| /linux-6.1.9/tools/perf/scripts/perl/ |
| D | rw-by-pid.pl | 22 my %writes;
58 $writes{$common_pid}{errors}{$ret}++;
68 $writes{$common_pid}{bytes_written} += $count;
69 $writes{$common_pid}{total_writes}++;
70 $writes{$common_pid}{comm} = $common_comm;
123 foreach my $pid (sort { ($writes{$b}{bytes_written} || 0) <=>
124 ($writes{$a}{bytes_written} || 0)} keys %writes) {
125 my $comm = $writes{$pid}{comm} || "";
126 my $total_writes = $writes{$pid}{total_writes} || 0;
127 my $bytes_written = $writes{$pid}{bytes_written} || 0;
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| D | rwtop.pl | 28 my %writes;
75 $writes{$common_pid}{errors}{$ret}++;
87 $writes{$common_pid}{bytes_written} += $count;
88 $writes{$common_pid}{total_writes}++;
89 $writes{$common_pid}{comm} = $common_comm;
160 foreach my $pid (sort { ($writes{$b}{bytes_written} || 0) <=>
161 ($writes{$a}{bytes_written} || 0)} keys %writes) {
162 my $comm = $writes{$pid}{comm} || "";
163 my $total_writes = $writes{$pid}{total_writes} || 0;
164 my $bytes_written = $writes{$pid}{bytes_written} || 0;
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| D | rw-by-file.pl | 26 my %writes;
45 $writes{$fd}{bytes_written} += $count;
46 $writes{$fd}{total_writes}++;
69 foreach my $fd (sort {$writes{$b}{bytes_written} <=>
70 $writes{$a}{bytes_written}} keys %writes) {
71 my $total_writes = $writes{$fd}{total_writes};
72 my $bytes_written = $writes{$fd}{bytes_written};
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| /linux-6.1.9/tools/io_uring/ |
| D | io_uring-cp.c | 125 unsigned long reads, writes; in copy_file() local
131 writes = reads = offset = 0; in copy_file()
143 if (reads + writes >= QD) in copy_file()
219 writes++; in copy_file()
222 writes--; in copy_file()
229 while (writes) { in copy_file()
243 writes--; in copy_file()
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| /linux-6.1.9/Documentation/driver-api/ |
| D | io_ordering.rst | 2 Ordering I/O writes to memory-mapped addresses
6 platforms, driver writers are responsible for ensuring that I/O writes to
9 chipset to flush pending writes to the device before any reads are posted. A
12 subsequent writes to I/O space arrived only after all prior writes (much like a
50 pending writes before actually posting the read to the chipset, preventing
|
| D | device-io.rst | 76 are burned by the fact that PCI bus writes are posted asynchronously. A
78 writes have occurred in the specific cases the author cares. This kind
107 outstanding DMA writes from that bus, since for some devices the result of
110 next readb() call has no relation to any previous DMA writes
176 Note that posted writes are not strictly ordered against a spinlock, see
305 * Uncached - CPU-side caches are bypassed, and all reads and writes are handled
313 * No repetition - The CPU may not issue multiple reads or writes for a single
316 being issued to the device, and multiple writes are not combined into larger
317 writes. This may or may not be enforced when using __raw I/O accessors or
323 On many platforms and buses (e.g. PCI), writes issued through ioremap()
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| /linux-6.1.9/Documentation/filesystems/ |
| D | fuse-io.rst | 17 In direct-io mode the page cache is completely bypassed for reads and writes.
22 after any writes to the file. All mmap modes are supported.
24 The cached mode has two sub modes controlling how writes are handled. The
31 uncached, but fully written pages). No READ requests are ever sent for writes,
34 In writeback-cache mode (enabled by the FUSE_WRITEBACK_CACHE flag) writes go to
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| /linux-6.1.9/Documentation/ABI/testing/ |
| D | sysfs-block-bcache | 55 Sum of all reads and writes that have bypassed the cache (due
64 writes will be buffered in the cache. When off, caching is in
65 writethrough mode; reads and writes will be added to the
74 used to buffer writes until it is mostly full, at which point
75 writes transparently revert to writethrough mode. Intended only
94 place and reducing total number of writes sent to the backing
102 switched on and off. In synchronous mode all writes are ordered
104 if disabled bcache will not generally wait for writes to
156 For a cache, sum of all btree writes in human readable units.
|
| D | procfs-diskstats | 17 8 writes completed
18 9 writes merged
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| D | sysfs-devices-platform-docg3 | 10 writes or both.
27 writes or both.
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| /linux-6.1.9/arch/riscv/include/asm/ |
| D | io.h | 108 __io_writes_outs(writes, u8, b, __io_bw(), __io_aw())
109 __io_writes_outs(writes, u16, w, __io_bw(), __io_aw())
110 __io_writes_outs(writes, u32, l, __io_bw(), __io_aw())
129 __io_writes_outs(writes, u64, q, __io_bw(), __io_aw())
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| /linux-6.1.9/Documentation/driver-api/md/ |
| D | raid5-cache.rst | 19 In both modes, all writes to the array will hit cache disk first. This means
28 disks and it's possible the writes don't hit all RAID disks yet before the
53 write. For non-full-stripe writes, MD must read old data before the new parity
54 can be calculated. These synchronous reads hurt write throughput. Some writes
90 order in which MD writes data to cache disk and RAID disks. Specifically, in
91 write-through mode, MD calculates parity for IO data, writes both IO data and
92 parity to the log, writes the data and parity to RAID disks after the data and
96 In write-back mode, MD writes IO data to the log and reports IO completion. The
110 they are discarded too. MD then loads valid data and writes them to RAID disks
|
| /linux-6.1.9/Documentation/block/ |
| D | kyber-iosched.rst | 6 reads and synchronous writes. Kyber will throttle requests in order to meet
15 Target latency for synchronous writes (in nanoseconds).
|
| D | deadline-iosched.rst | 29 Similar to read_expire mentioned above, but for writes.
51 don't want to starve writes indefinitely either. So writes_starved controls
52 how many times we give preference to reads over writes. When that has been
53 done writes_starved number of times, we dispatch some writes based on the
|
| /linux-6.1.9/Documentation/admin-guide/ |
| D | iostats.rst | 68 Field 2 -- # of reads merged, field 6 -- # of writes merged (unsigned long)
69 Reads and writes which are adjacent to each other may be merged for
81 Field 5 -- # of writes completed (unsigned long)
82 This is the total number of writes completed successfully.
84 Field 6 -- # of writes merged (unsigned long)
91 This is the total number of milliseconds spent by all writes (as
168 Field 3 -- # of writes issued
169 This is the total number of writes issued to this partition.
183 reads/writes before merges for partitions and after for disks. Since a
185 the number of reads/writes issued can be several times higher than the
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| /linux-6.1.9/Documentation/admin-guide/device-mapper/ |
| D | delay.rst | 5 Device-Mapper's "delay" target delays reads and/or writes
30 # splitting reads and writes to different devices $1 $2
|
| D | writecache.rst | 5 The writecache target caches writes on persistent memory or on SSD. It
37 when the application writes this amount of blocks without
58 new writes (however, writes to already cached blocks are
60 writes) and it will gradually writeback any cached
|
| D | log-writes.rst | 2 dm-log-writes
59 log-writes <dev_path> <log_dev_path>
93 Every log has a mark at the end labeled "dm-log-writes-end".
99 It can be found here: https://github.com/josefbacik/log-writes
107 TABLE="0 $(blockdev --getsz /dev/sdb) log-writes /dev/sdb /dev/sdc"
127 TABLE="0 $(blockdev --getsz /dev/sdb) log-writes /dev/sdb /dev/sdc"
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| /linux-6.1.9/tools/memory-model/litmus-tests/ |
| D | IRIW+poonceonces+OnceOnce.litmus | 6 * Test of independent reads from independent writes with nothing
9 * of a pair of writes, where each write is to a different variable by a
|
| D | IRIW+fencembonceonces+OnceOnce.litmus | 6 * Test of independent reads from independent writes with smp_mb()
9 * of writes, where each write is to a different variable by a different
|
| D | README | 21 successive writes to the same variable are ordered.
24 Test of independent reads from independent writes with smp_mb()
27 the order of a pair of writes, where each write is to a different
32 Test of independent reads from independent writes with nothing
35 order of a pair of writes, where each write is to a different
55 of two variables then writes to the other?
60 writes to the other?
104 process writes data and then a flag, and the other process reads
182 For example, if the one process writes to a pair of variables, and
|
| /linux-6.1.9/lib/ |
| D | Kconfig.kcsan | 200 particular reordered writes.
215 bool "Assume that plain aligned writes up to word size are atomic"
219 Assume that plain aligned writes up to word size are atomic by
223 writes up to word size: conflicts between marked reads and plain
224 aligned writes up to word size will not be reported as data races;
225 notice that data races between two conflicting plain aligned writes
234 writes will never be reported as a data race, however, will cause
235 plain reads and marked writes to result in "unknown origin" reports.
241 accesses, conflicting marked atomic reads and plain writes will not
243 due to two conflicting plain writes will be reported (aligned and
|
| /linux-6.1.9/Documentation/litmus-tests/rcu/ |
| D | RCU+sync+free.litmus | 7 * follows a grace period, if it did not see writes that precede that grace
11 * period assigns a pointer, and the writes following the grace period destroy
|
| /linux-6.1.9/drivers/md/ |
| D | dm-raid1.c | 61 struct bio_list writes; member
127 bl = (rw == WRITE) ? &ms->writes : &ms->reads; in queue_bio()
677 static void do_writes(struct mirror_set *ms, struct bio_list *writes) in do_writes() argument
686 if (!writes->head) in do_writes()
697 while ((bio = bio_list_pop(writes))) { in do_writes()
737 bio_list_merge(&ms->writes, &requeue); in do_writes()
852 struct bio_list reads, writes, failures; in do_mirror() local
857 writes = ms->writes; in do_mirror()
860 bio_list_init(&ms->writes); in do_mirror()
867 do_writes(ms, &writes); in do_mirror()
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| /linux-6.1.9/Documentation/ABI/obsolete/ |
| D | sysfs-selinux-checkreqprot | 22 but will discard writes of the "0" value and will reject writes of the
|