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(*
* Analyse libvirt driver API methods for mutex locking mistakes
*
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* Copyright ( C ) 2008 - 2010 , 2012 , 2014 Red Hat , Inc .
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*
* This library is free software ; you can redistribute it and / or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation ; either
* version 2 . 1 of the License , or ( at your option ) any later version .
*
* This library is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the GNU
* Lesser General Public License for more details .
*
* You should have received a copy of the GNU Lesser General Public
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* License along with this library . If not , see
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* < http : // www . gnu . org / licenses /> .
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* )
open Pretty
open Cil
(*
* Convenient routine to load the contents of a file into
* a list of strings
* )
let input_file filename =
let chan = open_in filename in
let lines = ref [] in
try while true ; do lines := input_line chan :: ! lines done ; []
with
End_of_file -> close_in chan ; List . rev ! lines
module DF = Dataflow
module UD = Usedef
module IH = Inthash
module E = Errormsg
module VS = UD . VS
let debug = ref false
let driverTables = [
" virDriver " ;
" virNetworkDriver " ;
" virStorageDriver " ;
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" virNodeDeviceDriver " ;
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(* "virStateDriver"; Disable for now, since shutdown/startup have weird locking rules *)
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]
(*
* This is the list of all libvirt methods which return
* pointers to locked objects
* )
let lockedObjMethods = [
" virDomainFindByID " ;
" virDomainFindByUUID " ;
" virDomainFindByName " ;
" virDomainAssignDef " ;
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" virNetworkObjFindByUUID " ;
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" virNetworkObjFindByName " ;
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" virNetworkAssignDef " ;
" virNodeDeviceFindByName " ;
" virNodeDeviceAssignDef " ;
" virStoragePoolObjFindByUUID " ;
" virStoragePoolObjFindByName " ;
" virStoragePoolObjAssignDef "
]
(*
* This is the list of all libvirt methods which
* can release an object lock . Technically we
* ought to pair them up correctly with previous
* ones , but the compiler can already complain
* about passing a virNetworkObjPtr to a virDomainObjUnlock
* method so lets be lazy
* )
let objectLockMethods = [
" virDomainObjLock " ;
" virStoragePoolObjLock " ;
" virNodeDevObjLock "
]
(*
* This is the list of all libvirt methods which
* can release an object lock . Technically we
* ought to pair them up correctly with previous
* ones , but the compiler can already complain
* about passing a virNetworkObjPtr to a virDomainObjUnlock
* method so lets be lazy
* )
let objectUnlockMethods = [
" virDomainObjUnlock " ;
" virStoragePoolObjUnlock " ;
" virNodeDevObjUnlock "
]
(*
* The data types that the previous two sets of
* methods operate on
* )
let lockableObjects = [
" virDomainObjPtr " ;
" virNetworkObjPtr " ;
" virStoragePoolObjPtr " ;
" virNodeDevObjPtr "
]
(*
* The methods which globally lock an entire driver
* )
let driverLockMethods = [
" qemuDriverLock " ;
" openvzDriverLock " ;
" testDriverLock " ;
" lxcDriverLock " ;
" nodedevDriverLock " ;
" networkDriverLock " ;
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" storageDriverLock " ;
" oneDriverLock "
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]
(*
* The methods which globally unlock an entire driver
* )
let driverUnlockMethods = [
" qemuDriverUnlock " ;
" openvzDriverUnlock " ;
" testDriverUnlock " ;
" lxcDriverUnlock " ;
" nodedevDriverUnlock " ;
" networkDriverUnlock " ;
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" storageDriverUnlock " ;
" oneDriverUnlock "
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]
(*
* The data types that the previous two sets of
* methods operate on . These may be structs or
* typedefs , we don't care
* )
let lockableDrivers = [
" qemud_driver " ;
" openvz_driver " ;
" testConnPtr " ;
" lxc_driver_t " ;
" virStorageDriverStatePtr " ;
" network_driver " ;
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" virNodeDeviceState " ;
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" one_driver_t " ;
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]
let isFuncCallLval lval methodList =
match lval with
Var vi , o ->
List . mem vi . vname methodList
| _ -> false
let isFuncCallExp exp methodList =
match exp with
Lval lval ->
isFuncCallLval lval methodList
| _ -> false
let isFuncCallInstr instr methodList =
match instr with
Call ( retval , exp , explist , srcloc ) ->
isFuncCallExp exp methodList
| _ -> false
let findDriverFunc init =
match init with
SingleInit ( exp ) -> (
match exp with
AddrOf ( lval ) -> (
match lval with
Var vi , o ->
true
| _ -> false
)
| _ -> false
)
| _ -> false
let findDriverFuncs init =
match init with
CompoundInit ( typ , list ) ->
List . filter (
fun l ->
match l with
( offset , init ) ->
findDriverFunc init
) list ;
| _ -> ( [] )
let getDriverFuncs initinfo =
match initinfo . init with
Some ( i ) ->
let ls = findDriverFuncs i in
ls
| _ -> []
let getDriverFuncName init =
match init with
SingleInit ( exp ) -> (
match exp with
AddrOf ( lval ) -> (
match lval with
Var vi , o ->
vi . vname
| _ -> " unknown "
)
| _ -> " unknown "
)
| _ -> " unknown "
let getDriverFuncNames initinfo =
List . map (
fun l ->
match l with
( offset , init ) ->
getDriverFuncName init
) ( getDriverFuncs initinfo )
(*
* Convenience methods which take a Cil . Instr object
* and ask whether its associated with one of the
* method sets defined earlier
* )
let isObjectFetchCall instr =
isFuncCallInstr instr lockedObjMethods
let isObjectLockCall instr =
isFuncCallInstr instr objectLockMethods
let isObjectUnlockCall instr =
isFuncCallInstr instr objectUnlockMethods
let isDriverLockCall instr =
isFuncCallInstr instr driverLockMethods
let isDriverUnlockCall instr =
isFuncCallInstr instr driverUnlockMethods
let isWantedType typ typeList =
match typ with
TNamed ( tinfo , attrs ) ->
List . mem tinfo . tname typeList
| TPtr ( ptrtyp , attrs ) ->
let f = match ptrtyp with
TNamed ( tinfo2 , attrs ) ->
List . mem tinfo2 . tname typeList
| TComp ( cinfo , attrs ) ->
List . mem cinfo . cname typeList
| _ ->
false in
f
| _ -> false
(*
* Convenience methods which take a Cil . Varinfo object
* and ask whether it matches a variable datatype that
* we're interested in tracking for locking purposes
* )
let isLockableObjectVar varinfo =
isWantedType varinfo . vtype lockableObjects
let isLockableDriverVar varinfo =
isWantedType varinfo . vtype lockableDrivers
let isDriverTable varinfo =
isWantedType varinfo . vtype driverTables
(*
* Take a Cil . Exp object ( ie an expression ) and see whether
* the expression corresponds to a check for NULL against
* one of our interesting objects
* eg
*
* if ( ! vm ) .. .
*
* For a variable ' virDomainObjPtr vm'
* )
let isLockableThingNull exp funcheck =
match exp with
| UnOp ( op , exp , typ ) -> (
match op with
LNot -> (
match exp with
Lval ( lhost , off ) -> (
match lhost with
Var vi ->
funcheck vi
| _ -> false
)
| _ -> false
)
| _ -> false
)
| _ ->
false
let isLockableObjectNull exp =
isLockableThingNull exp isLockableObjectVar
let isLockableDriverNull exp =
isLockableThingNull exp isLockableDriverVar
(*
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* Prior to validating a function , initialize these
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* to VS . empty
*
* They contain the list of driver and object variables
* objects declared as local variables
*
* )
let lockableObjs : VS . t ref = ref VS . empty
let lockableDriver : VS . t ref = ref VS . empty
(*
* Given a Cil . Instr object ( ie a single instruction ) , get
* the list of all used & defined variables associated with
* it . Then caculate intersection with the driver and object
* variables we're interested in tracking and return four sets
*
* List of used driver variables
* List of defined driver variables
* List of used object variables
* List of defined object variables
* )
let computeUseDefState i =
let u , d = UD . computeUseDefInstr i in
let useo = VS . inter u ! lockableObjs in
let defo = VS . inter d ! lockableObjs in
let used = VS . inter u ! lockableDriver in
let defd = VS . inter d ! lockableDriver in
( used , defd , useo , defo )
(* Some crude helpers for debugging this horrible code *)
let printVI vi =
ignore ( printf " | %a %s \n " d_type vi . vtype vi . vname )
let printVS vs =
VS . iter printVI vs
let prettyprint2 stmdat () ( _ , ld , ud , lo , ui , uud , uuo , loud , ldlo , dead ) =
text " "
type ilist = Cil . instr list
(*
* This module implements the Cil . DataFlow . ForwardsTransfer
* interface . This is what ' does the interesting stuff'
* when walking over a function ' s code paths
* )
module Locking = struct
let name = " Locking "
let debug = debug
(*
* Our state currently consists of
*
* The set of driver variables that are locked
* The set of driver variables that are unlocked
* The set of object variables that are locked
* The set of object variables that are unlocked
*
* Lists of Cil . Instr for :
*
* Instrs using an unlocked driver variable
* Instrs using an unlocked object variable
* Instrs locking a object variable while not holding a locked driver variable
* Instrs locking a driver variable while holding a locked object variable
* Instrs causing deadlock by fetching a lock object , while an object is already locked
*
* )
type t = ( unit * VS . t * VS . t * VS . t * VS . t * ilist * ilist * ilist * ilist * ilist )
(* This holds an instance of our state data, per statement *)
let stmtStartData = IH . create 32
let pretty =
prettyprint2 stmtStartData
let copy ( _ , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead ) =
( () , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead )
let computeFirstPredecessor stm ( _ , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead ) =
( () , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead )
(*
* Merge existing state for a statement , with new state
*
* If new and old state is the same , this returns None ,
* If they are different , then returns the union .
* )
let combinePredecessors ( stm : stmt ) ~ ( old : t ) ( ( _ , ldn , udn , lon , uon , uudn , uuon , loudn , ldlon , deadn ) : t ) =
match old with ( _ , ldo , udo , loo , uoo , uudo , uuoo , loudo , ldloo , deado ) -> begin
let lde = ( VS . equal ldo ldn ) | | ( ( VS . is_empty ldo ) && ( VS . is_empty ldn ) ) in
let ude = VS . equal udo udn | | ( ( VS . is_empty udo ) && ( VS . is_empty udn ) ) in
let loe = VS . equal loo lon | | ( ( VS . is_empty loo ) && ( VS . is_empty lon ) ) in
let uoe = VS . equal uoo uon | | ( ( VS . is_empty uoo ) && ( VS . is_empty uon ) ) in
if lde && ude && loe && uoe then
None
else (
let ldret = VS . union ldo ldn in
let udret = VS . union udo udn in
let loret = VS . union loo lon in
let uoret = VS . union uoo uon in
Some ( () , ldret , udret , loret , uoret , uudn , uuon , loudn , ldlon , deadn )
)
end
(*
* This handles a Cil . Instr object . This is sortof a C level statement .
* )
let doInstr i ( _ , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead ) =
let transform ( _ , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead ) =
let used , defd , useo , defo = computeUseDefState i in
if isDriverLockCall i then (
(*
* A driver was locked , so add to the list of locked
* driver variables , and remove from the unlocked list
* )
let retld = VS . union ld used in
let retud = VS . diff ud used in
(*
* Report if any objects are locked already since
* thats a deadlock risk
* )
if VS . is_empty lo then
( () , retld , retud , lo , uo , uud , uuo , loud , ldlo , dead )
else
( () , retld , retud , lo , uo , uud , uuo , loud , List . append ldlo [ i ] , dead )
) else if isDriverUnlockCall i then (
(*
* A driver was unlocked , so add to the list of unlocked
* driver variables , and remove from the locked list
* )
let retld = VS . diff ld used in
let retud = VS . union ud used in
( () , retld , retud , lo , uo , uud , uuo , loud , ldlo , dead ) ;
) else if isObjectFetchCall i then (
(*
* A object was fetched & locked , so add to the list of
* locked driver variables . Nothing to remove from unlocked
* list here .
*
* XXX , not entirely true . We should check if they're
* blowing away an existing non - NULL value in the lval
* really .
* )
let retlo = VS . union lo defo in
(*
* Report if driver is not locked , since that's a safety
* risk
* )
if VS . is_empty ld then (
if VS . is_empty lo then (
( () , ld , ud , retlo , uo , uud , uuo , List . append loud [ i ] , ldlo , dead )
) else (
( () , ld , ud , retlo , uo , uud , uuo , List . append loud [ i ] , ldlo , List . append dead [ i ] )
)
) else (
if VS . is_empty lo then (
( () , ld , ud , retlo , uo , uud , uuo , loud , ldlo , dead )
) else (
( () , ld , ud , retlo , uo , uud , uuo , loud , ldlo , List . append dead [ i ] )
)
)
) else if isObjectLockCall i then (
(*
* A driver was locked , so add to the list of locked
* driver variables , and remove from the unlocked list
* )
let retlo = VS . union lo useo in
let retuo = VS . diff uo useo in
(*
* Report if driver is not locked , since that's a safety
* risk
* )
if VS . is_empty ld then
( () , ld , ud , retlo , retuo , uud , uuo , List . append loud [ i ] , ldlo , dead )
else
( () , ld , ud , retlo , retuo , uud , uuo , loud , ldlo , dead )
) else if isObjectUnlockCall i then (
(*
* A object was unlocked , so add to the list of unlocked
* driver variables , and remove from the locked list
* )
let retlo = VS . diff lo useo in
let retuo = VS . union uo useo in
( () , ld , ud , retlo , retuo , uud , uuo , loud , ldlo , dead ) ;
) else (
(*
* Nothing special happened , at best an assignment .
* So add any defined variables to the list of unlocked
* object or driver variables .
* XXX same edge case as isObjectFetchCall about possible
* overwriting
* )
let retud = VS . union ud defd in
let retuo = VS . union uo defo in
(*
* Report is a driver is used while unlocked
* )
let retuud =
if not ( VS . is_empty used ) && ( VS . is_empty ld ) then
List . append uud [ i ]
else
uud in
(*
* Report is a object is used while unlocked
* )
let retuuo =
if not ( VS . is_empty useo ) && ( VS . is_empty lo ) then
List . append uuo [ i ]
else
uuo in
( () , ld , retud , lo , retuo , retuud , retuuo , loud , ldlo , dead )
) ;
in
DF . Post transform
(*
* This handles a Cil . Stmt object . This is sortof a C code block
* )
let doStmt stm ( _ , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead ) =
DF . SUse ( () , ld , ud , lo , uo , [] , [] , [] , [] , [] )
(*
* This handles decision making for a conditional statement ,
* ie an if ( foo ) . It is called twice for each conditional
* ie , once per possible choice .
* )
let doGuard exp ( _ , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead ) =
(*
* If we're going down a branch where our object variable
* is set to NULL , then we must remove it from the
* list of locked objects . This handles the case of .. .
*
* vm = virDomainFindByUUID ( .. )
* if ( ! vm ) {
* .. .. this code branch .. ..
* } else {
* .. .. leaves default handling for this branch .. .
* }
* )
let lonull = UD . computeUseExp exp in
let loret =
if isLockableObjectNull exp then
VS . diff lo lonull
else
lo in
let uoret =
if isLockableObjectNull exp then
VS . union uo lonull
else
uo in
let ldret =
if isLockableDriverNull exp then
VS . diff ld lonull
else
ld in
let udret =
if isLockableDriverNull exp then
VS . union ud lonull
else
ud in
DF . GUse ( () , ldret , udret , loret , uoret , uud , uuo , loud , ldlo , dead )
(*
* We're not filtering out any statements
* )
let filterStmt stm = true
end
module L = DF . ForwardsDataFlow ( Locking )
let () =
(* Read the list of files from "libvirt-files". *)
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let files = input_file " objectlocking-files.txt " in
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(* Load & parse each input file. *)
let files =
List . map (
fun filename ->
(* Why does parse return a continuation? *)
let f = Frontc . parse filename in
f ()
) files in
(* Merge them. *)
let file = Mergecil . merge files " test " in
(* Do control-flow-graph analysis. *)
Cfg . computeFileCFG file ;
print_endline " " ;
let driverVars = List . filter (
function
| GVar ( varinfo , initinfo , loc ) -> (* global variable *)
if isDriverTable varinfo then
true
else
false
| _ -> false
) file . globals in
let driverVarFuncs = List . map (
function
| GVar ( varinfo , initinfo , loc ) -> (* global variable *)
if isDriverTable varinfo then
getDriverFuncNames initinfo
else
[]
| _ -> []
) driverVars in
let driverFuncsAll = List . flatten driverVarFuncs in
let driverFuncsSkip = [
" testClose " ;
" openvzClose " ;
] in
let driverFuncs = List . filter (
fun st ->
if List . mem st driverFuncsSkip then
false
else
true
) driverFuncsAll in
(*
* Now comes our fun .. .. iterate over every global symbol
* definition Cfg found .. .. . but .. .
* )
List . iter (
function
(* ....only care about functions *)
| GFun ( fundec , loc ) -> (* function definition *)
let name = fundec . svar . vname in
if List . mem name driverFuncs then (
(* Initialize list of driver & object variables to be empty *)
ignore ( lockableDriver = ref VS . empty ) ;
ignore ( lockableObjs = ref VS . empty ) ;
(*
* Query all local variables , and figure out which correspond
* to interesting driver & object variables we track
* )
List . iter (
fun var ->
if isLockableDriverVar var then
lockableDriver := VS . add var ! lockableDriver
else if isLockableObjectVar var then
lockableObjs := VS . add var ! lockableObjs ;
) fundec . slocals ;
List . iter (
fun gl ->
match gl with
GVar ( vi , ii , loc ) ->
if isLockableDriverVar vi then
lockableDriver := VS . add vi ! lockableDriver
| _ -> ()
) file . globals ;
(*
* Initialize the state for each statement ( ie C code block )
* to be empty
* )
List . iter (
fun st ->
IH . add Locking . stmtStartData st . sid ( () ,
VS . empty , VS . empty , VS . empty , VS . empty ,
[] , [] , [] , [] , [] )
) fundec . sallstmts ;
(*
* This walks all the code paths in the function building
* up the state for each statement ( ie C code block )
* ie , this is invoking the " Locking " module we created
* earlier
* )
L . compute fundec . sallstmts ;
(*
* Find all statements ( ie C code blocks ) which have no
* successor statements . This means they are exit points
* in the function
* )
let exitPoints = List . filter (
fun st ->
List . length st . succs = 0
) fundec . sallstmts in
(*
* For each of the exit points , check to see if there are
* any with locked driver or object variables & grab them
* )
let leaks = List . filter (
fun st ->
let ( _ , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead ) =
IH . find Locking . stmtStartData st . sid in
let leakDrivers = not ( VS . is_empty ld ) in
let leakObjects = not ( VS . is_empty lo ) in
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leakDrivers | | leakObjects
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) exitPoints in
let mistakes = List . filter (
fun st ->
let ( _ , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead ) =
IH . find Locking . stmtStartData st . sid in
let lockDriverOrdering = ( List . length ldlo ) > 0 in
let lockObjectOrdering = ( List . length loud ) > 0 in
let useDriverUnlocked = ( List . length uud ) > 0 in
let useObjectUnlocked = ( List . length uuo ) > 0 in
let deadLocked = ( List . length dead ) > 0 in
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lockDriverOrdering | | lockObjectOrdering | | useDriverUnlocked | | useObjectUnlocked | | deadLocked
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) fundec . sallstmts in
if ( List . length leaks ) > 0 | | ( List . length mistakes ) > 0 then (
print_endline " ================================================================ " ;
ignore ( printf " Function: %s \n " name ) ;
print_endline " ---------------------------------------------------------------- " ;
ignore ( printf " - Total exit points with locked vars: %d \n " ( List . length leaks ) ) ;
(*
* Finally tell the user which exit points had locked varaibles
* And show them the line number and code snippet for easy fixing
* )
List . iter (
fun st ->
ignore ( Pretty . printf " - At exit on %a \n ^^^^^^^^^ \n " d_stmt st ) ;
let ( _ , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead ) =
IH . find Locking . stmtStartData st . sid in
print_endline " variables still locked are " ;
printVS ld ;
printVS lo
) leaks ;
ignore ( printf " - Total blocks with lock ordering mistakes: %d \n " ( List . length mistakes ) ) ;
List . iter (
fun st ->
let ( _ , ld , ud , lo , uo , uud , uuo , loud , ldlo , dead ) =
IH . find Locking . stmtStartData st . sid in
List . iter (
fun i ->
ignore ( Pretty . printf " - Driver locked while object is locked on %a \n " d_instr i ) ;
) ldlo ;
List . iter (
fun i ->
ignore ( Pretty . printf " - Object locked while driver is unlocked on %a \n " d_instr i ) ;
) loud ;
List . iter (
fun i ->
ignore ( Pretty . printf " - Driver used while unlocked on %a \n " d_instr i ) ;
) uud ;
List . iter (
fun i ->
ignore ( Pretty . printf " - Object used while unlocked on %a \n " d_instr i ) ;
) uuo ;
List . iter (
fun i ->
ignore ( Pretty . printf " - Object fetched while locked objects exist %a \n " d_instr i ) ;
) dead ;
) mistakes ;
print_endline " ================================================================ " ;
print_endline " " ;
print_endline " " ;
) ;
()
)
| _ -> ()
) file . globals ;