}
}
-
#ifdef REMOTE_BARRIERS
bit reader_barrier[NR_READERS];
:: (reader_barrier[get_readerid()] == 1) ->
smp_mb(i, j);
reader_barrier[get_readerid()] = 0;
- :: 1 -> skip;
+ :: 1 ->
+ /*
+ * Busy-looping waiting for other barrier requests are not considered as
+ * non-progress.
+ */
+#ifdef READER_PROGRESS
+progress_reader2:
+#endif
+ skip;
:: 1 -> break;
od;
}
-inline smp_mb_send(i, j)
-{
- smp_mb(i, j);
- i = 0;
- do
- :: i < NR_READERS ->
- reader_barrier[i] = 1;
- do
- :: (reader_barrier[i] == 1) -> skip;
- :: (reader_barrier[i] == 0) -> break;
- od;
- i++;
- :: i >= NR_READERS ->
- break
- od;
- smp_mb(i, j);
+#ifdef WRITER_PROGRESS
+#define PROGRESS_LABEL(progressid) progress_writer_progid_##progressid:
+#else
+#define PROGRESS_LABEL(progressid)
+#endif
+
+#define smp_mb_send(i, j, progressid) \
+{ \
+ smp_mb(i, j); \
+ i = 0; \
+ do \
+ :: i < NR_READERS -> \
+ reader_barrier[i] = 1; \
+ do \
+ :: (reader_barrier[i] == 1) -> \
+ /* \
+ * Busy-looping waiting for reader barrier handling is of little\
+ * interest, given the reader has the ability to totally ignore \
+ * barrier requests. \
+ */ \
+PROGRESS_LABEL(progressid) \
+ skip; \
+ :: (reader_barrier[i] == 0) -> break; \
+ od; \
+ i++; \
+ :: i >= NR_READERS -> \
+ break \
+ od; \
+ smp_mb(i, j); \
}
#else
-#define smp_mb_send smp_mb
+#define smp_mb_send(i, j, progressid) smp_mb(i, j)
#define smp_mb_reader smp_mb
#define smp_mb_recv(i, j)
#define READ_LOCK_NESTED_OUT (1 << 11)
#define READ_PROC_READ_GEN (1 << 12)
+#define READ_PROC_ACCESS_GEN (1 << 13)
-/* PROCEDURE_READ_UNLOCK (NESTED) base = << 13 : 13 to 14 */
-#define READ_UNLOCK_NESTED_BASE 13
-#define READ_UNLOCK_NESTED_OUT (1 << 14)
+/* PROCEDURE_READ_UNLOCK (NESTED) base = << 14 : 14 to 15 */
+#define READ_UNLOCK_NESTED_BASE 14
+#define READ_UNLOCK_NESTED_OUT (1 << 15)
-#define READ_PROC_SECOND_MB (1 << 15)
+#define READ_PROC_SECOND_MB (1 << 16)
-/* PROCEDURE_READ_UNLOCK base = << 16 : 16 to 17 */
-#define READ_UNLOCK_BASE 16
-#define READ_UNLOCK_OUT (1 << 17)
+/* PROCEDURE_READ_UNLOCK base = << 17 : 17 to 18 */
+#define READ_UNLOCK_BASE 17
+#define READ_UNLOCK_OUT (1 << 18)
-/* PROCEDURE_READ_LOCK_UNROLL base = << 18 : 18 to 22 */
-#define READ_LOCK_UNROLL_BASE 18
-#define READ_LOCK_OUT_UNROLL (1 << 22)
+/* PROCEDURE_READ_LOCK_UNROLL base = << 19 : 19 to 23 */
+#define READ_LOCK_UNROLL_BASE 19
+#define READ_LOCK_OUT_UNROLL (1 << 23)
-#define READ_PROC_THIRD_MB (1 << 23)
+#define READ_PROC_THIRD_MB (1 << 24)
-#define READ_PROC_READ_GEN_UNROLL (1 << 24)
+#define READ_PROC_READ_GEN_UNROLL (1 << 25)
+#define READ_PROC_ACCESS_GEN_UNROLL (1 << 26)
-#define READ_PROC_FOURTH_MB (1 << 25)
+#define READ_PROC_FOURTH_MB (1 << 27)
-/* PROCEDURE_READ_UNLOCK_UNROLL base = << 26 : 26 to 27 */
-#define READ_UNLOCK_UNROLL_BASE 26
-#define READ_UNLOCK_OUT_UNROLL (1 << 27)
+/* PROCEDURE_READ_UNLOCK_UNROLL base = << 28 : 28 to 29 */
+#define READ_UNLOCK_UNROLL_BASE 28
+#define READ_UNLOCK_OUT_UNROLL (1 << 29)
/* Should not include branches */
| READ_PROC_FIRST_MB \
| READ_LOCK_NESTED_OUT \
| READ_PROC_READ_GEN \
+ | READ_PROC_ACCESS_GEN \
| READ_UNLOCK_NESTED_OUT \
| READ_PROC_SECOND_MB \
| READ_UNLOCK_OUT \
| READ_LOCK_OUT_UNROLL \
| READ_PROC_THIRD_MB \
| READ_PROC_READ_GEN_UNROLL \
+ | READ_PROC_ACCESS_GEN_UNROLL \
| READ_PROC_FOURTH_MB \
| READ_UNLOCK_OUT_UNROLL)
/* Must clear all tokens, including branches */
-#define READ_PROC_ALL_TOKENS_CLEAR ((1 << 28) - 1)
+#define READ_PROC_ALL_TOKENS_CLEAR ((1 << 30) - 1)
inline urcu_one_read(i, j, nest_i, tmp, tmp2)
{
if
:: CONSUME_TOKENS(proc_urcu_reader, READ_PROD_NONE,
READ_LOCK_OUT | READ_LOCK_NESTED_OUT
- | READ_PROC_READ_GEN | READ_UNLOCK_NESTED_OUT
+ | READ_PROC_READ_GEN | READ_PROC_ACCESS_GEN | READ_UNLOCK_NESTED_OUT
| READ_UNLOCK_OUT
| READ_LOCK_OUT_UNROLL
- | READ_PROC_READ_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
+ | READ_PROC_READ_GEN_UNROLL | READ_PROC_ACCESS_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
|| CONSUME_TOKENS(proc_urcu_reader, READ_PROD_NONE | READ_LOCK_OUT,
READ_LOCK_NESTED_OUT
- | READ_PROC_READ_GEN | READ_UNLOCK_NESTED_OUT
+ | READ_PROC_READ_GEN | READ_PROC_ACCESS_GEN | READ_UNLOCK_NESTED_OUT
| READ_UNLOCK_OUT
| READ_LOCK_OUT_UNROLL
- | READ_PROC_READ_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
+ | READ_PROC_READ_GEN_UNROLL | READ_PROC_ACCESS_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
|| CONSUME_TOKENS(proc_urcu_reader, READ_PROD_NONE | READ_LOCK_OUT | READ_LOCK_NESTED_OUT,
- READ_PROC_READ_GEN | READ_UNLOCK_NESTED_OUT
+ READ_PROC_READ_GEN | READ_PROC_ACCESS_GEN | READ_UNLOCK_NESTED_OUT
| READ_UNLOCK_OUT
| READ_LOCK_OUT_UNROLL
- | READ_PROC_READ_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
+ | READ_PROC_READ_GEN_UNROLL | READ_PROC_ACCESS_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
|| CONSUME_TOKENS(proc_urcu_reader, READ_PROD_NONE | READ_LOCK_OUT
| READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN,
+ READ_PROC_ACCESS_GEN | READ_UNLOCK_NESTED_OUT
+ | READ_UNLOCK_OUT
+ | READ_LOCK_OUT_UNROLL
+ | READ_PROC_READ_GEN_UNROLL | READ_PROC_ACCESS_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
+ || CONSUME_TOKENS(proc_urcu_reader, READ_PROD_NONE | READ_LOCK_OUT
+ | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN | READ_PROC_ACCESS_GEN,
READ_UNLOCK_NESTED_OUT
| READ_UNLOCK_OUT
| READ_LOCK_OUT_UNROLL
- | READ_PROC_READ_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
+ | READ_PROC_READ_GEN_UNROLL | READ_PROC_ACCESS_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
|| CONSUME_TOKENS(proc_urcu_reader, READ_PROD_NONE | READ_LOCK_OUT
- | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN | READ_UNLOCK_NESTED_OUT,
+ | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN
+ | READ_PROC_ACCESS_GEN | READ_UNLOCK_NESTED_OUT,
READ_UNLOCK_OUT
| READ_LOCK_OUT_UNROLL
- | READ_PROC_READ_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
+ | READ_PROC_READ_GEN_UNROLL | READ_PROC_ACCESS_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
|| CONSUME_TOKENS(proc_urcu_reader, READ_PROD_NONE | READ_LOCK_OUT
- | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN | READ_UNLOCK_NESTED_OUT
+ | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN
+ | READ_PROC_ACCESS_GEN | READ_UNLOCK_NESTED_OUT
| READ_UNLOCK_OUT,
READ_LOCK_OUT_UNROLL
- | READ_PROC_READ_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
+ | READ_PROC_READ_GEN_UNROLL | READ_PROC_ACCESS_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
|| CONSUME_TOKENS(proc_urcu_reader, READ_PROD_NONE | READ_LOCK_OUT
- | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN | READ_UNLOCK_NESTED_OUT
+ | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN
+ | READ_PROC_ACCESS_GEN | READ_UNLOCK_NESTED_OUT
| READ_UNLOCK_OUT | READ_LOCK_OUT_UNROLL,
- READ_PROC_READ_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
+ READ_PROC_READ_GEN_UNROLL | READ_PROC_ACCESS_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
|| CONSUME_TOKENS(proc_urcu_reader, READ_PROD_NONE | READ_LOCK_OUT
- | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN | READ_UNLOCK_NESTED_OUT
+ | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN
+ | READ_PROC_ACCESS_GEN | READ_UNLOCK_NESTED_OUT
| READ_UNLOCK_OUT | READ_LOCK_OUT_UNROLL
| READ_PROC_READ_GEN_UNROLL,
+ READ_PROC_ACCESS_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL)
+ || CONSUME_TOKENS(proc_urcu_reader, READ_PROD_NONE | READ_LOCK_OUT
+ | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN
+ | READ_PROC_ACCESS_GEN | READ_UNLOCK_NESTED_OUT
+ | READ_UNLOCK_OUT | READ_LOCK_OUT_UNROLL
+ | READ_PROC_READ_GEN_UNROLL | READ_PROC_ACCESS_GEN_UNROLL,
READ_UNLOCK_OUT_UNROLL)
|| CONSUME_TOKENS(proc_urcu_reader, READ_PROD_NONE | READ_LOCK_OUT
- | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN | READ_UNLOCK_NESTED_OUT
+ | READ_LOCK_NESTED_OUT | READ_PROC_READ_GEN | READ_PROC_ACCESS_GEN | READ_UNLOCK_NESTED_OUT
| READ_UNLOCK_OUT | READ_LOCK_OUT_UNROLL
- | READ_PROC_READ_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL,
+ | READ_PROC_READ_GEN_UNROLL | READ_PROC_ACCESS_GEN_UNROLL | READ_UNLOCK_OUT_UNROLL,
0) ->
goto non_atomic3;
non_atomic3_end:
goto non_atomic3_skip;
non_atomic3:
- smp_mb_recv(i, j);
+ smp_mb_recv(i, j);
goto non_atomic3_end;
non_atomic3_skip:
ooo_mem(i);
read_generation[get_readerid()] =
READ_CACHED_VAR(generation_ptr);
+ PRODUCE_TOKENS(proc_urcu_reader, READ_PROC_READ_GEN);
+
+ :: CONSUME_TOKENS(proc_urcu_reader,
+ READ_PROC_FIRST_MB /* mb() orders reads */
+ | READ_PROC_READ_GEN,
+ READ_PROC_ACCESS_GEN) ->
+ ooo_mem(i);
goto non_atomic;
non_atomic_end:
- PRODUCE_TOKENS(proc_urcu_reader, READ_PROC_READ_GEN);
+ PRODUCE_TOKENS(proc_urcu_reader, READ_PROC_ACCESS_GEN);
+
/* Note : we remove the nested memory barrier from the read unlock
* model, given it is not usually needed. The implementation has the barrier
:: CONSUME_TOKENS(proc_urcu_reader,
- READ_PROC_READ_GEN /* mb() orders reads */
+ READ_PROC_ACCESS_GEN /* mb() orders reads */
+ | READ_PROC_READ_GEN /* mb() orders reads */
| READ_PROC_FIRST_MB /* mb() ordered */
| READ_LOCK_OUT /* post-dominant */
| READ_LOCK_NESTED_OUT /* post-dominant */
ooo_mem(i);
read_generation[get_readerid()] =
READ_CACHED_VAR(generation_ptr);
+ PRODUCE_TOKENS(proc_urcu_reader, READ_PROC_READ_GEN_UNROLL);
+
+ :: CONSUME_TOKENS(proc_urcu_reader,
+ READ_PROC_READ_GEN_UNROLL
+ | READ_PROC_FIRST_MB /* mb() orders reads */
+ | READ_PROC_SECOND_MB /* mb() orders reads */
+ | READ_PROC_THIRD_MB, /* mb() orders reads */
+ READ_PROC_ACCESS_GEN_UNROLL) ->
+ ooo_mem(i);
goto non_atomic2;
non_atomic2_end:
- PRODUCE_TOKENS(proc_urcu_reader, READ_PROC_READ_GEN_UNROLL);
+ PRODUCE_TOKENS(proc_urcu_reader, READ_PROC_ACCESS_GEN_UNROLL);
:: CONSUME_TOKENS(proc_urcu_reader,
READ_PROC_READ_GEN_UNROLL /* mb() orders reads */
+ | READ_PROC_ACCESS_GEN_UNROLL /* mb() orders reads */
| READ_PROC_FIRST_MB /* mb() ordered */
| READ_PROC_SECOND_MB /* mb() ordered */
| READ_PROC_THIRD_MB /* mb() ordered */
byte i, j;
byte tmp, tmp2, tmpa;
byte old_gen;
+ byte cur_gp_val = 0; /*
+ * Keep a local trace of the current parity so
+ * we don't add non-existing dependencies on the global
+ * GP update. Needed to test single flip case.
+ */
wait_init_done();
PRODUCE_TOKENS(proc_urcu_writer, WRITE_PROC_SECOND_READ_GP);
PRODUCE_TOKENS(proc_urcu_writer, WRITE_PROC_SECOND_WRITE_GP);
PRODUCE_TOKENS(proc_urcu_writer, WRITE_PROC_SECOND_WAIT);
+ /* For single flip, we need to know the current parity */
+ cur_gp_val = cur_gp_val ^ RCU_GP_CTR_BIT;
#endif
- do
+ do :: 1 ->
+ atomic {
+ if
:: CONSUME_TOKENS(proc_urcu_writer,
WRITE_PROD_NONE,
WRITE_PROC_FIRST_MB) ->
- smp_mb_send(i, j);
+ goto smp_mb_send1;
+smp_mb_send1_end:
PRODUCE_TOKENS(proc_urcu_writer, WRITE_PROC_FIRST_MB);
/* first flip */
ooo_mem(i);
/* ONLY WAITING FOR READER 0 */
tmp2 = READ_CACHED_VAR(urcu_active_readers[0]);
+#ifndef SINGLE_FLIP
+ /* In normal execution, we are always starting by
+ * waiting for the even parity.
+ */
+ cur_gp_val = RCU_GP_CTR_BIT;
+#endif
if
:: (tmp2 & RCU_GP_CTR_NEST_MASK)
- && ((tmp2 ^ RCU_GP_CTR_BIT) & RCU_GP_CTR_BIT) ->
+ && ((tmp2 ^ cur_gp_val) & RCU_GP_CTR_BIT) ->
PRODUCE_TOKENS(proc_urcu_writer, WRITE_PROC_FIRST_WAIT_LOOP);
:: else ->
PRODUCE_TOKENS(proc_urcu_writer, WRITE_PROC_FIRST_WAIT);
| WRITE_PROC_FIRST_MB, /* can be reordered before/after flips */
0) ->
#ifndef GEN_ERROR_WRITER_PROGRESS
- smp_mb_send(i, j);
+ goto smp_mb_send2;
+smp_mb_send2_end:
#else
ooo_mem(i);
#endif
| WRITE_PROC_FIRST_READ_GP
| WRITE_PROC_FIRST_MB,
WRITE_PROC_SECOND_READ_GP) ->
- //smp_mb_send(i, j); //TEST
ooo_mem(i);
tmpa = READ_CACHED_VAR(urcu_gp_ctr);
PRODUCE_TOKENS(proc_urcu_writer, WRITE_PROC_SECOND_READ_GP);
| WRITE_PROC_FIRST_MB, /* can be reordered before/after flips */
0) ->
#ifndef GEN_ERROR_WRITER_PROGRESS
- smp_mb_send(i, j);
+ goto smp_mb_send3;
+smp_mb_send3_end:
#else
ooo_mem(i);
#endif
| WRITE_PROC_SECOND_WRITE_GP
| WRITE_PROC_FIRST_MB,
WRITE_PROC_SECOND_MB) ->
- smp_mb_send(i, j);
+ goto smp_mb_send4;
+smp_mb_send4_end:
PRODUCE_TOKENS(proc_urcu_writer, WRITE_PROC_SECOND_MB);
:: CONSUME_TOKENS(proc_urcu_writer, WRITE_PROC_ALL_TOKENS, 0) ->
CLEAR_TOKENS(proc_urcu_writer, WRITE_PROC_ALL_TOKENS_CLEAR);
break;
+ fi;
+ }
od;
write_lock = 0;
#endif
skip;
od;
+
+ /* Non-atomic parts of the loop */
+ goto end;
+smp_mb_send1:
+ smp_mb_send(i, j, 1);
+ goto smp_mb_send1_end;
+#ifndef GEN_ERROR_WRITER_PROGRESS
+smp_mb_send2:
+ smp_mb_send(i, j, 2);
+ goto smp_mb_send2_end;
+smp_mb_send3:
+ smp_mb_send(i, j, 3);
+ goto smp_mb_send3_end;
+#endif
+smp_mb_send4:
+ smp_mb_send(i, j, 4);
+ goto smp_mb_send4_end;
+end:
+ skip;
}
/* no name clash please */