nss_freq.c - codeaurora/quic/qsdk/oss/lklm/nss-drv - Gitiles

 /*
  **************************************************************************
  * Copyright (c) 2013, 2015 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_freq.c
  *	NSS frequency change APIs
  */

 #include "nss_tx_rx_common.h"

 #define NSS_ACK_STARTED 0
 #define NSS_ACK_FINISHED 1

 extern struct nss_cmd_buffer nss_cmd_buf;
 extern struct nss_frequency_statistics nss_freq_stat;
 extern struct nss_runtime_sampling nss_runtime_samples;
 extern struct workqueue_struct *nss_wq;
 extern nss_work_t *nss_work;
 extern void *nss_freq_change_context;

 /*
  * nss_freq_msg_init()
  *	Initialize the freq message
  */
 static void nss_freq_msg_init(struct nss_corefreq_msg *ncm, uint16_t if_num, uint32_t type, uint32_t len,
 			void *cb, void *app_data)
 {
 	nss_cmn_msg_init(&ncm->cm, if_num, type, len, cb, app_data);
 }

 /*
  * nss_freq_handle_ack()
  *	Handle the nss ack of frequency change.
  */
 static void nss_freq_handle_ack(struct nss_ctx_instance *nss_ctx, struct nss_freq_msg *nfa)
 {
 	if (nfa->ack == NSS_ACK_STARTED) {
 		/*
 		 * NSS finished start noficiation - HW change clocks and send end notification
 		 */
 		nss_info("%p: NSS ACK Received: %d - Change HW CLK/Send Finish to NSS\n", nss_ctx, nfa->ack);

 		return;
 	}

 	if (nfa->ack == NSS_ACK_FINISHED) {
 		/*
 		 * NSS finished end notification - Done
 		 */
 		nss_info("%p: NSS ACK Received: %d - End Notification ACK - Running: %dmhz\n", nss_ctx, nfa->ack, nfa->freq_current);
 		nss_runtime_samples.freq_scale_ready = 1;
 		return;
 	}

 	nss_info("%p: NSS had an error - Running: %dmhz\n", nss_ctx, nfa->freq_current);
 }

 /*
  * nss_freq_change()
  *	NSS frequency change API.
  */
 nss_tx_status_t nss_freq_change(struct nss_ctx_instance *nss_ctx, uint32_t eng, uint32_t stats_enable, uint32_t start_or_end)
 {
 	struct sk_buff *nbuf;
 	int32_t status;
 	struct nss_corefreq_msg *ncm;
 	struct nss_freq_msg *nfc;

 	nss_info("%p: frequency changing to: %d\n", nss_ctx, eng);

 	NSS_VERIFY_CTX_MAGIC(nss_ctx);
 	if (unlikely(nss_ctx->state != NSS_CORE_STATE_INITIALIZED)) {
 		return NSS_TX_FAILURE_NOT_READY;
 	}

 	nbuf = dev_alloc_skb(NSS_NBUF_PAYLOAD_SIZE);
 	if (unlikely(!nbuf)) {
 		spin_lock_bh(&nss_ctx->nss_top->stats_lock);
 		nss_ctx->nss_top->stats_drv[NSS_STATS_DRV_NBUF_ALLOC_FAILS]++;
 		spin_unlock_bh(&nss_ctx->nss_top->stats_lock);
 		return NSS_TX_FAILURE;
 	}

 	ncm = (struct nss_corefreq_msg *)skb_put(nbuf, sizeof(struct nss_corefreq_msg));

 	nss_freq_msg_init(ncm, NSS_COREFREQ_INTERFACE, NSS_TX_METADATA_TYPE_NSS_FREQ_CHANGE,
 				nbuf->len, NULL, NULL);
 	nfc = &ncm->msg.nfc;
 	nfc->frequency = eng;
 	nfc->start_or_end = start_or_end;
 	nfc->stats_enable = stats_enable;

 	status = nss_core_send_buffer(nss_ctx, 0, nbuf, NSS_IF_CMD_QUEUE, H2N_BUFFER_CTRL, 0);
 	if (status != NSS_CORE_STATUS_SUCCESS) {
 		dev_kfree_skb_any(nbuf);
 		nss_info("%p: unable to enqueue 'nss frequency change' - marked as stopped\n", nss_ctx);
 		return NSS_TX_FAILURE;
 	}

 	nss_hal_send_interrupt(nss_ctx->nmap, nss_ctx->h2n_desc_rings[NSS_IF_CMD_QUEUE].desc_ring.int_bit, NSS_REGS_H2N_INTR_STATUS_DATA_COMMAND_QUEUE);

 	return NSS_TX_SUCCESS;
 }

 /*
  * nss_freq_queue_work()
  *	Queue Work to the NSS Workqueue based on Current index.
  */
 static int nss_freq_queue_work(void)
 {
 	uint32_t index = nss_runtime_samples.freq_scale_index;
 	BUG_ON(!nss_wq);

 	nss_info("frequency:%d index:%d sample count:%x\n", nss_runtime_samples.freq_scale[index].frequency,
 					index, nss_runtime_samples.average);

 	nss_work = (nss_work_t *)kmalloc(sizeof(nss_work_t), GFP_ATOMIC);
 	if (!nss_work) {
 		nss_info("NSS FREQ WQ kmalloc fail");
 		return 1;
 	}

 	/*
 	 * Update proc node
 	 */
 	nss_cmd_buf.current_freq = nss_runtime_samples.freq_scale[index].frequency;

 	INIT_WORK((struct work_struct *)nss_work, nss_wq_function);
 	nss_work->frequency = nss_runtime_samples.freq_scale[index].frequency;
 	nss_work->stats_enable =  1;

 	queue_work(nss_wq, (struct work_struct *)nss_work);
 	return 0;
 }

 /*
  *  nss_freq_handle_core_stats()
  *	Handle the core stats
  */
 static void nss_freq_handle_core_stats(struct nss_ctx_instance *nss_ctx, struct nss_core_stats *core_stats)
 {
 	uint32_t b_index;
 	uint32_t minimum;
 	uint32_t maximum;
 	uint32_t sample = core_stats->inst_cnt_total;
 	uint32_t index = nss_runtime_samples.freq_scale_index;

 	/*
 	 * We do not accept any statistics if auto scaling is off,
 	 * we start with a fresh sample set when scaling is
 	 * eventually turned on.
 	 */
 	if (!nss_cmd_buf.auto_scale && nss_runtime_samples.initialized) {
 		return;
 	}

 	/*
 	 * Delete Current Index Value, Add New Value, Recalculate new Sum, Shift Index
 	 */
 	b_index = nss_runtime_samples.buffer_index;

 	nss_runtime_samples.sum = nss_runtime_samples.sum - nss_runtime_samples.buffer[b_index];
 	nss_runtime_samples.buffer[b_index] = sample;
 	nss_runtime_samples.sum = nss_runtime_samples.sum + nss_runtime_samples.buffer[b_index];
 	nss_runtime_samples.buffer_index = (b_index + 1) & NSS_SAMPLE_BUFFER_MASK;

 	if (nss_runtime_samples.sample_count < NSS_SAMPLE_BUFFER_SIZE) {
 		nss_runtime_samples.sample_count++;

 		/*
 		 * Samples Are All Ready, Start Auto Scale
 		 */
 		if (nss_runtime_samples.sample_count == NSS_SAMPLE_BUFFER_SIZE ) {
 			nss_cmd_buf.auto_scale = 1;
 			nss_runtime_samples.freq_scale_ready = 1;
 			nss_runtime_samples.initialized = 1;
 		}

 		return;
 	}

 	nss_runtime_samples.average = nss_runtime_samples.sum / nss_runtime_samples.sample_count;

 	/*
 	 * Print out statistics every 10 samples
 	 */
 	if (nss_runtime_samples.message_rate_limit++ >= NSS_MESSAGE_RATE_LIMIT) {
 		nss_trace("%p: Running AVG:%x Sample:%x Divider:%d\n", nss_ctx, nss_runtime_samples.average, core_stats->inst_cnt_total, nss_runtime_samples.sample_count);
 		nss_trace("%p: Current Frequency Index:%d\n", nss_ctx, index);
 		nss_trace("%p: Auto Scale:%d Auto Scale Ready:%d\n", nss_ctx, nss_runtime_samples.freq_scale_ready, nss_cmd_buf.auto_scale);
 		nss_trace("%p: Current Rate:%x\n", nss_ctx, nss_runtime_samples.average);

 		nss_runtime_samples.message_rate_limit = 0;
 	}

 	/*
 	 * Don't scale if we are not ready or auto scale is disabled.
 	 */
 	if ((nss_runtime_samples.freq_scale_ready != 1) || (nss_cmd_buf.auto_scale != 1)) {
 		return;
 	}

 	/*
 	 * Scale Algorithmn
 	 *	Algorithmn will limit how fast it will transition each scale, by the number of samples seen.
 	 *	If any sample is out of scale during the idle count, the rate_limit will reset to 0.
 	 *	Scales are limited to the max number of cpu scales we support.
 	 */
 	if (nss_runtime_samples.freq_scale_rate_limit_up++ >= NSS_FREQUENCY_SCALE_RATE_LIMIT_UP) {
 		maximum = nss_runtime_samples.freq_scale[index].maximum;
 		if ((sample > maximum) && (index < (NSS_MAX_CPU_SCALES - 1))) {
 			nss_runtime_samples.freq_scale_index++;
 			nss_runtime_samples.freq_scale_ready = 0;

 			/*
 			 * If fail to increase frequency, decrease index
 			 */
 			if (nss_freq_queue_work()) {
 				nss_runtime_samples.freq_scale_index--;
 			}
 		}
 		nss_runtime_samples.freq_scale_rate_limit_up = 0;
 		return;
 	}

 	if (nss_runtime_samples.freq_scale_rate_limit_down++ >= NSS_FREQUENCY_SCALE_RATE_LIMIT_DOWN) {
 		minimum = nss_runtime_samples.freq_scale[index].minimum;
 		if ((nss_runtime_samples.average < minimum) && (index > 0)) {
 			nss_runtime_samples.freq_scale_index--;
 			nss_runtime_samples.freq_scale_ready = 0;

 			/*
 			 * If fail to decrease frequency, increase index
 			 */
 			if (nss_freq_queue_work()) {
 				nss_runtime_samples.freq_scale_index++;
 			}
 		}
 		nss_runtime_samples.freq_scale_rate_limit_down = 0;
 		return;
 	}
 }

 /*
  * nss_freq_interface_handler()
  *	Handle NSS -> HLOS messages for Frequency Changes and Statistics
  */
 static void nss_freq_interface_handler(struct nss_ctx_instance *nss_ctx, struct nss_cmn_msg *ncm, __attribute__((unused))void *app_data) {

 	struct nss_corefreq_msg *ncfm = (struct nss_corefreq_msg *)ncm;

 	switch (ncfm->cm.type) {
 	case COREFREQ_METADATA_TYPE_TX_FREQ_ACK:
 		nss_freq_handle_ack(nss_ctx, &ncfm->msg.nfc);
 		break;
 	case COREFREQ_METADATA_TYPE_TX_CORE_STATS:
 		nss_freq_handle_core_stats(nss_ctx, &ncfm->msg.ncs);
 		break;

 	default:
 		if (ncm->response != NSS_CMN_RESPONSE_ACK) {
 			/*
 			 * Check response
 			 */
 			nss_info("%p: Received response %d for type %d, interface %d", nss_ctx, ncm->response, ncm->type, ncm->interface);
 		}
 	}
 }

 /*
  * nss_freq_register_handler()
  */
 void nss_freq_register_handler(void)
 {
 	nss_core_register_handler(NSS_COREFREQ_INTERFACE, nss_freq_interface_handler, NULL);
 }

 /*
  * nss_freq_get_mgr()
  */
 void *nss_freq_get_mgr(void)
 {
 	return (void *)&nss_top_main.nss[nss_top_main.frequency_handler_id];
 }
	/*
	**************************************************************************
	* Copyright (c) 2013, 2015 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_freq.c
	* NSS frequency change APIs
	*/

	#include "nss_tx_rx_common.h"

	#define NSS_ACK_STARTED 0
	#define NSS_ACK_FINISHED 1

	extern struct nss_cmd_buffer nss_cmd_buf;
	extern struct nss_frequency_statistics nss_freq_stat;
	extern struct nss_runtime_sampling nss_runtime_samples;
	extern struct workqueue_struct *nss_wq;
	extern nss_work_t *nss_work;
	extern void *nss_freq_change_context;

	/*
	* nss_freq_msg_init()
	* Initialize the freq message
	*/
	static void nss_freq_msg_init(struct nss_corefreq_msg *ncm, uint16_t if_num, uint32_t type, uint32_t len,
	void cb, void app_data)
	{
	nss_cmn_msg_init(&ncm->cm, if_num, type, len, cb, app_data);
	}

	/*
	* nss_freq_handle_ack()
	* Handle the nss ack of frequency change.
	*/
	static void nss_freq_handle_ack(struct nss_ctx_instance nss_ctx, struct nss_freq_msg nfa)
	{
	if (nfa->ack == NSS_ACK_STARTED) {
	/*
	* NSS finished start noficiation - HW change clocks and send end notification
	*/
	nss_info("%p: NSS ACK Received: %d - Change HW CLK/Send Finish to NSS\n", nss_ctx, nfa->ack);

	return;
	}

	if (nfa->ack == NSS_ACK_FINISHED) {
	/*
	* NSS finished end notification - Done
	*/
	nss_info("%p: NSS ACK Received: %d - End Notification ACK - Running: %dmhz\n", nss_ctx, nfa->ack, nfa->freq_current);
	nss_runtime_samples.freq_scale_ready = 1;
	return;
	}

	nss_info("%p: NSS had an error - Running: %dmhz\n", nss_ctx, nfa->freq_current);
	}

	/*
	* nss_freq_change()
	* NSS frequency change API.
	*/
	nss_tx_status_t nss_freq_change(struct nss_ctx_instance *nss_ctx, uint32_t eng, uint32_t stats_enable, uint32_t start_or_end)
	{
	struct sk_buff *nbuf;
	int32_t status;
	struct nss_corefreq_msg *ncm;
	struct nss_freq_msg *nfc;

	nss_info("%p: frequency changing to: %d\n", nss_ctx, eng);

	NSS_VERIFY_CTX_MAGIC(nss_ctx);
	if (unlikely(nss_ctx->state != NSS_CORE_STATE_INITIALIZED)) {
	return NSS_TX_FAILURE_NOT_READY;
	}

	nbuf = dev_alloc_skb(NSS_NBUF_PAYLOAD_SIZE);
	if (unlikely(!nbuf)) {
	spin_lock_bh(&nss_ctx->nss_top->stats_lock);
	nss_ctx->nss_top->stats_drv[NSS_STATS_DRV_NBUF_ALLOC_FAILS]++;
	spin_unlock_bh(&nss_ctx->nss_top->stats_lock);
	return NSS_TX_FAILURE;
	}

	ncm = (struct nss_corefreq_msg *)skb_put(nbuf, sizeof(struct nss_corefreq_msg));

	nss_freq_msg_init(ncm, NSS_COREFREQ_INTERFACE, NSS_TX_METADATA_TYPE_NSS_FREQ_CHANGE,
	nbuf->len, NULL, NULL);
	nfc = &ncm->msg.nfc;
	nfc->frequency = eng;
	nfc->start_or_end = start_or_end;
	nfc->stats_enable = stats_enable;

	status = nss_core_send_buffer(nss_ctx, 0, nbuf, NSS_IF_CMD_QUEUE, H2N_BUFFER_CTRL, 0);
	if (status != NSS_CORE_STATUS_SUCCESS) {
	dev_kfree_skb_any(nbuf);
	nss_info("%p: unable to enqueue 'nss frequency change' - marked as stopped\n", nss_ctx);
	return NSS_TX_FAILURE;
	}

	nss_hal_send_interrupt(nss_ctx->nmap, nss_ctx->h2n_desc_rings[NSS_IF_CMD_QUEUE].desc_ring.int_bit, NSS_REGS_H2N_INTR_STATUS_DATA_COMMAND_QUEUE);

	return NSS_TX_SUCCESS;
	}

	/*
	* nss_freq_queue_work()
	* Queue Work to the NSS Workqueue based on Current index.
	*/
	static int nss_freq_queue_work(void)
	{
	uint32_t index = nss_runtime_samples.freq_scale_index;
	BUG_ON(!nss_wq);

	nss_info("frequency:%d index:%d sample count:%x\n", nss_runtime_samples.freq_scale[index].frequency,
	index, nss_runtime_samples.average);

	nss_work = (nss_work_t *)kmalloc(sizeof(nss_work_t), GFP_ATOMIC);
	if (!nss_work) {
	nss_info("NSS FREQ WQ kmalloc fail");
	return 1;
	}

	/*
	* Update proc node
	*/
	nss_cmd_buf.current_freq = nss_runtime_samples.freq_scale[index].frequency;

	INIT_WORK((struct work_struct *)nss_work, nss_wq_function);
	nss_work->frequency = nss_runtime_samples.freq_scale[index].frequency;
	nss_work->stats_enable = 1;

	queue_work(nss_wq, (struct work_struct *)nss_work);
	return 0;
	}

	/*
	* nss_freq_handle_core_stats()
	* Handle the core stats
	*/
	static void nss_freq_handle_core_stats(struct nss_ctx_instance nss_ctx, struct nss_core_stats core_stats)
	{
	uint32_t b_index;
	uint32_t minimum;
	uint32_t maximum;
	uint32_t sample = core_stats->inst_cnt_total;
	uint32_t index = nss_runtime_samples.freq_scale_index;

	/*
	* We do not accept any statistics if auto scaling is off,
	* we start with a fresh sample set when scaling is
	* eventually turned on.
	*/
	if (!nss_cmd_buf.auto_scale && nss_runtime_samples.initialized) {
	return;
	}

	/*
	* Delete Current Index Value, Add New Value, Recalculate new Sum, Shift Index
	*/
	b_index = nss_runtime_samples.buffer_index;

	nss_runtime_samples.sum = nss_runtime_samples.sum - nss_runtime_samples.buffer[b_index];
	nss_runtime_samples.buffer[b_index] = sample;
	nss_runtime_samples.sum = nss_runtime_samples.sum + nss_runtime_samples.buffer[b_index];
	nss_runtime_samples.buffer_index = (b_index + 1) & NSS_SAMPLE_BUFFER_MASK;

	if (nss_runtime_samples.sample_count < NSS_SAMPLE_BUFFER_SIZE) {
	nss_runtime_samples.sample_count++;

	/*
	* Samples Are All Ready, Start Auto Scale
	*/
	if (nss_runtime_samples.sample_count == NSS_SAMPLE_BUFFER_SIZE ) {
	nss_cmd_buf.auto_scale = 1;
	nss_runtime_samples.freq_scale_ready = 1;
	nss_runtime_samples.initialized = 1;
	}

	return;
	}

	nss_runtime_samples.average = nss_runtime_samples.sum / nss_runtime_samples.sample_count;

	/*
	* Print out statistics every 10 samples
	*/
	if (nss_runtime_samples.message_rate_limit++ >= NSS_MESSAGE_RATE_LIMIT) {
	nss_trace("%p: Running AVG:%x Sample:%x Divider:%d\n", nss_ctx, nss_runtime_samples.average, core_stats->inst_cnt_total, nss_runtime_samples.sample_count);
	nss_trace("%p: Current Frequency Index:%d\n", nss_ctx, index);
	nss_trace("%p: Auto Scale:%d Auto Scale Ready:%d\n", nss_ctx, nss_runtime_samples.freq_scale_ready, nss_cmd_buf.auto_scale);
	nss_trace("%p: Current Rate:%x\n", nss_ctx, nss_runtime_samples.average);

	nss_runtime_samples.message_rate_limit = 0;
	}

	/*
	* Don't scale if we are not ready or auto scale is disabled.
	*/
	if ((nss_runtime_samples.freq_scale_ready != 1) \|\| (nss_cmd_buf.auto_scale != 1)) {
	return;
	}

	/*
	* Scale Algorithmn
	* Algorithmn will limit how fast it will transition each scale, by the number of samples seen.
	* If any sample is out of scale during the idle count, the rate_limit will reset to 0.
	* Scales are limited to the max number of cpu scales we support.
	*/
	if (nss_runtime_samples.freq_scale_rate_limit_up++ >= NSS_FREQUENCY_SCALE_RATE_LIMIT_UP) {
	maximum = nss_runtime_samples.freq_scale[index].maximum;
	if ((sample > maximum) && (index < (NSS_MAX_CPU_SCALES - 1))) {
	nss_runtime_samples.freq_scale_index++;
	nss_runtime_samples.freq_scale_ready = 0;

	/*
	* If fail to increase frequency, decrease index
	*/
	if (nss_freq_queue_work()) {
	nss_runtime_samples.freq_scale_index--;
	}
	}
	nss_runtime_samples.freq_scale_rate_limit_up = 0;
	return;
	}

	if (nss_runtime_samples.freq_scale_rate_limit_down++ >= NSS_FREQUENCY_SCALE_RATE_LIMIT_DOWN) {
	minimum = nss_runtime_samples.freq_scale[index].minimum;
	if ((nss_runtime_samples.average < minimum) && (index > 0)) {
	nss_runtime_samples.freq_scale_index--;
	nss_runtime_samples.freq_scale_ready = 0;

	/*
	* If fail to decrease frequency, increase index
	*/
	if (nss_freq_queue_work()) {
	nss_runtime_samples.freq_scale_index++;
	}
	}
	nss_runtime_samples.freq_scale_rate_limit_down = 0;
	return;
	}
	}

	/*
	* nss_freq_interface_handler()
	* Handle NSS -> HLOS messages for Frequency Changes and Statistics
	*/
	static void nss_freq_interface_handler(struct nss_ctx_instance nss_ctx, struct nss_cmn_msg ncm, __attribute__((unused))void *app_data) {

	struct nss_corefreq_msg ncfm = (struct nss_corefreq_msg )ncm;

	switch (ncfm->cm.type) {
	case COREFREQ_METADATA_TYPE_TX_FREQ_ACK:
	nss_freq_handle_ack(nss_ctx, &ncfm->msg.nfc);
	break;
	case COREFREQ_METADATA_TYPE_TX_CORE_STATS:
	nss_freq_handle_core_stats(nss_ctx, &ncfm->msg.ncs);
	break;

	default:
	if (ncm->response != NSS_CMN_RESPONSE_ACK) {
	/*
	* Check response
	*/
	nss_info("%p: Received response %d for type %d, interface %d", nss_ctx, ncm->response, ncm->type, ncm->interface);
	}
	}
	}

	/*
	* nss_freq_register_handler()
	*/
	void nss_freq_register_handler(void)
	{
	nss_core_register_handler(NSS_COREFREQ_INTERFACE, nss_freq_interface_handler, NULL);
	}

	/*
	* nss_freq_get_mgr()
	*/
	void *nss_freq_get_mgr(void)
	{
	return (void *)&nss_top_main.nss[nss_top_main.frequency_handler_id];
	}