Exception.cmm 19.4 KB
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/* -----------------------------------------------------------------------------
 *
 * (c) The GHC Team, 1998-2004
 *
 * Exception support
 *
 * This file is written in a subset of C--, extended with various
 * features specific to GHC.  It is compiled by GHC directly.  For the
 * syntax of .cmm files, see the parser in ghc/compiler/cmm/CmmParse.y.
 *
 * ---------------------------------------------------------------------------*/

#include "Cmm.h"
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#include "RaiseAsync.h"
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import ghczmprim_GHCziBool_True_closure;
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/* -----------------------------------------------------------------------------
   Exception Primitives

   A thread can request that asynchronous exceptions not be delivered
   ("blocked") for the duration of an I/O computation.  The primitive
   
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	maskAsyncExceptions# :: IO a -> IO a
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   is used for this purpose.  During a blocked section, asynchronous
   exceptions may be unblocked again temporarily:

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	unmaskAsyncExceptions# :: IO a -> IO a
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   Furthermore, asynchronous exceptions are blocked automatically during
   the execution of an exception handler.  Both of these primitives
   leave a continuation on the stack which reverts to the previous
   state (blocked or unblocked) on exit.

   A thread which wants to raise an exception in another thread (using
   killThread#) must block until the target thread is ready to receive
   it.  The action of unblocking exceptions in a thread will release all
   the threads waiting to deliver exceptions to that thread.

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   NB. there's a bug in here.  If a thread is inside an
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   unsafePerformIO, and inside maskAsyncExceptions# (there is an
   unmaskAsyncExceptions_ret on the stack), and it is blocked in an
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   interruptible operation, and it receives an exception, then the
   unsafePerformIO thunk will be updated with a stack object
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   containing the unmaskAsyncExceptions_ret frame.  Later, when
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   someone else evaluates this thunk, the blocked exception state is
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   not restored.
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   -------------------------------------------------------------------------- */

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INFO_TABLE_RET(stg_unmaskAsyncExceptionszh_ret, RET_SMALL)
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{
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    CInt r;

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    StgTSO_flags(CurrentTSO) = %lobits32(
      TO_W_(StgTSO_flags(CurrentTSO)) & ~(TSO_BLOCKEX|TSO_INTERRUPTIBLE));
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    /* Eagerly raise a blocked exception, if there is one */
    if (StgTSO_blocked_exceptions(CurrentTSO) != END_TSO_QUEUE) {
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        STK_CHK_GEN( WDS(2), R1_PTR, stg_unmaskAsyncExceptionszh_ret_info);
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        /* 
         * We have to be very careful here, as in killThread#, since
         * we are about to raise an async exception in the current
         * thread, which might result in the thread being killed.
         */
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        Sp_adj(-2);
        Sp(1) = R1;
        Sp(0) = stg_gc_unpt_r1_info;
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        SAVE_THREAD_STATE();
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        (r) = foreign "C" maybePerformBlockedException (MyCapability() "ptr", 
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    					              CurrentTSO "ptr") [R1];

        if (r != 0::CInt) {
            if (StgTSO_what_next(CurrentTSO) == ThreadKilled::I16) {
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                jump stg_threadFinished;
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            } else {
                LOAD_THREAD_STATE();
                ASSERT(StgTSO_what_next(CurrentTSO) == ThreadRunGHC::I16);
                jump %ENTRY_CODE(Sp(0));
            }
        }
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        else {
            /*
               the thread might have been removed from the
               blocked_exception list by someone else in the meantime.
               Just restore the stack pointer and continue.  
            */   
            Sp_adj(2);
        }
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    }

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    Sp_adj(1);
    jump %ENTRY_CODE(Sp(0));
}

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INFO_TABLE_RET(stg_maskAsyncExceptionszh_ret, RET_SMALL)
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{
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    StgTSO_flags(CurrentTSO) = 
       %lobits32(
	 TO_W_(StgTSO_flags(CurrentTSO))
          | TSO_BLOCKEX | TSO_INTERRUPTIBLE
      );
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    Sp_adj(1);
    jump %ENTRY_CODE(Sp(0));
}

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INFO_TABLE_RET(stg_maskUninterruptiblezh_ret, RET_SMALL)
{
    StgTSO_flags(CurrentTSO) = 
       %lobits32(
	(TO_W_(StgTSO_flags(CurrentTSO))
          | TSO_BLOCKEX)
          & ~TSO_INTERRUPTIBLE
       );

    Sp_adj(1);
    jump %ENTRY_CODE(Sp(0));
}

stg_maskAsyncExceptionszh
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{
    /* Args: R1 :: IO a */
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    STK_CHK_GEN( WDS(1)/* worst case */, R1_PTR, stg_maskAsyncExceptionszh);
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    if ((TO_W_(StgTSO_flags(CurrentTSO)) & TSO_BLOCKEX) == 0) {
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        /* avoid growing the stack unnecessarily */
        if (Sp(0) == stg_maskAsyncExceptionszh_ret_info) {
            Sp_adj(1);
        } else {
            Sp_adj(-1);
            Sp(0) = stg_unmaskAsyncExceptionszh_ret_info;
        }
    } else {
        if ((TO_W_(StgTSO_flags(CurrentTSO)) & TSO_INTERRUPTIBLE) == 0) {
            Sp_adj(-1);
            Sp(0) = stg_maskUninterruptiblezh_ret_info;
        }
    }
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    StgTSO_flags(CurrentTSO) = %lobits32(
        TO_W_(StgTSO_flags(CurrentTSO)) | TSO_BLOCKEX | TSO_INTERRUPTIBLE);

    TICK_UNKNOWN_CALL();
    TICK_SLOW_CALL_v();
    jump stg_ap_v_fast;
}

stg_maskUninterruptiblezh
{
    /* Args: R1 :: IO a */
    STK_CHK_GEN( WDS(1)/* worst case */, R1_PTR, stg_maskAsyncExceptionszh);

    if ((TO_W_(StgTSO_flags(CurrentTSO)) & TSO_BLOCKEX) == 0) {
        /* avoid growing the stack unnecessarily */
        if (Sp(0) == stg_maskUninterruptiblezh_ret_info) {
            Sp_adj(1);
        } else {
            Sp_adj(-1);
            Sp(0) = stg_unmaskAsyncExceptionszh_ret_info;
        }
    } else {
        if ((TO_W_(StgTSO_flags(CurrentTSO)) & TSO_INTERRUPTIBLE) != 0) {
            Sp_adj(-1);
            Sp(0) = stg_maskAsyncExceptionszh_ret_info;
        }
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    }
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    StgTSO_flags(CurrentTSO) = %lobits32(
        (TO_W_(StgTSO_flags(CurrentTSO)) | TSO_BLOCKEX) & ~TSO_INTERRUPTIBLE);

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    TICK_UNKNOWN_CALL();
    TICK_SLOW_CALL_v();
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    jump stg_ap_v_fast;
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}

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stg_unmaskAsyncExceptionszh
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{
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    CInt r;
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    W_ level;
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    /* Args: R1 :: IO a */
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    STK_CHK_GEN( WDS(4), R1_PTR, stg_unmaskAsyncExceptionszh);
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    /* 4 words: one for the unblock frame, 3 for setting up the
     * stack to call maybePerformBlockedException() below.
     */
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    /* If exceptions are already unblocked, there's nothing to do */
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    if ((TO_W_(StgTSO_flags(CurrentTSO)) & TSO_BLOCKEX) != 0) {
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	/* avoid growing the stack unnecessarily */
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	if (Sp(0) == stg_unmaskAsyncExceptionszh_ret_info) {
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	    Sp_adj(1);
	} else {
	    Sp_adj(-1);
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            if ((TO_W_(StgTSO_flags(CurrentTSO)) & TSO_INTERRUPTIBLE) != 0) {
                Sp(0) = stg_maskAsyncExceptionszh_ret_info;
            } else {
                Sp(0) = stg_maskUninterruptiblezh_ret_info;
            }
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	}

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	StgTSO_flags(CurrentTSO) = %lobits32(
            TO_W_(StgTSO_flags(CurrentTSO)) & ~(TSO_BLOCKEX|TSO_INTERRUPTIBLE));

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        /* Eagerly raise a blocked exception, if there is one */
        if (StgTSO_blocked_exceptions(CurrentTSO) != END_TSO_QUEUE) {
            /* 
             * We have to be very careful here, as in killThread#, since
             * we are about to raise an async exception in the current
             * thread, which might result in the thread being killed.
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             *
             * Now, if we are to raise an exception in the current
             * thread, there might be an update frame above us on the
             * stack due to unsafePerformIO.  Hence, the stack must
             * make sense, because it is about to be snapshotted into
             * an AP_STACK.
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             */
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            Sp_adj(-3);
            Sp(2) = stg_ap_v_info;
            Sp(1) = R1;
            Sp(0) = stg_enter_info;

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            SAVE_THREAD_STATE();
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            (r) = foreign "C" maybePerformBlockedException (MyCapability() "ptr", 
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						      CurrentTSO "ptr") [R1];

            if (r != 0::CInt) {
                if (StgTSO_what_next(CurrentTSO) == ThreadKilled::I16) {
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                    jump stg_threadFinished;
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	        } else {
	            LOAD_THREAD_STATE();
	            ASSERT(StgTSO_what_next(CurrentTSO) == ThreadRunGHC::I16);
	            jump %ENTRY_CODE(Sp(0));
	        }
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            } else {
                /* we'll just call R1 directly, below */
                Sp_adj(3);
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            }
        }

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    }
    TICK_UNKNOWN_CALL();
    TICK_SLOW_CALL_v();
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    jump stg_ap_v_fast;
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}

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stg_getMaskingStatezh
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{
    /* args: none */
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    /* 
       returns: 0 == unmasked,
                1 == masked, non-interruptible,
                2 == masked, interruptible
    */
    RET_N(((TO_W_(StgTSO_flags(CurrentTSO)) & TSO_BLOCKEX) != 0) +
          ((TO_W_(StgTSO_flags(CurrentTSO)) & TSO_INTERRUPTIBLE) != 0));
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}
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stg_killThreadzh
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{
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    /* args: R1 = TSO to kill, R2 = Exception */

    W_ why_blocked;
    W_ target;
    W_ exception;
    
    target = R1;
    exception = R2;
    
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    /* Needs 3 words because throwToSingleThreaded uses some stack */
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    STK_CHK_GEN( WDS(3), R1_PTR & R2_PTR, stg_killThreadzh);
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    /* We call allocate in throwTo(), so better check for GC */
    MAYBE_GC(R1_PTR & R2_PTR, stg_killThreadzh);
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    /* 
     * We might have killed ourselves.  In which case, better be *very*
     * careful.  If the exception killed us, then return to the scheduler.
     * If the exception went to a catch frame, we'll just continue from
     * the handler.
     */
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  loop:
    if (StgTSO_what_next(target) == ThreadRelocated::I16) {
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        target = StgTSO__link(target);
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        goto loop;
    }
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    if (target == CurrentTSO) {
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        /*
         * So what should happen if a thread calls "throwTo self" inside
         * unsafePerformIO, and later the closure is evaluated by another
         * thread?  Presumably it should behave as if throwTo just returned,
         * and then continue from there.  See #3279, #3288.  This is what
         * happens: on resumption, we will just jump to the next frame on
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         * the stack, which is the return point for stg_killThreadzh.
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         */
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	SAVE_THREAD_STATE();
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	/* ToDo: what if the current thread is blocking exceptions? */
	foreign "C" throwToSingleThreaded(MyCapability() "ptr", 
					  target "ptr", exception "ptr")[R1,R2];
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	if (StgTSO_what_next(CurrentTSO) == ThreadKilled::I16) {
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            jump stg_threadFinished;
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	} else {
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	    LOAD_THREAD_STATE();
	    ASSERT(StgTSO_what_next(CurrentTSO) == ThreadRunGHC::I16);
	    jump %ENTRY_CODE(Sp(0));
	}
    } else {
	W_ out;
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	W_ msg;
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	out = Sp - WDS(1); /* ok to re-use stack space here */

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	(msg) = foreign "C" throwTo(MyCapability() "ptr",
                                    CurrentTSO "ptr",
                                    target "ptr",
                                    exception "ptr") [R1,R2];
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        if (msg == NULL) {
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	    jump %ENTRY_CODE(Sp(0));
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	} else {
            StgTSO_why_blocked(CurrentTSO) = BlockedOnMsgThrowTo;
            StgTSO_block_info(CurrentTSO) = msg;
	    // we must block, and unlock the message before returning
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	    jump stg_block_throwto;
	}
    }
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}

/* -----------------------------------------------------------------------------
   Catch frames
   -------------------------------------------------------------------------- */

#define SP_OFF 0

/* Catch frames are very similar to update frames, but when entering
 * one we just pop the frame off the stack and perform the correct
 * kind of return to the activation record underneath us on the stack.
 */

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INFO_TABLE_RET(stg_catch_frame, CATCH_FRAME,
#if defined(PROFILING)
  W_ unused1, W_ unused2,
#endif
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  W_ unused3, P_ unused4)
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   {
      Sp = Sp + SIZEOF_StgCatchFrame;
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      jump %ENTRY_CODE(Sp(SP_OFF));
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   }
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/* -----------------------------------------------------------------------------
 * The catch infotable
 *
 * This should be exactly the same as would be generated by this STG code
 *
 * catch = {x,h} \n {} -> catch#{x,h}
 *
 * It is used in deleteThread when reverting blackholes.
 * -------------------------------------------------------------------------- */

INFO_TABLE(stg_catch,2,0,FUN,"catch","catch")
{
  R2 = StgClosure_payload(R1,1); /* h */
  R1 = StgClosure_payload(R1,0); /* x */
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  jump stg_catchzh;
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}

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stg_catchzh
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{
    /* args: R1 = m :: IO a, R2 = handler :: Exception -> IO a */
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    STK_CHK_GEN(SIZEOF_StgCatchFrame + WDS(1), R1_PTR & R2_PTR, stg_catchzh);
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    /* Set up the catch frame */
    Sp = Sp - SIZEOF_StgCatchFrame;
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    SET_HDR(Sp,stg_catch_frame_info,W_[CCCS]);
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    StgCatchFrame_handler(Sp) = R2;
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    StgCatchFrame_exceptions_blocked(Sp) = 
        TO_W_(StgTSO_flags(CurrentTSO)) & (TSO_BLOCKEX | TSO_INTERRUPTIBLE);
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    TICK_CATCHF_PUSHED();

    /* Apply R1 to the realworld token */
    TICK_UNKNOWN_CALL();
    TICK_SLOW_CALL_v();
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    jump stg_ap_v_fast;
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}
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/* -----------------------------------------------------------------------------
 * The raise infotable
 * 
 * This should be exactly the same as would be generated by this STG code
 *
 *   raise = {err} \n {} -> raise#{err}
 *
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 * It is used in stg_raisezh to update thunks on the update list
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 * -------------------------------------------------------------------------- */

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INFO_TABLE(stg_raise,1,0,THUNK_1_0,"raise","raise")
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{
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  R1 = StgThunk_payload(R1,0);
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  jump stg_raisezh;
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}

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section "data" {
  no_break_on_exception: W_[1];
}

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INFO_TABLE_RET(stg_raise_ret, RET_SMALL, P_ arg1)
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{
  R1 = Sp(1);
  Sp = Sp + WDS(2);
  W_[no_break_on_exception] = 1;  
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  jump stg_raisezh;
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}

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stg_raisezh
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{
    W_ handler;
    W_ frame_type;
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    W_ exception;
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    /* args : R1 :: Exception */

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   exception = R1;
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#if defined(PROFILING)
    /* Debugging tool: on raising an  exception, show where we are. */

    /* ToDo: currently this is a hack.  Would be much better if
     * the info was only displayed for an *uncaught* exception.
     */
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    if (RtsFlags_ProfFlags_showCCSOnException(RtsFlags) != 0::I32) {
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      foreign "C" fprintCCS_stderr(W_[CCCS] "ptr") [];
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    }
#endif
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retry_pop_stack:
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    StgTSO_sp(CurrentTSO) = Sp;
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    (frame_type) = foreign "C" raiseExceptionHelper(BaseReg "ptr", CurrentTSO "ptr", exception "ptr") [];
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    Sp = StgTSO_sp(CurrentTSO);
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    if (frame_type == ATOMICALLY_FRAME) {
      /* The exception has reached the edge of a memory transaction.  Check that 
       * the transaction is valid.  If not then perhaps the exception should
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       * not have been thrown: re-run the transaction.  "trec" will either be
       * a top-level transaction running the atomic block, or a nested 
       * transaction running an invariant check.  In the latter case we
       * abort and de-allocate the top-level transaction that encloses it
       * as well (we could just abandon its transaction record, but this makes
       * sure it's marked as aborted and available for re-use). */
      W_ trec, outer;
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      W_ r;
      trec = StgTSO_trec(CurrentTSO);
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      (r) = foreign "C" stmValidateNestOfTransactions(trec "ptr") [];
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      outer  = StgTRecHeader_enclosing_trec(trec);
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      foreign "C" stmAbortTransaction(MyCapability() "ptr", trec "ptr") [];
      foreign "C" stmFreeAbortedTRec(MyCapability() "ptr", trec "ptr") [];
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      if (outer != NO_TREC) {
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        foreign "C" stmAbortTransaction(MyCapability() "ptr", outer "ptr") [];
        foreign "C" stmFreeAbortedTRec(MyCapability() "ptr", outer "ptr") [];
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      }

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      StgTSO_trec(CurrentTSO) = NO_TREC;
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      if (r != 0) {
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        // Transaction was valid: continue searching for a catch frame
        Sp = Sp + SIZEOF_StgAtomicallyFrame;
        goto retry_pop_stack;
      } else {
        // Transaction was not valid: we retry the exception (otherwise continue
        // with a further call to raiseExceptionHelper)
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        ("ptr" trec) = foreign "C" stmStartTransaction(MyCapability() "ptr", NO_TREC "ptr") [];
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        StgTSO_trec(CurrentTSO) = trec;
        R1 = StgAtomicallyFrame_code(Sp);
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        jump stg_ap_v_fast;
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      }          
    }
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    // After stripping the stack, see whether we should break here for
    // GHCi (c.f. the -fbreak-on-exception flag).  We do this after
    // stripping the stack for a reason: we'll be inspecting values in
    // GHCi, and it helps if all the thunks under evaluation have
    // already been updated with the exception, rather than being left
    // as blackholes.
    if (W_[no_break_on_exception] != 0) {
        W_[no_break_on_exception] = 0;
    } else {
        if (TO_W_(CInt[rts_stop_on_exception]) != 0) {
            W_ ioAction;
            // we don't want any further exceptions to be caught,
            // until GHCi is ready to handle them.  This prevents
            // deadlock if an exception is raised in InteractiveUI,
            // for exmplae.  Perhaps the stop_on_exception flag should
            // be per-thread.
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            CInt[rts_stop_on_exception] = 0;
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            ("ptr" ioAction) = foreign "C" deRefStablePtr (W_[rts_breakpoint_io_action] "ptr") [];
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            Sp = Sp - WDS(6);
            Sp(5) = exception;
            Sp(4) = stg_raise_ret_info;
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            Sp(3) = exception;             // the AP_STACK
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            Sp(2) = ghczmprim_GHCziBool_True_closure; // dummy breakpoint info
            Sp(1) = ghczmprim_GHCziBool_True_closure; // True <=> a breakpoint
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            R1 = ioAction;
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            jump RET_LBL(stg_ap_pppv);
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        }
    }

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    if (frame_type == STOP_FRAME) {
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	/*
	 * We've stripped the entire stack, the thread is now dead.
	 * We will leave the stack in a GC'able state, see the stg_stop_thread
	 * entry code in StgStartup.cmm.
	 */
	Sp = CurrentTSO + TSO_OFFSET_StgTSO_stack 
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		+ WDS(TO_W_(StgTSO_stack_size(CurrentTSO))) - WDS(2);
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	Sp(1) = exception;	/* save the exception */
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	Sp(0) = stg_enter_info; /* so that GC can traverse this stack */
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	StgTSO_what_next(CurrentTSO) = ThreadKilled::I16;
	SAVE_THREAD_STATE();	/* inline! */
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        jump stg_threadFinished;
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    }

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    /* Ok, Sp points to the enclosing CATCH_FRAME or CATCH_STM_FRAME.  Pop everything
     * down to and including this frame, update Su, push R1, and enter the handler.
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     */
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    if (frame_type == CATCH_FRAME) {
      handler = StgCatchFrame_handler(Sp);
    } else {
      handler = StgCatchSTMFrame_handler(Sp);
    }
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    /* Restore the blocked/unblocked state for asynchronous exceptions
     * at the CATCH_FRAME.  
     *
     * If exceptions were unblocked, arrange that they are unblocked
     * again after executing the handler by pushing an
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     * unmaskAsyncExceptions_ret stack frame.
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     *
     * If we've reached an STM catch frame then roll back the nested
     * transaction we were using.
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     */
    W_ frame;
    frame = Sp;
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    if (frame_type == CATCH_FRAME) {
      Sp = Sp + SIZEOF_StgCatchFrame;
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      if ((StgCatchFrame_exceptions_blocked(frame) & TSO_BLOCKEX) == 0) {
          Sp_adj(-1);
          Sp(0) = stg_unmaskAsyncExceptionszh_ret_info;
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      }
    } else {
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      W_ trec, outer;
      trec = StgTSO_trec(CurrentTSO);
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      outer  = StgTRecHeader_enclosing_trec(trec);
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      foreign "C" stmAbortTransaction(MyCapability() "ptr", trec "ptr") [];
      foreign "C" stmFreeAbortedTRec(MyCapability() "ptr", trec "ptr") [];
      StgTSO_trec(CurrentTSO) = outer;
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      Sp = Sp + SIZEOF_StgCatchSTMFrame;
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    }

    /* Ensure that async excpetions are blocked when running the handler.
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     * The interruptible state is inherited from the context of the
     * catch frame.
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    */
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    StgTSO_flags(CurrentTSO) = %lobits32(
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	TO_W_(StgTSO_flags(CurrentTSO)) | TSO_BLOCKEX);
    if ((StgCatchFrame_exceptions_blocked(frame) & TSO_INTERRUPTIBLE) == 0) {
        StgTSO_flags(CurrentTSO) = %lobits32(
            TO_W_(StgTSO_flags(CurrentTSO)) & ~TSO_INTERRUPTIBLE);
    } else {
        StgTSO_flags(CurrentTSO) = %lobits32(
            TO_W_(StgTSO_flags(CurrentTSO)) | TSO_INTERRUPTIBLE);
    }
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    /* Call the handler, passing the exception value and a realworld
     * token as arguments.
     */
    Sp_adj(-1);
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    Sp(0) = exception;
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    R1 = handler;
    Sp_adj(-1);
    TICK_UNKNOWN_CALL();
    TICK_SLOW_CALL_pv();
    jump RET_LBL(stg_ap_pv);
}

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stg_raiseIOzh
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{
  /* Args :: R1 :: Exception */
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  jump stg_raisezh;
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}