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dma-mapping: add benchmark support for streaming DMA APIs
Nowadays, there are increasing requirements to benchmark the performance of dma_map and dma_unmap particually while the device is attached to an IOMMU. This patch enables the support. Users can run specified number of threads to do dma_map_page and dma_unmap_page on a specific NUMA node with the specified duration. Then dma_map_benchmark will calculate the average latency for map and unmap. A difficulity for this benchmark is that dma_map/unmap APIs must run on a particular device. Each device might have different backend of IOMMU or non-IOMMU. So we use the driver_override to bind dma_map_benchmark to a particual device by: For platform devices: echo dma_map_benchmark > /sys/bus/platform/devices/xxx/driver_override echo xxx > /sys/bus/platform/drivers/xxx/unbind echo xxx > /sys/bus/platform/drivers/dma_map_benchmark/bind For PCI devices: echo dma_map_benchmark > /sys/bus/pci/devices/0000:00:01.0/driver_override echo 0000:00:01.0 > /sys/bus/pci/drivers/xxx/unbind echo 0000:00:01.0 > /sys/bus/pci/drivers/dma_map_benchmark/bind Cc: Will Deacon <[email protected]> Cc: Shuah Khan <[email protected]> Cc: Christoph Hellwig <[email protected]> Cc: Marek Szyprowski <[email protected]> Cc: Robin Murphy <[email protected]> Signed-off-by: Barry Song <[email protected]> [hch: folded in two fixes from Colin Ian King <[email protected]>] Signed-off-by: Christoph Hellwig <[email protected]>
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Barry Song
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Christoph Hellwig
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Nov 27, 2020
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// SPDX-License-Identifier: GPL-2.0-only | ||
/* | ||
* Copyright (C) 2020 Hisilicon Limited. | ||
*/ | ||
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#define pr_fmt(fmt) KBUILD_MODNAME ": " fmt | ||
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#include <linux/debugfs.h> | ||
#include <linux/delay.h> | ||
#include <linux/device.h> | ||
#include <linux/dma-mapping.h> | ||
#include <linux/kernel.h> | ||
#include <linux/kthread.h> | ||
#include <linux/math64.h> | ||
#include <linux/module.h> | ||
#include <linux/pci.h> | ||
#include <linux/platform_device.h> | ||
#include <linux/slab.h> | ||
#include <linux/timekeeping.h> | ||
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#define DMA_MAP_BENCHMARK _IOWR('d', 1, struct map_benchmark) | ||
#define DMA_MAP_MAX_THREADS 1024 | ||
#define DMA_MAP_MAX_SECONDS 300 | ||
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#define DMA_MAP_BIDIRECTIONAL 0 | ||
#define DMA_MAP_TO_DEVICE 1 | ||
#define DMA_MAP_FROM_DEVICE 2 | ||
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struct map_benchmark { | ||
__u64 avg_map_100ns; /* average map latency in 100ns */ | ||
__u64 map_stddev; /* standard deviation of map latency */ | ||
__u64 avg_unmap_100ns; /* as above */ | ||
__u64 unmap_stddev; | ||
__u32 threads; /* how many threads will do map/unmap in parallel */ | ||
__u32 seconds; /* how long the test will last */ | ||
__s32 node; /* which numa node this benchmark will run on */ | ||
__u32 dma_bits; /* DMA addressing capability */ | ||
__u32 dma_dir; /* DMA data direction */ | ||
__u64 expansion[10]; /* For future use */ | ||
}; | ||
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struct map_benchmark_data { | ||
struct map_benchmark bparam; | ||
struct device *dev; | ||
struct dentry *debugfs; | ||
enum dma_data_direction dir; | ||
atomic64_t sum_map_100ns; | ||
atomic64_t sum_unmap_100ns; | ||
atomic64_t sum_sq_map; | ||
atomic64_t sum_sq_unmap; | ||
atomic64_t loops; | ||
}; | ||
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static int map_benchmark_thread(void *data) | ||
{ | ||
void *buf; | ||
dma_addr_t dma_addr; | ||
struct map_benchmark_data *map = data; | ||
int ret = 0; | ||
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buf = (void *)__get_free_page(GFP_KERNEL); | ||
if (!buf) | ||
return -ENOMEM; | ||
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while (!kthread_should_stop()) { | ||
u64 map_100ns, unmap_100ns, map_sq, unmap_sq; | ||
ktime_t map_stime, map_etime, unmap_stime, unmap_etime; | ||
ktime_t map_delta, unmap_delta; | ||
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/* | ||
* for a non-coherent device, if we don't stain them in the | ||
* cache, this will give an underestimate of the real-world | ||
* overhead of BIDIRECTIONAL or TO_DEVICE mappings; | ||
* 66 means evertything goes well! 66 is lucky. | ||
*/ | ||
if (map->dir != DMA_FROM_DEVICE) | ||
memset(buf, 0x66, PAGE_SIZE); | ||
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map_stime = ktime_get(); | ||
dma_addr = dma_map_single(map->dev, buf, PAGE_SIZE, map->dir); | ||
if (unlikely(dma_mapping_error(map->dev, dma_addr))) { | ||
pr_err("dma_map_single failed on %s\n", | ||
dev_name(map->dev)); | ||
ret = -ENOMEM; | ||
goto out; | ||
} | ||
map_etime = ktime_get(); | ||
map_delta = ktime_sub(map_etime, map_stime); | ||
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unmap_stime = ktime_get(); | ||
dma_unmap_single(map->dev, dma_addr, PAGE_SIZE, map->dir); | ||
unmap_etime = ktime_get(); | ||
unmap_delta = ktime_sub(unmap_etime, unmap_stime); | ||
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/* calculate sum and sum of squares */ | ||
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map_100ns = div64_ul(map_delta, 100); | ||
unmap_100ns = div64_ul(unmap_delta, 100); | ||
map_sq = map_100ns * map_100ns; | ||
unmap_sq = unmap_100ns * unmap_100ns; | ||
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atomic64_add(map_100ns, &map->sum_map_100ns); | ||
atomic64_add(unmap_100ns, &map->sum_unmap_100ns); | ||
atomic64_add(map_sq, &map->sum_sq_map); | ||
atomic64_add(unmap_sq, &map->sum_sq_unmap); | ||
atomic64_inc(&map->loops); | ||
} | ||
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out: | ||
free_page((unsigned long)buf); | ||
return ret; | ||
} | ||
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static int do_map_benchmark(struct map_benchmark_data *map) | ||
{ | ||
struct task_struct **tsk; | ||
int threads = map->bparam.threads; | ||
int node = map->bparam.node; | ||
const cpumask_t *cpu_mask = cpumask_of_node(node); | ||
u64 loops; | ||
int ret = 0; | ||
int i; | ||
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tsk = kmalloc_array(threads, sizeof(*tsk), GFP_KERNEL); | ||
if (!tsk) | ||
return -ENOMEM; | ||
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get_device(map->dev); | ||
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for (i = 0; i < threads; i++) { | ||
tsk[i] = kthread_create_on_node(map_benchmark_thread, map, | ||
map->bparam.node, "dma-map-benchmark/%d", i); | ||
if (IS_ERR(tsk[i])) { | ||
pr_err("create dma_map thread failed\n"); | ||
ret = PTR_ERR(tsk[i]); | ||
goto out; | ||
} | ||
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if (node != NUMA_NO_NODE) | ||
kthread_bind_mask(tsk[i], cpu_mask); | ||
} | ||
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/* clear the old value in the previous benchmark */ | ||
atomic64_set(&map->sum_map_100ns, 0); | ||
atomic64_set(&map->sum_unmap_100ns, 0); | ||
atomic64_set(&map->sum_sq_map, 0); | ||
atomic64_set(&map->sum_sq_unmap, 0); | ||
atomic64_set(&map->loops, 0); | ||
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for (i = 0; i < threads; i++) | ||
wake_up_process(tsk[i]); | ||
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msleep_interruptible(map->bparam.seconds * 1000); | ||
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/* wait for the completion of benchmark threads */ | ||
for (i = 0; i < threads; i++) { | ||
ret = kthread_stop(tsk[i]); | ||
if (ret) | ||
goto out; | ||
} | ||
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loops = atomic64_read(&map->loops); | ||
if (likely(loops > 0)) { | ||
u64 map_variance, unmap_variance; | ||
u64 sum_map = atomic64_read(&map->sum_map_100ns); | ||
u64 sum_unmap = atomic64_read(&map->sum_unmap_100ns); | ||
u64 sum_sq_map = atomic64_read(&map->sum_sq_map); | ||
u64 sum_sq_unmap = atomic64_read(&map->sum_sq_unmap); | ||
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/* average latency */ | ||
map->bparam.avg_map_100ns = div64_u64(sum_map, loops); | ||
map->bparam.avg_unmap_100ns = div64_u64(sum_unmap, loops); | ||
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/* standard deviation of latency */ | ||
map_variance = div64_u64(sum_sq_map, loops) - | ||
map->bparam.avg_map_100ns * | ||
map->bparam.avg_map_100ns; | ||
unmap_variance = div64_u64(sum_sq_unmap, loops) - | ||
map->bparam.avg_unmap_100ns * | ||
map->bparam.avg_unmap_100ns; | ||
map->bparam.map_stddev = int_sqrt64(map_variance); | ||
map->bparam.unmap_stddev = int_sqrt64(unmap_variance); | ||
} | ||
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out: | ||
put_device(map->dev); | ||
kfree(tsk); | ||
return ret; | ||
} | ||
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static long map_benchmark_ioctl(struct file *file, unsigned int cmd, | ||
unsigned long arg) | ||
{ | ||
struct map_benchmark_data *map = file->private_data; | ||
void __user *argp = (void __user *)arg; | ||
u64 old_dma_mask; | ||
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int ret; | ||
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if (copy_from_user(&map->bparam, argp, sizeof(map->bparam))) | ||
return -EFAULT; | ||
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switch (cmd) { | ||
case DMA_MAP_BENCHMARK: | ||
if (map->bparam.threads == 0 || | ||
map->bparam.threads > DMA_MAP_MAX_THREADS) { | ||
pr_err("invalid thread number\n"); | ||
return -EINVAL; | ||
} | ||
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if (map->bparam.seconds == 0 || | ||
map->bparam.seconds > DMA_MAP_MAX_SECONDS) { | ||
pr_err("invalid duration seconds\n"); | ||
return -EINVAL; | ||
} | ||
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if (map->bparam.node != NUMA_NO_NODE && | ||
!node_possible(map->bparam.node)) { | ||
pr_err("invalid numa node\n"); | ||
return -EINVAL; | ||
} | ||
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switch (map->bparam.dma_dir) { | ||
case DMA_MAP_BIDIRECTIONAL: | ||
map->dir = DMA_BIDIRECTIONAL; | ||
break; | ||
case DMA_MAP_FROM_DEVICE: | ||
map->dir = DMA_FROM_DEVICE; | ||
break; | ||
case DMA_MAP_TO_DEVICE: | ||
map->dir = DMA_TO_DEVICE; | ||
break; | ||
default: | ||
pr_err("invalid DMA direction\n"); | ||
return -EINVAL; | ||
} | ||
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old_dma_mask = dma_get_mask(map->dev); | ||
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ret = dma_set_mask(map->dev, | ||
DMA_BIT_MASK(map->bparam.dma_bits)); | ||
if (ret) { | ||
pr_err("failed to set dma_mask on device %s\n", | ||
dev_name(map->dev)); | ||
return -EINVAL; | ||
} | ||
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ret = do_map_benchmark(map); | ||
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/* | ||
* restore the original dma_mask as many devices' dma_mask are | ||
* set by architectures, acpi, busses. When we bind them back | ||
* to their original drivers, those drivers shouldn't see | ||
* dma_mask changed by benchmark | ||
*/ | ||
dma_set_mask(map->dev, old_dma_mask); | ||
break; | ||
default: | ||
return -EINVAL; | ||
} | ||
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if (copy_to_user(argp, &map->bparam, sizeof(map->bparam))) | ||
return -EFAULT; | ||
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return ret; | ||
} | ||
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static const struct file_operations map_benchmark_fops = { | ||
.open = simple_open, | ||
.unlocked_ioctl = map_benchmark_ioctl, | ||
}; | ||
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static void map_benchmark_remove_debugfs(void *data) | ||
{ | ||
struct map_benchmark_data *map = (struct map_benchmark_data *)data; | ||
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debugfs_remove(map->debugfs); | ||
} | ||
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static int __map_benchmark_probe(struct device *dev) | ||
{ | ||
struct dentry *entry; | ||
struct map_benchmark_data *map; | ||
int ret; | ||
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map = devm_kzalloc(dev, sizeof(*map), GFP_KERNEL); | ||
if (!map) | ||
return -ENOMEM; | ||
map->dev = dev; | ||
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ret = devm_add_action(dev, map_benchmark_remove_debugfs, map); | ||
if (ret) { | ||
pr_err("Can't add debugfs remove action\n"); | ||
return ret; | ||
} | ||
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/* | ||
* we only permit a device bound with this driver, 2nd probe | ||
* will fail | ||
*/ | ||
entry = debugfs_create_file("dma_map_benchmark", 0600, NULL, map, | ||
&map_benchmark_fops); | ||
if (IS_ERR(entry)) | ||
return PTR_ERR(entry); | ||
map->debugfs = entry; | ||
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return 0; | ||
} | ||
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static int map_benchmark_platform_probe(struct platform_device *pdev) | ||
{ | ||
return __map_benchmark_probe(&pdev->dev); | ||
} | ||
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static struct platform_driver map_benchmark_platform_driver = { | ||
.driver = { | ||
.name = "dma_map_benchmark", | ||
}, | ||
.probe = map_benchmark_platform_probe, | ||
}; | ||
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static int | ||
map_benchmark_pci_probe(struct pci_dev *pdev, const struct pci_device_id *id) | ||
{ | ||
return __map_benchmark_probe(&pdev->dev); | ||
} | ||
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static struct pci_driver map_benchmark_pci_driver = { | ||
.name = "dma_map_benchmark", | ||
.probe = map_benchmark_pci_probe, | ||
}; | ||
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static int __init map_benchmark_init(void) | ||
{ | ||
int ret; | ||
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ret = pci_register_driver(&map_benchmark_pci_driver); | ||
if (ret) | ||
return ret; | ||
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ret = platform_driver_register(&map_benchmark_platform_driver); | ||
if (ret) { | ||
pci_unregister_driver(&map_benchmark_pci_driver); | ||
return ret; | ||
} | ||
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return 0; | ||
} | ||
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static void __exit map_benchmark_cleanup(void) | ||
{ | ||
platform_driver_unregister(&map_benchmark_platform_driver); | ||
pci_unregister_driver(&map_benchmark_pci_driver); | ||
} | ||
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module_init(map_benchmark_init); | ||
module_exit(map_benchmark_cleanup); | ||
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MODULE_AUTHOR("Barry Song <[email protected]>"); | ||
MODULE_DESCRIPTION("dma_map benchmark driver"); | ||
MODULE_LICENSE("GPL"); |