On Jul 4, 2020, at 8:46 PM, Jan Ziak <0xe2.0x9a.0x9b@xxxxxxxxx> wrote: > > On Sun, Jul 5, 2020 at 4:16 AM Matthew Wilcox <willy@xxxxxxxxxxxxx> wrote: >> >> On Sun, Jul 05, 2020 at 04:06:22AM +0200, Jan Ziak wrote: >>> Hello >>> >>> At first, I thought that the proposed system call is capable of >>> reading *multiple* small files using a single system call - which >>> would help increase HDD/SSD queue utilization and increase IOPS (I/O >>> operations per second) - but that isn't the case and the proposed >>> system call can read just a single file. >>> >>> Without the ability to read multiple small files using a single system >>> call, it is impossible to increase IOPS (unless an application is >>> using multiple reader threads or somehow instructs the kernel to >>> prefetch multiple files into memory). >> >> What API would you use for this? >> >> ssize_t readfiles(int dfd, char **files, void **bufs, size_t *lens); >> >> I pretty much hate this interface, so I hope you have something better >> in mind. > > I am proposing the following: > > struct readfile_t { > int dirfd; > const char *pathname; > void *buf; > size_t count; > int flags; > ssize_t retval; // set by kernel > int reserved; // not used by kernel > }; If you are going to pass a struct from userspace to the kernel, it should not mix int and pointer types (which may be 64-bit values, so that there are not structure packing issues, like: struct readfile { int dirfd; int flags; const char *pathname; void *buf; size_t count; ssize_t retval; }; It would be better if "retval" was returned in "count", so that the structure fits nicely into 32 bytes on a 64-bit system, instead of being 40 bytes per entry, which adds up over many entries, like. struct readfile { int dirfd; int flags; const char *pathname; void *buf; ssize_t count; /* input: bytes requested, output: bytes read or -errno */ }; However, there is still an issue with passing pointers from userspace, since they may be 32-bit userspace pointers on a 64-bit kernel. > int readfiles(struct readfile_t *requests, size_t count); It's not clear why count is a "size_t" since it is not a size. An unsigned int is fine here, since it should never be negative. > Returns zero if all requests succeeded, otherwise the returned value > is non-zero (glibc wrapper: -1) and user-space is expected to check > which requests have succeeded and which have failed. retval in > readfile_t is set to what the single-file readfile syscall would > return if it was called with the contents of the corresponding > readfile_t struct. > > The glibc library wrapper of this system call is expected to store the > errno in the "reserved" field. Thus, a programmer using glibc sees: > > struct readfile_t { > int dirfd; > const char *pathname; > void *buf; > size_t count; > int flags; > ssize_t retval; // set by glibc (-1 on error) > int errno; // set by glibc if retval is -1 > }; Why not just return the errno directly in "retval", or in "count" as proposed? That avoids further bloating the structure by another field. > retval and errno in glibc's readfile_t are set to what the single-file > glibc readfile would return (retval) and set (errno) if it was called > with the contents of the corresponding readfile_t struct. In case of > an error, glibc will pick one readfile_t which failed (such as: the > 1st failed one) and use it to set glibc's errno. Cheers, Andreas
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