linux/kernel/bpf/cpumask.c

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bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
// SPDX-License-Identifier: GPL-2.0-only
/* Copyright (c) 2023 Meta, Inc */
#include <linux/bpf.h>
#include <linux/bpf_mem_alloc.h>
#include <linux/btf.h>
#include <linux/btf_ids.h>
#include <linux/cpumask.h>
/**
* struct bpf_cpumask - refcounted BPF cpumask wrapper structure
* @cpumask: The actual cpumask embedded in the struct.
* @usage: Object reference counter. When the refcount goes to 0, the
* memory is released back to the BPF allocator, which provides
* RCU safety.
*
* Note that we explicitly embed a cpumask_t rather than a cpumask_var_t. This
* is done to avoid confusing the verifier due to the typedef of cpumask_var_t
* changing depending on whether CONFIG_CPUMASK_OFFSTACK is defined or not. See
* the details in <linux/cpumask.h>. The consequence is that this structure is
* likely a bit larger than it needs to be when CONFIG_CPUMASK_OFFSTACK is
* defined due to embedding the whole NR_CPUS-size bitmap, but the extra memory
* overhead is minimal. For the more typical case of CONFIG_CPUMASK_OFFSTACK
* not being defined, the structure is the same size regardless.
*/
struct bpf_cpumask {
cpumask_t cpumask;
refcount_t usage;
};
static struct bpf_mem_alloc bpf_cpumask_ma;
static bool cpu_valid(u32 cpu)
{
return cpu < nr_cpu_ids;
}
__diag_push();
__diag_ignore_all("-Wmissing-prototypes",
"Global kfuncs as their definitions will be in BTF");
/**
* bpf_cpumask_create() - Create a mutable BPF cpumask.
*
* Allocates a cpumask that can be queried, mutated, acquired, and released by
* a BPF program. The cpumask returned by this function must either be embedded
* in a map as a kptr, or freed with bpf_cpumask_release().
*
* bpf_cpumask_create() allocates memory using the BPF memory allocator, and
* will not block. It may return NULL if no memory is available.
*/
__bpf_kfunc struct bpf_cpumask *bpf_cpumask_create(void)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
struct bpf_cpumask *cpumask;
/* cpumask must be the first element so struct bpf_cpumask be cast to struct cpumask. */
BUILD_BUG_ON(offsetof(struct bpf_cpumask, cpumask) != 0);
cpumask = bpf_mem_cache_alloc(&bpf_cpumask_ma);
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
if (!cpumask)
return NULL;
memset(cpumask, 0, sizeof(*cpumask));
refcount_set(&cpumask->usage, 1);
return cpumask;
}
/**
* bpf_cpumask_acquire() - Acquire a reference to a BPF cpumask.
* @cpumask: The BPF cpumask being acquired. The cpumask must be a trusted
* pointer.
*
* Acquires a reference to a BPF cpumask. The cpumask returned by this function
* must either be embedded in a map as a kptr, or freed with
* bpf_cpumask_release().
*/
__bpf_kfunc struct bpf_cpumask *bpf_cpumask_acquire(struct bpf_cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
refcount_inc(&cpumask->usage);
return cpumask;
}
/**
* bpf_cpumask_kptr_get() - Attempt to acquire a reference to a BPF cpumask
* stored in a map.
* @cpumaskp: A pointer to a BPF cpumask map value.
*
* Attempts to acquire a reference to a BPF cpumask stored in a map value. The
* cpumask returned by this function must either be embedded in a map as a
* kptr, or freed with bpf_cpumask_release(). This function may return NULL if
* no BPF cpumask was found in the specified map value.
*/
__bpf_kfunc struct bpf_cpumask *bpf_cpumask_kptr_get(struct bpf_cpumask **cpumaskp)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
struct bpf_cpumask *cpumask;
/* The BPF memory allocator frees memory backing its caches in an RCU
* callback. Thus, we can safely use RCU to ensure that the cpumask is
* safe to read.
*/
rcu_read_lock();
cpumask = READ_ONCE(*cpumaskp);
if (cpumask && !refcount_inc_not_zero(&cpumask->usage))
cpumask = NULL;
rcu_read_unlock();
return cpumask;
}
/**
* bpf_cpumask_release() - Release a previously acquired BPF cpumask.
* @cpumask: The cpumask being released.
*
* Releases a previously acquired reference to a BPF cpumask. When the final
* reference of the BPF cpumask has been released, it is subsequently freed in
* an RCU callback in the BPF memory allocator.
*/
__bpf_kfunc void bpf_cpumask_release(struct bpf_cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
if (!cpumask)
return;
if (refcount_dec_and_test(&cpumask->usage)) {
migrate_disable();
bpf_mem_cache_free(&bpf_cpumask_ma, cpumask);
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
migrate_enable();
}
}
/**
* bpf_cpumask_first() - Get the index of the first nonzero bit in the cpumask.
* @cpumask: The cpumask being queried.
*
* Find the index of the first nonzero bit of the cpumask. A struct bpf_cpumask
* pointer may be safely passed to this function.
*/
__bpf_kfunc u32 bpf_cpumask_first(const struct cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
return cpumask_first(cpumask);
}
/**
* bpf_cpumask_first_zero() - Get the index of the first unset bit in the
* cpumask.
* @cpumask: The cpumask being queried.
*
* Find the index of the first unset bit of the cpumask. A struct bpf_cpumask
* pointer may be safely passed to this function.
*/
__bpf_kfunc u32 bpf_cpumask_first_zero(const struct cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
return cpumask_first_zero(cpumask);
}
/**
* bpf_cpumask_set_cpu() - Set a bit for a CPU in a BPF cpumask.
* @cpu: The CPU to be set in the cpumask.
* @cpumask: The BPF cpumask in which a bit is being set.
*/
__bpf_kfunc void bpf_cpumask_set_cpu(u32 cpu, struct bpf_cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
if (!cpu_valid(cpu))
return;
cpumask_set_cpu(cpu, (struct cpumask *)cpumask);
}
/**
* bpf_cpumask_clear_cpu() - Clear a bit for a CPU in a BPF cpumask.
* @cpu: The CPU to be cleared from the cpumask.
* @cpumask: The BPF cpumask in which a bit is being cleared.
*/
__bpf_kfunc void bpf_cpumask_clear_cpu(u32 cpu, struct bpf_cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
if (!cpu_valid(cpu))
return;
cpumask_clear_cpu(cpu, (struct cpumask *)cpumask);
}
/**
* bpf_cpumask_test_cpu() - Test whether a CPU is set in a cpumask.
* @cpu: The CPU being queried for.
* @cpumask: The cpumask being queried for containing a CPU.
*
* Return:
* * true - @cpu is set in the cpumask
* * false - @cpu was not set in the cpumask, or @cpu is an invalid cpu.
*/
__bpf_kfunc bool bpf_cpumask_test_cpu(u32 cpu, const struct cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
if (!cpu_valid(cpu))
return false;
return cpumask_test_cpu(cpu, (struct cpumask *)cpumask);
}
/**
* bpf_cpumask_test_and_set_cpu() - Atomically test and set a CPU in a BPF cpumask.
* @cpu: The CPU being set and queried for.
* @cpumask: The BPF cpumask being set and queried for containing a CPU.
*
* Return:
* * true - @cpu is set in the cpumask
* * false - @cpu was not set in the cpumask, or @cpu is invalid.
*/
__bpf_kfunc bool bpf_cpumask_test_and_set_cpu(u32 cpu, struct bpf_cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
if (!cpu_valid(cpu))
return false;
return cpumask_test_and_set_cpu(cpu, (struct cpumask *)cpumask);
}
/**
* bpf_cpumask_test_and_clear_cpu() - Atomically test and clear a CPU in a BPF
* cpumask.
* @cpu: The CPU being cleared and queried for.
* @cpumask: The BPF cpumask being cleared and queried for containing a CPU.
*
* Return:
* * true - @cpu is set in the cpumask
* * false - @cpu was not set in the cpumask, or @cpu is invalid.
*/
__bpf_kfunc bool bpf_cpumask_test_and_clear_cpu(u32 cpu, struct bpf_cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
if (!cpu_valid(cpu))
return false;
return cpumask_test_and_clear_cpu(cpu, (struct cpumask *)cpumask);
}
/**
* bpf_cpumask_setall() - Set all of the bits in a BPF cpumask.
* @cpumask: The BPF cpumask having all of its bits set.
*/
__bpf_kfunc void bpf_cpumask_setall(struct bpf_cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
cpumask_setall((struct cpumask *)cpumask);
}
/**
* bpf_cpumask_clear() - Clear all of the bits in a BPF cpumask.
* @cpumask: The BPF cpumask being cleared.
*/
__bpf_kfunc void bpf_cpumask_clear(struct bpf_cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
cpumask_clear((struct cpumask *)cpumask);
}
/**
* bpf_cpumask_and() - AND two cpumasks and store the result.
* @dst: The BPF cpumask where the result is being stored.
* @src1: The first input.
* @src2: The second input.
*
* Return:
* * true - @dst has at least one bit set following the operation
* * false - @dst is empty following the operation
*
* struct bpf_cpumask pointers may be safely passed to @src1 and @src2.
*/
__bpf_kfunc bool bpf_cpumask_and(struct bpf_cpumask *dst,
const struct cpumask *src1,
const struct cpumask *src2)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
return cpumask_and((struct cpumask *)dst, src1, src2);
}
/**
* bpf_cpumask_or() - OR two cpumasks and store the result.
* @dst: The BPF cpumask where the result is being stored.
* @src1: The first input.
* @src2: The second input.
*
* struct bpf_cpumask pointers may be safely passed to @src1 and @src2.
*/
__bpf_kfunc void bpf_cpumask_or(struct bpf_cpumask *dst,
const struct cpumask *src1,
const struct cpumask *src2)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
cpumask_or((struct cpumask *)dst, src1, src2);
}
/**
* bpf_cpumask_xor() - XOR two cpumasks and store the result.
* @dst: The BPF cpumask where the result is being stored.
* @src1: The first input.
* @src2: The second input.
*
* struct bpf_cpumask pointers may be safely passed to @src1 and @src2.
*/
__bpf_kfunc void bpf_cpumask_xor(struct bpf_cpumask *dst,
const struct cpumask *src1,
const struct cpumask *src2)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
cpumask_xor((struct cpumask *)dst, src1, src2);
}
/**
* bpf_cpumask_equal() - Check two cpumasks for equality.
* @src1: The first input.
* @src2: The second input.
*
* Return:
* * true - @src1 and @src2 have the same bits set.
* * false - @src1 and @src2 differ in at least one bit.
*
* struct bpf_cpumask pointers may be safely passed to @src1 and @src2.
*/
__bpf_kfunc bool bpf_cpumask_equal(const struct cpumask *src1, const struct cpumask *src2)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
return cpumask_equal(src1, src2);
}
/**
* bpf_cpumask_intersects() - Check two cpumasks for overlap.
* @src1: The first input.
* @src2: The second input.
*
* Return:
* * true - @src1 and @src2 have at least one of the same bits set.
* * false - @src1 and @src2 don't have any of the same bits set.
*
* struct bpf_cpumask pointers may be safely passed to @src1 and @src2.
*/
__bpf_kfunc bool bpf_cpumask_intersects(const struct cpumask *src1, const struct cpumask *src2)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
return cpumask_intersects(src1, src2);
}
/**
* bpf_cpumask_subset() - Check if a cpumask is a subset of another.
* @src1: The first cpumask being checked as a subset.
* @src2: The second cpumask being checked as a superset.
*
* Return:
* * true - All of the bits of @src1 are set in @src2.
* * false - At least one bit in @src1 is not set in @src2.
*
* struct bpf_cpumask pointers may be safely passed to @src1 and @src2.
*/
__bpf_kfunc bool bpf_cpumask_subset(const struct cpumask *src1, const struct cpumask *src2)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
return cpumask_subset(src1, src2);
}
/**
* bpf_cpumask_empty() - Check if a cpumask is empty.
* @cpumask: The cpumask being checked.
*
* Return:
* * true - None of the bits in @cpumask are set.
* * false - At least one bit in @cpumask is set.
*
* A struct bpf_cpumask pointer may be safely passed to @cpumask.
*/
__bpf_kfunc bool bpf_cpumask_empty(const struct cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
return cpumask_empty(cpumask);
}
/**
* bpf_cpumask_full() - Check if a cpumask has all bits set.
* @cpumask: The cpumask being checked.
*
* Return:
* * true - All of the bits in @cpumask are set.
* * false - At least one bit in @cpumask is cleared.
*
* A struct bpf_cpumask pointer may be safely passed to @cpumask.
*/
__bpf_kfunc bool bpf_cpumask_full(const struct cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
return cpumask_full(cpumask);
}
/**
* bpf_cpumask_copy() - Copy the contents of a cpumask into a BPF cpumask.
* @dst: The BPF cpumask being copied into.
* @src: The cpumask being copied.
*
* A struct bpf_cpumask pointer may be safely passed to @src.
*/
__bpf_kfunc void bpf_cpumask_copy(struct bpf_cpumask *dst, const struct cpumask *src)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
cpumask_copy((struct cpumask *)dst, src);
}
/**
* bpf_cpumask_any() - Return a random set CPU from a cpumask.
* @cpumask: The cpumask being queried.
*
* Return:
* * A random set bit within [0, num_cpus) if at least one bit is set.
* * >= num_cpus if no bit is set.
*
* A struct bpf_cpumask pointer may be safely passed to @src.
*/
__bpf_kfunc u32 bpf_cpumask_any(const struct cpumask *cpumask)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
return cpumask_any(cpumask);
}
/**
* bpf_cpumask_any_and() - Return a random set CPU from the AND of two
* cpumasks.
* @src1: The first cpumask.
* @src2: The second cpumask.
*
* Return:
* * A random set bit within [0, num_cpus) if at least one bit is set.
* * >= num_cpus if no bit is set.
*
* struct bpf_cpumask pointers may be safely passed to @src1 and @src2.
*/
__bpf_kfunc u32 bpf_cpumask_any_and(const struct cpumask *src1, const struct cpumask *src2)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
{
return cpumask_any_and(src1, src2);
}
__diag_pop();
BTF_SET8_START(cpumask_kfunc_btf_ids)
BTF_ID_FLAGS(func, bpf_cpumask_create, KF_ACQUIRE | KF_RET_NULL)
BTF_ID_FLAGS(func, bpf_cpumask_release, KF_RELEASE | KF_TRUSTED_ARGS)
BTF_ID_FLAGS(func, bpf_cpumask_acquire, KF_ACQUIRE | KF_TRUSTED_ARGS)
BTF_ID_FLAGS(func, bpf_cpumask_kptr_get, KF_ACQUIRE | KF_KPTR_GET | KF_RET_NULL)
bpf: Refactor RCU enforcement in the verifier. bpf_rcu_read_lock/unlock() are only available in clang compiled kernels. Lack of such key mechanism makes it impossible for sleepable bpf programs to use RCU pointers. Allow bpf_rcu_read_lock/unlock() in GCC compiled kernels (though GCC doesn't support btf_type_tag yet) and allowlist certain field dereferences in important data structures like tast_struct, cgroup, socket that are used by sleepable programs either as RCU pointer or full trusted pointer (which is valid outside of RCU CS). Use BTF_TYPE_SAFE_RCU and BTF_TYPE_SAFE_TRUSTED macros for such tagging. They will be removed once GCC supports btf_type_tag. With that refactor check_ptr_to_btf_access(). Make it strict in enforcing PTR_TRUSTED and PTR_UNTRUSTED while deprecating old PTR_TO_BTF_ID without modifier flags. There is a chance that this strict enforcement might break existing programs (especially on GCC compiled kernels), but this cleanup has to start sooner than later. Note PTR_TO_CTX access still yields old deprecated PTR_TO_BTF_ID. Once it's converted to strict PTR_TRUSTED or PTR_UNTRUSTED the kfuncs and helpers will be able to default to KF_TRUSTED_ARGS. KF_RCU will remain as a weaker version of KF_TRUSTED_ARGS where obj refcnt could be 0. Adjust rcu_read_lock selftest to run on gcc and clang compiled kernels. Signed-off-by: Alexei Starovoitov <ast@kernel.org> Signed-off-by: Daniel Borkmann <daniel@iogearbox.net> Acked-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/bpf/20230303041446.3630-7-alexei.starovoitov@gmail.com
2023-03-03 12:14:46 +08:00
BTF_ID_FLAGS(func, bpf_cpumask_first, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_first_zero, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_set_cpu, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_clear_cpu, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_test_cpu, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_test_and_set_cpu, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_test_and_clear_cpu, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_setall, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_clear, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_and, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_or, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_xor, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_equal, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_intersects, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_subset, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_empty, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_full, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_copy, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_any, KF_RCU)
BTF_ID_FLAGS(func, bpf_cpumask_any_and, KF_RCU)
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
BTF_SET8_END(cpumask_kfunc_btf_ids)
static const struct btf_kfunc_id_set cpumask_kfunc_set = {
.owner = THIS_MODULE,
.set = &cpumask_kfunc_btf_ids,
};
BTF_ID_LIST(cpumask_dtor_ids)
BTF_ID(struct, bpf_cpumask)
BTF_ID(func, bpf_cpumask_release)
static int __init cpumask_kfunc_init(void)
{
int ret;
const struct btf_id_dtor_kfunc cpumask_dtors[] = {
{
.btf_id = cpumask_dtor_ids[0],
.kfunc_btf_id = cpumask_dtor_ids[1]
},
};
ret = bpf_mem_alloc_init(&bpf_cpumask_ma, sizeof(struct bpf_cpumask), false);
bpf: Enable cpumasks to be queried and used as kptrs Certain programs may wish to be able to query cpumasks. For example, if a program that is tracing percpu operations wishes to track which tasks end up running on which CPUs, it could be useful to associate that with the tasks' cpumasks. Similarly, programs tracking NUMA allocations, CPU scheduling domains, etc, could potentially benefit from being able to see which CPUs a task could be migrated to. This patch enables these types of use cases by introducing a series of bpf_cpumask_* kfuncs. Amongst these kfuncs, there are two separate "classes" of operations: 1. kfuncs which allow the caller to allocate and mutate their own cpumask kptrs in the form of a struct bpf_cpumask * object. Such kfuncs include e.g. bpf_cpumask_create() to allocate the cpumask, and bpf_cpumask_or() to mutate it. "Regular" cpumasks such as p->cpus_ptr may not be passed to these kfuncs, and the verifier will ensure this is the case by comparing BTF IDs. 2. Read-only operations which operate on const struct cpumask * arguments. For example, bpf_cpumask_test_cpu(), which tests whether a CPU is set in the cpumask. Any trusted struct cpumask * or struct bpf_cpumask * may be passed to these kfuncs. The verifier allows struct bpf_cpumask * even though the kfunc is defined with struct cpumask * because the first element of a struct bpf_cpumask is a cpumask_t, so it is safe to cast. A follow-on patch will add selftests which validate these kfuncs, and another will document them. Signed-off-by: David Vernet <void@manifault.com> Link: https://lore.kernel.org/r/20230125143816.721952-3-void@manifault.com Signed-off-by: Alexei Starovoitov <ast@kernel.org>
2023-01-25 22:38:11 +08:00
ret = ret ?: register_btf_kfunc_id_set(BPF_PROG_TYPE_TRACING, &cpumask_kfunc_set);
ret = ret ?: register_btf_kfunc_id_set(BPF_PROG_TYPE_STRUCT_OPS, &cpumask_kfunc_set);
return ret ?: register_btf_id_dtor_kfuncs(cpumask_dtors,
ARRAY_SIZE(cpumask_dtors),
THIS_MODULE);
}
late_initcall(cpumask_kfunc_init);