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/*
* %CopyrightBegin%
*
* Copyright Ericsson AB 1997-2018. All Rights Reserved.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
* %CopyrightEnd%
*/
#ifndef __ERL_MESSAGE_H__
#define __ERL_MESSAGE_H__
#include "sys.h"
#define ERTS_PROC_SIG_QUEUE_TYPE_ONLY
#include "erl_proc_sig_queue.h"
#undef ERTS_PROC_SIG_QUEUE_TYPE_ONLY
struct proc_bin;
struct external_thing_;
typedef struct erl_mesg ErtsMessage;
/*
* This struct represents data that must be updated by structure copy,
* but is stored outside of any heap.
*/
struct erl_off_heap_header {
Eterm thing_word;
Uint size;
struct erl_off_heap_header* next;
};
#define OH_OVERHEAD(oh, size) do { \
(oh)->overhead += size; \
} while(0)
typedef struct erl_off_heap {
struct erl_off_heap_header* first;
Uint64 overhead; /* Administrative overhead (used to force GC). */
} ErlOffHeap;
#define ERTS_INIT_OFF_HEAP(OHP) \
do { \
(OHP)->first = NULL; \
(OHP)->overhead = 0; \
} while (0)
typedef struct {
enum {
FACTORY_CLOSED = 0,
FACTORY_HALLOC,
FACTORY_MESSAGE,
FACTORY_HEAP_FRAGS,
FACTORY_STATIC,
FACTORY_TMP
} mode;
Process* p;
Eterm* hp_start;
Eterm* hp;
Eterm* hp_end;
ErtsMessage *message;
struct erl_heap_fragment* heap_frags;
struct erl_heap_fragment* heap_frags_saved;
Uint heap_frags_saved_used;
ErlOffHeap* off_heap;
ErlOffHeap off_heap_saved;
Uint32 alloc_type;
} ErtsHeapFactory;
void erts_factory_proc_init(ErtsHeapFactory*, Process*);
void erts_factory_proc_prealloc_init(ErtsHeapFactory*, Process*, Sint size);
void erts_factory_heap_frag_init(ErtsHeapFactory*, struct erl_heap_fragment*);
ErtsMessage *erts_factory_message_create(ErtsHeapFactory *, Process *,
ErtsProcLocks *, Uint sz);
void erts_factory_selfcontained_message_init(ErtsHeapFactory*, ErtsMessage *, Eterm *);
void erts_factory_static_init(ErtsHeapFactory*, Eterm* hp, Uint size, ErlOffHeap*);
void erts_factory_tmp_init(ErtsHeapFactory*, Eterm* hp, Uint size, Uint32 atype);
void erts_factory_dummy_init(ErtsHeapFactory*);
ERTS_GLB_INLINE Eterm* erts_produce_heap(ErtsHeapFactory*, Uint need, Uint xtra);
Eterm* erts_reserve_heap(ErtsHeapFactory*, Uint need);
void erts_factory_close(ErtsHeapFactory*);
void erts_factory_trim_and_close(ErtsHeapFactory*,Eterm *brefs, Uint brefs_size);
void erts_factory_undo(ErtsHeapFactory*);
void erts_reserve_heap__(ErtsHeapFactory*, Uint need, Uint xtra); /* internal */
#if ERTS_GLB_INLINE_INCL_FUNC_DEF
ERTS_GLB_INLINE Eterm *
erts_produce_heap(ErtsHeapFactory* factory, Uint need, Uint xtra)
{
Eterm* res;
ASSERT((unsigned int)factory->mode > (unsigned int)FACTORY_CLOSED);
if (factory->hp + need > factory->hp_end) {
erts_reserve_heap__(factory, need, xtra);
}
res = factory->hp;
factory->hp += need;
return res;
}
#endif /* ERTS_GLB_INLINE_INCL_FUNC_DEF */
#ifdef CHECK_FOR_HOLES
# define ERTS_FACTORY_HOLE_CHECK(f) do { \
/*if ((f)->p) erts_check_for_holes((f)->p);*/ \
} while (0)
#else
# define ERTS_FACTORY_HOLE_CHECK(p)
#endif
#include "external.h"
#include "erl_process.h"
#define ERTS_INVALID_HFRAG_PTR ((ErlHeapFragment *) ~((UWord) 7))
/*
* This struct represents a heap fragment, which is used when there
* isn't sufficient room in the process heap and we can't do a GC.
*/
typedef struct erl_heap_fragment ErlHeapFragment;
struct erl_heap_fragment {
ErlHeapFragment* next; /* Next heap fragment */
ErlOffHeap off_heap; /* Offset heap data. */
Uint alloc_size; /* Size in (half)words of mem */
Uint used_size; /* With terms to be moved to heap by GC */
Eterm mem[1]; /* Data */
};
/* m[0] = message, m[1] = seq trace token */
#define ERL_MESSAGE_REF_ARRAY_SZ 3
#define ERL_MESSAGE_TERM(mp) ((mp)->m[0])
#define ERL_MESSAGE_TOKEN(mp) ((mp)->m[1])
#define ERL_MESSAGE_FROM(mp) ((mp)->m[2])
#ifdef USE_VM_PROBES
/* m[2] = dynamic trace user tag */
#undef ERL_MESSAGE_REF_ARRAY_SZ
#define ERL_MESSAGE_REF_ARRAY_SZ 4
#define ERL_MESSAGE_DT_UTAG(mp) ((mp)->m[3])
#else
#endif
#ifdef USE_VM_PROBES
#define have_no_seqtrace(T) ((T) == NIL || (T) == am_have_dt_utag)
#else
#define have_no_seqtrace(T) ((T) == NIL)
#endif
#define have_seqtrace(T) (!have_no_seqtrace(T))
#define ERL_MESSAGE_REF_FIELDS__ \
ErtsMessage *next; /* Next message */ \
union { \
ErtsDistExternal *dist_ext; \
ErlHeapFragment *heap_frag; \
void *attached; \
} data; \
Eterm m[ERL_MESSAGE_REF_ARRAY_SZ]
typedef struct erl_msg_ref__ {
ERL_MESSAGE_REF_FIELDS__;
} ErtsMessageRef;
struct erl_mesg {
ERL_MESSAGE_REF_FIELDS__;
ErlHeapFragment hfrag;
};
/*
* The ErtsMessage struct is only one special type
* of signal. All signal structs have a common
* begining and can be differentiated by looking
* at the ErtsSignal 'common.tag' field.
*
* - An ordinary message will have a value
* - A distribution message that has not been
* decoded yet will have the non-value.
* - Other signals will have an external pid
* header tag. In order to differentiate
* between those signals one needs to look
* at the arity part of the header (see
* erts_proc_sig_queue.h).
*/
#define ERTS_SIG_IS_NON_MSG_TAG(Tag) \
(is_external_pid_header((Tag)))
#define ERTS_SIG_IS_NON_MSG(Sig) \
ERTS_SIG_IS_NON_MSG_TAG(((ErtsSignal *) (Sig))->common.tag)
#define ERTS_SIG_IS_INTERNAL_MSG_TAG(Tag) \
(!is_header((Tag)))
#define ERTS_SIG_IS_INTERNAL_MSG(Sig) \
ERTS_SIG_IS_INTERNAL_MSG_TAG(((ErtsSignal *) (Sig))->common.tag)
#define ERTS_SIG_IS_EXTERNAL_MSG_TAG(Tag) \
((Tag) == THE_NON_VALUE)
#define ERTS_SIG_IS_EXTERNAL_MSG(Sig) \
ERTS_SIG_IS_EXTERNAL_MSG_TAG(((ErtsSignal *) (Sig))->common.tag)
#define ERTS_SIG_IS_MSG_TAG(Tag) \
(!ERTS_SIG_IS_NON_MSG_TAG(Tag))
#define ERTS_SIG_IS_MSG(Sig) \
ERTS_SIG_IS_MSG_TAG(((ErtsSignal *) (Sig))->common.tag)
typedef union {
ErtsSignalCommon common;
ErtsMessageRef msg;
} ErtsSignal;
typedef struct {
/* pointers to next pointers pointing to... */
ErtsMessage **next; /* ... next (non-message) signal */
ErtsMessage **last; /* ... last (non-message) signal */
} ErtsMsgQNMSigs;
/* Size of default message buffer (erl_message.c) */
#define ERL_MESSAGE_BUF_SZ 500
typedef struct {
/*
* ** The signal queues private to a process. **
*
* These are:
* - an inner queue which only consists of
* message signals
* - a middle queue which contains a mixture
* of message and non-message signals
*
* When the process isn't processing signals in
* erts_proc_sig_handle_incoming():
* - the message queue corresponds to the inner
* queue. Messages in the middle queue (and
* in the outer queue) are in transit and
* have NOT been received yet!
*
* When the process is processing signals in
* erts_proc_sig_handle_incoming():
* - the message queue corresponds to the inner
* queue plus the head of the middle queue up
* to the signal currently being processed.
* Any messages further back in the middle queue
* (and in the outer queue) are still in transit
* and have NOT been received yet!
*
* In the general case the 'len' field of this
* structure does NOT correspond to the message
* queue length. When the process is inspected
* via process info it does however correspond
* to the message queue length, but this is a
* special case!
*
* When no process-info request is in transit to
* the process the 'len' field corresponds to
* the total amount of messages in inner and
* middle queues (which does NOT correspond to
* the message queue length). When process-info
* requests are in transit to the process, the
* usage of the 'len' field changes and is used
* as an offset which even might be negative.
*/
/* inner queue */
ErtsMessage *first;
ErtsMessage **last; /* point to the last next pointer */
ErtsMessage **save;
/* middle queue */
ErtsMessage *cont;
ErtsMessage **cont_last;
ErtsMsgQNMSigs nmsigs;
/* Common for inner and middle queue */
ErtsMessage **saved_last; /* saved last pointer */
Sint len; /* NOT message queue length (see above) */
} ErtsSignalPrivQueues;
typedef struct {
ErtsMessage* first;
ErtsMessage** last; /* point to the last next pointer */
Sint len; /* number of messages in queue */
ErtsMsgQNMSigs nmsigs;
#ifdef ERTS_PROC_SIG_HARD_DEBUG
int may_contain_heap_terms;
#endif
} ErtsSignalInQueue;
typedef struct erl_trace_message_queue__ {
struct erl_trace_message_queue__ *next; /* point to the next receiver */
Eterm receiver;
ErtsMessage* first;
ErtsMessage** last; /* point to the last next pointer */
Sint len; /* queue length */
} ErlTraceMessageQueue;
#define ERTS_RECV_MARK_SAVE(P) \
do { \
erts_proc_lock((P), ERTS_PROC_LOCK_MSGQ); \
erts_proc_sig_fetch((P)); \
erts_proc_unlock((P), ERTS_PROC_LOCK_MSGQ); \
if ((P)->sig_qs.cont) { \
(P)->sig_qs.saved_last = (P)->sig_qs.cont_last; \
(P)->flags |= F_DEFERRED_SAVED_LAST; \
} \
else { \
(P)->sig_qs.saved_last = (P)->sig_qs.last; \
(P)->flags &= ~F_DEFERRED_SAVED_LAST; \
} \
} while (0)
#define ERTS_RECV_MARK_SET(P) \
do { \
if ((P)->sig_qs.saved_last) { \
if ((P)->flags & F_DEFERRED_SAVED_LAST) { \
/* Points to middle queue; use end of inner */ \
(P)->sig_qs.save = (P)->sig_qs.last; \
ASSERT(!PEEK_MESSAGE((P))); \
} \
else { \
/* Points to inner queue; safe to use */ \
(P)->sig_qs.save = (P)->sig_qs.saved_last; \
} \
} \
} while (0)
#define ERTS_RECV_MARK_CLEAR(P) \
do { \
(P)->sig_qs.saved_last = NULL; \
(P)->flags &= ~F_DEFERRED_SAVED_LAST; \
} while (0)
/* Get "current" message */
#define PEEK_MESSAGE(p) (*(p)->sig_qs.save)
#ifdef USE_VM_PROBES
#define LINK_MESSAGE_DTAG(mp, dt) ERL_MESSAGE_DT_UTAG(mp) = dt
#else
#define LINK_MESSAGE_DTAG(mp, dt)
#endif
#ifdef USE_VM_PROBES
# define ERTS_MSG_RECV_TRACED(P) \
((ERTS_TRACE_FLAGS((P)) & F_TRACE_RECEIVE) \
|| DTRACE_ENABLED(message_queued))
#else
# define ERTS_MSG_RECV_TRACED(P) \
(ERTS_TRACE_FLAGS((P)) & F_TRACE_RECEIVE)
#endif
/* Add one message last in message queue */
#define LINK_MESSAGE(p, msg) \
do { \
ASSERT(ERTS_SIG_IS_MSG(msg)); \
ERTS_HDBG_CHECK_SIGNAL_IN_QUEUE__((p), "before"); \
*(p)->sig_inq.last = (msg); \
(p)->sig_inq.last = &(msg)->next; \
(p)->sig_inq.len++; \
ERTS_HDBG_CHECK_SIGNAL_IN_QUEUE__((p), "before"); \
} while(0)
/* Unlink current message */
#define UNLINK_MESSAGE(p,msgp) \
do { \
ErtsMessage *mp__ = (msgp)->next; \
ERTS_HDBG_CHECK_SIGNAL_PRIV_QUEUE__((p), 0, "before"); \
*(p)->sig_qs.save = mp__; \
(p)->sig_qs.len--; \
if (mp__ == NULL) \
(p)->sig_qs.last = (p)->sig_qs.save; \
ERTS_HDBG_CHECK_SIGNAL_PRIV_QUEUE__((p), 0, "after"); \
} while(0)
/*
* Reset message save point (after receive match).
* Also invalidate the saved position since it may no
* longer be safe to use.
*/
#define JOIN_MESSAGE(p) \
do { \
(p)->sig_qs.save = &(p)->sig_qs.first; \
ERTS_RECV_MARK_CLEAR((p)); \
} while(0)
/* Save current message */
#define SAVE_MESSAGE(p) \
(p)->sig_qs.save = &(*(p)->sig_qs.save)->next
#define ERTS_HEAP_FRAG_SIZE(DATA_WORDS) \
(sizeof(ErlHeapFragment) - sizeof(Eterm) + (DATA_WORDS)*sizeof(Eterm))
#define ERTS_INIT_HEAP_FRAG(HEAP_FRAG_P, USED_WORDS, DATA_WORDS) \
do { \
(HEAP_FRAG_P)->next = NULL; \
(HEAP_FRAG_P)->alloc_size = (DATA_WORDS); \
(HEAP_FRAG_P)->used_size = (USED_WORDS); \
(HEAP_FRAG_P)->off_heap.first = NULL; \
(HEAP_FRAG_P)->off_heap.overhead = 0; \
} while (0)
#ifdef USE_VM_PROBES
#define ERL_MESSAGE_DT_UTAG_INIT(MP) ERL_MESSAGE_DT_UTAG(MP) = NIL
#else
#define ERL_MESSAGE_DT_UTAG_INIT(MP) do{ } while (0)
#endif
#define ERTS_INIT_MESSAGE(MP) \
do { \
(MP)->next = NULL; \
ERL_MESSAGE_TERM(MP) = THE_NON_VALUE; \
ERL_MESSAGE_TOKEN(MP) = THE_NON_VALUE; \
ERL_MESSAGE_FROM(MP) = NIL; \
ERL_MESSAGE_DT_UTAG_INIT(MP); \
MP->data.attached = NULL; \
} while (0)
void init_message(void);
ErlHeapFragment* new_message_buffer(Uint);
ErlHeapFragment* erts_resize_message_buffer(ErlHeapFragment *, Uint,
Eterm *, Uint);
void free_message_buffer(ErlHeapFragment *);
void erts_queue_dist_message(Process*, ErtsProcLocks, ErtsDistExternal *, Eterm, Eterm);
void erts_queue_message(Process*, ErtsProcLocks,ErtsMessage*, Eterm, Eterm);
void erts_queue_proc_message(Process* from,Process* to, ErtsProcLocks,ErtsMessage*, Eterm);
void erts_queue_proc_messages(Process* from, Process* to, ErtsProcLocks,
ErtsMessage*, ErtsMessage**, Uint);
void erts_deliver_exit_message(Eterm, Process*, ErtsProcLocks *, Eterm, Eterm);
void erts_send_message(Process*, Process*, ErtsProcLocks*, Eterm);
void erts_link_mbuf_to_proc(Process *proc, ErlHeapFragment *bp);
Uint erts_msg_attached_data_size_aux(ErtsMessage *msg);
void erts_cleanup_offheap(ErlOffHeap *offheap);
void erts_save_message_in_proc(Process *p, ErtsMessage *msg);
Sint erts_move_messages_off_heap(Process *c_p);
Sint erts_complete_off_heap_message_queue_change(Process *c_p);
Eterm erts_change_message_queue_management(Process *c_p, Eterm new_state);
int erts_decode_dist_message(Process *, ErtsProcLocks, ErtsMessage *, int);
void erts_cleanup_messages(ErtsMessage *mp);
void *erts_alloc_message_ref(void);
void erts_free_message_ref(void *);
#define ERTS_SMALL_FIX_MSG_SZ 10
#define ERTS_MEDIUM_FIX_MSG_SZ 20
#define ERTS_LARGE_FIX_MSG_SZ 30
void *erts_alloc_small_message(void);
void erts_free_small_message(void *mp);
typedef struct {
ErtsMessage m;
Eterm data[ERTS_SMALL_FIX_MSG_SZ-1];
} ErtsSmallFixSzMessage;
typedef struct {
ErtsMessage m;
Eterm data[ERTS_MEDIUM_FIX_MSG_SZ-1];
} ErtsMediumFixSzMessage;
typedef struct {
ErtsMessage m;
Eterm data[ERTS_LARGE_FIX_MSG_SZ-1];
} ErtsLargeFixSzMessage;
ErtsMessage *erts_try_alloc_message_on_heap(Process *pp,
erts_aint32_t *psp,
ErtsProcLocks *plp,
Uint sz,
Eterm **hpp,
ErlOffHeap **ohpp,
int *on_heap_p);
ErtsMessage *erts_realloc_shrink_message(ErtsMessage *mp, Uint sz,
Eterm *brefs, Uint brefs_size);
ERTS_GLB_FORCE_INLINE ErtsMessage *erts_alloc_message(Uint sz, Eterm **hpp);
ERTS_GLB_FORCE_INLINE ErtsMessage *erts_shrink_message(ErtsMessage *mp, Uint sz,
Eterm *brefs, Uint brefs_size);
ERTS_GLB_FORCE_INLINE void erts_free_message(ErtsMessage *mp);
ERTS_GLB_INLINE Uint erts_used_frag_sz(const ErlHeapFragment*);
ERTS_GLB_INLINE Uint erts_msg_attached_data_size(ErtsMessage *msg);
#define ERTS_MSG_COMBINED_HFRAG ((void *) 0x1)
#define erts_message_to_heap_frag(MP) \
(((MP)->data.attached == ERTS_MSG_COMBINED_HFRAG) ? \
&(MP)->hfrag : (MP)->data.heap_frag)
#if ERTS_GLB_INLINE_INCL_FUNC_DEF
ERTS_GLB_FORCE_INLINE ErtsMessage *erts_alloc_message(Uint sz, Eterm **hpp)
{
ErtsMessage *mp;
if (sz == 0) {
mp = erts_alloc_message_ref();
ERTS_INIT_MESSAGE(mp);
if (hpp)
*hpp = NULL;
return mp;
}
mp = erts_alloc(ERTS_ALC_T_MSG,
sizeof(ErtsMessage) + (sz - 1)*sizeof(Eterm));
ERTS_INIT_MESSAGE(mp);
mp->data.attached = ERTS_MSG_COMBINED_HFRAG;
ERTS_INIT_HEAP_FRAG(&mp->hfrag, sz, sz);
if (hpp)
*hpp = &mp->hfrag.mem[0];
return mp;
}
ERTS_GLB_FORCE_INLINE ErtsMessage *
erts_shrink_message(ErtsMessage *mp, Uint sz, Eterm *brefs, Uint brefs_size)
{
if (sz == 0) {
ErtsMessage *nmp;
if (!mp->data.attached)
return mp;
ASSERT(mp->data.attached == ERTS_MSG_COMBINED_HFRAG);
nmp = erts_alloc_message_ref();
#ifdef DEBUG
if (brefs && brefs_size) {
int i;
for (i = 0; i < brefs_size; i++)
ASSERT(is_non_value(brefs[i]) || is_immed(brefs[i]));
}
#endif
erts_free(ERTS_ALC_T_MSG, mp);
return nmp;
}
ASSERT(mp->data.attached == ERTS_MSG_COMBINED_HFRAG);
ASSERT(mp->hfrag.used_size >= sz);
if (sz >= (mp->hfrag.alloc_size - mp->hfrag.alloc_size / 16)) {
mp->hfrag.used_size = sz;
return mp;
}
return erts_realloc_shrink_message(mp, sz, brefs, brefs_size);
}
ERTS_GLB_FORCE_INLINE void erts_free_message(ErtsMessage *mp)
{
if (mp->data.attached != ERTS_MSG_COMBINED_HFRAG)
erts_free_message_ref(mp);
else
erts_free(ERTS_ALC_T_MSG, mp);
}
ERTS_GLB_INLINE Uint erts_used_frag_sz(const ErlHeapFragment* bp)
{
Uint sz = 0;
for ( ; bp!=NULL; bp=bp->next) {
sz += bp->used_size;
}
return sz;
}
ERTS_GLB_INLINE Uint erts_msg_attached_data_size(ErtsMessage *msg)
{
ASSERT(msg->data.attached);
if (is_value(ERL_MESSAGE_TERM(msg))) {
ErlHeapFragment *bp;
bp = erts_message_to_heap_frag(msg);
return erts_used_frag_sz(bp);
}
else if (msg->data.dist_ext->heap_size < 0)
return erts_msg_attached_data_size_aux(msg);
else {
Uint sz = msg->data.dist_ext->heap_size;
if (is_not_nil(ERL_MESSAGE_TOKEN(msg))) {
ErlHeapFragment *heap_frag;
heap_frag = erts_dist_ext_trailer(msg->data.dist_ext);
sz += heap_frag->used_size;
}
return sz;
}
}
#endif
Uint erts_mbuf_size(Process *p);
#if defined(DEBUG) || 0
# define ERTS_CHK_MBUF_SZ(P) \
do { \
Uint actual_mbuf_sz__ = erts_mbuf_size((P)); \
ERTS_ASSERT((P)->mbuf_sz >= actual_mbuf_sz__); \
} while (0)
#else
# define ERTS_CHK_MBUF_SZ(P) ((void) 1)
#endif
#define ERTS_FOREACH_SIG_PRIVQS(PROC, MVAR, CODE) \
do { \
int i__; \
ErtsMessage *msgs__[] = {(PROC)->sig_qs.first, \
(PROC)->sig_qs.cont}; \
for (i__ = 0; i__ < sizeof(msgs__)/sizeof(msgs__[0]); i__++) { \
ErtsMessage *MVAR; \
for (MVAR = msgs__[i__]; MVAR; MVAR = MVAR->next) { \
CODE; \
} \
} \
} while (0)
#endif
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