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|
// SPDX-License-Identifier: GPL-2.0
/* Copyright(c) 2019 Intel Corporation. All rights rsvd. */
#include <linux/init.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/pci.h>
#include <linux/io-64-nonatomic-lo-hi.h>
#include <linux/dmaengine.h>
#include <linux/irq.h>
#include <uapi/linux/idxd.h>
#include "../dmaengine.h"
#include "idxd.h"
#include "registers.h"
static void idxd_cmd_exec(struct idxd_device *idxd, int cmd_code, u32 operand,
u32 *status);
static void idxd_device_wqs_clear_state(struct idxd_device *idxd);
static void idxd_wq_disable_cleanup(struct idxd_wq *wq);
/* Interrupt control bits */
void idxd_unmask_error_interrupts(struct idxd_device *idxd)
{
union genctrl_reg genctrl;
genctrl.bits = ioread32(idxd->reg_base + IDXD_GENCTRL_OFFSET);
genctrl.softerr_int_en = 1;
genctrl.halt_int_en = 1;
iowrite32(genctrl.bits, idxd->reg_base + IDXD_GENCTRL_OFFSET);
}
void idxd_mask_error_interrupts(struct idxd_device *idxd)
{
union genctrl_reg genctrl;
genctrl.bits = ioread32(idxd->reg_base + IDXD_GENCTRL_OFFSET);
genctrl.softerr_int_en = 0;
genctrl.halt_int_en = 0;
iowrite32(genctrl.bits, idxd->reg_base + IDXD_GENCTRL_OFFSET);
}
static void free_hw_descs(struct idxd_wq *wq)
{
int i;
for (i = 0; i < wq->num_descs; i++)
kfree(wq->hw_descs[i]);
kfree(wq->hw_descs);
}
static int alloc_hw_descs(struct idxd_wq *wq, int num)
{
struct device *dev = &wq->idxd->pdev->dev;
int i;
int node = dev_to_node(dev);
wq->hw_descs = kcalloc_node(num, sizeof(struct dsa_hw_desc *),
GFP_KERNEL, node);
if (!wq->hw_descs)
return -ENOMEM;
for (i = 0; i < num; i++) {
wq->hw_descs[i] = kzalloc_node(sizeof(*wq->hw_descs[i]),
GFP_KERNEL, node);
if (!wq->hw_descs[i]) {
free_hw_descs(wq);
return -ENOMEM;
}
}
return 0;
}
static void free_descs(struct idxd_wq *wq)
{
int i;
for (i = 0; i < wq->num_descs; i++)
kfree(wq->descs[i]);
kfree(wq->descs);
}
static int alloc_descs(struct idxd_wq *wq, int num)
{
struct device *dev = &wq->idxd->pdev->dev;
int i;
int node = dev_to_node(dev);
wq->descs = kcalloc_node(num, sizeof(struct idxd_desc *),
GFP_KERNEL, node);
if (!wq->descs)
return -ENOMEM;
for (i = 0; i < num; i++) {
wq->descs[i] = kzalloc_node(sizeof(*wq->descs[i]),
GFP_KERNEL, node);
if (!wq->descs[i]) {
free_descs(wq);
return -ENOMEM;
}
}
return 0;
}
/* WQ control bits */
int idxd_wq_alloc_resources(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
struct device *dev = &idxd->pdev->dev;
int rc, num_descs, i;
if (wq->type != IDXD_WQT_KERNEL)
return 0;
num_descs = wq_dedicated(wq) ? wq->size : wq->threshold;
wq->num_descs = num_descs;
rc = alloc_hw_descs(wq, num_descs);
if (rc < 0)
return rc;
wq->compls_size = num_descs * idxd->data->compl_size;
wq->compls = dma_alloc_coherent(dev, wq->compls_size, &wq->compls_addr, GFP_KERNEL);
if (!wq->compls) {
rc = -ENOMEM;
goto fail_alloc_compls;
}
rc = alloc_descs(wq, num_descs);
if (rc < 0)
goto fail_alloc_descs;
rc = sbitmap_queue_init_node(&wq->sbq, num_descs, -1, false, GFP_KERNEL,
dev_to_node(dev));
if (rc < 0)
goto fail_sbitmap_init;
for (i = 0; i < num_descs; i++) {
struct idxd_desc *desc = wq->descs[i];
desc->hw = wq->hw_descs[i];
if (idxd->data->type == IDXD_TYPE_DSA)
desc->completion = &wq->compls[i];
else if (idxd->data->type == IDXD_TYPE_IAX)
desc->iax_completion = &wq->iax_compls[i];
desc->compl_dma = wq->compls_addr + idxd->data->compl_size * i;
desc->id = i;
desc->wq = wq;
desc->cpu = -1;
}
return 0;
fail_sbitmap_init:
free_descs(wq);
fail_alloc_descs:
dma_free_coherent(dev, wq->compls_size, wq->compls, wq->compls_addr);
fail_alloc_compls:
free_hw_descs(wq);
return rc;
}
EXPORT_SYMBOL_NS_GPL(idxd_wq_alloc_resources, IDXD);
void idxd_wq_free_resources(struct idxd_wq *wq)
{
struct device *dev = &wq->idxd->pdev->dev;
if (wq->type != IDXD_WQT_KERNEL)
return;
free_hw_descs(wq);
free_descs(wq);
dma_free_coherent(dev, wq->compls_size, wq->compls, wq->compls_addr);
sbitmap_queue_free(&wq->sbq);
}
EXPORT_SYMBOL_NS_GPL(idxd_wq_free_resources, IDXD);
int idxd_wq_enable(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
struct device *dev = &idxd->pdev->dev;
u32 status;
if (wq->state == IDXD_WQ_ENABLED) {
dev_dbg(dev, "WQ %d already enabled\n", wq->id);
return 0;
}
idxd_cmd_exec(idxd, IDXD_CMD_ENABLE_WQ, wq->id, &status);
if (status != IDXD_CMDSTS_SUCCESS &&
status != IDXD_CMDSTS_ERR_WQ_ENABLED) {
dev_dbg(dev, "WQ enable failed: %#x\n", status);
return -ENXIO;
}
wq->state = IDXD_WQ_ENABLED;
set_bit(wq->id, idxd->wq_enable_map);
dev_dbg(dev, "WQ %d enabled\n", wq->id);
return 0;
}
int idxd_wq_disable(struct idxd_wq *wq, bool reset_config)
{
struct idxd_device *idxd = wq->idxd;
struct device *dev = &idxd->pdev->dev;
u32 status, operand;
dev_dbg(dev, "Disabling WQ %d\n", wq->id);
if (wq->state != IDXD_WQ_ENABLED) {
dev_dbg(dev, "WQ %d in wrong state: %d\n", wq->id, wq->state);
return 0;
}
operand = BIT(wq->id % 16) | ((wq->id / 16) << 16);
idxd_cmd_exec(idxd, IDXD_CMD_DISABLE_WQ, operand, &status);
if (status != IDXD_CMDSTS_SUCCESS) {
dev_dbg(dev, "WQ disable failed: %#x\n", status);
return -ENXIO;
}
if (reset_config)
idxd_wq_disable_cleanup(wq);
clear_bit(wq->id, idxd->wq_enable_map);
wq->state = IDXD_WQ_DISABLED;
dev_dbg(dev, "WQ %d disabled\n", wq->id);
return 0;
}
void idxd_wq_drain(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
struct device *dev = &idxd->pdev->dev;
u32 operand;
if (wq->state != IDXD_WQ_ENABLED) {
dev_dbg(dev, "WQ %d in wrong state: %d\n", wq->id, wq->state);
return;
}
dev_dbg(dev, "Draining WQ %d\n", wq->id);
operand = BIT(wq->id % 16) | ((wq->id / 16) << 16);
idxd_cmd_exec(idxd, IDXD_CMD_DRAIN_WQ, operand, NULL);
}
void idxd_wq_reset(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
struct device *dev = &idxd->pdev->dev;
u32 operand;
if (wq->state != IDXD_WQ_ENABLED) {
dev_dbg(dev, "WQ %d in wrong state: %d\n", wq->id, wq->state);
return;
}
operand = BIT(wq->id % 16) | ((wq->id / 16) << 16);
idxd_cmd_exec(idxd, IDXD_CMD_RESET_WQ, operand, NULL);
idxd_wq_disable_cleanup(wq);
}
int idxd_wq_map_portal(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
struct pci_dev *pdev = idxd->pdev;
struct device *dev = &pdev->dev;
resource_size_t start;
start = pci_resource_start(pdev, IDXD_WQ_BAR);
start += idxd_get_wq_portal_full_offset(wq->id, IDXD_PORTAL_LIMITED);
wq->portal = devm_ioremap(dev, start, IDXD_PORTAL_SIZE);
if (!wq->portal)
return -ENOMEM;
return 0;
}
void idxd_wq_unmap_portal(struct idxd_wq *wq)
{
struct device *dev = &wq->idxd->pdev->dev;
devm_iounmap(dev, wq->portal);
wq->portal = NULL;
wq->portal_offset = 0;
}
void idxd_wqs_unmap_portal(struct idxd_device *idxd)
{
int i;
for (i = 0; i < idxd->max_wqs; i++) {
struct idxd_wq *wq = idxd->wqs[i];
if (wq->portal)
idxd_wq_unmap_portal(wq);
}
}
static void __idxd_wq_set_pasid_locked(struct idxd_wq *wq, int pasid)
{
struct idxd_device *idxd = wq->idxd;
union wqcfg wqcfg;
unsigned int offset;
offset = WQCFG_OFFSET(idxd, wq->id, WQCFG_PASID_IDX);
spin_lock(&idxd->dev_lock);
wqcfg.bits[WQCFG_PASID_IDX] = ioread32(idxd->reg_base + offset);
wqcfg.pasid_en = 1;
wqcfg.pasid = pasid;
wq->wqcfg->bits[WQCFG_PASID_IDX] = wqcfg.bits[WQCFG_PASID_IDX];
iowrite32(wqcfg.bits[WQCFG_PASID_IDX], idxd->reg_base + offset);
spin_unlock(&idxd->dev_lock);
}
int idxd_wq_set_pasid(struct idxd_wq *wq, int pasid)
{
int rc;
rc = idxd_wq_disable(wq, false);
if (rc < 0)
return rc;
__idxd_wq_set_pasid_locked(wq, pasid);
rc = idxd_wq_enable(wq);
if (rc < 0)
return rc;
return 0;
}
int idxd_wq_disable_pasid(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
int rc;
union wqcfg wqcfg;
unsigned int offset;
rc = idxd_wq_disable(wq, false);
if (rc < 0)
return rc;
offset = WQCFG_OFFSET(idxd, wq->id, WQCFG_PASID_IDX);
spin_lock(&idxd->dev_lock);
wqcfg.bits[WQCFG_PASID_IDX] = ioread32(idxd->reg_base + offset);
wqcfg.pasid_en = 0;
wqcfg.pasid = 0;
iowrite32(wqcfg.bits[WQCFG_PASID_IDX], idxd->reg_base + offset);
spin_unlock(&idxd->dev_lock);
rc = idxd_wq_enable(wq);
if (rc < 0)
return rc;
return 0;
}
static void idxd_wq_disable_cleanup(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
lockdep_assert_held(&wq->wq_lock);
wq->state = IDXD_WQ_DISABLED;
memset(wq->wqcfg, 0, idxd->wqcfg_size);
wq->type = IDXD_WQT_NONE;
wq->threshold = 0;
wq->priority = 0;
wq->enqcmds_retries = IDXD_ENQCMDS_RETRIES;
wq->flags = 0;
memset(wq->name, 0, WQ_NAME_SIZE);
wq->max_xfer_bytes = WQ_DEFAULT_MAX_XFER;
idxd_wq_set_max_batch_size(idxd->data->type, wq, WQ_DEFAULT_MAX_BATCH);
if (wq->opcap_bmap)
bitmap_copy(wq->opcap_bmap, idxd->opcap_bmap, IDXD_MAX_OPCAP_BITS);
}
static void idxd_wq_device_reset_cleanup(struct idxd_wq *wq)
{
lockdep_assert_held(&wq->wq_lock);
wq->size = 0;
wq->group = NULL;
}
static void idxd_wq_ref_release(struct percpu_ref *ref)
{
struct idxd_wq *wq = container_of(ref, struct idxd_wq, wq_active);
complete(&wq->wq_dead);
}
int idxd_wq_init_percpu_ref(struct idxd_wq *wq)
{
int rc;
memset(&wq->wq_active, 0, sizeof(wq->wq_active));
rc = percpu_ref_init(&wq->wq_active, idxd_wq_ref_release,
PERCPU_REF_ALLOW_REINIT, GFP_KERNEL);
if (rc < 0)
return rc;
reinit_completion(&wq->wq_dead);
reinit_completion(&wq->wq_resurrect);
return 0;
}
EXPORT_SYMBOL_NS_GPL(idxd_wq_init_percpu_ref, IDXD);
void __idxd_wq_quiesce(struct idxd_wq *wq)
{
lockdep_assert_held(&wq->wq_lock);
reinit_completion(&wq->wq_resurrect);
percpu_ref_kill(&wq->wq_active);
complete_all(&wq->wq_resurrect);
wait_for_completion(&wq->wq_dead);
}
EXPORT_SYMBOL_NS_GPL(__idxd_wq_quiesce, IDXD);
void idxd_wq_quiesce(struct idxd_wq *wq)
{
mutex_lock(&wq->wq_lock);
__idxd_wq_quiesce(wq);
mutex_unlock(&wq->wq_lock);
}
EXPORT_SYMBOL_NS_GPL(idxd_wq_quiesce, IDXD);
/* Device control bits */
static inline bool idxd_is_enabled(struct idxd_device *idxd)
{
union gensts_reg gensts;
gensts.bits = ioread32(idxd->reg_base + IDXD_GENSTATS_OFFSET);
if (gensts.state == IDXD_DEVICE_STATE_ENABLED)
return true;
return false;
}
static inline bool idxd_device_is_halted(struct idxd_device *idxd)
{
union gensts_reg gensts;
gensts.bits = ioread32(idxd->reg_base + IDXD_GENSTATS_OFFSET);
return (gensts.state == IDXD_DEVICE_STATE_HALT);
}
/*
* This is function is only used for reset during probe and will
* poll for completion. Once the device is setup with interrupts,
* all commands will be done via interrupt completion.
*/
int idxd_device_init_reset(struct idxd_device *idxd)
{
struct device *dev = &idxd->pdev->dev;
union idxd_command_reg cmd;
if (idxd_device_is_halted(idxd)) {
dev_warn(&idxd->pdev->dev, "Device is HALTED!\n");
return -ENXIO;
}
memset(&cmd, 0, sizeof(cmd));
cmd.cmd = IDXD_CMD_RESET_DEVICE;
dev_dbg(dev, "%s: sending reset for init.\n", __func__);
spin_lock(&idxd->cmd_lock);
iowrite32(cmd.bits, idxd->reg_base + IDXD_CMD_OFFSET);
while (ioread32(idxd->reg_base + IDXD_CMDSTS_OFFSET) &
IDXD_CMDSTS_ACTIVE)
cpu_relax();
spin_unlock(&idxd->cmd_lock);
return 0;
}
static void idxd_cmd_exec(struct idxd_device *idxd, int cmd_code, u32 operand,
u32 *status)
{
union idxd_command_reg cmd;
DECLARE_COMPLETION_ONSTACK(done);
u32 stat;
unsigned long flags;
if (idxd_device_is_halted(idxd)) {
dev_warn(&idxd->pdev->dev, "Device is HALTED!\n");
if (status)
*status = IDXD_CMDSTS_HW_ERR;
return;
}
memset(&cmd, 0, sizeof(cmd));
cmd.cmd = cmd_code;
cmd.operand = operand;
cmd.int_req = 1;
spin_lock_irqsave(&idxd->cmd_lock, flags);
wait_event_lock_irq(idxd->cmd_waitq,
!test_bit(IDXD_FLAG_CMD_RUNNING, &idxd->flags),
idxd->cmd_lock);
dev_dbg(&idxd->pdev->dev, "%s: sending cmd: %#x op: %#x\n",
__func__, cmd_code, operand);
idxd->cmd_status = 0;
__set_bit(IDXD_FLAG_CMD_RUNNING, &idxd->flags);
idxd->cmd_done = &done;
iowrite32(cmd.bits, idxd->reg_base + IDXD_CMD_OFFSET);
/*
* After command submitted, release lock and go to sleep until
* the command completes via interrupt.
*/
spin_unlock_irqrestore(&idxd->cmd_lock, flags);
wait_for_completion(&done);
stat = ioread32(idxd->reg_base + IDXD_CMDSTS_OFFSET);
spin_lock(&idxd->cmd_lock);
if (status)
*status = stat;
idxd->cmd_status = stat & GENMASK(7, 0);
__clear_bit(IDXD_FLAG_CMD_RUNNING, &idxd->flags);
/* Wake up other pending commands */
wake_up(&idxd->cmd_waitq);
spin_unlock(&idxd->cmd_lock);
}
int idxd_device_enable(struct idxd_device *idxd)
{
struct device *dev = &idxd->pdev->dev;
u32 status;
if (idxd_is_enabled(idxd)) {
dev_dbg(dev, "Device already enabled\n");
return -ENXIO;
}
idxd_cmd_exec(idxd, IDXD_CMD_ENABLE_DEVICE, 0, &status);
/* If the command is successful or if the device was enabled */
if (status != IDXD_CMDSTS_SUCCESS &&
status != IDXD_CMDSTS_ERR_DEV_ENABLED) {
dev_dbg(dev, "%s: err_code: %#x\n", __func__, status);
return -ENXIO;
}
idxd->state = IDXD_DEV_ENABLED;
return 0;
}
int idxd_device_disable(struct idxd_device *idxd)
{
struct device *dev = &idxd->pdev->dev;
u32 status;
if (!idxd_is_enabled(idxd)) {
dev_dbg(dev, "Device is not enabled\n");
return 0;
}
idxd_cmd_exec(idxd, IDXD_CMD_DISABLE_DEVICE, 0, &status);
/* If the command is successful or if the device was disabled */
if (status != IDXD_CMDSTS_SUCCESS &&
!(status & IDXD_CMDSTS_ERR_DIS_DEV_EN)) {
dev_dbg(dev, "%s: err_code: %#x\n", __func__, status);
return -ENXIO;
}
idxd_device_clear_state(idxd);
return 0;
}
void idxd_device_reset(struct idxd_device *idxd)
{
idxd_cmd_exec(idxd, IDXD_CMD_RESET_DEVICE, 0, NULL);
idxd_device_clear_state(idxd);
spin_lock(&idxd->dev_lock);
idxd_unmask_error_interrupts(idxd);
spin_unlock(&idxd->dev_lock);
}
void idxd_device_drain_pasid(struct idxd_device *idxd, int pasid)
{
struct device *dev = &idxd->pdev->dev;
u32 operand;
operand = pasid;
dev_dbg(dev, "cmd: %u operand: %#x\n", IDXD_CMD_DRAIN_PASID, operand);
idxd_cmd_exec(idxd, IDXD_CMD_DRAIN_PASID, operand, NULL);
dev_dbg(dev, "pasid %d drained\n", pasid);
}
int idxd_device_request_int_handle(struct idxd_device *idxd, int idx, int *handle,
enum idxd_interrupt_type irq_type)
{
struct device *dev = &idxd->pdev->dev;
u32 operand, status;
if (!(idxd->hw.cmd_cap & BIT(IDXD_CMD_REQUEST_INT_HANDLE)))
return -EOPNOTSUPP;
dev_dbg(dev, "get int handle, idx %d\n", idx);
operand = idx & GENMASK(15, 0);
if (irq_type == IDXD_IRQ_IMS)
operand |= CMD_INT_HANDLE_IMS;
dev_dbg(dev, "cmd: %u operand: %#x\n", IDXD_CMD_REQUEST_INT_HANDLE, operand);
idxd_cmd_exec(idxd, IDXD_CMD_REQUEST_INT_HANDLE, operand, &status);
if ((status & IDXD_CMDSTS_ERR_MASK) != IDXD_CMDSTS_SUCCESS) {
dev_dbg(dev, "request int handle failed: %#x\n", status);
return -ENXIO;
}
*handle = (status >> IDXD_CMDSTS_RES_SHIFT) & GENMASK(15, 0);
dev_dbg(dev, "int handle acquired: %u\n", *handle);
return 0;
}
int idxd_device_release_int_handle(struct idxd_device *idxd, int handle,
enum idxd_interrupt_type irq_type)
{
struct device *dev = &idxd->pdev->dev;
u32 operand, status;
union idxd_command_reg cmd;
if (!(idxd->hw.cmd_cap & BIT(IDXD_CMD_RELEASE_INT_HANDLE)))
return -EOPNOTSUPP;
dev_dbg(dev, "release int handle, handle %d\n", handle);
memset(&cmd, 0, sizeof(cmd));
operand = handle & GENMASK(15, 0);
if (irq_type == IDXD_IRQ_IMS)
operand |= CMD_INT_HANDLE_IMS;
cmd.cmd = IDXD_CMD_RELEASE_INT_HANDLE;
cmd.operand = operand;
dev_dbg(dev, "cmd: %u operand: %#x\n", IDXD_CMD_RELEASE_INT_HANDLE, operand);
spin_lock(&idxd->cmd_lock);
iowrite32(cmd.bits, idxd->reg_base + IDXD_CMD_OFFSET);
while (ioread32(idxd->reg_base + IDXD_CMDSTS_OFFSET) & IDXD_CMDSTS_ACTIVE)
cpu_relax();
status = ioread32(idxd->reg_base + IDXD_CMDSTS_OFFSET);
spin_unlock(&idxd->cmd_lock);
if ((status & IDXD_CMDSTS_ERR_MASK) != IDXD_CMDSTS_SUCCESS) {
dev_dbg(dev, "release int handle failed: %#x\n", status);
return -ENXIO;
}
dev_dbg(dev, "int handle released.\n");
return 0;
}
/* Device configuration bits */
static void idxd_engines_clear_state(struct idxd_device *idxd)
{
struct idxd_engine *engine;
int i;
lockdep_assert_held(&idxd->dev_lock);
for (i = 0; i < idxd->max_engines; i++) {
engine = idxd->engines[i];
engine->group = NULL;
}
}
static void idxd_groups_clear_state(struct idxd_device *idxd)
{
struct idxd_group *group;
int i;
lockdep_assert_held(&idxd->dev_lock);
for (i = 0; i < idxd->max_groups; i++) {
group = idxd->groups[i];
memset(&group->grpcfg, 0, sizeof(group->grpcfg));
group->num_engines = 0;
group->num_wqs = 0;
group->use_rdbuf_limit = false;
/*
* The default value is the same as the value of
* total read buffers in GRPCAP.
*/
group->rdbufs_allowed = idxd->max_rdbufs;
group->rdbufs_reserved = 0;
if (idxd->hw.version <= DEVICE_VERSION_2 && !tc_override) {
group->tc_a = 1;
group->tc_b = 1;
} else {
group->tc_a = -1;
group->tc_b = -1;
}
group->desc_progress_limit = 0;
group->batch_progress_limit = 0;
}
}
static void idxd_device_wqs_clear_state(struct idxd_device *idxd)
{
int i;
for (i = 0; i < idxd->max_wqs; i++) {
struct idxd_wq *wq = idxd->wqs[i];
mutex_lock(&wq->wq_lock);
idxd_wq_disable_cleanup(wq);
idxd_wq_device_reset_cleanup(wq);
mutex_unlock(&wq->wq_lock);
}
}
void idxd_device_clear_state(struct idxd_device *idxd)
{
/* IDXD is always disabled. Other states are cleared only when IDXD is configurable. */
if (test_bit(IDXD_FLAG_CONFIGURABLE, &idxd->flags)) {
/*
* Clearing wq state is protected by wq lock.
* So no need to be protected by device lock.
*/
idxd_device_wqs_clear_state(idxd);
spin_lock(&idxd->dev_lock);
idxd_groups_clear_state(idxd);
idxd_engines_clear_state(idxd);
} else {
spin_lock(&idxd->dev_lock);
}
idxd->state = IDXD_DEV_DISABLED;
spin_unlock(&idxd->dev_lock);
}
static int idxd_device_evl_setup(struct idxd_device *idxd)
{
union gencfg_reg gencfg;
union evlcfg_reg evlcfg;
union genctrl_reg genctrl;
struct device *dev = &idxd->pdev->dev;
void *addr;
dma_addr_t dma_addr;
int size;
struct idxd_evl *evl = idxd->evl;
unsigned long *bmap;
int rc;
if (!evl)
return 0;
size = evl_size(idxd);
bmap = bitmap_zalloc(size, GFP_KERNEL);
if (!bmap) {
rc = -ENOMEM;
goto err_bmap;
}
/*
* Address needs to be page aligned. However, dma_alloc_coherent() provides
* at minimal page size aligned address. No manual alignment required.
*/
addr = dma_alloc_coherent(dev, size, &dma_addr, GFP_KERNEL);
if (!addr) {
rc = -ENOMEM;
goto err_alloc;
}
spin_lock(&evl->lock);
evl->log = addr;
evl->dma = dma_addr;
evl->log_size = size;
evl->bmap = bmap;
memset(&evlcfg, 0, sizeof(evlcfg));
evlcfg.bits[0] = dma_addr & GENMASK(63, 12);
evlcfg.size = evl->size;
iowrite64(evlcfg.bits[0], idxd->reg_base + IDXD_EVLCFG_OFFSET);
iowrite64(evlcfg.bits[1], idxd->reg_base + IDXD_EVLCFG_OFFSET + 8);
genctrl.bits = ioread32(idxd->reg_base + IDXD_GENCTRL_OFFSET);
genctrl.evl_int_en = 1;
iowrite32(genctrl.bits, idxd->reg_base + IDXD_GENCTRL_OFFSET);
gencfg.bits = ioread32(idxd->reg_base + IDXD_GENCFG_OFFSET);
gencfg.evl_en = 1;
iowrite32(gencfg.bits, idxd->reg_base + IDXD_GENCFG_OFFSET);
spin_unlock(&evl->lock);
return 0;
err_alloc:
bitmap_free(bmap);
err_bmap:
return rc;
}
static void idxd_device_evl_free(struct idxd_device *idxd)
{
void *evl_log;
unsigned int evl_log_size;
dma_addr_t evl_dma;
union gencfg_reg gencfg;
union genctrl_reg genctrl;
struct device *dev = &idxd->pdev->dev;
struct idxd_evl *evl = idxd->evl;
gencfg.bits = ioread32(idxd->reg_base + IDXD_GENCFG_OFFSET);
if (!gencfg.evl_en)
return;
spin_lock(&evl->lock);
gencfg.evl_en = 0;
iowrite32(gencfg.bits, idxd->reg_base + IDXD_GENCFG_OFFSET);
genctrl.bits = ioread32(idxd->reg_base + IDXD_GENCTRL_OFFSET);
genctrl.evl_int_en = 0;
iowrite32(genctrl.bits, idxd->reg_base + IDXD_GENCTRL_OFFSET);
iowrite64(0, idxd->reg_base + IDXD_EVLCFG_OFFSET);
iowrite64(0, idxd->reg_base + IDXD_EVLCFG_OFFSET + 8);
bitmap_free(evl->bmap);
evl_log = evl->log;
evl_log_size = evl->log_size;
evl_dma = evl->dma;
evl->log = NULL;
evl->size = IDXD_EVL_SIZE_MIN;
spin_unlock(&evl->lock);
dma_free_coherent(dev, evl_log_size, evl_log, evl_dma);
}
static void idxd_group_config_write(struct idxd_group *group)
{
struct idxd_device *idxd = group->idxd;
struct device *dev = &idxd->pdev->dev;
int i;
u32 grpcfg_offset;
dev_dbg(dev, "Writing group %d cfg registers\n", group->id);
/* setup GRPWQCFG */
for (i = 0; i < GRPWQCFG_STRIDES; i++) {
grpcfg_offset = GRPWQCFG_OFFSET(idxd, group->id, i);
iowrite64(group->grpcfg.wqs[i], idxd->reg_base + grpcfg_offset);
dev_dbg(dev, "GRPCFG wq[%d:%d: %#x]: %#llx\n",
group->id, i, grpcfg_offset,
ioread64(idxd->reg_base + grpcfg_offset));
}
/* setup GRPENGCFG */
grpcfg_offset = GRPENGCFG_OFFSET(idxd, group->id);
iowrite64(group->grpcfg.engines, idxd->reg_base + grpcfg_offset);
dev_dbg(dev, "GRPCFG engs[%d: %#x]: %#llx\n", group->id,
grpcfg_offset, ioread64(idxd->reg_base + grpcfg_offset));
/* setup GRPFLAGS */
grpcfg_offset = GRPFLGCFG_OFFSET(idxd, group->id);
iowrite64(group->grpcfg.flags.bits, idxd->reg_base + grpcfg_offset);
dev_dbg(dev, "GRPFLAGS flags[%d: %#x]: %#llx\n",
group->id, grpcfg_offset,
ioread64(idxd->reg_base + grpcfg_offset));
}
static int idxd_groups_config_write(struct idxd_device *idxd)
{
union gencfg_reg reg;
int i;
struct device *dev = &idxd->pdev->dev;
/* Setup bandwidth rdbuf limit */
if (idxd->hw.gen_cap.config_en && idxd->rdbuf_limit) {
reg.bits = ioread32(idxd->reg_base + IDXD_GENCFG_OFFSET);
reg.rdbuf_limit = idxd->rdbuf_limit;
iowrite32(reg.bits, idxd->reg_base + IDXD_GENCFG_OFFSET);
}
dev_dbg(dev, "GENCFG(%#x): %#x\n", IDXD_GENCFG_OFFSET,
ioread32(idxd->reg_base + IDXD_GENCFG_OFFSET));
for (i = 0; i < idxd->max_groups; i++) {
struct idxd_group *group = idxd->groups[i];
idxd_group_config_write(group);
}
return 0;
}
static bool idxd_device_pasid_priv_enabled(struct idxd_device *idxd)
{
struct pci_dev *pdev = idxd->pdev;
if (pdev->pasid_enabled && (pdev->pasid_features & PCI_PASID_CAP_PRIV))
return true;
return false;
}
static int idxd_wq_config_write(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
struct device *dev = &idxd->pdev->dev;
u32 wq_offset;
int i, n;
if (!wq->group)
return 0;
/*
* Instead of memset the entire shadow copy of WQCFG, copy from the hardware after
* wq reset. This will copy back the sticky values that are present on some devices.
*/
for (i = 0; i < WQCFG_STRIDES(idxd); i++) {
wq_offset = WQCFG_OFFSET(idxd, wq->id, i);
wq->wqcfg->bits[i] |= ioread32(idxd->reg_base + wq_offset);
}
if (wq->size == 0 && wq->type != IDXD_WQT_NONE)
wq->size = WQ_DEFAULT_QUEUE_DEPTH;
/* byte 0-3 */
wq->wqcfg->wq_size = wq->size;
/* bytes 4-7 */
wq->wqcfg->wq_thresh = wq->threshold;
/* byte 8-11 */
if (wq_dedicated(wq))
wq->wqcfg->mode = 1;
/*
* The WQ priv bit is set depending on the WQ type. priv = 1 if the
* WQ type is kernel to indicate privileged access. This setting only
* matters for dedicated WQ. According to the DSA spec:
* If the WQ is in dedicated mode, WQ PASID Enable is 1, and the
* Privileged Mode Enable field of the PCI Express PASID capability
* is 0, this field must be 0.
*
* In the case of a dedicated kernel WQ that is not able to support
* the PASID cap, then the configuration will be rejected.
*/
if (wq_dedicated(wq) && wq->wqcfg->pasid_en &&
!idxd_device_pasid_priv_enabled(idxd) &&
wq->type == IDXD_WQT_KERNEL) {
idxd->cmd_status = IDXD_SCMD_WQ_NO_PRIV;
return -EOPNOTSUPP;
}
wq->wqcfg->priority = wq->priority;
if (idxd->hw.gen_cap.block_on_fault &&
test_bit(WQ_FLAG_BLOCK_ON_FAULT, &wq->flags) &&
!test_bit(WQ_FLAG_PRS_DISABLE, &wq->flags))
wq->wqcfg->bof = 1;
if (idxd->hw.wq_cap.wq_ats_support)
wq->wqcfg->wq_ats_disable = test_bit(WQ_FLAG_ATS_DISABLE, &wq->flags);
if (idxd->hw.wq_cap.wq_prs_support)
wq->wqcfg->wq_prs_disable = test_bit(WQ_FLAG_PRS_DISABLE, &wq->flags);
/* bytes 12-15 */
wq->wqcfg->max_xfer_shift = ilog2(wq->max_xfer_bytes);
idxd_wqcfg_set_max_batch_shift(idxd->data->type, wq->wqcfg, ilog2(wq->max_batch_size));
/* bytes 32-63 */
if (idxd->hw.wq_cap.op_config && wq->opcap_bmap) {
memset(wq->wqcfg->op_config, 0, IDXD_MAX_OPCAP_BITS / 8);
for_each_set_bit(n, wq->opcap_bmap, IDXD_MAX_OPCAP_BITS) {
int pos = n % BITS_PER_LONG_LONG;
int idx = n / BITS_PER_LONG_LONG;
wq->wqcfg->op_config[idx] |= BIT(pos);
}
}
dev_dbg(dev, "WQ %d CFGs\n", wq->id);
for (i = 0; i < WQCFG_STRIDES(idxd); i++) {
wq_offset = WQCFG_OFFSET(idxd, wq->id, i);
iowrite32(wq->wqcfg->bits[i], idxd->reg_base + wq_offset);
dev_dbg(dev, "WQ[%d][%d][%#x]: %#x\n",
wq->id, i, wq_offset,
ioread32(idxd->reg_base + wq_offset));
}
return 0;
}
static int idxd_wqs_config_write(struct idxd_device *idxd)
{
int i, rc;
for (i = 0; i < idxd->max_wqs; i++) {
struct idxd_wq *wq = idxd->wqs[i];
rc = idxd_wq_config_write(wq);
if (rc < 0)
return rc;
}
return 0;
}
static void idxd_group_flags_setup(struct idxd_device *idxd)
{
int i;
/* TC-A 0 and TC-B 1 should be defaults */
for (i = 0; i < idxd->max_groups; i++) {
struct idxd_group *group = idxd->groups[i];
if (group->tc_a == -1)
group->tc_a = group->grpcfg.flags.tc_a = 0;
else
group->grpcfg.flags.tc_a = group->tc_a;
if (group->tc_b == -1)
group->tc_b = group->grpcfg.flags.tc_b = 1;
else
group->grpcfg.flags.tc_b = group->tc_b;
group->grpcfg.flags.use_rdbuf_limit = group->use_rdbuf_limit;
group->grpcfg.flags.rdbufs_reserved = group->rdbufs_reserved;
group->grpcfg.flags.rdbufs_allowed = group->rdbufs_allowed;
group->grpcfg.flags.desc_progress_limit = group->desc_progress_limit;
group->grpcfg.flags.batch_progress_limit = group->batch_progress_limit;
}
}
static int idxd_engines_setup(struct idxd_device *idxd)
{
int i, engines = 0;
struct idxd_engine *eng;
struct idxd_group *group;
for (i = 0; i < idxd->max_groups; i++) {
group = idxd->groups[i];
group->grpcfg.engines = 0;
}
for (i = 0; i < idxd->max_engines; i++) {
eng = idxd->engines[i];
group = eng->group;
if (!group)
continue;
group->grpcfg.engines |= BIT(eng->id);
engines++;
}
if (!engines)
return -EINVAL;
return 0;
}
static int idxd_wqs_setup(struct idxd_device *idxd)
{
struct idxd_wq *wq;
struct idxd_group *group;
int i, j, configured = 0;
struct device *dev = &idxd->pdev->dev;
for (i = 0; i < idxd->max_groups; i++) {
group = idxd->groups[i];
for (j = 0; j < 4; j++)
group->grpcfg.wqs[j] = 0;
}
for (i = 0; i < idxd->max_wqs; i++) {
wq = idxd->wqs[i];
group = wq->group;
if (!wq->group)
continue;
if (wq_shared(wq) && !wq_shared_supported(wq)) {
idxd->cmd_status = IDXD_SCMD_WQ_NO_SWQ_SUPPORT;
dev_warn(dev, "No shared wq support but configured.\n");
return -EINVAL;
}
group->grpcfg.wqs[wq->id / 64] |= BIT(wq->id % 64);
configured++;
}
if (configured == 0) {
idxd->cmd_status = IDXD_SCMD_WQ_NONE_CONFIGURED;
return -EINVAL;
}
return 0;
}
int idxd_device_config(struct idxd_device *idxd)
{
int rc;
lockdep_assert_held(&idxd->dev_lock);
rc = idxd_wqs_setup(idxd);
if (rc < 0)
return rc;
rc = idxd_engines_setup(idxd);
if (rc < 0)
return rc;
idxd_group_flags_setup(idxd);
rc = idxd_wqs_config_write(idxd);
if (rc < 0)
return rc;
rc = idxd_groups_config_write(idxd);
if (rc < 0)
return rc;
return 0;
}
static int idxd_wq_load_config(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
struct device *dev = &idxd->pdev->dev;
int wqcfg_offset;
int i;
wqcfg_offset = WQCFG_OFFSET(idxd, wq->id, 0);
memcpy_fromio(wq->wqcfg, idxd->reg_base + wqcfg_offset, idxd->wqcfg_size);
wq->size = wq->wqcfg->wq_size;
wq->threshold = wq->wqcfg->wq_thresh;
/* The driver does not support shared WQ mode in read-only config yet */
if (wq->wqcfg->mode == 0 || wq->wqcfg->pasid_en)
return -EOPNOTSUPP;
set_bit(WQ_FLAG_DEDICATED, &wq->flags);
wq->priority = wq->wqcfg->priority;
wq->max_xfer_bytes = 1ULL << wq->wqcfg->max_xfer_shift;
idxd_wq_set_max_batch_size(idxd->data->type, wq, 1U << wq->wqcfg->max_batch_shift);
for (i = 0; i < WQCFG_STRIDES(idxd); i++) {
wqcfg_offset = WQCFG_OFFSET(idxd, wq->id, i);
dev_dbg(dev, "WQ[%d][%d][%#x]: %#x\n", wq->id, i, wqcfg_offset, wq->wqcfg->bits[i]);
}
return 0;
}
static void idxd_group_load_config(struct idxd_group *group)
{
struct idxd_device *idxd = group->idxd;
struct device *dev = &idxd->pdev->dev;
int i, j, grpcfg_offset;
/*
* Load WQS bit fields
* Iterate through all 256 bits 64 bits at a time
*/
for (i = 0; i < GRPWQCFG_STRIDES; i++) {
struct idxd_wq *wq;
grpcfg_offset = GRPWQCFG_OFFSET(idxd, group->id, i);
group->grpcfg.wqs[i] = ioread64(idxd->reg_base + grpcfg_offset);
dev_dbg(dev, "GRPCFG wq[%d:%d: %#x]: %#llx\n",
group->id, i, grpcfg_offset, group->grpcfg.wqs[i]);
if (i * 64 >= idxd->max_wqs)
break;
/* Iterate through all 64 bits and check for wq set */
for (j = 0; j < 64; j++) {
int id = i * 64 + j;
/* No need to check beyond max wqs */
if (id >= idxd->max_wqs)
break;
/* Set group assignment for wq if wq bit is set */
if (group->grpcfg.wqs[i] & BIT(j)) {
wq = idxd->wqs[id];
wq->group = group;
}
}
}
grpcfg_offset = GRPENGCFG_OFFSET(idxd, group->id);
group->grpcfg.engines = ioread64(idxd->reg_base + grpcfg_offset);
dev_dbg(dev, "GRPCFG engs[%d: %#x]: %#llx\n", group->id,
grpcfg_offset, group->grpcfg.engines);
/* Iterate through all 64 bits to check engines set */
for (i = 0; i < 64; i++) {
if (i >= idxd->max_engines)
break;
if (group->grpcfg.engines & BIT(i)) {
struct idxd_engine *engine = idxd->engines[i];
engine->group = group;
}
}
grpcfg_offset = GRPFLGCFG_OFFSET(idxd, group->id);
group->grpcfg.flags.bits = ioread64(idxd->reg_base + grpcfg_offset);
dev_dbg(dev, "GRPFLAGS flags[%d: %#x]: %#llx\n",
group->id, grpcfg_offset, group->grpcfg.flags.bits);
}
int idxd_device_load_config(struct idxd_device *idxd)
{
union gencfg_reg reg;
int i, rc;
reg.bits = ioread32(idxd->reg_base + IDXD_GENCFG_OFFSET);
idxd->rdbuf_limit = reg.rdbuf_limit;
for (i = 0; i < idxd->max_groups; i++) {
struct idxd_group *group = idxd->groups[i];
idxd_group_load_config(group);
}
for (i = 0; i < idxd->max_wqs; i++) {
struct idxd_wq *wq = idxd->wqs[i];
rc = idxd_wq_load_config(wq);
if (rc < 0)
return rc;
}
return 0;
}
static void idxd_flush_pending_descs(struct idxd_irq_entry *ie)
{
struct idxd_desc *desc, *itr;
struct llist_node *head;
LIST_HEAD(flist);
enum idxd_complete_type ctype;
spin_lock(&ie->list_lock);
head = llist_del_all(&ie->pending_llist);
if (head) {
llist_for_each_entry_safe(desc, itr, head, llnode)
list_add_tail(&desc->list, &ie->work_list);
}
list_for_each_entry_safe(desc, itr, &ie->work_list, list)
list_move_tail(&desc->list, &flist);
spin_unlock(&ie->list_lock);
list_for_each_entry_safe(desc, itr, &flist, list) {
struct dma_async_tx_descriptor *tx;
list_del(&desc->list);
ctype = desc->completion->status ? IDXD_COMPLETE_NORMAL : IDXD_COMPLETE_ABORT;
/*
* wq is being disabled. Any remaining descriptors are
* likely to be stuck and can be dropped. callback could
* point to code that is no longer accessible, for example
* if dmatest module has been unloaded.
*/
tx = &desc->txd;
tx->callback = NULL;
tx->callback_result = NULL;
idxd_dma_complete_txd(desc, ctype, true, NULL, NULL);
}
}
static void idxd_device_set_perm_entry(struct idxd_device *idxd,
struct idxd_irq_entry *ie)
{
union msix_perm mperm;
if (ie->pasid == IOMMU_PASID_INVALID)
return;
mperm.bits = 0;
mperm.pasid = ie->pasid;
mperm.pasid_en = 1;
iowrite32(mperm.bits, idxd->reg_base + idxd->msix_perm_offset + ie->id * 8);
}
static void idxd_device_clear_perm_entry(struct idxd_device *idxd,
struct idxd_irq_entry *ie)
{
iowrite32(0, idxd->reg_base + idxd->msix_perm_offset + ie->id * 8);
}
void idxd_wq_free_irq(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
struct idxd_irq_entry *ie = &wq->ie;
if (wq->type != IDXD_WQT_KERNEL)
return;
free_irq(ie->vector, ie);
idxd_flush_pending_descs(ie);
if (idxd->request_int_handles)
idxd_device_release_int_handle(idxd, ie->int_handle, IDXD_IRQ_MSIX);
idxd_device_clear_perm_entry(idxd, ie);
ie->vector = -1;
ie->int_handle = INVALID_INT_HANDLE;
ie->pasid = IOMMU_PASID_INVALID;
}
int idxd_wq_request_irq(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
struct pci_dev *pdev = idxd->pdev;
struct device *dev = &pdev->dev;
struct idxd_irq_entry *ie;
int rc;
if (wq->type != IDXD_WQT_KERNEL)
return 0;
ie = &wq->ie;
ie->vector = pci_irq_vector(pdev, ie->id);
ie->pasid = device_pasid_enabled(idxd) ? idxd->pasid : IOMMU_PASID_INVALID;
idxd_device_set_perm_entry(idxd, ie);
rc = request_threaded_irq(ie->vector, NULL, idxd_wq_thread, 0, "idxd-portal", ie);
if (rc < 0) {
dev_err(dev, "Failed to request irq %d.\n", ie->vector);
goto err_irq;
}
if (idxd->request_int_handles) {
rc = idxd_device_request_int_handle(idxd, ie->id, &ie->int_handle,
IDXD_IRQ_MSIX);
if (rc < 0)
goto err_int_handle;
} else {
ie->int_handle = ie->id;
}
return 0;
err_int_handle:
ie->int_handle = INVALID_INT_HANDLE;
free_irq(ie->vector, ie);
err_irq:
idxd_device_clear_perm_entry(idxd, ie);
ie->pasid = IOMMU_PASID_INVALID;
return rc;
}
int idxd_drv_enable_wq(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
struct device *dev = &idxd->pdev->dev;
int rc = -ENXIO;
lockdep_assert_held(&wq->wq_lock);
if (idxd->state != IDXD_DEV_ENABLED) {
idxd->cmd_status = IDXD_SCMD_DEV_NOT_ENABLED;
goto err;
}
if (wq->state != IDXD_WQ_DISABLED) {
dev_dbg(dev, "wq %d already enabled.\n", wq->id);
idxd->cmd_status = IDXD_SCMD_WQ_ENABLED;
rc = -EBUSY;
goto err;
}
if (!wq->group) {
dev_dbg(dev, "wq %d not attached to group.\n", wq->id);
idxd->cmd_status = IDXD_SCMD_WQ_NO_GRP;
goto err;
}
if (strlen(wq->name) == 0) {
idxd->cmd_status = IDXD_SCMD_WQ_NO_NAME;
dev_dbg(dev, "wq %d name not set.\n", wq->id);
goto err;
}
/* Shared WQ checks */
if (wq_shared(wq)) {
if (!wq_shared_supported(wq)) {
idxd->cmd_status = IDXD_SCMD_WQ_NO_SVM;
dev_dbg(dev, "PASID not enabled and shared wq.\n");
goto err;
}
/*
* Shared wq with the threshold set to 0 means the user
* did not set the threshold or transitioned from a
* dedicated wq but did not set threshold. A value
* of 0 would effectively disable the shared wq. The
* driver does not allow a value of 0 to be set for
* threshold via sysfs.
*/
if (wq->threshold == 0) {
idxd->cmd_status = IDXD_SCMD_WQ_NO_THRESH;
dev_dbg(dev, "Shared wq and threshold 0.\n");
goto err;
}
}
/*
* In the event that the WQ is configurable for pasid, the driver
* should setup the pasid, pasid_en bit. This is true for both kernel
* and user shared workqueues. There is no need to setup priv bit in
* that in-kernel DMA will also do user privileged requests.
* A dedicated wq that is not 'kernel' type will configure pasid and
* pasid_en later on so there is no need to setup.
*/
if (test_bit(IDXD_FLAG_CONFIGURABLE, &idxd->flags)) {
if (wq_pasid_enabled(wq)) {
if (is_idxd_wq_kernel(wq) || wq_shared(wq)) {
u32 pasid = wq_dedicated(wq) ? idxd->pasid : 0;
__idxd_wq_set_pasid_locked(wq, pasid);
}
}
}
rc = 0;
spin_lock(&idxd->dev_lock);
if (test_bit(IDXD_FLAG_CONFIGURABLE, &idxd->flags))
rc = idxd_device_config(idxd);
spin_unlock(&idxd->dev_lock);
if (rc < 0) {
dev_dbg(dev, "Writing wq %d config failed: %d\n", wq->id, rc);
goto err;
}
rc = idxd_wq_enable(wq);
if (rc < 0) {
dev_dbg(dev, "wq %d enabling failed: %d\n", wq->id, rc);
goto err;
}
rc = idxd_wq_map_portal(wq);
if (rc < 0) {
idxd->cmd_status = IDXD_SCMD_WQ_PORTAL_ERR;
dev_dbg(dev, "wq %d portal mapping failed: %d\n", wq->id, rc);
goto err_map_portal;
}
wq->client_count = 0;
rc = idxd_wq_request_irq(wq);
if (rc < 0) {
idxd->cmd_status = IDXD_SCMD_WQ_IRQ_ERR;
dev_dbg(dev, "WQ %d irq setup failed: %d\n", wq->id, rc);
goto err_irq;
}
rc = idxd_wq_alloc_resources(wq);
if (rc < 0) {
idxd->cmd_status = IDXD_SCMD_WQ_RES_ALLOC_ERR;
dev_dbg(dev, "WQ resource alloc failed\n");
goto err_res_alloc;
}
rc = idxd_wq_init_percpu_ref(wq);
if (rc < 0) {
idxd->cmd_status = IDXD_SCMD_PERCPU_ERR;
dev_dbg(dev, "percpu_ref setup failed\n");
goto err_ref;
}
return 0;
err_ref:
idxd_wq_free_resources(wq);
err_res_alloc:
idxd_wq_free_irq(wq);
err_irq:
idxd_wq_unmap_portal(wq);
err_map_portal:
if (idxd_wq_disable(wq, false))
dev_dbg(dev, "wq %s disable failed\n", dev_name(wq_confdev(wq)));
err:
return rc;
}
EXPORT_SYMBOL_NS_GPL(idxd_drv_enable_wq, IDXD);
void idxd_drv_disable_wq(struct idxd_wq *wq)
{
struct idxd_device *idxd = wq->idxd;
struct device *dev = &idxd->pdev->dev;
lockdep_assert_held(&wq->wq_lock);
if (idxd_wq_refcount(wq))
dev_warn(dev, "Clients has claim on wq %d: %d\n",
wq->id, idxd_wq_refcount(wq));
idxd_wq_unmap_portal(wq);
idxd_wq_drain(wq);
idxd_wq_free_irq(wq);
idxd_wq_reset(wq);
idxd_wq_free_resources(wq);
percpu_ref_exit(&wq->wq_active);
wq->type = IDXD_WQT_NONE;
wq->client_count = 0;
}
EXPORT_SYMBOL_NS_GPL(idxd_drv_disable_wq, IDXD);
int idxd_device_drv_probe(struct idxd_dev *idxd_dev)
{
struct idxd_device *idxd = idxd_dev_to_idxd(idxd_dev);
int rc = 0;
/*
* Device should be in disabled state for the idxd_drv to load. If it's in
* enabled state, then the device was altered outside of driver's control.
* If the state is in halted state, then we don't want to proceed.
*/
if (idxd->state != IDXD_DEV_DISABLED) {
idxd->cmd_status = IDXD_SCMD_DEV_ENABLED;
return -ENXIO;
}
/* Device configuration */
spin_lock(&idxd->dev_lock);
if (test_bit(IDXD_FLAG_CONFIGURABLE, &idxd->flags))
rc = idxd_device_config(idxd);
spin_unlock(&idxd->dev_lock);
if (rc < 0)
return -ENXIO;
/*
* System PASID is preserved across device disable/enable cycle, but
* genconfig register content gets cleared during device reset. We
* need to re-enable user interrupts for kernel work queue completion
* IRQ to function.
*/
if (idxd->pasid != IOMMU_PASID_INVALID)
idxd_set_user_intr(idxd, 1);
rc = idxd_device_evl_setup(idxd);
if (rc < 0) {
idxd->cmd_status = IDXD_SCMD_DEV_EVL_ERR;
return rc;
}
/* Start device */
rc = idxd_device_enable(idxd);
if (rc < 0) {
idxd_device_evl_free(idxd);
return rc;
}
/* Setup DMA device without channels */
rc = idxd_register_dma_device(idxd);
if (rc < 0) {
idxd_device_disable(idxd);
idxd_device_evl_free(idxd);
idxd->cmd_status = IDXD_SCMD_DEV_DMA_ERR;
return rc;
}
idxd->cmd_status = 0;
return 0;
}
void idxd_device_drv_remove(struct idxd_dev *idxd_dev)
{
struct device *dev = &idxd_dev->conf_dev;
struct idxd_device *idxd = idxd_dev_to_idxd(idxd_dev);
int i;
for (i = 0; i < idxd->max_wqs; i++) {
struct idxd_wq *wq = idxd->wqs[i];
struct device *wq_dev = wq_confdev(wq);
if (wq->state == IDXD_WQ_DISABLED)
continue;
dev_warn(dev, "Active wq %d on disable %s.\n", i, dev_name(wq_dev));
device_release_driver(wq_dev);
}
idxd_unregister_dma_device(idxd);
idxd_device_disable(idxd);
if (test_bit(IDXD_FLAG_CONFIGURABLE, &idxd->flags))
idxd_device_reset(idxd);
idxd_device_evl_free(idxd);
}
static enum idxd_dev_type dev_types[] = {
IDXD_DEV_DSA,
IDXD_DEV_IAX,
IDXD_DEV_NONE,
};
struct idxd_device_driver idxd_drv = {
.type = dev_types,
.probe = idxd_device_drv_probe,
.remove = idxd_device_drv_remove,
.name = "idxd",
};
EXPORT_SYMBOL_GPL(idxd_drv);
|