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android / platform / external / ltp / refs/heads/main / . / lib / tst_cgroup.c
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// SPDX-License-Identifier: GPL-2.0-or-later
/*
* Copyright (c) 2020 Red Hat, Inc.
* Copyright (c) 2020 Li Wang <liwang@redhat.com>
* Copyright (c) 2020-2021 SUSE LLC <rpalethorpe@suse.com>
*/
#define TST_NO_DEFAULT_MAIN
#include <stdio.h>
#include <stddef.h>
#include <stdlib.h>
#include <mntent.h>
#include "tst_test.h"
#include "lapi/fcntl.h"
#include "lapi/mount.h"
#include "tst_safe_file_at.h"
struct cgroup_root;
/* A node in a single CGroup hierarchy. It exists mainly for
* convenience so that we do not have to traverse the CGroup structure
* for frequent operations.
*
* This is actually a single-linked list not a tree. We only need to
* traverse from leaf towards root.
*/
struct cgroup_dir {
const char *dir_name;
const struct cgroup_dir *dir_parent;
/* Shortcut to root */
const struct cgroup_root *dir_root;
/* Subsystems (controllers) bit field. Only controllers which
* were required and configured for this node are added to
* this field. So it may be different from root->css_field.
*/
uint32_t ctrl_field;
/* In general we avoid having sprintfs everywhere and use
* openat, linkat, etc.
*/
int dir_fd;
int we_created_it:1;
};
/* The root of a CGroup hierarchy/tree */
struct cgroup_root {
enum tst_cg_ver ver;
/* A mount path */
char mnt_path[PATH_MAX];
/* Subsystems (controllers) bit field. Includes all
* controllers found while scanning this root.
*/
uint32_t ctrl_field;
/* CGroup hierarchy: mnt -> ltp -> {drain, test -> ??? } We
* keep a flat reference to ltp, drain and test for
* convenience.
*/
/* Mount directory */
struct cgroup_dir mnt_dir;
/* LTP CGroup directory, contains drain and test dirs */
struct cgroup_dir ltp_dir;
/* Drain CGroup, see cgroup_cleanup */
struct cgroup_dir drain_dir;
/* CGroup for current test. Which may have children. */
struct cgroup_dir test_dir;
int we_mounted_it:1;
/* cpuset is in compatability mode */
int no_cpuset_prefix:1;
};
/* Controller sub-systems */
enum cgroup_ctrl_indx {
CTRL_MEMORY = 1,
CTRL_CPU,
CTRL_CPUSET,
CTRL_IO,
CTRL_PIDS,
CTRL_HUGETLB,
CTRL_CPUACCT,
CTRL_DEVICES,
CTRL_FREEZER,
CTRL_NETCLS,
CTRL_NETPRIO,
CTRL_BLKIO,
CTRL_MISC,
CTRL_PERFEVENT,
CTRL_DEBUG,
CTRL_RDMA,
CTRL_BASE
};
#define CTRLS_MAX CTRL_BASE
/* At most we can have one cgroup V1 tree for each controller and one
* (empty) v2 tree.
*/
#define ROOTS_MAX (CTRLS_MAX + 1)
/* Describes a controller file or knob
*
* The primary purpose of this is to map V2 names to V1
* names.
*/
struct cgroup_file {
/* Canonical name. Is the V2 name unless an item is V1 only */
const char *const file_name;
/* V1 name or NULL if item is V2 only */
const char *const file_name_v1;
/* The controller this item belongs to or zero for
* 'cgroup.<item>'.
*/
const enum cgroup_ctrl_indx ctrl_indx;
};
/* Describes a Controller or subsystem
*
* Internally the kernel seems to call controllers subsystems and uses
* the abbreviations subsys and css.
*/
struct cgroup_ctrl {
/* Userland name of the controller (e.g. 'memory' not 'memcg') */
const char *const ctrl_name;
/* List of files belonging to this controller */
const struct cgroup_file *const files;
/* Our index for the controller */
const enum cgroup_ctrl_indx ctrl_indx;
/* Runtime; hierarchy the controller is attached to */
struct cgroup_root *ctrl_root;
/* Runtime; whether we required the controller */
int we_require_it:1;
};
struct tst_cg_group {
char group_name[NAME_MAX + 1];
/* Maps controller ID to the tree which contains it. The V2
* tree is at zero even if it contains no controllers.
*/
struct cgroup_dir *dirs_by_ctrl[ROOTS_MAX];
/* NULL terminated list of trees */
struct cgroup_dir *dirs[ROOTS_MAX + 1];
};
/* If controllers are required via the tst_test struct then this is
* populated with the test's CGroup.
*/
static struct tst_cg_group test_group;
static struct tst_cg_group drain_group;
const struct tst_cg_group *const tst_cg = &test_group;
const struct tst_cg_group *const tst_cg_drain = &drain_group;
/* Always use first item for unified hierarchy */
static struct cgroup_root roots[ROOTS_MAX + 1];
static const struct cgroup_file cgroup_ctrl_files[] = {
/* procs exists on V1, however it was read-only until kernel v3.0. */
{ "cgroup.procs", "tasks", 0 },
{ "cgroup.controllers", NULL, 0 },
{ "cgroup.subtree_control", NULL, 0 },
{ "cgroup.clone_children", "cgroup.clone_children", 0 },
{ "cgroup.kill", NULL, 0 },
{ }
};
static const struct cgroup_file memory_ctrl_files[] = {
{ "memory.current", "memory.usage_in_bytes", CTRL_MEMORY },
{ "memory.events", NULL, CTRL_MEMORY },
{ "memory.low", NULL, CTRL_MEMORY },
{ "memory.min", NULL, CTRL_MEMORY },
{ "memory.max", "memory.limit_in_bytes", CTRL_MEMORY },
{ "memory.stat", "memory.stat", CTRL_MEMORY },
{ "memory.swappiness", "memory.swappiness", CTRL_MEMORY },
{ "memory.swap.current", "memory.memsw.usage_in_bytes", CTRL_MEMORY },
{ "memory.swap.max", "memory.memsw.limit_in_bytes", CTRL_MEMORY },
{ "memory.kmem.usage_in_bytes", "memory.kmem.usage_in_bytes", CTRL_MEMORY },
{ "memory.kmem.limit_in_bytes", "memory.kmem.limit_in_bytes", CTRL_MEMORY },
{ }
};
static const struct cgroup_file cpu_ctrl_files[] = {
/* The V1 quota and period files were combined in the V2 max
* file. The quota is in the first column and if we just print
* a single value to the file, it will be treated as the
* quota. To get or set the period we need to branch on the
* API version.
*/
{ "cpu.max", "cpu.cfs_quota_us", CTRL_CPU },
{ "cpu.cfs_period_us", "cpu.cfs_period_us", CTRL_CPU },
{ }
};
static const struct cgroup_file cpuset_ctrl_files[] = {
{ "cpuset.cpus", "cpuset.cpus", CTRL_CPUSET },
{ "cpuset.mems", "cpuset.mems", CTRL_CPUSET },
{ "cpuset.memory_migrate", "cpuset.memory_migrate", CTRL_CPUSET },
{ }
};
static const struct cgroup_file io_ctrl_files[] = {
{ "io.stat", NULL, CTRL_IO },
{ }
};
static const struct cgroup_file pids_ctrl_files[] = {
{ "pids.max", "pids.max", CTRL_PIDS },
{ "pids.current", "pids.current", CTRL_PIDS },
{ }
};
static const struct cgroup_file hugetlb_ctrl_files[] = {
{ }
};
static const struct cgroup_file cpuacct_ctrl_files[] = {
{ }
};
static const struct cgroup_file devices_ctrl_files[] = {
{ }
};
static const struct cgroup_file freezer_ctrl_files[] = {
{ }
};
static const struct cgroup_file net_cls_ctrl_files[] = {
{ }
};
static const struct cgroup_file net_prio_ctrl_files[] = {
{ }
};
static const struct cgroup_file blkio_ctrl_files[] = {
{ }
};
static const struct cgroup_file misc_ctrl_files[] = {
{ }
};
static const struct cgroup_file perf_event_ctrl_files[] = {
{ }
};
static const struct cgroup_file debug_ctrl_files[] = {
{ }
};
static const struct cgroup_file rdma_ctrl_files[] = {
{ }
};
static const struct cgroup_file base_ctrl_files[] = {
{ }
};
#define CTRL_NAME_MAX 31
#define CGROUP_CTRL_MEMBER(x, y)[y] = { .ctrl_name = #x, .files = \
x ## _ctrl_files, .ctrl_indx = y, NULL, 0 }
/* Lookup tree for item names. */
static struct cgroup_ctrl controllers[] = {
CGROUP_CTRL_MEMBER(cgroup, 0),
CGROUP_CTRL_MEMBER(memory, CTRL_MEMORY),
CGROUP_CTRL_MEMBER(cpu, CTRL_CPU),
CGROUP_CTRL_MEMBER(cpuset, CTRL_CPUSET),
CGROUP_CTRL_MEMBER(io, CTRL_IO),
CGROUP_CTRL_MEMBER(pids, CTRL_PIDS),
CGROUP_CTRL_MEMBER(hugetlb, CTRL_HUGETLB),
CGROUP_CTRL_MEMBER(cpuacct, CTRL_CPUACCT),
CGROUP_CTRL_MEMBER(devices, CTRL_DEVICES),
CGROUP_CTRL_MEMBER(freezer, CTRL_FREEZER),
CGROUP_CTRL_MEMBER(net_cls, CTRL_NETCLS),
CGROUP_CTRL_MEMBER(net_prio, CTRL_NETPRIO),
CGROUP_CTRL_MEMBER(blkio, CTRL_BLKIO),
CGROUP_CTRL_MEMBER(misc, CTRL_MISC),
CGROUP_CTRL_MEMBER(perf_event, CTRL_PERFEVENT),
CGROUP_CTRL_MEMBER(debug, CTRL_DEBUG),
CGROUP_CTRL_MEMBER(rdma, CTRL_RDMA),
CGROUP_CTRL_MEMBER(base, CTRL_BASE),
{ }
};
/* We should probably allow these to be set in environment
* variables
*/
static const char *cgroup_ltp_dir = "ltp";
static const char *cgroup_ltp_drain_dir = "drain";
static char cgroup_test_dir[NAME_MAX + 1];
static const char *cgroup_mount_ltp_prefix = "cgroup_";
static const char *cgroup_v2_ltp_mount = "unified";
#define first_root \
(roots[0].ver ? roots : roots + 1)
#define for_each_root(r) \
for ((r) = first_root; (r)->ver; (r)++)
#define for_each_v1_root(r) \
for ((r) = roots + 1; (r)->ver; (r)++)
#define for_each_ctrl(ctrl) \
for ((ctrl) = controllers; (ctrl)->ctrl_name; (ctrl)++)
/* In all cases except one, this only loops once.
*
* If (ctrl) == 0 and multiple V1 (and a V2) hierarchies are mounted,
* then we need to loop over multiple directories. For example if we
* need to write to "tasks"/"cgroup.procs" which exists for each
* hierarchy.
*/
#define for_each_dir(cg, ctrl, t) \
for ((t) = (ctrl) ? (cg)->dirs_by_ctrl + (ctrl) : (cg)->dirs; \
*(t); \
(t) = (ctrl) ? (cg)->dirs + ROOTS_MAX : (t) + 1)
__attribute__ ((nonnull))
static int has_ctrl(const uint32_t ctrl_field,
const struct cgroup_ctrl *const ctrl)
{
return !!(ctrl_field & (1 << ctrl->ctrl_indx));
}
__attribute__ ((nonnull))
static void add_ctrl(uint32_t *const ctrl_field,
const struct cgroup_ctrl *const ctrl)
{
*ctrl_field |= 1 << ctrl->ctrl_indx;
}
static int cgroup_v2_mounted(void)
{
return !!roots[0].ver;
}
static int cgroup_v1_mounted(void)
{
return !!roots[1].ver;
}
static int cgroup_mounted(void)
{
return cgroup_v2_mounted() || cgroup_v1_mounted();
}
__attribute__ ((nonnull, warn_unused_result))
static int cgroup_ctrl_on_v2(const struct cgroup_ctrl *const ctrl)
{
return ctrl->ctrl_root && ctrl->ctrl_root->ver == TST_CG_V2;
}
__attribute__ ((nonnull))
static void cgroup_dir_mk(const struct cgroup_dir *const parent,
const char *const dir_name,
struct cgroup_dir *const new)
{
const char *dpath;
new->dir_root = parent->dir_root;
new->dir_name = dir_name;
new->dir_parent = parent;
new->ctrl_field = parent->ctrl_field;
new->we_created_it = 0;
if (!mkdirat(parent->dir_fd, dir_name, 0777)) {
new->we_created_it = 1;
goto opendir;
}
if (errno == EEXIST)
goto opendir;
dpath = tst_decode_fd(parent->dir_fd);
if (errno == EACCES) {
tst_brk(TCONF | TERRNO,
"Lack permission to make '%s/%s'; premake it or run as root",
dpath, dir_name);
} else if (errno == EROFS) {
tst_brk(TCONF | TERRNO, "'%s/%s' must not be read-only",
dpath, dir_name);
} else {
tst_brk(TBROK | TERRNO,
"mkdirat(%d<%s>, '%s', 0777)",
parent->dir_fd, dpath, dir_name);
}
opendir:
new->dir_fd = SAFE_OPENAT(parent->dir_fd, dir_name,
O_PATH | O_DIRECTORY);
}
#define PATH_MAX_STRLEN 4095
#define CONFIG_HEADER "ctrl_name ver we_require_it mnt_path we_mounted_it ltp_dir.we_created_it test_dir.dir_name"
#define CONFIG_FORMAT "%" TST_TO_STR(CTRL_NAME_MAX) "s\t%d\t%d\t%" TST_TO_STR(PATH_MAX_STRLEN) "s\t%d\t%d\t%" TST_TO_STR(NAME_MAX) "s"
/* Prints out the state associated with each controller to be consumed by
* tst_cg_load_config.
*
* The config keeps track of the minimal state needed for tst_cg_cleanup
* to cleanup mounts and directories made by tst_cg_require.
*/
void tst_cg_print_config(void)
{
const struct cgroup_ctrl *ctrl;
printf("%s\n", CONFIG_HEADER);
for_each_ctrl(ctrl) {
struct cgroup_root *root = ctrl->ctrl_root;
if (!root)
continue;
printf("%s\t%d\t%d\t%s\t%d\t%d\t%s\n",
ctrl->ctrl_name,
root->ver,
ctrl->we_require_it,
root->mnt_path,
root->we_mounted_it,
root->ltp_dir.we_created_it,
root->test_dir.dir_name ? root->test_dir.dir_name : "NULL");
}
}
__attribute__ ((nonnull, warn_unused_result))
static struct cgroup_ctrl *cgroup_find_ctrl(const char *const ctrl_name,
unsigned int strict)
{
struct cgroup_ctrl *ctrl;
int l = 0;
char c = ctrl_name[l];
while (c == '_' || (c >= 'a' && c <= 'z'))
c = ctrl_name[++l];
if (l > 32 && strict)
tst_res(TWARN, "Subsys name len greater than max known value of MAX_CGROUP_TYPE_NAMELEN: %d > 32", l);
if (!(c == '\n' || c == '\0')) {
if (!strict)
return NULL;
tst_brk(TBROK, "Unexpected char in %s: %c", ctrl_name, c);
}
for_each_ctrl(ctrl) {
if (!strncmp(ctrl_name, ctrl->ctrl_name, l))
return ctrl;
}
return NULL;
}
static struct cgroup_root *cgroup_find_root(const char *const mnt_path)
{
struct cgroup_root *root;
for_each_root(root) {
if (!strcmp(root->mnt_path, mnt_path))
return root;
}
return NULL;
}
static void cgroup_parse_config_line(const char *const config_entry)
{
char ctrl_name[CTRL_NAME_MAX + 1], mnt_path[PATH_MAX_STRLEN + 1], test_dir_name[NAME_MAX + 1];
int ver, we_require_it, we_mounted_it, ltp_dir_we_created_it, vars_read;
struct cgroup_root *root;
struct cgroup_ctrl *ctrl;
vars_read = sscanf(config_entry, CONFIG_FORMAT,
ctrl_name, &ver, &we_require_it, mnt_path, &we_mounted_it,
&ltp_dir_we_created_it, test_dir_name);
if (vars_read != 7)
tst_brk(TBROK, "Incorrect number of vars read from config. Config possibly malformed?");
ctrl = cgroup_find_ctrl(ctrl_name, 1);
if (!ctrl)
tst_brk(TBROK, "Could not find ctrl from config. Ctrls changing between calls?");
ctrl->we_require_it = we_require_it;
root = cgroup_find_root(mnt_path);
if (!root)
tst_brk(TBROK, "Could not find root from config. Config possibly malformed?");
if (we_mounted_it)
root->we_mounted_it = 1;
if (!root->ltp_dir.dir_name) {
cgroup_dir_mk(&root->mnt_dir, cgroup_ltp_dir, &root->ltp_dir);
cgroup_dir_mk(&root->ltp_dir, cgroup_ltp_drain_dir, &root->drain_dir);
if (ltp_dir_we_created_it) {
root->ltp_dir.we_created_it = 1;
root->drain_dir.we_created_it = 1;
}
}
if (!root->test_dir.dir_name && strcmp(test_dir_name, "NULL")) {
strncpy(cgroup_test_dir, test_dir_name, NAME_MAX + 1);
cgroup_dir_mk(&root->ltp_dir, cgroup_test_dir, &root->test_dir);
root->test_dir.we_created_it = 1;
}
}
/* Load the test state config provided by tst_cg_print_config
*
* This will reload some internal tst_cgroup state given by the config
* that might otherwise have been lost between calls or between different
* processes. In particular this is used by testcases/lib/tst_cgctl to
* provide access to this C api to shell scripts.
*
* The config keeps track of the minimal state needed for tst_cg_cleanup
* to cleanup mounts and directories created by tst_cg_require.
*/
void tst_cg_load_config(const char *const config)
{
char temp_config[BUFSIZ];
char *line;
const size_t config_len = strlen(config) + 1;
if (config_len >= BUFSIZ)
tst_brk(TBROK, "Config has exceeded buffer size?");
memcpy(temp_config, config, config_len);
temp_config[config_len] = '\0';
line = strtok(temp_config, "\n");
/* Make sure to consume the header. */
for (line = strtok(NULL, "\n"); line; line = strtok(NULL, "\n"))
cgroup_parse_config_line(line);
}
/* Determine if a mounted cgroup hierarchy is unique and record it if so.
*
* For CGroups V2 this is very simple as there is only one
* hierarchy. We just record which controllers are available and check
* if this matches what we read from any previous mount points.
*
* For V1 the set of controllers S is partitioned into sets {P_1, P_2,
* ..., P_n} with one or more controllers in each partion. Each
* partition P_n can be mounted multiple times, but the same
* controller can not appear in more than one partition. Usually each
* partition contains a single controller, but, for example, cpu and
* cpuacct are often mounted together in the same partiion.
*
* Each controller partition has its own hierarchy (root) which we
* must track and update independently.
*/
__attribute__ ((nonnull))
static void cgroup_root_scan(const char *const mnt_type,
const char *const mnt_dir,
char *const mnt_opts)
{
struct cgroup_root *root = roots;
const struct cgroup_ctrl *const_ctrl;
struct cgroup_ctrl *ctrl;
uint32_t ctrl_field = 0;
int no_prefix = 0;
char buf[BUFSIZ];
char *tok;
const int mnt_dfd = SAFE_OPEN(mnt_dir, O_PATH | O_DIRECTORY);
if (!strcmp(mnt_type, "cgroup"))
goto v1;
SAFE_FILE_READAT(mnt_dfd, "cgroup.controllers", buf, sizeof(buf));
for (tok = strtok(buf, " "); tok; tok = strtok(NULL, " ")) {
const_ctrl = cgroup_find_ctrl(tok, 1);
if (const_ctrl)
add_ctrl(&ctrl_field, const_ctrl);
}
if (root->ver && ctrl_field == root->ctrl_field)
goto discard;
if (root->ctrl_field)
tst_brk(TBROK, "Available V2 controllers are changing between scans?");
root->ver = TST_CG_V2;
goto backref;
v1:
for (tok = strtok(mnt_opts, ","); tok; tok = strtok(NULL, ",")) {
const_ctrl = cgroup_find_ctrl(tok, 0);
if (const_ctrl)
add_ctrl(&ctrl_field, const_ctrl);
no_prefix |= !strcmp("noprefix", tok);
}
if (!ctrl_field)
goto discard;
for_each_v1_root(root) {
if (!(ctrl_field & root->ctrl_field))
continue;
if (ctrl_field == root->ctrl_field)
goto discard;
tst_brk(TBROK,
"The intersection of two distinct sets of mounted controllers should be null? "
"Check '%s' and '%s'", root->mnt_path, mnt_dir);
}
if (root >= roots + ROOTS_MAX) {
tst_brk(TBROK,
"Unique controller mounts have exceeded our limit %d?",
ROOTS_MAX);
}
root->ver = TST_CG_V1;
backref:
strcpy(root->mnt_path, mnt_dir);
root->mnt_dir.dir_root = root;
root->mnt_dir.dir_name = root->mnt_path;
root->mnt_dir.dir_fd = mnt_dfd;
root->ctrl_field = ctrl_field;
root->no_cpuset_prefix = no_prefix;
for_each_ctrl(ctrl) {
if (has_ctrl(root->ctrl_field, ctrl))
ctrl->ctrl_root = root;
}
return;
discard:
close(mnt_dfd);
}
void tst_cg_scan(void)
{
struct mntent *mnt;
FILE *f = setmntent("/proc/self/mounts", "r");
if (!f) {
tst_brk(TBROK | TERRNO, "Can't open /proc/self/mounts");
return;
}
mnt = getmntent(f);
if (!mnt) {
tst_brk(TBROK | TERRNO, "Can't read mounts or no mounts?");
return;
}
do {
if (strncmp(mnt->mnt_type, "cgroup", 6))
continue;
cgroup_root_scan(mnt->mnt_type, mnt->mnt_dir, mnt->mnt_opts);
} while ((mnt = getmntent(f)));
}
static void cgroup_mount_v2(void)
{
int ret;
char mnt_path[PATH_MAX];
const char *tmpdir = tst_get_tmpdir_root();
sprintf(mnt_path, "%s/%s%s",
tmpdir, cgroup_mount_ltp_prefix, cgroup_v2_ltp_mount);
if (!mkdir(mnt_path, 0777)) {
roots[0].mnt_dir.we_created_it = 1;
goto mount;
}
if (errno == EEXIST)
goto mount;
if (errno == EACCES) {
tst_res(TINFO | TERRNO,
"Lack permission to make %s, premake it or run as root",
mnt_path);
return;
}
tst_brk(TBROK | TERRNO, "mkdir(%s, 0777)", mnt_path);
return;
mount:
ret = mount("cgroup2", mnt_path, "cgroup2",
0, "memory_recursiveprot");
if (ret && errno == EINVAL)
ret = mount("cgroup2", mnt_path, "cgroup2", 0, NULL);
if (!ret) {
tst_res(TINFO, "Mounted V2 CGroups on %s", mnt_path);
tst_cg_scan();
roots[0].we_mounted_it = 1;
return;
}
tst_res(TINFO | TERRNO, "Could not mount V2 CGroups on %s", mnt_path);
if (roots[0].mnt_dir.we_created_it) {
roots[0].mnt_dir.we_created_it = 0;
SAFE_RMDIR(mnt_path);
}
}
__attribute__ ((nonnull))
static void cgroup_mount_v1(struct cgroup_ctrl *const ctrl)
{
char mnt_path[PATH_MAX];
int made_dir = 0;
const char *tmpdir = tst_get_tmpdir_root();
if (ctrl->ctrl_indx == CTRL_BLKIO && controllers[CTRL_IO].ctrl_root) {
tst_res(TCONF,
"IO controller found on V2 root, skipping blkio mount that would unmount IO controller");
return;
}
sprintf(mnt_path, "%s/%s%s",
tmpdir, cgroup_mount_ltp_prefix, ctrl->ctrl_name);
if (!mkdir(mnt_path, 0777)) {
made_dir = 1;
goto mount;
}
if (errno == EEXIST)
goto mount;
if (errno == EACCES) {
tst_res(TINFO | TERRNO,
"Lack permission to make %s, premake it or run as root",
mnt_path);
return;
}
tst_brk(TBROK | TERRNO, "mkdir(%s, 0777)", mnt_path);
return;
mount:
if (mount(ctrl->ctrl_name, mnt_path, "cgroup", 0, ctrl->ctrl_name)) {
tst_res(TINFO | TERRNO,
"Could not mount V1 CGroup on %s", mnt_path);
if (made_dir)
SAFE_RMDIR(mnt_path);
return;
}
tst_res(TINFO, "Mounted V1 %s CGroup on %s", ctrl->ctrl_name, mnt_path);
tst_cg_scan();
if (!ctrl->ctrl_root)
return;
ctrl->ctrl_root->we_mounted_it = 1;
ctrl->ctrl_root->mnt_dir.we_created_it = made_dir;
if (ctrl->ctrl_indx == CTRL_MEMORY) {
SAFE_FILE_PRINTFAT(ctrl->ctrl_root->mnt_dir.dir_fd,
"memory.use_hierarchy", "%d", 1);
}
}
__attribute__ ((nonnull))
static void cgroup_copy_cpuset(const struct cgroup_root *const root)
{
char knob_val[BUFSIZ];
int i;
const char *const n0[] = {"mems", "cpus"};
const char *const n1[] = {"cpuset.mems", "cpuset.cpus"};
const char *const *const fname = root->no_cpuset_prefix ? n0 : n1;
for (i = 0; i < 2; i++) {
SAFE_FILE_READAT(root->mnt_dir.dir_fd,
fname[i], knob_val, sizeof(knob_val));
SAFE_FILE_PRINTFAT(root->ltp_dir.dir_fd,
fname[i], "%s", knob_val);
}
}
/* Ensure the specified controller is available.
*
* First we check if the specified controller has a known mount point,
* if not then we scan the system. If we find it then we goto ensuring
* the LTP group exists in the hierarchy the controller is using.
*
* If we can't find the controller, then we try to create it. First we
* check if the V2 hierarchy/tree is mounted. If it isn't then we try
* mounting it and look for the controller. If it is already mounted
* then we know the controller is not available on V2 on this system.
*
* If we can't mount V2 or the controller is not on V2, then we try
* mounting it on its own V1 tree.
*
* Once we have mounted the controller somehow, we create a hierarchy
* of cgroups. If we are on V2 we first need to enable the controller
* for all children of root. Then we create hierarchy described in
* tst_cgroup.h.
*
* If we are using V1 cpuset then we copy the available mems and cpus
* from root to the ltp group and set clone_children on the ltp group
* to distribute these settings to the test cgroups. This means the
* test author does not have to copy these settings before using the
* cpuset.
*
*/
void tst_cg_require(const char *const ctrl_name,
const struct tst_cg_opts *options)
{
const char *const cgsc = "cgroup.subtree_control";
struct cgroup_ctrl *const ctrl = cgroup_find_ctrl(ctrl_name, 1);
struct cgroup_root *root;
int base = !strcmp(ctrl->ctrl_name, "base");
if (base && options->needs_ver != TST_CG_V2)
tst_brk(TCONF, "Base control only support needs_ver TST_CG_V2!");
if (!ctrl) {
tst_brk(TBROK, "'%s' controller is unknown to LTP", ctrl_name);
tst_brk(TBROK, "Calling %s in cleanup?", __func__);
return;
}
if (ctrl->we_require_it)
tst_res(TWARN, "Duplicate %s(%s, )", __func__, ctrl->ctrl_name);
ctrl->we_require_it = 1;
if (ctrl->ctrl_root)
goto mkdirs;
tst_cg_scan();
if (ctrl->ctrl_root)
goto mkdirs;
if (!cgroup_v2_mounted() && options->needs_ver != TST_CG_V1)
cgroup_mount_v2();
if (ctrl->ctrl_root)
goto mkdirs;
if (options->needs_ver != TST_CG_V2)
cgroup_mount_v1(ctrl);
if (base)
ctrl->ctrl_root = roots;
if (!ctrl->ctrl_root) {
tst_brk(TCONF,
"'%s' controller required, but not available",
ctrl->ctrl_name);
return;
}
mkdirs:
root = ctrl->ctrl_root;
add_ctrl(&root->mnt_dir.ctrl_field, ctrl);
if (cgroup_ctrl_on_v2(ctrl) && options->needs_ver == TST_CG_V1) {
tst_brk(TCONF,
"V1 '%s' controller required, but it's mounted on V2",
ctrl->ctrl_name);
}
if (!cgroup_ctrl_on_v2(ctrl) && options->needs_ver == TST_CG_V2) {
tst_brk(TCONF,
"V2 '%s' controller required, but it's mounted on V1",
ctrl->ctrl_name);
}
if (cgroup_ctrl_on_v2(ctrl) && !base) {
if (root->we_mounted_it) {
SAFE_FILE_PRINTFAT(root->mnt_dir.dir_fd,
cgsc, "+%s", ctrl->ctrl_name);
} else {
tst_file_printfat(root->mnt_dir.dir_fd,
cgsc, "+%s", ctrl->ctrl_name);
}
}
if (!root->ltp_dir.dir_fd)
cgroup_dir_mk(&root->mnt_dir, cgroup_ltp_dir, &root->ltp_dir);
else
root->ltp_dir.ctrl_field |= root->mnt_dir.ctrl_field;
if (!base) {
if (cgroup_ctrl_on_v2(ctrl)) {
SAFE_FILE_PRINTFAT(root->ltp_dir.dir_fd,
cgsc, "+%s", ctrl->ctrl_name);
} else {
SAFE_FILE_PRINTFAT(root->ltp_dir.dir_fd,
"cgroup.clone_children", "%d", 1);
if (ctrl->ctrl_indx == CTRL_CPUSET)
cgroup_copy_cpuset(root);
}
}
cgroup_dir_mk(&root->ltp_dir, cgroup_ltp_drain_dir, &root->drain_dir);
if (options->test_pid)
sprintf(cgroup_test_dir, "test-%d", options->test_pid);
else
sprintf(cgroup_test_dir, "test-%d", getpid());
cgroup_dir_mk(&root->ltp_dir, cgroup_test_dir, &root->test_dir);
}
static void cgroup_drain(const enum tst_cg_ver ver,
const int source_dfd, const int dest_dfd)
{
char pid_list[BUFSIZ];
char *tok;
const char *const file_name =
ver == TST_CG_V1 ? "tasks" : "cgroup.procs";
int fd;
ssize_t ret;
ret = SAFE_FILE_READAT(source_dfd, file_name,
pid_list, sizeof(pid_list));
if (ret < 0)
return;
fd = SAFE_OPENAT(dest_dfd, file_name, O_WRONLY);
if (fd < 0)
return;
for (tok = strtok(pid_list, "\n"); tok; tok = strtok(NULL, "\n")) {
ret = dprintf(fd, "%s", tok);
if (ret < (ssize_t)strlen(tok))
tst_brk(TBROK | TERRNO, "Failed to drain %s", tok);
}
SAFE_CLOSE(fd);
}
__attribute__ ((nonnull))
static void close_path_fds(struct cgroup_root *const root)
{
if (root->test_dir.dir_fd > 0)
SAFE_CLOSE(root->test_dir.dir_fd);
if (root->ltp_dir.dir_fd > 0)
SAFE_CLOSE(root->ltp_dir.dir_fd);
if (root->drain_dir.dir_fd > 0)
SAFE_CLOSE(root->drain_dir.dir_fd);
if (root->mnt_dir.dir_fd > 0)
SAFE_CLOSE(root->mnt_dir.dir_fd);
}
/* Maybe remove CGroups used during testing and clear our data
*
* This will never remove CGroups we did not create to allow tests to
* be run in parallel.
*
* Each test process is given its own unique CGroup. Unless we want to
* stress test the CGroup system. We should at least remove these
* unique per test CGroups.
*
* We probably also want to remove the LTP parent CGroup, although
* this may have been created by the system manager or another test
* (see notes on parallel testing).
*
* On systems with no initial CGroup setup we may try to destroy the
* CGroup roots we mounted so that they can be recreated by another
* test. Note that successfully unmounting a CGroup root does not
* necessarily indicate that it was destroyed.
*
* The ltp/drain CGroup is required for cleaning up test CGroups when
* we can not move them to the root CGroup. CGroups can only be
* removed when they have no members and only leaf or root CGroups may
* have processes within them. As test processes create and destroy
* their own CGroups they must move themselves either to root or
* another leaf CGroup. So we move them to drain while destroying the
* unique test CGroup.
*
* If we have access to root and created the LTP CGroup we then move
* the test process to root and destroy the drain and LTP
* CGroups. Otherwise we just leave the test process to die in the
* drain, much like many a unwanted terrapin.
*
* Finally we clear any data we have collected on CGroups. This will
* happen regardless of whether anything was removed.
*/
void tst_cg_cleanup(void)
{
struct cgroup_root *root;
struct cgroup_ctrl *ctrl;
if (!cgroup_mounted())
goto clear_data;
for_each_root(root) {
if (!root->test_dir.dir_name)
continue;
cgroup_drain(root->ver,
root->test_dir.dir_fd, root->drain_dir.dir_fd);
SAFE_UNLINKAT(root->ltp_dir.dir_fd, root->test_dir.dir_name,
AT_REMOVEDIR);
}
for_each_root(root) {
if (!root->ltp_dir.we_created_it)
continue;
cgroup_drain(root->ver,
root->drain_dir.dir_fd, root->mnt_dir.dir_fd);
if (root->drain_dir.dir_name) {
SAFE_UNLINKAT(root->ltp_dir.dir_fd,
root->drain_dir.dir_name, AT_REMOVEDIR);
}
if (root->ltp_dir.dir_name) {
SAFE_UNLINKAT(root->mnt_dir.dir_fd,
root->ltp_dir.dir_name, AT_REMOVEDIR);
}
}
for_each_ctrl(ctrl) {
if (!cgroup_ctrl_on_v2(ctrl) || !ctrl->ctrl_root->we_mounted_it
|| !strcmp(ctrl->ctrl_name, "base"))
continue;
SAFE_FILE_PRINTFAT(ctrl->ctrl_root->mnt_dir.dir_fd,
"cgroup.subtree_control",
"-%s", ctrl->ctrl_name);
}
for_each_root(root) {
if (!root->we_mounted_it)
continue;
/* This probably does not result in the CGroup root
* being destroyed
*/
if (umount2(root->mnt_path, MNT_DETACH))
continue;
SAFE_RMDIR(root->mnt_path);
}
clear_data:
for_each_ctrl(ctrl) {
ctrl->ctrl_root = NULL;
ctrl->we_require_it = 0;
}
for_each_root(root)
close_path_fds(root);
memset(roots, 0, sizeof(roots));
}
__attribute__((nonnull(2, 3)))
static void cgroup_group_add_dir(const struct tst_cg_group *const parent,
struct tst_cg_group *const cg,
struct cgroup_dir *const dir)
{
const struct cgroup_ctrl *ctrl;
int i;
if (dir->dir_root->ver != TST_CG_V1)
cg->dirs_by_ctrl[0] = dir;
for_each_ctrl(ctrl) {
if (!has_ctrl(dir->ctrl_field, ctrl))
continue;
cg->dirs_by_ctrl[ctrl->ctrl_indx] = dir;
if (!parent || dir->dir_root->ver == TST_CG_V1)
continue;
if (strcmp(ctrl->ctrl_name, "base")) {
SAFE_CG_PRINTF(parent, "cgroup.subtree_control",
"+%s", ctrl->ctrl_name);
}
}
for (i = 0; cg->dirs[i]; i++)
;
cg->dirs[i] = dir;
}
struct tst_cg_group *
tst_cg_group_mk(const struct tst_cg_group *const parent,
const char *const group_name_fmt, ...)
{
struct tst_cg_group *cg;
struct cgroup_dir *const *dir;
struct cgroup_dir *new_dir;
va_list ap;
size_t name_len;
cg = SAFE_MALLOC(sizeof(*cg));
memset(cg, 0, sizeof(*cg));
va_start(ap, group_name_fmt);
name_len = vsnprintf(cg->group_name, NAME_MAX,
group_name_fmt, ap);
va_end(ap);
if (name_len >= NAME_MAX)
tst_brk(TBROK, "CGroup name is too long");
for_each_dir(parent, 0, dir) {
new_dir = SAFE_MALLOC(sizeof(*new_dir));
cgroup_dir_mk(*dir, cg->group_name, new_dir);
cgroup_group_add_dir(parent, cg, new_dir);
}
return cg;
}
const char *tst_cg_group_name(const struct tst_cg_group *const cg)
{
return cg->group_name;
}
int tst_cg_group_unified_dir_fd(const struct tst_cg_group *const cg)
{
if(cg->dirs_by_ctrl[0])
return cg->dirs_by_ctrl[0]->dir_fd;
return -1;
}
struct tst_cg_group *tst_cg_group_rm(struct tst_cg_group *const cg)
{
struct cgroup_dir **dir;
for_each_dir(cg, 0, dir) {
close((*dir)->dir_fd);
SAFE_UNLINKAT((*dir)->dir_parent->dir_fd,
(*dir)->dir_name,
AT_REMOVEDIR);
free(*dir);
}
free(cg);
return NULL;
}
__attribute__ ((nonnull, warn_unused_result))
static const struct cgroup_file *cgroup_file_find(const char *const file,
const int lineno,
const char *const file_name)
{
const struct cgroup_file *cfile;
const struct cgroup_ctrl *ctrl;
char ctrl_name[CTRL_NAME_MAX + 1];
const char *const sep = strchr(file_name, '.');
size_t len;
if (!sep) {
tst_brk_(file, lineno, TBROK,
"Invalid file name '%s'; did not find controller separator '.'",
file_name);
return NULL;
}
len = sep - file_name;
memcpy(ctrl_name, file_name, len);
ctrl_name[len] = '\0';
ctrl = cgroup_find_ctrl(ctrl_name, 1);
if (!ctrl) {
tst_brk_(file, lineno, TBROK,
"Did not find controller '%s'\n", ctrl_name);
return NULL;
}
for (cfile = ctrl->files; cfile->file_name; cfile++) {
if (!strcmp(file_name, cfile->file_name))
break;
}
if (!cfile->file_name) {
tst_brk_(file, lineno, TBROK,
"Did not find '%s' in '%s'\n",
file_name, ctrl->ctrl_name);
return NULL;
}
return cfile;
}
enum tst_cg_ver tst_cg_ver(const char *const file, const int lineno,
const struct tst_cg_group *const cg,
const char *const ctrl_name)
{
const struct cgroup_ctrl *const ctrl = cgroup_find_ctrl(ctrl_name, 1);
const struct cgroup_dir *dir;
if (!strcmp(ctrl_name, "cgroup")) {
tst_brk_(file, lineno,
TBROK,
"cgroup may be present on both V1 and V2 hierarchies");
return 0;
}
if (!ctrl) {
tst_brk_(file, lineno,
TBROK, "Unknown controller '%s'", ctrl_name);
return 0;
}
dir = cg->dirs_by_ctrl[ctrl->ctrl_indx];
if (!dir) {
tst_brk_(file, lineno,
TBROK, "%s controller not attached to CGroup %s",
ctrl_name, cg->group_name);
return 0;
}
return dir->dir_root->ver;
}
__attribute__ ((nonnull, warn_unused_result))
static const char *cgroup_file_alias(const struct cgroup_file *const cfile,
const struct cgroup_dir *const dir)
{
if (dir->dir_root->ver != TST_CG_V1)
return cfile->file_name;
if (cfile->ctrl_indx == CTRL_CPUSET &&
dir->dir_root->no_cpuset_prefix &&
cfile->file_name_v1) {
return strchr(cfile->file_name_v1, '.') + 1;
}
return cfile->file_name_v1;
}
int safe_cg_has(const char *const file, const int lineno,
const struct tst_cg_group *cg,
const char *const file_name)
{
const struct cgroup_file *const cfile =
cgroup_file_find(file, lineno, file_name);
struct cgroup_dir *const *dir;
const char *alias;
if (!cfile)
return 0;
for_each_dir(cg, cfile->ctrl_indx, dir) {
alias = cgroup_file_alias(cfile, *dir);
if (!alias)
continue;
if (!faccessat((*dir)->dir_fd, alias, F_OK, 0))
return 1;
if (errno == ENOENT)
continue;
tst_brk_(file, lineno, TBROK | TERRNO,
"faccessat(%d<%s>, %s, F_OK, 0)",
(*dir)->dir_fd, tst_decode_fd((*dir)->dir_fd), alias);
}
return 0;
}
static void group_from_roots(struct tst_cg_group *const cg)
{
struct cgroup_root *root;
if (cg->group_name[0]) {
tst_brk(TBROK,
"%s CGroup already initialized",
cg == &test_group ? "Test" : "Drain");
}
for_each_root(root) {
struct cgroup_dir *dir =
cg == &test_group ? &root->test_dir : &root->drain_dir;
if (dir->ctrl_field)
cgroup_group_add_dir(NULL, cg, dir);
}
if (cg->dirs[0]) {
strncpy(cg->group_name, cg->dirs[0]->dir_name, NAME_MAX);
return;
}
tst_brk(TBROK,
"No CGroups found; maybe you forgot to call tst_cg_require?");
}
void tst_cg_init(void)
{
group_from_roots(&test_group);
group_from_roots(&drain_group);
}
ssize_t safe_cg_read(const char *const file, const int lineno,
const struct tst_cg_group *const cg,
const char *const file_name,
char *const out, const size_t len)
{
const struct cgroup_file *const cfile =
cgroup_file_find(file, lineno, file_name);
struct cgroup_dir *const *dir;
const char *alias;
size_t prev_len = 0;
char prev_buf[BUFSIZ];
ssize_t read_ret = 0;
for_each_dir(cg, cfile->ctrl_indx, dir) {
alias = cgroup_file_alias(cfile, *dir);
if (!alias)
continue;
if (prev_len)
memcpy(prev_buf, out, prev_len);
read_ret = safe_file_readat(file, lineno,
(*dir)->dir_fd, alias, out, len);
if (read_ret < 0)
continue;
if (prev_len && memcmp(out, prev_buf, prev_len)) {
tst_brk_(file, lineno, TBROK,
"%s has different value across roots",
file_name);
break;
}
prev_len = MIN(sizeof(prev_buf), (size_t)read_ret);
}
out[MAX(read_ret, (ssize_t)0)] = '\0';
return read_ret;
}
void safe_cg_printf(const char *const file, const int lineno,
const struct tst_cg_group *cg,
const char *const file_name,
const char *const fmt, ...)
{
const struct cgroup_file *const cfile =
cgroup_file_find(file, lineno, file_name);
struct cgroup_dir *const *dir;
const char *alias;
va_list va;
for_each_dir(cg, cfile->ctrl_indx, dir) {
alias = cgroup_file_alias(cfile, *dir);
if (!alias)
continue;
va_start(va, fmt);
safe_file_vprintfat(file, lineno,
(*dir)->dir_fd, alias, fmt, va);
va_end(va);
}
}
int safe_cg_open(const char *const file, const int lineno,
const struct tst_cg_group *cg,
const char *const file_name, int flags, int *fds)
{
const struct cgroup_file *const cfile =
cgroup_file_find(file, lineno, file_name);
struct cgroup_dir *const *dir;
const char *alias;
int i = 0;
for_each_dir(cg, cfile->ctrl_indx, dir) {
alias = cgroup_file_alias(cfile, *dir);
if (!alias)
continue;
fds[i++] = safe_openat(file, lineno, (*dir)->dir_fd, alias, flags);
}
return i;
}
void safe_cg_fchown(const char *const file, const int lineno,
const struct tst_cg_group *cg,
const char *const file_name,
uid_t owner, gid_t group)
{
const struct cgroup_file *const cfile =
cgroup_file_find(file, lineno, file_name);
struct cgroup_dir *const *dir;
const char *alias;
for_each_dir(cg, cfile->ctrl_indx, dir) {
alias = cgroup_file_alias(cfile, *dir);
if (!alias)
continue;
safe_fchownat(file, lineno, (*dir)->dir_fd, alias, owner, group, 0);
}
}
void safe_cg_scanf(const char *const file, const int lineno,
const struct tst_cg_group *const cg,
const char *const file_name,
const char *const fmt, ...)
{
va_list va;
char buf[BUFSIZ];
ssize_t len = safe_cg_read(file, lineno,
cg, file_name, buf, sizeof(buf));
const int conv_cnt = tst_count_scanf_conversions(fmt);
int ret;
if (len < 1)
return;
va_start(va, fmt);
ret = vsscanf(buf, fmt, va);
if (ret < 1) {
tst_brk_(file, lineno, TBROK | TERRNO,
"'%s': vsscanf('%s', '%s', ...)", file_name, buf, fmt);
}
va_end(va);
if (conv_cnt == ret)
return;
tst_brk_(file, lineno, TBROK,
"'%s': vsscanf('%s', '%s', ..): Less conversions than expected: %d != %d",
file_name, buf, fmt, ret, conv_cnt);
}
void safe_cg_lines_scanf(const char *const file, const int lineno,
const struct tst_cg_group *const cg,
const char *const file_name,
const char *const fmt, ...)
{
va_list va;
char buf[BUFSIZ];
ssize_t len = safe_cg_read(file, lineno,
cg, file_name, buf, sizeof(buf));
const int conv_cnt = tst_count_scanf_conversions(fmt);
int ret = 0;
char *line, *buf_ptr;
if (len < 1)
return;
line = strtok_r(buf, "\n", &buf_ptr);
while (line && ret != conv_cnt) {
va_start(va, fmt);
ret = vsscanf(line, fmt, va);
va_end(va);
line = strtok_r(NULL, "\n", &buf_ptr);
}
if (conv_cnt == ret)
return;
tst_brk_(file, lineno, TBROK,
"'%s': vsscanf('%s', '%s', ..): Less conversions than expected: %d != %d",
file_name, buf, fmt, ret, conv_cnt);
}
int safe_cg_occursin(const char *const file, const int lineno,
const struct tst_cg_group *const cg,
const char *const file_name,
const char *const needle)
{
char buf[BUFSIZ];
safe_cg_read(file, lineno, cg, file_name, buf, sizeof(buf));
return !!strstr(buf, needle);
}