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* Intel MIC Platform Software Stack (MPSS)
*
* Copyright(c) 2013 Intel Corporation.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License, version 2, as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* The full GNU General Public License is included in this distribution in
* the file called "COPYING".
*
* Disclaimer: The codes contained in these modules may be specific to
* the Intel Software Development Platform codenamed: Knights Ferry, and
* the Intel product codenamed: Knights Corner, and are not backward
* compatible with other Intel products. Additionally, Intel will NOT
* support the codes or instruction set in future products.
*
* Intel MIC Card driver.
*
*/
#include <linux/module.h>
#include <linux/pci.h>
#include <linux/interrupt.h>
#include <linux/reboot.h>
#include <linux/dmaengine.h>
#include <linux/kmod.h>
#include <linux/mic_common.h>
#include "../common/mic_dev.h"
#include "mic_device.h"
static struct mic_driver *g_drv;
static int __init mic_dp_init(void)
{
struct mic_driver *mdrv = g_drv;
struct mic_device *mdev = &mdrv->mdev;
struct mic_bootparam __iomem *bootparam;
u64 lo, hi, dp_dma_addr;
u32 magic;
lo = mic_read_spad(&mdrv->mdev, MIC_DPLO_SPAD);
hi = mic_read_spad(&mdrv->mdev, MIC_DPHI_SPAD);
dp_dma_addr = lo | (hi << 32);
mdrv->dp = mic_card_map(mdev, dp_dma_addr, MIC_DP_SIZE);
if (!mdrv->dp) {
dev_err(mdrv->dev, "Cannot remap Aperture BAR\n");
return -ENOMEM;
}
bootparam = mdrv->dp;
magic = ioread32(&bootparam->magic);
if (MIC_MAGIC != magic) {
dev_err(mdrv->dev, "bootparam magic mismatch 0x%x\n", magic);
return -EIO;
}
return 0;
}
/* Uninitialize the device page */
static void mic_dp_uninit(void)
{
mic_card_unmap(&g_drv->mdev, g_drv->dp);
}
/**
* mic_request_card_irq - request an irq.
*
* @handler: interrupt handler passed to request_threaded_irq.
* @thread_fn: thread fn. passed to request_threaded_irq.
* @name: The ASCII name of the callee requesting the irq.
* @data: private data that is returned back when calling the
* function handler.
* @index: The doorbell index of the requester.
*
* returns: The cookie that is transparent to the caller. Passed
* back when calling mic_free_irq. An appropriate error code
* is returned on failure. Caller needs to use IS_ERR(return_val)
* to check for failure and PTR_ERR(return_val) to obtained the
* error code.
*
*/
struct mic_irq *
mic_request_card_irq(irq_handler_t handler,
irq_handler_t thread_fn, const char *name,
void *data, int index)
{
int rc = 0;
unsigned long cookie;
struct mic_driver *mdrv = g_drv;
rc = request_threaded_irq(mic_db_to_irq(mdrv, index), handler,
thread_fn, 0, name, data);
if (rc) {
dev_err(mdrv->dev, "request_threaded_irq failed rc = %d\n", rc);
goto err;
}
mdrv->irq_info.irq_usage_count[index]++;
cookie = index;
return (struct mic_irq *)cookie;
err:
return ERR_PTR(rc);
}
/**
* mic_free_card_irq - free irq.
*
* @cookie: cookie obtained during a successful call to mic_request_threaded_irq
* @data: private data specified by the calling function during the
* mic_request_threaded_irq
*
* returns: none.
*/
void mic_free_card_irq(struct mic_irq *cookie, void *data)
{
int index;
struct mic_driver *mdrv = g_drv;
index = (unsigned long)cookie & 0xFFFFU;
free_irq(mic_db_to_irq(mdrv, index), data);
mdrv->irq_info.irq_usage_count[index]--;
}
/**
* mic_next_card_db - Get the doorbell with minimum usage count.
*
* Returns the irq index.
*/
int mic_next_card_db(void)
{
int i;
int index = 0;
struct mic_driver *mdrv = g_drv;
for (i = 0; i < mdrv->intr_info.num_intr; i++) {
if (mdrv->irq_info.irq_usage_count[i] <
mdrv->irq_info.irq_usage_count[index])
index = i;
}
return index;
}
/**
* mic_init_irq - Initialize irq information.
*
* Returns 0 in success. Appropriate error code on failure.
*/
static int mic_init_irq(void)
{
struct mic_driver *mdrv = g_drv;
mdrv->irq_info.irq_usage_count = kzalloc((sizeof(u32) *
mdrv->intr_info.num_intr),
GFP_KERNEL);
if (!mdrv->irq_info.irq_usage_count)
return -ENOMEM;
return 0;
}
/**
* mic_uninit_irq - Uninitialize irq information.
*
* None.
*/
static void mic_uninit_irq(void)
{
struct mic_driver *mdrv = g_drv;
kfree(mdrv->irq_info.irq_usage_count);
}
static inline struct mic_driver *scdev_to_mdrv(struct scif_hw_dev *scdev)
{
return dev_get_drvdata(scdev->dev.parent);
}
static struct mic_irq *
___mic_request_irq(struct scif_hw_dev *scdev,
irqreturn_t (*func)(int irq, void *data),
const char *name, void *data,
int db)
{
return mic_request_card_irq(func, NULL, name, data, db);
}
static void
___mic_free_irq(struct scif_hw_dev *scdev,
struct mic_irq *cookie, void *data)
{
return mic_free_card_irq(cookie, data);
}
static void ___mic_ack_interrupt(struct scif_hw_dev *scdev, int num)
{
struct mic_driver *mdrv = scdev_to_mdrv(scdev);
mic_ack_interrupt(&mdrv->mdev);
}
static int ___mic_next_db(struct scif_hw_dev *scdev)
{
return mic_next_card_db();
}
static void ___mic_send_intr(struct scif_hw_dev *scdev, int db)
{
struct mic_driver *mdrv = scdev_to_mdrv(scdev);
mic_send_intr(&mdrv->mdev, db);
}
static void ___mic_send_p2p_intr(struct scif_hw_dev *scdev, int db,
struct mic_mw *mw)
{
mic_send_p2p_intr(db, mw);
}
static void __iomem *
___mic_ioremap(struct scif_hw_dev *scdev,
phys_addr_t pa, size_t len)
{
struct mic_driver *mdrv = scdev_to_mdrv(scdev);
return mic_card_map(&mdrv->mdev, pa, len);
}
static void ___mic_iounmap(struct scif_hw_dev *scdev, void __iomem *va)
{
struct mic_driver *mdrv = scdev_to_mdrv(scdev);
mic_card_unmap(&mdrv->mdev, va);
}
static struct scif_hw_ops scif_hw_ops = {
.request_irq = ___mic_request_irq,
.free_irq = ___mic_free_irq,
.ack_interrupt = ___mic_ack_interrupt,
.next_db = ___mic_next_db,
.send_intr = ___mic_send_intr,
.send_p2p_intr = ___mic_send_p2p_intr,
.ioremap = ___mic_ioremap,
.iounmap = ___mic_iounmap,
};
static inline struct mic_driver *vpdev_to_mdrv(struct vop_device *vpdev)
{
return dev_get_drvdata(vpdev->dev.parent);
}
static struct mic_irq *
__mic_request_irq(struct vop_device *vpdev,
irqreturn_t (*func)(int irq, void *data),
const char *name, void *data, int intr_src)
{
return mic_request_card_irq(func, NULL, name, data, intr_src);
}
static void __mic_free_irq(struct vop_device *vpdev,
struct mic_irq *cookie, void *data)
{
return mic_free_card_irq(cookie, data);
}
static void __mic_ack_interrupt(struct vop_device *vpdev, int num)
{
struct mic_driver *mdrv = vpdev_to_mdrv(vpdev);
mic_ack_interrupt(&mdrv->mdev);
}
static int __mic_next_db(struct vop_device *vpdev)
{
return mic_next_card_db();
}
static void __iomem *__mic_get_remote_dp(struct vop_device *vpdev)
{
struct mic_driver *mdrv = vpdev_to_mdrv(vpdev);
return mdrv->dp;
}
static void __mic_send_intr(struct vop_device *vpdev, int db)
{
struct mic_driver *mdrv = vpdev_to_mdrv(vpdev);
mic_send_intr(&mdrv->mdev, db);
}
static void __iomem *__mic_ioremap(struct vop_device *vpdev,
dma_addr_t pa, size_t len)
{
struct mic_driver *mdrv = vpdev_to_mdrv(vpdev);
return mic_card_map(&mdrv->mdev, pa, len);
}
static void __mic_iounmap(struct vop_device *vpdev, void __iomem *va)
{
struct mic_driver *mdrv = vpdev_to_mdrv(vpdev);
mic_card_unmap(&mdrv->mdev, va);
}
static struct vop_hw_ops vop_hw_ops = {
.request_irq = __mic_request_irq,
.free_irq = __mic_free_irq,
.ack_interrupt = __mic_ack_interrupt,
.next_db = __mic_next_db,
.get_remote_dp = __mic_get_remote_dp,
.send_intr = __mic_send_intr,
.ioremap = __mic_ioremap,
.iounmap = __mic_iounmap,
};
static int mic_request_dma_chans(struct mic_driver *mdrv)
{
dma_cap_mask_t mask;
struct dma_chan *chan;
dma_cap_zero(mask);
dma_cap_set(DMA_MEMCPY, mask);
do {
chan = dma_request_channel(mask, NULL, NULL);
if (chan) {
mdrv->dma_ch[mdrv->num_dma_ch++] = chan;
if (mdrv->num_dma_ch >= MIC_MAX_DMA_CHAN)
break;
}
} while (chan);
dev_info(mdrv->dev, "DMA channels # %d\n", mdrv->num_dma_ch);
return mdrv->num_dma_ch;
}
static void mic_free_dma_chans(struct mic_driver *mdrv)
{
int i = 0;
for (i = 0; i < mdrv->num_dma_ch; i++) {
dma_release_channel(mdrv->dma_ch[i]);
mdrv->dma_ch[i] = NULL;
}
mdrv->num_dma_ch = 0;
}
/*
* mic_driver_init - MIC driver initialization tasks.
*
* Returns 0 in success. Appropriate error code on failure.
*/
int __init mic_driver_init(struct mic_driver *mdrv)
{
int rc;
struct mic_bootparam __iomem *bootparam;
u8 node_id;
g_drv = mdrv;
/* Unloading the card module is not supported. */
if (!try_module_get(mdrv->dev->driver->owner)) {
rc = -ENODEV;
goto done;
}
rc = mic_dp_init();
if (rc)
goto put;
rc = mic_init_irq();
if (rc)
goto dp_uninit;
if (!mic_request_dma_chans(mdrv)) {
rc = -ENODEV;
goto irq_uninit;
}
mdrv->vpdev = vop_register_device(mdrv->dev, VOP_DEV_TRNSP,
NULL, &vop_hw_ops, 0,
NULL, mdrv->dma_ch[0]);
if (IS_ERR(mdrv->vpdev)) {
rc = PTR_ERR(mdrv->vpdev);
goto dma_free;
}
bootparam = mdrv->dp;
node_id = ioread8(&bootparam->node_id);
mdrv->scdev = scif_register_device(mdrv->dev, MIC_SCIF_DEV,
NULL, &scif_hw_ops,
0, node_id, &mdrv->mdev.mmio, NULL,
NULL, mdrv->dp, mdrv->dma_ch,
mdrv->num_dma_ch, true);
if (IS_ERR(mdrv->scdev)) {
rc = PTR_ERR(mdrv->scdev);
goto vop_remove;
}
mic_create_card_debug_dir(mdrv);
done:
return rc;
vop_remove:
vop_unregister_device(mdrv->vpdev);
dma_free:
mic_free_dma_chans(mdrv);
irq_uninit:
mic_uninit_irq();
dp_uninit:
mic_dp_uninit();
put:
module_put(mdrv->dev->driver->owner);
return rc;
}
/*
* mic_driver_uninit - MIC driver uninitialization tasks.
*
* Returns None
*/
void mic_driver_uninit(struct mic_driver *mdrv)
{
mic_delete_card_debug_dir(mdrv);
scif_unregister_device(mdrv->scdev);
vop_unregister_device(mdrv->vpdev);
mic_free_dma_chans(mdrv);
mic_uninit_irq();
mic_dp_uninit();
module_put(mdrv->dev->driver->owner);
}
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