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Linux/Documentation/block/blk-mq.rst

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Diff markup

Differences between /Documentation/block/blk-mq.rst (Version linux-6.12-rc7) and /Documentation/block/blk-mq.rst (Version linux-4.9.337)


  1 .. SPDX-License-Identifier: GPL-2.0               
  2                                                   
  3 ==============================================    
  4 Multi-Queue Block IO Queueing Mechanism (blk-m    
  5 ==============================================    
  6                                                   
  7 The Multi-Queue Block IO Queueing Mechanism is    
  8 devices to achieve a huge number of input/outp    
  9 through queueing and submitting IO requests to    
 10 benefiting from the parallelism offered by mod    
 11                                                   
 12 Introduction                                      
 13 ============                                      
 14                                                   
 15 Background                                        
 16 ----------                                        
 17                                                   
 18 Magnetic hard disks have been the de facto sta    
 19 development of the kernel. The Block IO subsys    
 20 performance possible for those devices with a     
 21 access, and the bottleneck was the mechanical     
 22 any layer on the storage stack. One example of    
 23 involves ordering read/write requests accordin    
 24 hard disk head.                                   
 25                                                   
 26 However, with the development of Solid State D    
 27 without mechanical parts nor random access pen    
 28 high parallel access, the bottleneck of the st    
 29 device to the operating system. In order to ta    
 30 in those devices' design, the multi-queue mech    
 31                                                   
 32 The former design had a single queue to store     
 33 lock. That did not scale well in SMP systems d    
 34 bottleneck of having a single lock for multipl    
 35 suffered with congestion when different proces    
 36 to different CPUs) wanted to perform block IO.    
 37 spawns multiple queues with individual entry p    
 38 the need for a lock. A deeper explanation on h    
 39 following section (`Operation`_).                 
 40                                                   
 41 Operation                                         
 42 ---------                                         
 43                                                   
 44 When the userspace performs IO to a block devi    
 45 for instance), blk-mq takes action: it will st    
 46 the block device, acting as middleware between    
 47 system, if present) and the block device drive    
 48                                                   
 49 blk-mq has two group of queues: software stagi    
 50 queues. When the request arrives at the block     
 51 path possible: send it directly to the hardwar    
 52 cases that it might not do that: if there's an    
 53 layer or if we want to try to merge requests.     
 54 sent to the software queue.                       
 55                                                   
 56 Then, after the requests are processed by soft    
 57 at the hardware queue, a second stage queue wh    
 58 to process those requests. However, if the har    
 59 resources to accept more requests, blk-mq will    
 60 queue, to be sent in the future, when the hard    
 61                                                   
 62 Software staging queues                           
 63 ~~~~~~~~~~~~~~~~~~~~~~~                           
 64                                                   
 65 The block IO subsystem adds requests in the so    
 66 (represented by struct blk_mq_ctx) in case tha    
 67 directly to the driver. A request is one or mo    
 68 block layer through the data structure struct     
 69 will then build a new structure from it, the s    
 70 be used to communicate with the device driver.    
 71 the number of queues is defined by a per-CPU o    
 72                                                   
 73 The staging queue can be used to merge request    
 74 instance, requests for sector 3-6, 6-7, 7-9 ca    
 75 Even if random access to SSDs and NVMs have th    
 76 to sequential access, grouped requests for seq    
 77 number of individual requests. This technique     
 78 plugging.                                         
 79                                                   
 80 Along with that, the requests can be reordered    
 81 resources (e.g. to ensure that no application     
 82 improve IO performance, by an IO scheduler.       
 83                                                   
 84 IO Schedulers                                     
 85 ^^^^^^^^^^^^^                                     
 86                                                   
 87 There are several schedulers implemented by th    
 88 a heuristic to improve the IO performance. The    
 89 and play), in the sense of they can be selecte    
 90 can read more about Linux's IO schedulers `her    
 91 <https://www.kernel.org/doc/html/latest/block/    
 92 happens only between requests in the same queu    
 93 requests from different queues, otherwise ther    
 94 need to have a lock for each queue. After the     
 95 eligible to be sent to the hardware. One of th    
 96 selected is the NONE scheduler, the most strai    
 97 place requests on whatever software queue the     
 98 any reordering. When the device starts process    
 99 queue (a.k.a. run the hardware queue), the sof    
100 hardware queue will be drained in sequence acc    
101                                                   
102 Hardware dispatch queues                          
103 ~~~~~~~~~~~~~~~~~~~~~~~~                          
104                                                   
105 The hardware queue (represented by struct blk_    
106 used by device drivers to map the device submi    
107 buffer), and are the last step of the block la    
108 low level device driver taking ownership of th    
109 block layer removes requests from the associat    
110 dispatch to the hardware.                         
111                                                   
112 If it's not possible to send the requests dire    
113 added to a linked list (``hctx->dispatch``) of    
114 next time the block layer runs a queue, it wil    
115 ``dispatch`` list first, to ensure a fairness     
116 requests that were ready to be sent first. The    
117 depends on the number of hardware contexts sup    
118 device driver, but it will not be more than th    
119 There is no reordering at this stage, and each    
120 hardware queues to send requests for.             
121                                                   
122 .. note::                                         
123                                                   
124         Neither the block layer nor the device    
125         the order of completion of requests. T    
126         higher layers, like the filesystem.       
127                                                   
128 Tag-based completion                              
129 ~~~~~~~~~~~~~~~~~~~~                              
130                                                   
131 In order to indicate which request has been co    
132 identified by an integer, ranging from 0 to th    
133 is generated by the block layer and later reus    
134 the need to create a redundant identifier. Whe    
135 driver, the tag is sent back to the block laye    
136 This removes the need to do a linear search to    
137 completed.                                        
138                                                   
139 Further reading                                   
140 ---------------                                   
141                                                   
142 - `Linux Block IO: Introducing Multi-queue SSD    
143                                                   
144 - `NOOP scheduler <https://en.wikipedia.org/wi    
145                                                   
146 - `Null block device driver <https://www.kerne    
147                                                   
148 Source code documentation                         
149 =========================                         
150                                                   
151 .. kernel-doc:: include/linux/blk-mq.h            
152                                                   
153 .. kernel-doc:: block/blk-mq.c                    
                                                      

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