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1 | Started by Paul Jackson <pj@sgi.com> | ||
2 | |||
3 | The robust futex ABI | ||
4 | -------------------- | ||
5 | |||
6 | Robust_futexes provide a mechanism that is used in addition to normal | ||
7 | futexes, for kernel assist of cleanup of held locks on task exit. | ||
8 | |||
9 | The interesting data as to what futexes a thread is holding is kept on a | ||
10 | linked list in user space, where it can be updated efficiently as locks | ||
11 | are taken and dropped, without kernel intervention. The only additional | ||
12 | kernel intervention required for robust_futexes above and beyond what is | ||
13 | required for futexes is: | ||
14 | |||
15 | 1) a one time call, per thread, to tell the kernel where its list of | ||
16 | held robust_futexes begins, and | ||
17 | 2) internal kernel code at exit, to handle any listed locks held | ||
18 | by the exiting thread. | ||
19 | |||
20 | The existing normal futexes already provide a "Fast Userspace Locking" | ||
21 | mechanism, which handles uncontested locking without needing a system | ||
22 | call, and handles contested locking by maintaining a list of waiting | ||
23 | threads in the kernel. Options on the sys_futex(2) system call support | ||
24 | waiting on a particular futex, and waking up the next waiter on a | ||
25 | particular futex. | ||
26 | |||
27 | For robust_futexes to work, the user code (typically in a library such | ||
28 | as glibc linked with the application) has to manage and place the | ||
29 | necessary list elements exactly as the kernel expects them. If it fails | ||
30 | to do so, then improperly listed locks will not be cleaned up on exit, | ||
31 | probably causing deadlock or other such failure of the other threads | ||
32 | waiting on the same locks. | ||
33 | |||
34 | A thread that anticipates possibly using robust_futexes should first | ||
35 | issue the system call: | ||
36 | |||
37 | asmlinkage long | ||
38 | sys_set_robust_list(struct robust_list_head __user *head, size_t len); | ||
39 | |||
40 | The pointer 'head' points to a structure in the threads address space | ||
41 | consisting of three words. Each word is 32 bits on 32 bit arch's, or 64 | ||
42 | bits on 64 bit arch's, and local byte order. Each thread should have | ||
43 | its own thread private 'head'. | ||
44 | |||
45 | If a thread is running in 32 bit compatibility mode on a 64 native arch | ||
46 | kernel, then it can actually have two such structures - one using 32 bit | ||
47 | words for 32 bit compatibility mode, and one using 64 bit words for 64 | ||
48 | bit native mode. The kernel, if it is a 64 bit kernel supporting 32 bit | ||
49 | compatibility mode, will attempt to process both lists on each task | ||
50 | exit, if the corresponding sys_set_robust_list() call has been made to | ||
51 | setup that list. | ||
52 | |||
53 | The first word in the memory structure at 'head' contains a | ||
54 | pointer to a single linked list of 'lock entries', one per lock, | ||
55 | as described below. If the list is empty, the pointer will point | ||
56 | to itself, 'head'. The last 'lock entry' points back to the 'head'. | ||
57 | |||
58 | The second word, called 'offset', specifies the offset from the | ||
59 | address of the associated 'lock entry', plus or minus, of what will | ||
60 | be called the 'lock word', from that 'lock entry'. The 'lock word' | ||
61 | is always a 32 bit word, unlike the other words above. The 'lock | ||
62 | word' holds 3 flag bits in the upper 3 bits, and the thread id (TID) | ||
63 | of the thread holding the lock in the bottom 29 bits. See further | ||
64 | below for a description of the flag bits. | ||
65 | |||
66 | The third word, called 'list_op_pending', contains transient copy of | ||
67 | the address of the 'lock entry', during list insertion and removal, | ||
68 | and is needed to correctly resolve races should a thread exit while | ||
69 | in the middle of a locking or unlocking operation. | ||
70 | |||
71 | Each 'lock entry' on the single linked list starting at 'head' consists | ||
72 | of just a single word, pointing to the next 'lock entry', or back to | ||
73 | 'head' if there are no more entries. In addition, nearby to each 'lock | ||
74 | entry', at an offset from the 'lock entry' specified by the 'offset' | ||
75 | word, is one 'lock word'. | ||
76 | |||
77 | The 'lock word' is always 32 bits, and is intended to be the same 32 bit | ||
78 | lock variable used by the futex mechanism, in conjunction with | ||
79 | robust_futexes. The kernel will only be able to wakeup the next thread | ||
80 | waiting for a lock on a threads exit if that next thread used the futex | ||
81 | mechanism to register the address of that 'lock word' with the kernel. | ||
82 | |||
83 | For each futex lock currently held by a thread, if it wants this | ||
84 | robust_futex support for exit cleanup of that lock, it should have one | ||
85 | 'lock entry' on this list, with its associated 'lock word' at the | ||
86 | specified 'offset'. Should a thread die while holding any such locks, | ||
87 | the kernel will walk this list, mark any such locks with a bit | ||
88 | indicating their holder died, and wakeup the next thread waiting for | ||
89 | that lock using the futex mechanism. | ||
90 | |||
91 | When a thread has invoked the above system call to indicate it | ||
92 | anticipates using robust_futexes, the kernel stores the passed in 'head' | ||
93 | pointer for that task. The task may retrieve that value later on by | ||
94 | using the system call: | ||
95 | |||
96 | asmlinkage long | ||
97 | sys_get_robust_list(int pid, struct robust_list_head __user **head_ptr, | ||
98 | size_t __user *len_ptr); | ||
99 | |||
100 | It is anticipated that threads will use robust_futexes embedded in | ||
101 | larger, user level locking structures, one per lock. The kernel | ||
102 | robust_futex mechanism doesn't care what else is in that structure, so | ||
103 | long as the 'offset' to the 'lock word' is the same for all | ||
104 | robust_futexes used by that thread. The thread should link those locks | ||
105 | it currently holds using the 'lock entry' pointers. It may also have | ||
106 | other links between the locks, such as the reverse side of a double | ||
107 | linked list, but that doesn't matter to the kernel. | ||
108 | |||
109 | By keeping its locks linked this way, on a list starting with a 'head' | ||
110 | pointer known to the kernel, the kernel can provide to a thread the | ||
111 | essential service available for robust_futexes, which is to help clean | ||
112 | up locks held at the time of (a perhaps unexpectedly) exit. | ||
113 | |||
114 | Actual locking and unlocking, during normal operations, is handled | ||
115 | entirely by user level code in the contending threads, and by the | ||
116 | existing futex mechanism to wait for, and wakeup, locks. The kernels | ||
117 | only essential involvement in robust_futexes is to remember where the | ||
118 | list 'head' is, and to walk the list on thread exit, handling locks | ||
119 | still held by the departing thread, as described below. | ||
120 | |||
121 | There may exist thousands of futex lock structures in a threads shared | ||
122 | memory, on various data structures, at a given point in time. Only those | ||
123 | lock structures for locks currently held by that thread should be on | ||
124 | that thread's robust_futex linked lock list a given time. | ||
125 | |||
126 | A given futex lock structure in a user shared memory region may be held | ||
127 | at different times by any of the threads with access to that region. The | ||
128 | thread currently holding such a lock, if any, is marked with the threads | ||
129 | TID in the lower 29 bits of the 'lock word'. | ||
130 | |||
131 | When adding or removing a lock from its list of held locks, in order for | ||
132 | the kernel to correctly handle lock cleanup regardless of when the task | ||
133 | exits (perhaps it gets an unexpected signal 9 in the middle of | ||
134 | manipulating this list), the user code must observe the following | ||
135 | protocol on 'lock entry' insertion and removal: | ||
136 | |||
137 | On insertion: | ||
138 | 1) set the 'list_op_pending' word to the address of the 'lock word' | ||
139 | to be inserted, | ||
140 | 2) acquire the futex lock, | ||
141 | 3) add the lock entry, with its thread id (TID) in the bottom 29 bits | ||
142 | of the 'lock word', to the linked list starting at 'head', and | ||
143 | 4) clear the 'list_op_pending' word. | ||
144 | |||
145 | On removal: | ||
146 | 1) set the 'list_op_pending' word to the address of the 'lock word' | ||
147 | to be removed, | ||
148 | 2) remove the lock entry for this lock from the 'head' list, | ||
149 | 2) release the futex lock, and | ||
150 | 2) clear the 'lock_op_pending' word. | ||
151 | |||
152 | On exit, the kernel will consider the address stored in | ||
153 | 'list_op_pending' and the address of each 'lock word' found by walking | ||
154 | the list starting at 'head'. For each such address, if the bottom 29 | ||
155 | bits of the 'lock word' at offset 'offset' from that address equals the | ||
156 | exiting threads TID, then the kernel will do two things: | ||
157 | |||
158 | 1) if bit 31 (0x80000000) is set in that word, then attempt a futex | ||
159 | wakeup on that address, which will waken the next thread that has | ||
160 | used to the futex mechanism to wait on that address, and | ||
161 | 2) atomically set bit 30 (0x40000000) in the 'lock word'. | ||
162 | |||
163 | In the above, bit 31 was set by futex waiters on that lock to indicate | ||
164 | they were waiting, and bit 30 is set by the kernel to indicate that the | ||
165 | lock owner died holding the lock. | ||
166 | |||
167 | The kernel exit code will silently stop scanning the list further if at | ||
168 | any point: | ||
169 | |||
170 | 1) the 'head' pointer or an subsequent linked list pointer | ||
171 | is not a valid address of a user space word | ||
172 | 2) the calculated location of the 'lock word' (address plus | ||
173 | 'offset') is not the valud address of a 32 bit user space | ||
174 | word | ||
175 | 3) if the list contains more than 1 million (subject to | ||
176 | future kernel configuration changes) elements. | ||
177 | |||
178 | When the kernel sees a list entry whose 'lock word' doesn't have the | ||
179 | current threads TID in the lower 29 bits, it does nothing with that | ||
180 | entry, and goes on to the next entry. | ||
181 | |||
182 | Bit 29 (0x20000000) of the 'lock word' is reserved for future use. | ||