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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.
*
* 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.
*
* 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.
*
* Intel PCIe NTB Linux driver
*
* Contact Information:
* Jon Mason <jon.mason@intel.com>
*/
#include <linux/debugfs.h>
#include <linux/delay.h>
#include <linux/init.h>
#include <linux/interrupt.h>
#include <linux/module.h>
#include <linux/pci.h>
#include <linux/random.h>
#include <linux/slab.h>
#include "ntb_hw.h"
#include "ntb_regs.h"
#define NTB_NAME "Intel(R) PCI-E Non-Transparent Bridge Driver"
#define NTB_VER "1.0"
MODULE_DESCRIPTION(NTB_NAME);
MODULE_VERSION(NTB_VER);
MODULE_LICENSE("Dual BSD/GPL");
MODULE_AUTHOR("Intel Corporation");
enum {
NTB_CONN_TRANSPARENT = 0,
NTB_CONN_B2B,
NTB_CONN_RP,
};
enum {
NTB_DEV_USD = 0,
NTB_DEV_DSD,
};
enum {
SNB_HW = 0,
BWD_HW,
};
static struct dentry *debugfs_dir;
#define BWD_LINK_RECOVERY_TIME 500
/* Translate memory window 0,1,2 to BAR 2,4,5 */
#define MW_TO_BAR(mw) (mw == 0 ? 2 : (mw == 1 ? 4 : 5))
static const struct pci_device_id ntb_pci_tbl[] = {
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_B2B_BWD)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_B2B_JSF)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_B2B_SNB)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_B2B_IVT)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_B2B_HSX)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_PS_JSF)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_PS_SNB)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_PS_IVT)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_PS_HSX)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_SS_JSF)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_SS_SNB)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_SS_IVT)},
{PCI_VDEVICE(INTEL, PCI_DEVICE_ID_INTEL_NTB_SS_HSX)},
{0}
};
MODULE_DEVICE_TABLE(pci, ntb_pci_tbl);
static int is_ntb_xeon(struct ntb_device *ndev)
{
switch (ndev->pdev->device) {
case PCI_DEVICE_ID_INTEL_NTB_SS_JSF:
case PCI_DEVICE_ID_INTEL_NTB_SS_SNB:
case PCI_DEVICE_ID_INTEL_NTB_SS_IVT:
case PCI_DEVICE_ID_INTEL_NTB_SS_HSX:
case PCI_DEVICE_ID_INTEL_NTB_PS_JSF:
case PCI_DEVICE_ID_INTEL_NTB_PS_SNB:
case PCI_DEVICE_ID_INTEL_NTB_PS_IVT:
case PCI_DEVICE_ID_INTEL_NTB_PS_HSX:
case PCI_DEVICE_ID_INTEL_NTB_B2B_JSF:
case PCI_DEVICE_ID_INTEL_NTB_B2B_SNB:
case PCI_DEVICE_ID_INTEL_NTB_B2B_IVT:
case PCI_DEVICE_ID_INTEL_NTB_B2B_HSX:
return 1;
default:
return 0;
}
return 0;
}
static int is_ntb_atom(struct ntb_device *ndev)
{
switch (ndev->pdev->device) {
case PCI_DEVICE_ID_INTEL_NTB_B2B_BWD:
return 1;
default:
return 0;
}
return 0;
}
static void ntb_set_errata_flags(struct ntb_device *ndev)
{
switch (ndev->pdev->device) {
/*
* this workaround applies to all platform up to IvyBridge
* Haswell has splitbar support and use a different workaround
*/
case PCI_DEVICE_ID_INTEL_NTB_SS_JSF:
case PCI_DEVICE_ID_INTEL_NTB_SS_SNB:
case PCI_DEVICE_ID_INTEL_NTB_SS_IVT:
case PCI_DEVICE_ID_INTEL_NTB_SS_HSX:
case PCI_DEVICE_ID_INTEL_NTB_PS_JSF:
case PCI_DEVICE_ID_INTEL_NTB_PS_SNB:
case PCI_DEVICE_ID_INTEL_NTB_PS_IVT:
case PCI_DEVICE_ID_INTEL_NTB_PS_HSX:
case PCI_DEVICE_ID_INTEL_NTB_B2B_JSF:
case PCI_DEVICE_ID_INTEL_NTB_B2B_SNB:
case PCI_DEVICE_ID_INTEL_NTB_B2B_IVT:
case PCI_DEVICE_ID_INTEL_NTB_B2B_HSX:
ndev->wa_flags |= WA_SNB_ERR;
break;
}
}
/**
* ntb_register_event_callback() - register event callback
* @ndev: pointer to ntb_device instance
* @func: callback function to register
*
* This function registers a callback for any HW driver events such as link
* up/down, power management notices and etc.
*
* RETURNS: An appropriate -ERRNO error value on error, or zero for success.
*/
int ntb_register_event_callback(struct ntb_device *ndev,
void (*func)(void *handle,
enum ntb_hw_event event))
{
if (ndev->event_cb)
return -EINVAL;
ndev->event_cb = func;
return 0;
}
/**
* ntb_unregister_event_callback() - unregisters the event callback
* @ndev: pointer to ntb_device instance
*
* This function unregisters the existing callback from transport
*/
void ntb_unregister_event_callback(struct ntb_device *ndev)
{
ndev->event_cb = NULL;
}
static void ntb_irq_work(unsigned long data)
{
struct ntb_db_cb *db_cb = (struct ntb_db_cb *)data;
int rc;
rc = db_cb->callback(db_cb->data, db_cb->db_num);
if (rc)
tasklet_schedule(&db_cb->irq_work);
else {
struct ntb_device *ndev = db_cb->ndev;
unsigned long mask;
mask = readw(ndev->reg_ofs.ldb_mask);
clear_bit(db_cb->db_num * ndev->bits_per_vector, &mask);
writew(mask, ndev->reg_ofs.ldb_mask);
}
}
/**
* ntb_register_db_callback() - register a callback for doorbell interrupt
* @ndev: pointer to ntb_device instance
* @idx: doorbell index to register callback, zero based
* @data: pointer to be returned to caller with every callback
* @func: callback function to register
*
* This function registers a callback function for the doorbell interrupt
* on the primary side. The function will unmask the doorbell as well to
* allow interrupt.
*
* RETURNS: An appropriate -ERRNO error value on error, or zero for success.
*/
int ntb_register_db_callback(struct ntb_device *ndev, unsigned int idx,
void *data, int (*func)(void *data, int db_num))
{
unsigned long mask;
if (idx >= ndev->max_cbs || ndev->db_cb[idx].callback) {
dev_warn(&ndev->pdev->dev, "Invalid Index.\n");
return -EINVAL;
}
ndev->db_cb[idx].callback = func;
ndev->db_cb[idx].data = data;
ndev->db_cb[idx].ndev = ndev;
tasklet_init(&ndev->db_cb[idx].irq_work, ntb_irq_work,
(unsigned long) &ndev->db_cb[idx]);
/* unmask interrupt */
mask = readw(ndev->reg_ofs.ldb_mask);
clear_bit(idx * ndev->bits_per_vector, &mask);
writew(mask, ndev->reg_ofs.ldb_mask);
return 0;
}
/**
* ntb_unregister_db_callback() - unregister a callback for doorbell interrupt
* @ndev: pointer to ntb_device instance
* @idx: doorbell index to register callback, zero based
*
* This function unregisters a callback function for the doorbell interrupt
* on the primary side. The function will also mask the said doorbell.
*/
void ntb_unregister_db_callback(struct ntb_device *ndev, unsigned int idx)
{
unsigned long mask;
if (idx >= ndev->max_cbs || !ndev->db_cb[idx].callback)
return;
mask = readw(ndev->reg_ofs.ldb_mask);
set_bit(idx * ndev->bits_per_vector, &mask);
writew(mask, ndev->reg_ofs.ldb_mask);
tasklet_disable(&ndev->db_cb[idx].irq_work);
ndev->db_cb[idx].callback = NULL;
}
/**
* ntb_find_transport() - find the transport pointer
* @transport: pointer to pci device
*
* Given the pci device pointer, return the transport pointer passed in when
* the transport attached when it was inited.
*
* RETURNS: pointer to transport.
*/
void *ntb_find_transport(struct pci_dev *pdev)
{
struct ntb_device *ndev = pci_get_drvdata(pdev);
return ndev->ntb_transport;
}
/**
* ntb_register_transport() - Register NTB transport with NTB HW driver
* @transport: transport identifier
*
* This function allows a transport to reserve the hardware driver for
* NTB usage.
*
* RETURNS: pointer to ntb_device, NULL on error.
*/
struct ntb_device *ntb_register_transport(struct pci_dev *pdev, void *transport)
{
struct ntb_device *ndev = pci_get_drvdata(pdev);
if (ndev->ntb_transport)
return NULL;
ndev->ntb_transport = transport;
return ndev;
}
/**
* ntb_unregister_transport() - Unregister the transport with the NTB HW driver
* @ndev - ntb_device of the transport to be freed
*
* This function unregisters the transport from the HW driver and performs any
* necessary cleanups.
*/
void ntb_unregister_transport(struct ntb_device *ndev)
{
int i;
if (!ndev->ntb_transport)
return;
for (i = 0; i < ndev->max_cbs; i++)
ntb_unregister_db_callback(ndev, i);
ntb_unregister_event_callback(ndev);
ndev->ntb_transport = NULL;
}
/**
* ntb_write_local_spad() - write to the secondary scratchpad register
* @ndev: pointer to ntb_device instance
* @idx: index to the scratchpad register, 0 based
* @val: the data value to put into the register
*
* This function allows writing of a 32bit value to the indexed scratchpad
* register. This writes over the data mirrored to the local scratchpad register
* by the remote system.
*
* RETURNS: An appropriate -ERRNO error value on error, or zero for success.
*/
int ntb_write_local_spad(struct ntb_device *ndev, unsigned int idx, u32 val)
{
if (idx >= ndev->limits.max_spads)
return -EINVAL;
dev_dbg(&ndev->pdev->dev, "Writing %x to local scratch pad index %d\n",
val, idx);
writel(val, ndev->reg_ofs.spad_read + idx * 4);
return 0;
}
/**
* ntb_read_local_spad() - read from the primary scratchpad register
* @ndev: pointer to ntb_device instance
* @idx: index to scratchpad register, 0 based
* @val: pointer to 32bit integer for storing the register value
*
* This function allows reading of the 32bit scratchpad register on
* the primary (internal) side. This allows the local system to read data
* written and mirrored to the scratchpad register by the remote system.
*
* RETURNS: An appropriate -ERRNO error value on error, or zero for success.
*/
int ntb_read_local_spad(struct ntb_device *ndev, unsigned int idx, u32 *val)
{
if (idx >= ndev->limits.max_spads)
return -EINVAL;
*val = readl(ndev->reg_ofs.spad_write + idx * 4);
dev_dbg(&ndev->pdev->dev,
"Reading %x from local scratch pad index %d\n", *val, idx);
return 0;
}
/**
* ntb_write_remote_spad() - write to the secondary scratchpad register
* @ndev: pointer to ntb_device instance
* @idx: index to the scratchpad register, 0 based
* @val: the data value to put into the register
*
* This function allows writing of a 32bit value to the indexed scratchpad
* register. The register resides on the secondary (external) side. This allows
* the local system to write data to be mirrored to the remote systems
* scratchpad register.
*
* RETURNS: An appropriate -ERRNO error value on error, or zero for success.
*/
int ntb_write_remote_spad(struct ntb_device *ndev, unsigned int idx, u32 val)
{
if (idx >= ndev->limits.max_spads)
return -EINVAL;
dev_dbg(&ndev->pdev->dev, "Writing %x to remote scratch pad index %d\n",
val, idx);
writel(val, ndev->reg_ofs.spad_write + idx * 4);
return 0;
}
/**
* ntb_read_remote_spad() - read from the primary scratchpad register
* @ndev: pointer to ntb_device instance
* @idx: index to scratchpad register, 0 based
* @val: pointer to 32bit integer for storing the register value
*
* This function allows reading of the 32bit scratchpad register on
* the primary (internal) side. This alloows the local system to read the data
* it wrote to be mirrored on the remote system.
*
* RETURNS: An appropriate -ERRNO error value on error, or zero for success.
*/
int ntb_read_remote_spad(struct ntb_device *ndev, unsigned int idx, u32 *val)
{
if (idx >= ndev->limits.max_spads)
return -EINVAL;
*val = readl(ndev->reg_ofs.spad_read + idx * 4);
dev_dbg(&ndev->pdev->dev,
"Reading %x from remote scratch pad index %d\n", *val, idx);
return 0;
}
/**
* ntb_get_mw_base() - get addr for the NTB memory window
* @ndev: pointer to ntb_device instance
* @mw: memory window number
*
* This function provides the base address of the memory window specified.
*
* RETURNS: address, or NULL on error.
*/
resource_size_t ntb_get_mw_base(struct ntb_device *ndev, unsigned int mw)
{
if (mw >= ntb_max_mw(ndev))
return 0;
return pci_resource_start(ndev->pdev, MW_TO_BAR(mw));
}
/**
* ntb_get_mw_vbase() - get virtual addr for the NTB memory window
* @ndev: pointer to ntb_device instance
* @mw: memory window number
*
* This function provides the base virtual address of the memory window
* specified.
*
* RETURNS: pointer to virtual address, or NULL on error.
*/
void __iomem *ntb_get_mw_vbase(struct ntb_device *ndev, unsigned int mw)
{
if (mw >= ntb_max_mw(ndev))
return NULL;
return ndev->mw[mw].vbase;
}
/**
* ntb_get_mw_size() - return size of NTB memory window
* @ndev: pointer to ntb_device instance
* @mw: memory window number
*
* This function provides the physical size of the memory window specified
*
* RETURNS: the size of the memory window or zero on error
*/
u64 ntb_get_mw_size(struct ntb_device *ndev, unsigned int mw)
{
if (mw >= ntb_max_mw(ndev))
return 0;
return ndev->mw[mw].bar_sz;
}
/**
* ntb_set_mw_addr - set the memory window address
* @ndev: pointer to ntb_device instance
* @mw: memory window number
* @addr: base address for data
*
* This function sets the base physical address of the memory window. This
* memory address is where data from the remote system will be transfered into
* or out of depending on how the transport is configured.
*/
void ntb_set_mw_addr(struct ntb_device *ndev, unsigned int mw, u64 addr)
{
if (mw >= ntb_max_mw(ndev))
return;
dev_dbg(&ndev->pdev->dev, "Writing addr %Lx to BAR %d\n", addr,
MW_TO_BAR(mw));
ndev->mw[mw].phys_addr = addr;
switch (MW_TO_BAR(mw)) {
case NTB_BAR_23:
writeq(addr, ndev->reg_ofs.bar2_xlat);
break;
case NTB_BAR_4:
if (ndev->split_bar)
writel(addr, ndev->reg_ofs.bar4_xlat);
else
writeq(addr, ndev->reg_ofs.bar4_xlat);
break;
case NTB_BAR_5:
writel(addr, ndev->reg_ofs.bar5_xlat);
break;
}
}
/**
* ntb_ring_doorbell() - Set the doorbell on the secondary/external side
* @ndev: pointer to ntb_device instance
* @db: doorbell to ring
*
* This function allows triggering of a doorbell on the secondary/external
* side that will initiate an interrupt on the remote host
*
* RETURNS: An appropriate -ERRNO error value on error, or zero for success.
*/
void ntb_ring_doorbell(struct ntb_device *ndev, unsigned int db)
{
dev_dbg(&ndev->pdev->dev, "%s: ringing doorbell %d\n", __func__, db);
if (ndev->hw_type == BWD_HW)
writeq((u64) 1 << db, ndev->reg_ofs.rdb);
else
writew(((1 << ndev->bits_per_vector) - 1) <<
(db * ndev->bits_per_vector), ndev->reg_ofs.rdb);
}
static void bwd_recover_link(struct ntb_device *ndev)
{
u32 status;
/* Driver resets the NTB ModPhy lanes - magic! */
writeb(0xe0, ndev->reg_base + BWD_MODPHY_PCSREG6);
writeb(0x40, ndev->reg_base + BWD_MODPHY_PCSREG4);
writeb(0x60, ndev->reg_base + BWD_MODPHY_PCSREG4);
writeb(0x60, ndev->reg_base + BWD_MODPHY_PCSREG6);
/* Driver waits 100ms to allow the NTB ModPhy to settle */
msleep(100);
/* Clear AER Errors, write to clear */
status = readl(ndev->reg_base + BWD_ERRCORSTS_OFFSET);
dev_dbg(&ndev->pdev->dev, "ERRCORSTS = %x\n", status);
status &= PCI_ERR_COR_REP_ROLL;
writel(status, ndev->reg_base + BWD_ERRCORSTS_OFFSET);
/* Clear unexpected electrical idle event in LTSSM, write to clear */
status = readl(ndev->reg_base + BWD_LTSSMERRSTS0_OFFSET);
dev_dbg(&ndev->pdev->dev, "LTSSMERRSTS0 = %x\n", status);
status |= BWD_LTSSMERRSTS0_UNEXPECTEDEI;
writel(status, ndev->reg_base + BWD_LTSSMERRSTS0_OFFSET);
/* Clear DeSkew Buffer error, write to clear */
status = readl(ndev->reg_base + BWD_DESKEWSTS_OFFSET);
dev_dbg(&ndev->pdev->dev, "DESKEWSTS = %x\n", status);
status |= BWD_DESKEWSTS_DBERR;
writel(status, ndev->reg_base + BWD_DESKEWSTS_OFFSET);
status = readl(ndev->reg_base + BWD_IBSTERRRCRVSTS0_OFFSET);
dev_dbg(&ndev->pdev->dev, "IBSTERRRCRVSTS0 = %x\n", status);
status &= BWD_IBIST_ERR_OFLOW;
writel(status, ndev->reg_base + BWD_IBSTERRRCRVSTS0_OFFSET);
/* Releases the NTB state machine to allow the link to retrain */
status = readl(ndev->reg_base + BWD_LTSSMSTATEJMP_OFFSET);
dev_dbg(&ndev->pdev->dev, "LTSSMSTATEJMP = %x\n", status);
status &= ~BWD_LTSSMSTATEJMP_FORCEDETECT;
writel(status, ndev->reg_base + BWD_LTSSMSTATEJMP_OFFSET);
}
static void ntb_link_event(struct ntb_device *ndev, int link_state)
{
unsigned int event;
if (ndev->link_status == link_state)
return;
if (link_state == NTB_LINK_UP) {
u16 status;
dev_info(&ndev->pdev->dev, "Link Up\n");
ndev->link_status = NTB_LINK_UP;
event = NTB_EVENT_HW_LINK_UP;
if (is_ntb_atom(ndev) ||
ndev->conn_type == NTB_CONN_TRANSPARENT)
status = readw(ndev->reg_ofs.lnk_stat);
else {
int rc = pci_read_config_word(ndev->pdev,
SNB_LINK_STATUS_OFFSET,
&status);
if (rc)
return;
}
ndev->link_width = (status & NTB_LINK_WIDTH_MASK) >> 4;
ndev->link_speed = (status & NTB_LINK_SPEED_MASK);
dev_info(&ndev->pdev->dev, "Link Width %d, Link Speed %d\n",
ndev->link_width, ndev->link_speed);
} else {
dev_info(&ndev->pdev->dev, "Link Down\n");
ndev->link_status = NTB_LINK_DOWN;
event = NTB_EVENT_HW_LINK_DOWN;
/* Don't modify link width/speed, we need it in link recovery */
}
/* notify the upper layer if we have an event change */
if (ndev->event_cb)
ndev->event_cb(ndev->ntb_transport, event);
}
static int ntb_link_status(struct ntb_device *ndev)
{
int link_state;
if (is_ntb_atom(ndev)) {
u32 ntb_cntl;
ntb_cntl = readl(ndev->reg_ofs.lnk_cntl);
if (ntb_cntl & BWD_CNTL_LINK_DOWN)
link_state = NTB_LINK_DOWN;
else
link_state = NTB_LINK_UP;
} else {
u16 status;
int rc;
rc = pci_read_config_word(ndev->pdev, SNB_LINK_STATUS_OFFSET,
&status);
if (rc)
return rc;
if (status & NTB_LINK_STATUS_ACTIVE)
link_state = NTB_LINK_UP;
else
link_state = NTB_LINK_DOWN;
}
ntb_link_event(ndev, link_state);
return 0;
}
static void bwd_link_recovery(struct work_struct *work)
{
struct ntb_device *ndev = container_of(work, struct ntb_device,
lr_timer.work);
u32 status32;
bwd_recover_link(ndev);
/* There is a potential race between the 2 NTB devices recovering at the
* same time. If the times are the same, the link will not recover and
* the driver will be stuck in this loop forever. Add a random interval
* to the recovery time to prevent this race.
*/
msleep(BWD_LINK_RECOVERY_TIME + prandom_u32() % BWD_LINK_RECOVERY_TIME);
status32 = readl(ndev->reg_base + BWD_LTSSMSTATEJMP_OFFSET);
if (status32 & BWD_LTSSMSTATEJMP_FORCEDETECT)
goto retry;
status32 = readl(ndev->reg_base + BWD_IBSTERRRCRVSTS0_OFFSET);
if (status32 & BWD_IBIST_ERR_OFLOW)
goto retry;
status32 = readl(ndev->reg_ofs.lnk_cntl);
if (!(status32 & BWD_CNTL_LINK_DOWN)) {
unsigned char speed, width;
u16 status16;
status16 = readw(ndev->reg_ofs.lnk_stat);
width = (status16 & NTB_LINK_WIDTH_MASK) >> 4;
speed = (status16 & NTB_LINK_SPEED_MASK);
if (ndev->link_width != width || ndev->link_speed != speed)
goto retry;
}
schedule_delayed_work(&ndev->hb_timer, NTB_HB_TIMEOUT);
return;
retry:
schedule_delayed_work(&ndev->lr_timer, NTB_HB_TIMEOUT);
}
/* BWD doesn't have link status interrupt, poll on that platform */
static void bwd_link_poll(struct work_struct *work)
{
struct ntb_device *ndev = container_of(work, struct ntb_device,
hb_timer.work);
unsigned long ts = jiffies;
/* If we haven't gotten an interrupt in a while, check the BWD link
* status bit
*/
if (ts > ndev->last_ts + NTB_HB_TIMEOUT) {
int rc = ntb_link_status(ndev);
if (rc)
dev_err(&ndev->pdev->dev,
"Error determining link status\n");
/* Check to see if a link error is the cause of the link down */
if (ndev->link_status == NTB_LINK_DOWN) {
u32 status32 = readl(ndev->reg_base +
BWD_LTSSMSTATEJMP_OFFSET);
if (status32 & BWD_LTSSMSTATEJMP_FORCEDETECT) {
schedule_delayed_work(&ndev->lr_timer, 0);
return;
}
}
}
schedule_delayed_work(&ndev->hb_timer, NTB_HB_TIMEOUT);
}
static int ntb_xeon_setup(struct ntb_device *ndev)
{
switch (ndev->conn_type) {
case NTB_CONN_B2B:
ndev->reg_ofs.ldb = ndev->reg_base + SNB_PDOORBELL_OFFSET;
ndev->reg_ofs.ldb_mask = ndev->reg_base + SNB_PDBMSK_OFFSET;
ndev->reg_ofs.spad_read = ndev->reg_base + SNB_SPAD_OFFSET;
ndev->reg_ofs.bar2_xlat = ndev->reg_base + SNB_SBAR2XLAT_OFFSET;
ndev->reg_ofs.bar4_xlat = ndev->reg_base + SNB_SBAR4XLAT_OFFSET;
if (ndev->split_bar)
ndev->reg_ofs.bar5_xlat =
ndev->reg_base + SNB_SBAR5XLAT_OFFSET;
ndev->limits.max_spads = SNB_MAX_B2B_SPADS;
/* There is a Xeon hardware errata related to writes to
* SDOORBELL or B2BDOORBELL in conjunction with inbound access
* to NTB MMIO Space, which may hang the system. To workaround
* this use the second memory window to access the interrupt and
* scratch pad registers on the remote system.
*/
if (ndev->wa_flags & WA_SNB_ERR) {
if (!ndev->mw[ndev->limits.max_mw - 1].bar_sz)
return -EINVAL;
ndev->limits.max_db_bits = SNB_MAX_DB_BITS;
ndev->reg_ofs.spad_write =
ndev->mw[ndev->limits.max_mw - 1].vbase +
SNB_SPAD_OFFSET;
ndev->reg_ofs.rdb =
ndev->mw[ndev->limits.max_mw - 1].vbase +
SNB_PDOORBELL_OFFSET;
/* Set the Limit register to 4k, the minimum size, to
* prevent an illegal access
*/
writeq(ndev->mw[1].bar_sz + 0x1000, ndev->reg_base +
SNB_PBAR4LMT_OFFSET);
/* HW errata on the Limit registers. They can only be
* written when the base register is 4GB aligned and
* < 32bit. This should already be the case based on
* the driver defaults, but write the Limit registers
* first just in case.
*/
ndev->limits.max_mw = SNB_ERRATA_MAX_MW;
} else {
/* HW Errata on bit 14 of b2bdoorbell register. Writes
* will not be mirrored to the remote system. Shrink
* the number of bits by one, since bit 14 is the last
* bit.
*/
ndev->limits.max_db_bits = SNB_MAX_DB_BITS - 1;
ndev->reg_ofs.spad_write = ndev->reg_base +
SNB_B2B_SPAD_OFFSET;
ndev->reg_ofs.rdb = ndev->reg_base +
SNB_B2B_DOORBELL_OFFSET;
/* Disable the Limit register, just incase it is set to
* something silly. A 64bit write should handle it
* regardless of whether it has a split BAR or not.
*/
writeq(0, ndev->reg_base + SNB_PBAR4LMT_OFFSET);
/* HW errata on the Limit registers. They can only be
* written when the base register is 4GB aligned and
* < 32bit. This should already be the case based on
* the driver defaults, but write the Limit registers
* first just in case.
*/
if (ndev->split_bar)
ndev->limits.max_mw = HSX_SPLITBAR_MAX_MW;
else
ndev->limits.max_mw = SNB_MAX_MW;
}
/* The Xeon errata workaround requires setting SBAR Base
* addresses to known values, so that the PBAR XLAT can be
* pointed at SBAR0 of the remote system.
*/
if (ndev->dev_type == NTB_DEV_USD) {
writeq(SNB_MBAR23_DSD_ADDR, ndev->reg_base +
SNB_PBAR2XLAT_OFFSET);
if (ndev->wa_flags & WA_SNB_ERR)
writeq(SNB_MBAR01_DSD_ADDR, ndev->reg_base +
SNB_PBAR4XLAT_OFFSET);
else {
if (ndev->split_bar) {
writel(SNB_MBAR4_DSD_ADDR,
ndev->reg_base +
SNB_PBAR4XLAT_OFFSET);
writel(SNB_MBAR5_DSD_ADDR,
ndev->reg_base +
SNB_PBAR5XLAT_OFFSET);
} else
writeq(SNB_MBAR4_DSD_ADDR,
ndev->reg_base +
SNB_PBAR4XLAT_OFFSET);
/* B2B_XLAT_OFFSET is a 64bit register, but can
* only take 32bit writes
*/
writel(SNB_MBAR01_DSD_ADDR & 0xffffffff,
ndev->reg_base + SNB_B2B_XLAT_OFFSETL);
writel(SNB_MBAR01_DSD_ADDR >> 32,
ndev->reg_base + SNB_B2B_XLAT_OFFSETU);
}
writeq(SNB_MBAR01_USD_ADDR, ndev->reg_base +
SNB_SBAR0BASE_OFFSET);
writeq(SNB_MBAR23_USD_ADDR, ndev->reg_base +
SNB_SBAR2BASE_OFFSET);
if (ndev->split_bar) {
writel(SNB_MBAR4_USD_ADDR, ndev->reg_base +
SNB_SBAR4BASE_OFFSET);
writel(SNB_MBAR5_USD_ADDR, ndev->reg_base +
SNB_SBAR5BASE_OFFSET);
} else
writeq(SNB_MBAR4_USD_ADDR, ndev->reg_base +
SNB_SBAR4BASE_OFFSET);
} else {
writeq(SNB_MBAR23_USD_ADDR, ndev->reg_base +
SNB_PBAR2XLAT_OFFSET);
if (ndev->wa_flags & WA_SNB_ERR)
writeq(SNB_MBAR01_USD_ADDR, ndev->reg_base +
SNB_PBAR4XLAT_OFFSET);
else {
if (ndev->split_bar) {
writel(SNB_MBAR4_USD_ADDR,
ndev->reg_base +
SNB_PBAR4XLAT_OFFSET);
writel(SNB_MBAR5_USD_ADDR,
ndev->reg_base +
SNB_PBAR5XLAT_OFFSET);
} else
writeq(SNB_MBAR4_USD_ADDR,
ndev->reg_base +
SNB_PBAR4XLAT_OFFSET);
/*
* B2B_XLAT_OFFSET is a 64bit register, but can
* only take 32bit writes
*/
writel(SNB_MBAR01_USD_ADDR & 0xffffffff,
ndev->reg_base + SNB_B2B_XLAT_OFFSETL);
writel(SNB_MBAR01_USD_ADDR >> 32,
ndev->reg_base + SNB_B2B_XLAT_OFFSETU);
}
writeq(SNB_MBAR01_DSD_ADDR, ndev->reg_base +
SNB_SBAR0BASE_OFFSET);
writeq(SNB_MBAR23_DSD_ADDR, ndev->reg_base +
SNB_SBAR2BASE_OFFSET);
if (ndev->split_bar) {
writel(SNB_MBAR4_DSD_ADDR, ndev->reg_base +
SNB_SBAR4BASE_OFFSET);
writel(SNB_MBAR5_DSD_ADDR, ndev->reg_base +
SNB_SBAR5BASE_OFFSET);
} else
writeq(SNB_MBAR4_DSD_ADDR, ndev->reg_base +
SNB_SBAR4BASE_OFFSET);
}
break;
case NTB_CONN_RP:
if (ndev->wa_flags & WA_SNB_ERR) {
dev_err(&ndev->pdev->dev,
"NTB-RP disabled due to hardware errata.\n");
return -EINVAL;
}
/* Scratch pads need to have exclusive access from the primary
* or secondary side. Halve the num spads so that each side can
* have an equal amount.
*/
ndev->limits.max_spads = SNB_MAX_COMPAT_SPADS / 2;
ndev->limits.max_db_bits = SNB_MAX_DB_BITS;
/* Note: The SDOORBELL is the cause of the errata. You REALLY
* don't want to touch it.
*/
ndev->reg_ofs.rdb = ndev->reg_base + SNB_SDOORBELL_OFFSET;
ndev->reg_ofs.ldb = ndev->reg_base + SNB_PDOORBELL_OFFSET;
ndev->reg_ofs.ldb_mask = ndev->reg_base + SNB_PDBMSK_OFFSET;
/* Offset the start of the spads to correspond to whether it is
* primary or secondary
*/
ndev->reg_ofs.spad_write = ndev->reg_base + SNB_SPAD_OFFSET +
ndev->limits.max_spads * 4;
ndev->reg_ofs.spad_read = ndev->reg_base + SNB_SPAD_OFFSET;
ndev->reg_ofs.bar2_xlat = ndev->reg_base + SNB_SBAR2XLAT_OFFSET;
ndev->reg_ofs.bar4_xlat = ndev->reg_base + SNB_SBAR4XLAT_OFFSET;
if (ndev->split_bar) {
ndev->reg_ofs.bar5_xlat =
ndev->reg_base + SNB_SBAR5XLAT_OFFSET;
ndev->limits.max_mw = HSX_SPLITBAR_MAX_MW;
} else
ndev->limits.max_mw = SNB_MAX_MW;
break;
case NTB_CONN_TRANSPARENT:
if (ndev->wa_flags & WA_SNB_ERR) {
dev_err(&ndev->pdev->dev,
"NTB-TRANSPARENT disabled due to hardware errata.\n");
return -EINVAL;
}
/* Scratch pads need to have exclusive access from the primary
* or secondary side. Halve the num spads so that each side can
* have an equal amount.
*/
ndev->limits.max_spads = SNB_MAX_COMPAT_SPADS / 2;
ndev->limits.max_db_bits = SNB_MAX_DB_BITS;
ndev->reg_ofs.rdb = ndev->reg_base + SNB_PDOORBELL_OFFSET;
ndev->reg_ofs.ldb = ndev->reg_base + SNB_SDOORBELL_OFFSET;
ndev->reg_ofs.ldb_mask = ndev->reg_base + SNB_SDBMSK_OFFSET;
ndev->reg_ofs.spad_write = ndev->reg_base + SNB_SPAD_OFFSET;
/* Offset the start of the spads to correspond to whether it is
* primary or secondary
*/
ndev->reg_ofs.spad_read = ndev->reg_base + SNB_SPAD_OFFSET +
ndev->limits.max_spads * 4;
ndev->reg_ofs.bar2_xlat = ndev->reg_base + SNB_PBAR2XLAT_OFFSET;
ndev->reg_ofs.bar4_xlat = ndev->reg_base + SNB_PBAR4XLAT_OFFSET;
if (ndev->split_bar) {
ndev->reg_ofs.bar5_xlat =
ndev->reg_base + SNB_PBAR5XLAT_OFFSET;
ndev->limits.max_mw = HSX_SPLITBAR_MAX_MW;
} else
ndev->limits.max_mw = SNB_MAX_MW;
break;
default:
/*
* we should never hit this. the detect function should've
* take cared of everything.
*/
return -EINVAL;
}
ndev->reg_ofs.lnk_cntl = ndev->reg_base + SNB_NTBCNTL_OFFSET;
ndev->reg_ofs.lnk_stat = ndev->reg_base + SNB_SLINK_STATUS_OFFSET;
ndev->reg_ofs.spci_cmd = ndev->reg_base + SNB_PCICMD_OFFSET;
ndev->limits.msix_cnt = SNB_MSIX_CNT;
ndev->bits_per_vector = SNB_DB_BITS_PER_VEC;
return 0;
}
static int ntb_bwd_setup(struct ntb_device *ndev)
{
int rc;
u32 val;
ndev->hw_type = BWD_HW;
rc = pci_read_config_dword(ndev->pdev, NTB_PPD_OFFSET, &val);
if (rc)
return rc;
switch ((val & BWD_PPD_CONN_TYPE) >> 8) {
case NTB_CONN_B2B:
ndev->conn_type = NTB_CONN_B2B;
break;
case NTB_CONN_RP:
default:
dev_err(&ndev->pdev->dev, "Unsupported NTB configuration\n");
return -EINVAL;
}
if (val & BWD_PPD_DEV_TYPE)
ndev->dev_type = NTB_DEV_DSD;
else
ndev->dev_type = NTB_DEV_USD;
/* Initiate PCI-E link training */
rc = pci_write_config_dword(ndev->pdev, NTB_PPD_OFFSET,
val | BWD_PPD_INIT_LINK);
if (rc)
return rc;
ndev->reg_ofs.ldb = ndev->reg_base + BWD_PDOORBELL_OFFSET;
ndev->reg_ofs.ldb_mask = ndev->reg_base + BWD_PDBMSK_OFFSET;
ndev->reg_ofs.rdb = ndev->reg_base + BWD_B2B_DOORBELL_OFFSET;
ndev->reg_ofs.bar2_xlat = ndev->reg_base + BWD_SBAR2XLAT_OFFSET;
ndev->reg_ofs.bar4_xlat = ndev->reg_base + BWD_SBAR4XLAT_OFFSET;
ndev->reg_ofs.lnk_cntl = ndev->reg_base + BWD_NTBCNTL_OFFSET;
ndev->reg_ofs.lnk_stat = ndev->reg_base + BWD_LINK_STATUS_OFFSET;
ndev->reg_ofs.spad_read = ndev->reg_base + BWD_SPAD_OFFSET;
ndev->reg_ofs.spad_write = ndev->reg_base + BWD_B2B_SPAD_OFFSET;
ndev->reg_ofs.spci_cmd = ndev->reg_base + BWD_PCICMD_OFFSET;
ndev->limits.max_mw = BWD_MAX_MW;
ndev->limits.max_spads = BWD_MAX_SPADS;
ndev->limits.max_db_bits = BWD_MAX_DB_BITS;
ndev->limits.msix_cnt = BWD_MSIX_CNT;
ndev->bits_per_vector = BWD_DB_BITS_PER_VEC;
/* Since bwd doesn't have a link interrupt, setup a poll timer */
INIT_DELAYED_WORK(&ndev->hb_timer, bwd_link_poll);
INIT_DELAYED_WORK(&ndev->lr_timer, bwd_link_recovery);
schedule_delayed_work(&ndev->hb_timer, NTB_HB_TIMEOUT);
return 0;
}
static int ntb_device_setup(struct ntb_device *ndev)
{
int rc;
if (is_ntb_xeon(ndev))
rc = ntb_xeon_setup(ndev);
else if (is_ntb_atom(ndev))
rc = ntb_bwd_setup(ndev);
else
rc = -ENODEV;
if (rc)
return rc;
if (ndev->conn_type == NTB_CONN_B2B)
/* Enable Bus Master and Memory Space on the secondary side */
writew(PCI_COMMAND_MEMORY | PCI_COMMAND_MASTER,
ndev->reg_ofs.spci_cmd);
return 0;
}
static void ntb_device_free(struct ntb_device *ndev)
{
if (is_ntb_atom(ndev)) {
cancel_delayed_work_sync(&ndev->hb_timer);
cancel_delayed_work_sync(&ndev->lr_timer);
}
}
static irqreturn_t bwd_callback_msix_irq(int irq, void *data)
{
struct ntb_db_cb *db_cb = data;
struct ntb_device *ndev = db_cb->ndev;
unsigned long mask;
dev_dbg(&ndev->pdev->dev, "MSI-X irq %d received for DB %d\n", irq,
db_cb->db_num);
mask = readw(ndev->reg_ofs.ldb_mask);
set_bit(db_cb->db_num * ndev->bits_per_vector, &mask);
writew(mask, ndev->reg_ofs.ldb_mask);
tasklet_schedule(&db_cb->irq_work);
/* No need to check for the specific HB irq, any interrupt means
* we're connected.
*/
ndev->last_ts = jiffies;
writeq((u64) 1 << db_cb->db_num, ndev->reg_ofs.ldb);
return IRQ_HANDLED;
}
static irqreturn_t xeon_callback_msix_irq(int irq, void *data)
{
struct ntb_db_cb *db_cb = data;
struct ntb_device *ndev = db_cb->ndev;
unsigned long mask;
dev_dbg(&ndev->pdev->dev, "MSI-X irq %d received for DB %d\n", irq,
db_cb->db_num);
mask = readw(ndev->reg_ofs.ldb_mask);
set_bit(db_cb->db_num * ndev->bits_per_vector, &mask);
writew(mask, ndev->reg_ofs.ldb_mask);
tasklet_schedule(&db_cb->irq_work);
/* On Sandybridge, there are 16 bits in the interrupt register
* but only 4 vectors. So, 5 bits are assigned to the first 3
* vectors, with the 4th having a single bit for link
* interrupts.
*/
writew(((1 << ndev->bits_per_vector) - 1) <<
(db_cb->db_num * ndev->bits_per_vector), ndev->reg_ofs.ldb);
return IRQ_HANDLED;
}
/* Since we do not have a HW doorbell in BWD, this is only used in JF/JT */
static irqreturn_t xeon_event_msix_irq(int irq, void *dev)
{
struct ntb_device *ndev = dev;
int rc;
dev_dbg(&ndev->pdev->dev, "MSI-X irq %d received for Events\n", irq);
rc = ntb_link_status(ndev);
if (rc)
dev_err(&ndev->pdev->dev, "Error determining link status\n");
/* bit 15 is always the link bit */
writew(1 << SNB_LINK_DB, ndev->reg_ofs.ldb);
return IRQ_HANDLED;
}
static irqreturn_t ntb_interrupt(int irq, void *dev)
{
struct ntb_device *ndev = dev;
unsigned int i = 0;
if (is_ntb_atom(ndev)) {
u64 ldb = readq(ndev->reg_ofs.ldb);
dev_dbg(&ndev->pdev->dev, "irq %d - ldb = %Lx\n", irq, ldb);
while (ldb) {
i = __ffs(ldb);
ldb &= ldb - 1;
bwd_callback_msix_irq(irq, &ndev->db_cb[i]);
}
} else {
u16 ldb = readw(ndev->reg_ofs.ldb);
dev_dbg(&ndev->pdev->dev, "irq %d - ldb = %x\n", irq, ldb);
if (ldb & SNB_DB_HW_LINK) {
xeon_event_msix_irq(irq, dev);
ldb &= ~SNB_DB_HW_LINK;
}
while (ldb) {
i = __ffs(ldb);
ldb &= ldb - 1;
xeon_callback_msix_irq(irq, &ndev->db_cb[i]);
}
}
return IRQ_HANDLED;
}
static int ntb_setup_snb_msix(struct ntb_device *ndev, int msix_entries)
{
struct pci_dev *pdev = ndev->pdev;
struct msix_entry *msix;
int rc, i;
if (msix_entries < ndev->limits.msix_cnt)
return -ENOSPC;
rc = pci_enable_msix_exact(pdev, ndev->msix_entries, msix_entries);
if (rc < 0)
return rc;
for (i = 0; i < msix_entries; i++) {
msix = &ndev->msix_entries[i];
WARN_ON(!msix->vector);
if (i == msix_entries - 1) {
rc = request_irq(msix->vector,
xeon_event_msix_irq, 0,
"ntb-event-msix", ndev);
if (rc)
goto err;
} else {
rc = request_irq(msix->vector,
xeon_callback_msix_irq, 0,
"ntb-callback-msix",
&ndev->db_cb[i]);
if (rc)
goto err;
}
}
ndev->num_msix = msix_entries;
ndev->max_cbs = msix_entries - 1;
return 0;
err:
while (--i >= 0) {
/* Code never reaches here for entry nr 'ndev->num_msix - 1' */
msix = &ndev->msix_entries[i];
free_irq(msix->vector, &ndev->db_cb[i]);
}
pci_disable_msix(pdev);
ndev->num_msix = 0;
return rc;
}
static int ntb_setup_bwd_msix(struct ntb_device *ndev, int msix_entries)
{
struct pci_dev *pdev = ndev->pdev;
struct msix_entry *msix;
int rc, i;
msix_entries = pci_enable_msix_range(pdev, ndev->msix_entries,
1, msix_entries);
if (msix_entries < 0)
return msix_entries;
for (i = 0; i < msix_entries; i++) {
msix = &ndev->msix_entries[i];
WARN_ON(!msix->vector);
rc = request_irq(msix->vector, bwd_callback_msix_irq, 0,
"ntb-callback-msix", &ndev->db_cb[i]);
if (rc)
goto err;
}
ndev->num_msix = msix_entries;
ndev->max_cbs = msix_entries;
return 0;
err:
while (--i >= 0)
free_irq(msix->vector, &ndev->db_cb[i]);
pci_disable_msix(pdev);
ndev->num_msix = 0;
return rc;
}
static int ntb_setup_msix(struct ntb_device *ndev)
{
struct pci_dev *pdev = ndev->pdev;
int msix_entries;
int rc, i;
msix_entries = pci_msix_vec_count(pdev);
if (msix_entries < 0) {
rc = msix_entries;
goto err;
} else if (msix_entries > ndev->limits.msix_cnt) {
rc = -EINVAL;
goto err;
}
ndev->msix_entries = kmalloc(sizeof(struct msix_entry) * msix_entries,
GFP_KERNEL);
if (!ndev->msix_entries) {
rc = -ENOMEM;
goto err;
}
for (i = 0; i < msix_entries; i++)
ndev->msix_entries[i].entry = i;
if (is_ntb_atom(ndev))
rc = ntb_setup_bwd_msix(ndev, msix_entries);
else
rc = ntb_setup_snb_msix(ndev, msix_entries);
if (rc)
goto err1;
return 0;
err1:
kfree(ndev->msix_entries);
err:
dev_err(&pdev->dev, "Error allocating MSI-X interrupt\n");
return rc;
}
static int ntb_setup_msi(struct ntb_device *ndev)
{
struct pci_dev *pdev = ndev->pdev;
int rc;
rc = pci_enable_msi(pdev);
if (rc)
return rc;
rc = request_irq(pdev->irq, ntb_interrupt, 0, "ntb-msi", ndev);
if (rc) {
pci_disable_msi(pdev);
dev_err(&pdev->dev, "Error allocating MSI interrupt\n");
return rc;
}
return 0;
}
static int ntb_setup_intx(struct ntb_device *ndev)
{
struct pci_dev *pdev = ndev->pdev;
int rc;
/* Verify intx is enabled */
pci_intx(pdev, 1);
rc = request_irq(pdev->irq, ntb_interrupt, IRQF_SHARED, "ntb-intx",
ndev);
if (rc)
return rc;
return 0;
}
static int ntb_setup_interrupts(struct ntb_device *ndev)
{
int rc;
/* On BWD, disable all interrupts. On SNB, disable all but Link
* Interrupt. The rest will be unmasked as callbacks are registered.
*/
if (is_ntb_atom(ndev))
writeq(~0, ndev->reg_ofs.ldb_mask);
else {
u16 var = 1 << SNB_LINK_DB;
writew(~var, ndev->reg_ofs.ldb_mask);
}
rc = ntb_setup_msix(ndev);
if (!rc)
goto done;
ndev->bits_per_vector = 1;
ndev->max_cbs = ndev->limits.max_db_bits;
rc = ntb_setup_msi(ndev);
if (!rc)
goto done;
rc = ntb_setup_intx(ndev);
if (rc) {
dev_err(&ndev->pdev->dev, "no usable interrupts\n");
return rc;
}
done:
return 0;
}
static void ntb_free_interrupts(struct ntb_device *ndev)
{
struct pci_dev *pdev = ndev->pdev;
/* mask interrupts */
if (is_ntb_atom(ndev))
writeq(~0, ndev->reg_ofs.ldb_mask);
else
writew(~0, ndev->reg_ofs.ldb_mask);
if (ndev->num_msix) {
struct msix_entry *msix;
u32 i;
for (i = 0; i < ndev->num_msix; i++) {
msix = &ndev->msix_entries[i];
if (is_ntb_xeon(ndev) && i == ndev->num_msix - 1)
free_irq(msix->vector, ndev);
else
free_irq(msix->vector, &ndev->db_cb[i]);
}
pci_disable_msix(pdev);
kfree(ndev->msix_entries);
} else {
free_irq(pdev->irq, ndev);
if (pci_dev_msi_enabled(pdev))
pci_disable_msi(pdev);
}
}
static int ntb_create_callbacks(struct ntb_device *ndev)
{
int i;
/* Chicken-egg issue. We won't know how many callbacks are necessary
* until we see how many MSI-X vectors we get, but these pointers need
* to be passed into the MSI-X register function. So, we allocate the
* max, knowing that they might not all be used, to work around this.
*/
ndev->db_cb = kcalloc(ndev->limits.max_db_bits,
sizeof(struct ntb_db_cb),
GFP_KERNEL);
if (!ndev->db_cb)
return -ENOMEM;
for (i = 0; i < ndev->limits.max_db_bits; i++) {
ndev->db_cb[i].db_num = i;
ndev->db_cb[i].ndev = ndev;
}
return 0;
}
static void ntb_free_callbacks(struct ntb_device *ndev)
{
int i;
for (i = 0; i < ndev->limits.max_db_bits; i++)
ntb_unregister_db_callback(ndev, i);
kfree(ndev->db_cb);
}
static ssize_t ntb_debugfs_read(struct file *filp, char __user *ubuf,
size_t count, loff_t *offp)
{
struct ntb_device *ndev;
char *buf;
ssize_t ret, offset, out_count;
out_count = 500;
buf = kmalloc(out_count, GFP_KERNEL);
if (!buf)
return -ENOMEM;
ndev = filp->private_data;
offset = 0;
offset += snprintf(buf + offset, out_count - offset,
"NTB Device Information:\n");
offset += snprintf(buf + offset, out_count - offset,
"Connection Type - \t\t%s\n",
ndev->conn_type == NTB_CONN_TRANSPARENT ?
"Transparent" : (ndev->conn_type == NTB_CONN_B2B) ?
"Back to back" : "Root Port");
offset += snprintf(buf + offset, out_count - offset,
"Device Type - \t\t\t%s\n",
ndev->dev_type == NTB_DEV_USD ?
"DSD/USP" : "USD/DSP");
offset += snprintf(buf + offset, out_count - offset,
"Max Number of Callbacks - \t%u\n",
ntb_max_cbs(ndev));
offset += snprintf(buf + offset, out_count - offset,
"Link Status - \t\t\t%s\n",
ntb_hw_link_status(ndev) ? "Up" : "Down");
if (ntb_hw_link_status(ndev)) {
offset += snprintf(buf + offset, out_count - offset,
"Link Speed - \t\t\tPCI-E Gen %u\n",
ndev->link_speed);
offset += snprintf(buf + offset, out_count - offset,
"Link Width - \t\t\tx%u\n",
ndev->link_width);
}
if (is_ntb_xeon(ndev)) {
u32 status32;
u16 status16;
int rc;
offset += snprintf(buf + offset, out_count - offset,
"\nNTB Device Statistics:\n");
offset += snprintf(buf + offset, out_count - offset,
"Upstream Memory Miss - \t%u\n",
readw(ndev->reg_base +
SNB_USMEMMISS_OFFSET));
offset += snprintf(buf + offset, out_count - offset,
"\nNTB Hardware Errors:\n");
rc = pci_read_config_word(ndev->pdev, SNB_DEVSTS_OFFSET,
&status16);
if (!rc)
offset += snprintf(buf + offset, out_count - offset,
"DEVSTS - \t%#06x\n", status16);
rc = pci_read_config_word(ndev->pdev, SNB_LINK_STATUS_OFFSET,
&status16);
if (!rc)
offset += snprintf(buf + offset, out_count - offset,
"LNKSTS - \t%#06x\n", status16);
rc = pci_read_config_dword(ndev->pdev, SNB_UNCERRSTS_OFFSET,
&status32);
if (!rc)
offset += snprintf(buf + offset, out_count - offset,
"UNCERRSTS - \t%#010x\n", status32);
rc = pci_read_config_dword(ndev->pdev, SNB_CORERRSTS_OFFSET,
&status32);
if (!rc)
offset += snprintf(buf + offset, out_count - offset,
"CORERRSTS - \t%#010x\n", status32);
}
if (offset > out_count)
offset = out_count;
ret = simple_read_from_buffer(ubuf, count, offp, buf, offset);
kfree(buf);
return ret;
}
static const struct file_operations ntb_debugfs_info = {
.owner = THIS_MODULE,
.open = simple_open,
.read = ntb_debugfs_read,
};
static void ntb_setup_debugfs(struct ntb_device *ndev)
{
if (!debugfs_initialized())
return;
if (!debugfs_dir)
debugfs_dir = debugfs_create_dir(KBUILD_MODNAME, NULL);
ndev->debugfs_dir = debugfs_create_dir(pci_name(ndev->pdev),
debugfs_dir);
if (ndev->debugfs_dir)
ndev->debugfs_info = debugfs_create_file("info", S_IRUSR,
ndev->debugfs_dir,
ndev,
&ntb_debugfs_info);
}
static void ntb_free_debugfs(struct ntb_device *ndev)
{
debugfs_remove_recursive(ndev->debugfs_dir);
if (debugfs_dir && simple_empty(debugfs_dir)) {
debugfs_remove_recursive(debugfs_dir);
debugfs_dir = NULL;
}
}
static void ntb_hw_link_up(struct ntb_device *ndev)
{
if (ndev->conn_type == NTB_CONN_TRANSPARENT)
ntb_link_event(ndev, NTB_LINK_UP);
else {
u32 ntb_cntl;
/* Let's bring the NTB link up */
ntb_cntl = readl(ndev->reg_ofs.lnk_cntl);
ntb_cntl &= ~(NTB_CNTL_LINK_DISABLE | NTB_CNTL_CFG_LOCK);
ntb_cntl |= NTB_CNTL_P2S_BAR23_SNOOP | NTB_CNTL_S2P_BAR23_SNOOP;
ntb_cntl |= NTB_CNTL_P2S_BAR4_SNOOP | NTB_CNTL_S2P_BAR4_SNOOP;
if (ndev->split_bar)
ntb_cntl |= NTB_CNTL_P2S_BAR5_SNOOP |
NTB_CNTL_S2P_BAR5_SNOOP;
writel(ntb_cntl, ndev->reg_ofs.lnk_cntl);
}
}
static void ntb_hw_link_down(struct ntb_device *ndev)
{
u32 ntb_cntl;
if (ndev->conn_type == NTB_CONN_TRANSPARENT) {
ntb_link_event(ndev, NTB_LINK_DOWN);
return;
}
/* Bring NTB link down */
ntb_cntl = readl(ndev->reg_ofs.lnk_cntl);
ntb_cntl &= ~(NTB_CNTL_P2S_BAR23_SNOOP | NTB_CNTL_S2P_BAR23_SNOOP);
ntb_cntl &= ~(NTB_CNTL_P2S_BAR4_SNOOP | NTB_CNTL_S2P_BAR4_SNOOP);
if (ndev->split_bar)
ntb_cntl &= ~(NTB_CNTL_P2S_BAR5_SNOOP |
NTB_CNTL_S2P_BAR5_SNOOP);
ntb_cntl |= NTB_CNTL_LINK_DISABLE | NTB_CNTL_CFG_LOCK;
writel(ntb_cntl, ndev->reg_ofs.lnk_cntl);
}
static void ntb_max_mw_detect(struct ntb_device *ndev)
{
if (ndev->split_bar)
ndev->limits.max_mw = HSX_SPLITBAR_MAX_MW;
else
ndev->limits.max_mw = SNB_MAX_MW;
}
static int ntb_xeon_detect(struct ntb_device *ndev)
{
int rc, bars_mask;
u32 bars;
u8 ppd;
ndev->hw_type = SNB_HW;
rc = pci_read_config_byte(ndev->pdev, NTB_PPD_OFFSET, &ppd);
if (rc)
return -EIO;
if (ppd & SNB_PPD_DEV_TYPE)
ndev->dev_type = NTB_DEV_USD;
else
ndev->dev_type = NTB_DEV_DSD;
ndev->split_bar = (ppd & SNB_PPD_SPLIT_BAR) ? 1 : 0;
switch (ppd & SNB_PPD_CONN_TYPE) {
case NTB_CONN_B2B:
dev_info(&ndev->pdev->dev, "Conn Type = B2B\n");
ndev->conn_type = NTB_CONN_B2B;
break;
case NTB_CONN_RP:
dev_info(&ndev->pdev->dev, "Conn Type = RP\n");
ndev->conn_type = NTB_CONN_RP;
break;
case NTB_CONN_TRANSPARENT:
dev_info(&ndev->pdev->dev, "Conn Type = TRANSPARENT\n");
ndev->conn_type = NTB_CONN_TRANSPARENT;
/*
* This mode is default to USD/DSP. HW does not report
* properly in transparent mode as it has no knowledge of
* NTB. We will just force correct here.
*/
ndev->dev_type = NTB_DEV_USD;
/*
* This is a way for transparent BAR to figure out if we
* are doing split BAR or not. There is no way for the hw
* on the transparent side to know and set the PPD.
*/
bars_mask = pci_select_bars(ndev->pdev, IORESOURCE_MEM);
bars = hweight32(bars_mask);
if (bars == (HSX_SPLITBAR_MAX_MW + 1))
ndev->split_bar = 1;
break;
default:
dev_err(&ndev->pdev->dev, "Unknown PPD %x\n", ppd);
return -ENODEV;
}
ntb_max_mw_detect(ndev);
return 0;
}
static int ntb_atom_detect(struct ntb_device *ndev)
{
int rc;
u32 ppd;
ndev->hw_type = BWD_HW;
ndev->limits.max_mw = BWD_MAX_MW;
rc = pci_read_config_dword(ndev->pdev, NTB_PPD_OFFSET, &ppd);
if (rc)
return rc;
switch ((ppd & BWD_PPD_CONN_TYPE) >> 8) {
case NTB_CONN_B2B:
dev_info(&ndev->pdev->dev, "Conn Type = B2B\n");
ndev->conn_type = NTB_CONN_B2B;
break;
case NTB_CONN_RP:
default:
dev_err(&ndev->pdev->dev, "Unsupported NTB configuration\n");
return -EINVAL;
}
if (ppd & BWD_PPD_DEV_TYPE)
ndev->dev_type = NTB_DEV_DSD;
else
ndev->dev_type = NTB_DEV_USD;
return 0;
}
static int ntb_device_detect(struct ntb_device *ndev)
{
int rc;
if (is_ntb_xeon(ndev))
rc = ntb_xeon_detect(ndev);
else if (is_ntb_atom(ndev))
rc = ntb_atom_detect(ndev);
else
rc = -ENODEV;
dev_info(&ndev->pdev->dev, "Device Type = %s\n",
ndev->dev_type == NTB_DEV_USD ? "USD/DSP" : "DSD/USP");
return 0;
}
static int ntb_pci_probe(struct pci_dev *pdev, const struct pci_device_id *id)
{
struct ntb_device *ndev;
int rc, i;
ndev = kzalloc(sizeof(struct ntb_device), GFP_KERNEL);
if (!ndev)
return -ENOMEM;
ndev->pdev = pdev;
ntb_set_errata_flags(ndev);
ndev->link_status = NTB_LINK_DOWN;
pci_set_drvdata(pdev, ndev);
ntb_setup_debugfs(ndev);
rc = pci_enable_device(pdev);
if (rc)
goto err;
pci_set_master(ndev->pdev);
rc = ntb_device_detect(ndev);
if (rc)
goto err;
ndev->mw = kcalloc(ndev->limits.max_mw, sizeof(struct ntb_mw),
GFP_KERNEL);
if (!ndev->mw) {
rc = -ENOMEM;
goto err1;
}
if (ndev->split_bar)
rc = pci_request_selected_regions(pdev, NTB_SPLITBAR_MASK,
KBUILD_MODNAME);
else
rc = pci_request_selected_regions(pdev, NTB_BAR_MASK,
KBUILD_MODNAME);
if (rc)
goto err2;
ndev->reg_base = pci_ioremap_bar(pdev, NTB_BAR_MMIO);
if (!ndev->reg_base) {
dev_warn(&pdev->dev, "Cannot remap BAR 0\n");
rc = -EIO;
goto err3;
}
for (i = 0; i < ndev->limits.max_mw; i++) {
ndev->mw[i].bar_sz = pci_resource_len(pdev, MW_TO_BAR(i));
/*
* with the errata we need to steal last of the memory
* windows for workarounds and they point to MMIO registers.
*/
if ((ndev->wa_flags & WA_SNB_ERR) &&
(i == (ndev->limits.max_mw - 1))) {
ndev->mw[i].vbase =
ioremap_nocache(pci_resource_start(pdev,
MW_TO_BAR(i)),
ndev->mw[i].bar_sz);
} else {
ndev->mw[i].vbase =
ioremap_wc(pci_resource_start(pdev,
MW_TO_BAR(i)),
ndev->mw[i].bar_sz);
}
dev_info(&pdev->dev, "MW %d size %llu\n", i,
(unsigned long long) ndev->mw[i].bar_sz);
if (!ndev->mw[i].vbase) {
dev_warn(&pdev->dev, "Cannot remap BAR %d\n",
MW_TO_BAR(i));
rc = -EIO;
goto err4;
}
}
rc = pci_set_dma_mask(pdev, DMA_BIT_MASK(64));
if (rc) {
rc = pci_set_dma_mask(pdev, DMA_BIT_MASK(32));
if (rc)
goto err4;
dev_warn(&pdev->dev, "Cannot DMA highmem\n");
}
rc = pci_set_consistent_dma_mask(pdev, DMA_BIT_MASK(64));
if (rc) {
rc = pci_set_consistent_dma_mask(pdev, DMA_BIT_MASK(32));
if (rc)
goto err4;
dev_warn(&pdev->dev, "Cannot DMA consistent highmem\n");
}
rc = ntb_device_setup(ndev);
if (rc)
goto err4;
rc = ntb_create_callbacks(ndev);
if (rc)
goto err5;
rc = ntb_setup_interrupts(ndev);
if (rc)
goto err6;
/* The scratchpad registers keep the values between rmmod/insmod,
* blast them now
*/
for (i = 0; i < ndev->limits.max_spads; i++) {
ntb_write_local_spad(ndev, i, 0);
ntb_write_remote_spad(ndev, i, 0);
}
rc = ntb_transport_init(pdev);
if (rc)
goto err7;
ntb_hw_link_up(ndev);
return 0;
err7:
ntb_free_interrupts(ndev);
err6:
ntb_free_callbacks(ndev);
err5:
ntb_device_free(ndev);
err4:
for (i--; i >= 0; i--)
iounmap(ndev->mw[i].vbase);
iounmap(ndev->reg_base);
err3:
if (ndev->split_bar)
pci_release_selected_regions(pdev, NTB_SPLITBAR_MASK);
else
pci_release_selected_regions(pdev, NTB_BAR_MASK);
err2:
kfree(ndev->mw);
err1:
pci_disable_device(pdev);
err:
ntb_free_debugfs(ndev);
kfree(ndev);
dev_err(&pdev->dev, "Error loading %s module\n", KBUILD_MODNAME);
return rc;
}
static void ntb_pci_remove(struct pci_dev *pdev)
{
struct ntb_device *ndev = pci_get_drvdata(pdev);
int i;
ntb_hw_link_down(ndev);
ntb_transport_free(ndev->ntb_transport);
ntb_free_interrupts(ndev);
ntb_free_callbacks(ndev);
ntb_device_free(ndev);
/* need to reset max_mw limits so we can unmap properly */
if (ndev->hw_type == SNB_HW)
ntb_max_mw_detect(ndev);
for (i = 0; i < ndev->limits.max_mw; i++)
iounmap(ndev->mw[i].vbase);
kfree(ndev->mw);
iounmap(ndev->reg_base);
if (ndev->split_bar)
pci_release_selected_regions(pdev, NTB_SPLITBAR_MASK);
else
pci_release_selected_regions(pdev, NTB_BAR_MASK);
pci_disable_device(pdev);
ntb_free_debugfs(ndev);
kfree(ndev);
}
static struct pci_driver ntb_pci_driver = {
.name = KBUILD_MODNAME,
.id_table = ntb_pci_tbl,
.probe = ntb_pci_probe,
.remove = ntb_pci_remove,
};
module_pci_driver(ntb_pci_driver);
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