blob: 61c2ed1ace40421a9b5cf988fddd45338fde15e7 [file] [log] [blame]
/*
**************************************************************************
* Copyright (c) 2014-2018, The Linux Foundation. All rights reserved.
* Permission to use, copy, modify, and/or distribute this software for
* any purpose with or without fee is hereby granted, provided that the
* above copyright notice and this permission notice appear in all copies.
* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT
* OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
**************************************************************************
*/
/*
* nss_ipv6.c
* NSS IPv6 APIs
*/
#include "nss_tx_rx_common.h"
#include "nss_dscp_map.h"
#include "nss_ipv6_stats.h"
#define NSS_IPV6_TX_MSG_TIMEOUT 1000 /* 1 sec timeout for IPv6 messages */
/*
* Private data structure for ipv6 configure messages
*/
struct nss_ipv6_cfg_pvt {
struct semaphore sem; /* Semaphore structure */
struct completion complete; /* Completion structure */
int response; /* Response from FW */
void *cb; /* Original cb for sync msgs */
void *app_data; /* Original app_data for sync msgs */
} nss_ipv6_pvt;
/*
* Private data structure for ipv6 connection information.
*/
struct nss_ipv6_conn_table_info {
uint32_t ce_table_size; /* Size of connection entry table in NSS FW */
uint32_t cme_table_size; /* Size of connection match entry table in NSS FW */
unsigned long ce_mem; /* Start address for connection entry table */
unsigned long cme_mem; /* Start address for connection match entry table */
} nss_ipv6_ct_info;
int nss_ipv6_conn_cfg = NSS_DEFAULT_NUM_CONN;
int nss_ipv6_accel_mode_cfg __read_mostly = 1;
static struct nss_dscp_map_entry mapping[NSS_DSCP_MAP_ARRAY_SIZE];
/*
* Callback for conn_sync_many request message.
*/
nss_ipv6_msg_callback_t nss_ipv6_conn_sync_many_msg_cb = NULL;
/*
* nss_ipv6_dscp_map_usage()
* Help function shows the usage of the command.
*/
static inline void nss_ipv6_dscp_map_usage(void)
{
nss_info_always("\nUsage:\n");
nss_info_always("echo <dscp> <action> <prio> > /proc/sys/dev/nss/ipv6cfg/ipv6_dscp_map\n\n");
nss_info_always("dscp[0-63] action[0-%u] prio[0-%u]:\n\n",
NSS_IPV6_DSCP_MAP_ACTION_MAX - 1,
NSS_DSCP_MAP_PRIORITY_MAX - 1);
}
/*
* nss_ipv6_rx_msg_handler()
* Handle NSS -> HLOS messages for IPv6 bridge/route
*/
static void nss_ipv6_rx_msg_handler(struct nss_ctx_instance *nss_ctx, struct nss_cmn_msg *ncm, __attribute__((unused))void *app_data)
{
struct nss_ipv6_msg *nim = (struct nss_ipv6_msg *)ncm;
nss_ipv6_msg_callback_t cb;
BUG_ON(ncm->interface != NSS_IPV6_RX_INTERFACE);
/*
* Is this a valid request/response packet?
*/
if (ncm->type >= NSS_IPV6_MAX_MSG_TYPES) {
nss_warning("%p: received invalid message %d for IPv6 interface", nss_ctx, nim->cm.type);
return;
}
if (nss_cmn_get_msg_len(ncm) > sizeof(struct nss_ipv6_msg)) {
nss_warning("%p: message length is invalid: %d", nss_ctx, nss_cmn_get_msg_len(ncm));
return;
}
/*
* Trace messages.
*/
nss_ipv6_log_rx_msg(nim);
/*
* Handle deprecated messages. Eventually these messages should be removed.
*/
switch (nim->cm.type) {
case NSS_IPV6_RX_NODE_STATS_SYNC_MSG:
/*
* Update driver statistics on node sync.
*/
nss_ipv6_stats_node_sync(nss_ctx, &nim->msg.node_stats);
break;
case NSS_IPV6_RX_CONN_STATS_SYNC_MSG:
/*
* Update driver statistics on connection sync.
*/
nss_ipv6_stats_conn_sync(nss_ctx, &nim->msg.conn_stats);
break;
case NSS_IPV6_TX_CONN_STATS_SYNC_MANY_MSG:
/*
* Update driver statistics on connection sync many.
*/
nss_ipv6_stats_conn_sync_many(nss_ctx, &nim->msg.conn_stats_many);
ncm->cb = (nss_ptr_t)nss_ipv6_conn_sync_many_msg_cb;
break;
}
/*
* Update the callback and app_data for NOTIFY messages, IPv6 sends all notify messages
* to the same callback/app_data.
*/
if (nim->cm.response == NSS_CMM_RESPONSE_NOTIFY) {
ncm->cb = (nss_ptr_t)nss_ctx->nss_top->ipv6_callback;
ncm->app_data = (nss_ptr_t)nss_ctx->nss_top->ipv6_ctx;
}
/*
* Do we have a callback?
*/
if (!ncm->cb) {
return;
}
/*
* Callback
*/
cb = (nss_ipv6_msg_callback_t)ncm->cb;
cb((void *)ncm->app_data, nim);
}
/*
* nss_ipv6_tx_sync_callback()
* Callback to handle the completion of synchronous tx messages.
*/
static void nss_ipv6_tx_sync_callback(void *app_data, struct nss_ipv6_msg *nim)
{
nss_ipv6_msg_callback_t callback = (nss_ipv6_msg_callback_t)nss_ipv6_pvt.cb;
void *data = nss_ipv6_pvt.app_data;
nss_ipv6_pvt.cb = NULL;
nss_ipv6_pvt.app_data = NULL;
if (nim->cm.response != NSS_CMN_RESPONSE_ACK) {
nss_warning("ipv6 error response %d\n", nim->cm.response);
nss_ipv6_pvt.response = NSS_TX_FAILURE;
} else {
nss_ipv6_pvt.response = NSS_TX_SUCCESS;
}
if (callback) {
callback(data, nim);
}
complete(&nss_ipv6_pvt.complete);
}
/*
* nss_ipv6_dscp_action_get()
* Gets the action mapped to dscp.
*/
enum nss_ipv6_dscp_map_actions nss_ipv6_dscp_action_get(uint8_t dscp)
{
if (dscp >= NSS_DSCP_MAP_ARRAY_SIZE) {
nss_warning("dscp:%u invalid\n", dscp);
return NSS_IPV6_DSCP_MAP_ACTION_MAX;
}
return mapping[dscp].action;
}
EXPORT_SYMBOL(nss_ipv6_dscp_action_get);
/*
* nss_ipv6_max_conn_count()
* Return the maximum number of IPv6 connections that the NSS acceleration engine supports.
*/
int nss_ipv6_max_conn_count(void)
{
return nss_ipv6_conn_cfg;
}
EXPORT_SYMBOL(nss_ipv6_max_conn_count);
/*
* nss_ipv6_conn_inquiry()
* Inquiry if a connection has been established in NSS FW
*/
nss_tx_status_t nss_ipv6_conn_inquiry(struct nss_ipv6_5tuple *ipv6_5t_p,
nss_ipv6_msg_callback_t cb)
{
nss_tx_status_t nss_tx_status;
struct nss_ipv6_msg nim;
struct nss_ctx_instance *nss_ctx = &nss_top_main.nss[0];
/*
* Initialize inquiry message structure.
* This is async message and the result will be returned
* to the caller by the msg_callback passed in.
*/
memset(&nim, 0, sizeof(nim));
nss_ipv6_msg_init(&nim, NSS_IPV6_RX_INTERFACE,
NSS_IPV6_TX_CONN_CFG_INQUIRY_MSG,
sizeof(struct nss_ipv6_inquiry_msg),
cb, NULL);
nim.msg.inquiry.rr.tuple = *ipv6_5t_p;
nss_tx_status = nss_ipv6_tx(nss_ctx, &nim);
if (nss_tx_status != NSS_TX_SUCCESS) {
nss_warning("%p: Send inquiry message failed\n", ipv6_5t_p);
}
return nss_tx_status;
}
EXPORT_SYMBOL(nss_ipv6_conn_inquiry);
/*
* nss_ipv6_tx_with_size()
* Transmit an ipv6 message to the FW with a specified size.
*/
nss_tx_status_t nss_ipv6_tx_with_size(struct nss_ctx_instance *nss_ctx, struct nss_ipv6_msg *nim, uint32_t size)
{
struct nss_cmn_msg *ncm = &nim->cm;
/*
* Sanity check the message
*/
if (ncm->interface != NSS_IPV6_RX_INTERFACE) {
nss_warning("%p: tx request for another interface: %d", nss_ctx, ncm->interface);
return NSS_TX_FAILURE;
}
if (ncm->type >= NSS_IPV6_MAX_MSG_TYPES) {
nss_warning("%p: message type out of range: %d", nss_ctx, ncm->type);
return NSS_TX_FAILURE;
}
/*
* Trace messages.
*/
nss_ipv6_log_tx_msg(nim);
return nss_core_send_cmd(nss_ctx, nim, sizeof(*nim), size);
}
EXPORT_SYMBOL(nss_ipv6_tx_with_size);
/*
* nss_ipv6_tx()
* Transmit an ipv6 message to the FW.
*/
nss_tx_status_t nss_ipv6_tx(struct nss_ctx_instance *nss_ctx, struct nss_ipv6_msg *nim)
{
return nss_ipv6_tx_with_size(nss_ctx, nim, NSS_NBUF_PAYLOAD_SIZE);
}
EXPORT_SYMBOL(nss_ipv6_tx);
/*
* nss_ipv6_tx_sync()
* Transmit a synchronous ipv6 message to the FW.
*/
nss_tx_status_t nss_ipv6_tx_sync(struct nss_ctx_instance *nss_ctx, struct nss_ipv6_msg *nim)
{
nss_tx_status_t status;
int ret = 0;
down(&nss_ipv6_pvt.sem);
nss_ipv6_pvt.cb = (void *)nim->cm.cb;
nss_ipv6_pvt.app_data = (void *)nim->cm.app_data;
nim->cm.cb = (nss_ptr_t)nss_ipv6_tx_sync_callback;
nim->cm.app_data = (nss_ptr_t)NULL;
status = nss_ipv6_tx(nss_ctx, nim);
if (status != NSS_TX_SUCCESS) {
nss_warning("%p: nss ipv6 msg tx failed\n", nss_ctx);
up(&nss_ipv6_pvt.sem);
return status;
}
ret = wait_for_completion_timeout(&nss_ipv6_pvt.complete, msecs_to_jiffies(NSS_IPV6_TX_MSG_TIMEOUT));
if (!ret) {
nss_warning("%p: IPv6 tx sync failed due to timeout\n", nss_ctx);
nss_ipv6_pvt.response = NSS_TX_FAILURE;
}
status = nss_ipv6_pvt.response;
up(&nss_ipv6_pvt.sem);
return status;
}
EXPORT_SYMBOL(nss_ipv6_tx_sync);
/*
**********************************
Register/Unregister/Miscellaneous APIs
**********************************
*/
/*
* nss_ipv6_notify_register()
* Register to received IPv6 events.
*
* NOTE: Do we want to pass an nss_ctx here so that we can register for ipv6 on any core?
*/
struct nss_ctx_instance *nss_ipv6_notify_register(nss_ipv6_msg_callback_t cb, void *app_data)
{
/*
* TODO: We need to have a new array in support of the new API
* TODO: If we use a per-context array, we would move the array into nss_ctx based.
*/
nss_top_main.ipv6_callback = cb;
nss_top_main.ipv6_ctx = app_data;
return &nss_top_main.nss[nss_top_main.ipv6_handler_id];
}
EXPORT_SYMBOL(nss_ipv6_notify_register);
/*
* nss_ipv6_notify_unregister()
* Unregister to received IPv6 events.
*
* NOTE: Do we want to pass an nss_ctx here so that we can register for ipv6 on any core?
*/
void nss_ipv6_notify_unregister(void)
{
nss_top_main.ipv6_callback = NULL;
}
EXPORT_SYMBOL(nss_ipv6_notify_unregister);
/*
* nss_ipv6_conn_sync_many_notify_register()
* Register to receive IPv6 conn_sync_many message response.
*/
void nss_ipv6_conn_sync_many_notify_register(nss_ipv6_msg_callback_t cb)
{
nss_ipv6_conn_sync_many_msg_cb = cb;
}
EXPORT_SYMBOL(nss_ipv6_conn_sync_many_notify_register);
/*
* nss_ipv6_conn_sync_many_notify_unregister()
* Unregister to receive IPv6 conn_sync_many message response.
*/
void nss_ipv6_conn_sync_many_notify_unregister(void)
{
nss_ipv6_conn_sync_many_msg_cb = NULL;
}
EXPORT_SYMBOL(nss_ipv6_conn_sync_many_notify_unregister);
/*
* nss_ipv6_get_mgr()
*
* TODO: This only suppports a single ipv6, do we ever want to support more?
*/
struct nss_ctx_instance *nss_ipv6_get_mgr(void)
{
return (void *)&nss_top_main.nss[nss_top_main.ipv6_handler_id];
}
EXPORT_SYMBOL(nss_ipv6_get_mgr);
/*
* nss_ipv6_register_handler()
* Register our handler to receive messages for this interface
*/
void nss_ipv6_register_handler()
{
struct nss_ctx_instance *nss_ctx = nss_ipv6_get_mgr();
if (nss_core_register_handler(nss_ctx, NSS_IPV6_RX_INTERFACE, nss_ipv6_rx_msg_handler, NULL) != NSS_CORE_STATUS_SUCCESS) {
nss_warning("IPv6 handler failed to register");
}
nss_ipv6_stats_dentry_create();
}
/*
* nss_ipv6_conn_cfg_process_callback()
* Call back function for the ipv6 connection configuration process.
*/
static void nss_ipv6_conn_cfg_process_callback(void *app_data, struct nss_ipv6_msg *nim)
{
struct nss_ipv6_rule_conn_cfg_msg *nirccm = &nim->msg.rule_conn_cfg;
struct nss_ctx_instance *nss_ctx __maybe_unused = nss_ipv6_get_mgr();
if (nim->cm.response != NSS_CMN_RESPONSE_ACK) {
nss_warning("%p: IPv6 connection configuration failed with error: %d\n", nss_ctx, nim->cm.error);
nss_core_update_max_ipv6_conn(NSS_FW_DEFAULT_NUM_CONN);
nss_ipv6_free_conn_tables();
return;
}
nss_ipv6_conn_cfg = ntohl(nirccm->num_conn);
nss_warning("%p: IPv6 connection configuration success: %d\n", nss_ctx, nim->cm.error);
}
/*
* nss_ipv6_conn_cfg_process()
* Process request to configure number of ipv6 connections
*/
static int nss_ipv6_conn_cfg_process(struct nss_ctx_instance *nss_ctx, int conn)
{
struct nss_ipv6_msg nim;
struct nss_ipv6_rule_conn_cfg_msg *nirccm;
nss_tx_status_t nss_tx_status;
if ((!nss_ipv6_ct_info.ce_table_size) || (!nss_ipv6_ct_info.cme_table_size)) {
nss_warning("%p: connection entry or connection match entry table size not available\n",
nss_ctx);
return -EINVAL;
}
nss_info("%p: IPv6 supported connections: %d\n", nss_ctx, conn);
nss_ipv6_ct_info.ce_mem = __get_free_pages(GFP_KERNEL | __GFP_NOWARN | __GFP_ZERO,
get_order(nss_ipv6_ct_info.ce_table_size));
if (!nss_ipv6_ct_info.ce_mem) {
nss_warning("%p: Memory allocation failed for IPv6 Connections: %d\n",
nss_ctx,
conn);
goto fail;
}
nss_warning("%p: CE Memory allocated for IPv6 Connections: %d\n",
nss_ctx,
conn);
nss_ipv6_ct_info.cme_mem = __get_free_pages(GFP_KERNEL | __GFP_NOWARN | __GFP_ZERO,
get_order(nss_ipv6_ct_info.cme_table_size));
if (!nss_ipv6_ct_info.cme_mem) {
nss_warning("%p: Memory allocation failed for IPv6 Connections: %d\n",
nss_ctx,
conn);
goto fail;
}
nss_warning("%p: CME Memory allocated for IPv6 Connections: %d\n",
nss_ctx,
conn);
memset(&nim, 0, sizeof(struct nss_ipv6_msg));
nss_ipv6_msg_init(&nim, NSS_IPV6_RX_INTERFACE, NSS_IPV6_TX_CONN_CFG_RULE_MSG,
sizeof(struct nss_ipv6_rule_conn_cfg_msg), nss_ipv6_conn_cfg_process_callback, NULL);
nirccm = &nim.msg.rule_conn_cfg;
nirccm->num_conn = htonl(conn);
nirccm->ce_mem = dma_map_single(nss_ctx->dev, (void *)nss_ipv6_ct_info.ce_mem, nss_ipv6_ct_info.ce_table_size, DMA_TO_DEVICE);
if (unlikely(dma_mapping_error(nss_ctx->dev, nirccm->ce_mem))) {
nss_warning("%p: DMA mapping failed for virtual address = %p", nss_ctx, (void *)nss_ipv6_ct_info.ce_mem);
goto fail;
}
nirccm->cme_mem = dma_map_single(nss_ctx->dev, (void *)nss_ipv6_ct_info.cme_mem, nss_ipv6_ct_info.cme_table_size, DMA_TO_DEVICE);
if (unlikely(dma_mapping_error(nss_ctx->dev, nirccm->cme_mem))) {
nss_warning("%p: DMA mapping failed for virtual address = %p", nss_ctx, (void *)nss_ipv6_ct_info.cme_mem);
goto fail;
}
nss_tx_status = nss_ipv6_tx(nss_ctx, &nim);
if (nss_tx_status != NSS_TX_SUCCESS) {
nss_warning("%p: nss_tx error setting IPv6 Connections: %d\n",
nss_ctx,
conn);
goto fail;
}
return 0;
fail:
nss_ipv6_free_conn_tables();
return -EINVAL;
}
/*
* nss_ipv6_update_conn_count_callback()
* Call back function for the ipv6 get connection info message.
*/
static void nss_ipv6_update_conn_count_callback(void *app_data, struct nss_ipv6_msg *nim)
{
struct nss_ipv6_rule_conn_get_table_size_msg *nircgts = &nim->msg.size;
struct nss_ctx_instance *nss_ctx = nss_ipv6_get_mgr();
if (nim->cm.response != NSS_CMN_RESPONSE_ACK) {
nss_warning("%p: IPv6 fetch connection info failed with error: %d\n", nss_ctx, nim->cm.error);
nss_core_update_max_ipv6_conn(NSS_FW_DEFAULT_NUM_CONN);
return;
}
nss_info("IPv6 get connection info success\n");
nss_ipv6_ct_info.ce_table_size = ntohl(nircgts->ce_table_size);
nss_ipv6_ct_info.cme_table_size = ntohl(nircgts->cme_table_size);
if (nss_ipv6_conn_cfg_process(nss_ctx, ntohl(nircgts->num_conn)) != 0) {
nss_warning("%p: IPv6 connection entry or connection match entry table size\
not available\n", nss_ctx);
}
return;
}
/*
* nss_ipv6_update_conn_count()
* Sets the maximum number of IPv6 connections.
*
* It first gets the connection tables size information from NSS FW
* and then configures the connections in NSS FW.
*/
int nss_ipv6_update_conn_count(int ipv6_num_conn)
{
struct nss_ctx_instance *nss_ctx = nss_ipv6_get_mgr();
struct nss_ipv6_msg nim;
struct nss_ipv6_rule_conn_get_table_size_msg *nircgts;
nss_tx_status_t nss_tx_status;
uint32_t sum_of_conn;
/*
* By default, NSS FW is configured with default number of connections.
*/
if (ipv6_num_conn == NSS_FW_DEFAULT_NUM_CONN) {
nss_info("%p: Default number of connections (%d) already configured\n", nss_ctx, ipv6_num_conn);
return 0;
}
/*
* Specifications for input
* 1) The input should be power of 2.
* 2) Input for ipv4 and ipv6 sum togther should not exceed 8k
* 3) Min. value should be at leat 256 connections. This is the
* minimum connections we will support for each of them.
*/
sum_of_conn = nss_ipv4_conn_cfg + ipv6_num_conn;
if ((ipv6_num_conn & NSS_NUM_CONN_QUANTA_MASK) ||
(sum_of_conn > NSS_MAX_TOTAL_NUM_CONN_IPV4_IPV6) ||
(ipv6_num_conn < NSS_MIN_NUM_CONN)) {
nss_warning("%p: input supported connections (%d) does not adhere\
specifications\n1) not power of 2,\n2) is less than \
min val: %d, OR\n IPv4/6 total exceeds %d\n",
nss_ctx,
ipv6_num_conn,
NSS_MIN_NUM_CONN,
NSS_MAX_TOTAL_NUM_CONN_IPV4_IPV6);
return -EINVAL;
}
memset(&nim, 0, sizeof(struct nss_ipv6_msg));
nss_ipv6_msg_init(&nim, NSS_IPV6_RX_INTERFACE, NSS_IPV6_TX_CONN_TABLE_SIZE_MSG,
sizeof(struct nss_ipv6_rule_conn_get_table_size_msg), nss_ipv6_update_conn_count_callback, NULL);
nircgts = &nim.msg.size;
nircgts->num_conn = htonl(ipv6_num_conn);
nss_tx_status = nss_ipv6_tx(nss_ctx, &nim);
if (nss_tx_status != NSS_TX_SUCCESS) {
nss_warning("%p: Send acceleration mode message failed\n", nss_ctx);
return -EINVAL;
}
return 0;
}
/*
* nss_ipv6_free_conn_tables()
* Frees memory allocated for connection tables
*/
void nss_ipv6_free_conn_tables(void)
{
if (nss_ipv6_ct_info.ce_mem) {
free_pages(nss_ipv6_ct_info.ce_mem, get_order(nss_ipv6_ct_info.ce_table_size));
}
if (nss_ipv6_ct_info.cme_mem) {
free_pages(nss_ipv6_ct_info.cme_mem, get_order(nss_ipv6_ct_info.cme_table_size));
}
memset(&nss_ipv6_ct_info, 0, sizeof(struct nss_ipv6_conn_table_info));
return;
}
/*
* nss_ipv6_accel_mode_cfg_handler()
* Configure acceleration mode for IPv6
*/
static int nss_ipv6_accel_mode_cfg_handler(struct ctl_table *ctl, int write, void __user *buffer, size_t *lenp, loff_t *ppos)
{
struct nss_top_instance *nss_top = &nss_top_main;
struct nss_ctx_instance *nss_ctx = &nss_top->nss[0];
struct nss_ipv6_msg nim;
struct nss_ipv6_accel_mode_cfg_msg *nipcm;
nss_tx_status_t nss_tx_status;
int ret = NSS_FAILURE;
int current_value;
/*
* Take snap shot of current value
*/
current_value = nss_ipv6_accel_mode_cfg;
/*
* Write the variable with user input
*/
ret = proc_dointvec(ctl, write, buffer, lenp, ppos);
if (ret || (!write)) {
return ret;
}
memset(&nim, 0, sizeof(struct nss_ipv6_msg));
nss_ipv6_msg_init(&nim, NSS_IPV6_RX_INTERFACE, NSS_IPV6_TX_ACCEL_MODE_CFG_MSG,
sizeof(struct nss_ipv6_accel_mode_cfg_msg), NULL, NULL);
nipcm = &nim.msg.accel_mode_cfg;
nipcm->mode = htonl(nss_ipv6_accel_mode_cfg);
nss_tx_status = nss_ipv6_tx_sync(nss_ctx, &nim);
if (nss_tx_status != NSS_TX_SUCCESS) {
nss_warning("%p: Send acceleration mode message failed\n", nss_ctx);
nss_ipv6_accel_mode_cfg = current_value;
return -EIO;
}
return 0;
}
/*
* nss_ipv6_dscp_map_cfg_handler()
* Sysctl handler for dscp/pri mappings.
*/
static int nss_ipv6_dscp_map_cfg_handler(struct ctl_table *ctl, int write, void __user *buffer, size_t *lenp, loff_t *ppos)
{
struct nss_top_instance *nss_top = &nss_top_main;
struct nss_ctx_instance *nss_ctx = &nss_top->nss[0];
struct nss_dscp_map_parse out;
struct nss_ipv6_msg nim;
struct nss_ipv6_dscp2pri_cfg_msg *nipd2p;
nss_tx_status_t status;
int ret;
if (!write) {
return nss_dscp_map_print(ctl, buffer, lenp, ppos, mapping);
}
ret = nss_dscp_map_parse(ctl, buffer, lenp, ppos, &out);
if (ret) {
nss_warning("failed to parse dscp mapping:%d\n", ret);
return ret;
}
if (out.action >= NSS_IPV6_DSCP_MAP_ACTION_MAX) {
nss_warning("invalid action value: %d\n", out.action);
nss_ipv6_dscp_map_usage();
return -EINVAL;
}
memset(&nim, 0, sizeof(struct nss_ipv6_msg));
nss_ipv6_msg_init(&nim, NSS_IPV6_RX_INTERFACE, NSS_IPV6_TX_DSCP2PRI_CFG_MSG,
sizeof(struct nss_ipv6_dscp2pri_cfg_msg), NULL, NULL);
nipd2p = &nim.msg.dscp2pri_cfg;
nipd2p->dscp = out.dscp;
nipd2p->priority = out.priority;
status = nss_ipv6_tx_sync(nss_ctx, &nim);
if (status != NSS_TX_SUCCESS) {
nss_warning("%p: ipv6 dscp2pri config message failed\n", nss_ctx);
return -EFAULT;
}
/*
* NSS firmware acknowleged the configuration, so update the mapping
* table on HOST side as well.
*/
mapping[out.dscp].action = out.action;
mapping[out.dscp].priority = out.priority;
return 0;
}
static struct ctl_table nss_ipv6_table[] = {
{
.procname = "ipv6_accel_mode",
.data = &nss_ipv6_accel_mode_cfg,
.maxlen = sizeof(int),
.mode = 0644,
.proc_handler = &nss_ipv6_accel_mode_cfg_handler,
},
{
.procname = "ipv6_dscp_map",
.data = &mapping[NSS_DSCP_MAP_ARRAY_SIZE],
.maxlen = sizeof(struct nss_dscp_map_entry),
.mode = 0644,
.proc_handler = &nss_ipv6_dscp_map_cfg_handler,
},
{ }
};
static struct ctl_table nss_ipv6_dir[] = {
{
.procname = "ipv6cfg",
.mode = 0555,
.child = nss_ipv6_table,
},
{ }
};
static struct ctl_table nss_ipv6_root_dir[] = {
{
.procname = "nss",
.mode = 0555,
.child = nss_ipv6_dir,
},
{ }
};
static struct ctl_table nss_ipv6_root[] = {
{
.procname = "dev",
.mode = 0555,
.child = nss_ipv6_root_dir,
},
{ }
};
static struct ctl_table_header *nss_ipv6_header;
/*
* nss_ipv6_register_sysctl()
* Register sysctl specific to ipv6
*/
void nss_ipv6_register_sysctl(void)
{
sema_init(&nss_ipv6_pvt.sem, 1);
init_completion(&nss_ipv6_pvt.complete);
/*
* Register sysctl table.
*/
nss_ipv6_header = register_sysctl_table(nss_ipv6_root);
}
/*
* nss_ipv6_unregister_sysctl()
* Unregister sysctl specific to ipv6
*/
void nss_ipv6_unregister_sysctl(void)
{
/*
* Unregister sysctl table.
*/
if (nss_ipv6_header) {
unregister_sysctl_table(nss_ipv6_header);
}
}
/*
* nss_ipv6_msg_init()
* Initialize IPv6 message.
*/
void nss_ipv6_msg_init(struct nss_ipv6_msg *nim, uint16_t if_num, uint32_t type, uint32_t len,
nss_ipv6_msg_callback_t cb, void *app_data)
{
nss_cmn_msg_init(&nim->cm, if_num, type, len, (void *)cb, app_data);
}
EXPORT_SYMBOL(nss_ipv6_msg_init);