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systemd/src/shared/bpf-program.c

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/* SPDX-License-Identifier: LGPL-2.1+ */
#include <fcntl.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include "alloc-util.h"
#include "bpf-program.h"
#include "fd-util.h"
#include "log.h"
#include "memory-util.h"
#include "missing.h"
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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#include "path-util.h"
int bpf_program_new(uint32_t prog_type, BPFProgram **ret) {
_cleanup_(bpf_program_unrefp) BPFProgram *p = NULL;
p = new0(BPFProgram, 1);
if (!p)
return log_oom();
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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p->n_ref = 1;
p->prog_type = prog_type;
p->kernel_fd = -1;
*ret = TAKE_PTR(p);
return 0;
}
static BPFProgram *bpf_program_free(BPFProgram *p) {
assert(p);
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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/* Unfortunately, the kernel currently doesn't implicitly detach BPF programs from their cgroups when the last
* fd to the BPF program is closed. This has nasty side-effects since this means that abnormally terminated
* programs that attached one of their BPF programs to a cgroup will leave this programs pinned for good with
* zero chance of recovery, until the cgroup is removed. This is particularly problematic if the cgroup in
* question is the root cgroup (or any other cgroup belonging to a service that cannot be restarted during
* operation, such as dbus), as the memory for the BPF program can only be reclaimed through a reboot. To
* counter this, we track closely to which cgroup a program was attached to and will detach it on our own
* whenever we close the BPF fd. */
(void) bpf_program_cgroup_detach(p);
safe_close(p->kernel_fd);
free(p->instructions);
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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free(p->attached_path);
return mfree(p);
}
DEFINE_TRIVIAL_REF_UNREF_FUNC(BPFProgram, bpf_program, bpf_program_free);
int bpf_program_add_instructions(BPFProgram *p, const struct bpf_insn *instructions, size_t count) {
assert(p);
if (p->kernel_fd >= 0) /* don't allow modification after we uploaded things to the kernel */
return -EBUSY;
if (!GREEDY_REALLOC(p->instructions, p->allocated, p->n_instructions + count))
return -ENOMEM;
memcpy(p->instructions + p->n_instructions, instructions, sizeof(struct bpf_insn) * count);
p->n_instructions += count;
return 0;
}
int bpf_program_load_kernel(BPFProgram *p, char *log_buf, size_t log_size) {
union bpf_attr attr;
assert(p);
if (p->kernel_fd >= 0) { /* make this idempotent */
memzero(log_buf, log_size);
return 0;
}
attr = (union bpf_attr) {
.prog_type = p->prog_type,
.insns = PTR_TO_UINT64(p->instructions),
.insn_cnt = p->n_instructions,
.license = PTR_TO_UINT64("GPL"),
.log_buf = PTR_TO_UINT64(log_buf),
.log_level = !!log_buf,
.log_size = log_size,
};
p->kernel_fd = bpf(BPF_PROG_LOAD, &attr, sizeof(attr));
if (p->kernel_fd < 0)
return -errno;
return 0;
}
int bpf_program_load_from_bpf_fs(BPFProgram *p, const char *path) {
union bpf_attr attr;
assert(p);
if (p->kernel_fd >= 0) /* don't overwrite an assembled or loaded program */
return -EBUSY;
attr = (union bpf_attr) {
.pathname = PTR_TO_UINT64(path),
};
p->kernel_fd = bpf(BPF_OBJ_GET, &attr, sizeof(attr));
if (p->kernel_fd < 0)
return -errno;
return 0;
}
int bpf_program_cgroup_attach(BPFProgram *p, int type, const char *path, uint32_t flags) {
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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_cleanup_free_ char *copy = NULL;
_cleanup_close_ int fd = -1;
union bpf_attr attr;
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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int r;
assert(p);
assert(type >= 0);
assert(path);
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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if (!IN_SET(flags, 0, BPF_F_ALLOW_OVERRIDE, BPF_F_ALLOW_MULTI))
return -EINVAL;
/* We need to track which cgroup the program is attached to, and we can only track one attachment, hence let's
* refuse this early. */
if (p->attached_path) {
if (!path_equal(p->attached_path, path))
return -EBUSY;
if (p->attached_type != type)
return -EBUSY;
if (p->attached_flags != flags)
return -EBUSY;
/* Here's a shortcut: if we previously attached this program already, then we don't have to do so
* again. Well, with one exception: if we are in BPF_F_ALLOW_OVERRIDE mode then someone else might have
* replaced our program since the last time, hence let's reattach it again, just to be safe. In flags
* == 0 mode this is not an issue since nobody else can replace our program in that case, and in flags
* == BPF_F_ALLOW_MULTI mode any other's program would be installed in addition to ours hence ours
* would remain in effect. */
if (flags != BPF_F_ALLOW_OVERRIDE)
return 0;
}
/* Ensure we have a kernel object for this. */
r = bpf_program_load_kernel(p, NULL, 0);
if (r < 0)
return r;
copy = strdup(path);
if (!copy)
return -ENOMEM;
fd = open(path, O_DIRECTORY|O_RDONLY|O_CLOEXEC);
if (fd < 0)
return -errno;
attr = (union bpf_attr) {
.attach_type = type,
.target_fd = fd,
.attach_bpf_fd = p->kernel_fd,
.attach_flags = flags,
};
if (bpf(BPF_PROG_ATTACH, &attr, sizeof(attr)) < 0)
return -errno;
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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free_and_replace(p->attached_path, copy);
p->attached_type = type;
p->attached_flags = flags;
return 0;
}
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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int bpf_program_cgroup_detach(BPFProgram *p) {
_cleanup_close_ int fd = -1;
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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assert(p);
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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if (!p->attached_path)
return -EUNATCH;
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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fd = open(p->attached_path, O_DIRECTORY|O_RDONLY|O_CLOEXEC);
if (fd < 0) {
if (errno != ENOENT)
return -errno;
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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/* If the cgroup does not exist anymore, then we don't have to explicitly detach, it got detached
* implicitly by the removal, hence don't complain */
bpf: rework how we keep track and attach cgroup bpf programs So, the kernel's management of cgroup/BPF programs is a bit misdesigned: if you attach a BPF program to a cgroup and close the fd for it it will stay pinned to the cgroup with no chance of ever removing it again (or otherwise getting ahold of it again), because the fd is used for selecting which BPF program to detach. The only way to get rid of the program again is to destroy the cgroup itself. This is particularly bad for root the cgroup (and in fact any other cgroup that we cannot realistically remove during runtime, such as /system.slice, /init.scope or /system.slice/dbus.service) as getting rid of the program only works by rebooting the system. To counter this let's closely keep track to which cgroup a BPF program is attached and let's implicitly detach the BPF program when we are about to close the BPF fd. This hence changes the bpf_program_cgroup_attach() function to track where we attached the program and changes bpf_program_cgroup_detach() to use this information. Moreover bpf_program_unref() will now implicitly call bpf_program_cgroup_detach(). In order to simplify things, bpf_program_cgroup_attach() will now implicitly invoke bpf_program_load_kernel() when necessary, simplifying the caller's side. Finally, this adds proper reference counting to BPF programs. This is useful for working with two BPF programs in parallel: the BPF program we are preparing for installation and the BPF program we so far installed, shortening the window when we detach the old one and reattach the new one.
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} else {
union bpf_attr attr;
attr = (union bpf_attr) {
.attach_type = p->attached_type,
.target_fd = fd,
.attach_bpf_fd = p->kernel_fd,
};
if (bpf(BPF_PROG_DETACH, &attr, sizeof(attr)) < 0)
return -errno;
}
p->attached_path = mfree(p->attached_path);
return 0;
}
int bpf_map_new(enum bpf_map_type type, size_t key_size, size_t value_size, size_t max_entries, uint32_t flags) {
union bpf_attr attr = {
.map_type = type,
.key_size = key_size,
.value_size = value_size,
.max_entries = max_entries,
.map_flags = flags,
};
int fd;
fd = bpf(BPF_MAP_CREATE, &attr, sizeof(attr));
if (fd < 0)
return -errno;
return fd;
}
int bpf_map_update_element(int fd, const void *key, void *value) {
union bpf_attr attr = {
.map_fd = fd,
.key = PTR_TO_UINT64(key),
.value = PTR_TO_UINT64(value),
};
if (bpf(BPF_MAP_UPDATE_ELEM, &attr, sizeof(attr)) < 0)
return -errno;
return 0;
}
int bpf_map_lookup_element(int fd, const void *key, void *value) {
union bpf_attr attr = {
.map_fd = fd,
.key = PTR_TO_UINT64(key),
.value = PTR_TO_UINT64(value),
};
if (bpf(BPF_MAP_LOOKUP_ELEM, &attr, sizeof(attr)) < 0)
return -errno;
return 0;
}