACCESS (FILE_READ_ATTRIBUTES | READ_CONTROL) #define AFP_READ_ACCESS (READ_CONTROL | \ FILE_READ_ATTRIBUTES | \ FILE_TRAVERSE | \ FILE_LIST_DIRECTORY | \ FILE_READ_EA) #define AFP_WRITE_ACCESS (FILE_ADD_FILE | \ FILE_ADD_SUBDIRECTORY| \ FILE_WRITE_ATTRIBUTES| \ FILE_WRITE_EA | \ DELETE) #define AFP_OWNER_ACCESS (WRITE_DAC | \ WRITE_OWNER) SID AfpSidWorld = { 1, 1, SECURITY_WORLD_SID_AUTHORITY, SECURITY_WORLD_RID }; SID AfpSidNull = { 1, 1, SECURITY_NULL_SID_AUTHORITY, SECURITY_NULL_RID }; SID AfpSidSystem = { 1, 1, SECURITY_NT_AUTHORITY, SECURITY_LOCAL_SYSTEM_RID }; SID AfpSidCrtrOwner = { 1, 1, SECURITY_CREATOR_SID_AUTHORITY, SECURITY_CREATOR_OWNER_RID }; SID AfpSidCrtrGroup = { 1, 1, SECURITY_CREATOR_SID_AUTHORITY, SECURITY_CREATOR_GROUP_RID }; /*** afpAddAceToAcl * * Build an Ace corres. to the Sid(s) and mask and add these to the Acl. It is * assumed that the Acl has space for the Aces. If the Mask is 0 (i.e. no access) * the Ace added is a DENY Ace, else a ALLOWED ACE is added. */ PACCESS_ALLOWED_ACE afpAddAceToAcl( IN PACL pAcl, IN PACCESS_ALLOWED_ACE pAce, IN ACCESS_MASK Mask, IN PSID pSid, IN PSID pSidInherit OPTIONAL ) { // Add a vanilla ace pAcl->AceCount ++; pAce->Mask = Mask | SYNCHRONIZE | AFP_MIN_ACCESS; pAce->Header.AceFlags = 0; pAce->Header.AceType = ACCESS_ALLOWED_ACE_TYPE; pAce->Header.AceSize = (USHORT)(sizeof(ACE_HEADER) + sizeof(ACCESS_MASK) + RtlLengthSid(pSid)); RtlCopySid(RtlLengthSid(pSid), (PSID)(&pAce->SidStart), pSid); // Now add an inherit ace // pAce = (PACCESS_ALLOWED_ACE)((PBYTE)pAce + pAce->Header.AceSize); pAcl->AceCount ++; pAce->Mask = Mask | SYNCHRONIZE | AFP_MIN_ACCESS; pAce->Header.AceFlags = CONTAINER_INHERIT_ACE | OBJECT_INHERIT_ACE | INHERIT_ONLY_ACE; pAce->Header.AceType = ACCESS_ALLOWED_ACE_TYPE; pAce->Header.AceSize = (USHORT)(sizeof(ACE_HEADER) + sizeof(ACCESS_MASK) + RtlLengthSid(pSid)); RtlCopySid(RtlLengthSid(pSid), (PSID)(&pAce->SidStart), pSid); // Now add an inherit ace for the CreatorOwner/CreatorGroup if (ARGUMENT_PRESENT(pSidInherit)) { pAce = (PACCESS_ALLOWED_ACE)((PBYTE)pAce + pAce->Header.AceSize); pAcl->AceCount ++; pAce->Mask = Mask | SYNCHRONIZE | AFP_MIN_ACCESS; pAce->Header.AceFlags = CONTAINER_INHERIT_ACE | OBJECT_INHERIT_ACE | INHERIT_ONLY_ACE; pAce->Header.AceType = ACCESS_ALLOWED_ACE_TYPE; pAce->Header.AceSize = (USHORT)(sizeof(ACE_HEADER) + sizeof(ACCESS_MASK) + RtlLengthSid(pSidInherit)); RtlCopySid(RtlLengthSid(pSidInherit), (PSID)(&pAce->SidStart), pSidInherit); } return ((PACCESS_ALLOWED_ACE)((PBYTE)pAce + pAce->Header.AceSize)); } /*** afpMoveAces * * Move a bunch of aces from the old security descriptor to the new security * descriptor. */ PACCESS_ALLOWED_ACE afpMoveAces( IN PACL pOldDacl, IN PACCESS_ALLOWED_ACE pAceStart, IN PSID pSidOldOwner, IN PSID pSidNewOwner, IN PSID pSidOldGroup, IN PSID pSidNewGroup, IN BOOLEAN DenyAces, IN OUT PACL pNewDacl ) { USHORT i; PACCESS_ALLOWED_ACE pAceOld; PSID pSidAce; for (i = 0, pAceOld = (PACCESS_ALLOWED_ACE)((PBYTE)pOldDacl + sizeof(ACL)); i < pOldDacl->AceCount; i++, pAceOld = (PACCESS_ALLOWED_ACE)((PBYTE)pAceOld + pAceOld->Header.AceSize)) { // Note: All deny aces are ahead of the grant aces. if (DenyAces && (pAceOld->Header.AceType != ACCESS_DENIED_ACE_TYPE)) break; if (!DenyAces && (pAceOld->Header.AceType == ACCESS_DENIED_ACE_TYPE)) continue; pSidAce = (PSID)(&pAceOld->SidStart); if (!(RtlEqualSid(pSidAce, &AfpSidWorld) || RtlEqualSid(pSidAce, pSidOldOwner) || RtlEqualSid(pSidAce, pSidNewOwner) || RtlEqualSid(pSidAce, &AfpSidCrtrOwner) || RtlEqualSid(pSidAce, pSidOldGroup) || RtlEqualSid(pSidAce, pSidNewGroup) || RtlEqualSid(pSidAce, &AfpSidCrtrGroup))) { RtlCopyMemory(pAceStart, pAceOld, pAceOld->Header.AceSize); pAceStart = (PACCESS_ALLOWED_ACE)((PBYTE)pAceStart + pAceStart->Header.AceSize); pNewDacl->AceCount ++; } } return (pAceStart); } /*** FSfmSetUamSecurity * * Set the permissions on this directory. Also optionally set the owner and * group ids. For setting the owner and group ids verify if the user has the * needed access. This access is however not good enough. We check for this * access but do the actual setting of the permissions in the special server * context (RESTORE privilege is needed). */ HRESULT HrSecureSfmDirectory(PCWSTR wszPath) { HRESULT hr = S_OK; NTSTATUS Status; DWORD SizeNeeded; PBYTE pBuffer = NULL; PBYTE pAbsSecDesc = NULL; PISECURITY_DESCRIPTOR pSecDesc; SECURITY_INFORMATION SecInfo = DACL_SECURITY_INFORMATION; PACL pDaclNew = NULL; PACCESS_ALLOWED_ACE pAce; LONG SizeNewDacl; HANDLE DirHandle; PWSTR pDirPath = NULL; UNICODE_STRING DirectoryName; IO_STATUS_BLOCK IoStatusBlock; DWORD cbDirPath; OBJECT_ATTRIBUTES ObjectAttributes; UINT Size; // // Convert the DIR Path to UNICODE // pDirPath = (PWSTR)LocalAlloc(LPTR, (wcslen(wszPath) + wcslen(L"\\DOSDEVICES\\")+1) * sizeof(WCHAR)); if (pDirPath == NULL) { hr = E_OUTOFMEMORY; goto err; } wcscpy(pDirPath, L"\\DOSDEVICES\\"); wcscat(pDirPath, wszPath); RtlInitUnicodeString(&DirectoryName, pDirPath); InitializeObjectAttributes(&ObjectAttributes, &DirectoryName, OBJ_CASE_INSENSITIVE, NULL, NULL); Status = NtOpenFile(&DirHandle, WRITE_DAC | READ_CONTROL | SYNCHRONIZE, &ObjectAttributes, &IoStatusBlock, FILE_SHARE_READ | FILE_SHARE_WRITE | FILE_SHARE_DELETE , FILE_DIRECTORY_FILE | FILE_SYNCHRONOUS_IO_NONALERT); LocalFree(pDirPath); if (!NT_SUCCESS(Status)) { goto err; } do { // // Read the security descriptor for this directory // SizeNeeded = 256; do { if (pBuffer != NULL) LocalFree(pBuffer); if ((pBuffer = (PBYTE)LocalAlloc(LPTR,SizeNewDacl = SizeNeeded)) == NULL) { Status = STATUS_NO_MEMORY; break; } Status = NtQuerySecurityObject(DirHandle, OWNER_SECURITY_INFORMATION | GROUP_SECURITY_INFORMATION | DACL_SECURITY_INFORMATION, (PSECURITY_DESCRIPTOR)pBuffer, SizeNeeded, &SizeNeeded); } while ((Status != STATUS_SUCCESS) && ((Status == STATUS_BUFFER_TOO_SMALL) || (Status == STATUS_BUFFER_OVERFLOW) || (Status == STATUS_MORE_ENTRIES))); if (!NT_SUCCESS(Status)) { hr = E_FAIL; break; } pSecDesc = (PISECURITY_DESCRIPTOR)pBuffer; // If the security descriptor is in self-relative form, convert to absolute if (pSecDesc->Control & SE_SELF_RELATIVE) { DWORD AbsoluteSizeNeeded; // // An absolute SD is not necessarily the same size as a relative // SD, so an in-place conversion may not be possible. // AbsoluteSizeNeeded = SizeNeeded; Status = RtlSelfRelativeToAbsoluteSD2(pSecDesc, &AbsoluteSizeNeeded); if (Status == STATUS_BUFFER_TOO_SMALL) { // // Allocate a new buffer in which to store the absolute // security descriptor, copy the contents of the relative // descriptor in, and try again. // pAbsSecDesc = (PBYTE)LocalAlloc(LPTR,AbsoluteSizeNeeded); if (pAbsSecDesc == NULL) { Status = STATUS_NO_MEMORY; break; } RtlCopyMemory(pAbsSecDesc,pSecDesc,SizeNeeded); Status = RtlSelfRelativeToAbsoluteSD2(pAbsSecDesc, &AbsoluteSizeNeeded ); if (NT_SUCCESS(Status)) { pSecDesc = (PISECURITY_DESCRIPTOR)pAbsSecDesc; } } } if (!NT_SUCCESS(Status)) { break; } // Construct the new Dacl. This consists of Aces for World, Owner and Group // followed by Old Aces for everybody else, but with Aces for World, OldOwner // and OldGroup stripped out. First determine space for the new Dacl and // allocated space for the new Dacl. Lets be exteremely conservative. We // have two aces each for owner/group/world. SizeNewDacl += (RtlLengthSid(pSecDesc->Owner) + sizeof(ACCESS_ALLOWED_ACE) + RtlLengthSid(pSecDesc->Group) + sizeof(ACCESS_ALLOWED_ACE) + RtlLengthSid(&AfpSidSystem) + sizeof(ACCESS_ALLOWED_ACE) + RtlLengthSid(&AfpSidWorld) + sizeof(ACCESS_ALLOWED_ACE)) * 3; if ((pDaclNew = (PACL)LocalAlloc(LPTR,SizeNewDacl)) == NULL) { Status = STATUS_NO_MEMORY; hr = E_OUTOFMEMORY; break; } RtlCreateAcl(pDaclNew, SizeNewDacl, ACL_REVISION); pAce = (PACCESS_ALLOWED_ACE)((PBYTE)pDaclNew + sizeof(ACL)); // At this time the Acl list is empty, i.e. no access for anybody // Start off by copying the Deny Aces from the original Dacl list // weeding out the Aces for World, old and new owner, new and old // group, creator owner and creator group if (pSecDesc->Dacl != NULL) { pAce = afpMoveAces(pSecDesc->Dacl, pAce, pSecDesc->Owner, pSecDesc->Owner, pSecDesc->Group, pSecDesc->Group, TRUE, pDaclNew); } // Now add Aces for System, World, Group & Owner - in that order pAce = afpAddAceToAcl(pDaclNew, pAce, AFP_READ_ACCESS, &AfpSidSystem, &AfpSidSystem); pAce = afpAddAceToAcl(pDaclNew, pAce, AFP_READ_ACCESS, &AfpSidWorld, NULL); pAce = afpAddAceToAcl(pDaclNew, pAce, AFP_READ_ACCESS , pSecDesc->Group, &AfpSidCrtrGroup); pAce = afpAddAceToAcl(pDaclNew, pAce, AFP_READ_ACCESS | AFP_WRITE_ACCESS, pSecDesc->Owner, &AfpSidCrtrOwner); // Now add in the Grant Aces from the original Dacl list weeding out // the Aces for World, old and new owner, new and old group, creator // owner and creator group if (pSecDesc->Dacl != NULL) { pAce = afpMoveAces(pSecDesc->Dacl, pAce, pSecDesc->Owner, pSecDesc->Owner, pSecDesc->Group, pSecDesc->Group, FALSE, pDaclNew); } // Now set the new security descriptor pSecDesc->Dacl = pDaclNew; Status = NtSetSecurityObject(DirHandle, SecInfo, pSecDesc); } while (FALSE); // Free the allocated buffers before we return if (pBuffer != NULL) LocalFree(pBuffer); if (pDaclNew != NULL) LocalFree(pDaclNew); if (pAbsSecDesc != NULL) LocalFree(pAbsSecDesc); if (!NT_SUCCESS(Status)) { hr = E_FAIL; } err: TraceError("HrSfmSetUamSecurity", hr); return hr; }