1 2For the lack of a better place to put them, this file will contain 3notes on some of the more intricate details of geom. 4 5----------------------------------------------------------------------- 6Locking of bio_children and bio_inbed 7 8bio_children is used by g_std_done() and g_clone_bio() to keep track 9of children cloned off a request. g_clone_bio will increment the 10bio_children counter for each time it is called and g_std_done will 11increment bio_inbed for every call, and if the two counters are 12equal, call g_io_deliver() on the parent bio. 13 14The general assumption is that g_clone_bio() is called only in 15the g_down thread, and g_std_done() only in the g_up thread and 16therefore the two fields do not generally need locking. These 17restrictions are not enforced by the code, but only with great 18care should they be violated. 19 20It is the responsibility of the class implementation to avoid the 21following race condition: A class intend to split a bio in two 22children. It clones the bio, and requests I/O on the child. 23This I/O operation completes before the second child is cloned 24and g_std_done() sees the counters both equal 1 and finishes off 25the bio. 26 27There is no race present in the common case where the bio is split 28in multiple parts in the class start method and the I/O is requested 29on another GEOM class below: There is only one g_down thread and 30the class below will not get its start method run until we return 31from our start method, and consequently the I/O cannot complete 32prematurely. 33 34In all other cases, this race needs to be mitigated, for instance 35by cloning all children before I/O is request on any of them. 36 37Notice that cloning an "extra" child and calling g_std_done() on 38it directly opens another race since the assumption is that 39g_std_done() only is called in the g_up thread. 40 41----------------------------------------------------------------------- 42Statistics collection 43 44Statistics collection can run at three levels controlled by the 45"kern.geom.collectstats" sysctl. 46 47At level zero, only the number of transactions started and completed 48are counted, and this is only because GEOM internally uses the difference 49between these two as sanity checks. 50 51At level one we collect the full statistics. Higher levels are 52reserved for future use. Statistics are collected independently 53on both the provider and the consumer, because multiple consumers 54can be active against the same provider at the same time. 55 56The statistics collection falls in two parts: 57 58The first and simpler part consists of g_io_request() timestamping 59the struct bio when the request is first started and g_io_deliver() 60updating the consumer and providers statistics based on fields in 61the bio when it is completed. There are no concurrency or locking 62concerns in this part. The statistics collected consists of number 63of requests, number of bytes, number of ENOMEM errors, number of 64other errors and duration of the request for each of the three 65major request types: BIO_READ, BIO_WRITE and BIO_DELETE. 66 67The second part is trying to keep track of the "busy%". 68 69If in g_io_request() we find that there are no outstanding requests, 70(based on the counters for scheduled and completed requests being 71equal), we set a timestamp in the "wentbusy" field. Since there 72are no outstanding requests, and as long as there is only one thread 73pushing the g_down queue, we cannot possibly conflict with 74g_io_deliver() until we ship the current request down. 75 76In g_io_deliver() we calculate the delta-T from wentbusy and add this 77to the "bt" field, and set wentbusy to the current timestamp. We 78take care to do this before we increment the "requests completed" 79counter, since that prevents g_io_request() from touching the 80"wentbusy" timestamp concurrently. 81 82The statistics data is made available to userland through the use 83of a special allocator (in geom_stats.c) which through a device 84allows userland to mmap(2) the pages containing the statistics data. 85In order to indicate to userland when the data in a statstics 86structure might be inconsistent, g_io_deliver() atomically sets a 87flag "updating" and resets it when the structure is again consistent. 88----------------------------------------------------------------------- 89maxsize, stripesize and stripeoffset 90 91maxsize is the biggest request we are willing to handle. If not 92set there is no upper bound on the size of a request and the code 93is responsible for chopping it up. Only hardware methods should 94set an upper bound in this field. Geom_disk will inherit the upper 95bound set by the device driver. 96 97stripesize is the width of any natural request boundaries for the 98device. This would be the optimal width of a stripe on a raid unit. 99The idea with this field is to hint to clustering type code to not 100trivially overrun these boundaries. 101 102stripeoffset is the amount of the first stripe which lies before the 103devices beginning. 104 105If we have a device with 64k stripes: 106 [0...64k[ 107 [64k...128k[ 108 [128k..192k[ 109Then it will have stripesize = 64k and stripeoffset = 0. 110 111If we put a MBR on this device, where slice#1 starts on sector#63, 112then this slice will have: stripesize = 64k, stripeoffset = 63 * sectorsize. 113 114If the clustering code wants to widen a request which writes to 115sector#53 of the slice, it can calculate how many bytes till the end of 116the stripe as: 117 stripewith - (53 * sectorsize + stripeoffset) % stripewidth. 118----------------------------------------------------------------------- 119 120#include file usage: 121 122 geom.h|geom_int.h|geom_ext.h|geom_ctl.h|libgeom.h 123----------------+------+----------+----------+----------+--------+ 124geom class | | | | | | 125implementation | X | | | | | 126----------------+------+----------+----------+----------+--------+ 127geom kernel | | | | | | 128infrastructure | X | X | X | X | | 129----------------+------+----------+----------+----------+--------+ 130libgeom | | | | | | 131implementation | | | X | X | X | 132----------------+------+----------+----------+----------+--------+ 133geom aware | | | | | | 134application | | | | X | X | 135----------------+------+----------+----------+----------+--------+ 136 137geom_slice.h is special in that it documents a "library" for implementing 138a specific kind of class, and consequently does not appear in the above 139matrix. 140----------------------------------------------------------------------- 141Removable media. 142 143In general, the theory is that a drive creates the provider when it has 144a media and destroys it when the media disappears. 145 146In a more realistic world, we will allow a provider to be opened medialess 147(set any sectorsize and a mediasize==0) in order to allow operations like 148open/close tray etc. 149 150