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Line 40... | Line 40... | ||
40 | #include <arch.h> |
40 | #include <arch.h> |
41 | #include <preemption.h> |
41 | #include <preemption.h> |
42 | #include <proc/thread.h> |
42 | #include <proc/thread.h> |
43 | 43 | ||
44 | //number of nodes in the list. The sum of the list will grow up to RCU_MAX_I^2 |
44 | //number of nodes in the list. The sum of the list will grow up to RCU_MAX_I^2 |
45 | #define RCU_MAX_I 500 |
45 | #define RCU_MAX_I 5000 |
46 | //number of reader and writer threads in the test |
46 | //number of reader and writer threads in the test |
47 | #define READER_THREADS 10 |
47 | #define READER_THREADS 10 |
48 | #define WRITER_THREADS 10 |
48 | #define WRITER_THREADS 10 |
49 | //a sleep separates iterations of reading |
49 | //a sleep separates iterations of reading |
50 | #define THREADS_SLEEP_LENGTH 50 |
50 | #define THREADS_SLEEP_LENGTH 50 |
Line 67... | Line 67... | ||
67 | static void reader(void* a) |
67 | static void reader(void* a) |
68 | { |
68 | { |
69 | a = (a); |
69 | a = (a); |
70 | data_t* cur; |
70 | data_t* cur; |
71 | int i = 0; |
71 | int i = 0; |
72 | while (true) |
72 | while (true) { |
73 | { |
- | |
74 | //entering read critical section |
73 | //entering read critical section |
75 | rcu_read_lock(); |
74 | rcu_read_lock(); |
76 | //proper dereferencing |
75 | //proper dereferencing |
77 | i = rcu_dereference_pointer(first).number; |
76 | i = rcu_dereference_pointer(first).number; |
78 | for (cur = rcu_dereference_pointer(first).next; cur != NULL; cur = cur->next) { |
77 | for (cur = rcu_dereference_pointer(first).next; cur != NULL; cur = cur->next) { |
79 | i += cur->number; |
78 | i += cur->number; |
80 | } |
79 | } |
81 | rcu_read_unlock(); |
80 | rcu_read_unlock(); |
82 | if (i>RCU_MAX_I*RCU_MAX_I || cfinished>0) |
81 | if (i>RCU_MAX_I*RCU_MAX_I || cfinished>0) { |
83 | { |
82 | if (!gquiet) |
84 | printf("@"); |
83 | printf("@"); |
85 | break; |
84 | break; |
86 | } |
85 | } |
87 | thread_usleep(THREADS_SLEEP_LENGTH); |
86 | thread_usleep(THREADS_SLEEP_LENGTH); |
88 | } |
87 | } |
- | 88 | //we must achieve some kind of synchronization gcc wont emit inc [cfinished] |
|
- | 89 | spinlock_lock(&write_lock); |
|
89 | cfinished++; |
90 | cfinished++; |
- | 91 | spinlock_unlock(&write_lock); |
|
90 | } |
92 | } |
91 | 93 | ||
92 | static void writer(void* a) |
94 | static void writer(void* a) |
93 | { |
95 | { |
94 | a = (a); |
96 | a = (a); |
95 | data_t* cur; |
97 | data_t* cur; |
96 | data_t* newdata; |
98 | data_t* newdata; |
97 | data_t* oldata; |
99 | data_t* oldata; |
98 | rcu_callback_list_t* rcudata; |
100 | rcu_callback_list_t* rcudata; |
99 | int i = 0; |
101 | int i = 0; |
100 | while (true) |
102 | while (true) { |
101 | { |
- | |
102 | //we must allocate the rcu structure each time, because it gets freed after the callback |
103 | //we must allocate the rcu structure each time, because it gets freed after the callback |
103 | //we allocate it outside any critical section, as it could block |
104 | //we allocate it outside any critical section, as it could block |
104 | rcudata = malloc(sizeof(rcu_callback_list_t),0); |
105 | rcudata = malloc(sizeof(rcu_callback_list_t),0); |
105 | rcu_read_lock(); |
106 | rcu_read_lock(); |
106 | i = rcu_dereference_pointer(first).number; |
107 | i = rcu_dereference_pointer(first).number; |
107 | for (cur = rcu_dereference_pointer(first).next; cur != NULL; cur = cur->next) { |
108 | for (cur = rcu_dereference_pointer(first).next; cur != NULL; cur = cur->next) { |
108 | i += cur->number; |
109 | i += cur->number; |
109 | } |
110 | } |
110 | rcu_read_unlock(); |
111 | rcu_read_unlock(); |
111 | if (!gquiet) |
112 | if (!gquiet && false) |
112 | printf("i%d ",i); |
113 | printf("i%d ",i); |
113 | if (i>RCU_MAX_I*RCU_MAX_I || cfinished>0) |
114 | if (i>RCU_MAX_I*RCU_MAX_I || cfinished>0) { |
114 | { |
115 | if (!gquiet) |
115 | printf("!"); |
116 | printf("!"); |
116 | break; |
117 | break; |
117 | } |
118 | } |
118 | 119 | ||
119 | //insert a new member |
120 | //insert a new member |
120 | newdata = malloc(sizeof(data_t),0); |
121 | newdata = malloc(sizeof(data_t),0); |
121 | newdata->number = (i/(RCU_MAX_I/2))+1; |
122 | newdata->number = (i/(RCU_MAX_I/2))+1; |
122 | rcu_read_lock(); |
- | |
123 | //we have to acquire the lock for writing to the structure |
123 | //we have to acquire the lock for writing to the structure |
124 | spinlock_lock(&write_lock); |
124 | spinlock_lock(&write_lock); |
125 | newdata->next = first; |
125 | newdata->next = first; |
126 | //rcu_assign_pointer takes care of the necessary write barriers |
126 | //rcu_assign_pointer takes care of the necessary write barriers |
127 | rcu_assign_pointer(first, newdata); |
127 | rcu_assign_pointer(first, newdata); |
128 | if (!gquiet) |
128 | if (!gquiet && false) |
129 | printf("prepending:%x,n:%d ", newdata, newdata->number); |
129 | printf("prepending:%x,n:%d ", newdata, newdata->number); |
130 | spinlock_unlock(&write_lock); |
130 | spinlock_unlock(&write_lock); |
131 | rcu_read_unlock(); |
- | |
132 | 131 | ||
133 | 132 | ||
134 | //replace a random member |
133 | //replace a random member |
135 | rcu_read_lock(); |
- | |
136 | //we have to lock the spinlock now, because we'll use the cur pointer later |
134 | //we have to lock the spinlock now, because we'll use the cur pointer later |
137 | //RCU doesn't provide guarantee that cur->next will point to a member of the list |
135 | //RCU doesn't provide guarantee that cur->next will point to a member of the list |
138 | //note that read critical section DOES guarantee that the *cur will be allocated space |
136 | //note that read critical section DOES guarantee that the *cur will be allocated space |
139 | //with current or past version of some member of the list |
137 | //with current or past version of some member of the list |
140 | //However, that is not sufficient as we would be changing old version, which would be freed later on |
138 | //However, that is not sufficient as we would be changing old version, which would be freed later on |
Line 142... | Line 140... | ||
142 | for (cur = first; cur->next != NULL && cur->next->number >= (i/(RCU_MAX_I/2)); cur = rcu_dereference_pointer(cur).next) { |
140 | for (cur = first; cur->next != NULL && cur->next->number >= (i/(RCU_MAX_I/2)); cur = rcu_dereference_pointer(cur).next) { |
143 | } |
141 | } |
144 | if (cur->next != NULL) { |
142 | if (cur->next != NULL) { |
145 | newdata = malloc(sizeof(data_t),0); |
143 | newdata = malloc(sizeof(data_t),0); |
146 | //the change of number member could be done atomically, its here just to simulate some real work |
144 | //the change of number member could be done atomically, its here just to simulate some real work |
147 | newdata->number = (i/(RCU_MAX_I/2))+5; |
145 | newdata->number = (i/(RCU_MAX_I/2))+10; |
148 | newdata->next = cur->next->next; |
146 | newdata->next = cur->next->next; |
149 | oldata = cur->next; |
147 | oldata = cur->next; |
150 | if (!gquiet) |
148 | if (!gquiet && false) |
151 | printf("free:%x,n:%d ", cur->next, cur->next->number); |
149 | printf("free:%x,n:%d ", cur->next, cur->next->number); |
152 | rcu_assign_pointer(cur->next, newdata); |
150 | rcu_assign_pointer(cur->next, newdata); |
153 | //free the old member when it is safe (i.e. no references are held) |
151 | //free the old member when it is safe (i.e. no references are held) |
154 | rcu_sync_callback(&rcu_callback_free, oldata, rcudata); |
152 | rcu_sync_callback(&rcu_callback_free, oldata, rcudata); |
155 | spinlock_unlock(&write_lock); |
153 | spinlock_unlock(&write_lock); |
156 | } |
154 | } |
157 | rcu_read_unlock(); |
- | |
158 | } |
155 | } |
- | 156 | //we must achieve some kind of synchronization gcc wont emit inc [cfinished] |
|
- | 157 | spinlock_lock(&write_lock); |
|
159 | cfinished++; |
158 | cfinished++; |
- | 159 | spinlock_unlock(&write_lock); |
|
160 | } |
160 | } |
161 | 161 | ||
162 | char * test_rcu1(bool quiet) |
162 | char * test_rcu1(bool quiet) |
163 | { |
163 | { |
164 | gquiet = quiet; |
164 | gquiet = quiet; |
Line 193... | Line 193... | ||
193 | if (t != NULL) |
193 | if (t != NULL) |
194 | thread_ready(t); |
194 | thread_ready(t); |
195 | } |
195 | } |
196 | //wait for completion |
196 | //wait for completion |
197 | while (cfinished<WRITER_THREADS+READER_THREADS); |
197 | while (cfinished<WRITER_THREADS+READER_THREADS); |
- | 198 | if (!gquiet) |
|
198 | printf("\nfinished all threads!\n"); |
199 | printf("\nfinished all threads!\n"); |
199 | //free the list |
200 | //free the list |
200 | for(cur=first->next;cur!=NULL;) { |
201 | for(cur=first->next;cur!=NULL;) { |
201 | oldata = cur->next; |
202 | oldata = cur->next; |
202 | free(cur); |
203 | free(cur); |
203 | cur = oldata; |
204 | cur = oldata; |