154 lines
6.0 KiB
C
154 lines
6.0 KiB
C
/****************************************************************
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* *
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* Copyright 2001, 2012 Fidelity Information Services, Inc *
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* *
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* This source code contains the intellectual property *
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* of its copyright holder(s), and is made available *
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* under a license. If you do not know the terms of *
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* the license, please stop and do not read further. *
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* *
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****************************************************************/
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#ifndef HAVE_CRIT_H_INCLUDED
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#define HAVE_CRIT_H_INCLUDED
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#include <signal.h> /* needed for VSIG_ATOMIC_T */
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#ifdef UNIX
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#include <deferred_signal_handler.h>
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#endif
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/* states of CRIT passed as argument to have_crit() */
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#define CRIT_IN_COMMIT 0x00000001
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#define CRIT_NOT_TRANS_REG 0x00000002
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#define CRIT_RELEASE 0x00000004
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#define CRIT_ALL_REGIONS 0x00000008
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#define CRIT_IN_WTSTART 0x00000010 /* check if csa->in_wtstart is true */
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/* Note absence of any flags is default value which finds if any region
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* or the replication pool have crit or are getting crit. It returns
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* when one is found without checking further.
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*/
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#define CRIT_HAVE_ANY_REG 0x00000000
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#ifdef DEBUG
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#include "wbox_test_init.h"
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#endif
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#ifdef UNIX
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#include "gt_timer.h"
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#endif
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typedef enum
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{
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INTRPT_OK_TO_INTERRUPT = 0,
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INTRPT_IN_GTCMTR_TERMINATE,
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INTRPT_IN_TP_UNWIND,
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INTRPT_IN_TP_CLEAN_UP,
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INTRPT_IN_CRYPT_SECTION,
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INTRPT_IN_DB_CSH_GETN,
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INTRPT_IN_GVCST_INIT,
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INTRPT_IN_GDS_RUNDOWN,
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INTRPT_IN_SS_INITIATE,
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INTRPT_IN_ZLIB_CMP_UNCMP,
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INTRPT_IN_TRIGGER_NOMANS_LAND, /* State where have trigger base frame but no trigger (exec) frame */
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INTRPT_IN_MUR_OPEN_FILES,
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INTRPT_IN_TRUNC,
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INTRPT_NUM_STATES,
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INTRPT_IN_SET_NUM_ADD_PROCS,
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INTRPT_IN_SYSCONF,
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INTRPT_NO_TIMER_EVENTS, /* State where primary reason for deferral is to avoid timer pops */
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INTRPT_IN_FFLUSH /* Deferring interrupts during fflush */
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} intrpt_state_t;
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GBLREF intrpt_state_t intrpt_ok_state;
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GBLREF boolean_t deferred_timers_check_needed;
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/* Macro to check if we are in a state that is ok to interrupt (or to do deferred signal handling).
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* We do not want to interrupt if the global variable intrpt_ok_state indicates it is not ok to interrupt,
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* if we are in the midst of a malloc, if we are holding crit, if we are in the midst of commit, or in
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* wcs_wtstart. In the last case, we could be causing another process HOLDING CRIT on the region to wait
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* in bg_update_phase1 if we hold the write interlock. Hence it is important for us to finish that as soon
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* as possible and not interrupt it.
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*/
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#define OK_TO_INTERRUPT ((INTRPT_OK_TO_INTERRUPT == intrpt_ok_state) && (0 == gtmMallocDepth) \
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&& (0 == have_crit(CRIT_HAVE_ANY_REG | CRIT_IN_COMMIT | CRIT_IN_WTSTART)))
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/* Macro to be used whenever we want to handle any signals that we deferred handling and exit in the process.
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* In VMS, we dont do any signal handling, only exit handling.
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*/
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#define DEFERRED_EXIT_HANDLING_CHECK \
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{ \
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VMS_ONLY(GBLREF int4 exi_condition;) \
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GBLREF int process_exiting; \
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GBLREF VSIG_ATOMIC_T forced_exit; \
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GBLREF volatile int4 gtmMallocDepth; \
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\
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if (forced_exit) \
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{ \
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if (!process_exiting && OK_TO_INTERRUPT) \
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{ \
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UNIX_ONLY(deferred_signal_handler();) \
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VMS_ONLY(sys$exit(exi_condition);) \
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} \
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} \
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UNIX_ONLY( \
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else if (deferred_timers_check_needed) \
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{ \
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if (!process_exiting && OK_TO_INTERRUPT) \
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check_for_deferred_timers(); \
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} \
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) \
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}
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/* Macro to cause deferrable interrupts to be deferred recording the cause.
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* If interrupt is already deferred, state is not changed.
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*
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* The normal usage of the below macros is
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* DEFER_INTERRUPTS
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* non-interruptible code
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* ENABLE_INTERRUPTS
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* We want the non-interruptible code to be executed AFTER the SAVE_INTRPT_OK_STATE macro.
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* To enforce this ordering, one would think a read memory barrier is needed in between.
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* But it is not needed. This is because we expect the non-interruptible code to have
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* a) pointer dereferences OR
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* b) function calls
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* Either of these will prevent the compiler from reordering the non-interruptible code.
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* Any non-interruptible code that does not have either of the above usages (for e.g. uses C global
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* variables) might be affected by compiler reordering. As of now, there is no known case of such
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* usage and no such usage is anticipated in the future.
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*
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* We dont need to worry about machine reordering as well since there is no shared memory variable
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* involved here (intrpt_ok_state is a process private variable) and even if any reordering occurs
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* they will all be in-flight instructions when the interrupt occurs so the hardware will guarantee
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* all such instructions are completely done or completely discarded before servicing the interrupt
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* which means the interrupt service routine will never see a reordered state of the above code.
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*/
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#define DEFER_INTERRUPTS(NEWSTATE) \
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{ \
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if (INTRPT_OK_TO_INTERRUPT == intrpt_ok_state) \
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/* Only reset state if we are in "OK" state */ \
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intrpt_ok_state = NEWSTATE; \
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else \
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assert((NEWSTATE) != intrpt_ok_state); /* Make sure not nesting same code */ \
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}
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/* Re-enable deferrable interrupts if the expected state is found. If expected state is not found, then
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* we must have nested interrupt types. Avoid state changes in that case. When the nested state pops,
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* interrupts will be restored.
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*/
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#define ENABLE_INTERRUPTS(OLDSTATE) \
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{ \
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assert(((OLDSTATE) == intrpt_ok_state) || (INTRPT_OK_TO_INTERRUPT != intrpt_ok_state)); \
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if ((OLDSTATE) == intrpt_ok_state) \
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{ /* Only reset state if in expected state - othwise state must be non-zero which is \
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* asserted above. \
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*/ \
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intrpt_ok_state = INTRPT_OK_TO_INTERRUPT; \
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DEFERRED_EXIT_HANDLING_CHECK; /* check if signals were deferred while held lock */ \
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} \
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}
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uint4 have_crit(uint4 crit_state);
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#endif /* HAVE_CRIT_H_INCLUDED */
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