| /Linux-v5.4/include/trace/events/ |
| D | 9p.h | 11 EM( P9_TLERROR, "P9_TLERROR" ) \
12 EM( P9_RLERROR, "P9_RLERROR" ) \
13 EM( P9_TSTATFS, "P9_TSTATFS" ) \
14 EM( P9_RSTATFS, "P9_RSTATFS" ) \
15 EM( P9_TLOPEN, "P9_TLOPEN" ) \
16 EM( P9_RLOPEN, "P9_RLOPEN" ) \
17 EM( P9_TLCREATE, "P9_TLCREATE" ) \
18 EM( P9_RLCREATE, "P9_RLCREATE" ) \
19 EM( P9_TSYMLINK, "P9_TSYMLINK" ) \
20 EM( P9_RSYMLINK, "P9_RSYMLINK" ) \
[all …]
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| D | afs.h | 231 EM(afs_call_trace_alloc, "ALLOC") \
232 EM(afs_call_trace_free, "FREE ") \
233 EM(afs_call_trace_get, "GET ") \
234 EM(afs_call_trace_put, "PUT ") \
235 EM(afs_call_trace_wake, "WAKE ") \
239 EM(afs_server_trace_alloc, "ALLOC ") \
240 EM(afs_server_trace_callback, "CALLBACK ") \
241 EM(afs_server_trace_destroy, "DESTROY ") \
242 EM(afs_server_trace_free, "FREE ") \
243 EM(afs_server_trace_gc, "GC ") \
[all …]
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| D | rxrpc.h | 228 EM(rxrpc_skb_cleaned, "CLN") \
229 EM(rxrpc_skb_freed, "FRE") \
230 EM(rxrpc_skb_got, "GOT") \
231 EM(rxrpc_skb_lost, "*L*") \
232 EM(rxrpc_skb_new, "NEW") \
233 EM(rxrpc_skb_purged, "PUR") \
234 EM(rxrpc_skb_received, "RCV") \
235 EM(rxrpc_skb_rotated, "ROT") \
236 EM(rxrpc_skb_seen, "SEE") \
237 EM(rxrpc_skb_unshared, "UNS") \
[all …]
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| D | huge_memory.h | 11 EM( SCAN_FAIL, "failed") \
12 EM( SCAN_SUCCEED, "succeeded") \
13 EM( SCAN_PMD_NULL, "pmd_null") \
14 EM( SCAN_EXCEED_NONE_PTE, "exceed_none_pte") \
15 EM( SCAN_PTE_NON_PRESENT, "pte_non_present") \
16 EM( SCAN_PAGE_RO, "no_writable_page") \
17 EM( SCAN_LACK_REFERENCED_PAGE, "lack_referenced_page") \
18 EM( SCAN_PAGE_NULL, "page_null") \
19 EM( SCAN_SCAN_ABORT, "scan_aborted") \
20 EM( SCAN_PAGE_COUNT, "not_suitable_page_count") \
[all …]
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| D | mmflags.h | 173 EM( COMPACT_SKIPPED, "skipped") \
174 EM( COMPACT_DEFERRED, "deferred") \
175 EM( COMPACT_CONTINUE, "continue") \
176 EM( COMPACT_SUCCESS, "success") \
177 EM( COMPACT_PARTIAL_SKIPPED, "partial_skipped") \
178 EM( COMPACT_COMPLETE, "complete") \
179 EM( COMPACT_NO_SUITABLE_PAGE, "no_suitable_page") \
180 EM( COMPACT_NOT_SUITABLE_ZONE, "not_suitable_zone") \
196 EM(COMPACTION_FAILED, "failed") \
197 EM(COMPACTION_WITHDRAWN, "withdrawn") \
[all …]
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| D | fscache.h | 89 EM(fscache_cookie_collision, "*COLLISION*") \
90 EM(fscache_cookie_discard, "DISCARD") \
91 EM(fscache_cookie_get_acquire_parent, "GET prn") \
92 EM(fscache_cookie_get_attach_object, "GET obj") \
93 EM(fscache_cookie_get_reacquire, "GET raq") \
94 EM(fscache_cookie_get_register_netfs, "GET net") \
95 EM(fscache_cookie_put_acquire_nobufs, "PUT nbf") \
96 EM(fscache_cookie_put_dup_netfs, "PUT dnt") \
97 EM(fscache_cookie_put_relinquish, "PUT rlq") \
98 EM(fscache_cookie_put_object, "PUT obj") \
[all …]
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| D | migrate.h | 11 EM( MIGRATE_ASYNC, "MIGRATE_ASYNC") \
12 EM( MIGRATE_SYNC_LIGHT, "MIGRATE_SYNC_LIGHT") \
17 EM( MR_COMPACTION, "compaction") \
18 EM( MR_MEMORY_FAILURE, "memory_failure") \
19 EM( MR_MEMORY_HOTPLUG, "memory_hotplug") \
20 EM( MR_SYSCALL, "syscall_or_cpuset") \
21 EM( MR_MEMPOLICY_MBIND, "mempolicy_mbind") \
22 EM( MR_NUMA_MISPLACED, "numa_misplaced") \
29 #undef EM
31 #define EM(a, b) TRACE_DEFINE_ENUM(a); macro
[all …]
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| D | v4l2.h | 12 #undef EM
14 #define EM(a, b) TRACE_DEFINE_ENUM(a); macro
21 EM( V4L2_BUF_TYPE_VIDEO_CAPTURE, "VIDEO_CAPTURE" ) \
22 EM( V4L2_BUF_TYPE_VIDEO_OUTPUT, "VIDEO_OUTPUT" ) \
23 EM( V4L2_BUF_TYPE_VIDEO_OVERLAY, "VIDEO_OVERLAY" ) \
24 EM( V4L2_BUF_TYPE_VBI_CAPTURE, "VBI_CAPTURE" ) \
25 EM( V4L2_BUF_TYPE_VBI_OUTPUT, "VBI_OUTPUT" ) \
26 EM( V4L2_BUF_TYPE_SLICED_VBI_CAPTURE, "SLICED_VBI_CAPTURE" ) \
27 EM( V4L2_BUF_TYPE_SLICED_VBI_OUTPUT, "SLICED_VBI_OUTPUT" ) \
28 EM( V4L2_BUF_TYPE_VIDEO_OUTPUT_OVERLAY, "VIDEO_OUTPUT_OVERLAY" ) \
[all …]
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| D | sock.h | 15 EM(AF_INET) \
20 EM(IPPROTO_TCP) \
21 EM(IPPROTO_DCCP) \
25 EM(TCP_ESTABLISHED) \
26 EM(TCP_SYN_SENT) \
27 EM(TCP_SYN_RECV) \
28 EM(TCP_FIN_WAIT1) \
29 EM(TCP_FIN_WAIT2) \
30 EM(TCP_TIME_WAIT) \
31 EM(TCP_CLOSE) \
[all …]
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| D | tlb.h | 12 EM( TLB_FLUSH_ON_TASK_SWITCH, "flush on task switch" ) \
13 EM( TLB_REMOTE_SHOOTDOWN, "remote shootdown" ) \
14 EM( TLB_LOCAL_SHOOTDOWN, "local shootdown" ) \
15 EM( TLB_LOCAL_MM_SHOOTDOWN, "local mm shootdown" ) \
22 #undef EM
24 #define EM(a,b) TRACE_DEFINE_ENUM(a); macro
33 #undef EM
35 #define EM(a,b) { a, b }, macro
|
| D | cachefiles.h | 33 EM(FSCACHE_OBJECT_IS_STALE, "stale") \
34 EM(FSCACHE_OBJECT_NO_SPACE, "no_space") \
35 EM(FSCACHE_OBJECT_WAS_RETIRED, "was_retired") \
39 EM(fscache_obj_get_add_to_deps, "GET add_to_deps") \
40 EM(fscache_obj_get_queue, "GET queue") \
41 EM(fscache_obj_put_alloc_fail, "PUT alloc_fail") \
42 EM(fscache_obj_put_attach_fail, "PUT attach_fail") \
43 EM(fscache_obj_put_drop_obj, "PUT drop_obj") \
44 EM(fscache_obj_put_enq_dep, "PUT enq_dep") \
45 EM(fscache_obj_put_queue, "PUT queue") \
[all …]
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| D | ufs.h | 15 EM(UIC_LINK_OFF_STATE) \
16 EM(UIC_LINK_ACTIVE_STATE) \
20 EM(UFS_ACTIVE_PWR_MODE) \
21 EM(UFS_SLEEP_PWR_MODE) \
25 EM(CLKS_OFF) \
26 EM(CLKS_ON) \
27 EM(REQ_CLKS_OFF) \
31 #undef EM
33 #define EM(a) TRACE_DEFINE_ENUM(a); macro
44 #undef EM
[all …]
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| D | sunrpc.h | 505 #undef EM
507 #define EM(a, b) TRACE_DEFINE_ENUM(a); macro
511 EM( SS_FREE, "FREE" ) \
512 EM( SS_UNCONNECTED, "UNCONNECTED" ) \
513 EM( SS_CONNECTING, "CONNECTING," ) \
514 EM( SS_CONNECTED, "CONNECTED," ) \
523 EM( TCP_ESTABLISHED, "ESTABLISHED" ) \
524 EM( TCP_SYN_SENT, "SYN_SENT" ) \
525 EM( TCP_SYN_RECV, "SYN_RECV" ) \
526 EM( TCP_FIN_WAIT1, "FIN_WAIT1" ) \
[all …]
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| D | writeback.h | 28 #undef EM
30 #define EM(a,b) TRACE_DEFINE_ENUM(a); macro
34 EM( WB_REASON_BACKGROUND, "background") \
35 EM( WB_REASON_VMSCAN, "vmscan") \
36 EM( WB_REASON_SYNC, "sync") \
37 EM( WB_REASON_PERIODIC, "periodic") \
38 EM( WB_REASON_LAPTOP_TIMER, "laptop_timer") \
39 EM( WB_REASON_FREE_MORE_MEM, "free_more_memory") \
40 EM( WB_REASON_FS_FREE_SPACE, "fs_free_space") \
49 #undef EM
[all …]
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| /Linux-v5.4/include/ras/ |
| D | ras_event.h | 351 EM ( MF_IGNORED, "Ignored" ) \
352 EM ( MF_FAILED, "Failed" ) \
353 EM ( MF_DELAYED, "Delayed" ) \
357 EM ( MF_MSG_KERNEL, "reserved kernel page" ) \
358 EM ( MF_MSG_KERNEL_HIGH_ORDER, "high-order kernel page" ) \
359 EM ( MF_MSG_SLAB, "kernel slab page" ) \
360 EM ( MF_MSG_DIFFERENT_COMPOUND, "different compound page after locking" ) \
361 EM ( MF_MSG_POISONED_HUGE, "huge page already hardware poisoned" ) \
362 EM ( MF_MSG_HUGE, "huge page" ) \
363 EM ( MF_MSG_FREE_HUGE, "free huge page" ) \
[all …]
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| /Linux-v5.4/Documentation/power/ |
| D | energy-model.rst | 8 The Energy Model (EM) framework serves as an interface between drivers knowing
17 possible source of information on its own, the EM framework intervenes as an
22 approach is applicable to any architecture) providing power costs to the EM
50 The EM framework manages power cost tables per 'performance domain' in the
64 CONFIG_ENERGY_MODEL must be enabled to use the EM framework.
70 Drivers are expected to register performance domains into the EM framework by
105 EM framework::
123 15 /* Return the values to the EM framework */
|
| /Linux-v5.4/Documentation/scheduler/ |
| D | sched-energy.rst | 10 Energy Model (EM) of the CPUs to select an energy efficient CPU for each task,
23 The actual EM used by EAS is _not_ maintained by the scheduler, but by a
53 The idea behind introducing an EM is to allow the scheduler to evaluate the
56 time, the EM must be as simple as possible to minimize the scheduler latency
60 for the scheduler to decide where a task should run (during wake-up), the EM
83 Model (EM) framework. The EM of a platform is composed of a power cost table
87 The scheduler manages references to the EM objects in the topology code when the
91 em_perf_domain as provided by the EM framework.
117 shared data structure of the EM framework.
131 EAS overrides the CFS task wake-up balancing code. It uses the EM of the
[all …]
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| /Linux-v5.4/Documentation/ABI/testing/ |
| D | sysfs-class-scsi_host | 103 (RW) Allows access to AHCI EM (enclosure management) buffer
104 directly if the host supports EM.
106 For eg. the AHCI driver supports SGPIO EM messages but the
107 SATA/AHCI specs do not define the SGPIO message format of the EM
|
| /Linux-v5.4/Documentation/infiniband/ |
| D | opa_vnic.rst | 21 Ethernet Manager (EM) which is part of the trusted Fabric Manager (FM)
125 Manager (EM) and the VNIC netdev. The VNIC netdev part allocates and frees
130 information required for encapsulation is configured by the EM via VEMA MAD
|
| /Linux-v5.4/sound/soc/pxa/ |
| D | Kconfig | 121 tristate "SoC Audio support for CompuLab EM-x270, eXeda and CM-X300"
129 CompuLab EM-x270, eXeda and CM-X300 machines.
|
| /Linux-v5.4/Documentation/scsi/ |
| D | aacraid.txt | 119 9005:0285:108e:7aae SUN STK RAID EM (Narvi)
|
| /Linux-v5.4/Documentation/filesystems/caching/ |
| D | fscache.txt | 349 …OBJECT PARENT STAT CHLDN OPS OOP IPR EX READS EM EV F S | NETFS_COOKIE_DEF TY FL NETFS_DATA …
367 EM Object's event mask
|
| /Linux-v5.4/arch/arm/mach-pxa/ |
| D | Kconfig | 136 bool "CompuLab EM-x270 platform"
|
| /Linux-v5.4/drivers/rtc/ |
| D | Kconfig | 652 tristate "EM Microelectronic EM3027"
654 If you say yes here you get support for the EM
1197 tristate "EM Microelectronic V3020"
1200 EM Microelectronic v3020 RTC chip.
|
| /Linux-v5.4/drivers/i2c/busses/ |
| D | Kconfig | 609 I2C interface on the Renesas Electronics EM/EV family of processors.
|
