Hi-- Here are a few comments for you. On 5/26/20 4:03 AM, Emanuele Giuseppe Esposito wrote: > Html docs for a complete documentation of the stats_fs API, > filesystem and usage. > > Signed-off-by: Emanuele Giuseppe Esposito <eesposit@xxxxxxxxxx> > --- > Documentation/filesystems/index.rst | 1 + > Documentation/filesystems/stats_fs.rst | 222 +++++++++++++++++++++++++ > 2 files changed, 223 insertions(+) > create mode 100644 Documentation/filesystems/stats_fs.rst > diff --git a/Documentation/filesystems/stats_fs.rst b/Documentation/filesystems/stats_fs.rst > new file mode 100644 > index 000000000000..292c689ffb98 > --- /dev/null > +++ b/Documentation/filesystems/stats_fs.rst > @@ -0,0 +1,222 @@ > +======== > +Stats_FS > +======== > + > +Stats_fs is a synthetic ram-based virtual filesystem that takes care of RAM-based > +gathering and displaying statistics for the Linux kernel subsystems. > + > +The motivation for stats_fs comes from the fact that there is no common > +way for Linux kernel subsystems to expose statistics to userspace shared > +throughout the Linux kernel; subsystems have to take care of gathering and > +displaying statistics by themselves, for example in the form of files in > +debugfs. > + > +Allowing each subsystem of the kernel to do so has two disadvantages. > +First, it will introduce redundant code. Second, debugfs is anyway not the > +right place for statistics (for example it is affected by lockdown). > + > +Stats_fs offers a generic and stable API, allowing any kind of > +directory/file organization and supporting multiple kind of aggregations kinds > +(not only sum, but also average, max, min and count_zero) and data types > +(boolean, all unsigned/signed and custom types). The implementation takes > +care of gathering and displaying information at run time; users only need > +to specify the values to be included in each source. Optionally, users can > +also provide a display function for each value, that will take care of > +displaying the provided value in a custom format. > + > +Its main function is to display each statistics as a file in the desired statistic > +folder hierarchy defined through the API. Stats_fs files can be read, and > +possibly cleared if their file mode allows it. > + > +Stats_fs is typically mounted with a command like:: > + > + mount -t stats_fs stats_fs /sys/kernel/stats_fs > + > +(Or an equivalent /etc/fstab line). > + > +Stats_fs has two main components: the public API defined by > +include/linux/stats_fs.h, and the virtual file system in > +/sys/kernel/stats. > + > +The API has two main elements, values and sources. Kernel > +subsystems will create a source, add child > +sources/values/aggregates and register it to the root source (that on the > +virtual fs would be /sys/kernel/stats). > + > +The stats_fs API is defined in ``<linux/stats_fs.h>``. > + > + Sources > + Sources are created via ``stats_fs_source_create()``, and each > + source becomes a directory in the file system. Sources form a > + parent-child relationship; root sources are added to the file > + system via ``stats_fs_source_register()``. Therefore each Linux > + subsystem will add its own entry to the root, filesystem similar root filesystem > + to what it is done in debugfs. Every other source is added to or > + removed from a parent through the > + ``stats_fs_source_add_subordinate()`` and > + ``stats_fs_source_remove_subordinate()`` APIs. Once a source is > + created and added to the tree (via add_subordinate), it will be > + used to compute aggregate values in the parent source. A source > + can optionally be hidden from the filesystem but still considered > + in the aggregation operations if the corresponding flag is set > + during initialization. > + > + Values > + Values represent quantites that are gathered by the stats_fs user. quantities > + Examples of values include the number of vm exits of a given kind, VM > + the amount of memory used by some data structure, the length of > + the longest hash table chain, or anything like that. Values are > + defined with the stats_fs_source_add_values function. Each value > + is defined by a ``struct stats_fs_value``; the same > + ``stats_fs_value`` can be added to many different sources. A value > + can be considered "simple" if it fetches data from a user-provided > + location, or "aggregate" if it groups all values in the > + subordinate sources that include the same ``stats_fs_value``. > + Values by default are considered to be cumulative, meaning the > + value they represent never decreases, but can also be defined as > + floating if they exibith a different behavior. The main difference exhibit > + between these two is reflected into the file permission, since a > + floating value file does not allow the user to clear it. Each > + value has a ``stats_fs_type`` pointer in order to allow the user > + to provide custom get and clear functions. The library, however, > + also exports default ``stats_fs_type`` structs for the standard > + types (all unsigned and signed types plus boolean). A value can > + also provide a show function that takes care of displaying the > + value in a custom string format. This can be especially useful > + when displaying enums. > + > +Because stats_fs is a different mountpoint than debugfs, it is not affected > +by security lockdown. > + > +Using Stats_fs > +================ > + > +Define a value:: > + > + struct statistics{ > + uint64_t exit; > + ... > + }; > + > + struct kvm { > + ... > + struct statistics stat; > + }; > + > + struct stats_fs_value kvm_stats[] = { > + { "exit_vm", offsetof(struct kvm, stat.exit), &stats_fs_type_u64, > + STATS_FS_SUM }, > + { NULL } > + }; > + > +The same ``struct stats_fs_value`` is used for both simple and aggregate > +values, though the type and offset are only used for simple values. > +Aggregates merge all values that use the same ``struct stats_fs_value``. > + > +Create the parent source:: > + > + struct stats_fs_source parent_source = stats_fs_source_create(0, "parent"); > + > +Register it (files and folders > +will only be visible after this function is called):: > + > + stats_fs_source_register(parent_source); > + > +Create and add a child:: > + > + struct stats_fs_source child_source = stats_fs_source_create(STATS_FS_HIDDEN, "child"); > + > + stats_fs_source_add_subordinate(parent_source, child_source); > + > +The STATS_FS_HIDDEN attribute won't affect the aggregation, it will only > +block the creation of the files. Why does HIDDEN block the creation of files? instead of their visibility? > + > +Add values to parent and child (also here order doesn't matter):: > + > + struct kvm *base_ptr = kmalloc(..., sizeof(struct kvm)); > + ... > + stats_fs_source_add_values(child_source, kvm_stats, base_ptr, 0); > + stats_fs_source_add_values(parent_source, kvm_stats, NULL, STATS_FS_HIDDEN); > + > +``child_source`` will be a simple value, since it has a non-NULL base > +pointer, while ``parent_source`` will be an aggregate. During the adding > +phase, also values can optionally be marked as hidden, so that the folder > +and other values can be still shown. > + > +Of course the same ``struct stats_fs_value`` array can be also passed with a > +different base pointer, to represent the same value but in another instance > +of the kvm struct. > + > +Search: > + > +Fetch a value from the child source, returning the value > +pointed by ``(uint64_t *) base_ptr + kvm_stats[0].offset``:: > + > + uint64_t ret_child, ret_parent; > + > + stats_fs_source_get_value(child_source, &kvm_stats[0], &ret_child); > + > +Fetch an aggregate value, searching all subsources of ``parent_source`` for > +the specified ``struct stats_fs_value``:: > + > + stats_fs_source_get_value(parent_source, &kvm_stats[0], &ret_parent); > + > + assert(ret_child == ret_parent); // check expected result > + > +To make it more interesting, add another child:: > + > + struct stats_fs_source child_source2 = stats_fs_source_create(0, "child2"); > + > + stats_fs_source_add_subordinate(parent_source, child_source2); > + // now the structure is parent -> child1 > + // -> child2 Is that the same as parent -> child1 -> child2 ? It could almost be read as parent -> child1 parent -> child2 Whichever it is, can you make it more explicit, please? > + > + struct kvm *other_base_ptr = kmalloc(..., sizeof(struct kvm)); > + ... > + stats_fs_source_add_values(child_source2, kvm_stats, other_base_ptr, 0); > + > +Note that other_base_ptr points to another instance of kvm, so the struct > +stats_fs_value is the same but the address at which they point is not. > + > +Now get the aggregate value:: > + > + uint64_t ret_child, ret_child2, ret_parent; > + > + stats_fs_source_get_value(child_source, &kvm_stats[0], &ret_child); > + stats_fs_source_get_value(parent_source, &kvm_stats[0], &ret_parent); > + stats_fs_source_get_value(child_source2, &kvm_stats[0], &ret_child2); > + > + assert((ret_child + ret_child2) == ret_parent); > + > +Cleanup:: > + > + stats_fs_source_remove_subordinate(parent_source, child_source); > + stats_fs_source_revoke(child_source); > + stats_fs_source_put(child_source); > + > + stats_fs_source_remove_subordinate(parent_source, child_source2); > + stats_fs_source_revoke(child_source2); > + stats_fs_source_put(child_source2); > + > + stats_fs_source_put(parent_source); > + kfree(other_base_ptr); > + kfree(base_ptr); > + > +Calling stats_fs_source_revoke is very important, because it will ensure stats_fs_source_revoke() > +that stats_fs will not access the data that were passed to > +stats_fs_source_add_value for this source. > + > +Because open files increase the reference count for a stats_fs_source, the > +source can end up living longer than the data that provides the values for > +the source. Calling stats_fs_source_revoke just before the backing data stats_fs_source_revoke() > +is freed avoids accesses to freed data structures. The sources will return > +0. > + > +This is not needed for the parent_source, since it just contains > +aggregates that would be 0 anyways if no matching child value exist. > + > +API Documentation > +================= > + > +.. kernel-doc:: include/linux/stats_fs.h > + :export: fs/stats_fs/*.c > \ No newline at end of file Please fix that. ^^^^^ Thanks for the documentation. -- ~Randy