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|
// SPDX-License-Identifier: (GPL-2.0 OR MIT)
/* Google virtual Ethernet (gve) driver
*
* Copyright (C) 2015-2021 Google, Inc.
*/
#include <linux/etherdevice.h>
#include <linux/pci.h>
#include "gve.h"
#include "gve_adminq.h"
#include "gve_register.h"
#define GVE_MAX_ADMINQ_RELEASE_CHECK 500
#define GVE_ADMINQ_SLEEP_LEN 20
#define GVE_MAX_ADMINQ_EVENT_COUNTER_CHECK 100
#define GVE_DEVICE_OPTION_ERROR_FMT "%s option error:\n" \
"Expected: length=%d, feature_mask=%x.\n" \
"Actual: length=%d, feature_mask=%x.\n"
#define GVE_DEVICE_OPTION_TOO_BIG_FMT "Length of %s option larger than expected. Possible older version of guest driver.\n"
static
struct gve_device_option *gve_get_next_option(struct gve_device_descriptor *descriptor,
struct gve_device_option *option)
{
void *option_end, *descriptor_end;
option_end = (void *)(option + 1) + be16_to_cpu(option->option_length);
descriptor_end = (void *)descriptor + be16_to_cpu(descriptor->total_length);
return option_end > descriptor_end ? NULL : (struct gve_device_option *)option_end;
}
#define GVE_DEVICE_OPTION_NO_MIN_RING_SIZE 8
static
void gve_parse_device_option(struct gve_priv *priv,
struct gve_device_descriptor *device_descriptor,
struct gve_device_option *option,
struct gve_device_option_gqi_rda **dev_op_gqi_rda,
struct gve_device_option_gqi_qpl **dev_op_gqi_qpl,
struct gve_device_option_dqo_rda **dev_op_dqo_rda,
struct gve_device_option_jumbo_frames **dev_op_jumbo_frames,
struct gve_device_option_dqo_qpl **dev_op_dqo_qpl,
struct gve_device_option_buffer_sizes **dev_op_buffer_sizes,
struct gve_device_option_modify_ring **dev_op_modify_ring)
{
u32 req_feat_mask = be32_to_cpu(option->required_features_mask);
u16 option_length = be16_to_cpu(option->option_length);
u16 option_id = be16_to_cpu(option->option_id);
/* If the length or feature mask doesn't match, continue without
* enabling the feature.
*/
switch (option_id) {
case GVE_DEV_OPT_ID_GQI_RAW_ADDRESSING:
if (option_length != GVE_DEV_OPT_LEN_GQI_RAW_ADDRESSING ||
req_feat_mask != GVE_DEV_OPT_REQ_FEAT_MASK_GQI_RAW_ADDRESSING) {
dev_warn(&priv->pdev->dev, GVE_DEVICE_OPTION_ERROR_FMT,
"Raw Addressing",
GVE_DEV_OPT_LEN_GQI_RAW_ADDRESSING,
GVE_DEV_OPT_REQ_FEAT_MASK_GQI_RAW_ADDRESSING,
option_length, req_feat_mask);
break;
}
dev_info(&priv->pdev->dev,
"Gqi raw addressing device option enabled.\n");
priv->queue_format = GVE_GQI_RDA_FORMAT;
break;
case GVE_DEV_OPT_ID_GQI_RDA:
if (option_length < sizeof(**dev_op_gqi_rda) ||
req_feat_mask != GVE_DEV_OPT_REQ_FEAT_MASK_GQI_RDA) {
dev_warn(&priv->pdev->dev, GVE_DEVICE_OPTION_ERROR_FMT,
"GQI RDA", (int)sizeof(**dev_op_gqi_rda),
GVE_DEV_OPT_REQ_FEAT_MASK_GQI_RDA,
option_length, req_feat_mask);
break;
}
if (option_length > sizeof(**dev_op_gqi_rda)) {
dev_warn(&priv->pdev->dev,
GVE_DEVICE_OPTION_TOO_BIG_FMT, "GQI RDA");
}
*dev_op_gqi_rda = (void *)(option + 1);
break;
case GVE_DEV_OPT_ID_GQI_QPL:
if (option_length < sizeof(**dev_op_gqi_qpl) ||
req_feat_mask != GVE_DEV_OPT_REQ_FEAT_MASK_GQI_QPL) {
dev_warn(&priv->pdev->dev, GVE_DEVICE_OPTION_ERROR_FMT,
"GQI QPL", (int)sizeof(**dev_op_gqi_qpl),
GVE_DEV_OPT_REQ_FEAT_MASK_GQI_QPL,
option_length, req_feat_mask);
break;
}
if (option_length > sizeof(**dev_op_gqi_qpl)) {
dev_warn(&priv->pdev->dev,
GVE_DEVICE_OPTION_TOO_BIG_FMT, "GQI QPL");
}
*dev_op_gqi_qpl = (void *)(option + 1);
break;
case GVE_DEV_OPT_ID_DQO_RDA:
if (option_length < sizeof(**dev_op_dqo_rda) ||
req_feat_mask != GVE_DEV_OPT_REQ_FEAT_MASK_DQO_RDA) {
dev_warn(&priv->pdev->dev, GVE_DEVICE_OPTION_ERROR_FMT,
"DQO RDA", (int)sizeof(**dev_op_dqo_rda),
GVE_DEV_OPT_REQ_FEAT_MASK_DQO_RDA,
option_length, req_feat_mask);
break;
}
if (option_length > sizeof(**dev_op_dqo_rda)) {
dev_warn(&priv->pdev->dev,
GVE_DEVICE_OPTION_TOO_BIG_FMT, "DQO RDA");
}
*dev_op_dqo_rda = (void *)(option + 1);
break;
case GVE_DEV_OPT_ID_DQO_QPL:
if (option_length < sizeof(**dev_op_dqo_qpl) ||
req_feat_mask != GVE_DEV_OPT_REQ_FEAT_MASK_DQO_QPL) {
dev_warn(&priv->pdev->dev, GVE_DEVICE_OPTION_ERROR_FMT,
"DQO QPL", (int)sizeof(**dev_op_dqo_qpl),
GVE_DEV_OPT_REQ_FEAT_MASK_DQO_QPL,
option_length, req_feat_mask);
break;
}
if (option_length > sizeof(**dev_op_dqo_qpl)) {
dev_warn(&priv->pdev->dev,
GVE_DEVICE_OPTION_TOO_BIG_FMT, "DQO QPL");
}
*dev_op_dqo_qpl = (void *)(option + 1);
break;
case GVE_DEV_OPT_ID_JUMBO_FRAMES:
if (option_length < sizeof(**dev_op_jumbo_frames) ||
req_feat_mask != GVE_DEV_OPT_REQ_FEAT_MASK_JUMBO_FRAMES) {
dev_warn(&priv->pdev->dev, GVE_DEVICE_OPTION_ERROR_FMT,
"Jumbo Frames",
(int)sizeof(**dev_op_jumbo_frames),
GVE_DEV_OPT_REQ_FEAT_MASK_JUMBO_FRAMES,
option_length, req_feat_mask);
break;
}
if (option_length > sizeof(**dev_op_jumbo_frames)) {
dev_warn(&priv->pdev->dev,
GVE_DEVICE_OPTION_TOO_BIG_FMT,
"Jumbo Frames");
}
*dev_op_jumbo_frames = (void *)(option + 1);
break;
case GVE_DEV_OPT_ID_BUFFER_SIZES:
if (option_length < sizeof(**dev_op_buffer_sizes) ||
req_feat_mask != GVE_DEV_OPT_REQ_FEAT_MASK_BUFFER_SIZES) {
dev_warn(&priv->pdev->dev, GVE_DEVICE_OPTION_ERROR_FMT,
"Buffer Sizes",
(int)sizeof(**dev_op_buffer_sizes),
GVE_DEV_OPT_REQ_FEAT_MASK_BUFFER_SIZES,
option_length, req_feat_mask);
break;
}
if (option_length > sizeof(**dev_op_buffer_sizes))
dev_warn(&priv->pdev->dev,
GVE_DEVICE_OPTION_TOO_BIG_FMT,
"Buffer Sizes");
*dev_op_buffer_sizes = (void *)(option + 1);
break;
case GVE_DEV_OPT_ID_MODIFY_RING:
if (option_length < GVE_DEVICE_OPTION_NO_MIN_RING_SIZE ||
req_feat_mask != GVE_DEV_OPT_REQ_FEAT_MASK_MODIFY_RING) {
dev_warn(&priv->pdev->dev, GVE_DEVICE_OPTION_ERROR_FMT,
"Modify Ring", (int)sizeof(**dev_op_modify_ring),
GVE_DEV_OPT_REQ_FEAT_MASK_MODIFY_RING,
option_length, req_feat_mask);
break;
}
if (option_length > sizeof(**dev_op_modify_ring)) {
dev_warn(&priv->pdev->dev,
GVE_DEVICE_OPTION_TOO_BIG_FMT, "Modify Ring");
}
*dev_op_modify_ring = (void *)(option + 1);
/* device has not provided min ring size */
if (option_length == GVE_DEVICE_OPTION_NO_MIN_RING_SIZE)
priv->default_min_ring_size = true;
break;
default:
/* If we don't recognize the option just continue
* without doing anything.
*/
dev_dbg(&priv->pdev->dev, "Unrecognized device option 0x%hx not enabled.\n",
option_id);
}
}
/* Process all device options for a given describe device call. */
static int
gve_process_device_options(struct gve_priv *priv,
struct gve_device_descriptor *descriptor,
struct gve_device_option_gqi_rda **dev_op_gqi_rda,
struct gve_device_option_gqi_qpl **dev_op_gqi_qpl,
struct gve_device_option_dqo_rda **dev_op_dqo_rda,
struct gve_device_option_jumbo_frames **dev_op_jumbo_frames,
struct gve_device_option_dqo_qpl **dev_op_dqo_qpl,
struct gve_device_option_buffer_sizes **dev_op_buffer_sizes,
struct gve_device_option_modify_ring **dev_op_modify_ring)
{
const int num_options = be16_to_cpu(descriptor->num_device_options);
struct gve_device_option *dev_opt;
int i;
/* The options struct directly follows the device descriptor. */
dev_opt = (void *)(descriptor + 1);
for (i = 0; i < num_options; i++) {
struct gve_device_option *next_opt;
next_opt = gve_get_next_option(descriptor, dev_opt);
if (!next_opt) {
dev_err(&priv->dev->dev,
"options exceed device_descriptor's total length.\n");
return -EINVAL;
}
gve_parse_device_option(priv, descriptor, dev_opt,
dev_op_gqi_rda, dev_op_gqi_qpl,
dev_op_dqo_rda, dev_op_jumbo_frames,
dev_op_dqo_qpl, dev_op_buffer_sizes,
dev_op_modify_ring);
dev_opt = next_opt;
}
return 0;
}
int gve_adminq_alloc(struct device *dev, struct gve_priv *priv)
{
priv->adminq_pool = dma_pool_create("adminq_pool", dev,
GVE_ADMINQ_BUFFER_SIZE, 0, 0);
if (unlikely(!priv->adminq_pool))
return -ENOMEM;
priv->adminq = dma_pool_alloc(priv->adminq_pool, GFP_KERNEL,
&priv->adminq_bus_addr);
if (unlikely(!priv->adminq)) {
dma_pool_destroy(priv->adminq_pool);
return -ENOMEM;
}
priv->adminq_mask =
(GVE_ADMINQ_BUFFER_SIZE / sizeof(union gve_adminq_command)) - 1;
priv->adminq_prod_cnt = 0;
priv->adminq_cmd_fail = 0;
priv->adminq_timeouts = 0;
priv->adminq_describe_device_cnt = 0;
priv->adminq_cfg_device_resources_cnt = 0;
priv->adminq_register_page_list_cnt = 0;
priv->adminq_unregister_page_list_cnt = 0;
priv->adminq_create_tx_queue_cnt = 0;
priv->adminq_create_rx_queue_cnt = 0;
priv->adminq_destroy_tx_queue_cnt = 0;
priv->adminq_destroy_rx_queue_cnt = 0;
priv->adminq_dcfg_device_resources_cnt = 0;
priv->adminq_set_driver_parameter_cnt = 0;
priv->adminq_report_stats_cnt = 0;
priv->adminq_report_link_speed_cnt = 0;
priv->adminq_get_ptype_map_cnt = 0;
/* Setup Admin queue with the device */
if (priv->pdev->revision < 0x1) {
iowrite32be(priv->adminq_bus_addr / PAGE_SIZE,
&priv->reg_bar0->adminq_pfn);
} else {
iowrite16be(GVE_ADMINQ_BUFFER_SIZE,
&priv->reg_bar0->adminq_length);
#ifdef CONFIG_ARCH_DMA_ADDR_T_64BIT
iowrite32be(priv->adminq_bus_addr >> 32,
&priv->reg_bar0->adminq_base_address_hi);
#endif
iowrite32be(priv->adminq_bus_addr,
&priv->reg_bar0->adminq_base_address_lo);
iowrite32be(GVE_DRIVER_STATUS_RUN_MASK, &priv->reg_bar0->driver_status);
}
gve_set_admin_queue_ok(priv);
return 0;
}
void gve_adminq_release(struct gve_priv *priv)
{
int i = 0;
/* Tell the device the adminq is leaving */
if (priv->pdev->revision < 0x1) {
iowrite32be(0x0, &priv->reg_bar0->adminq_pfn);
while (ioread32be(&priv->reg_bar0->adminq_pfn)) {
/* If this is reached the device is unrecoverable and still
* holding memory. Continue looping to avoid memory corruption,
* but WARN so it is visible what is going on.
*/
if (i == GVE_MAX_ADMINQ_RELEASE_CHECK)
WARN(1, "Unrecoverable platform error!");
i++;
msleep(GVE_ADMINQ_SLEEP_LEN);
}
} else {
iowrite32be(GVE_DRIVER_STATUS_RESET_MASK, &priv->reg_bar0->driver_status);
while (!(ioread32be(&priv->reg_bar0->device_status)
& GVE_DEVICE_STATUS_DEVICE_IS_RESET)) {
if (i == GVE_MAX_ADMINQ_RELEASE_CHECK)
WARN(1, "Unrecoverable platform error!");
i++;
msleep(GVE_ADMINQ_SLEEP_LEN);
}
}
gve_clear_device_rings_ok(priv);
gve_clear_device_resources_ok(priv);
gve_clear_admin_queue_ok(priv);
}
void gve_adminq_free(struct device *dev, struct gve_priv *priv)
{
if (!gve_get_admin_queue_ok(priv))
return;
gve_adminq_release(priv);
dma_pool_free(priv->adminq_pool, priv->adminq, priv->adminq_bus_addr);
dma_pool_destroy(priv->adminq_pool);
gve_clear_admin_queue_ok(priv);
}
static void gve_adminq_kick_cmd(struct gve_priv *priv, u32 prod_cnt)
{
iowrite32be(prod_cnt, &priv->reg_bar0->adminq_doorbell);
}
static bool gve_adminq_wait_for_cmd(struct gve_priv *priv, u32 prod_cnt)
{
int i;
for (i = 0; i < GVE_MAX_ADMINQ_EVENT_COUNTER_CHECK; i++) {
if (ioread32be(&priv->reg_bar0->adminq_event_counter)
== prod_cnt)
return true;
msleep(GVE_ADMINQ_SLEEP_LEN);
}
return false;
}
static int gve_adminq_parse_err(struct gve_priv *priv, u32 status)
{
if (status != GVE_ADMINQ_COMMAND_PASSED &&
status != GVE_ADMINQ_COMMAND_UNSET) {
dev_err(&priv->pdev->dev, "AQ command failed with status %d\n", status);
priv->adminq_cmd_fail++;
}
switch (status) {
case GVE_ADMINQ_COMMAND_PASSED:
return 0;
case GVE_ADMINQ_COMMAND_UNSET:
dev_err(&priv->pdev->dev, "parse_aq_err: err and status both unset, this should not be possible.\n");
return -EINVAL;
case GVE_ADMINQ_COMMAND_ERROR_ABORTED:
case GVE_ADMINQ_COMMAND_ERROR_CANCELLED:
case GVE_ADMINQ_COMMAND_ERROR_DATALOSS:
case GVE_ADMINQ_COMMAND_ERROR_FAILED_PRECONDITION:
case GVE_ADMINQ_COMMAND_ERROR_UNAVAILABLE:
return -EAGAIN;
case GVE_ADMINQ_COMMAND_ERROR_ALREADY_EXISTS:
case GVE_ADMINQ_COMMAND_ERROR_INTERNAL_ERROR:
case GVE_ADMINQ_COMMAND_ERROR_INVALID_ARGUMENT:
case GVE_ADMINQ_COMMAND_ERROR_NOT_FOUND:
case GVE_ADMINQ_COMMAND_ERROR_OUT_OF_RANGE:
case GVE_ADMINQ_COMMAND_ERROR_UNKNOWN_ERROR:
return -EINVAL;
case GVE_ADMINQ_COMMAND_ERROR_DEADLINE_EXCEEDED:
return -ETIME;
case GVE_ADMINQ_COMMAND_ERROR_PERMISSION_DENIED:
case GVE_ADMINQ_COMMAND_ERROR_UNAUTHENTICATED:
return -EACCES;
case GVE_ADMINQ_COMMAND_ERROR_RESOURCE_EXHAUSTED:
return -ENOMEM;
case GVE_ADMINQ_COMMAND_ERROR_UNIMPLEMENTED:
return -EOPNOTSUPP;
default:
dev_err(&priv->pdev->dev, "parse_aq_err: unknown status code %d\n", status);
return -EINVAL;
}
}
/* Flushes all AQ commands currently queued and waits for them to complete.
* If there are failures, it will return the first error.
*/
static int gve_adminq_kick_and_wait(struct gve_priv *priv)
{
int tail, head;
int i;
tail = ioread32be(&priv->reg_bar0->adminq_event_counter);
head = priv->adminq_prod_cnt;
gve_adminq_kick_cmd(priv, head);
if (!gve_adminq_wait_for_cmd(priv, head)) {
dev_err(&priv->pdev->dev, "AQ commands timed out, need to reset AQ\n");
priv->adminq_timeouts++;
return -ENOTRECOVERABLE;
}
for (i = tail; i < head; i++) {
union gve_adminq_command *cmd;
u32 status, err;
cmd = &priv->adminq[i & priv->adminq_mask];
status = be32_to_cpu(READ_ONCE(cmd->status));
err = gve_adminq_parse_err(priv, status);
if (err)
// Return the first error if we failed.
return err;
}
return 0;
}
/* This function is not threadsafe - the caller is responsible for any
* necessary locks.
*/
static int gve_adminq_issue_cmd(struct gve_priv *priv,
union gve_adminq_command *cmd_orig)
{
union gve_adminq_command *cmd;
u32 opcode;
u32 tail;
tail = ioread32be(&priv->reg_bar0->adminq_event_counter);
// Check if next command will overflow the buffer.
if (((priv->adminq_prod_cnt + 1) & priv->adminq_mask) ==
(tail & priv->adminq_mask)) {
int err;
// Flush existing commands to make room.
err = gve_adminq_kick_and_wait(priv);
if (err)
return err;
// Retry.
tail = ioread32be(&priv->reg_bar0->adminq_event_counter);
if (((priv->adminq_prod_cnt + 1) & priv->adminq_mask) ==
(tail & priv->adminq_mask)) {
// This should never happen. We just flushed the
// command queue so there should be enough space.
return -ENOMEM;
}
}
cmd = &priv->adminq[priv->adminq_prod_cnt & priv->adminq_mask];
priv->adminq_prod_cnt++;
memcpy(cmd, cmd_orig, sizeof(*cmd_orig));
opcode = be32_to_cpu(READ_ONCE(cmd->opcode));
switch (opcode) {
case GVE_ADMINQ_DESCRIBE_DEVICE:
priv->adminq_describe_device_cnt++;
break;
case GVE_ADMINQ_CONFIGURE_DEVICE_RESOURCES:
priv->adminq_cfg_device_resources_cnt++;
break;
case GVE_ADMINQ_REGISTER_PAGE_LIST:
priv->adminq_register_page_list_cnt++;
break;
case GVE_ADMINQ_UNREGISTER_PAGE_LIST:
priv->adminq_unregister_page_list_cnt++;
break;
case GVE_ADMINQ_CREATE_TX_QUEUE:
priv->adminq_create_tx_queue_cnt++;
break;
case GVE_ADMINQ_CREATE_RX_QUEUE:
priv->adminq_create_rx_queue_cnt++;
break;
case GVE_ADMINQ_DESTROY_TX_QUEUE:
priv->adminq_destroy_tx_queue_cnt++;
break;
case GVE_ADMINQ_DESTROY_RX_QUEUE:
priv->adminq_destroy_rx_queue_cnt++;
break;
case GVE_ADMINQ_DECONFIGURE_DEVICE_RESOURCES:
priv->adminq_dcfg_device_resources_cnt++;
break;
case GVE_ADMINQ_SET_DRIVER_PARAMETER:
priv->adminq_set_driver_parameter_cnt++;
break;
case GVE_ADMINQ_REPORT_STATS:
priv->adminq_report_stats_cnt++;
break;
case GVE_ADMINQ_REPORT_LINK_SPEED:
priv->adminq_report_link_speed_cnt++;
break;
case GVE_ADMINQ_GET_PTYPE_MAP:
priv->adminq_get_ptype_map_cnt++;
break;
case GVE_ADMINQ_VERIFY_DRIVER_COMPATIBILITY:
priv->adminq_verify_driver_compatibility_cnt++;
break;
default:
dev_err(&priv->pdev->dev, "unknown AQ command opcode %d\n", opcode);
}
return 0;
}
/* This function is not threadsafe - the caller is responsible for any
* necessary locks.
* The caller is also responsible for making sure there are no commands
* waiting to be executed.
*/
static int gve_adminq_execute_cmd(struct gve_priv *priv,
union gve_adminq_command *cmd_orig)
{
u32 tail, head;
int err;
tail = ioread32be(&priv->reg_bar0->adminq_event_counter);
head = priv->adminq_prod_cnt;
if (tail != head)
// This is not a valid path
return -EINVAL;
err = gve_adminq_issue_cmd(priv, cmd_orig);
if (err)
return err;
return gve_adminq_kick_and_wait(priv);
}
/* The device specifies that the management vector can either be the first irq
* or the last irq. ntfy_blk_msix_base_idx indicates the first irq assigned to
* the ntfy blks. It if is 0 then the management vector is last, if it is 1 then
* the management vector is first.
*
* gve arranges the msix vectors so that the management vector is last.
*/
#define GVE_NTFY_BLK_BASE_MSIX_IDX 0
int gve_adminq_configure_device_resources(struct gve_priv *priv,
dma_addr_t counter_array_bus_addr,
u32 num_counters,
dma_addr_t db_array_bus_addr,
u32 num_ntfy_blks)
{
union gve_adminq_command cmd;
memset(&cmd, 0, sizeof(cmd));
cmd.opcode = cpu_to_be32(GVE_ADMINQ_CONFIGURE_DEVICE_RESOURCES);
cmd.configure_device_resources =
(struct gve_adminq_configure_device_resources) {
.counter_array = cpu_to_be64(counter_array_bus_addr),
.num_counters = cpu_to_be32(num_counters),
.irq_db_addr = cpu_to_be64(db_array_bus_addr),
.num_irq_dbs = cpu_to_be32(num_ntfy_blks),
.irq_db_stride = cpu_to_be32(sizeof(*priv->irq_db_indices)),
.ntfy_blk_msix_base_idx =
cpu_to_be32(GVE_NTFY_BLK_BASE_MSIX_IDX),
.queue_format = priv->queue_format,
};
return gve_adminq_execute_cmd(priv, &cmd);
}
int gve_adminq_deconfigure_device_resources(struct gve_priv *priv)
{
union gve_adminq_command cmd;
memset(&cmd, 0, sizeof(cmd));
cmd.opcode = cpu_to_be32(GVE_ADMINQ_DECONFIGURE_DEVICE_RESOURCES);
return gve_adminq_execute_cmd(priv, &cmd);
}
static int gve_adminq_create_tx_queue(struct gve_priv *priv, u32 queue_index)
{
struct gve_tx_ring *tx = &priv->tx[queue_index];
union gve_adminq_command cmd;
memset(&cmd, 0, sizeof(cmd));
cmd.opcode = cpu_to_be32(GVE_ADMINQ_CREATE_TX_QUEUE);
cmd.create_tx_queue = (struct gve_adminq_create_tx_queue) {
.queue_id = cpu_to_be32(queue_index),
.queue_resources_addr =
cpu_to_be64(tx->q_resources_bus),
.tx_ring_addr = cpu_to_be64(tx->bus),
.ntfy_id = cpu_to_be32(tx->ntfy_id),
.tx_ring_size = cpu_to_be16(priv->tx_desc_cnt),
};
if (gve_is_gqi(priv)) {
u32 qpl_id = priv->queue_format == GVE_GQI_RDA_FORMAT ?
GVE_RAW_ADDRESSING_QPL_ID : tx->tx_fifo.qpl->id;
cmd.create_tx_queue.queue_page_list_id = cpu_to_be32(qpl_id);
} else {
u32 qpl_id = 0;
if (priv->queue_format == GVE_DQO_RDA_FORMAT)
qpl_id = GVE_RAW_ADDRESSING_QPL_ID;
else
qpl_id = tx->dqo.qpl->id;
cmd.create_tx_queue.queue_page_list_id = cpu_to_be32(qpl_id);
cmd.create_tx_queue.tx_comp_ring_addr =
cpu_to_be64(tx->complq_bus_dqo);
cmd.create_tx_queue.tx_comp_ring_size =
cpu_to_be16(priv->tx_desc_cnt);
}
return gve_adminq_issue_cmd(priv, &cmd);
}
int gve_adminq_create_tx_queues(struct gve_priv *priv, u32 start_id, u32 num_queues)
{
int err;
int i;
for (i = start_id; i < start_id + num_queues; i++) {
err = gve_adminq_create_tx_queue(priv, i);
if (err)
return err;
}
return gve_adminq_kick_and_wait(priv);
}
static void gve_adminq_get_create_rx_queue_cmd(struct gve_priv *priv,
union gve_adminq_command *cmd,
u32 queue_index)
{
struct gve_rx_ring *rx = &priv->rx[queue_index];
memset(cmd, 0, sizeof(*cmd));
cmd->opcode = cpu_to_be32(GVE_ADMINQ_CREATE_RX_QUEUE);
cmd->create_rx_queue = (struct gve_adminq_create_rx_queue) {
.queue_id = cpu_to_be32(queue_index),
.ntfy_id = cpu_to_be32(rx->ntfy_id),
.queue_resources_addr = cpu_to_be64(rx->q_resources_bus),
.rx_ring_size = cpu_to_be16(priv->rx_desc_cnt),
};
if (gve_is_gqi(priv)) {
u32 qpl_id = priv->queue_format == GVE_GQI_RDA_FORMAT ?
GVE_RAW_ADDRESSING_QPL_ID : rx->data.qpl->id;
cmd->create_rx_queue.rx_desc_ring_addr =
cpu_to_be64(rx->desc.bus);
cmd->create_rx_queue.rx_data_ring_addr =
cpu_to_be64(rx->data.data_bus);
cmd->create_rx_queue.index = cpu_to_be32(queue_index);
cmd->create_rx_queue.queue_page_list_id = cpu_to_be32(qpl_id);
cmd->create_rx_queue.packet_buffer_size = cpu_to_be16(rx->packet_buffer_size);
} else {
u32 qpl_id = 0;
if (priv->queue_format == GVE_DQO_RDA_FORMAT)
qpl_id = GVE_RAW_ADDRESSING_QPL_ID;
else
qpl_id = rx->dqo.qpl->id;
cmd->create_rx_queue.queue_page_list_id = cpu_to_be32(qpl_id);
cmd->create_rx_queue.rx_desc_ring_addr =
cpu_to_be64(rx->dqo.complq.bus);
cmd->create_rx_queue.rx_data_ring_addr =
cpu_to_be64(rx->dqo.bufq.bus);
cmd->create_rx_queue.packet_buffer_size =
cpu_to_be16(priv->data_buffer_size_dqo);
cmd->create_rx_queue.rx_buff_ring_size =
cpu_to_be16(priv->rx_desc_cnt);
cmd->create_rx_queue.enable_rsc =
!!(priv->dev->features & NETIF_F_LRO);
if (priv->header_split_enabled)
cmd->create_rx_queue.header_buffer_size =
cpu_to_be16(priv->header_buf_size);
}
}
static int gve_adminq_create_rx_queue(struct gve_priv *priv, u32 queue_index)
{
union gve_adminq_command cmd;
gve_adminq_get_create_rx_queue_cmd(priv, &cmd, queue_index);
return gve_adminq_issue_cmd(priv, &cmd);
}
/* Unlike gve_adminq_create_rx_queue, this actually rings the doorbell */
int gve_adminq_create_single_rx_queue(struct gve_priv *priv, u32 queue_index)
{
union gve_adminq_command cmd;
gve_adminq_get_create_rx_queue_cmd(priv, &cmd, queue_index);
return gve_adminq_execute_cmd(priv, &cmd);
}
int gve_adminq_create_rx_queues(struct gve_priv *priv, u32 num_queues)
{
int err;
int i;
for (i = 0; i < num_queues; i++) {
err = gve_adminq_create_rx_queue(priv, i);
if (err)
return err;
}
return gve_adminq_kick_and_wait(priv);
}
static int gve_adminq_destroy_tx_queue(struct gve_priv *priv, u32 queue_index)
{
union gve_adminq_command cmd;
int err;
memset(&cmd, 0, sizeof(cmd));
cmd.opcode = cpu_to_be32(GVE_ADMINQ_DESTROY_TX_QUEUE);
cmd.destroy_tx_queue = (struct gve_adminq_destroy_tx_queue) {
.queue_id = cpu_to_be32(queue_index),
};
err = gve_adminq_issue_cmd(priv, &cmd);
if (err)
return err;
return 0;
}
int gve_adminq_destroy_tx_queues(struct gve_priv *priv, u32 start_id, u32 num_queues)
{
int err;
int i;
for (i = start_id; i < start_id + num_queues; i++) {
err = gve_adminq_destroy_tx_queue(priv, i);
if (err)
return err;
}
return gve_adminq_kick_and_wait(priv);
}
static void gve_adminq_make_destroy_rx_queue_cmd(union gve_adminq_command *cmd,
u32 queue_index)
{
memset(cmd, 0, sizeof(*cmd));
cmd->opcode = cpu_to_be32(GVE_ADMINQ_DESTROY_RX_QUEUE);
cmd->destroy_rx_queue = (struct gve_adminq_destroy_rx_queue) {
.queue_id = cpu_to_be32(queue_index),
};
}
static int gve_adminq_destroy_rx_queue(struct gve_priv *priv, u32 queue_index)
{
union gve_adminq_command cmd;
gve_adminq_make_destroy_rx_queue_cmd(&cmd, queue_index);
return gve_adminq_issue_cmd(priv, &cmd);
}
/* Unlike gve_adminq_destroy_rx_queue, this actually rings the doorbell */
int gve_adminq_destroy_single_rx_queue(struct gve_priv *priv, u32 queue_index)
{
union gve_adminq_command cmd;
gve_adminq_make_destroy_rx_queue_cmd(&cmd, queue_index);
return gve_adminq_execute_cmd(priv, &cmd);
}
int gve_adminq_destroy_rx_queues(struct gve_priv *priv, u32 num_queues)
{
int err;
int i;
for (i = 0; i < num_queues; i++) {
err = gve_adminq_destroy_rx_queue(priv, i);
if (err)
return err;
}
return gve_adminq_kick_and_wait(priv);
}
static void gve_set_default_desc_cnt(struct gve_priv *priv,
const struct gve_device_descriptor *descriptor)
{
priv->tx_desc_cnt = be16_to_cpu(descriptor->tx_queue_entries);
priv->rx_desc_cnt = be16_to_cpu(descriptor->rx_queue_entries);
/* set default ranges */
priv->max_tx_desc_cnt = priv->tx_desc_cnt;
priv->max_rx_desc_cnt = priv->rx_desc_cnt;
priv->min_tx_desc_cnt = priv->tx_desc_cnt;
priv->min_rx_desc_cnt = priv->rx_desc_cnt;
}
static void gve_enable_supported_features(struct gve_priv *priv,
u32 supported_features_mask,
const struct gve_device_option_jumbo_frames
*dev_op_jumbo_frames,
const struct gve_device_option_dqo_qpl
*dev_op_dqo_qpl,
const struct gve_device_option_buffer_sizes
*dev_op_buffer_sizes,
const struct gve_device_option_modify_ring
*dev_op_modify_ring)
{
/* Before control reaches this point, the page-size-capped max MTU from
* the gve_device_descriptor field has already been stored in
* priv->dev->max_mtu. We overwrite it with the true max MTU below.
*/
if (dev_op_jumbo_frames &&
(supported_features_mask & GVE_SUP_JUMBO_FRAMES_MASK)) {
dev_info(&priv->pdev->dev,
"JUMBO FRAMES device option enabled.\n");
priv->dev->max_mtu = be16_to_cpu(dev_op_jumbo_frames->max_mtu);
}
/* Override pages for qpl for DQO-QPL */
if (dev_op_dqo_qpl) {
priv->tx_pages_per_qpl =
be16_to_cpu(dev_op_dqo_qpl->tx_pages_per_qpl);
if (priv->tx_pages_per_qpl == 0)
priv->tx_pages_per_qpl = DQO_QPL_DEFAULT_TX_PAGES;
}
if (dev_op_buffer_sizes &&
(supported_features_mask & GVE_SUP_BUFFER_SIZES_MASK)) {
priv->max_rx_buffer_size =
be16_to_cpu(dev_op_buffer_sizes->packet_buffer_size);
priv->header_buf_size =
be16_to_cpu(dev_op_buffer_sizes->header_buffer_size);
dev_info(&priv->pdev->dev,
"BUFFER SIZES device option enabled with max_rx_buffer_size of %u, header_buf_size of %u.\n",
priv->max_rx_buffer_size, priv->header_buf_size);
}
/* Read and store ring size ranges given by device */
if (dev_op_modify_ring &&
(supported_features_mask & GVE_SUP_MODIFY_RING_MASK)) {
priv->modify_ring_size_enabled = true;
/* max ring size for DQO QPL should not be overwritten because of device limit */
if (priv->queue_format != GVE_DQO_QPL_FORMAT) {
priv->max_rx_desc_cnt = be16_to_cpu(dev_op_modify_ring->max_rx_ring_size);
priv->max_tx_desc_cnt = be16_to_cpu(dev_op_modify_ring->max_tx_ring_size);
}
if (priv->default_min_ring_size) {
/* If device hasn't provided minimums, use default minimums */
priv->min_tx_desc_cnt = GVE_DEFAULT_MIN_TX_RING_SIZE;
priv->min_rx_desc_cnt = GVE_DEFAULT_MIN_RX_RING_SIZE;
} else {
priv->min_rx_desc_cnt = be16_to_cpu(dev_op_modify_ring->min_rx_ring_size);
priv->min_tx_desc_cnt = be16_to_cpu(dev_op_modify_ring->min_tx_ring_size);
}
}
}
int gve_adminq_describe_device(struct gve_priv *priv)
{
struct gve_device_option_buffer_sizes *dev_op_buffer_sizes = NULL;
struct gve_device_option_jumbo_frames *dev_op_jumbo_frames = NULL;
struct gve_device_option_modify_ring *dev_op_modify_ring = NULL;
struct gve_device_option_gqi_rda *dev_op_gqi_rda = NULL;
struct gve_device_option_gqi_qpl *dev_op_gqi_qpl = NULL;
struct gve_device_option_dqo_rda *dev_op_dqo_rda = NULL;
struct gve_device_option_dqo_qpl *dev_op_dqo_qpl = NULL;
struct gve_device_descriptor *descriptor;
u32 supported_features_mask = 0;
union gve_adminq_command cmd;
dma_addr_t descriptor_bus;
int err = 0;
u8 *mac;
u16 mtu;
memset(&cmd, 0, sizeof(cmd));
descriptor = dma_pool_alloc(priv->adminq_pool, GFP_KERNEL,
&descriptor_bus);
if (!descriptor)
return -ENOMEM;
cmd.opcode = cpu_to_be32(GVE_ADMINQ_DESCRIBE_DEVICE);
cmd.describe_device.device_descriptor_addr =
cpu_to_be64(descriptor_bus);
cmd.describe_device.device_descriptor_version =
cpu_to_be32(GVE_ADMINQ_DEVICE_DESCRIPTOR_VERSION);
cmd.describe_device.available_length =
cpu_to_be32(GVE_ADMINQ_BUFFER_SIZE);
err = gve_adminq_execute_cmd(priv, &cmd);
if (err)
goto free_device_descriptor;
err = gve_process_device_options(priv, descriptor, &dev_op_gqi_rda,
&dev_op_gqi_qpl, &dev_op_dqo_rda,
&dev_op_jumbo_frames, &dev_op_dqo_qpl,
&dev_op_buffer_sizes,
&dev_op_modify_ring);
if (err)
goto free_device_descriptor;
/* If the GQI_RAW_ADDRESSING option is not enabled and the queue format
* is not set to GqiRda, choose the queue format in a priority order:
* DqoRda, DqoQpl, GqiRda, GqiQpl. Use GqiQpl as default.
*/
if (dev_op_dqo_rda) {
priv->queue_format = GVE_DQO_RDA_FORMAT;
dev_info(&priv->pdev->dev,
"Driver is running with DQO RDA queue format.\n");
supported_features_mask =
be32_to_cpu(dev_op_dqo_rda->supported_features_mask);
} else if (dev_op_dqo_qpl) {
priv->queue_format = GVE_DQO_QPL_FORMAT;
supported_features_mask =
be32_to_cpu(dev_op_dqo_qpl->supported_features_mask);
} else if (dev_op_gqi_rda) {
priv->queue_format = GVE_GQI_RDA_FORMAT;
dev_info(&priv->pdev->dev,
"Driver is running with GQI RDA queue format.\n");
supported_features_mask =
be32_to_cpu(dev_op_gqi_rda->supported_features_mask);
} else if (priv->queue_format == GVE_GQI_RDA_FORMAT) {
dev_info(&priv->pdev->dev,
"Driver is running with GQI RDA queue format.\n");
} else {
priv->queue_format = GVE_GQI_QPL_FORMAT;
if (dev_op_gqi_qpl)
supported_features_mask =
be32_to_cpu(dev_op_gqi_qpl->supported_features_mask);
dev_info(&priv->pdev->dev,
"Driver is running with GQI QPL queue format.\n");
}
/* set default descriptor counts */
gve_set_default_desc_cnt(priv, descriptor);
/* DQO supports LRO. */
if (!gve_is_gqi(priv))
priv->dev->hw_features |= NETIF_F_LRO;
priv->max_registered_pages =
be64_to_cpu(descriptor->max_registered_pages);
mtu = be16_to_cpu(descriptor->mtu);
if (mtu < ETH_MIN_MTU) {
dev_err(&priv->pdev->dev, "MTU %d below minimum MTU\n", mtu);
err = -EINVAL;
goto free_device_descriptor;
}
priv->dev->max_mtu = mtu;
priv->num_event_counters = be16_to_cpu(descriptor->counters);
eth_hw_addr_set(priv->dev, descriptor->mac);
mac = descriptor->mac;
dev_info(&priv->pdev->dev, "MAC addr: %pM\n", mac);
priv->tx_pages_per_qpl = be16_to_cpu(descriptor->tx_pages_per_qpl);
priv->default_num_queues = be16_to_cpu(descriptor->default_num_queues);
gve_enable_supported_features(priv, supported_features_mask,
dev_op_jumbo_frames, dev_op_dqo_qpl,
dev_op_buffer_sizes, dev_op_modify_ring);
free_device_descriptor:
dma_pool_free(priv->adminq_pool, descriptor, descriptor_bus);
return err;
}
int gve_adminq_register_page_list(struct gve_priv *priv,
struct gve_queue_page_list *qpl)
{
struct device *hdev = &priv->pdev->dev;
u32 num_entries = qpl->num_entries;
u32 size = num_entries * sizeof(qpl->page_buses[0]);
union gve_adminq_command cmd;
dma_addr_t page_list_bus;
__be64 *page_list;
int err;
int i;
memset(&cmd, 0, sizeof(cmd));
page_list = dma_alloc_coherent(hdev, size, &page_list_bus, GFP_KERNEL);
if (!page_list)
return -ENOMEM;
for (i = 0; i < num_entries; i++)
page_list[i] = cpu_to_be64(qpl->page_buses[i]);
cmd.opcode = cpu_to_be32(GVE_ADMINQ_REGISTER_PAGE_LIST);
cmd.reg_page_list = (struct gve_adminq_register_page_list) {
.page_list_id = cpu_to_be32(qpl->id),
.num_pages = cpu_to_be32(num_entries),
.page_address_list_addr = cpu_to_be64(page_list_bus),
.page_size = cpu_to_be64(PAGE_SIZE),
};
err = gve_adminq_execute_cmd(priv, &cmd);
dma_free_coherent(hdev, size, page_list, page_list_bus);
return err;
}
int gve_adminq_unregister_page_list(struct gve_priv *priv, u32 page_list_id)
{
union gve_adminq_command cmd;
memset(&cmd, 0, sizeof(cmd));
cmd.opcode = cpu_to_be32(GVE_ADMINQ_UNREGISTER_PAGE_LIST);
cmd.unreg_page_list = (struct gve_adminq_unregister_page_list) {
.page_list_id = cpu_to_be32(page_list_id),
};
return gve_adminq_execute_cmd(priv, &cmd);
}
int gve_adminq_set_mtu(struct gve_priv *priv, u64 mtu)
{
union gve_adminq_command cmd;
memset(&cmd, 0, sizeof(cmd));
cmd.opcode = cpu_to_be32(GVE_ADMINQ_SET_DRIVER_PARAMETER);
cmd.set_driver_param = (struct gve_adminq_set_driver_parameter) {
.parameter_type = cpu_to_be32(GVE_SET_PARAM_MTU),
.parameter_value = cpu_to_be64(mtu),
};
return gve_adminq_execute_cmd(priv, &cmd);
}
int gve_adminq_report_stats(struct gve_priv *priv, u64 stats_report_len,
dma_addr_t stats_report_addr, u64 interval)
{
union gve_adminq_command cmd;
memset(&cmd, 0, sizeof(cmd));
cmd.opcode = cpu_to_be32(GVE_ADMINQ_REPORT_STATS);
cmd.report_stats = (struct gve_adminq_report_stats) {
.stats_report_len = cpu_to_be64(stats_report_len),
.stats_report_addr = cpu_to_be64(stats_report_addr),
.interval = cpu_to_be64(interval),
};
return gve_adminq_execute_cmd(priv, &cmd);
}
int gve_adminq_verify_driver_compatibility(struct gve_priv *priv,
u64 driver_info_len,
dma_addr_t driver_info_addr)
{
union gve_adminq_command cmd;
memset(&cmd, 0, sizeof(cmd));
cmd.opcode = cpu_to_be32(GVE_ADMINQ_VERIFY_DRIVER_COMPATIBILITY);
cmd.verify_driver_compatibility = (struct gve_adminq_verify_driver_compatibility) {
.driver_info_len = cpu_to_be64(driver_info_len),
.driver_info_addr = cpu_to_be64(driver_info_addr),
};
return gve_adminq_execute_cmd(priv, &cmd);
}
int gve_adminq_report_link_speed(struct gve_priv *priv)
{
union gve_adminq_command gvnic_cmd;
dma_addr_t link_speed_region_bus;
__be64 *link_speed_region;
int err;
link_speed_region =
dma_alloc_coherent(&priv->pdev->dev, sizeof(*link_speed_region),
&link_speed_region_bus, GFP_KERNEL);
if (!link_speed_region)
return -ENOMEM;
memset(&gvnic_cmd, 0, sizeof(gvnic_cmd));
gvnic_cmd.opcode = cpu_to_be32(GVE_ADMINQ_REPORT_LINK_SPEED);
gvnic_cmd.report_link_speed.link_speed_address =
cpu_to_be64(link_speed_region_bus);
err = gve_adminq_execute_cmd(priv, &gvnic_cmd);
priv->link_speed = be64_to_cpu(*link_speed_region);
dma_free_coherent(&priv->pdev->dev, sizeof(*link_speed_region), link_speed_region,
link_speed_region_bus);
return err;
}
int gve_adminq_get_ptype_map_dqo(struct gve_priv *priv,
struct gve_ptype_lut *ptype_lut)
{
struct gve_ptype_map *ptype_map;
union gve_adminq_command cmd;
dma_addr_t ptype_map_bus;
int err = 0;
int i;
memset(&cmd, 0, sizeof(cmd));
ptype_map = dma_alloc_coherent(&priv->pdev->dev, sizeof(*ptype_map),
&ptype_map_bus, GFP_KERNEL);
if (!ptype_map)
return -ENOMEM;
cmd.opcode = cpu_to_be32(GVE_ADMINQ_GET_PTYPE_MAP);
cmd.get_ptype_map = (struct gve_adminq_get_ptype_map) {
.ptype_map_len = cpu_to_be64(sizeof(*ptype_map)),
.ptype_map_addr = cpu_to_be64(ptype_map_bus),
};
err = gve_adminq_execute_cmd(priv, &cmd);
if (err)
goto err;
/* Populate ptype_lut. */
for (i = 0; i < GVE_NUM_PTYPES; i++) {
ptype_lut->ptypes[i].l3_type =
ptype_map->ptypes[i].l3_type;
ptype_lut->ptypes[i].l4_type =
ptype_map->ptypes[i].l4_type;
}
err:
dma_free_coherent(&priv->pdev->dev, sizeof(*ptype_map), ptype_map,
ptype_map_bus);
return err;
}
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