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|
// SPDX-License-Identifier: GPL-2.0
/* Copyright (c) 2020 Facebook */
#include <vmlinux.h>
#include <bpf/bpf_core_read.h>
#include <bpf/bpf_helpers.h>
#include <bpf/bpf_tracing.h>
#include "profiler.h"
#ifndef NULL
#define NULL 0
#endif
#define O_WRONLY 00000001
#define O_RDWR 00000002
#define O_DIRECTORY 00200000
#define __O_TMPFILE 020000000
#define O_TMPFILE (__O_TMPFILE | O_DIRECTORY)
#define MAX_ERRNO 4095
#define S_IFMT 00170000
#define S_IFSOCK 0140000
#define S_IFLNK 0120000
#define S_IFREG 0100000
#define S_IFBLK 0060000
#define S_IFDIR 0040000
#define S_IFCHR 0020000
#define S_IFIFO 0010000
#define S_ISUID 0004000
#define S_ISGID 0002000
#define S_ISVTX 0001000
#define S_ISLNK(m) (((m)&S_IFMT) == S_IFLNK)
#define S_ISDIR(m) (((m)&S_IFMT) == S_IFDIR)
#define S_ISCHR(m) (((m)&S_IFMT) == S_IFCHR)
#define S_ISBLK(m) (((m)&S_IFMT) == S_IFBLK)
#define S_ISFIFO(m) (((m)&S_IFMT) == S_IFIFO)
#define S_ISSOCK(m) (((m)&S_IFMT) == S_IFSOCK)
#define IS_ERR_VALUE(x) (unsigned long)(void*)(x) >= (unsigned long)-MAX_ERRNO
#define KILL_DATA_ARRAY_SIZE 8
struct var_kill_data_arr_t {
struct var_kill_data_t array[KILL_DATA_ARRAY_SIZE];
};
union any_profiler_data_t {
struct var_exec_data_t var_exec;
struct var_kill_data_t var_kill;
struct var_sysctl_data_t var_sysctl;
struct var_filemod_data_t var_filemod;
struct var_fork_data_t var_fork;
struct var_kill_data_arr_t var_kill_data_arr;
};
volatile struct profiler_config_struct bpf_config = {};
#define FETCH_CGROUPS_FROM_BPF (bpf_config.fetch_cgroups_from_bpf)
#define CGROUP_FS_INODE (bpf_config.cgroup_fs_inode)
#define CGROUP_LOGIN_SESSION_INODE \
(bpf_config.cgroup_login_session_inode)
#define KILL_SIGNALS (bpf_config.kill_signals_mask)
#define STALE_INFO (bpf_config.stale_info_secs)
#define INODE_FILTER (bpf_config.inode_filter)
#define READ_ENVIRON_FROM_EXEC (bpf_config.read_environ_from_exec)
#define ENABLE_CGROUP_V1_RESOLVER (bpf_config.enable_cgroup_v1_resolver)
struct kernfs_iattrs___52 {
struct iattr ia_iattr;
};
struct kernfs_node___52 {
union /* kernfs_node_id */ {
struct {
u32 ino;
u32 generation;
};
u64 id;
} id;
};
struct {
__uint(type, BPF_MAP_TYPE_PERCPU_ARRAY);
__uint(max_entries, 1);
__type(key, u32);
__type(value, union any_profiler_data_t);
} data_heap SEC(".maps");
struct {
__uint(type, BPF_MAP_TYPE_PERF_EVENT_ARRAY);
__uint(key_size, sizeof(int));
__uint(value_size, sizeof(int));
} events SEC(".maps");
struct {
__uint(type, BPF_MAP_TYPE_HASH);
__uint(max_entries, KILL_DATA_ARRAY_SIZE);
__type(key, u32);
__type(value, struct var_kill_data_arr_t);
} var_tpid_to_data SEC(".maps");
struct {
__uint(type, BPF_MAP_TYPE_PERCPU_ARRAY);
__uint(max_entries, profiler_bpf_max_function_id);
__type(key, u32);
__type(value, struct bpf_func_stats_data);
} bpf_func_stats SEC(".maps");
struct {
__uint(type, BPF_MAP_TYPE_HASH);
__type(key, u32);
__type(value, bool);
__uint(max_entries, 16);
} allowed_devices SEC(".maps");
struct {
__uint(type, BPF_MAP_TYPE_HASH);
__type(key, u64);
__type(value, bool);
__uint(max_entries, 1024);
} allowed_file_inodes SEC(".maps");
struct {
__uint(type, BPF_MAP_TYPE_HASH);
__type(key, u64);
__type(value, bool);
__uint(max_entries, 1024);
} allowed_directory_inodes SEC(".maps");
struct {
__uint(type, BPF_MAP_TYPE_HASH);
__type(key, u32);
__type(value, bool);
__uint(max_entries, 16);
} disallowed_exec_inodes SEC(".maps");
#ifndef ARRAY_SIZE
#define ARRAY_SIZE(arr) (sizeof(arr) / sizeof(arr[0]))
#endif
static INLINE bool IS_ERR(const void* ptr)
{
return IS_ERR_VALUE((unsigned long)ptr);
}
static INLINE u32 get_userspace_pid()
{
return bpf_get_current_pid_tgid() >> 32;
}
static INLINE bool is_init_process(u32 tgid)
{
return tgid == 1 || tgid == 0;
}
static INLINE unsigned long
probe_read_lim(void* dst, void* src, unsigned long len, unsigned long max)
{
len = len < max ? len : max;
if (len > 1) {
if (bpf_probe_read(dst, len, src))
return 0;
} else if (len == 1) {
if (bpf_probe_read(dst, 1, src))
return 0;
}
return len;
}
static INLINE int get_var_spid_index(struct var_kill_data_arr_t* arr_struct,
int spid)
{
#ifdef UNROLL
#pragma unroll
#endif
for (int i = 0; i < ARRAY_SIZE(arr_struct->array); i++)
if (arr_struct->array[i].meta.pid == spid)
return i;
return -1;
}
static INLINE void populate_ancestors(struct task_struct* task,
struct ancestors_data_t* ancestors_data)
{
struct task_struct* parent = task;
u32 num_ancestors, ppid;
ancestors_data->num_ancestors = 0;
#ifdef UNROLL
#pragma unroll
#endif
for (num_ancestors = 0; num_ancestors < MAX_ANCESTORS; num_ancestors++) {
parent = BPF_CORE_READ(parent, real_parent);
if (parent == NULL)
break;
ppid = BPF_CORE_READ(parent, tgid);
if (is_init_process(ppid))
break;
ancestors_data->ancestor_pids[num_ancestors] = ppid;
ancestors_data->ancestor_exec_ids[num_ancestors] =
BPF_CORE_READ(parent, self_exec_id);
ancestors_data->ancestor_start_times[num_ancestors] =
BPF_CORE_READ(parent, start_time);
ancestors_data->num_ancestors = num_ancestors;
}
}
static INLINE void* read_full_cgroup_path(struct kernfs_node* cgroup_node,
struct kernfs_node* cgroup_root_node,
void* payload,
int* root_pos)
{
void* payload_start = payload;
size_t filepart_length;
#ifdef UNROLL
#pragma unroll
#endif
for (int i = 0; i < MAX_CGROUPS_PATH_DEPTH; i++) {
filepart_length =
bpf_probe_read_str(payload, MAX_PATH, BPF_CORE_READ(cgroup_node, name));
if (!cgroup_node)
return payload;
if (cgroup_node == cgroup_root_node)
*root_pos = payload - payload_start;
if (filepart_length <= MAX_PATH) {
barrier_var(filepart_length);
payload += filepart_length;
}
cgroup_node = BPF_CORE_READ(cgroup_node, parent);
}
return payload;
}
static ino_t get_inode_from_kernfs(struct kernfs_node* node)
{
struct kernfs_node___52* node52 = (void*)node;
if (bpf_core_field_exists(node52->id.ino)) {
barrier_var(node52);
return BPF_CORE_READ(node52, id.ino);
} else {
barrier_var(node);
return (u64)BPF_CORE_READ(node, id);
}
}
extern bool CONFIG_CGROUP_PIDS __kconfig __weak;
enum cgroup_subsys_id___local {
pids_cgrp_id___local = 123, /* value doesn't matter */
};
static INLINE void* populate_cgroup_info(struct cgroup_data_t* cgroup_data,
struct task_struct* task,
void* payload)
{
struct kernfs_node* root_kernfs =
BPF_CORE_READ(task, nsproxy, cgroup_ns, root_cset, dfl_cgrp, kn);
struct kernfs_node* proc_kernfs = BPF_CORE_READ(task, cgroups, dfl_cgrp, kn);
#if __has_builtin(__builtin_preserve_enum_value)
if (ENABLE_CGROUP_V1_RESOLVER && CONFIG_CGROUP_PIDS) {
int cgrp_id = bpf_core_enum_value(enum cgroup_subsys_id___local,
pids_cgrp_id___local);
#ifdef UNROLL
#pragma unroll
#endif
for (int i = 0; i < CGROUP_SUBSYS_COUNT; i++) {
struct cgroup_subsys_state* subsys =
BPF_CORE_READ(task, cgroups, subsys[i]);
if (subsys != NULL) {
int subsys_id = BPF_CORE_READ(subsys, ss, id);
if (subsys_id == cgrp_id) {
proc_kernfs = BPF_CORE_READ(subsys, cgroup, kn);
root_kernfs = BPF_CORE_READ(subsys, ss, root, kf_root, kn);
break;
}
}
}
}
#endif
cgroup_data->cgroup_root_inode = get_inode_from_kernfs(root_kernfs);
cgroup_data->cgroup_proc_inode = get_inode_from_kernfs(proc_kernfs);
if (bpf_core_field_exists(root_kernfs->iattr->ia_mtime)) {
cgroup_data->cgroup_root_mtime =
BPF_CORE_READ(root_kernfs, iattr, ia_mtime.tv_nsec);
cgroup_data->cgroup_proc_mtime =
BPF_CORE_READ(proc_kernfs, iattr, ia_mtime.tv_nsec);
} else {
struct kernfs_iattrs___52* root_iattr =
(struct kernfs_iattrs___52*)BPF_CORE_READ(root_kernfs, iattr);
cgroup_data->cgroup_root_mtime =
BPF_CORE_READ(root_iattr, ia_iattr.ia_mtime.tv_nsec);
struct kernfs_iattrs___52* proc_iattr =
(struct kernfs_iattrs___52*)BPF_CORE_READ(proc_kernfs, iattr);
cgroup_data->cgroup_proc_mtime =
BPF_CORE_READ(proc_iattr, ia_iattr.ia_mtime.tv_nsec);
}
cgroup_data->cgroup_root_length = 0;
cgroup_data->cgroup_proc_length = 0;
cgroup_data->cgroup_full_length = 0;
size_t cgroup_root_length =
bpf_probe_read_str(payload, MAX_PATH, BPF_CORE_READ(root_kernfs, name));
barrier_var(cgroup_root_length);
if (cgroup_root_length <= MAX_PATH) {
barrier_var(cgroup_root_length);
cgroup_data->cgroup_root_length = cgroup_root_length;
payload += cgroup_root_length;
}
size_t cgroup_proc_length =
bpf_probe_read_str(payload, MAX_PATH, BPF_CORE_READ(proc_kernfs, name));
barrier_var(cgroup_proc_length);
if (cgroup_proc_length <= MAX_PATH) {
barrier_var(cgroup_proc_length);
cgroup_data->cgroup_proc_length = cgroup_proc_length;
payload += cgroup_proc_length;
}
if (FETCH_CGROUPS_FROM_BPF) {
cgroup_data->cgroup_full_path_root_pos = -1;
void* payload_end_pos = read_full_cgroup_path(proc_kernfs, root_kernfs, payload,
&cgroup_data->cgroup_full_path_root_pos);
cgroup_data->cgroup_full_length = payload_end_pos - payload;
payload = payload_end_pos;
}
return (void*)payload;
}
static INLINE void* populate_var_metadata(struct var_metadata_t* metadata,
struct task_struct* task,
u32 pid, void* payload)
{
u64 uid_gid = bpf_get_current_uid_gid();
metadata->uid = (u32)uid_gid;
metadata->gid = uid_gid >> 32;
metadata->pid = pid;
metadata->exec_id = BPF_CORE_READ(task, self_exec_id);
metadata->start_time = BPF_CORE_READ(task, start_time);
metadata->comm_length = 0;
size_t comm_length = bpf_core_read_str(payload, TASK_COMM_LEN, &task->comm);
barrier_var(comm_length);
if (comm_length <= TASK_COMM_LEN) {
barrier_var(comm_length);
metadata->comm_length = comm_length;
payload += comm_length;
}
return (void*)payload;
}
static INLINE struct var_kill_data_t*
get_var_kill_data(struct pt_regs* ctx, int spid, int tpid, int sig)
{
int zero = 0;
struct var_kill_data_t* kill_data = bpf_map_lookup_elem(&data_heap, &zero);
if (kill_data == NULL)
return NULL;
struct task_struct* task = (struct task_struct*)bpf_get_current_task();
void* payload = populate_var_metadata(&kill_data->meta, task, spid, kill_data->payload);
payload = populate_cgroup_info(&kill_data->cgroup_data, task, payload);
size_t payload_length = payload - (void*)kill_data->payload;
kill_data->payload_length = payload_length;
populate_ancestors(task, &kill_data->ancestors_info);
kill_data->meta.type = KILL_EVENT;
kill_data->kill_target_pid = tpid;
kill_data->kill_sig = sig;
kill_data->kill_count = 1;
kill_data->last_kill_time = bpf_ktime_get_ns();
return kill_data;
}
static INLINE int trace_var_sys_kill(void* ctx, int tpid, int sig)
{
if ((KILL_SIGNALS & (1ULL << sig)) == 0)
return 0;
u32 spid = get_userspace_pid();
struct var_kill_data_arr_t* arr_struct = bpf_map_lookup_elem(&var_tpid_to_data, &tpid);
if (arr_struct == NULL) {
struct var_kill_data_t* kill_data = get_var_kill_data(ctx, spid, tpid, sig);
int zero = 0;
if (kill_data == NULL)
return 0;
arr_struct = bpf_map_lookup_elem(&data_heap, &zero);
if (arr_struct == NULL)
return 0;
bpf_probe_read(&arr_struct->array[0], sizeof(arr_struct->array[0]), kill_data);
} else {
int index = get_var_spid_index(arr_struct, spid);
if (index == -1) {
struct var_kill_data_t* kill_data =
get_var_kill_data(ctx, spid, tpid, sig);
if (kill_data == NULL)
return 0;
#ifdef UNROLL
#pragma unroll
#endif
for (int i = 0; i < ARRAY_SIZE(arr_struct->array); i++)
if (arr_struct->array[i].meta.pid == 0) {
bpf_probe_read(&arr_struct->array[i],
sizeof(arr_struct->array[i]), kill_data);
bpf_map_update_elem(&var_tpid_to_data, &tpid,
arr_struct, 0);
return 0;
}
return 0;
}
struct var_kill_data_t* kill_data = &arr_struct->array[index];
u64 delta_sec =
(bpf_ktime_get_ns() - kill_data->last_kill_time) / 1000000000;
if (delta_sec < STALE_INFO) {
kill_data->kill_count++;
kill_data->last_kill_time = bpf_ktime_get_ns();
bpf_probe_read(&arr_struct->array[index],
sizeof(arr_struct->array[index]),
kill_data);
} else {
struct var_kill_data_t* kill_data =
get_var_kill_data(ctx, spid, tpid, sig);
if (kill_data == NULL)
return 0;
bpf_probe_read(&arr_struct->array[index],
sizeof(arr_struct->array[index]),
kill_data);
}
}
bpf_map_update_elem(&var_tpid_to_data, &tpid, arr_struct, 0);
return 0;
}
static INLINE void bpf_stats_enter(struct bpf_func_stats_ctx* bpf_stat_ctx,
enum bpf_function_id func_id)
{
int func_id_key = func_id;
bpf_stat_ctx->start_time_ns = bpf_ktime_get_ns();
bpf_stat_ctx->bpf_func_stats_data_val =
bpf_map_lookup_elem(&bpf_func_stats, &func_id_key);
if (bpf_stat_ctx->bpf_func_stats_data_val)
bpf_stat_ctx->bpf_func_stats_data_val->num_executions++;
}
static INLINE void bpf_stats_exit(struct bpf_func_stats_ctx* bpf_stat_ctx)
{
if (bpf_stat_ctx->bpf_func_stats_data_val)
bpf_stat_ctx->bpf_func_stats_data_val->time_elapsed_ns +=
bpf_ktime_get_ns() - bpf_stat_ctx->start_time_ns;
}
static INLINE void
bpf_stats_pre_submit_var_perf_event(struct bpf_func_stats_ctx* bpf_stat_ctx,
struct var_metadata_t* meta)
{
if (bpf_stat_ctx->bpf_func_stats_data_val) {
bpf_stat_ctx->bpf_func_stats_data_val->num_perf_events++;
meta->bpf_stats_num_perf_events =
bpf_stat_ctx->bpf_func_stats_data_val->num_perf_events;
}
meta->bpf_stats_start_ktime_ns = bpf_stat_ctx->start_time_ns;
meta->cpu_id = bpf_get_smp_processor_id();
}
static INLINE size_t
read_absolute_file_path_from_dentry(struct dentry* filp_dentry, void* payload)
{
size_t length = 0;
size_t filepart_length;
struct dentry* parent_dentry;
#ifdef UNROLL
#pragma unroll
#endif
for (int i = 0; i < MAX_PATH_DEPTH; i++) {
filepart_length = bpf_probe_read_str(payload, MAX_PATH,
BPF_CORE_READ(filp_dentry, d_name.name));
barrier_var(filepart_length);
if (filepart_length > MAX_PATH)
break;
barrier_var(filepart_length);
payload += filepart_length;
length += filepart_length;
parent_dentry = BPF_CORE_READ(filp_dentry, d_parent);
if (filp_dentry == parent_dentry)
break;
filp_dentry = parent_dentry;
}
return length;
}
static INLINE bool
is_ancestor_in_allowed_inodes(struct dentry* filp_dentry)
{
struct dentry* parent_dentry;
#ifdef UNROLL
#pragma unroll
#endif
for (int i = 0; i < MAX_PATH_DEPTH; i++) {
u64 dir_ino = BPF_CORE_READ(filp_dentry, d_inode, i_ino);
bool* allowed_dir = bpf_map_lookup_elem(&allowed_directory_inodes, &dir_ino);
if (allowed_dir != NULL)
return true;
parent_dentry = BPF_CORE_READ(filp_dentry, d_parent);
if (filp_dentry == parent_dentry)
break;
filp_dentry = parent_dentry;
}
return false;
}
static INLINE bool is_dentry_allowed_for_filemod(struct dentry* file_dentry,
u32* device_id,
u64* file_ino)
{
u32 dev_id = BPF_CORE_READ(file_dentry, d_sb, s_dev);
*device_id = dev_id;
bool* allowed_device = bpf_map_lookup_elem(&allowed_devices, &dev_id);
if (allowed_device == NULL)
return false;
u64 ino = BPF_CORE_READ(file_dentry, d_inode, i_ino);
*file_ino = ino;
bool* allowed_file = bpf_map_lookup_elem(&allowed_file_inodes, &ino);
if (allowed_file == NULL)
if (!is_ancestor_in_allowed_inodes(BPF_CORE_READ(file_dentry, d_parent)))
return false;
return true;
}
SEC("kprobe/proc_sys_write")
ssize_t BPF_KPROBE(kprobe__proc_sys_write,
struct file* filp, const char* buf,
size_t count, loff_t* ppos)
{
struct bpf_func_stats_ctx stats_ctx;
bpf_stats_enter(&stats_ctx, profiler_bpf_proc_sys_write);
u32 pid = get_userspace_pid();
int zero = 0;
struct var_sysctl_data_t* sysctl_data =
bpf_map_lookup_elem(&data_heap, &zero);
if (!sysctl_data)
goto out;
struct task_struct* task = (struct task_struct*)bpf_get_current_task();
sysctl_data->meta.type = SYSCTL_EVENT;
void* payload = populate_var_metadata(&sysctl_data->meta, task, pid, sysctl_data->payload);
payload = populate_cgroup_info(&sysctl_data->cgroup_data, task, payload);
populate_ancestors(task, &sysctl_data->ancestors_info);
sysctl_data->sysctl_val_length = 0;
sysctl_data->sysctl_path_length = 0;
size_t sysctl_val_length = bpf_probe_read_str(payload, CTL_MAXNAME, buf);
barrier_var(sysctl_val_length);
if (sysctl_val_length <= CTL_MAXNAME) {
barrier_var(sysctl_val_length);
sysctl_data->sysctl_val_length = sysctl_val_length;
payload += sysctl_val_length;
}
size_t sysctl_path_length = bpf_probe_read_str(payload, MAX_PATH,
BPF_CORE_READ(filp, f_path.dentry, d_name.name));
barrier_var(sysctl_path_length);
if (sysctl_path_length <= MAX_PATH) {
barrier_var(sysctl_path_length);
sysctl_data->sysctl_path_length = sysctl_path_length;
payload += sysctl_path_length;
}
bpf_stats_pre_submit_var_perf_event(&stats_ctx, &sysctl_data->meta);
unsigned long data_len = payload - (void*)sysctl_data;
data_len = data_len > sizeof(struct var_sysctl_data_t)
? sizeof(struct var_sysctl_data_t)
: data_len;
bpf_perf_event_output(ctx, &events, BPF_F_CURRENT_CPU, sysctl_data, data_len);
out:
bpf_stats_exit(&stats_ctx);
return 0;
}
SEC("tracepoint/syscalls/sys_enter_kill")
int tracepoint__syscalls__sys_enter_kill(struct trace_event_raw_sys_enter* ctx)
{
struct bpf_func_stats_ctx stats_ctx;
bpf_stats_enter(&stats_ctx, profiler_bpf_sys_enter_kill);
int pid = ctx->args[0];
int sig = ctx->args[1];
int ret = trace_var_sys_kill(ctx, pid, sig);
bpf_stats_exit(&stats_ctx);
return ret;
};
SEC("raw_tracepoint/sched_process_exit")
int raw_tracepoint__sched_process_exit(void* ctx)
{
int zero = 0;
struct bpf_func_stats_ctx stats_ctx;
bpf_stats_enter(&stats_ctx, profiler_bpf_sched_process_exit);
u32 tpid = get_userspace_pid();
struct var_kill_data_arr_t* arr_struct = bpf_map_lookup_elem(&var_tpid_to_data, &tpid);
struct var_kill_data_t* kill_data = bpf_map_lookup_elem(&data_heap, &zero);
if (arr_struct == NULL || kill_data == NULL)
goto out;
struct task_struct* task = (struct task_struct*)bpf_get_current_task();
struct kernfs_node* proc_kernfs = BPF_CORE_READ(task, cgroups, dfl_cgrp, kn);
#ifdef UNROLL
#pragma unroll
#endif
for (int i = 0; i < ARRAY_SIZE(arr_struct->array); i++) {
struct var_kill_data_t* past_kill_data = &arr_struct->array[i];
if (past_kill_data != NULL && past_kill_data->kill_target_pid == tpid) {
bpf_probe_read(kill_data, sizeof(*past_kill_data), past_kill_data);
void* payload = kill_data->payload;
size_t offset = kill_data->payload_length;
if (offset >= MAX_METADATA_PAYLOAD_LEN + MAX_CGROUP_PAYLOAD_LEN)
return 0;
payload += offset;
kill_data->kill_target_name_length = 0;
kill_data->kill_target_cgroup_proc_length = 0;
size_t comm_length = bpf_core_read_str(payload, TASK_COMM_LEN, &task->comm);
barrier_var(comm_length);
if (comm_length <= TASK_COMM_LEN) {
barrier_var(comm_length);
kill_data->kill_target_name_length = comm_length;
payload += comm_length;
}
size_t cgroup_proc_length = bpf_probe_read_str(payload, KILL_TARGET_LEN,
BPF_CORE_READ(proc_kernfs, name));
barrier_var(cgroup_proc_length);
if (cgroup_proc_length <= KILL_TARGET_LEN) {
barrier_var(cgroup_proc_length);
kill_data->kill_target_cgroup_proc_length = cgroup_proc_length;
payload += cgroup_proc_length;
}
bpf_stats_pre_submit_var_perf_event(&stats_ctx, &kill_data->meta);
unsigned long data_len = (void*)payload - (void*)kill_data;
data_len = data_len > sizeof(struct var_kill_data_t)
? sizeof(struct var_kill_data_t)
: data_len;
bpf_perf_event_output(ctx, &events, BPF_F_CURRENT_CPU, kill_data, data_len);
}
}
bpf_map_delete_elem(&var_tpid_to_data, &tpid);
out:
bpf_stats_exit(&stats_ctx);
return 0;
}
SEC("raw_tracepoint/sched_process_exec")
int raw_tracepoint__sched_process_exec(struct bpf_raw_tracepoint_args* ctx)
{
struct bpf_func_stats_ctx stats_ctx;
bpf_stats_enter(&stats_ctx, profiler_bpf_sched_process_exec);
struct linux_binprm* bprm = (struct linux_binprm*)ctx->args[2];
u64 inode = BPF_CORE_READ(bprm, file, f_inode, i_ino);
bool* should_filter_binprm = bpf_map_lookup_elem(&disallowed_exec_inodes, &inode);
if (should_filter_binprm != NULL)
goto out;
int zero = 0;
struct var_exec_data_t* proc_exec_data = bpf_map_lookup_elem(&data_heap, &zero);
if (!proc_exec_data)
goto out;
if (INODE_FILTER && inode != INODE_FILTER)
return 0;
u32 pid = get_userspace_pid();
struct task_struct* task = (struct task_struct*)bpf_get_current_task();
proc_exec_data->meta.type = EXEC_EVENT;
proc_exec_data->bin_path_length = 0;
proc_exec_data->cmdline_length = 0;
proc_exec_data->environment_length = 0;
void* payload = populate_var_metadata(&proc_exec_data->meta, task, pid,
proc_exec_data->payload);
payload = populate_cgroup_info(&proc_exec_data->cgroup_data, task, payload);
struct task_struct* parent_task = BPF_CORE_READ(task, real_parent);
proc_exec_data->parent_pid = BPF_CORE_READ(parent_task, tgid);
proc_exec_data->parent_uid = BPF_CORE_READ(parent_task, real_cred, uid.val);
proc_exec_data->parent_exec_id = BPF_CORE_READ(parent_task, self_exec_id);
proc_exec_data->parent_start_time = BPF_CORE_READ(parent_task, start_time);
const char* filename = BPF_CORE_READ(bprm, filename);
size_t bin_path_length = bpf_probe_read_str(payload, MAX_FILENAME_LEN, filename);
barrier_var(bin_path_length);
if (bin_path_length <= MAX_FILENAME_LEN) {
barrier_var(bin_path_length);
proc_exec_data->bin_path_length = bin_path_length;
payload += bin_path_length;
}
void* arg_start = (void*)BPF_CORE_READ(task, mm, arg_start);
void* arg_end = (void*)BPF_CORE_READ(task, mm, arg_end);
unsigned int cmdline_length = probe_read_lim(payload, arg_start,
arg_end - arg_start, MAX_ARGS_LEN);
if (cmdline_length <= MAX_ARGS_LEN) {
barrier_var(cmdline_length);
proc_exec_data->cmdline_length = cmdline_length;
payload += cmdline_length;
}
if (READ_ENVIRON_FROM_EXEC) {
void* env_start = (void*)BPF_CORE_READ(task, mm, env_start);
void* env_end = (void*)BPF_CORE_READ(task, mm, env_end);
unsigned long env_len = probe_read_lim(payload, env_start,
env_end - env_start, MAX_ENVIRON_LEN);
if (cmdline_length <= MAX_ENVIRON_LEN) {
proc_exec_data->environment_length = env_len;
payload += env_len;
}
}
bpf_stats_pre_submit_var_perf_event(&stats_ctx, &proc_exec_data->meta);
unsigned long data_len = payload - (void*)proc_exec_data;
data_len = data_len > sizeof(struct var_exec_data_t)
? sizeof(struct var_exec_data_t)
: data_len;
bpf_perf_event_output(ctx, &events, BPF_F_CURRENT_CPU, proc_exec_data, data_len);
out:
bpf_stats_exit(&stats_ctx);
return 0;
}
SEC("kretprobe/do_filp_open")
int kprobe_ret__do_filp_open(struct pt_regs* ctx)
{
struct bpf_func_stats_ctx stats_ctx;
bpf_stats_enter(&stats_ctx, profiler_bpf_do_filp_open_ret);
struct file* filp = (struct file*)PT_REGS_RC_CORE(ctx);
if (filp == NULL || IS_ERR(filp))
goto out;
unsigned int flags = BPF_CORE_READ(filp, f_flags);
if ((flags & (O_RDWR | O_WRONLY)) == 0)
goto out;
if ((flags & O_TMPFILE) > 0)
goto out;
struct inode* file_inode = BPF_CORE_READ(filp, f_inode);
umode_t mode = BPF_CORE_READ(file_inode, i_mode);
if (S_ISDIR(mode) || S_ISCHR(mode) || S_ISBLK(mode) || S_ISFIFO(mode) ||
S_ISSOCK(mode))
goto out;
struct dentry* filp_dentry = BPF_CORE_READ(filp, f_path.dentry);
u32 device_id = 0;
u64 file_ino = 0;
if (!is_dentry_allowed_for_filemod(filp_dentry, &device_id, &file_ino))
goto out;
int zero = 0;
struct var_filemod_data_t* filemod_data = bpf_map_lookup_elem(&data_heap, &zero);
if (!filemod_data)
goto out;
u32 pid = get_userspace_pid();
struct task_struct* task = (struct task_struct*)bpf_get_current_task();
filemod_data->meta.type = FILEMOD_EVENT;
filemod_data->fmod_type = FMOD_OPEN;
filemod_data->dst_flags = flags;
filemod_data->src_inode = 0;
filemod_data->dst_inode = file_ino;
filemod_data->src_device_id = 0;
filemod_data->dst_device_id = device_id;
filemod_data->src_filepath_length = 0;
filemod_data->dst_filepath_length = 0;
void* payload = populate_var_metadata(&filemod_data->meta, task, pid,
filemod_data->payload);
payload = populate_cgroup_info(&filemod_data->cgroup_data, task, payload);
size_t len = read_absolute_file_path_from_dentry(filp_dentry, payload);
barrier_var(len);
if (len <= MAX_FILEPATH_LENGTH) {
barrier_var(len);
payload += len;
filemod_data->dst_filepath_length = len;
}
bpf_stats_pre_submit_var_perf_event(&stats_ctx, &filemod_data->meta);
unsigned long data_len = payload - (void*)filemod_data;
data_len = data_len > sizeof(*filemod_data) ? sizeof(*filemod_data) : data_len;
bpf_perf_event_output(ctx, &events, BPF_F_CURRENT_CPU, filemod_data, data_len);
out:
bpf_stats_exit(&stats_ctx);
return 0;
}
SEC("kprobe/vfs_link")
int BPF_KPROBE(kprobe__vfs_link,
struct dentry* old_dentry, struct user_namespace *mnt_userns,
struct inode* dir, struct dentry* new_dentry,
struct inode** delegated_inode)
{
struct bpf_func_stats_ctx stats_ctx;
bpf_stats_enter(&stats_ctx, profiler_bpf_vfs_link);
u32 src_device_id = 0;
u64 src_file_ino = 0;
u32 dst_device_id = 0;
u64 dst_file_ino = 0;
if (!is_dentry_allowed_for_filemod(old_dentry, &src_device_id, &src_file_ino) &&
!is_dentry_allowed_for_filemod(new_dentry, &dst_device_id, &dst_file_ino))
goto out;
int zero = 0;
struct var_filemod_data_t* filemod_data = bpf_map_lookup_elem(&data_heap, &zero);
if (!filemod_data)
goto out;
u32 pid = get_userspace_pid();
struct task_struct* task = (struct task_struct*)bpf_get_current_task();
filemod_data->meta.type = FILEMOD_EVENT;
filemod_data->fmod_type = FMOD_LINK;
filemod_data->dst_flags = 0;
filemod_data->src_inode = src_file_ino;
filemod_data->dst_inode = dst_file_ino;
filemod_data->src_device_id = src_device_id;
filemod_data->dst_device_id = dst_device_id;
filemod_data->src_filepath_length = 0;
filemod_data->dst_filepath_length = 0;
void* payload = populate_var_metadata(&filemod_data->meta, task, pid,
filemod_data->payload);
payload = populate_cgroup_info(&filemod_data->cgroup_data, task, payload);
size_t len = read_absolute_file_path_from_dentry(old_dentry, payload);
barrier_var(len);
if (len <= MAX_FILEPATH_LENGTH) {
barrier_var(len);
payload += len;
filemod_data->src_filepath_length = len;
}
len = read_absolute_file_path_from_dentry(new_dentry, payload);
barrier_var(len);
if (len <= MAX_FILEPATH_LENGTH) {
barrier_var(len);
payload += len;
filemod_data->dst_filepath_length = len;
}
bpf_stats_pre_submit_var_perf_event(&stats_ctx, &filemod_data->meta);
unsigned long data_len = payload - (void*)filemod_data;
data_len = data_len > sizeof(*filemod_data) ? sizeof(*filemod_data) : data_len;
bpf_perf_event_output(ctx, &events, BPF_F_CURRENT_CPU, filemod_data, data_len);
out:
bpf_stats_exit(&stats_ctx);
return 0;
}
SEC("kprobe/vfs_symlink")
int BPF_KPROBE(kprobe__vfs_symlink, struct inode* dir, struct dentry* dentry,
const char* oldname)
{
struct bpf_func_stats_ctx stats_ctx;
bpf_stats_enter(&stats_ctx, profiler_bpf_vfs_symlink);
u32 dst_device_id = 0;
u64 dst_file_ino = 0;
if (!is_dentry_allowed_for_filemod(dentry, &dst_device_id, &dst_file_ino))
goto out;
int zero = 0;
struct var_filemod_data_t* filemod_data = bpf_map_lookup_elem(&data_heap, &zero);
if (!filemod_data)
goto out;
u32 pid = get_userspace_pid();
struct task_struct* task = (struct task_struct*)bpf_get_current_task();
filemod_data->meta.type = FILEMOD_EVENT;
filemod_data->fmod_type = FMOD_SYMLINK;
filemod_data->dst_flags = 0;
filemod_data->src_inode = 0;
filemod_data->dst_inode = dst_file_ino;
filemod_data->src_device_id = 0;
filemod_data->dst_device_id = dst_device_id;
filemod_data->src_filepath_length = 0;
filemod_data->dst_filepath_length = 0;
void* payload = populate_var_metadata(&filemod_data->meta, task, pid,
filemod_data->payload);
payload = populate_cgroup_info(&filemod_data->cgroup_data, task, payload);
size_t len = bpf_probe_read_str(payload, MAX_FILEPATH_LENGTH, oldname);
barrier_var(len);
if (len <= MAX_FILEPATH_LENGTH) {
barrier_var(len);
payload += len;
filemod_data->src_filepath_length = len;
}
len = read_absolute_file_path_from_dentry(dentry, payload);
barrier_var(len);
if (len <= MAX_FILEPATH_LENGTH) {
barrier_var(len);
payload += len;
filemod_data->dst_filepath_length = len;
}
bpf_stats_pre_submit_var_perf_event(&stats_ctx, &filemod_data->meta);
unsigned long data_len = payload - (void*)filemod_data;
data_len = data_len > sizeof(*filemod_data) ? sizeof(*filemod_data) : data_len;
bpf_perf_event_output(ctx, &events, BPF_F_CURRENT_CPU, filemod_data, data_len);
out:
bpf_stats_exit(&stats_ctx);
return 0;
}
SEC("raw_tracepoint/sched_process_fork")
int raw_tracepoint__sched_process_fork(struct bpf_raw_tracepoint_args* ctx)
{
struct bpf_func_stats_ctx stats_ctx;
bpf_stats_enter(&stats_ctx, profiler_bpf_sched_process_fork);
int zero = 0;
struct var_fork_data_t* fork_data = bpf_map_lookup_elem(&data_heap, &zero);
if (!fork_data)
goto out;
struct task_struct* parent = (struct task_struct*)ctx->args[0];
struct task_struct* child = (struct task_struct*)ctx->args[1];
fork_data->meta.type = FORK_EVENT;
void* payload = populate_var_metadata(&fork_data->meta, child,
BPF_CORE_READ(child, pid), fork_data->payload);
fork_data->parent_pid = BPF_CORE_READ(parent, pid);
fork_data->parent_exec_id = BPF_CORE_READ(parent, self_exec_id);
fork_data->parent_start_time = BPF_CORE_READ(parent, start_time);
bpf_stats_pre_submit_var_perf_event(&stats_ctx, &fork_data->meta);
unsigned long data_len = payload - (void*)fork_data;
data_len = data_len > sizeof(*fork_data) ? sizeof(*fork_data) : data_len;
bpf_perf_event_output(ctx, &events, BPF_F_CURRENT_CPU, fork_data, data_len);
out:
bpf_stats_exit(&stats_ctx);
return 0;
}
char _license[] SEC("license") = "GPL";
|