path: root/msm8998/ipacm/src/IPACM_OffloadManager.cpp

/*
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Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
* Redistributions of source code must retain the above copyright
  notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above
  copyright notice, this list of conditions and the following
  disclaimer in the documentation and/or other materials provided
  with the distribution.
* Neither the name of The Linux Foundation nor the names of its
  contributors may be used to endorse or promote products derived
  from this software without specific prior written permission.

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WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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ARE DISCLAIMED.  IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS
BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
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SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
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WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
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*/
/*!
  @file
  IPACM_OffloadManager.cpp

  @brief
  This file implements the basis Iface functionality.

  @Author
  Skylar Chang

*/
#include <IPACM_OffloadManager.h>
#include <sys/ioctl.h>
#include <net/if.h>
#include <string.h>
#include "IPACM_ConntrackClient.h"
#include "IPACM_ConntrackListener.h"
#include "IPACM_Iface.h"
#include "IPACM_Config.h"

const char *IPACM_OffloadManager::DEVICE_NAME = "/dev/wwan_ioctl";

/* NatApp class Implementation */
IPACM_OffloadManager *IPACM_OffloadManager::pInstance = NULL;

IPACM_OffloadManager::IPACM_OffloadManager()
{
	default_gw_index = INVALID_IFACE;
	upstream_v4_up = false;
	upstream_v6_up = false;
	return ;
}

RET IPACM_OffloadManager::registerEventListener(IpaEventListener* eventlistener)
{
	RET result = SUCCESS;
	if (elrInstance == NULL)
		elrInstance = eventlistener;
	else {
		IPACMDBG_H("already register EventListener previously \n");
		result = FAIL_INPUT_CHECK;
	}
	return SUCCESS;
}

RET IPACM_OffloadManager::unregisterEventListener(IpaEventListener* )
{
	RET result = SUCCESS;
	if (elrInstance)
		elrInstance = NULL;
	else {
		IPACMDBG_H("already unregisterEventListener previously \n");
		result = SUCCESS_DUPLICATE_CONFIG;
	}
	return SUCCESS;
}

RET IPACM_OffloadManager::registerCtTimeoutUpdater(ConntrackTimeoutUpdater* timeoutupdater)
{
	RET result = SUCCESS;
	if (touInstance == NULL)
		touInstance = timeoutupdater;
	else {
		IPACMDBG_H("already register ConntrackTimeoutUpdater previously \n");
		result = FAIL_INPUT_CHECK;
	}
	return SUCCESS;
}

RET IPACM_OffloadManager::unregisterCtTimeoutUpdater(ConntrackTimeoutUpdater* )
{
	RET result = SUCCESS;
	if (touInstance)
		touInstance = NULL;
	else {
		IPACMDBG_H("already unregisterCtTimeoutUpdater previously \n");
		result = SUCCESS_DUPLICATE_CONFIG;
	}
	return SUCCESS;
}

RET IPACM_OffloadManager::provideFd(int fd, unsigned int groups)
{
	IPACM_ConntrackClient *cc;
	int on = 1, rel;

	cc = IPACM_ConntrackClient::GetInstance();

	if(!cc)
	{
		IPACMERR("Init failed: cc %p\n", cc);
		return FAIL_HARDWARE;
	}

	if (groups == cc->subscrips_tcp) {
		cc->fd_tcp = fd;
		IPACMDBG_H("Received fd %d with groups %d.\n", fd, groups);
		/* set netlink buf */
		rel = setsockopt(cc->fd_tcp, SOL_NETLINK, NETLINK_NO_ENOBUFS, &on, sizeof(int) );
		if (rel == -1)
		{
			IPACMERR( "setsockopt returned error code %d ( %s )", errno, strerror( errno ) );
		}
	} else if (groups == cc->subscrips_udp) {
		cc->fd_udp = fd;
		IPACMDBG_H("Received fd %d with groups %d.\n", fd, groups);
		/* set netlink buf */
		rel = setsockopt(cc->fd_tcp, SOL_NETLINK, NETLINK_NO_ENOBUFS, &on, sizeof(int) );
		if (rel == -1)
		{
			IPACMERR( "setsockopt returned error code %d ( %s )", errno, strerror( errno ) );
		}
	} else {
		IPACMERR("Received unexpected fd with groups %d.\n", groups);
	}
	if(cc->fd_tcp >0 && cc->fd_udp >0) {
		IPACMDBG_H(" Got both fds from framework, start conntrack listener thread.\n");
		CtList->CreateConnTrackThreads();
	}
	return SUCCESS;
}

RET IPACM_OffloadManager::clearAllFds()
{
	IPACM_ConntrackClient *cc;

	cc = IPACM_ConntrackClient::GetInstance();
	if(!cc)
	{
		IPACMERR("Init clear: cc %p \n", cc);
		return FAIL_HARDWARE;
	}
	cc->UNRegisterWithConnTrack();

	return SUCCESS;
}

bool IPACM_OffloadManager::isStaApSupported()
{
	return true;
}


RET IPACM_OffloadManager::setLocalPrefixes(std::vector<Prefix> &/* prefixes */)
{
	return SUCCESS;
}

RET IPACM_OffloadManager::addDownstream(const char * downstream_name, const Prefix &prefix)
{
	int index;
	ipacm_cmd_q_data evt;
	ipacm_event_ipahal_stream *evt_data;

	IPACMDBG_H("addDownstream name(%s), ip-family(%d) \n", downstream_name, prefix.fam);
	if (prefix.fam == V4) {
		IPACMDBG_H("subnet info v4Addr (%x) v4Mask (%x)\n", prefix.v4Addr, prefix.v4Mask);
	} else {
		IPACMDBG_H("subnet info v6Addr: %08x:%08x:%08x:%08x \n",
							prefix.v6Addr[0], prefix.v6Addr[1], prefix.v6Addr[2], prefix.v6Addr[3]);
		IPACMDBG_H("subnet info v6Mask: %08x:%08x:%08x:%08x \n",
							prefix.v6Mask[0], prefix.v6Mask[1], prefix.v6Mask[2], prefix.v6Mask[3]);
	}

	if(ipa_get_if_index(downstream_name, &index))
	{
		IPACMERR("fail to get iface index.\n");
		return FAIL_HARDWARE;
	}

	evt_data = (ipacm_event_ipahal_stream*)malloc(sizeof(ipacm_event_ipahal_stream));
	if(evt_data == NULL)
	{
		IPACMERR("Failed to allocate memory.\n");
		return FAIL_HARDWARE;
	}
	memset(evt_data, 0, sizeof(*evt_data));

	evt_data->if_index = index;
	memcpy(&evt_data->prefix, &prefix, sizeof(evt_data->prefix));

	memset(&evt, 0, sizeof(ipacm_cmd_q_data));
	evt.evt_data = (void*)evt_data;
	evt.event = IPA_DOWNSTREAM_ADD;

	IPACMDBG_H("Posting event IPA_DOWNSTREAM_ADD\n");
	IPACM_EvtDispatcher::PostEvt(&evt);

	return SUCCESS;
}

RET IPACM_OffloadManager::removeDownstream(const char * downstream_name, const Prefix &prefix)
{
	int index;
	ipacm_cmd_q_data evt;
	ipacm_event_ipahal_stream *evt_data;

	IPACMDBG_H("removeDownstream name(%s), ip-family(%d) \n", downstream_name, prefix.fam);
	if(ipa_get_if_index(downstream_name, &index))
	{
		IPACMERR("netdev(%s) already removed, ignored\n", downstream_name);
		return SUCCESS;
	}

	evt_data = (ipacm_event_ipahal_stream*)malloc(sizeof(ipacm_event_ipahal_stream));
	if(evt_data == NULL)
	{
		IPACMERR("Failed to allocate memory.\n");
		return FAIL_HARDWARE;
	}
	memset(evt_data, 0, sizeof(*evt_data));

	evt_data->if_index = index;
	memcpy(&evt_data->prefix, &prefix, sizeof(evt_data->prefix));

	memset(&evt, 0, sizeof(ipacm_cmd_q_data));
	evt.evt_data = (void*)evt_data;
	evt.event = IPA_DOWNSTREAM_DEL;

	IPACMDBG_H("Posting event IPA_DOWNSTREAM_DEL\n");
	IPACM_EvtDispatcher::PostEvt(&evt);

	return SUCCESS;
}

RET IPACM_OffloadManager::setUpstream(const char *upstream_name, const Prefix& gw_addr_v4 , const Prefix& gw_addr_v6)
{
	int index;
	ipacm_cmd_q_data evt;
	ipacm_event_data_addr *evt_data_addr;
	RET result = SUCCESS;

	/* if interface name is NULL, default route is removed */
	IPACMDBG_H("setUpstream upstream_name(%s), ipv4-fam(%d) ipv6-fam(%d)\n", upstream_name, gw_addr_v4.fam, gw_addr_v6.fam);

	if(upstream_name == NULL)
	{
		if (default_gw_index == INVALID_IFACE) {
			IPACMERR("no previous upstream set before\n");
			return FAIL_INPUT_CHECK;
		}

		if (gw_addr_v4.fam == V4 && upstream_v4_up == true) {
			IPACMDBG_H("clean upstream(%s) for ipv4-fam(%d) upstream_v4_up(%d)\n", upstream_name, gw_addr_v4.fam, upstream_v4_up);
			post_route_evt(IPA_IP_v4, default_gw_index, IPA_WAN_UPSTREAM_ROUTE_DEL_EVENT, gw_addr_v4);
			upstream_v4_up = false;
		}
		if (gw_addr_v6.fam == V6 && upstream_v6_up == true) {
			IPACMDBG_H("clean upstream(%s) for ipv6-fam(%d) upstream_v6_up(%d)\n", upstream_name, gw_addr_v6.fam, upstream_v6_up);
			post_route_evt(IPA_IP_v6, default_gw_index, IPA_WAN_UPSTREAM_ROUTE_DEL_EVENT, gw_addr_v6);
			upstream_v6_up = false;
		}
		default_gw_index = INVALID_IFACE;
	}
	else
	{
		if(ipa_get_if_index(upstream_name, &index))
		{
			IPACMERR("fail to get iface index.\n");
			return FAIL_INPUT_CHECK;
		}

		/* reset the stats when switch from LTE->STA */
		if (index != default_gw_index) {
			IPACMDBG_H(" interface switched to %s\n", upstream_name);
			if(memcmp(upstream_name, "wlan0", sizeof("wlan0")) == 0)
			{
				IPACMDBG_H("switch to STA mode, need reset wlan-fw stats\n");
				resetTetherStats(upstream_name);
			}
		}

		if (gw_addr_v4.fam == V4 && gw_addr_v6.fam == V6) {

			if (upstream_v4_up == false) {
				IPACMDBG_H("IPV4 gateway: 0x%x \n", gw_addr_v4.v4Addr);
				/* posting route add event for both IPv4 and IPv6 */
				post_route_evt(IPA_IP_v4, index, IPA_WAN_UPSTREAM_ROUTE_ADD_EVENT, gw_addr_v4);
				upstream_v4_up = true;
			} else {
				IPACMDBG_H("already setupstream iface(%s) ipv4 previously\n", upstream_name);
			}

			if (upstream_v6_up == false) {
				IPACMDBG_H("IPV6 gateway: %08x:%08x:%08x:%08x \n",
						gw_addr_v6.v6Addr[0], gw_addr_v6.v6Addr[1], gw_addr_v6.v6Addr[2], gw_addr_v6.v6Addr[3]);
				post_route_evt(IPA_IP_v6, index, IPA_WAN_UPSTREAM_ROUTE_ADD_EVENT, gw_addr_v6);
				upstream_v6_up = true;
			} else {
				IPACMDBG_H("already setupstream iface(%s) ipv6 previously\n", upstream_name);
			}
		} else if (gw_addr_v4.fam == V4 ) {
			IPACMDBG_H("check upstream_v6_up (%d) v4_up (%d), default gw index (%d)\n", upstream_v6_up, upstream_v4_up, default_gw_index);
			if (upstream_v6_up == true && default_gw_index != INVALID_IFACE ) {
				/* clean up previous V6 upstream event */
				IPACMDBG_H(" Post clean-up v6 default gw on iface %d\n", default_gw_index);
				post_route_evt(IPA_IP_v6, default_gw_index, IPA_WAN_UPSTREAM_ROUTE_DEL_EVENT, gw_addr_v6);
				upstream_v6_up = false;
			}

			if (upstream_v4_up == false) {
				IPACMDBG_H("IPV4 gateway: %x \n", gw_addr_v4.v4Addr);
				/* posting route add event for both IPv4 and IPv6 */
				post_route_evt(IPA_IP_v4, index, IPA_WAN_UPSTREAM_ROUTE_ADD_EVENT, gw_addr_v4);
				upstream_v4_up = true;
			} else {
				IPACMDBG_H("already setupstream iface(%s) ipv4 previously\n", upstream_name);
				result = SUCCESS_DUPLICATE_CONFIG;
			}
		} else if (gw_addr_v6.fam == V6) {
			IPACMDBG_H("check upstream_v6_up (%d) v4_up (%d), default gw index (%d)\n", upstream_v6_up, upstream_v4_up, default_gw_index);
			if (upstream_v4_up == true && default_gw_index != INVALID_IFACE ) {
				/* clean up previous V4 upstream event */
				IPACMDBG_H(" Post clean-up v4 default gw on iface %d\n", default_gw_index);
				post_route_evt(IPA_IP_v4, default_gw_index, IPA_WAN_UPSTREAM_ROUTE_DEL_EVENT, gw_addr_v4);
				upstream_v4_up = false;
			}

			if (upstream_v6_up == false) {
				IPACMDBG_H("IPV6 gateway: %08x:%08x:%08x:%08x \n",
						gw_addr_v6.v6Addr[0], gw_addr_v6.v6Addr[1], gw_addr_v6.v6Addr[2], gw_addr_v6.v6Addr[3]);
				post_route_evt(IPA_IP_v6, index, IPA_WAN_UPSTREAM_ROUTE_ADD_EVENT, gw_addr_v6);
				upstream_v6_up = true;
			} else {
				IPACMDBG_H("already setupstream iface(%s) ipv6 previously\n", upstream_name);
				result = SUCCESS_DUPLICATE_CONFIG;
			}
		}
		default_gw_index = index;
		IPACMDBG_H("Change degault_gw netdev to (%s)\n", upstream_name);
	}
	return result;
}

RET IPACM_OffloadManager::stopAllOffload()
{
	return SUCCESS;
}

RET IPACM_OffloadManager::setQuota(const char * upstream_name /* upstream */, uint64_t mb/* limit */)
{
	wan_ioctl_set_data_quota quota;
	int fd = -1;

	if ((fd = open(DEVICE_NAME, O_RDWR)) < 0)
	{
		IPACMERR("Failed opening %s.\n", DEVICE_NAME);
		return FAIL_HARDWARE;
	}

	quota.quota_mbytes = mb;
	quota.set_quota = true;

    memset(quota.interface_name, 0, IFNAMSIZ);
    if (strlcpy(quota.interface_name, upstream_name, IFNAMSIZ) >= IFNAMSIZ) {
		IPACMERR("String truncation occurred on upstream");
		close(fd);
		return FAIL_INPUT_CHECK;
	}

	IPACMDBG_H("SET_DATA_QUOTA %s %lld", quota.interface_name, mb);

	if (ioctl(fd, WAN_IOC_SET_DATA_QUOTA, &quota) < 0) {
        IPACMERR("IOCTL WAN_IOCTL_SET_DATA_QUOTA call failed: %s", strerror(errno));
		close(fd);
		return FAIL_TRY_AGAIN;
	}

	close(fd);
	return SUCCESS;
}

RET IPACM_OffloadManager::getStats(const char * upstream_name /* upstream */,
		bool reset /* reset */, OffloadStatistics& offload_stats/* ret */)
{
	int fd = -1;
	wan_ioctl_query_tether_stats_all stats;

	if ((fd = open(DEVICE_NAME, O_RDWR)) < 0) {
        IPACMERR("Failed opening %s.\n", DEVICE_NAME);
        return FAIL_HARDWARE;
    }

    memset(&stats, 0, sizeof(stats));
    if (strlcpy(stats.upstreamIface, upstream_name, IFNAMSIZ) >= IFNAMSIZ) {
		IPACMERR("String truncation occurred on upstream\n");
		close(fd);
		return FAIL_INPUT_CHECK;
	}
	stats.reset_stats = reset;
	stats.ipa_client = IPACM_CLIENT_MAX;

	if (ioctl(fd, WAN_IOC_QUERY_TETHER_STATS_ALL, &stats) < 0) {
        IPACMERR("IOCTL WAN_IOC_QUERY_TETHER_STATS_ALL call failed: %s \n", strerror(errno));
		close(fd);
		return FAIL_TRY_AGAIN;
	}
	/* feedback to IPAHAL*/
	offload_stats.tx = stats.tx_bytes;
	offload_stats.rx = stats.rx_bytes;

	IPACMDBG_H("send getStats tx:%lld rx:%lld \n", offload_stats.tx, offload_stats.rx);
	return SUCCESS;
}

int IPACM_OffloadManager::post_route_evt(enum ipa_ip_type iptype, int index, ipa_cm_event_id event, const Prefix &gw_addr)
{
	ipacm_cmd_q_data evt;
	ipacm_event_data_iptype *evt_data_route;

	evt_data_route = (ipacm_event_data_iptype*)malloc(sizeof(ipacm_event_data_iptype));
	if(evt_data_route == NULL)
	{
		IPACMERR("Failed to allocate memory.\n");
		return -EFAULT;
	}
	memset(evt_data_route, 0, sizeof(*evt_data_route));

	evt_data_route->if_index = index;
	evt_data_route->if_index_tether = 0;
	evt_data_route->iptype = iptype;

#ifdef IPA_WAN_MSG_IPv6_ADDR_GW_LEN
	evt_data_route->ipv4_addr_gw = gw_addr.v4Addr;
	evt_data_route->ipv6_addr_gw[0] = gw_addr.v6Addr[0];
	evt_data_route->ipv6_addr_gw[1] = gw_addr.v6Addr[1];
	evt_data_route->ipv6_addr_gw[2] = gw_addr.v6Addr[2];
	evt_data_route->ipv6_addr_gw[3] = gw_addr.v6Addr[3];
	IPACMDBG_H("default gw ipv4 (%x)\n", evt_data_route->ipv4_addr_gw);
	IPACMDBG_H("IPV6 gateway: %08x:%08x:%08x:%08x \n",
					evt_data_route->ipv6_addr_gw[0], evt_data_route->ipv6_addr_gw[1], evt_data_route->ipv6_addr_gw[2], evt_data_route->ipv6_addr_gw[3]);
#endif
	IPACMDBG_H("Received WAN_UPSTREAM_ROUTE_ADD: fid(%d) tether_fid(%d) ip-type(%d)\n", evt_data_route->if_index,
			evt_data_route->if_index_tether, evt_data_route->iptype);

	memset(&evt, 0, sizeof(evt));
	evt.evt_data = (void*)evt_data_route;
	evt.event = event;

	IPACM_EvtDispatcher::PostEvt(&evt);

	return 0;
}

int IPACM_OffloadManager::ipa_get_if_index(const char * if_name, int * if_index)
{
	int fd;
	struct ifreq ifr;

	if((fd = socket(AF_INET, SOCK_DGRAM, 0)) < 0)
	{
		IPACMERR("get interface index socket create failed \n");
		return IPACM_FAILURE;
	}

	if(strnlen(if_name, sizeof(if_name)) >= sizeof(ifr.ifr_name)) {
		IPACMERR("interface name overflows: len %d\n", strnlen(if_name, sizeof(if_name)));
		close(fd);
		return IPACM_FAILURE;
	}

	memset(&ifr, 0, sizeof(struct ifreq));
	(void)strncpy(ifr.ifr_name, if_name, sizeof(ifr.ifr_name));
	IPACMDBG_H("interface name (%s)\n", if_name);

	if(ioctl(fd,SIOCGIFINDEX , &ifr) < 0)
	{
		IPACMERR("call_ioctl_on_dev: ioctl failed, interface name (%s):\n", ifr.ifr_name);
		close(fd);
		return IPACM_FAILURE;
	}

	*if_index = ifr.ifr_ifindex;
	IPACMDBG_H("Interface netdev index %d\n", *if_index);
	close(fd);
	return IPACM_SUCCESS;
}

int IPACM_OffloadManager::resetTetherStats(const char * upstream_name /* upstream */)
{
	int fd = -1;
	wan_ioctl_reset_tether_stats stats;

	if ((fd = open(DEVICE_NAME, O_RDWR)) < 0) {
        IPACMERR("Failed opening %s.\n", DEVICE_NAME);
        return FAIL_HARDWARE;
    }

    memset(stats.upstreamIface, 0, IFNAMSIZ);
    if (strlcpy(stats.upstreamIface, upstream_name, IFNAMSIZ) >= IFNAMSIZ) {
		IPACMERR("String truncation occurred on upstream\n");
		close(fd);
		return FAIL_INPUT_CHECK;
	}
	stats.reset_stats = true;

	if (ioctl(fd, WAN_IOC_RESET_TETHER_STATS, &stats) < 0) {
        IPACMERR("IOCTL WAN_IOC_RESET_TETHER_STATS call failed: %s", strerror(errno));
		close(fd);
		return FAIL_HARDWARE;
	}
	IPACMDBG_H("Reset Interface %s stats\n", upstream_name);
	return IPACM_SUCCESS;
}

IPACM_OffloadManager* IPACM_OffloadManager::GetInstance()
{
	if(pInstance == NULL)
		pInstance = new IPACM_OffloadManager();

	return pInstance;
}