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|
/*
* This file is provided under a dual BSD/GPLv2 license. When using or
* redistributing this file, you may do so under either license.
*
* GPL LICENSE SUMMARY
*
* Copyright(c) 2012 Intel Corporation. All rights reserved.
* Copyright (C) 2015 EMC Corporation. All Rights Reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of version 2 of the GNU General Public License as
* published by the Free Software Foundation.
*
* BSD LICENSE
*
* Copyright(c) 2012 Intel Corporation. All rights reserved.
* Copyright (C) 2015 EMC Corporation. All Rights Reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* * Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* * Redistributions in binary form must reproduce the above copy
* notice, this list of conditions and the following disclaimer in
* the documentation and/or other materials provided with the
* distribution.
* * Neither the name of Intel Corporation nor the names of its
* contributors may be used to endorse or promote products derived
* from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* PCIe NTB Transport Linux driver
*
* Contact Information:
* Jon Mason <jon.mason@intel.com>
*/
#include <linux/debugfs.h>
#include <linux/delay.h>
#include <linux/dmaengine.h>
#include <linux/dma-mapping.h>
#include <linux/errno.h>
#include <linux/export.h>
#include <linux/interrupt.h>
#include <linux/module.h>
#include <linux/pci.h>
#include <linux/slab.h>
#include <linux/types.h>
#include <linux/uaccess.h>
#include "linux/ntb.h"
#include "linux/ntb_transport.h"
#define NTB_TRANSPORT_VERSION 4
#define NTB_TRANSPORT_VER "4"
#define NTB_TRANSPORT_NAME "ntb_transport"
#define NTB_TRANSPORT_DESC "Software Queue-Pair Transport over NTB"
MODULE_DESCRIPTION(NTB_TRANSPORT_DESC);
MODULE_VERSION(NTB_TRANSPORT_VER);
MODULE_LICENSE("Dual BSD/GPL");
MODULE_AUTHOR("Intel Corporation");
static unsigned long max_mw_size;
module_param(max_mw_size, ulong, 0644);
MODULE_PARM_DESC(max_mw_size, "Limit size of large memory windows");
static unsigned int transport_mtu = 0x10000;
module_param(transport_mtu, uint, 0644);
MODULE_PARM_DESC(transport_mtu, "Maximum size of NTB transport packets");
static unsigned char max_num_clients;
module_param(max_num_clients, byte, 0644);
MODULE_PARM_DESC(max_num_clients, "Maximum number of NTB transport clients");
static unsigned int copy_bytes = 1024;
module_param(copy_bytes, uint, 0644);
MODULE_PARM_DESC(copy_bytes, "Threshold under which NTB will use the CPU to copy instead of DMA");
static bool use_dma;
module_param(use_dma, bool, 0644);
MODULE_PARM_DESC(use_dma, "Use DMA engine to perform large data copy");
static struct dentry *nt_debugfs_dir;
struct ntb_queue_entry {
/* ntb_queue list reference */
struct list_head entry;
/* pointers to data to be transferred */
void *cb_data;
void *buf;
unsigned int len;
unsigned int flags;
struct ntb_transport_qp *qp;
union {
struct ntb_payload_header __iomem *tx_hdr;
struct ntb_payload_header *rx_hdr;
};
unsigned int index;
};
struct ntb_rx_info {
unsigned int entry;
};
struct ntb_transport_qp {
struct ntb_transport_ctx *transport;
struct ntb_dev *ndev;
void *cb_data;
struct dma_chan *dma_chan;
bool client_ready;
bool link_is_up;
u8 qp_num; /* Only 64 QP's are allowed. 0-63 */
u64 qp_bit;
struct ntb_rx_info __iomem *rx_info;
struct ntb_rx_info *remote_rx_info;
void (*tx_handler)(struct ntb_transport_qp *qp, void *qp_data,
void *data, int len);
struct list_head tx_free_q;
spinlock_t ntb_tx_free_q_lock;
void __iomem *tx_mw;
dma_addr_t tx_mw_phys;
unsigned int tx_index;
unsigned int tx_max_entry;
unsigned int tx_max_frame;
void (*rx_handler)(struct ntb_transport_qp *qp, void *qp_data,
void *data, int len);
struct list_head rx_post_q;
struct list_head rx_pend_q;
struct list_head rx_free_q;
/* ntb_rx_q_lock: synchronize access to rx_XXXX_q */
spinlock_t ntb_rx_q_lock;
void *rx_buff;
unsigned int rx_index;
unsigned int rx_max_entry;
unsigned int rx_max_frame;
dma_cookie_t last_cookie;
struct tasklet_struct rxc_db_work;
void (*event_handler)(void *data, int status);
struct delayed_work link_work;
struct work_struct link_cleanup;
struct dentry *debugfs_dir;
struct dentry *debugfs_stats;
/* Stats */
u64 rx_bytes;
u64 rx_pkts;
u64 rx_ring_empty;
u64 rx_err_no_buf;
u64 rx_err_oflow;
u64 rx_err_ver;
u64 rx_memcpy;
u64 rx_async;
u64 tx_bytes;
u64 tx_pkts;
u64 tx_ring_full;
u64 tx_err_no_buf;
u64 tx_memcpy;
u64 tx_async;
};
struct ntb_transport_mw {
phys_addr_t phys_addr;
resource_size_t phys_size;
resource_size_t xlat_align;
resource_size_t xlat_align_size;
void __iomem *vbase;
size_t xlat_size;
size_t buff_size;
void *virt_addr;
dma_addr_t dma_addr;
};
struct ntb_transport_client_dev {
struct list_head entry;
struct ntb_transport_ctx *nt;
struct device dev;
};
struct ntb_transport_ctx {
struct list_head entry;
struct list_head client_devs;
struct ntb_dev *ndev;
struct ntb_transport_mw *mw_vec;
struct ntb_transport_qp *qp_vec;
unsigned int mw_count;
unsigned int qp_count;
u64 qp_bitmap;
u64 qp_bitmap_free;
bool link_is_up;
struct delayed_work link_work;
struct work_struct link_cleanup;
};
enum {
DESC_DONE_FLAG = BIT(0),
LINK_DOWN_FLAG = BIT(1),
};
struct ntb_payload_header {
unsigned int ver;
unsigned int len;
unsigned int flags;
};
enum {
VERSION = 0,
QP_LINKS,
NUM_QPS,
NUM_MWS,
MW0_SZ_HIGH,
MW0_SZ_LOW,
MW1_SZ_HIGH,
MW1_SZ_LOW,
MAX_SPAD,
};
#define dev_client_dev(__dev) \
container_of((__dev), struct ntb_transport_client_dev, dev)
#define drv_client(__drv) \
container_of((__drv), struct ntb_transport_client, driver)
#define QP_TO_MW(nt, qp) ((qp) % nt->mw_count)
#define NTB_QP_DEF_NUM_ENTRIES 100
#define NTB_LINK_DOWN_TIMEOUT 10
static void ntb_transport_rxc_db(unsigned long data);
static const struct ntb_ctx_ops ntb_transport_ops;
static struct ntb_client ntb_transport_client;
static int ntb_transport_bus_match(struct device *dev,
struct device_driver *drv)
{
return !strncmp(dev_name(dev), drv->name, strlen(drv->name));
}
static int ntb_transport_bus_probe(struct device *dev)
{
const struct ntb_transport_client *client;
int rc = -EINVAL;
get_device(dev);
client = drv_client(dev->driver);
rc = client->probe(dev);
if (rc)
put_device(dev);
return rc;
}
static int ntb_transport_bus_remove(struct device *dev)
{
const struct ntb_transport_client *client;
client = drv_client(dev->driver);
client->remove(dev);
put_device(dev);
return 0;
}
static struct bus_type ntb_transport_bus = {
.name = "ntb_transport",
.match = ntb_transport_bus_match,
.probe = ntb_transport_bus_probe,
.remove = ntb_transport_bus_remove,
};
static LIST_HEAD(ntb_transport_list);
static int ntb_bus_init(struct ntb_transport_ctx *nt)
{
list_add(&nt->entry, &ntb_transport_list);
return 0;
}
static void ntb_bus_remove(struct ntb_transport_ctx *nt)
{
struct ntb_transport_client_dev *client_dev, *cd;
list_for_each_entry_safe(client_dev, cd, &nt->client_devs, entry) {
dev_err(client_dev->dev.parent, "%s still attached to bus, removing\n",
dev_name(&client_dev->dev));
list_del(&client_dev->entry);
device_unregister(&client_dev->dev);
}
list_del(&nt->entry);
}
static void ntb_transport_client_release(struct device *dev)
{
struct ntb_transport_client_dev *client_dev;
client_dev = dev_client_dev(dev);
kfree(client_dev);
}
/**
* ntb_transport_unregister_client_dev - Unregister NTB client device
* @device_name: Name of NTB client device
*
* Unregister an NTB client device with the NTB transport layer
*/
void ntb_transport_unregister_client_dev(char *device_name)
{
struct ntb_transport_client_dev *client, *cd;
struct ntb_transport_ctx *nt;
list_for_each_entry(nt, &ntb_transport_list, entry)
list_for_each_entry_safe(client, cd, &nt->client_devs, entry)
if (!strncmp(dev_name(&client->dev), device_name,
strlen(device_name))) {
list_del(&client->entry);
device_unregister(&client->dev);
}
}
EXPORT_SYMBOL_GPL(ntb_transport_unregister_client_dev);
/**
* ntb_transport_register_client_dev - Register NTB client device
* @device_name: Name of NTB client device
*
* Register an NTB client device with the NTB transport layer
*/
int ntb_transport_register_client_dev(char *device_name)
{
struct ntb_transport_client_dev *client_dev;
struct ntb_transport_ctx *nt;
int node;
int rc, i = 0;
if (list_empty(&ntb_transport_list))
return -ENODEV;
list_for_each_entry(nt, &ntb_transport_list, entry) {
struct device *dev;
node = dev_to_node(&nt->ndev->dev);
client_dev = kzalloc_node(sizeof(*client_dev),
GFP_KERNEL, node);
if (!client_dev) {
rc = -ENOMEM;
goto err;
}
dev = &client_dev->dev;
/* setup and register client devices */
dev_set_name(dev, "%s%d", device_name, i);
dev->bus = &ntb_transport_bus;
dev->release = ntb_transport_client_release;
dev->parent = &nt->ndev->dev;
rc = device_register(dev);
if (rc) {
kfree(client_dev);
goto err;
}
list_add_tail(&client_dev->entry, &nt->client_devs);
i++;
}
return 0;
err:
ntb_transport_unregister_client_dev(device_name);
return rc;
}
EXPORT_SYMBOL_GPL(ntb_transport_register_client_dev);
/**
* ntb_transport_register_client - Register NTB client driver
* @drv: NTB client driver to be registered
*
* Register an NTB client driver with the NTB transport layer
*
* RETURNS: An appropriate -ERRNO error value on error, or zero for success.
*/
int ntb_transport_register_client(struct ntb_transport_client *drv)
{
drv->driver.bus = &ntb_transport_bus;
if (list_empty(&ntb_transport_list))
return -ENODEV;
return driver_register(&drv->driver);
}
EXPORT_SYMBOL_GPL(ntb_transport_register_client);
/**
* ntb_transport_unregister_client - Unregister NTB client driver
* @drv: NTB client driver to be unregistered
*
* Unregister an NTB client driver with the NTB transport layer
*
* RETURNS: An appropriate -ERRNO error value on error, or zero for success.
*/
void ntb_transport_unregister_client(struct ntb_transport_client *drv)
{
driver_unregister(&drv->driver);
}
EXPORT_SYMBOL_GPL(ntb_transport_unregister_client);
static ssize_t debugfs_read(struct file *filp, char __user *ubuf, size_t count,
loff_t *offp)
{
struct ntb_transport_qp *qp;
char *buf;
ssize_t ret, out_offset, out_count;
out_count = 1000;
buf = kmalloc(out_count, GFP_KERNEL);
if (!buf)
return -ENOMEM;
qp = filp->private_data;
out_offset = 0;
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"NTB QP stats\n");
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"rx_bytes - \t%llu\n", qp->rx_bytes);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"rx_pkts - \t%llu\n", qp->rx_pkts);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"rx_memcpy - \t%llu\n", qp->rx_memcpy);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"rx_async - \t%llu\n", qp->rx_async);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"rx_ring_empty - %llu\n", qp->rx_ring_empty);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"rx_err_no_buf - %llu\n", qp->rx_err_no_buf);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"rx_err_oflow - \t%llu\n", qp->rx_err_oflow);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"rx_err_ver - \t%llu\n", qp->rx_err_ver);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"rx_buff - \t%p\n", qp->rx_buff);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"rx_index - \t%u\n", qp->rx_index);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"rx_max_entry - \t%u\n", qp->rx_max_entry);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"tx_bytes - \t%llu\n", qp->tx_bytes);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"tx_pkts - \t%llu\n", qp->tx_pkts);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"tx_memcpy - \t%llu\n", qp->tx_memcpy);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"tx_async - \t%llu\n", qp->tx_async);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"tx_ring_full - \t%llu\n", qp->tx_ring_full);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"tx_err_no_buf - %llu\n", qp->tx_err_no_buf);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"tx_mw - \t%p\n", qp->tx_mw);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"tx_index - \t%u\n", qp->tx_index);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"tx_max_entry - \t%u\n", qp->tx_max_entry);
out_offset += snprintf(buf + out_offset, out_count - out_offset,
"\nQP Link %s\n",
qp->link_is_up ? "Up" : "Down");
if (out_offset > out_count)
out_offset = out_count;
ret = simple_read_from_buffer(ubuf, count, offp, buf, out_offset);
kfree(buf);
return ret;
}
static const struct file_operations ntb_qp_debugfs_stats = {
.owner = THIS_MODULE,
.open = simple_open,
.read = debugfs_read,
};
static void ntb_list_add(spinlock_t *lock, struct list_head *entry,
struct list_head *list)
{
unsigned long flags;
spin_lock_irqsave(lock, flags);
list_add_tail(entry, list);
spin_unlock_irqrestore(lock, flags);
}
static struct ntb_queue_entry *ntb_list_rm(spinlock_t *lock,
struct list_head *list)
{
struct ntb_queue_entry *entry;
unsigned long flags;
spin_lock_irqsave(lock, flags);
if (list_empty(list)) {
entry = NULL;
goto out;
}
entry = list_first_entry(list, struct ntb_queue_entry, entry);
list_del(&entry->entry);
out:
spin_unlock_irqrestore(lock, flags);
return entry;
}
static struct ntb_queue_entry *ntb_list_mv(spinlock_t *lock,
struct list_head *list,
struct list_head *to_list)
{
struct ntb_queue_entry *entry;
unsigned long flags;
spin_lock_irqsave(lock, flags);
if (list_empty(list)) {
entry = NULL;
} else {
entry = list_first_entry(list, struct ntb_queue_entry, entry);
list_move_tail(&entry->entry, to_list);
}
spin_unlock_irqrestore(lock, flags);
return entry;
}
static int ntb_transport_setup_qp_mw(struct ntb_transport_ctx *nt,
unsigned int qp_num)
{
struct ntb_transport_qp *qp = &nt->qp_vec[qp_num];
struct ntb_transport_mw *mw;
unsigned int rx_size, num_qps_mw;
unsigned int mw_num, mw_count, qp_count;
unsigned int i;
mw_count = nt->mw_count;
qp_count = nt->qp_count;
mw_num = QP_TO_MW(nt, qp_num);
mw = &nt->mw_vec[mw_num];
if (!mw->virt_addr)
return -ENOMEM;
if (qp_count % mw_count && mw_num + 1 < qp_count / mw_count)
num_qps_mw = qp_count / mw_count + 1;
else
num_qps_mw = qp_count / mw_count;
rx_size = (unsigned int)mw->xlat_size / num_qps_mw;
qp->rx_buff = mw->virt_addr + rx_size * qp_num / mw_count;
rx_size -= sizeof(struct ntb_rx_info);
qp->remote_rx_info = qp->rx_buff + rx_size;
/* Due to housekeeping, there must be atleast 2 buffs */
qp->rx_max_frame = min(transport_mtu, rx_size / 2);
qp->rx_max_entry = rx_size / qp->rx_max_frame;
qp->rx_index = 0;
qp->remote_rx_info->entry = qp->rx_max_entry - 1;
/* setup the hdr offsets with 0's */
for (i = 0; i < qp->rx_max_entry; i++) {
void *offset = (qp->rx_buff + qp->rx_max_frame * (i + 1) -
sizeof(struct ntb_payload_header));
memset(offset, 0, sizeof(struct ntb_payload_header));
}
qp->rx_pkts = 0;
qp->tx_pkts = 0;
qp->tx_index = 0;
return 0;
}
static void ntb_free_mw(struct ntb_transport_ctx *nt, int num_mw)
{
struct ntb_transport_mw *mw = &nt->mw_vec[num_mw];
struct pci_dev *pdev = nt->ndev->pdev;
if (!mw->virt_addr)
return;
ntb_mw_clear_trans(nt->ndev, num_mw);
dma_free_coherent(&pdev->dev, mw->buff_size,
mw->virt_addr, mw->dma_addr);
mw->xlat_size = 0;
mw->buff_size = 0;
mw->virt_addr = NULL;
}
static int ntb_set_mw(struct ntb_transport_ctx *nt, int num_mw,
unsigned int size)
{
struct ntb_transport_mw *mw = &nt->mw_vec[num_mw];
struct pci_dev *pdev = nt->ndev->pdev;
unsigned int xlat_size, buff_size;
int rc;
xlat_size = round_up(size, mw->xlat_align_size);
buff_size = round_up(size, mw->xlat_align);
/* No need to re-setup */
if (mw->xlat_size == xlat_size)
return 0;
if (mw->buff_size)
ntb_free_mw(nt, num_mw);
/* Alloc memory for receiving data. Must be aligned */
mw->xlat_size = xlat_size;
mw->buff_size = buff_size;
mw->virt_addr = dma_alloc_coherent(&pdev->dev, buff_size,
&mw->dma_addr, GFP_KERNEL);
if (!mw->virt_addr) {
mw->xlat_size = 0;
mw->buff_size = 0;
dev_err(&pdev->dev, "Unable to alloc MW buff of size %d\n",
buff_size);
return -ENOMEM;
}
/*
* we must ensure that the memory address allocated is BAR size
* aligned in order for the XLAT register to take the value. This
* is a requirement of the hardware. It is recommended to setup CMA
* for BAR sizes equal or greater than 4MB.
*/
if (!IS_ALIGNED(mw->dma_addr, mw->xlat_align)) {
dev_err(&pdev->dev, "DMA memory %pad is not aligned\n",
&mw->dma_addr);
ntb_free_mw(nt, num_mw);
return -ENOMEM;
}
/* Notify HW the memory location of the receive buffer */
rc = ntb_mw_set_trans(nt->ndev, num_mw, mw->dma_addr, mw->xlat_size);
if (rc) {
dev_err(&pdev->dev, "Unable to set mw%d translation", num_mw);
ntb_free_mw(nt, num_mw);
return -EIO;
}
return 0;
}
static void ntb_qp_link_down_reset(struct ntb_transport_qp *qp)
{
qp->link_is_up = false;
qp->tx_index = 0;
qp->rx_index = 0;
qp->rx_bytes = 0;
qp->rx_pkts = 0;
qp->rx_ring_empty = 0;
qp->rx_err_no_buf = 0;
qp->rx_err_oflow = 0;
qp->rx_err_ver = 0;
qp->rx_memcpy = 0;
qp->rx_async = 0;
qp->tx_bytes = 0;
qp->tx_pkts = 0;
qp->tx_ring_full = 0;
qp->tx_err_no_buf = 0;
qp->tx_memcpy = 0;
qp->tx_async = 0;
}
static void ntb_qp_link_cleanup(struct ntb_transport_qp *qp)
{
struct ntb_transport_ctx *nt = qp->transport;
struct pci_dev *pdev = nt->ndev->pdev;
dev_info(&pdev->dev, "qp %d: Link Cleanup\n", qp->qp_num);
cancel_delayed_work_sync(&qp->link_work);
ntb_qp_link_down_reset(qp);
if (qp->event_handler)
qp->event_handler(qp->cb_data, qp->link_is_up);
}
static void ntb_qp_link_cleanup_work(struct work_struct *work)
{
struct ntb_transport_qp *qp = container_of(work,
struct ntb_transport_qp,
link_cleanup);
struct ntb_transport_ctx *nt = qp->transport;
ntb_qp_link_cleanup(qp);
if (nt->link_is_up)
schedule_delayed_work(&qp->link_work,
msecs_to_jiffies(NTB_LINK_DOWN_TIMEOUT));
}
static void ntb_qp_link_down(struct ntb_transport_qp *qp)
{
schedule_work(&qp->link_cleanup);
}
static void ntb_transport_link_cleanup(struct ntb_transport_ctx *nt)
{
struct ntb_transport_qp *qp;
u64 qp_bitmap_alloc;
int i;
qp_bitmap_alloc = nt->qp_bitmap & ~nt->qp_bitmap_free;
/* Pass along the info to any clients */
for (i = 0; i < nt->qp_count; i++)
if (qp_bitmap_alloc & BIT_ULL(i)) {
qp = &nt->qp_vec[i];
ntb_qp_link_cleanup(qp);
cancel_work_sync(&qp->link_cleanup);
cancel_delayed_work_sync(&qp->link_work);
}
if (!nt->link_is_up)
cancel_delayed_work_sync(&nt->link_work);
/* The scratchpad registers keep the values if the remote side
* goes down, blast them now to give them a sane value the next
* time they are accessed
*/
for (i = 0; i < MAX_SPAD; i++)
ntb_spad_write(nt->ndev, i, 0);
}
static void ntb_transport_link_cleanup_work(struct work_struct *work)
{
struct ntb_transport_ctx *nt =
container_of(work, struct ntb_transport_ctx, link_cleanup);
ntb_transport_link_cleanup(nt);
}
static void ntb_transport_event_callback(void *data)
{
struct ntb_transport_ctx *nt = data;
if (ntb_link_is_up(nt->ndev, NULL, NULL) == 1)
schedule_delayed_work(&nt->link_work, 0);
else
schedule_work(&nt->link_cleanup);
}
static void ntb_transport_link_work(struct work_struct *work)
{
struct ntb_transport_ctx *nt =
container_of(work, struct ntb_transport_ctx, link_work.work);
struct ntb_dev *ndev = nt->ndev;
struct pci_dev *pdev = ndev->pdev;
resource_size_t size;
u32 val;
int rc, i, spad;
/* send the local info, in the opposite order of the way we read it */
for (i = 0; i < nt->mw_count; i++) {
size = nt->mw_vec[i].phys_size;
if (max_mw_size && size > max_mw_size)
size = max_mw_size;
spad = MW0_SZ_HIGH + (i * 2);
ntb_peer_spad_write(ndev, spad, (u32)(size >> 32));
spad = MW0_SZ_LOW + (i * 2);
ntb_peer_spad_write(ndev, spad, (u32)size);
}
ntb_peer_spad_write(ndev, NUM_MWS, nt->mw_count);
ntb_peer_spad_write(ndev, NUM_QPS, nt->qp_count);
ntb_peer_spad_write(ndev, VERSION, NTB_TRANSPORT_VERSION);
/* Query the remote side for its info */
val = ntb_spad_read(ndev, VERSION);
dev_dbg(&pdev->dev, "Remote version = %d\n", val);
if (val != NTB_TRANSPORT_VERSION)
goto out;
val = ntb_spad_read(ndev, NUM_QPS);
dev_dbg(&pdev->dev, "Remote max number of qps = %d\n", val);
if (val != nt->qp_count)
goto out;
val = ntb_spad_read(ndev, NUM_MWS);
dev_dbg(&pdev->dev, "Remote number of mws = %d\n", val);
if (val != nt->mw_count)
goto out;
for (i = 0; i < nt->mw_count; i++) {
u64 val64;
val = ntb_spad_read(ndev, MW0_SZ_HIGH + (i * 2));
val64 = (u64)val << 32;
val = ntb_spad_read(ndev, MW0_SZ_LOW + (i * 2));
val64 |= val;
dev_dbg(&pdev->dev, "Remote MW%d size = %#llx\n", i, val64);
rc = ntb_set_mw(nt, i, val64);
if (rc)
goto out1;
}
nt->link_is_up = true;
for (i = 0; i < nt->qp_count; i++) {
struct ntb_transport_qp *qp = &nt->qp_vec[i];
ntb_transport_setup_qp_mw(nt, i);
if (qp->client_ready)
schedule_delayed_work(&qp->link_work, 0);
}
return;
out1:
for (i = 0; i < nt->mw_count; i++)
ntb_free_mw(nt, i);
out:
if (ntb_link_is_up(ndev, NULL, NULL) == 1)
schedule_delayed_work(&nt->link_work,
msecs_to_jiffies(NTB_LINK_DOWN_TIMEOUT));
}
static void ntb_qp_link_work(struct work_struct *work)
{
struct ntb_transport_qp *qp = container_of(work,
struct ntb_transport_qp,
link_work.work);
struct pci_dev *pdev = qp->ndev->pdev;
struct ntb_transport_ctx *nt = qp->transport;
int val;
WARN_ON(!nt->link_is_up);
val = ntb_spad_read(nt->ndev, QP_LINKS);
ntb_peer_spad_write(nt->ndev, QP_LINKS, val | BIT(qp->qp_num));
/* query remote spad for qp ready bits */
ntb_peer_spad_read(nt->ndev, QP_LINKS);
dev_dbg_ratelimited(&pdev->dev, "Remote QP link status = %x\n", val);
/* See if the remote side is up */
if (val & BIT(qp->qp_num)) {
dev_info(&pdev->dev, "qp %d: Link Up\n", qp->qp_num);
qp->link_is_up = true;
if (qp->event_handler)
qp->event_handler(qp->cb_data, qp->link_is_up);
} else if (nt->link_is_up)
schedule_delayed_work(&qp->link_work,
msecs_to_jiffies(NTB_LINK_DOWN_TIMEOUT));
}
static int ntb_transport_init_queue(struct ntb_transport_ctx *nt,
unsigned int qp_num)
{
struct ntb_transport_qp *qp;
struct ntb_transport_mw *mw;
phys_addr_t mw_base;
resource_size_t mw_size;
unsigned int num_qps_mw, tx_size;
unsigned int mw_num, mw_count, qp_count;
u64 qp_offset;
mw_count = nt->mw_count;
qp_count = nt->qp_count;
mw_num = QP_TO_MW(nt, qp_num);
mw = &nt->mw_vec[mw_num];
qp = &nt->qp_vec[qp_num];
qp->qp_num = qp_num;
qp->transport = nt;
qp->ndev = nt->ndev;
qp->client_ready = false;
qp->event_handler = NULL;
ntb_qp_link_down_reset(qp);
if (qp_count % mw_count && mw_num + 1 < qp_count / mw_count)
num_qps_mw = qp_count / mw_count + 1;
else
num_qps_mw = qp_count / mw_count;
mw_base = nt->mw_vec[mw_num].phys_addr;
mw_size = nt->mw_vec[mw_num].phys_size;
tx_size = (unsigned int)mw_size / num_qps_mw;
qp_offset = tx_size * qp_num / mw_count;
qp->tx_mw = nt->mw_vec[mw_num].vbase + qp_offset;
if (!qp->tx_mw)
return -EINVAL;
qp->tx_mw_phys = mw_base + qp_offset;
if (!qp->tx_mw_phys)
return -EINVAL;
tx_size -= sizeof(struct ntb_rx_info);
qp->rx_info = qp->tx_mw + tx_size;
/* Due to housekeeping, there must be atleast 2 buffs */
qp->tx_max_frame = min(transport_mtu, tx_size / 2);
qp->tx_max_entry = tx_size / qp->tx_max_frame;
if (nt_debugfs_dir) {
char debugfs_name[4];
snprintf(debugfs_name, 4, "qp%d", qp_num);
qp->debugfs_dir = debugfs_create_dir(debugfs_name,
nt_debugfs_dir);
qp->debugfs_stats = debugfs_create_file("stats", S_IRUSR,
qp->debugfs_dir, qp,
&ntb_qp_debugfs_stats);
} else {
qp->debugfs_dir = NULL;
qp->debugfs_stats = NULL;
}
INIT_DELAYED_WORK(&qp->link_work, ntb_qp_link_work);
INIT_WORK(&qp->link_cleanup, ntb_qp_link_cleanup_work);
spin_lock_init(&qp->ntb_rx_q_lock);
spin_lock_init(&qp->ntb_tx_free_q_lock);
INIT_LIST_HEAD(&qp->rx_post_q);
INIT_LIST_HEAD(&qp->rx_pend_q);
INIT_LIST_HEAD(&qp->rx_free_q);
INIT_LIST_HEAD(&qp->tx_free_q);
tasklet_init(&qp->rxc_db_work, ntb_transport_rxc_db,
(unsigned long)qp);
return 0;
}
static int ntb_transport_probe(struct ntb_client *self, struct ntb_dev *ndev)
{
struct ntb_transport_ctx *nt;
struct ntb_transport_mw *mw;
unsigned int mw_count, qp_count;
u64 qp_bitmap;
int node;
int rc, i;
if (ntb_db_is_unsafe(ndev))
dev_dbg(&ndev->dev,
"doorbell is unsafe, proceed anyway...\n");
if (ntb_spad_is_unsafe(ndev))
dev_dbg(&ndev->dev,
"scratchpad is unsafe, proceed anyway...\n");
node = dev_to_node(&ndev->dev);
nt = kzalloc_node(sizeof(*nt), GFP_KERNEL, node);
if (!nt)
return -ENOMEM;
nt->ndev = ndev;
mw_count = ntb_mw_count(ndev);
nt->mw_count = mw_count;
nt->mw_vec = kzalloc_node(mw_count * sizeof(*nt->mw_vec),
GFP_KERNEL, node);
if (!nt->mw_vec) {
rc = -ENOMEM;
goto err;
}
for (i = 0; i < mw_count; i++) {
mw = &nt->mw_vec[i];
rc = ntb_mw_get_range(ndev, i, &mw->phys_addr, &mw->phys_size,
&mw->xlat_align, &mw->xlat_align_size);
if (rc)
goto err1;
mw->vbase = ioremap_wc(mw->phys_addr, mw->phys_size);
if (!mw->vbase) {
rc = -ENOMEM;
goto err1;
}
mw->buff_size = 0;
mw->xlat_size = 0;
mw->virt_addr = NULL;
mw->dma_addr = 0;
}
qp_bitmap = ntb_db_valid_mask(ndev);
qp_count = ilog2(qp_bitmap);
if (max_num_clients && max_num_clients < qp_count)
qp_count = max_num_clients;
else if (mw_count < qp_count)
qp_count = mw_count;
qp_bitmap &= BIT_ULL(qp_count) - 1;
nt->qp_count = qp_count;
nt->qp_bitmap = qp_bitmap;
nt->qp_bitmap_free = qp_bitmap;
nt->qp_vec = kzalloc_node(qp_count * sizeof(*nt->qp_vec),
GFP_KERNEL, node);
if (!nt->qp_vec) {
rc = -ENOMEM;
goto err2;
}
for (i = 0; i < qp_count; i++) {
rc = ntb_transport_init_queue(nt, i);
if (rc)
goto err3;
}
INIT_DELAYED_WORK(&nt->link_work, ntb_transport_link_work);
INIT_WORK(&nt->link_cleanup, ntb_transport_link_cleanup_work);
rc = ntb_set_ctx(ndev, nt, &ntb_transport_ops);
if (rc)
goto err3;
INIT_LIST_HEAD(&nt->client_devs);
rc = ntb_bus_init(nt);
if (rc)
goto err4;
nt->link_is_up = false;
ntb_link_enable(ndev, NTB_SPEED_AUTO, NTB_WIDTH_AUTO);
ntb_link_event(ndev);
return 0;
err4:
ntb_clear_ctx(ndev);
err3:
kfree(nt->qp_vec);
err2:
kfree(nt->mw_vec);
err1:
while (i--) {
mw = &nt->mw_vec[i];
iounmap(mw->vbase);
}
err:
kfree(nt);
return rc;
}
static void ntb_transport_free(struct ntb_client *self, struct ntb_dev *ndev)
{
struct ntb_transport_ctx *nt = ndev->ctx;
struct ntb_transport_qp *qp;
u64 qp_bitmap_alloc;
int i;
ntb_transport_link_cleanup(nt);
cancel_work_sync(&nt->link_cleanup);
cancel_delayed_work_sync(&nt->link_work);
qp_bitmap_alloc = nt->qp_bitmap & ~nt->qp_bitmap_free;
/* verify that all the qp's are freed */
for (i = 0; i < nt->qp_count; i++) {
qp = &nt->qp_vec[i];
if (qp_bitmap_alloc & BIT_ULL(i))
ntb_transport_free_queue(qp);
debugfs_remove_recursive(qp->debugfs_dir);
}
ntb_link_disable(ndev);
ntb_clear_ctx(ndev);
ntb_bus_remove(nt);
for (i = nt->mw_count; i--; ) {
ntb_free_mw(nt, i);
iounmap(nt->mw_vec[i].vbase);
}
kfree(nt->qp_vec);
kfree(nt->mw_vec);
kfree(nt);
}
static void ntb_complete_rxc(struct ntb_transport_qp *qp)
{
struct ntb_queue_entry *entry;
void *cb_data;
unsigned int len;
unsigned long irqflags;
spin_lock_irqsave(&qp->ntb_rx_q_lock, irqflags);
while (!list_empty(&qp->rx_post_q)) {
entry = list_first_entry(&qp->rx_post_q,
struct ntb_queue_entry, entry);
if (!(entry->flags & DESC_DONE_FLAG))
break;
entry->rx_hdr->flags = 0;
iowrite32(entry->index, &qp->rx_info->entry);
cb_data = entry->cb_data;
len = entry->len;
list_move_tail(&entry->entry, &qp->rx_free_q);
spin_unlock_irqrestore(&qp->ntb_rx_q_lock, irqflags);
if (qp->rx_handler && qp->client_ready)
qp->rx_handler(qp, qp->cb_data, cb_data, len);
spin_lock_irqsave(&qp->ntb_rx_q_lock, irqflags);
}
spin_unlock_irqrestore(&qp->ntb_rx_q_lock, irqflags);
}
static void ntb_rx_copy_callback(void *data)
{
struct ntb_queue_entry *entry = data;
entry->flags |= DESC_DONE_FLAG;
ntb_complete_rxc(entry->qp);
}
static void ntb_memcpy_rx(struct ntb_queue_entry *entry, void *offset)
{
void *buf = entry->buf;
size_t len = entry->len;
memcpy(buf, offset, len);
/* Ensure that the data is fully copied out before clearing the flag */
wmb();
ntb_rx_copy_callback(entry);
}
static void ntb_async_rx(struct ntb_queue_entry *entry, void *offset)
{
struct dma_async_tx_descriptor *txd;
struct ntb_transport_qp *qp = entry->qp;
struct dma_chan *chan = qp->dma_chan;
struct dma_device *device;
size_t pay_off, buff_off, len;
struct dmaengine_unmap_data *unmap;
dma_cookie_t cookie;
void *buf = entry->buf;
len = entry->len;
if (!chan)
goto err;
if (len < copy_bytes)
goto err_wait;
device = chan->device;
pay_off = (size_t)offset & ~PAGE_MASK;
buff_off = (size_t)buf & ~PAGE_MASK;
if (!is_dma_copy_aligned(device, pay_off, buff_off, len))
goto err_wait;
unmap = dmaengine_get_unmap_data(device->dev, 2, GFP_NOWAIT);
if (!unmap)
goto err_wait;
unmap->len = len;
unmap->addr[0] = dma_map_page(device->dev, virt_to_page(offset),
pay_off, len, DMA_TO_DEVICE);
if (dma_mapping_error(device->dev, unmap->addr[0]))
goto err_get_unmap;
unmap->to_cnt = 1;
unmap->addr[1] = dma_map_page(device->dev, virt_to_page(buf),
buff_off, len, DMA_FROM_DEVICE);
if (dma_mapping_error(device->dev, unmap->addr[1]))
goto err_get_unmap;
unmap->from_cnt = 1;
txd = device->device_prep_dma_memcpy(chan, unmap->addr[1],
unmap->addr[0], len,
DMA_PREP_INTERRUPT);
if (!txd)
goto err_get_unmap;
txd->callback = ntb_rx_copy_callback;
txd->callback_param = entry;
dma_set_unmap(txd, unmap);
cookie = dmaengine_submit(txd);
if (dma_submit_error(cookie))
goto err_set_unmap;
dmaengine_unmap_put(unmap);
qp->last_cookie = cookie;
qp->rx_async++;
return;
err_set_unmap:
dmaengine_unmap_put(unmap);
err_get_unmap:
dmaengine_unmap_put(unmap);
err_wait:
/* If the callbacks come out of order, the writing of the index to the
* last completed will be out of order. This may result in the
* receive stalling forever.
*/
dma_sync_wait(chan, qp->last_cookie);
err:
ntb_memcpy_rx(entry, offset);
qp->rx_memcpy++;
}
static int ntb_process_rxc(struct ntb_transport_qp *qp)
{
struct ntb_payload_header *hdr;
struct ntb_queue_entry *entry;
void *offset;
offset = qp->rx_buff + qp->rx_max_frame * qp->rx_index;
hdr = offset + qp->rx_max_frame - sizeof(struct ntb_payload_header);
dev_dbg(&qp->ndev->pdev->dev, "qp %d: RX ver %u len %d flags %x\n",
qp->qp_num, hdr->ver, hdr->len, hdr->flags);
if (!(hdr->flags & DESC_DONE_FLAG)) {
dev_dbg(&qp->ndev->pdev->dev, "done flag not set\n");
qp->rx_ring_empty++;
return -EAGAIN;
}
if (hdr->flags & LINK_DOWN_FLAG) {
dev_dbg(&qp->ndev->pdev->dev, "link down flag set\n");
ntb_qp_link_down(qp);
hdr->flags = 0;
return -EAGAIN;
}
if (hdr->ver != (u32)qp->rx_pkts) {
dev_dbg(&qp->ndev->pdev->dev,
"version mismatch, expected %llu - got %u\n",
qp->rx_pkts, hdr->ver);
qp->rx_err_ver++;
return -EIO;
}
entry = ntb_list_mv(&qp->ntb_rx_q_lock, &qp->rx_pend_q, &qp->rx_post_q);
if (!entry) {
dev_dbg(&qp->ndev->pdev->dev, "no receive buffer\n");
qp->rx_err_no_buf++;
return -EAGAIN;
}
entry->rx_hdr = hdr;
entry->index = qp->rx_index;
if (hdr->len > entry->len) {
dev_dbg(&qp->ndev->pdev->dev,
"receive buffer overflow! Wanted %d got %d\n",
hdr->len, entry->len);
qp->rx_err_oflow++;
entry->len = -EIO;
entry->flags |= DESC_DONE_FLAG;
ntb_complete_rxc(qp);
} else {
dev_dbg(&qp->ndev->pdev->dev,
"RX OK index %u ver %u size %d into buf size %d\n",
qp->rx_index, hdr->ver, hdr->len, entry->len);
qp->rx_bytes += hdr->len;
qp->rx_pkts++;
entry->len = hdr->len;
ntb_async_rx(entry, offset);
}
qp->rx_index++;
qp->rx_index %= qp->rx_max_entry;
return 0;
}
static void ntb_transport_rxc_db(unsigned long data)
{
struct ntb_transport_qp *qp = (void *)data;
int rc, i;
dev_dbg(&qp->ndev->pdev->dev, "%s: doorbell %d received\n",
__func__, qp->qp_num);
/* Limit the number of packets processed in a single interrupt to
* provide fairness to others
*/
for (i = 0; i < qp->rx_max_entry; i++) {
rc = ntb_process_rxc(qp);
if (rc)
break;
}
if (i && qp->dma_chan)
dma_async_issue_pending(qp->dma_chan);
if (i == qp->rx_max_entry) {
/* there is more work to do */
tasklet_schedule(&qp->rxc_db_work);
} else if (ntb_db_read(qp->ndev) & BIT_ULL(qp->qp_num)) {
/* the doorbell bit is set: clear it */
ntb_db_clear(qp->ndev, BIT_ULL(qp->qp_num));
/* ntb_db_read ensures ntb_db_clear write is committed */
ntb_db_read(qp->ndev);
/* an interrupt may have arrived between finishing
* ntb_process_rxc and clearing the doorbell bit:
* there might be some more work to do.
*/
tasklet_schedule(&qp->rxc_db_work);
}
}
static void ntb_tx_copy_callback(void *data)
{
struct ntb_queue_entry *entry = data;
struct ntb_transport_qp *qp = entry->qp;
struct ntb_payload_header __iomem *hdr = entry->tx_hdr;
iowrite32(entry->flags | DESC_DONE_FLAG, &hdr->flags);
ntb_peer_db_set(qp->ndev, BIT_ULL(qp->qp_num));
/* The entry length can only be zero if the packet is intended to be a
* "link down" or similar. Since no payload is being sent in these
* cases, there is nothing to add to the completion queue.
*/
if (entry->len > 0) {
qp->tx_bytes += entry->len;
if (qp->tx_handler)
qp->tx_handler(qp, qp->cb_data, entry->cb_data,
entry->len);
}
ntb_list_add(&qp->ntb_tx_free_q_lock, &entry->entry, &qp->tx_free_q);
}
static void ntb_memcpy_tx(struct ntb_queue_entry *entry, void __iomem *offset)
{
#ifdef ARCH_HAS_NOCACHE_UACCESS
/*
* Using non-temporal mov to improve performance on non-cached
* writes, even though we aren't actually copying from user space.
*/
__copy_from_user_inatomic_nocache(offset, entry->buf, entry->len);
#else
memcpy_toio(offset, entry->buf, entry->len);
#endif
/* Ensure that the data is fully copied out before setting the flags */
wmb();
ntb_tx_copy_callback(entry);
}
static void ntb_async_tx(struct ntb_transport_qp *qp,
struct ntb_queue_entry *entry)
{
struct ntb_payload_header __iomem *hdr;
struct dma_async_tx_descriptor *txd;
struct dma_chan *chan = qp->dma_chan;
struct dma_device *device;
size_t dest_off, buff_off;
struct dmaengine_unmap_data *unmap;
dma_addr_t dest;
dma_cookie_t cookie;
void __iomem *offset;
size_t len = entry->len;
void *buf = entry->buf;
offset = qp->tx_mw + qp->tx_max_frame * qp->tx_index;
hdr = offset + qp->tx_max_frame - sizeof(struct ntb_payload_header);
entry->tx_hdr = hdr;
iowrite32(entry->len, &hdr->len);
iowrite32((u32)qp->tx_pkts, &hdr->ver);
if (!chan)
goto err;
if (len < copy_bytes)
goto err;
device = chan->device;
dest = qp->tx_mw_phys + qp->tx_max_frame * qp->tx_index;
buff_off = (size_t)buf & ~PAGE_MASK;
dest_off = (size_t)dest & ~PAGE_MASK;
if (!is_dma_copy_aligned(device, buff_off, dest_off, len))
goto err;
unmap = dmaengine_get_unmap_data(device->dev, 1, GFP_NOWAIT);
if (!unmap)
goto err;
unmap->len = len;
unmap->addr[0] = dma_map_page(device->dev, virt_to_page(buf),
buff_off, len, DMA_TO_DEVICE);
if (dma_mapping_error(device->dev, unmap->addr[0]))
goto err_get_unmap;
unmap->to_cnt = 1;
txd = device->device_prep_dma_memcpy(chan, dest, unmap->addr[0], len,
DMA_PREP_INTERRUPT);
if (!txd)
goto err_get_unmap;
txd->callback = ntb_tx_copy_callback;
txd->callback_param = entry;
dma_set_unmap(txd, unmap);
cookie = dmaengine_submit(txd);
if (dma_submit_error(cookie))
goto err_set_unmap;
dmaengine_unmap_put(unmap);
dma_async_issue_pending(chan);
qp->tx_async++;
return;
err_set_unmap:
dmaengine_unmap_put(unmap);
err_get_unmap:
dmaengine_unmap_put(unmap);
err:
ntb_memcpy_tx(entry, offset);
qp->tx_memcpy++;
}
static int ntb_process_tx(struct ntb_transport_qp *qp,
struct ntb_queue_entry *entry)
{
if (qp->tx_index == qp->remote_rx_info->entry) {
qp->tx_ring_full++;
return -EAGAIN;
}
if (entry->len > qp->tx_max_frame - sizeof(struct ntb_payload_header)) {
if (qp->tx_handler)
qp->tx_handler(qp->cb_data, qp, NULL, -EIO);
ntb_list_add(&qp->ntb_tx_free_q_lock, &entry->entry,
&qp->tx_free_q);
return 0;
}
ntb_async_tx(qp, entry);
qp->tx_index++;
qp->tx_index %= qp->tx_max_entry;
qp->tx_pkts++;
return 0;
}
static void ntb_send_link_down(struct ntb_transport_qp *qp)
{
struct pci_dev *pdev = qp->ndev->pdev;
struct ntb_queue_entry *entry;
int i, rc;
if (!qp->link_is_up)
return;
dev_info(&pdev->dev, "qp %d: Send Link Down\n", qp->qp_num);
for (i = 0; i < NTB_LINK_DOWN_TIMEOUT; i++) {
entry = ntb_list_rm(&qp->ntb_tx_free_q_lock, &qp->tx_free_q);
if (entry)
break;
msleep(100);
}
if (!entry)
return;
entry->cb_data = NULL;
entry->buf = NULL;
entry->len = 0;
entry->flags = LINK_DOWN_FLAG;
rc = ntb_process_tx(qp, entry);
if (rc)
dev_err(&pdev->dev, "ntb: QP%d unable to send linkdown msg\n",
qp->qp_num);
ntb_qp_link_down_reset(qp);
}
static bool ntb_dma_filter_fn(struct dma_chan *chan, void *node)
{
return dev_to_node(&chan->dev->device) == (int)(unsigned long)node;
}
/**
* ntb_transport_create_queue - Create a new NTB transport layer queue
* @rx_handler: receive callback function
* @tx_handler: transmit callback function
* @event_handler: event callback function
*
* Create a new NTB transport layer queue and provide the queue with a callback
* routine for both transmit and receive. The receive callback routine will be
* used to pass up data when the transport has received it on the queue. The
* transmit callback routine will be called when the transport has completed the
* transmission of the data on the queue and the data is ready to be freed.
*
* RETURNS: pointer to newly created ntb_queue, NULL on error.
*/
struct ntb_transport_qp *
ntb_transport_create_queue(void *data, struct device *client_dev,
const struct ntb_queue_handlers *handlers)
{
struct ntb_dev *ndev;
struct pci_dev *pdev;
struct ntb_transport_ctx *nt;
struct ntb_queue_entry *entry;
struct ntb_transport_qp *qp;
u64 qp_bit;
unsigned int free_queue;
dma_cap_mask_t dma_mask;
int node;
int i;
ndev = dev_ntb(client_dev->parent);
pdev = ndev->pdev;
nt = ndev->ctx;
node = dev_to_node(&ndev->dev);
free_queue = ffs(nt->qp_bitmap);
if (!free_queue)
goto err;
/* decrement free_queue to make it zero based */
free_queue--;
qp = &nt->qp_vec[free_queue];
qp_bit = BIT_ULL(qp->qp_num);
nt->qp_bitmap_free &= ~qp_bit;
qp->cb_data = data;
qp->rx_handler = handlers->rx_handler;
qp->tx_handler = handlers->tx_handler;
qp->event_handler = handlers->event_handler;
dma_cap_zero(dma_mask);
dma_cap_set(DMA_MEMCPY, dma_mask);
if (use_dma) {
qp->dma_chan = dma_request_channel(dma_mask, ntb_dma_filter_fn,
(void *)(unsigned long)node);
if (!qp->dma_chan)
dev_info(&pdev->dev, "Unable to allocate DMA channel\n");
} else {
qp->dma_chan = NULL;
}
dev_dbg(&pdev->dev, "Using %s memcpy\n", qp->dma_chan ? "DMA" : "CPU");
for (i = 0; i < NTB_QP_DEF_NUM_ENTRIES; i++) {
entry = kzalloc_node(sizeof(*entry), GFP_ATOMIC, node);
if (!entry)
goto err1;
entry->qp = qp;
ntb_list_add(&qp->ntb_rx_q_lock, &entry->entry,
&qp->rx_free_q);
}
for (i = 0; i < NTB_QP_DEF_NUM_ENTRIES; i++) {
entry = kzalloc_node(sizeof(*entry), GFP_ATOMIC, node);
if (!entry)
goto err2;
entry->qp = qp;
ntb_list_add(&qp->ntb_tx_free_q_lock, &entry->entry,
&qp->tx_free_q);
}
ntb_db_clear(qp->ndev, qp_bit);
ntb_db_clear_mask(qp->ndev, qp_bit);
dev_info(&pdev->dev, "NTB Transport QP %d created\n", qp->qp_num);
return qp;
err2:
while ((entry = ntb_list_rm(&qp->ntb_tx_free_q_lock, &qp->tx_free_q)))
kfree(entry);
err1:
while ((entry = ntb_list_rm(&qp->ntb_rx_q_lock, &qp->rx_free_q)))
kfree(entry);
if (qp->dma_chan)
dma_release_channel(qp->dma_chan);
nt->qp_bitmap_free |= qp_bit;
err:
return NULL;
}
EXPORT_SYMBOL_GPL(ntb_transport_create_queue);
/**
* ntb_transport_free_queue - Frees NTB transport queue
* @qp: NTB queue to be freed
*
* Frees NTB transport queue
*/
void ntb_transport_free_queue(struct ntb_transport_qp *qp)
{
struct ntb_transport_ctx *nt = qp->transport;
struct pci_dev *pdev;
struct ntb_queue_entry *entry;
u64 qp_bit;
if (!qp)
return;
pdev = qp->ndev->pdev;
if (qp->dma_chan) {
struct dma_chan *chan = qp->dma_chan;
/* Putting the dma_chan to NULL will force any new traffic to be
* processed by the CPU instead of the DAM engine
*/
qp->dma_chan = NULL;
/* Try to be nice and wait for any queued DMA engine
* transactions to process before smashing it with a rock
*/
dma_sync_wait(chan, qp->last_cookie);
dmaengine_terminate_all(chan);
dma_release_channel(chan);
}
qp_bit = BIT_ULL(qp->qp_num);
ntb_db_set_mask(qp->ndev, qp_bit);
tasklet_disable(&qp->rxc_db_work);
cancel_delayed_work_sync(&qp->link_work);
qp->cb_data = NULL;
qp->rx_handler = NULL;
qp->tx_handler = NULL;
qp->event_handler = NULL;
while ((entry = ntb_list_rm(&qp->ntb_rx_q_lock, &qp->rx_free_q)))
kfree(entry);
while ((entry = ntb_list_rm(&qp->ntb_rx_q_lock, &qp->rx_pend_q))) {
dev_warn(&pdev->dev, "Freeing item from non-empty rx_pend_q\n");
kfree(entry);
}
while ((entry = ntb_list_rm(&qp->ntb_rx_q_lock, &qp->rx_post_q))) {
dev_warn(&pdev->dev, "Freeing item from non-empty rx_post_q\n");
kfree(entry);
}
while ((entry = ntb_list_rm(&qp->ntb_tx_free_q_lock, &qp->tx_free_q)))
kfree(entry);
nt->qp_bitmap_free |= qp_bit;
dev_info(&pdev->dev, "NTB Transport QP %d freed\n", qp->qp_num);
}
EXPORT_SYMBOL_GPL(ntb_transport_free_queue);
/**
* ntb_transport_rx_remove - Dequeues enqueued rx packet
* @qp: NTB queue to be freed
* @len: pointer to variable to write enqueued buffers length
*
* Dequeues unused buffers from receive queue. Should only be used during
* shutdown of qp.
*
* RETURNS: NULL error value on error, or void* for success.
*/
void *ntb_transport_rx_remove(struct ntb_transport_qp *qp, unsigned int *len)
{
struct ntb_queue_entry *entry;
void *buf;
if (!qp || qp->client_ready)
return NULL;
entry = ntb_list_rm(&qp->ntb_rx_q_lock, &qp->rx_pend_q);
if (!entry)
return NULL;
buf = entry->cb_data;
*len = entry->len;
ntb_list_add(&qp->ntb_rx_q_lock, &entry->entry, &qp->rx_free_q);
return buf;
}
EXPORT_SYMBOL_GPL(ntb_transport_rx_remove);
/**
* ntb_transport_rx_enqueue - Enqueue a new NTB queue entry
* @qp: NTB transport layer queue the entry is to be enqueued on
* @cb: per buffer pointer for callback function to use
* @data: pointer to data buffer that incoming packets will be copied into
* @len: length of the data buffer
*
* Enqueue a new receive buffer onto the transport queue into which a NTB
* payload can be received into.
*
* RETURNS: An appropriate -ERRNO error value on error, or zero for success.
*/
int ntb_transport_rx_enqueue(struct ntb_transport_qp *qp, void *cb, void *data,
unsigned int len)
{
struct ntb_queue_entry *entry;
if (!qp)
return -EINVAL;
entry = ntb_list_rm(&qp->ntb_rx_q_lock, &qp->rx_free_q);
if (!entry)
return -ENOMEM;
entry->cb_data = cb;
entry->buf = data;
entry->len = len;
entry->flags = 0;
ntb_list_add(&qp->ntb_rx_q_lock, &entry->entry, &qp->rx_pend_q);
tasklet_schedule(&qp->rxc_db_work);
return 0;
}
EXPORT_SYMBOL_GPL(ntb_transport_rx_enqueue);
/**
* ntb_transport_tx_enqueue - Enqueue a new NTB queue entry
* @qp: NTB transport layer queue the entry is to be enqueued on
* @cb: per buffer pointer for callback function to use
* @data: pointer to data buffer that will be sent
* @len: length of the data buffer
*
* Enqueue a new transmit buffer onto the transport queue from which a NTB
* payload will be transmitted. This assumes that a lock is being held to
* serialize access to the qp.
*
* RETURNS: An appropriate -ERRNO error value on error, or zero for success.
*/
int ntb_transport_tx_enqueue(struct ntb_transport_qp *qp, void *cb, void *data,
unsigned int len)
{
struct ntb_queue_entry *entry;
int rc;
if (!qp || !qp->link_is_up || !len)
return -EINVAL;
entry = ntb_list_rm(&qp->ntb_tx_free_q_lock, &qp->tx_free_q);
if (!entry) {
qp->tx_err_no_buf++;
return -ENOMEM;
}
entry->cb_data = cb;
entry->buf = data;
entry->len = len;
entry->flags = 0;
rc = ntb_process_tx(qp, entry);
if (rc)
ntb_list_add(&qp->ntb_tx_free_q_lock, &entry->entry,
&qp->tx_free_q);
return rc;
}
EXPORT_SYMBOL_GPL(ntb_transport_tx_enqueue);
/**
* ntb_transport_link_up - Notify NTB transport of client readiness to use queue
* @qp: NTB transport layer queue to be enabled
*
* Notify NTB transport layer of client readiness to use queue
*/
void ntb_transport_link_up(struct ntb_transport_qp *qp)
{
if (!qp)
return;
qp->client_ready = true;
if (qp->transport->link_is_up)
schedule_delayed_work(&qp->link_work, 0);
}
EXPORT_SYMBOL_GPL(ntb_transport_link_up);
/**
* ntb_transport_link_down - Notify NTB transport to no longer enqueue data
* @qp: NTB transport layer queue to be disabled
*
* Notify NTB transport layer of client's desire to no longer receive data on
* transport queue specified. It is the client's responsibility to ensure all
* entries on queue are purged or otherwise handled appropriately.
*/
void ntb_transport_link_down(struct ntb_transport_qp *qp)
{
struct pci_dev *pdev;
int val;
if (!qp)
return;
pdev = qp->ndev->pdev;
qp->client_ready = false;
val = ntb_spad_read(qp->ndev, QP_LINKS);
ntb_peer_spad_write(qp->ndev, QP_LINKS,
val & ~BIT(qp->qp_num));
if (qp->link_is_up)
ntb_send_link_down(qp);
else
cancel_delayed_work_sync(&qp->link_work);
}
EXPORT_SYMBOL_GPL(ntb_transport_link_down);
/**
* ntb_transport_link_query - Query transport link state
* @qp: NTB transport layer queue to be queried
*
* Query connectivity to the remote system of the NTB transport queue
*
* RETURNS: true for link up or false for link down
*/
bool ntb_transport_link_query(struct ntb_transport_qp *qp)
{
if (!qp)
return false;
return qp->link_is_up;
}
EXPORT_SYMBOL_GPL(ntb_transport_link_query);
/**
* ntb_transport_qp_num - Query the qp number
* @qp: NTB transport layer queue to be queried
*
* Query qp number of the NTB transport queue
*
* RETURNS: a zero based number specifying the qp number
*/
unsigned char ntb_transport_qp_num(struct ntb_transport_qp *qp)
{
if (!qp)
return 0;
return qp->qp_num;
}
EXPORT_SYMBOL_GPL(ntb_transport_qp_num);
/**
* ntb_transport_max_size - Query the max payload size of a qp
* @qp: NTB transport layer queue to be queried
*
* Query the maximum payload size permissible on the given qp
*
* RETURNS: the max payload size of a qp
*/
unsigned int ntb_transport_max_size(struct ntb_transport_qp *qp)
{
unsigned int max;
if (!qp)
return 0;
if (!qp->dma_chan)
return qp->tx_max_frame - sizeof(struct ntb_payload_header);
/* If DMA engine usage is possible, try to find the max size for that */
max = qp->tx_max_frame - sizeof(struct ntb_payload_header);
max -= max % (1 << qp->dma_chan->device->copy_align);
return max;
}
EXPORT_SYMBOL_GPL(ntb_transport_max_size);
static void ntb_transport_doorbell_callback(void *data, int vector)
{
struct ntb_transport_ctx *nt = data;
struct ntb_transport_qp *qp;
u64 db_bits;
unsigned int qp_num;
db_bits = (nt->qp_bitmap & ~nt->qp_bitmap_free &
ntb_db_vector_mask(nt->ndev, vector));
while (db_bits) {
qp_num = __ffs(db_bits);
qp = &nt->qp_vec[qp_num];
tasklet_schedule(&qp->rxc_db_work);
db_bits &= ~BIT_ULL(qp_num);
}
}
static const struct ntb_ctx_ops ntb_transport_ops = {
.link_event = ntb_transport_event_callback,
.db_event = ntb_transport_doorbell_callback,
};
static struct ntb_client ntb_transport_client = {
.ops = {
.probe = ntb_transport_probe,
.remove = ntb_transport_free,
},
};
static int __init ntb_transport_init(void)
{
int rc;
pr_info("%s, version %s\n", NTB_TRANSPORT_DESC, NTB_TRANSPORT_VER);
if (debugfs_initialized())
nt_debugfs_dir = debugfs_create_dir(KBUILD_MODNAME, NULL);
rc = bus_register(&ntb_transport_bus);
if (rc)
goto err_bus;
rc = ntb_register_client(&ntb_transport_client);
if (rc)
goto err_client;
return 0;
err_client:
bus_unregister(&ntb_transport_bus);
err_bus:
debugfs_remove_recursive(nt_debugfs_dir);
return rc;
}
module_init(ntb_transport_init);
static void __exit ntb_transport_exit(void)
{
debugfs_remove_recursive(nt_debugfs_dir);
ntb_unregister_client(&ntb_transport_client);
bus_unregister(&ntb_transport_bus);
}
module_exit(ntb_transport_exit);
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