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apfstests/ltp/fsstress.c
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Josef Bacik fb769938dc fsstress: add the ability to create/delete subvolumes 
This patch adds support to fsstress for creating and deleting subvolumes
on a btrfs file system.  We link in the libbtrfsutil library to handle
the mechanics of creating and deleting subvolumes instead of duplicating
the ioctl logic.  There is code to check if we're on a btrfs fs at
startup time and if so 0 out the frequency of the btrfs specific
operations.

Signed-off-by: Josef Bacik <josef@toxicpanda.com>
Reviewed-by: Filipe Manana <fdmanana@suse.com>
Signed-off-by: Eryu Guan <guaneryu@gmail.com>
2019-12-30 00:07:25 +08:00

5131 lines
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C
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// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (c) 2000-2002 Silicon Graphics, Inc.
* All Rights Reserved.
*/
#include <linux/fs.h>
#include <setjmp.h>
#include <sys/uio.h>
#include <stddef.h>
#include "global.h"
#ifdef HAVE_BTRFSUTIL_H
#include <btrfsutil.h>
#endif
#ifdef HAVE_ATTR_ATTRIBUTES_H
#include <attr/attributes.h>
#endif
#ifdef HAVE_LINUX_FIEMAP_H
#include <linux/fiemap.h>
#endif
#ifndef HAVE_ATTR_LIST
#define attr_list(path, buf, size, flags, cursor) (errno = -ENOSYS, -1)
#endif
#ifdef HAVE_SYS_PRCTL_H
#include <sys/prctl.h>
#endif
#ifdef AIO
#include <libaio.h>
io_context_t io_ctx;
#endif
#include <sys/syscall.h>
#include <sys/xattr.h>
#ifndef FS_IOC_GETFLAGS
#define FS_IOC_GETFLAGS _IOR('f', 1, long)
#endif
#ifndef FS_IOC_SETFLAGS
#define FS_IOC_SETFLAGS _IOW('f', 2, long)
#endif
#include <math.h>
#define XFS_ERRTAG_MAX 17
#define XFS_IDMODULO_MAX 31 /* user/group IDs (1 << x) */
#define XFS_PROJIDMODULO_MAX 16 /* project IDs (1 << x) */
#ifndef IOV_MAX
#define IOV_MAX 1024
#endif
#ifndef HAVE_RENAMEAT2
#if !defined(SYS_renameat2) && defined(__x86_64__)
#define SYS_renameat2 316
#endif
#if !defined(SYS_renameat2) && defined(__i386__)
#define SYS_renameat2 353
#endif
static int renameat2(int dfd1, const char *path1,
int dfd2, const char *path2,
unsigned int flags)
{
#ifdef SYS_renameat2
return syscall(SYS_renameat2, dfd1, path1, dfd2, path2, flags);
#else
errno = ENOSYS;
return -1;
#endif
}
#endif
#ifndef RENAME_NOREPLACE
#define RENAME_NOREPLACE (1 << 0) /* Don't overwrite target */
#endif
#ifndef RENAME_EXCHANGE
#define RENAME_EXCHANGE (1 << 1) /* Exchange source and dest */
#endif
#ifndef RENAME_WHITEOUT
#define RENAME_WHITEOUT (1 << 2) /* Whiteout source */
#endif
#define FILELEN_MAX (32*4096)
typedef enum {
OP_AFSYNC,
OP_ALLOCSP,
OP_AREAD,
OP_ATTR_REMOVE,
OP_ATTR_SET,
OP_AWRITE,
OP_BULKSTAT,
OP_BULKSTAT1,
OP_CHOWN,
OP_CLONERANGE,
OP_COPYRANGE,
OP_CREAT,
OP_DEDUPERANGE,
OP_DREAD,
OP_DWRITE,
OP_FALLOCATE,
OP_FDATASYNC,
OP_FIEMAP,
OP_FREESP,
OP_FSYNC,
OP_GETATTR,
OP_GETDENTS,
OP_GETFATTR,
OP_LINK,
OP_LISTFATTR,
OP_MKDIR,
OP_MKNOD,
OP_MREAD,
OP_MWRITE,
OP_PUNCH,
OP_ZERO,
OP_COLLAPSE,
OP_INSERT,
OP_READ,
OP_READLINK,
OP_READV,
OP_REMOVEFATTR,
OP_RENAME,
OP_RNOREPLACE,
OP_REXCHANGE,
OP_RWHITEOUT,
OP_RESVSP,
OP_RMDIR,
OP_SETATTR,
OP_SETFATTR,
OP_SETXATTR,
OP_SPLICE,
OP_STAT,
OP_SUBVOL_CREATE,
OP_SUBVOL_DELETE,
OP_SYMLINK,
OP_SYNC,
OP_TRUNCATE,
OP_UNLINK,
OP_UNRESVSP,
OP_WRITE,
OP_WRITEV,
OP_LAST
} opty_t;
typedef void (*opfnc_t)(int, long);
typedef struct opdesc {
opty_t op;
char *name;
opfnc_t func;
int freq;
int iswrite;
} opdesc_t;
typedef struct fent {
int id;
int ft;
int parent;
int xattr_counter;
} fent_t;
typedef struct flist {
int nfiles;
int nslots;
int tag;
fent_t *fents;
} flist_t;
typedef struct pathname {
int len;
char *path;
} pathname_t;
struct print_flags {
unsigned long mask;
const char *name;
};
struct print_string {
char *buffer;
int len;
int max;
};
#define FT_DIR 0
#define FT_DIRm (1 << FT_DIR)
#define FT_REG 1
#define FT_REGm (1 << FT_REG)
#define FT_SYM 2
#define FT_SYMm (1 << FT_SYM)
#define FT_DEV 3
#define FT_DEVm (1 << FT_DEV)
#define FT_RTF 4
#define FT_RTFm (1 << FT_RTF)
#define FT_SUBVOL 5
#define FT_SUBVOLm (1 << FT_SUBVOL)
#define FT_nft 6
#define FT_ANYm ((1 << FT_nft) - 1)
#define FT_REGFILE (FT_REGm | FT_RTFm)
#define FT_NOTDIR (FT_ANYm & (~FT_DIRm & ~FT_SUBVOLm))
#define FLIST_SLOT_INCR 16
#define NDCACHE 64
#define MAXFSIZE ((1ULL << 63) - 1ULL)
#define MAXFSIZE32 ((1ULL << 40) - 1ULL)
#define XATTR_NAME_BUF_SIZE 18
void afsync_f(int, long);
void allocsp_f(int, long);
void aread_f(int, long);
void attr_remove_f(int, long);
void attr_set_f(int, long);
void awrite_f(int, long);
void bulkstat_f(int, long);
void bulkstat1_f(int, long);
void chown_f(int, long);
void clonerange_f(int, long);
void copyrange_f(int, long);
void creat_f(int, long);
void deduperange_f(int, long);
void dread_f(int, long);
void dwrite_f(int, long);
void fallocate_f(int, long);
void fdatasync_f(int, long);
void fiemap_f(int, long);
void freesp_f(int, long);
void fsync_f(int, long);
char *gen_random_string(int);
void getattr_f(int, long);
void getdents_f(int, long);
void getfattr_f(int, long);
void link_f(int, long);
void listfattr_f(int, long);
void mkdir_f(int, long);
void mknod_f(int, long);
void mread_f(int, long);
void mwrite_f(int, long);
void punch_f(int, long);
void zero_f(int, long);
void collapse_f(int, long);
void insert_f(int, long);
void read_f(int, long);
void readlink_f(int, long);
void readv_f(int, long);
void removefattr_f(int, long);
void rename_f(int, long);
void rnoreplace_f(int, long);
void rexchange_f(int, long);
void rwhiteout_f(int, long);
void resvsp_f(int, long);
void rmdir_f(int, long);
void setattr_f(int, long);
void setfattr_f(int, long);
void setxattr_f(int, long);
void splice_f(int, long);
void stat_f(int, long);
void subvol_create_f(int, long);
void subvol_delete_f(int, long);
void symlink_f(int, long);
void sync_f(int, long);
void truncate_f(int, long);
void unlink_f(int, long);
void unresvsp_f(int, long);
void write_f(int, long);
void writev_f(int, long);
char *xattr_flag_to_string(int);
opdesc_t ops[] = {
/* { OP_ENUM, "name", function, freq, iswrite }, */
{ OP_AFSYNC, "afsync", afsync_f, 0, 1 },
{ OP_ALLOCSP, "allocsp", allocsp_f, 1, 1 },
{ OP_AREAD, "aread", aread_f, 1, 0 },
{ OP_ATTR_REMOVE, "attr_remove", attr_remove_f, /* 1 */ 0, 1 },
{ OP_ATTR_SET, "attr_set", attr_set_f, /* 2 */ 0, 1 },
{ OP_AWRITE, "awrite", awrite_f, 1, 1 },
{ OP_BULKSTAT, "bulkstat", bulkstat_f, 1, 0 },
{ OP_BULKSTAT1, "bulkstat1", bulkstat1_f, 1, 0 },
{ OP_CHOWN, "chown", chown_f, 3, 1 },
{ OP_CLONERANGE, "clonerange", clonerange_f, 4, 1 },
{ OP_COPYRANGE, "copyrange", copyrange_f, 4, 1 },
{ OP_CREAT, "creat", creat_f, 4, 1 },
{ OP_DEDUPERANGE, "deduperange", deduperange_f, 4, 1},
{ OP_DREAD, "dread", dread_f, 4, 0 },
{ OP_DWRITE, "dwrite", dwrite_f, 4, 1 },
{ OP_FALLOCATE, "fallocate", fallocate_f, 1, 1 },
{ OP_FDATASYNC, "fdatasync", fdatasync_f, 1, 1 },
{ OP_FIEMAP, "fiemap", fiemap_f, 1, 1 },
{ OP_FREESP, "freesp", freesp_f, 1, 1 },
{ OP_FSYNC, "fsync", fsync_f, 1, 1 },
{ OP_GETATTR, "getattr", getattr_f, 1, 0 },
{ OP_GETDENTS, "getdents", getdents_f, 1, 0 },
/* get extended attribute */
{ OP_GETFATTR, "getfattr", getfattr_f, 1, 0 },
{ OP_LINK, "link", link_f, 1, 1 },
/* list extent attributes */
{ OP_LISTFATTR, "listfattr", listfattr_f, 1, 0 },
{ OP_MKDIR, "mkdir", mkdir_f, 2, 1 },
{ OP_MKNOD, "mknod", mknod_f, 2, 1 },
{ OP_MREAD, "mread", mread_f, 2, 0 },
{ OP_MWRITE, "mwrite", mwrite_f, 2, 1 },
{ OP_PUNCH, "punch", punch_f, 1, 1 },
{ OP_ZERO, "zero", zero_f, 1, 1 },
{ OP_COLLAPSE, "collapse", collapse_f, 1, 1 },
{ OP_INSERT, "insert", insert_f, 1, 1 },
{ OP_READ, "read", read_f, 1, 0 },
{ OP_READLINK, "readlink", readlink_f, 1, 0 },
{ OP_READV, "readv", readv_f, 1, 0 },
/* remove (delete) extended attribute */
{ OP_REMOVEFATTR, "removefattr", removefattr_f, 1, 1 },
{ OP_RENAME, "rename", rename_f, 2, 1 },
{ OP_RNOREPLACE, "rnoreplace", rnoreplace_f, 2, 1 },
{ OP_REXCHANGE, "rexchange", rexchange_f, 2, 1 },
{ OP_RWHITEOUT, "rwhiteout", rwhiteout_f, 2, 1 },
{ OP_RESVSP, "resvsp", resvsp_f, 1, 1 },
{ OP_RMDIR, "rmdir", rmdir_f, 1, 1 },
/* set attribute flag (FS_IOC_SETFLAGS ioctl) */
{ OP_SETATTR, "setattr", setattr_f, 0, 1 },
/* set extended attribute */
{ OP_SETFATTR, "setfattr", setfattr_f, 2, 1 },
/* set project id (XFS_IOC_FSSETXATTR ioctl) */
{ OP_SETXATTR, "setxattr", setxattr_f, 1, 1 },
{ OP_SPLICE, "splice", splice_f, 1, 1 },
{ OP_STAT, "stat", stat_f, 1, 0 },
{ OP_SUBVOL_CREATE, "subvol_create", subvol_create_f, 1, 1},
{ OP_SUBVOL_DELETE, "subvol_delete", subvol_delete_f, 1, 1},
{ OP_SYMLINK, "symlink", symlink_f, 2, 1 },
{ OP_SYNC, "sync", sync_f, 1, 1 },
{ OP_TRUNCATE, "truncate", truncate_f, 2, 1 },
{ OP_UNLINK, "unlink", unlink_f, 1, 1 },
{ OP_UNRESVSP, "unresvsp", unresvsp_f, 1, 1 },
{ OP_WRITE, "write", write_f, 4, 1 },
{ OP_WRITEV, "writev", writev_f, 4, 1 },
}, *ops_end;
flist_t flist[FT_nft] = {
{ 0, 0, 'd', NULL },
{ 0, 0, 'f', NULL },
{ 0, 0, 'l', NULL },
{ 0, 0, 'c', NULL },
{ 0, 0, 'r', NULL },
{ 0, 0, 's', NULL },
};
int dcache[NDCACHE];
int errrange;
int errtag;
opty_t *freq_table;
int freq_table_size;
struct xfs_fsop_geom geom;
char *homedir;
int *ilist;
int ilistlen;
off64_t maxfsize;
char *myprog;
int namerand;
int nameseq;
int nops;
int nproc = 1;
int operations = 1;
unsigned int idmodulo = XFS_IDMODULO_MAX;
unsigned int attr_mask = ~0;
int procid;
int rtpct;
unsigned long seed = 0;
ino_t top_ino;
int cleanup = 0;
int verbose = 0;
int verifiable_log = 0;
sig_atomic_t should_stop = 0;
sigjmp_buf *sigbus_jmp = NULL;
char *execute_cmd = NULL;
int execute_freq = 1;
struct print_string flag_str = {0};
void add_to_flist(int, int, int, int);
void append_pathname(pathname_t *, char *);
int attr_list_path(pathname_t *, char *, const int, int, attrlist_cursor_t *);
int attr_remove_path(pathname_t *, const char *, int);
int attr_set_path(pathname_t *, const char *, const char *, const int, int);
void check_cwd(void);
void cleanup_flist(void);
int creat_path(pathname_t *, mode_t);
void dcache_enter(int, int);
void dcache_init(void);
fent_t *dcache_lookup(int);
void dcache_purge(int, int);
void del_from_flist(int, int);
int dirid_to_name(char *, int);
void doproc(void);
int fent_to_name(pathname_t *, fent_t *);
bool fents_ancestor_check(fent_t *, fent_t *);
void fix_parent(int, int, bool);
void free_pathname(pathname_t *);
int generate_fname(fent_t *, int, pathname_t *, int *, int *);
int generate_xattr_name(int, char *, int);
int get_fname(int, long, pathname_t *, flist_t **, fent_t **, int *);
void init_pathname(pathname_t *);
int lchown_path(pathname_t *, uid_t, gid_t);
int link_path(pathname_t *, pathname_t *);
int lstat64_path(pathname_t *, struct stat64 *);
void make_freq_table(void);
int mkdir_path(pathname_t *, mode_t);
int mknod_path(pathname_t *, mode_t, dev_t);
void namerandpad(int, char *, int);
int open_file_or_dir(pathname_t *, int);
int open_path(pathname_t *, int);
DIR *opendir_path(pathname_t *);
void process_freq(char *);
int readlink_path(pathname_t *, char *, size_t);
int rename_path(pathname_t *, pathname_t *, int);
int rmdir_path(pathname_t *);
void separate_pathname(pathname_t *, char *, pathname_t *);
void show_ops(int, char *);
int stat64_path(pathname_t *, struct stat64 *);
int symlink_path(const char *, pathname_t *);
int truncate64_path(pathname_t *, off64_t);
int unlink_path(pathname_t *);
void usage(void);
void write_freq(void);
void zero_freq(void);
void non_btrfs_freq(const char *);
void sg_handler(int signum)
{
switch (signum) {
case SIGTERM:
should_stop = 1;
break;
case SIGBUS:
/*
* Only handle SIGBUS when mmap write to a hole and no
* block can be allocated due to ENOSPC, abort otherwise.
*/
if (sigbus_jmp) {
siglongjmp(*sigbus_jmp, -1);
} else {
printf("Unknown SIGBUS is caught, Abort!\n");
abort();
}
/* should not reach here */
break;
default:
break;
}
}
int main(int argc, char **argv)
{
char buf[10];
int c;
char *dirname = NULL;
char *logname = NULL;
char rpath[PATH_MAX];
int fd;
int i;
int j;
char *p;
int stat;
struct timeval t;
ptrdiff_t srval;
int nousage = 0;
xfs_error_injection_t err_inj;
struct sigaction action;
int loops = 1;
const char *allopts = "cd:e:f:i:l:m:M:n:o:p:rs:S:vVwx:X:zH";
errrange = errtag = 0;
umask(0);
nops = sizeof(ops) / sizeof(ops[0]);
ops_end = &ops[nops];
myprog = argv[0];
while ((c = getopt(argc, argv, allopts)) != -1) {
switch (c) {
case 'c':
cleanup = 1;
break;
case 'd':
dirname = optarg;
break;
case 'e':
sscanf(optarg, "%d", &errtag);
if (errtag < 0) {
errtag = -errtag;
errrange = 1;
} else if (errtag == 0)
errtag = -1;
if (errtag >= XFS_ERRTAG_MAX) {
fprintf(stderr,
"error tag %d too large (max %d)\n",
errtag, XFS_ERRTAG_MAX - 1);
exit(1);
}
break;
case 'f':
process_freq(optarg);
break;
case 'i':
ilist = realloc(ilist, ++ilistlen * sizeof(*ilist));
ilist[ilistlen - 1] = strtol(optarg, &p, 16);
break;
case 'm':
idmodulo = strtoul(optarg, NULL, 0);
if (idmodulo > XFS_IDMODULO_MAX) {
fprintf(stderr,
"chown modulo %d too big (max %d)\n",
idmodulo, XFS_IDMODULO_MAX);
exit(1);
}
break;
case 'l':
loops = atoi(optarg);
break;
case 'n':
operations = atoi(optarg);
break;
case 'o':
logname = optarg;
break;
case 'p':
nproc = atoi(optarg);
break;
case 'r':
namerand = 1;
break;
case 's':
seed = strtoul(optarg, NULL, 0);
break;
case 'v':
verbose = 1;
break;
case 'w':
write_freq();
break;
case 'x':
execute_cmd = optarg;
break;
case 'z':
zero_freq();
break;
case 'M':
attr_mask = strtoul(optarg, NULL, 0);
break;
case 'S':
i = 0;
if (optarg[0] == 'c')
i = 1;
show_ops(i, NULL);
printf("\n");
nousage=1;
break;
case 'V':
verifiable_log = 1;
break;
case 'X':
execute_freq = strtoul(optarg, NULL, 0);
break;
case '?':
fprintf(stderr, "%s - invalid parameters\n",
myprog);
/* fall through */
case 'H':
usage();
exit(1);
}
}
if (!dirname) {
/* no directory specified */
if (!nousage) usage();
exit(1);
}
non_btrfs_freq(dirname);
(void)mkdir(dirname, 0777);
if (logname && logname[0] != '/') {
if (!getcwd(rpath, sizeof(rpath))){
perror("getcwd failed");
exit(1);
}
} else {
rpath[0] = '\0';
}
if (chdir(dirname) < 0) {
perror(dirname);
exit(1);
}
if (logname) {
char path[PATH_MAX + NAME_MAX + 1];
snprintf(path, sizeof(path), "%s/%s", rpath, logname);
if (freopen(path, "a", stdout) == NULL) {
perror("freopen logfile failed");
exit(1);
}
}
sprintf(buf, "fss%x", (unsigned int)getpid());
fd = creat(buf, 0666);
if (lseek64(fd, (off64_t)(MAXFSIZE32 + 1ULL), SEEK_SET) < 0)
maxfsize = (off64_t)MAXFSIZE32;
else
maxfsize = (off64_t)MAXFSIZE;
make_freq_table();
dcache_init();
setlinebuf(stdout);
if (!seed) {
gettimeofday(&t, (void *)NULL);
seed = (int)t.tv_sec ^ (int)t.tv_usec;
printf("seed = %ld\n", seed);
}
i = xfsctl(buf, fd, XFS_IOC_FSGEOMETRY, &geom);
if (i >= 0 && geom.rtblocks)
rtpct = MIN(MAX(geom.rtblocks * 100 /
(geom.rtblocks + geom.datablocks), 1), 99);
else
rtpct = 0;
if (errtag != 0) {
if (errrange == 0) {
if (errtag <= 0) {
srandom(seed);
j = random() % 100;
for (i = 0; i < j; i++)
(void) random();
errtag = (random() % (XFS_ERRTAG_MAX-1)) + 1;
}
} else {
srandom(seed);
j = random() % 100;
for (i = 0; i < j; i++)
(void) random();
errtag += (random() % (XFS_ERRTAG_MAX - errtag));
}
printf("Injecting failure on tag #%d\n", errtag);
err_inj.errtag = errtag;
err_inj.fd = fd;
srval = xfsctl(buf, fd, XFS_IOC_ERROR_INJECTION, &err_inj);
if (srval < -1) {
perror("fsstress - XFS_SYSSGI error injection call");
close(fd);
unlink(buf);
exit(1);
}
} else
close(fd);
setpgid(0, 0);
action.sa_handler = sg_handler;
sigemptyset(&action.sa_mask);
action.sa_flags = 0;
if (sigaction(SIGTERM, &action, 0)) {
perror("sigaction failed");
exit(1);
}
for (i = 0; i < nproc; i++) {
if (fork() == 0) {
sigemptyset(&action.sa_mask);
action.sa_handler = SIG_DFL;
if (sigaction(SIGTERM, &action, 0))
return 1;
action.sa_handler = sg_handler;
if (sigaction(SIGBUS, &action, 0))
return 1;
#ifdef HAVE_SYS_PRCTL_H
prctl(PR_SET_PDEATHSIG, SIGKILL);
if (getppid() == 1) /* parent died already? */
return 0;
#endif
if (logname) {
char path[PATH_MAX + NAME_MAX + 2 + 11];
snprintf(path, sizeof(path), "%s/%s.%d",
rpath, logname, i);
if (freopen(path, "a", stdout) == NULL) {
perror("freopen logfile failed");
exit(1);
}
}
procid = i;
#ifdef AIO
if (io_setup(128, &io_ctx) != 0) {
fprintf(stderr, "io_setup failed");
exit(1);
}
#endif
for (i = 0; !loops || (i < loops); i++)
doproc();
#ifdef AIO
if(io_destroy(io_ctx) != 0) {
fprintf(stderr, "io_destroy failed");
return 1;
}
#endif
cleanup_flist();
free(freq_table);
return 0;
}
}
while (wait(&stat) > 0 && !should_stop) {
continue;
}
action.sa_flags = SA_RESTART;
sigaction(SIGTERM, &action, 0);
kill(-getpid(), SIGTERM);
while (wait(&stat) > 0)
continue;
if (errtag != 0) {
err_inj.errtag = 0;
err_inj.fd = fd;
srval = xfsctl(buf, fd, XFS_IOC_ERROR_CLEARALL, &err_inj);
if (srval != 0) {
fprintf(stderr, "Bad ej clear on %s fd=%d (%d).\n",
buf, fd, errno);
perror("xfsctl(XFS_IOC_ERROR_CLEARALL)");
close(fd);
exit(1);
}
close(fd);
}
free(freq_table);
unlink(buf);
return 0;
}
int
add_string(struct print_string *str, const char *add)
{
int len = strlen(add);
if (len <= 0)
return 0;
if (len > (str->max - 1) - str->len) {
str->len = str->max - 1;
return 0;
}
memcpy(str->buffer + str->len, add, len);
str->len += len;
str->buffer[str->len] = '\0';
return len;
}
char *
translate_flags(int flags, const char *delim,
const struct print_flags *flag_array)
{
int i, mask, first = 1;
const char *add;
if (!flag_str.buffer) {
flag_str.buffer = malloc(4096);
flag_str.max = 4096;
flag_str.len = 0;
}
if (!flag_str.buffer)
return NULL;
flag_str.len = 0;
flag_str.buffer[0] = '\0';
for (i = 0; flag_array[i].name && flags; i++) {
mask = flag_array[i].mask;
if ((flags & mask) != mask)
continue;
add = flag_array[i].name;
flags &= ~mask;
if (!first && delim)
add_string(&flag_str, delim);
else
first = 0;
add_string(&flag_str, add);
}
/* Check whether there are any leftover flags. */
if (flags) {
int ret;
char number[11];
if (!first && delim)
add_string(&flag_str, delim);
ret = snprintf(number, 11, "0x%x", flags) > 0;
if (ret > 0 && ret <= 11)
add_string(&flag_str, number);
}
return flag_str.buffer;
}
void
add_to_flist(int ft, int id, int parent, int xattr_counter)
{
fent_t *fep;
flist_t *ftp;
ftp = &flist[ft];
if (ftp->nfiles == ftp->nslots) {
ftp->nslots += FLIST_SLOT_INCR;
ftp->fents = realloc(ftp->fents, ftp->nslots * sizeof(fent_t));
}
fep = &ftp->fents[ftp->nfiles++];
fep->id = id;
fep->ft = ft;
fep->parent = parent;
fep->xattr_counter = xattr_counter;
}
void
append_pathname(pathname_t *name, char *str)
{
int len;
len = strlen(str);
#ifdef DEBUG
/* attempting to append to a dir a zero length path */
if (len && *str == '/' && name->len == 0) {
fprintf(stderr, "fsstress: append_pathname failure\n");
assert(chdir(homedir) == 0);
abort();
/* NOTREACHED */
}
#endif
name->path = realloc(name->path, name->len + 1 + len);
strcpy(&name->path[name->len], str);
name->len += len;
}
int
attr_list_path(pathname_t *name,
char *buffer,
const int buffersize,
int flags,
attrlist_cursor_t *cursor)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
if (flags != ATTR_DONTFOLLOW) {
errno = EINVAL;
return -1;
}
rval = attr_list(name->path, buffer, buffersize, flags, cursor);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = attr_list_path(&newname, buffer, buffersize, flags, cursor);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
int
attr_remove_path(pathname_t *name, const char *attrname, int flags)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = attr_remove(name->path, attrname, flags);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = attr_remove_path(&newname, attrname, flags);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
int
attr_set_path(pathname_t *name, const char *attrname, const char *attrvalue,
const int valuelength, int flags)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = attr_set(name->path, attrname, attrvalue, valuelength, flags);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = attr_set_path(&newname, attrname, attrvalue, valuelength,
flags);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
void
check_cwd(void)
{
#ifdef DEBUG
struct stat64 statbuf;
if (stat64(".", &statbuf) == 0 && statbuf.st_ino == top_ino)
return;
assert(chdir(homedir) == 0);
fprintf(stderr, "fsstress: check_cwd failure\n");
abort();
/* NOTREACHED */
#endif
}
/*
* go thru flist and release all entries
*
* NOTE: this function shouldn't be called until the end of a process
*/
void
cleanup_flist(void)
{
flist_t *flp;
int i;
for (i = 0, flp = flist; i < FT_nft; i++, flp++) {
flp->nslots = 0;
flp->nfiles = 0;
free(flp->fents);
flp->fents = NULL;
}
}
int
creat_path(pathname_t *name, mode_t mode)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = creat(name->path, mode);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = creat_path(&newname, mode);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
void
dcache_enter(int dirid, int slot)
{
dcache[dirid % NDCACHE] = slot;
}
void
dcache_init(void)
{
int i;
for (i = 0; i < NDCACHE; i++)
dcache[i] = -1;
}
fent_t *
dcache_lookup(int dirid)
{
fent_t *fep;
int i;
i = dcache[dirid % NDCACHE];
if (i >= 0 && i < flist[FT_DIR].nfiles &&
(fep = &flist[FT_DIR].fents[i])->id == dirid)
return fep;
if (i >= 0 && i < flist[FT_SUBVOL].nfiles &&
(fep = &flist[FT_SUBVOL].fents[i])->id == dirid)
return fep;
return NULL;
}
void
dcache_purge(int dirid, int ft)
{
int *dcp;
dcp = &dcache[dirid % NDCACHE];
if (*dcp >= 0 && *dcp < flist[ft].nfiles &&
flist[ft].fents[*dcp].id == dirid)
*dcp = -1;
}
/*
* Delete the item from the list by
* moving last entry over the deleted one;
* unless deleted entry is the last one.
* Input: which file list array and which slot in array
*/
void
del_from_flist(int ft, int slot)
{
flist_t *ftp;
ftp = &flist[ft];
if (ft == FT_DIR || ft == FT_SUBVOL)
dcache_purge(ftp->fents[slot].id, ft);
if (slot != ftp->nfiles - 1) {
if (ft == FT_DIR || ft == FT_SUBVOL)
dcache_purge(ftp->fents[ftp->nfiles - 1].id, ft);
ftp->fents[slot] = ftp->fents[--ftp->nfiles];
} else
ftp->nfiles--;
}
void
delete_subvol_children(int parid)
{
flist_t *flp;
int i;
again:
for (i = 0, flp = flist; i < FT_nft; i++, flp++) {
int c;
for (c = 0; c < flp->nfiles; c++) {
if (flp->fents[c].parent == parid) {
int id = flp->fents[c].id;
del_from_flist(i, c);
if (i == FT_DIR || i == FT_SUBVOL)
delete_subvol_children(id);
goto again;
}
}
}
}
fent_t *
dirid_to_fent(int dirid)
{
fent_t *efep;
fent_t *fep;
flist_t *flp;
int ft = FT_DIR;
if ((fep = dcache_lookup(dirid)))
return fep;
again:
flp = &flist[ft];
for (fep = flp->fents, efep = &fep[flp->nfiles]; fep < efep; fep++) {
if (fep->id == dirid) {
dcache_enter(dirid, fep - flp->fents);
return fep;
}
}
if (ft == FT_DIR) {
ft = FT_SUBVOL;
goto again;
}
return NULL;
}
void
doproc(void)
{
struct stat64 statbuf;
char buf[10];
char cmd[64];
int opno;
int rval;
opdesc_t *p;
int dividend;
dividend = (operations + execute_freq) / (execute_freq + 1);
sprintf(buf, "p%x", procid);
(void)mkdir(buf, 0777);
if (chdir(buf) < 0 || stat64(".", &statbuf) < 0) {
perror(buf);
_exit(1);
}
top_ino = statbuf.st_ino;
homedir = getcwd(NULL, 0);
if (!homedir) {
perror("getcwd failed");
_exit(1);
}
seed += procid;
srandom(seed);
if (namerand)
namerand = random();
for (opno = 0; opno < operations; opno++) {
if (execute_cmd && opno && opno % dividend == 0) {
if (verbose)
printf("%d: execute command %s\n", opno,
execute_cmd);
rval = system(execute_cmd);
if (rval)
fprintf(stderr, "execute command failed with "
"%d\n", rval);
}
p = &ops[freq_table[random() % freq_table_size]];
p->func(opno, random());
/*
* test for forced shutdown by stat'ing the test
* directory. If this stat returns EIO, assume
* the forced shutdown happened.
*/
if (errtag != 0 && opno % 100 == 0) {
rval = stat64(".", &statbuf);
if (rval == EIO) {
fprintf(stderr, "Detected EIO\n");
goto errout;
}
}
}
errout:
assert(chdir("..") == 0);
free(homedir);
if (cleanup) {
int ret;
sprintf(cmd, "rm -rf %s", buf);
ret = system(cmd);
if (ret != 0)
perror("cleaning up");
cleanup_flist();
}
}
/*
* build up a pathname going thru the file entry and all
* its parent entries
* Return 0 on error, 1 on success;
*/
int
fent_to_name(pathname_t *name, fent_t *fep)
{
flist_t *flp = &flist[fep->ft];
char buf[NAME_MAX + 1];
int i;
fent_t *pfep;
int e;
if (fep == NULL)
return 0;
/* build up parent directory name */
if (fep->parent != -1) {
pfep = dirid_to_fent(fep->parent);
#ifdef DEBUG
if (pfep == NULL) {
fprintf(stderr, "%d: fent-id = %d: can't find parent id: %d\n",
procid, fep->id, fep->parent);
}
#endif
if (pfep == NULL)
return 0;
e = fent_to_name(name, pfep);
if (!e)
return 0;
append_pathname(name, "/");
}
i = sprintf(buf, "%c%x", flp->tag, fep->id);
namerandpad(fep->id, buf, i);
append_pathname(name, buf);
return 1;
}
bool
fents_ancestor_check(fent_t *fep, fent_t *dfep)
{
fent_t *tmpfep;
for (tmpfep = fep; tmpfep->parent != -1;
tmpfep = dirid_to_fent(tmpfep->parent)) {
if (tmpfep->parent == dfep->id)
return true;
}
return false;
}
void
fix_parent(int oldid, int newid, bool swap)
{
fent_t *fep;
flist_t *flp;
int i;
int j;
for (i = 0, flp = flist; i < FT_nft; i++, flp++) {
for (j = 0, fep = flp->fents; j < flp->nfiles; j++, fep++) {
if (fep->parent == oldid)
fep->parent = newid;
else if (swap && fep->parent == newid)
fep->parent = oldid;
}
}
}
void
free_pathname(pathname_t *name)
{
if (name->path) {
free(name->path);
name->path = NULL;
name->len = 0;
}
}
/*
* Generate a filename of type ft.
* If we have a fep which should be a directory then use it
* as the parent path for this new filename i.e. prepend with it.
*/
int
generate_fname(fent_t *fep, int ft, pathname_t *name, int *idp, int *v)
{
char buf[NAME_MAX + 1];
flist_t *flp;
int id;
int j;
int len;
int e;
/* create name */
flp = &flist[ft];
len = sprintf(buf, "%c%x", flp->tag, id = nameseq++);
namerandpad(id, buf, len);
/* prepend fep parent dir-name to it */
if (fep) {
e = fent_to_name(name, fep);
if (!e)
return 0;
append_pathname(name, "/");
}
append_pathname(name, buf);
*idp = id;
*v = verbose;
for (j = 0; !*v && j < ilistlen; j++) {
if (ilist[j] == id) {
*v = 1;
break;
}
}
return 1;
}
int generate_xattr_name(int xattr_num, char *buffer, int buflen)
{
int ret;
ret = snprintf(buffer, buflen, "user.x%d", xattr_num);
if (ret < 0)
return ret;
if (ret < buflen)
return 0;
return -EOVERFLOW;
}
/*
* Get file
* Input: "which" to choose the file-types eg. non-directory
* Input: "r" to choose which file
* Output: file-list, file-entry, name for the chosen file.
* Output: verbose if chosen file is on the ilist.
*/
int
get_fname(int which, long r, pathname_t *name, flist_t **flpp, fent_t **fepp,
int *v)
{
int totalsum = 0; /* total number of matching files */
int partialsum = 0; /* partial sum of matching files */
fent_t *fep;
flist_t *flp;
int i;
int j;
int x;
int e = 1; /* success */
/*
* go thru flist and add up number of files for each
* category that matches with <which>.
*/
for (i = 0, flp = flist; i < FT_nft; i++, flp++) {
if (which & (1 << i))
totalsum += flp->nfiles;
}
if (totalsum == 0) {
if (flpp)
*flpp = NULL;
if (fepp)
*fepp = NULL;
*v = verbose;
return 0;
}
/*
* Now we have possible matches between 0..totalsum-1.
* And we use r to help us choose which one we want,
* which when bounded by totalsum becomes x.
*/
x = (int)(r % totalsum);
for (i = 0, flp = flist; i < FT_nft; i++, flp++) {
if (which & (1 << i)) {
if (x < partialsum + flp->nfiles) {
/* found the matching file entry */
fep = &flp->fents[x - partialsum];
/* fill-in what we were asked for */
if (name) {
e = fent_to_name(name, fep);
#ifdef DEBUG
if (!e) {
fprintf(stderr, "%d: failed to get path for entry:"
" id=%d,parent=%d\n",
procid, fep->id, fep->parent);
}
#endif
}
if (flpp)
*flpp = flp;
if (fepp)
*fepp = fep;
/* turn on verbose if its an ilisted file */
*v = verbose;
for (j = 0; !*v && j < ilistlen; j++) {
if (ilist[j] == fep->id) {
*v = 1;
break;
}
}
return e;
}
partialsum += flp->nfiles;
}
}
#ifdef DEBUG
fprintf(stderr, "fsstress: get_fname failure\n");
abort();
#endif
return 0;
}
void
init_pathname(pathname_t *name)
{
name->len = 0;
name->path = NULL;
}
int
lchown_path(pathname_t *name, uid_t owner, gid_t group)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = lchown(name->path, owner, group);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = lchown_path(&newname, owner, group);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
int
link_path(pathname_t *name1, pathname_t *name2)
{
char buf1[NAME_MAX + 1];
char buf2[NAME_MAX + 1];
int down1;
pathname_t newname1;
pathname_t newname2;
int rval;
rval = link(name1->path, name2->path);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name1, buf1, &newname1);
separate_pathname(name2, buf2, &newname2);
if (strcmp(buf1, buf2) == 0) {
if (chdir(buf1) == 0) {
rval = link_path(&newname1, &newname2);
assert(chdir("..") == 0);
}
} else {
if (strcmp(buf1, "..") == 0)
down1 = 0;
else if (strcmp(buf2, "..") == 0)
down1 = 1;
else if (strlen(buf1) == 0)
down1 = 0;
else if (strlen(buf2) == 0)
down1 = 1;
else
down1 = MAX(newname1.len, 3 + name2->len) <=
MAX(3 + name1->len, newname2.len);
if (down1) {
free_pathname(&newname2);
append_pathname(&newname2, "../");
append_pathname(&newname2, name2->path);
if (chdir(buf1) == 0) {
rval = link_path(&newname1, &newname2);
assert(chdir("..") == 0);
}
} else {
free_pathname(&newname1);
append_pathname(&newname1, "../");
append_pathname(&newname1, name1->path);
if (chdir(buf2) == 0) {
rval = link_path(&newname1, &newname2);
assert(chdir("..") == 0);
}
}
}
free_pathname(&newname1);
free_pathname(&newname2);
return rval;
}
int
lstat64_path(pathname_t *name, struct stat64 *sbuf)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = lstat64(name->path, sbuf);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = lstat64_path(&newname, sbuf);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
void
make_freq_table(void)
{
int f;
int i;
opdesc_t *p;
for (p = ops, f = 0; p < ops_end; p++)
f += p->freq;
freq_table = malloc(f * sizeof(*freq_table));
freq_table_size = f;
for (p = ops, i = 0; p < ops_end; p++) {
for (f = 0; f < p->freq; f++, i++)
freq_table[i] = p->op;
}
}
int
mkdir_path(pathname_t *name, mode_t mode)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = mkdir(name->path, mode);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = mkdir_path(&newname, mode);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
int
mknod_path(pathname_t *name, mode_t mode, dev_t dev)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = mknod(name->path, mode, dev);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = mknod_path(&newname, mode, dev);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
void
namerandpad(int id, char *buf, int i)
{
int bucket;
static int buckets[] =
{ 2, 4, 8, 16, 32, 64, 128, NAME_MAX };
int padlen;
int padmod;
if (namerand == 0)
return;
bucket = (id ^ namerand) % (sizeof(buckets) / sizeof(buckets[0]));
padmod = buckets[bucket] + 1 - i;
if (padmod <= 0)
return;
padlen = (id ^ namerand) % padmod;
if (padlen) {
memset(&buf[i], 'X', padlen);
buf[i + padlen] = '\0';
}
}
int
open_file_or_dir(pathname_t *name, int flags)
{
int fd;
fd = open_path(name, flags);
if (fd != -1)
return fd;
if (fd == -1 && errno != EISDIR)
return fd;
/* Directories can not be opened in write mode nor direct mode. */
flags &= ~(O_WRONLY | O_DIRECT);
flags |= O_RDONLY | O_DIRECTORY;
return open_path(name, flags);
}
int
open_path(pathname_t *name, int oflag)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = open(name->path, oflag);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = open_path(&newname, oflag);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
DIR *
opendir_path(pathname_t *name)
{
char buf[NAME_MAX + 1];
pathname_t newname;
DIR *rval;
rval = opendir(name->path);
if (rval || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = opendir_path(&newname);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
void
process_freq(char *arg)
{
opdesc_t *p;
char *s;
s = strchr(arg, '=');
if (s == NULL) {
fprintf(stderr, "bad argument '%s'\n", arg);
exit(1);
}
*s++ = '\0';
for (p = ops; p < ops_end; p++) {
if (strcmp(arg, p->name) == 0) {
p->freq = atoi(s);
return;
}
}
fprintf(stderr, "can't find op type %s for -f\n", arg);
exit(1);
}
int
readlink_path(pathname_t *name, char *lbuf, size_t lbufsiz)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = readlink(name->path, lbuf, lbufsiz);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = readlink_path(&newname, lbuf, lbufsiz);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
int
rename_path(pathname_t *name1, pathname_t *name2, int mode)
{
char buf1[NAME_MAX + 1];
char buf2[NAME_MAX + 1];
int down1;
pathname_t newname1;
pathname_t newname2;
int rval;
if (mode == 0)
rval = rename(name1->path, name2->path);
else
rval = renameat2(AT_FDCWD, name1->path,
AT_FDCWD, name2->path, mode);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name1, buf1, &newname1);
separate_pathname(name2, buf2, &newname2);
if (strcmp(buf1, buf2) == 0) {
if (chdir(buf1) == 0) {
rval = rename_path(&newname1, &newname2, mode);
assert(chdir("..") == 0);
}
} else {
if (strcmp(buf1, "..") == 0)
down1 = 0;
else if (strcmp(buf2, "..") == 0)
down1 = 1;
else if (strlen(buf1) == 0)
down1 = 0;
else if (strlen(buf2) == 0)
down1 = 1;
else
down1 = MAX(newname1.len, 3 + name2->len) <=
MAX(3 + name1->len, newname2.len);
if (down1) {
free_pathname(&newname2);
append_pathname(&newname2, "../");
append_pathname(&newname2, name2->path);
if (chdir(buf1) == 0) {
rval = rename_path(&newname1, &newname2, mode);
assert(chdir("..") == 0);
}
} else {
free_pathname(&newname1);
append_pathname(&newname1, "../");
append_pathname(&newname1, name1->path);
if (chdir(buf2) == 0) {
rval = rename_path(&newname1, &newname2, mode);
assert(chdir("..") == 0);
}
}
}
free_pathname(&newname1);
free_pathname(&newname2);
return rval;
}
int
rmdir_path(pathname_t *name)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = rmdir(name->path);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = rmdir_path(&newname);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
void
separate_pathname(pathname_t *name, char *buf, pathname_t *newname)
{
char *slash;
init_pathname(newname);
slash = strchr(name->path, '/');
if (slash == NULL) {
buf[0] = '\0';
return;
}
*slash = '\0';
strcpy(buf, name->path);
*slash = '/';
append_pathname(newname, slash + 1);
}
#define WIDTH 80
void
show_ops(int flag, char *lead_str)
{
opdesc_t *p;
if (flag<0) {
/* print in list form */
int x = WIDTH;
for (p = ops; p < ops_end; p++) {
if (lead_str != NULL && x+strlen(p->name)>=WIDTH-5)
x=printf("%s%s", (p==ops)?"":"\n", lead_str);
x+=printf("%s ", p->name);
}
printf("\n");
} else if (flag == 0) {
/* Table view style */
int f;
for (f = 0, p = ops; p < ops_end; p++)
f += p->freq;
if (f == 0)
flag = 1;
for (p = ops; p < ops_end; p++) {
if (flag != 0 || p->freq > 0) {
if (lead_str != NULL)
printf("%s", lead_str);
printf("%20s %d/%d %s\n",
p->name, p->freq, f,
(p->iswrite == 0) ? " " : "write op");
}
}
} else {
/* Command line style */
if (lead_str != NULL)
printf("%s", lead_str);
printf ("-z -s %ld -m %d -n %d -p %d \\\n", seed, idmodulo,
operations, nproc);
for (p = ops; p < ops_end; p++)
if (p->freq > 0)
printf("-f %s=%d \\\n",p->name, p->freq);
}
}
int
stat64_path(pathname_t *name, struct stat64 *sbuf)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = stat64(name->path, sbuf);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = stat64_path(&newname, sbuf);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
int
symlink_path(const char *name1, pathname_t *name)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
if (!strcmp(name1, name->path)) {
printf("yikes! %s %s\n", name1, name->path);
return 0;
}
rval = symlink(name1, name->path);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = symlink_path(name1, &newname);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
int
truncate64_path(pathname_t *name, off64_t length)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = truncate64(name->path, length);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = truncate64_path(&newname, length);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
int
unlink_path(pathname_t *name)
{
char buf[NAME_MAX + 1];
pathname_t newname;
int rval;
rval = unlink(name->path);
if (rval >= 0 || errno != ENAMETOOLONG)
return rval;
separate_pathname(name, buf, &newname);
if (chdir(buf) == 0) {
rval = unlink_path(&newname);
assert(chdir("..") == 0);
}
free_pathname(&newname);
return rval;
}
void
usage(void)
{
printf("Usage: %s -H or\n", myprog);
printf(" %s [-c][-d dir][-e errtg][-f op_name=freq][-l loops][-n nops]\n",
myprog);
printf(" [-p nproc][-r len][-s seed][-v][-w][-x cmd][-z][-S][-X ncmd]\n");
printf("where\n");
printf(" -c clean up the test directory after each run\n");
printf(" -d dir specifies the base directory for operations\n");
printf(" -e errtg specifies error injection stuff\n");
printf(" -f op_name=freq changes the frequency of option name to freq\n");
printf(" the valid operation names are:\n");
show_ops(-1, " ");
printf(" -i filenum get verbose output for this nth file object\n");
printf(" -l loops specifies the no. of times the testrun should loop.\n");
printf(" *use 0 for infinite (default 1)\n");
printf(" -m modulo uid/gid modulo for chown/chgrp (default 32)\n");
printf(" -n nops specifies the no. of operations per process (default 1)\n");
printf(" -o logfile specifies logfile name\n");
printf(" -p nproc specifies the no. of processes (default 1)\n");
printf(" -r specifies random name padding\n");
printf(" -s seed specifies the seed for the random generator (default random)\n");
printf(" -v specifies verbose mode\n");
printf(" -w zeros frequencies of non-write operations\n");
printf(" -x cmd execute command in the middle of operations\n");
printf(" -z zeros frequencies of all operations\n");
printf(" -S [c,t] prints the list of operations (omitting zero frequency) in command line or table style\n");
printf(" -V specifies verifiable logging mode (omitting inode numbers)\n");
printf(" -X ncmd number of calls to the -x command (default 1)\n");
printf(" -H prints usage and exits\n");
}
void
write_freq(void)
{
opdesc_t *p;
for (p = ops; p < ops_end; p++) {
if (!p->iswrite)
p->freq = 0;
}
}
void
zero_freq(void)
{
opdesc_t *p;
for (p = ops; p < ops_end; p++)
p->freq = 0;
}
#define ARRAY_SIZE(a) (sizeof(a) / sizeof(a[0]))
opty_t btrfs_ops[] = {
OP_SUBVOL_CREATE,
OP_SUBVOL_DELETE,
};
void
non_btrfs_freq(const char *path)
{
opdesc_t *p;
#ifdef HAVE_BTRFSUTIL_H
enum btrfs_util_error e;
e = btrfs_util_is_subvolume(path);
if (e != BTRFS_UTIL_ERROR_NOT_BTRFS)
return;
#endif
for (p = ops; p < ops_end; p++) {
int i;
for (i = 0; i < ARRAY_SIZE(btrfs_ops); i++) {
if (p->op == btrfs_ops[i]) {
p->freq = 0;
break;
}
}
}
}
void inode_info(char *str, size_t sz, struct stat64 *s, int verbose)
{
if (verbose)
snprintf(str, sz, "[%ld %ld %d %d %lld %lld]",
verifiable_log ? -1: (long)s->st_ino,
(long)s->st_nlink, s->st_uid, s->st_gid,
(long long) s->st_blocks, (long long) s->st_size);
}
void
afsync_f(int opno, long r)
{
#ifdef AIO
int e;
pathname_t f;
int fd;
int v;
struct iocb iocb;
struct iocb *iocbs[] = { &iocb };
struct io_event event;
init_pathname(&f);
if (!get_fname(FT_REGFILE | FT_DIRm, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: afsync - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_file_or_dir(&f, O_WRONLY | O_DIRECT);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: afsync - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
io_prep_fsync(&iocb, fd);
if ((e = io_submit(io_ctx, 1, iocbs)) != 1) {
if (v)
printf("%d/%d: afsync - io_submit %s %d\n",
procid, opno, f.path, e);
free_pathname(&f);
close(fd);
return;
}
if ((e = io_getevents(io_ctx, 1, 1, &event, NULL)) != 1) {
if (v)
printf("%d/%d: afsync - io_getevents failed %d\n",
procid, opno, e);
free_pathname(&f);
close(fd);
return;
}
e = event.res2;
if (v)
printf("%d/%d: afsync %s %d\n", procid, opno, f.path, e);
free_pathname(&f);
close(fd);
#endif
}
void
allocsp_f(int opno, long r)
{
int e;
pathname_t f;
int fd;
struct xfs_flock64 fl;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: allocsp - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_RDWR);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: allocsp - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: allocsp - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % MIN(stb.st_size + (1024 * 1024), MAXFSIZE));
off %= maxfsize;
fl.l_whence = SEEK_SET;
fl.l_start = off;
fl.l_len = 0;
e = xfsctl(f.path, fd, XFS_IOC_ALLOCSP64, &fl) < 0 ? errno : 0;
if (v) {
printf("%d/%d: xfsctl(XFS_IOC_ALLOCSP64) %s%s %lld 0 %d\n",
procid, opno, f.path, st, (long long)off, e);
}
free_pathname(&f);
close(fd);
}
#ifdef AIO
void
do_aio_rw(int opno, long r, int flags)
{
int64_t align;
char *buf;
struct dioattr diob;
int e;
pathname_t f;
int fd;
size_t len;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
char *dio_env;
struct iocb iocb;
struct io_event event;
struct iocb *iocbs[] = { &iocb };
int iswrite = (flags & (O_WRONLY | O_RDWR)) ? 1 : 0;
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: do_aio_rw - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, flags|O_DIRECT);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: do_aio_rw - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: do_aio_rw - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
if (!iswrite && stb.st_size == 0) {
if (v)
printf("%d/%d: do_aio_rw - %s%s zero size\n", procid, opno,
f.path, st);
free_pathname(&f);
close(fd);
return;
}
if (xfsctl(f.path, fd, XFS_IOC_DIOINFO, &diob) < 0) {
if (v)
printf(
"%d/%d: do_aio_rw - xfsctl(XFS_IOC_DIOINFO) %s%s return %d,"
" fallback to stat()\n",
procid, opno, f.path, st, errno);
diob.d_mem = diob.d_miniosz = stb.st_blksize;
diob.d_maxiosz = INT_MAX & ~(diob.d_miniosz - 1);
}
dio_env = getenv("XFS_DIO_MIN");
if (dio_env)
diob.d_mem = diob.d_miniosz = atoi(dio_env);
align = (int64_t)diob.d_miniosz;
lr = ((int64_t)random() << 32) + random();
len = (random() % FILELEN_MAX) + 1;
len -= (len % align);
if (len <= 0)
len = align;
else if (len > diob.d_maxiosz)
len = diob.d_maxiosz;
buf = memalign(diob.d_mem, len);
if (iswrite) {
off = (off64_t)(lr % MIN(stb.st_size + (1024 * 1024), MAXFSIZE));
off -= (off % align);
off %= maxfsize;
memset(buf, nameseq & 0xff, len);
io_prep_pwrite(&iocb, fd, buf, len, off);
} else {
off = (off64_t)(lr % stb.st_size);
off -= (off % align);
io_prep_pread(&iocb, fd, buf, len, off);
}
if ((e = io_submit(io_ctx, 1, iocbs)) != 1) {
if (v)
printf("%d/%d: %s - io_submit failed %d\n",
procid, opno, iswrite ? "awrite" : "aread", e);
free_pathname(&f);
close(fd);
return;
}
if ((e = io_getevents(io_ctx, 1, 1, &event, NULL)) != 1) {
if (v)
printf("%d/%d: %s - io_getevents failed %d\n",
procid, opno, iswrite ? "awrite" : "aread", e);
free_pathname(&f);
close(fd);
return;
}
e = event.res != len ? event.res2 : 0;
free(buf);
if (v)
printf("%d/%d: %s %s%s [%lld,%d] %d\n",
procid, opno, iswrite ? "awrite" : "aread",
f.path, st, (long long)off, (int)len, e);
free_pathname(&f);
close(fd);
}
#endif
void
aread_f(int opno, long r)
{
#ifdef AIO
do_aio_rw(opno, r, O_RDONLY);
#endif
}
void
attr_remove_f(int opno, long r)
{
attrlist_ent_t *aep;
attrlist_t *alist;
char *aname;
char buf[4096];
attrlist_cursor_t cursor;
int e;
int ent;
pathname_t f;
int total;
int v;
int which;
init_pathname(&f);
if (!get_fname(FT_ANYm, r, &f, NULL, NULL, &v))
append_pathname(&f, ".");
total = 0;
bzero(&cursor, sizeof(cursor));
do {
bzero(buf, sizeof(buf));
e = attr_list_path(&f, buf, sizeof(buf), ATTR_DONTFOLLOW, &cursor);
check_cwd();
if (e)
break;
alist = (attrlist_t *)buf;
total += alist->al_count;
} while (alist->al_more);
if (total == 0) {
if (v)
printf("%d/%d: attr_remove - no attrs for %s\n",
procid, opno, f.path);
free_pathname(&f);
return;
}
which = (int)(random() % total);
bzero(&cursor, sizeof(cursor));
ent = 0;
aname = NULL;
do {
bzero(buf, sizeof(buf));
e = attr_list_path(&f, buf, sizeof(buf), ATTR_DONTFOLLOW, &cursor);
check_cwd();
if (e)
break;
alist = (attrlist_t *)buf;
if (which < ent + alist->al_count) {
aep = (attrlist_ent_t *)
&buf[alist->al_offset[which - ent]];
aname = aep->a_name;
break;
}
ent += alist->al_count;
} while (alist->al_more);
if (aname == NULL) {
if (v)
printf(
"%d/%d: attr_remove - name %d not found at %s\n",
procid, opno, which, f.path);
free_pathname(&f);
return;
}
e = attr_remove_path(&f, aname, ATTR_DONTFOLLOW) < 0 ? errno : 0;
check_cwd();
if (v)
printf("%d/%d: attr_remove %s %s %d\n",
procid, opno, f.path, aname, e);
free_pathname(&f);
}
void
attr_set_f(int opno, long r)
{
char aname[10];
char *aval;
int e;
pathname_t f;
int len;
static int lengths[] = { 10, 100, 1000, 10000 };
int li;
int v;
init_pathname(&f);
if (!get_fname(FT_ANYm, r, &f, NULL, NULL, &v))
append_pathname(&f, ".");
sprintf(aname, "a%x", nameseq++);
li = (int)(random() % (sizeof(lengths) / sizeof(lengths[0])));
len = (int)(random() % lengths[li]);
if (len == 0)
len = 1;
aval = malloc(len);
memset(aval, nameseq & 0xff, len);
e = attr_set_path(&f, aname, aval, len, ATTR_DONTFOLLOW) < 0 ?
errno : 0;
check_cwd();
free(aval);
if (v)
printf("%d/%d: attr_set %s %s %d\n", procid, opno, f.path,
aname, e);
free_pathname(&f);
}
void
awrite_f(int opno, long r)
{
#ifdef AIO
do_aio_rw(opno, r, O_WRONLY);
#endif
}
void
bulkstat_f(int opno, long r)
{
int count;
int fd;
__u64 last;
int nent;
struct xfs_bstat *t;
int64_t total;
struct xfs_fsop_bulkreq bsr;
last = 0;
nent = (r % 999) + 2;
t = malloc(nent * sizeof(*t));
fd = open(".", O_RDONLY);
total = 0;
bsr.lastip=&last;
bsr.icount=nent;
bsr.ubuffer=t;
bsr.ocount=&count;
while (xfsctl(".", fd, XFS_IOC_FSBULKSTAT, &bsr) == 0 && count > 0)
total += count;
free(t);
if (verbose)
printf("%d/%d: bulkstat nent %d total %lld\n",
procid, opno, nent, (long long)total);
close(fd);
}
void
bulkstat1_f(int opno, long r)
{
int e;
pathname_t f;
int fd;
int good;
__u64 ino;
struct stat64 s;
struct xfs_bstat t;
int v;
struct xfs_fsop_bulkreq bsr;
good = random() & 1;
if (good) {
/* use an inode we know exists */
init_pathname(&f);
if (!get_fname(FT_ANYm, r, &f, NULL, NULL, &v))
append_pathname(&f, ".");
ino = stat64_path(&f, &s) < 0 ? (ino64_t)r : s.st_ino;
check_cwd();
free_pathname(&f);
} else {
/*
* pick a random inode
*
* note this can generate kernel warning messages
* since bulkstat_one will read the disk block that
* would contain a given inode even if that disk
* block doesn't contain inodes.
*
* this is detected later, but not until after the
* warning is displayed.
*
* "XFS: device 0x825- bad inode magic/vsn daddr 0x0 #0"
*
*/
ino = (ino64_t)r;
v = verbose;
}
fd = open(".", O_RDONLY);
bsr.lastip=&ino;
bsr.icount=1;
bsr.ubuffer=&t;
bsr.ocount=NULL;
e = xfsctl(".", fd, XFS_IOC_FSBULKSTAT_SINGLE, &bsr) < 0 ? errno : 0;
if (v)
printf("%d/%d: bulkstat1 %s ino %lld %d\n",
procid, opno, good?"real":"random",
verifiable_log ? -1LL : (long long)ino, e);
close(fd);
}
void
chown_f(int opno, long r)
{
int e;
pathname_t f;
int nbits;
uid_t u;
gid_t g;
int v;
init_pathname(&f);
if (!get_fname(FT_ANYm, r, &f, NULL, NULL, &v))
append_pathname(&f, ".");
u = (uid_t)random();
g = (gid_t)random();
nbits = (int)(random() % idmodulo);
u &= (1 << nbits) - 1;
g &= (1 << nbits) - 1;
e = lchown_path(&f, u, g) < 0 ? errno : 0;
check_cwd();
if (v)
printf("%d/%d: chown %s %d/%d %d\n", procid, opno, f.path, (int)u, (int)g, e);
free_pathname(&f);
}
/* reflink some arbitrary range of f1 to f2. */
void
clonerange_f(
int opno,
long r)
{
#ifdef FICLONERANGE
struct file_clone_range fcr;
struct pathname fpath1;
struct pathname fpath2;
struct stat64 stat1;
struct stat64 stat2;
char inoinfo1[1024];
char inoinfo2[1024];
off64_t lr;
off64_t off1;
off64_t off2;
off64_t max_off2;
size_t len;
int v1;
int v2;
int fd1;
int fd2;
int ret;
int e;
/* Load paths */
init_pathname(&fpath1);
if (!get_fname(FT_REGm, r, &fpath1, NULL, NULL, &v1)) {
if (v1)
printf("%d/%d: clonerange read - no filename\n",
procid, opno);
goto out_fpath1;
}
init_pathname(&fpath2);
if (!get_fname(FT_REGm, random(), &fpath2, NULL, NULL, &v2)) {
if (v2)
printf("%d/%d: clonerange write - no filename\n",
procid, opno);
goto out_fpath2;
}
/* Open files */
fd1 = open_path(&fpath1, O_RDONLY);
e = fd1 < 0 ? errno : 0;
check_cwd();
if (fd1 < 0) {
if (v1)
printf("%d/%d: clonerange read - open %s failed %d\n",
procid, opno, fpath1.path, e);
goto out_fpath2;
}
fd2 = open_path(&fpath2, O_WRONLY);
e = fd2 < 0 ? errno : 0;
check_cwd();
if (fd2 < 0) {
if (v2)
printf("%d/%d: clonerange write - open %s failed %d\n",
procid, opno, fpath2.path, e);
goto out_fd1;
}
/* Get file stats */
if (fstat64(fd1, &stat1) < 0) {
if (v1)
printf("%d/%d: clonerange read - fstat64 %s failed %d\n",
procid, opno, fpath1.path, errno);
goto out_fd2;
}
inode_info(inoinfo1, sizeof(inoinfo1), &stat1, v1);
if (fstat64(fd2, &stat2) < 0) {
if (v2)
printf("%d/%d: clonerange write - fstat64 %s failed %d\n",
procid, opno, fpath2.path, errno);
goto out_fd2;
}
inode_info(inoinfo2, sizeof(inoinfo2), &stat2, v2);
/* Calculate offsets */
len = (random() % FILELEN_MAX) + 1;
len &= ~(stat1.st_blksize - 1);
if (len == 0)
len = stat1.st_blksize;
if (len > stat1.st_size)
len = stat1.st_size;
lr = ((int64_t)random() << 32) + random();
if (stat1.st_size == len)
off1 = 0;
else
off1 = (off64_t)(lr % MIN(stat1.st_size - len, MAXFSIZE));
off1 %= maxfsize;
off1 &= ~(stat1.st_blksize - 1);
/*
* If srcfile == destfile, randomly generate destination ranges
* until we find one that doesn't overlap the source range.
*/
max_off2 = MIN(stat2.st_size + (1024ULL * stat2.st_blksize), MAXFSIZE);
do {
lr = ((int64_t)random() << 32) + random();
off2 = (off64_t)(lr % max_off2);
off2 %= maxfsize;
off2 &= ~(stat2.st_blksize - 1);
} while (stat1.st_ino == stat2.st_ino && llabs(off2 - off1) < len);
/* Clone data blocks */
fcr.src_fd = fd1;
fcr.src_offset = off1;
fcr.src_length = len;
fcr.dest_offset = off2;
ret = ioctl(fd2, FICLONERANGE, &fcr);
e = ret < 0 ? errno : 0;
if (v1 || v2) {
printf("%d/%d: clonerange %s%s [%lld,%lld] -> %s%s [%lld,%lld]",
procid, opno,
fpath1.path, inoinfo1, (long long)off1, (long long)len,
fpath2.path, inoinfo2, (long long)off2, (long long)len);
if (ret < 0)
printf(" error %d", e);
printf("\n");
}
out_fd2:
close(fd2);
out_fd1:
close(fd1);
out_fpath2:
free_pathname(&fpath2);
out_fpath1:
free_pathname(&fpath1);
#endif
}
/* copy some arbitrary range of f1 to f2. */
void
copyrange_f(
int opno,
long r)
{
#ifdef HAVE_COPY_FILE_RANGE
struct pathname fpath1;
struct pathname fpath2;
struct stat64 stat1;
struct stat64 stat2;
char inoinfo1[1024];
char inoinfo2[1024];
loff_t lr;
loff_t off1;
loff_t off2;
loff_t offset1;
loff_t offset2;
loff_t max_off2;
size_t len;
size_t length;
int tries = 0;
int v1;
int v2;
int fd1;
int fd2;
size_t ret = 0;
int e;
/* Load paths */
init_pathname(&fpath1);
if (!get_fname(FT_REGm, r, &fpath1, NULL, NULL, &v1)) {
if (v1)
printf("%d/%d: copyrange read - no filename\n",
procid, opno);
goto out_fpath1;
}
init_pathname(&fpath2);
if (!get_fname(FT_REGm, random(), &fpath2, NULL, NULL, &v2)) {
if (v2)
printf("%d/%d: copyrange write - no filename\n",
procid, opno);
goto out_fpath2;
}
/* Open files */
fd1 = open_path(&fpath1, O_RDONLY);
e = fd1 < 0 ? errno : 0;
check_cwd();
if (fd1 < 0) {
if (v1)
printf("%d/%d: copyrange read - open %s failed %d\n",
procid, opno, fpath1.path, e);
goto out_fpath2;
}
fd2 = open_path(&fpath2, O_WRONLY);
e = fd2 < 0 ? errno : 0;
check_cwd();
if (fd2 < 0) {
if (v2)
printf("%d/%d: copyrange write - open %s failed %d\n",
procid, opno, fpath2.path, e);
goto out_fd1;
}
/* Get file stats */
if (fstat64(fd1, &stat1) < 0) {
if (v1)
printf("%d/%d: copyrange read - fstat64 %s failed %d\n",
procid, opno, fpath1.path, errno);
goto out_fd2;
}
inode_info(inoinfo1, sizeof(inoinfo1), &stat1, v1);
if (fstat64(fd2, &stat2) < 0) {
if (v2)
printf("%d/%d: copyrange write - fstat64 %s failed %d\n",
procid, opno, fpath2.path, errno);
goto out_fd2;
}
inode_info(inoinfo2, sizeof(inoinfo2), &stat2, v2);
/* Calculate offsets */
len = (random() % FILELEN_MAX) + 1;
if (len == 0)
len = stat1.st_blksize;
if (len > stat1.st_size)
len = stat1.st_size;
lr = ((int64_t)random() << 32) + random();
if (stat1.st_size == len)
off1 = 0;
else
off1 = (off64_t)(lr % MIN(stat1.st_size - len, MAXFSIZE));
off1 %= maxfsize;
/*
* If srcfile == destfile, randomly generate destination ranges
* until we find one that doesn't overlap the source range.
*/
max_off2 = MIN(stat2.st_size + (1024ULL * stat2.st_blksize), MAXFSIZE);
do {
lr = ((int64_t)random() << 32) + random();
off2 = (off64_t)(lr % max_off2);
off2 %= maxfsize;
} while (stat1.st_ino == stat2.st_ino && llabs(off2 - off1) < len);
/*
* Since len, off1 and off2 will be changed later, preserve their
* original values.
*/
length = len;
offset1 = off1;
offset2 = off2;
while (len > 0) {
ret = syscall(__NR_copy_file_range, fd1, &off1, fd2, &off2,
len, 0);
if (ret < 0) {
if (errno != EAGAIN || tries++ >= 300)
break;
} else if (ret > len || ret == 0)
break;
else if (ret > 0)
len -= ret;
}
e = ret < 0 ? errno : 0;
if (v1 || v2) {
printf("%d/%d: copyrange %s%s [%lld,%lld] -> %s%s [%lld,%lld]",
procid, opno,
fpath1.path, inoinfo1,
(long long)offset1, (long long)length,
fpath2.path, inoinfo2,
(long long)offset2, (long long)length);
if (ret < 0)
printf(" error %d", e);
else if (len && ret > len)
printf(" asked for %lld, copied %lld??\n",
(long long)len, (long long)ret);
printf("\n");
}
out_fd2:
close(fd2);
out_fd1:
close(fd1);
out_fpath2:
free_pathname(&fpath2);
out_fpath1:
free_pathname(&fpath1);
#endif
}
/* dedupe some arbitrary range of f1 to f2...fn. */
void
deduperange_f(
int opno,
long r)
{
#ifdef FIDEDUPERANGE
#define INFO_SZ 1024
struct file_dedupe_range *fdr;
struct pathname *fpath;
struct stat64 *stat;
char *info;
off64_t *off;
int *v;
int *fd;
int nr;
off64_t lr;
size_t len;
int ret;
int i;
int e;
if (flist[FT_REG].nfiles < 2)
return;
/* Pick somewhere between 2 and 128 files. */
do {
nr = random() % (flist[FT_REG].nfiles + 1);
} while (nr < 2 || nr > 128);
/* Alloc memory */
fdr = malloc(nr * sizeof(struct file_dedupe_range_info) +
sizeof(struct file_dedupe_range));
if (!fdr) {
printf("%d/%d: line %d error %d\n",
procid, opno, __LINE__, errno);
return;
}
memset(fdr, 0, (nr * sizeof(struct file_dedupe_range_info) +
sizeof(struct file_dedupe_range)));
fpath = calloc(nr, sizeof(struct pathname));
if (!fpath) {
printf("%d/%d: line %d error %d\n",
procid, opno, __LINE__, errno);
goto out_fdr;
}
stat = calloc(nr, sizeof(struct stat64));
if (!stat) {
printf("%d/%d: line %d error %d\n",
procid, opno, __LINE__, errno);
goto out_paths;
}
info = calloc(nr, INFO_SZ);
if (!info) {
printf("%d/%d: line %d error %d\n",
procid, opno, __LINE__, errno);
goto out_stats;
}
off = calloc(nr, sizeof(off64_t));
if (!off) {
printf("%d/%d: line %d error %d\n",
procid, opno, __LINE__, errno);
goto out_info;
}
v = calloc(nr, sizeof(int));
if (!v) {
printf("%d/%d: line %d error %d\n",
procid, opno, __LINE__, errno);
goto out_offsets;
}
fd = calloc(nr, sizeof(int));
if (!fd) {
printf("%d/%d: line %d error %d\n",
procid, opno, __LINE__, errno);
goto out_v;
}
memset(fd, 0xFF, nr * sizeof(int));
/* Get paths for all files */
for (i = 0; i < nr; i++)
init_pathname(&fpath[i]);
if (!get_fname(FT_REGm, r, &fpath[0], NULL, NULL, &v[0])) {
if (v[0])
printf("%d/%d: deduperange read - no filename\n",
procid, opno);
goto out_pathnames;
}
for (i = 1; i < nr; i++) {
if (!get_fname(FT_REGm, random(), &fpath[i], NULL, NULL, &v[i])) {
if (v[i])
printf("%d/%d: deduperange write - no filename\n",
procid, opno);
goto out_pathnames;
}
}
/* Open files */
fd[0] = open_path(&fpath[0], O_RDONLY);
e = fd[0] < 0 ? errno : 0;
check_cwd();
if (fd[0] < 0) {
if (v[0])
printf("%d/%d: deduperange read - open %s failed %d\n",
procid, opno, fpath[0].path, e);
goto out_pathnames;
}
for (i = 1; i < nr; i++) {
fd[i] = open_path(&fpath[i], O_WRONLY);
e = fd[i] < 0 ? errno : 0;
check_cwd();
if (fd[i] < 0) {
if (v[i])
printf("%d/%d: deduperange write - open %s failed %d\n",
procid, opno, fpath[i].path, e);
goto out_fds;
}
}
/* Get file stats */
if (fstat64(fd[0], &stat[0]) < 0) {
if (v[0])
printf("%d/%d: deduperange read - fstat64 %s failed %d\n",
procid, opno, fpath[0].path, errno);
goto out_fds;
}
inode_info(&info[0], INFO_SZ, &stat[0], v[0]);
for (i = 1; i < nr; i++) {
if (fstat64(fd[i], &stat[i]) < 0) {
if (v[i])
printf("%d/%d: deduperange write - fstat64 %s failed %d\n",
procid, opno, fpath[i].path, errno);
goto out_fds;
}
inode_info(&info[i * INFO_SZ], INFO_SZ, &stat[i], v[i]);
}
/* Never try to dedupe more than half of the src file. */
len = (random() % FILELEN_MAX) + 1;
len &= ~(stat[0].st_blksize - 1);
if (len == 0)
len = stat[0].st_blksize / 2;
if (len > stat[0].st_size / 2)
len = stat[0].st_size / 2;
/* Calculate offsets */
lr = ((int64_t)random() << 32) + random();
if (stat[0].st_size == len)
off[0] = 0;
else
off[0] = (off64_t)(lr % MIN(stat[0].st_size - len, MAXFSIZE));
off[0] %= maxfsize;
off[0] &= ~(stat[0].st_blksize - 1);
/*
* If srcfile == destfile[i], randomly generate destination ranges
* until we find one that doesn't overlap the source range.
*/
for (i = 1; i < nr; i++) {
int tries = 0;
do {
lr = ((int64_t)random() << 32) + random();
if (stat[i].st_size <= len)
off[i] = 0;
else
off[i] = (off64_t)(lr % MIN(stat[i].st_size - len, MAXFSIZE));
off[i] %= maxfsize;
off[i] &= ~(stat[i].st_blksize - 1);
} while (stat[0].st_ino == stat[i].st_ino &&
llabs(off[i] - off[0]) < len &&
tries++ < 10);
}
/* Clone data blocks */
fdr->src_offset = off[0];
fdr->src_length = len;
fdr->dest_count = nr - 1;
for (i = 1; i < nr; i++) {
fdr->info[i - 1].dest_fd = fd[i];
fdr->info[i - 1].dest_offset = off[i];
}
ret = ioctl(fd[0], FIDEDUPERANGE, fdr);
e = ret < 0 ? errno : 0;
if (v[0]) {
printf("%d/%d: deduperange from %s%s [%lld,%lld]",
procid, opno,
fpath[0].path, &info[0], (long long)off[0],
(long long)len);
if (ret < 0)
printf(" error %d", e);
printf("\n");
}
if (ret < 0)
goto out_fds;
for (i = 1; i < nr; i++) {
e = fdr->info[i - 1].status < 0 ? fdr->info[i - 1].status : 0;
if (v[i]) {
printf("%d/%d: ...to %s%s [%lld,%lld]",
procid, opno,
fpath[i].path, &info[i * INFO_SZ],
(long long)off[i], (long long)len);
if (fdr->info[i - 1].status < 0)
printf(" error %d", e);
if (fdr->info[i - 1].status == FILE_DEDUPE_RANGE_SAME)
printf(" %llu bytes deduplicated",
fdr->info[i - 1].bytes_deduped);
if (fdr->info[i - 1].status == FILE_DEDUPE_RANGE_DIFFERS)
printf(" differed");
printf("\n");
}
}
out_fds:
for (i = 0; i < nr; i++)
if (fd[i] >= 0)
close(fd[i]);
out_pathnames:
for (i = 0; i < nr; i++)
free_pathname(&fpath[i]);
free(fd);
out_v:
free(v);
out_offsets:
free(off);
out_info:
free(info);
out_stats:
free(stat);
out_paths:
free(fpath);
out_fdr:
free(fdr);
#endif
}
void
setxattr_f(int opno, long r)
{
#ifdef XFS_XFLAG_EXTSIZE
struct fsxattr fsx;
int fd;
int e;
pathname_t f;
int nbits;
uint p;
int v;
init_pathname(&f);
if (!get_fname(FT_ANYm, r, &f, NULL, NULL, &v))
append_pathname(&f, ".");
fd = open_path(&f, O_RDWR);
e = fd < 0 ? errno : 0;
check_cwd();
/* project ID */
p = (uint)random();
e = MIN(idmodulo, XFS_PROJIDMODULO_MAX);
nbits = (int)(random() % e);
p &= (1 << nbits) - 1;
if ((e = xfsctl(f.path, fd, XFS_IOC_FSGETXATTR, &fsx)) == 0) {
fsx.fsx_projid = p;
e = xfsctl(f.path, fd, XFS_IOC_FSSETXATTR, &fsx);
}
if (v)
printf("%d/%d: setxattr %s %u %d\n", procid, opno, f.path, p, e);
free_pathname(&f);
close(fd);
#endif
}
void
splice_f(int opno, long r)
{
struct pathname fpath1;
struct pathname fpath2;
struct stat64 stat1;
struct stat64 stat2;
char inoinfo1[1024];
char inoinfo2[1024];
loff_t lr;
loff_t off1, off2;
size_t len;
loff_t offset1, offset2;
size_t length;
size_t total;
int v1;
int v2;
int fd1;
int fd2;
ssize_t ret1 = 0, ret2 = 0;
size_t bytes;
int e;
int filedes[2];
/* Load paths */
init_pathname(&fpath1);
if (!get_fname(FT_REGm, r, &fpath1, NULL, NULL, &v1)) {
if (v1)
printf("%d/%d: splice read - no filename\n",
procid, opno);
goto out_fpath1;
}
init_pathname(&fpath2);
if (!get_fname(FT_REGm, random(), &fpath2, NULL, NULL, &v2)) {
if (v2)
printf("%d/%d: splice write - no filename\n",
procid, opno);
goto out_fpath2;
}
/* Open files */
fd1 = open_path(&fpath1, O_RDONLY);
e = fd1 < 0 ? errno : 0;
check_cwd();
if (fd1 < 0) {
if (v1)
printf("%d/%d: splice read - open %s failed %d\n",
procid, opno, fpath1.path, e);
goto out_fpath2;
}
fd2 = open_path(&fpath2, O_WRONLY);
e = fd2 < 0 ? errno : 0;
check_cwd();
if (fd2 < 0) {
if (v2)
printf("%d/%d: splice write - open %s failed %d\n",
procid, opno, fpath2.path, e);
goto out_fd1;
}
/* Get file stats */
if (fstat64(fd1, &stat1) < 0) {
if (v1)
printf("%d/%d: splice read - fstat64 %s failed %d\n",
procid, opno, fpath1.path, errno);
goto out_fd2;
}
inode_info(inoinfo1, sizeof(inoinfo1), &stat1, v1);
if (fstat64(fd2, &stat2) < 0) {
if (v2)
printf("%d/%d: splice write - fstat64 %s failed %d\n",
procid, opno, fpath2.path, errno);
goto out_fd2;
}
inode_info(inoinfo2, sizeof(inoinfo2), &stat2, v2);
/* Calculate offsets */
len = (random() % FILELEN_MAX) + 1;
if (len == 0)
len = stat1.st_blksize;
if (len > stat1.st_size)
len = stat1.st_size;
lr = ((int64_t)random() << 32) + random();
if (stat1.st_size == len)
off1 = 0;
else
off1 = (off64_t)(lr % MIN(stat1.st_size - len, MAXFSIZE));
off1 %= maxfsize;
/*
* splice can overlap write, so the offset of the target file can be
* any number. But to avoid too large offset, add a clamp of 1024 blocks
* past the current dest file EOF
*/
lr = ((int64_t)random() << 32) + random();
off2 = (off64_t)(lr % MIN(stat2.st_size + (1024ULL * stat2.st_blksize), MAXFSIZE));
/*
* Since len, off1 and off2 will be changed later, preserve their
* original values.
*/
length = len;
offset1 = off1;
offset2 = off2;
/* Pipe initialize */
if (pipe(filedes) < 0) {
if (v1 || v2) {
printf("%d/%d: splice - pipe failed %d\n",
procid, opno, errno);
goto out_fd2;
}
}
bytes = 0;
total = 0;
while (len > 0) {
/* move to pipe buffer */
ret1 = splice(fd1, &off1, filedes[1], NULL, len, 0);
if (ret1 <= 0) {
break;
}
bytes = ret1;
/* move from pipe buffer to dst file */
while (bytes > 0) {
ret2 = splice(filedes[0], NULL, fd2, &off2, bytes, 0);
if (ret2 < 0) {
break;
}
bytes -= ret2;
}
if (ret2 < 0)
break;
len -= ret1;
total += ret1;
}
if (ret1 < 0 || ret2 < 0)
e = errno;
else
e = 0;
if (v1 || v2) {
printf("%d/%d: splice %s%s [%lld,%lld] -> %s%s [%lld,%lld] %d",
procid, opno,
fpath1.path, inoinfo1, (long long)offset1, (long long)length,
fpath2.path, inoinfo2, (long long)offset2, (long long)length, e);
if (length && length > total)
printf(" asked for %lld, spliced %lld??\n",
(long long)length, (long long)total);
printf("\n");
}
close(filedes[0]);
close(filedes[1]);
out_fd2:
close(fd2);
out_fd1:
close(fd1);
out_fpath2:
free_pathname(&fpath2);
out_fpath1:
free_pathname(&fpath1);
}
void
creat_f(int opno, long r)
{
struct fsxattr a;
int e;
int e1;
int extsize;
pathname_t f;
int fd;
fent_t *fep;
int id;
int parid;
int type;
int v;
int v1;
if (!get_fname(FT_DIRm, r, NULL, NULL, &fep, &v1))
parid = -1;
else
parid = fep->id;
init_pathname(&f);
e1 = (random() % 100);
type = rtpct ? ((e1 > rtpct) ? FT_REG : FT_RTF) : FT_REG;
#ifdef NOTYET
if (type == FT_RTF) /* rt always gets an extsize */
extsize = (random() % 10) + 1;
else if (e1 < 10) /* one-in-ten get an extsize */
extsize = random() % 1024;
else
#endif
extsize = 0;
e = generate_fname(fep, type, &f, &id, &v);
v |= v1;
if (!e) {
if (v) {
(void)fent_to_name(&f, fep);
printf("%d/%d: creat - no filename from %s\n",
procid, opno, f.path);
}
free_pathname(&f);
return;
}
fd = creat_path(&f, 0666);
e = fd < 0 ? errno : 0;
e1 = 0;
check_cwd();
if (fd >= 0) {
if (extsize &&
xfsctl(f.path, fd, XFS_IOC_FSGETXATTR, &a) >= 0) {
if (type == FT_RTF) {
a.fsx_xflags |= XFS_XFLAG_REALTIME;
a.fsx_extsize = extsize *
geom.rtextsize * geom.blocksize;
#ifdef NOTYET
} else if (extsize) {
a.fsx_xflags |= XFS_XFLAG_EXTSIZE;
a.fsx_extsize = extsize * geom.blocksize;
#endif
}
if (xfsctl(f.path, fd, XFS_IOC_FSSETXATTR, &a) < 0)
e1 = errno;
}
add_to_flist(type, id, parid, 0);
close(fd);
}
if (v) {
printf("%d/%d: creat %s x:%d %d %d\n", procid, opno, f.path,
extsize ? a.fsx_extsize : 0, e, e1);
printf("%d/%d: creat add id=%d,parent=%d\n", procid, opno, id, parid);
}
free_pathname(&f);
}
void
dread_f(int opno, long r)
{
int64_t align;
char *buf;
struct dioattr diob;
int e;
pathname_t f;
int fd;
size_t len;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
char *dio_env;
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: dread - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_RDONLY|O_DIRECT);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: dread - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: dread - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
if (stb.st_size == 0) {
if (v)
printf("%d/%d: dread - %s%s zero size\n", procid, opno,
f.path, st);
free_pathname(&f);
close(fd);
return;
}
if (xfsctl(f.path, fd, XFS_IOC_DIOINFO, &diob) < 0) {
if (v)
printf(
"%d/%d: dread - xfsctl(XFS_IOC_DIOINFO) %s%s return %d,"
" fallback to stat()\n",
procid, opno, f.path, st, errno);
diob.d_mem = diob.d_miniosz = stb.st_blksize;
diob.d_maxiosz = INT_MAX & ~(diob.d_miniosz - 1);
}
dio_env = getenv("XFS_DIO_MIN");
if (dio_env)
diob.d_mem = diob.d_miniosz = atoi(dio_env);
align = (int64_t)diob.d_miniosz;
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % stb.st_size);
off -= (off % align);
lseek64(fd, off, SEEK_SET);
len = (random() % FILELEN_MAX) + 1;
len -= (len % align);
if (len <= 0)
len = align;
else if (len > diob.d_maxiosz)
len = diob.d_maxiosz;
buf = memalign(diob.d_mem, len);
e = read(fd, buf, len) < 0 ? errno : 0;
free(buf);
if (v)
printf("%d/%d: dread %s%s [%lld,%d] %d\n",
procid, opno, f.path, st, (long long)off, (int)len, e);
free_pathname(&f);
close(fd);
}
void
dwrite_f(int opno, long r)
{
int64_t align;
char *buf;
struct dioattr diob;
int e;
pathname_t f;
int fd;
size_t len;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
char *dio_env;
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: dwrite - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_WRONLY|O_DIRECT);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: dwrite - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: dwrite - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
if (xfsctl(f.path, fd, XFS_IOC_DIOINFO, &diob) < 0) {
if (v)
printf("%d/%d: dwrite - xfsctl(XFS_IOC_DIOINFO)"
" %s%s return %d, fallback to stat()\n",
procid, opno, f.path, st, errno);
diob.d_mem = diob.d_miniosz = stb.st_blksize;
diob.d_maxiosz = INT_MAX & ~(diob.d_miniosz - 1);
}
dio_env = getenv("XFS_DIO_MIN");
if (dio_env)
diob.d_mem = diob.d_miniosz = atoi(dio_env);
align = (int64_t)diob.d_miniosz;
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % MIN(stb.st_size + (1024 * 1024), MAXFSIZE));
off -= (off % align);
lseek64(fd, off, SEEK_SET);
len = (random() % FILELEN_MAX) + 1;
len -= (len % align);
if (len <= 0)
len = align;
else if (len > diob.d_maxiosz)
len = diob.d_maxiosz;
buf = memalign(diob.d_mem, len);
off %= maxfsize;
lseek64(fd, off, SEEK_SET);
memset(buf, nameseq & 0xff, len);
e = write(fd, buf, len) < 0 ? errno : 0;
free(buf);
if (v)
printf("%d/%d: dwrite %s%s [%lld,%d] %d\n",
procid, opno, f.path, st, (long long)off, (int)len, e);
free_pathname(&f);
close(fd);
}
#ifdef HAVE_LINUX_FALLOC_H
struct print_flags falloc_flags [] = {
{ FALLOC_FL_KEEP_SIZE, "KEEP_SIZE"},
{ FALLOC_FL_PUNCH_HOLE, "PUNCH_HOLE"},
{ FALLOC_FL_NO_HIDE_STALE, "NO_HIDE_STALE"},
{ FALLOC_FL_COLLAPSE_RANGE, "COLLAPSE_RANGE"},
{ FALLOC_FL_ZERO_RANGE, "ZERO_RANGE"},
{ FALLOC_FL_INSERT_RANGE, "INSERT_RANGE"},
{ -1, NULL}
};
#define translate_falloc_flags(mode) \
({translate_flags(mode, "|", falloc_flags);})
#endif
void
do_fallocate(int opno, long r, int mode)
{
#ifdef HAVE_LINUX_FALLOC_H
int e;
pathname_t f;
int fd;
int64_t lr;
off64_t off;
off64_t len;
struct stat64 stb;
int v;
char st[1024];
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: do_fallocate - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_RDWR);
if (fd < 0) {
if (v)
printf("%d/%d: do_fallocate - open %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
return;
}
check_cwd();
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: do_fallocate - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % MIN(stb.st_size + (1024 * 1024), MAXFSIZE));
off %= maxfsize;
len = (off64_t)(random() % (1024 * 1024));
/*
* Collapse/insert range requires off and len to be block aligned,
* make it more likely to be the case.
*/
if ((mode & (FALLOC_FL_COLLAPSE_RANGE | FALLOC_FL_INSERT_RANGE)) &&
(opno % 2)) {
off = ((off + stb.st_blksize - 1) & ~(stb.st_blksize - 1));
len = ((len + stb.st_blksize - 1) & ~(stb.st_blksize - 1));
}
mode |= FALLOC_FL_KEEP_SIZE & random();
e = fallocate(fd, mode, (loff_t)off, (loff_t)len) < 0 ? errno : 0;
if (v)
printf("%d/%d: fallocate(%s) %s %st %lld %lld %d\n",
procid, opno, translate_falloc_flags(mode),
f.path, st, (long long)off, (long long)len, e);
free_pathname(&f);
close(fd);
#endif
}
void
fallocate_f(int opno, long r)
{
#ifdef HAVE_LINUX_FALLOC_H
do_fallocate(opno, r, 0);
#endif
}
void
fdatasync_f(int opno, long r)
{
int e;
pathname_t f;
int fd;
int v;
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: fdatasync - no filename\n",
procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_WRONLY);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: fdatasync - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
e = fdatasync(fd) < 0 ? errno : 0;
if (v)
printf("%d/%d: fdatasync %s %d\n", procid, opno, f.path, e);
free_pathname(&f);
close(fd);
}
#ifdef HAVE_LINUX_FIEMAP_H
struct print_flags fiemap_flags[] = {
{ FIEMAP_FLAG_SYNC, "SYNC"},
{ FIEMAP_FLAG_XATTR, "XATTR"},
{ -1, NULL}
};
#define translate_fiemap_flags(mode) \
({translate_flags(mode, "|", fiemap_flags);})
#endif
void
fiemap_f(int opno, long r)
{
#ifdef HAVE_LINUX_FIEMAP_H
int e;
pathname_t f;
int fd;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
int blocks_to_map;
struct fiemap *fiemap;
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: fiemap - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_RDWR);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: fiemap - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: fiemap - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
blocks_to_map = random() & 0xffff;
fiemap = (struct fiemap *)malloc(sizeof(struct fiemap) +
(blocks_to_map * sizeof(struct fiemap_extent)));
if (!fiemap) {
if (v)
printf("%d/%d: malloc failed \n", procid, opno);
free_pathname(&f);
close(fd);
return;
}
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % MIN(stb.st_size + (1024 * 1024), MAXFSIZE));
off %= maxfsize;
fiemap->fm_flags = random() & (FIEMAP_FLAGS_COMPAT | 0x10000);
fiemap->fm_extent_count = blocks_to_map;
fiemap->fm_mapped_extents = random() & 0xffff;
fiemap->fm_start = off;
fiemap->fm_length = ((int64_t)random() << 32) + random();
e = ioctl(fd, FS_IOC_FIEMAP, (unsigned long)fiemap);
if (v)
printf("%d/%d: ioctl(FIEMAP) %s%s %lld %lld (%s) %d\n",
procid, opno, f.path, st, (long long)fiemap->fm_start,
(long long) fiemap->fm_length,
translate_fiemap_flags(fiemap->fm_flags), e);
free(fiemap);
free_pathname(&f);
close(fd);
#endif
}
void
freesp_f(int opno, long r)
{
int e;
pathname_t f;
int fd;
struct xfs_flock64 fl;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: freesp - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_RDWR);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: freesp - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: freesp - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % MIN(stb.st_size + (1024 * 1024), MAXFSIZE));
off %= maxfsize;
fl.l_whence = SEEK_SET;
fl.l_start = off;
fl.l_len = 0;
e = xfsctl(f.path, fd, XFS_IOC_FREESP64, &fl) < 0 ? errno : 0;
if (v)
printf("%d/%d: xfsctl(XFS_IOC_FREESP64) %s%s %lld 0 %d\n",
procid, opno, f.path, st, (long long)off, e);
free_pathname(&f);
close(fd);
}
void
fsync_f(int opno, long r)
{
int e;
pathname_t f;
int fd;
int v;
init_pathname(&f);
if (!get_fname(FT_REGFILE | FT_DIRm, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: fsync - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_file_or_dir(&f, O_WRONLY);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: fsync - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
e = fsync(fd) < 0 ? errno : 0;
if (v)
printf("%d/%d: fsync %s %d\n", procid, opno, f.path, e);
free_pathname(&f);
close(fd);
}
char *
gen_random_string(int len)
{
static const char charset[] = "0123456789"
"abcdefghijklmnopqrstuvwxyz"
"ABCDEFGHIJKLMNOPQRSTUVWXYZ";
int i;
char *s;
if (len == 0)
return NULL;
s = malloc(len);
if (!s)
return NULL;
for (i = 0; i < len; i++)
s[i] = charset[random() % sizeof(charset)];
return s;
}
void
getattr_f(int opno, long r)
{
int fd;
int e;
pathname_t f;
uint fl;
int v;
init_pathname(&f);
if (!get_fname(FT_ANYm, r, &f, NULL, NULL, &v))
append_pathname(&f, ".");
fd = open_path(&f, O_RDWR);
e = fd < 0 ? errno : 0;
check_cwd();
e = ioctl(fd, FS_IOC_GETFLAGS, &fl);
if (v)
printf("%d/%d: getattr %s %u %d\n", procid, opno, f.path, fl, e);
free_pathname(&f);
close(fd);
}
void
getdents_f(int opno, long r)
{
DIR *dir;
pathname_t f;
int v;
init_pathname(&f);
if (!get_fname(FT_DIRm, r, &f, NULL, NULL, &v))
append_pathname(&f, ".");
dir = opendir_path(&f);
check_cwd();
if (dir == NULL) {
if (v)
printf("%d/%d: getdents - can't open %s\n",
procid, opno, f.path);
free_pathname(&f);
return;
}
while (readdir64(dir) != NULL)
continue;
if (v)
printf("%d/%d: getdents %s 0\n", procid, opno, f.path);
free_pathname(&f);
closedir(dir);
}
void
getfattr_f(int opno, long r)
{
fent_t *fep;
int e;
pathname_t f;
int v;
char name[XATTR_NAME_BUF_SIZE];
char *value = NULL;
int value_len;
int xattr_num;
init_pathname(&f);
if (!get_fname(FT_REGFILE | FT_DIRm, r, &f, NULL, &fep, &v)) {
if (v)
printf("%d/%d: getfattr - no filename\n", procid, opno);
goto out;
}
check_cwd();
/*
* If the file/dir has xattrs, pick one randomly, otherwise attempt
* to read a xattr that doesn't exist (fgetxattr should fail with
* errno set to ENOATTR (61) in this case).
*/
if (fep->xattr_counter > 0)
xattr_num = (random() % fep->xattr_counter) + 1;
else
xattr_num = 0;
e = generate_xattr_name(xattr_num, name, sizeof(name));
if (e < 0) {
printf("%d/%d: getfattr - file %s failed to generate xattr name: %d\n",
procid, opno, f.path, e);
goto out;
}
value_len = getxattr(f.path, name, NULL, 0);
if (value_len < 0) {
if (v)
printf("%d/%d: getfattr file %s name %s failed %d\n",
procid, opno, f.path, name, errno);
goto out;
}
/* A xattr without value.*/
if (value_len == 0) {
e = 0;
goto out_log;
}
value = malloc(value_len);
if (!value) {
if (v)
printf("%d/%d: getfattr file %s failed to allocate buffer with %d bytes\n",
procid, opno, f.path, value_len);
goto out;
}
e = getxattr(f.path, name, value, value_len) < 0 ? errno : 0;
out_log:
if (v)
printf("%d/%d: getfattr file %s name %s value length %d %d\n",
procid, opno, f.path, name, value_len, e);
out:
free(value);
free_pathname(&f);
}
void
link_f(int opno, long r)
{
int e;
pathname_t f;
fent_t *fep;
fent_t *fep_src;
flist_t *flp;
int id;
pathname_t l;
int parid;
int v;
int v1;
init_pathname(&f);
if (!get_fname(FT_NOTDIR, r, &f, &flp, &fep_src, &v1)) {
if (v1)
printf("%d/%d: link - no file\n", procid, opno);
free_pathname(&f);
return;
}
if (!get_fname(FT_DIRm, random(), NULL, NULL, &fep, &v))
parid = -1;
else
parid = fep->id;
v |= v1;
init_pathname(&l);
e = generate_fname(fep, flp - flist, &l, &id, &v1);
v |= v1;
if (!e) {
if (v) {
(void)fent_to_name(&l, fep);
printf("%d/%d: link - no filename from %s\n",
procid, opno, l.path);
}
free_pathname(&l);
free_pathname(&f);
return;
}
e = link_path(&f, &l) < 0 ? errno : 0;
check_cwd();
if (e == 0)
add_to_flist(flp - flist, id, parid, fep_src->xattr_counter);
if (v) {
printf("%d/%d: link %s %s %d\n", procid, opno, f.path, l.path,
e);
printf("%d/%d: link add id=%d,parent=%d\n", procid, opno, id, parid);
}
free_pathname(&l);
free_pathname(&f);
}
void
listfattr_f(int opno, long r)
{
fent_t *fep;
int e;
pathname_t f;
int v;
char *buffer = NULL;
int buffer_len;
init_pathname(&f);
if (!get_fname(FT_REGFILE | FT_DIRm, r, &f, NULL, &fep, &v)) {
if (v)
printf("%d/%d: listfattr - no filename\n", procid, opno);
goto out;
}
check_cwd();
e = listxattr(f.path, NULL, 0);
if (e < 0) {
if (v)
printf("%d/%d: listfattr %s failed %d\n",
procid, opno, f.path, errno);
goto out;
}
buffer_len = e;
if (buffer_len == 0) {
if (v)
printf("%d/%d: listfattr %s - has no extended attributes\n",
procid, opno, f.path);
goto out;
}
buffer = malloc(buffer_len);
if (!buffer) {
if (v)
printf("%d/%d: listfattr %s failed to allocate buffer with %d bytes\n",
procid, opno, f.path, buffer_len);
goto out;
}
e = listxattr(f.path, buffer, buffer_len) < 0 ? errno : 0;
if (v)
printf("%d/%d: listfattr %s buffer length %d %d\n",
procid, opno, f.path, buffer_len, e);
out:
free(buffer);
free_pathname(&f);
}
void
mkdir_f(int opno, long r)
{
int e;
pathname_t f;
fent_t *fep;
int id;
int parid;
int v;
int v1;
if (!get_fname(FT_DIRm, r, NULL, NULL, &fep, &v))
parid = -1;
else
parid = fep->id;
init_pathname(&f);
e = generate_fname(fep, FT_DIR, &f, &id, &v1);
v |= v1;
if (!e) {
if (v) {
(void)fent_to_name(&f, fep);
printf("%d/%d: mkdir - no filename from %s\n",
procid, opno, f.path);
}
free_pathname(&f);
return;
}
e = mkdir_path(&f, 0777) < 0 ? errno : 0;
check_cwd();
if (e == 0)
add_to_flist(FT_DIR, id, parid, 0);
if (v) {
printf("%d/%d: mkdir %s %d\n", procid, opno, f.path, e);
printf("%d/%d: mkdir add id=%d,parent=%d\n", procid, opno, id, parid);
}
free_pathname(&f);
}
void
mknod_f(int opno, long r)
{
int e;
pathname_t f;
fent_t *fep;
int id;
int parid;
int v;
int v1;
if (!get_fname(FT_DIRm, r, NULL, NULL, &fep, &v))
parid = -1;
else
parid = fep->id;
init_pathname(&f);
e = generate_fname(fep, FT_DEV, &f, &id, &v1);
v |= v1;
if (!e) {
if (v) {
(void)fent_to_name(&f, fep);
printf("%d/%d: mknod - no filename from %s\n",
procid, opno, f.path);
}
free_pathname(&f);
return;
}
e = mknod_path(&f, S_IFCHR|0444, 0) < 0 ? errno : 0;
check_cwd();
if (e == 0)
add_to_flist(FT_DEV, id, parid, 0);
if (v) {
printf("%d/%d: mknod %s %d\n", procid, opno, f.path, e);
printf("%d/%d: mknod add id=%d,parent=%d\n", procid, opno, id, parid);
}
free_pathname(&f);
}
#ifdef HAVE_SYS_MMAN_H
struct print_flags mmap_flags[] = {
{ MAP_SHARED, "SHARED"},
{ MAP_PRIVATE, "PRIVATE"},
{ -1, NULL}
};
#define translate_mmap_flags(flags) \
({translate_flags(flags, "|", mmap_flags);})
#endif
void
do_mmap(int opno, long r, int prot)
{
#ifdef HAVE_SYS_MMAN_H
char *addr;
int e;
pathname_t f;
int fd;
size_t len;
int64_t lr;
off64_t off;
int flags;
struct stat64 stb;
int v;
char st[1024];
sigjmp_buf sigbus_jmpbuf;
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: do_mmap - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_RDWR);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: do_mmap - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: do_mmap - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
if (stb.st_size == 0) {
if (v)
printf("%d/%d: do_mmap - %s%s zero size\n", procid, opno,
f.path, st);
free_pathname(&f);
close(fd);
return;
}
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % stb.st_size);
off &= (off64_t)(~(sysconf(_SC_PAGE_SIZE) - 1));
len = (size_t)(random() % MIN(stb.st_size - off, FILELEN_MAX)) + 1;
flags = (random() % 2) ? MAP_SHARED : MAP_PRIVATE;
addr = mmap(NULL, len, prot, flags, fd, off);
e = (addr == MAP_FAILED) ? errno : 0;
if (e) {
if (v)
printf("%d/%d: do_mmap - mmap failed %s%s [%lld,%d,%s] %d\n",
procid, opno, f.path, st, (long long)off,
(int)len, translate_mmap_flags(flags), e);
free_pathname(&f);
close(fd);
return;
}
if (prot & PROT_WRITE) {
if ((e = sigsetjmp(sigbus_jmpbuf, 1)) == 0) {
sigbus_jmp = &sigbus_jmpbuf;
memset(addr, nameseq & 0xff, len);
}
} else {
char *buf;
if ((buf = malloc(len)) != NULL) {
memcpy(buf, addr, len);
free(buf);
}
}
munmap(addr, len);
/* set NULL to stop other functions from doing siglongjmp */
sigbus_jmp = NULL;
if (v)
printf("%d/%d: %s %s%s [%lld,%d,%s] %s\n",
procid, opno, (prot & PROT_WRITE) ? "mwrite" : "mread",
f.path, st, (long long)off, (int)len,
translate_mmap_flags(flags),
(e == 0) ? "0" : "Bus error");
free_pathname(&f);
close(fd);
#endif
}
void
mread_f(int opno, long r)
{
#ifdef HAVE_SYS_MMAN_H
do_mmap(opno, r, PROT_READ);
#endif
}
void
mwrite_f(int opno, long r)
{
#ifdef HAVE_SYS_MMAN_H
do_mmap(opno, r, PROT_WRITE);
#endif
}
void
punch_f(int opno, long r)
{
#ifdef HAVE_LINUX_FALLOC_H
do_fallocate(opno, r, FALLOC_FL_PUNCH_HOLE);
#endif
}
void
zero_f(int opno, long r)
{
#ifdef HAVE_LINUX_FALLOC_H
do_fallocate(opno, r, FALLOC_FL_ZERO_RANGE);
#endif
}
void
collapse_f(int opno, long r)
{
#ifdef HAVE_LINUX_FALLOC_H
do_fallocate(opno, r, FALLOC_FL_COLLAPSE_RANGE);
#endif
}
void
insert_f(int opno, long r)
{
#ifdef HAVE_LINUX_FALLOC_H
do_fallocate(opno, r, FALLOC_FL_INSERT_RANGE);
#endif
}
void
read_f(int opno, long r)
{
char *buf;
int e;
pathname_t f;
int fd;
size_t len;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: read - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_RDONLY);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: read - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: read - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
if (stb.st_size == 0) {
if (v)
printf("%d/%d: read - %s%s zero size\n", procid, opno,
f.path, st);
free_pathname(&f);
close(fd);
return;
}
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % stb.st_size);
lseek64(fd, off, SEEK_SET);
len = (random() % FILELEN_MAX) + 1;
buf = malloc(len);
e = read(fd, buf, len) < 0 ? errno : 0;
free(buf);
if (v)
printf("%d/%d: read %s%s [%lld,%d] %d\n",
procid, opno, f.path, st, (long long)off, (int)len, e);
free_pathname(&f);
close(fd);
}
void
readlink_f(int opno, long r)
{
char buf[PATH_MAX];
int e;
pathname_t f;
int v;
init_pathname(&f);
if (!get_fname(FT_SYMm, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: readlink - no filename\n", procid, opno);
free_pathname(&f);
return;
}
e = readlink_path(&f, buf, PATH_MAX) < 0 ? errno : 0;
check_cwd();
if (v)
printf("%d/%d: readlink %s %d\n", procid, opno, f.path, e);
free_pathname(&f);
}
void
readv_f(int opno, long r)
{
char *buf;
int e;
pathname_t f;
int fd;
size_t len;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
struct iovec *iov = NULL;
int iovcnt;
size_t iovb;
size_t iovl;
int i;
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: readv - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_RDONLY);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: readv - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: readv - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
if (stb.st_size == 0) {
if (v)
printf("%d/%d: readv - %s%s zero size\n", procid, opno,
f.path, st);
free_pathname(&f);
close(fd);
return;
}
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % stb.st_size);
lseek64(fd, off, SEEK_SET);
len = (random() % FILELEN_MAX) + 1;
buf = malloc(len);
iovcnt = (random() % MIN(len, IOV_MAX)) + 1;
iov = calloc(iovcnt, sizeof(struct iovec));
iovl = len / iovcnt;
iovb = 0;
for (i=0; i<iovcnt; i++) {
(iov + i)->iov_base = (buf + iovb);
(iov + i)->iov_len = iovl;
iovb += iovl;
}
e = readv(fd, iov, iovcnt) < 0 ? errno : 0;
free(buf);
if (v)
printf("%d/%d: readv %s%s [%lld,%d,%d] %d\n",
procid, opno, f.path, st, (long long)off, (int)iovl,
iovcnt, e);
free_pathname(&f);
close(fd);
}
void
removefattr_f(int opno, long r)
{
fent_t *fep;
int e;
pathname_t f;
int v;
char name[XATTR_NAME_BUF_SIZE];
int xattr_num;
init_pathname(&f);
if (!get_fname(FT_REGFILE | FT_DIRm, r, &f, NULL, &fep, &v)) {
if (v)
printf("%d/%d: removefattr - no filename\n", procid, opno);
goto out;
}
check_cwd();
/*
* If the file/dir has xattrs, pick one randomly, otherwise attempt to
* remove a xattr that doesn't exist (fremovexattr should fail with
* errno set to ENOATTR (61) in this case).
*/
if (fep->xattr_counter > 0)
xattr_num = (random() % fep->xattr_counter) + 1;
else
xattr_num = 0;
e = generate_xattr_name(xattr_num, name, sizeof(name));
if (e < 0) {
printf("%d/%d: removefattr - file %s failed to generate xattr name: %d\n",
procid, opno, f.path, e);
goto out;
}
e = removexattr(f.path, name) < 0 ? errno : 0;
if (v)
printf("%d/%d: removefattr file %s name %s %d\n",
procid, opno, f.path, name, e);
out:
free_pathname(&f);
}
struct print_flags renameat2_flags [] = {
{ RENAME_NOREPLACE, "NOREPLACE"},
{ RENAME_EXCHANGE, "EXCHANGE"},
{ RENAME_WHITEOUT, "WHITEOUT"},
{ -1, NULL}
};
#define translate_renameat2_flags(mode) \
({translate_flags(mode, "|", renameat2_flags);})
void
do_renameat2(int opno, long r, int mode)
{
fent_t *dfep;
int e;
pathname_t f;
fent_t *fep;
flist_t *flp;
int id;
pathname_t newf;
int oldid;
int parid;
int oldparid;
int which;
int v;
int v1;
/* get an existing path for the source of the rename */
init_pathname(&f);
which = (mode == RENAME_WHITEOUT) ? FT_DEVm : FT_ANYm;
if (!get_fname(which, r, &f, &flp, &fep, &v1)) {
if (v1)
printf("%d/%d: rename - no source filename\n",
procid, opno);
free_pathname(&f);
return;
}
/*
* Both pathnames must exist for the RENAME_EXCHANGE, and in
* order to maintain filelist/filename integrity, we should
* restrict exchange operation to files of the same type.
*/
if (mode == RENAME_EXCHANGE) {
which = 1 << (flp - flist);
init_pathname(&newf);
if (!get_fname(which, random(), &newf, NULL, &dfep, &v)) {
if (v)
printf("%d/%d: rename - no target filename\n",
procid, opno);
free_pathname(&newf);
free_pathname(&f);
return;
}
if (which == FT_DIRm && (fents_ancestor_check(fep, dfep) ||
fents_ancestor_check(dfep, fep))) {
if (v)
printf("%d/%d: rename(REXCHANGE) %s and %s "
"have ancestor-descendant relationship\n",
procid, opno, f.path, newf.path);
free_pathname(&newf);
free_pathname(&f);
return;
}
v |= v1;
id = dfep->id;
parid = dfep->parent;
} else {
/*
* Get an existing directory for the destination parent
* directory name.
*/
if (!get_fname(FT_DIRm, random(), NULL, NULL, &dfep, &v))
parid = -1;
else
parid = dfep->id;
v |= v1;
/*
* Generate a new path using an existing parent directory
* in name.
*/
init_pathname(&newf);
e = generate_fname(dfep, flp - flist, &newf, &id, &v1);
v |= v1;
if (!e) {
if (v) {
(void)fent_to_name(&f, dfep);
printf("%d/%d: rename - no filename from %s\n",
procid, opno, f.path);
}
free_pathname(&newf);
free_pathname(&f);
return;
}
}
e = rename_path(&f, &newf, mode) < 0 ? errno : 0;
check_cwd();
if (e == 0) {
int xattr_counter = fep->xattr_counter;
bool swap = (mode == RENAME_EXCHANGE) ? true : false;
int ft = flp - flist;
oldid = fep->id;
oldparid = fep->parent;
/*
* Swap the parent ids for RENAME_EXCHANGE, and replace the
* old parent id for the others.
*/
if (ft == FT_DIR || ft == FT_SUBVOL)
fix_parent(oldid, id, swap);
if (mode == RENAME_WHITEOUT) {
fep->xattr_counter = 0;
add_to_flist(flp - flist, id, parid, xattr_counter);
} else if (mode == RENAME_EXCHANGE) {
fep->xattr_counter = dfep->xattr_counter;
dfep->xattr_counter = xattr_counter;
} else {
del_from_flist(flp - flist, fep - flp->fents);
add_to_flist(flp - flist, id, parid, xattr_counter);
}
}
if (v) {
printf("%d/%d: rename(%s) %s to %s %d\n", procid,
opno, translate_renameat2_flags(mode), f.path,
newf.path, e);
if (e == 0) {
printf("%d/%d: rename source entry: id=%d,parent=%d\n",
procid, opno, oldid, oldparid);
printf("%d/%d: rename target entry: id=%d,parent=%d\n",
procid, opno, id, parid);
}
}
free_pathname(&newf);
free_pathname(&f);
}
void
rename_f(int opno, long r)
{
do_renameat2(opno, r, 0);
}
void
rnoreplace_f(int opno, long r)
{
do_renameat2(opno, r, RENAME_NOREPLACE);
}
void
rexchange_f(int opno, long r)
{
do_renameat2(opno, r, RENAME_EXCHANGE);
}
void
rwhiteout_f(int opno, long r)
{
do_renameat2(opno, r, RENAME_WHITEOUT);
}
void
resvsp_f(int opno, long r)
{
int e;
pathname_t f;
int fd;
struct xfs_flock64 fl;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: resvsp - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_RDWR);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: resvsp - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: resvsp - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % MIN(stb.st_size + (1024 * 1024), MAXFSIZE));
off %= maxfsize;
fl.l_whence = SEEK_SET;
fl.l_start = off;
fl.l_len = (off64_t)(random() % (1024 * 1024));
e = xfsctl(f.path, fd, XFS_IOC_RESVSP64, &fl) < 0 ? errno : 0;
if (v)
printf("%d/%d: xfsctl(XFS_IOC_RESVSP64) %s%s %lld %lld %d\n",
procid, opno, f.path, st,
(long long)off, (long long)fl.l_len, e);
free_pathname(&f);
close(fd);
}
void
rmdir_f(int opno, long r)
{
int e;
pathname_t f;
fent_t *fep;
int oldid;
int oldparid;
int v;
init_pathname(&f);
if (!get_fname(FT_DIRm, r, &f, NULL, &fep, &v)) {
if (v)
printf("%d/%d: rmdir - no directory\n", procid, opno);
free_pathname(&f);
return;
}
e = rmdir_path(&f) < 0 ? errno : 0;
check_cwd();
if (e == 0) {
oldid = fep->id;
oldparid = fep->parent;
del_from_flist(FT_DIR, fep - flist[FT_DIR].fents);
}
if (v) {
printf("%d/%d: rmdir %s %d\n", procid, opno, f.path, e);
if (e == 0)
printf("%d/%d: rmdir del entry: id=%d,parent=%d\n",
procid, opno, oldid, oldparid);
}
free_pathname(&f);
}
void
setattr_f(int opno, long r)
{
int fd;
int e;
pathname_t f;
uint fl;
int v;
init_pathname(&f);
if (!get_fname(FT_ANYm, r, &f, NULL, NULL, &v))
append_pathname(&f, ".");
fd = open_path(&f, O_RDWR);
e = fd < 0 ? errno : 0;
check_cwd();
fl = attr_mask & (uint)random();
e = ioctl(fd, FS_IOC_SETFLAGS, &fl);
if (v)
printf("%d/%d: setattr %s %x %d\n", procid, opno, f.path, fl, e);
free_pathname(&f);
close(fd);
}
void
setfattr_f(int opno, long r)
{
int e;
pathname_t f;
fent_t *fep;
int v;
int value_len;
char name[XATTR_NAME_BUF_SIZE];
char *value = NULL;
int flag = 0;
int xattr_num;
init_pathname(&f);
if (!get_fname(FT_REGFILE | FT_DIRm, r, &f, NULL, &fep, &v)) {
if (v)
printf("%d/%d: setfattr - no filename\n", procid, opno);
goto out;
}
check_cwd();
if ((fep->xattr_counter > 0) && (random() % 2)) {
/*
* Use an existing xattr name for replacing its value or
* create again a xattr that was previously deleted.
*/
xattr_num = (random() % fep->xattr_counter) + 1;
if (random() % 2)
flag = XATTR_REPLACE;
} else {
/* Use a new xattr name. */
xattr_num = fep->xattr_counter + 1;
/*
* Don't always use the create flag because even if our xattr
* counter is 0, we may still have xattrs associated to this
* file (this happens when xattrs are added to a file through
* one of its other hard links), so we can end up updating an
* existing xattr too.
*/
if (random() % 2)
flag = XATTR_CREATE;
}
/*
* The maximum supported value size depends on the filesystem
* implementation, but 100 bytes is a safe value for most filesystems
* at least.
*/
value_len = random() % 101;
value = gen_random_string(value_len);
if (!value && value_len > 0) {
if (v)
printf("%d/%d: setfattr - file %s failed to allocate value with %d bytes\n",
procid, opno, f.path, value_len);
goto out;
}
e = generate_xattr_name(xattr_num, name, sizeof(name));
if (e < 0) {
printf("%d/%d: setfattr - file %s failed to generate xattr name: %d\n",
procid, opno, f.path, e);
goto out;
}
e = setxattr(f.path, name, value, value_len, flag) < 0 ? errno : 0;
if (e == 0)
fep->xattr_counter++;
if (v)
printf("%d/%d: setfattr file %s name %s flag %s value length %d: %d\n",
procid, opno, f.path, name, xattr_flag_to_string(flag),
value_len, e);
out:
free(value);
free_pathname(&f);
}
void
stat_f(int opno, long r)
{
int e;
pathname_t f;
struct stat64 stb;
int v;
init_pathname(&f);
if (!get_fname(FT_ANYm, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: stat - no entries\n", procid, opno);
free_pathname(&f);
return;
}
e = lstat64_path(&f, &stb) < 0 ? errno : 0;
check_cwd();
if (v)
printf("%d/%d: stat %s %d\n", procid, opno, f.path, e);
free_pathname(&f);
}
void
subvol_create_f(int opno, long r)
{
#ifdef HAVE_BTRFSUTIL_H
enum btrfs_util_error e;
pathname_t f;
fent_t *fep;
int id;
int parid;
int v;
int v1;
int err;
init_pathname(&f);
if (!get_fname(FT_DIRm | FT_SUBVOLm, r, NULL, NULL, &fep, &v))
parid = -1;
else
parid = fep->id;
err = generate_fname(fep, FT_SUBVOL, &f, &id, &v1);
v |= v1;
if (!err) {
if (v) {
(void)fent_to_name(&f, fep);
printf("%d/%d: subvol_create - no filename from %s\n",
procid, opno, f.path);
}
free_pathname(&f);
return;
}
e = btrfs_util_create_subvolume(f.path, 0, NULL, NULL);
if (e == BTRFS_UTIL_OK)
add_to_flist(FT_SUBVOL, id, parid, 0);
if (v) {
printf("%d/%d: subvol_create %s %d(%s)\n", procid, opno,
f.path, e, btrfs_util_strerror(e));
printf("%d/%d: subvol_create add id=%d,parent=%d\n", procid,
opno, id, parid);
}
free_pathname(&f);
#endif
}
void
subvol_delete_f(int opno, long r)
{
#ifdef HAVE_BTRFSUTIL_H
enum btrfs_util_error e;
pathname_t f;
fent_t *fep;
int v;
int oldid;
int oldparid;
init_pathname(&f);
if (!get_fname(FT_SUBVOLm, r, &f, NULL, &fep, &v)) {
if (v)
printf("%d:%d: subvol_delete - no subvolume\n", procid,
opno);
free_pathname(&f);
return;
}
e = btrfs_util_delete_subvolume(f.path, 0);
check_cwd();
if (e == BTRFS_UTIL_OK) {
oldid = fep->id;
oldparid = fep->parent;
delete_subvol_children(oldid);
del_from_flist(FT_SUBVOL, fep - flist[FT_SUBVOL].fents);
}
if (v) {
printf("%d/%d: subvol_delete %s %d(%s)\n", procid, opno, f.path,
e, btrfs_util_strerror(e));
if (e == BTRFS_UTIL_OK)
printf("%d/%d: subvol_delete del entry: id=%d,parent=%d\n",
procid, opno, oldid, oldparid);
}
free_pathname(&f);
#endif
}
void
symlink_f(int opno, long r)
{
int e;
pathname_t f;
fent_t *fep;
int i;
int id;
int len;
int parid;
int v;
int v1;
char *val;
if (!get_fname(FT_DIRm, r, NULL, NULL, &fep, &v))
parid = -1;
else
parid = fep->id;
init_pathname(&f);
e = generate_fname(fep, FT_SYM, &f, &id, &v1);
v |= v1;
if (!e) {
if (v) {
(void)fent_to_name(&f, fep);
printf("%d/%d: symlink - no filename from %s\n",
procid, opno, f.path);
}
free_pathname(&f);
return;
}
len = (int)(random() % PATH_MAX);
val = malloc(len + 1);
if (len)
memset(val, 'x', len);
val[len] = '\0';
for (i = 10; i < len - 1; i += 10)
val[i] = '/';
e = symlink_path(val, &f) < 0 ? errno : 0;
check_cwd();
if (e == 0)
add_to_flist(FT_SYM, id, parid, 0);
free(val);
if (v) {
printf("%d/%d: symlink %s %d\n", procid, opno, f.path, e);
printf("%d/%d: symlink add id=%d,parent=%d\n", procid, opno, id, parid);
}
free_pathname(&f);
}
/* ARGSUSED */
void
sync_f(int opno, long r)
{
sync();
if (verbose)
printf("%d/%d: sync\n", procid, opno);
}
void
truncate_f(int opno, long r)
{
int e;
pathname_t f;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: truncate - no filename\n", procid, opno);
free_pathname(&f);
return;
}
e = stat64_path(&f, &stb) < 0 ? errno : 0;
check_cwd();
if (e > 0) {
if (v)
printf("%d/%d: truncate - stat64 %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
inode_info(st, sizeof(st), &stb, v);
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % MIN(stb.st_size + (1024 * 1024), MAXFSIZE));
off %= maxfsize;
e = truncate64_path(&f, off) < 0 ? errno : 0;
check_cwd();
if (v)
printf("%d/%d: truncate %s%s %lld %d\n", procid, opno, f.path,
st, (long long)off, e);
free_pathname(&f);
}
void
unlink_f(int opno, long r)
{
int e;
pathname_t f;
fent_t *fep;
flist_t *flp;
int oldid;
int oldparid;
int v;
init_pathname(&f);
if (!get_fname(FT_NOTDIR, r, &f, &flp, &fep, &v)) {
if (v)
printf("%d/%d: unlink - no file\n", procid, opno);
free_pathname(&f);
return;
}
e = unlink_path(&f) < 0 ? errno : 0;
check_cwd();
if (e == 0) {
oldid = fep->id;
oldparid = fep->parent;
del_from_flist(flp - flist, fep - flp->fents);
}
if (v) {
printf("%d/%d: unlink %s %d\n", procid, opno, f.path, e);
if (e == 0)
printf("%d/%d: unlink del entry: id=%d,parent=%d\n",
procid, opno, oldid, oldparid);
}
free_pathname(&f);
}
void
unresvsp_f(int opno, long r)
{
int e;
pathname_t f;
int fd;
struct xfs_flock64 fl;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
init_pathname(&f);
if (!get_fname(FT_REGFILE, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: unresvsp - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_RDWR);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: unresvsp - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: unresvsp - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % MIN(stb.st_size + (1024 * 1024), MAXFSIZE));
off %= maxfsize;
fl.l_whence = SEEK_SET;
fl.l_start = off;
fl.l_len = (off64_t)(random() % (1 << 20));
e = xfsctl(f.path, fd, XFS_IOC_UNRESVSP64, &fl) < 0 ? errno : 0;
if (v)
printf("%d/%d: xfsctl(XFS_IOC_UNRESVSP64) %s%s %lld %lld %d\n",
procid, opno, f.path, st,
(long long)off, (long long)fl.l_len, e);
free_pathname(&f);
close(fd);
}
void
write_f(int opno, long r)
{
char *buf;
int e;
pathname_t f;
int fd;
size_t len;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
init_pathname(&f);
if (!get_fname(FT_REGm, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: write - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_WRONLY);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: write - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: write - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % MIN(stb.st_size + (1024 * 1024), MAXFSIZE));
off %= maxfsize;
lseek64(fd, off, SEEK_SET);
len = (random() % FILELEN_MAX) + 1;
buf = malloc(len);
memset(buf, nameseq & 0xff, len);
e = write(fd, buf, len) < 0 ? errno : 0;
free(buf);
if (v)
printf("%d/%d: write %s%s [%lld,%d] %d\n",
procid, opno, f.path, st, (long long)off, (int)len, e);
free_pathname(&f);
close(fd);
}
void
writev_f(int opno, long r)
{
char *buf;
int e;
pathname_t f;
int fd;
size_t len;
int64_t lr;
off64_t off;
struct stat64 stb;
int v;
char st[1024];
struct iovec *iov = NULL;
int iovcnt;
size_t iovb;
size_t iovl;
int i;
init_pathname(&f);
if (!get_fname(FT_REGm, r, &f, NULL, NULL, &v)) {
if (v)
printf("%d/%d: writev - no filename\n", procid, opno);
free_pathname(&f);
return;
}
fd = open_path(&f, O_WRONLY);
e = fd < 0 ? errno : 0;
check_cwd();
if (fd < 0) {
if (v)
printf("%d/%d: writev - open %s failed %d\n",
procid, opno, f.path, e);
free_pathname(&f);
return;
}
if (fstat64(fd, &stb) < 0) {
if (v)
printf("%d/%d: writev - fstat64 %s failed %d\n",
procid, opno, f.path, errno);
free_pathname(&f);
close(fd);
return;
}
inode_info(st, sizeof(st), &stb, v);
lr = ((int64_t)random() << 32) + random();
off = (off64_t)(lr % MIN(stb.st_size + (1024 * 1024), MAXFSIZE));
off %= maxfsize;
lseek64(fd, off, SEEK_SET);
len = (random() % FILELEN_MAX) + 1;
buf = malloc(len);
memset(buf, nameseq & 0xff, len);
iovcnt = (random() % MIN(len, IOV_MAX)) + 1;
iov = calloc(iovcnt, sizeof(struct iovec));
iovl = len / iovcnt;
iovb = 0;
for (i=0; i<iovcnt; i++) {
(iov + i)->iov_base = (buf + iovb);
(iov + i)->iov_len = iovl;
iovb += iovl;
}
e = writev(fd, iov, iovcnt) < 0 ? errno : 0;
free(buf);
free(iov);
if (v)
printf("%d/%d: writev %s%s [%lld,%d,%d] %d\n",
procid, opno, f.path, st, (long long)off, (int)iovl,
iovcnt, e);
free_pathname(&f);
close(fd);
}
char *
xattr_flag_to_string(int flag)
{
if (flag == XATTR_CREATE)
return "create";
if (flag == XATTR_REPLACE)
return "replace";
return "none";
}
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