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/*!
@file
IPACM_Config.h
@brief
This file implements the IPACM Configuration from XML file
@Author
Skylar Chang
*/
#ifndef IPACM_CONFIG_H
#define IPACM_CONFIG_H
#include "IPACM_Defs.h"
#include "IPACM_Xml.h"
#include "IPACM_EvtDispatcher.h"
typedef struct
{
char iface_name[IPA_IFACE_NAME_LEN];
}NatIfaces;
/* for IPACM rm dependency use*/
typedef struct _ipa_rm_client
{
ipa_rm_resource_name producer_rm1;
ipa_rm_resource_name consumer_rm1;
ipa_rm_resource_name producer_rm2;
ipa_rm_resource_name consumer_rm2;
bool producer1_up; /* only monitor producer_rm1, not monitor producer_rm2 */
bool consumer1_up; /* only monitor consumer_rm1, not monitor consumer_rm2 */
bool rm_set; /* once producer1_up and consumer1_up, will add bi-directional dependency */
bool rx_bypass_ipa; /* support WLAN may not register RX-property, should not add dependency */
}ipa_rm_client;
#define MAX_NUM_EXT_PROPS 25
/* used to hold extended properties */
typedef struct
{
uint8_t num_ext_props;
ipa_ioc_ext_intf_prop prop[MAX_NUM_EXT_PROPS];
} ipacm_ext_prop;
/* iface */
class IPACM_Config
{
public:
/* IPACM ipa_client map to rm_resource*/
ipa_rm_resource_name ipa_client_rm_map_tbl[IPA_CLIENT_MAX];
/* IPACM monitored rm_depency table */
ipa_rm_client ipa_rm_tbl[IPA_MAX_RM_ENTRY];
/* IPACM rm_depency a2 endpoint check*/
int ipa_rm_a2_check;
/* Store interested interface and their configuration from XML file */
ipa_ifi_dev_name_t *iface_table;
/* Store interested ALG port from XML file */
ipacm_alg *alg_table;
/* Store private subnet configuration from XML file */
ipa_private_subnet private_subnet_table[IPA_MAX_PRIVATE_SUBNET_ENTRIES];
/* Store the non nat iface names */
NatIfaces *pNatIfaces;
/* Store the bridge iface names */
char ipa_virtual_iface_name[IPA_IFACE_NAME_LEN];
/* Store the number of interface IPACM read from XML file */
int ipa_num_ipa_interfaces;
int ipa_num_private_subnet;
int ipa_num_alg_ports;
int ipa_nat_max_entries;
bool ipacm_odu_router_mode;
bool ipacm_odu_enable;
bool ipacm_odu_embms_enable;
int ipa_nat_iface_entries;
/* Store the total number of wlan guest ap configured */
int ipa_num_wlan_guest_ap;
/* Max valid rm entry */
int ipa_max_valid_rm_entry;
/* Store SW-enable or not */
bool ipa_sw_rt_enable;
/* Store bridge mode or not */
bool ipa_bridge_enable;
/* Store bridge netdev mac */
uint8_t bridge_mac[IPA_MAC_ADDR_SIZE];
/* Store the flt rule count for each producer client*/
int flt_rule_count_v4[IPA_CLIENT_CONS - IPA_CLIENT_PROD];
int flt_rule_count_v6[IPA_CLIENT_CONS - IPA_CLIENT_PROD];
/* IPACM routing table name for v4/v6 */
struct ipa_ioc_get_rt_tbl rt_tbl_lan_v4, rt_tbl_wan_v4, rt_tbl_default_v4, rt_tbl_v6, rt_tbl_wan_v6;
struct ipa_ioc_get_rt_tbl rt_tbl_wan_dl;
struct ipa_ioc_get_rt_tbl rt_tbl_odu_v4, rt_tbl_odu_v6;
bool isMCC_Mode;
/* To return the instance */
static IPACM_Config* GetInstance();
const char* getEventName(ipa_cm_event_id event_id);
inline void increaseFltRuleCount(int index, ipa_ip_type iptype, int increment)
{
if((index >= IPA_CLIENT_CONS - IPA_CLIENT_PROD) || (index < 0))
{
IPACMERR("Index is out of range: %d.\n", index);
return;
}
if(iptype == IPA_IP_v4)
{
flt_rule_count_v4[index] += increment;
IPACMDBG_H("Now num of v4 flt rules on client %d is %d.\n", index, flt_rule_count_v4[index]);
}
else
{
flt_rule_count_v6[index] += increment;
IPACMDBG_H("Now num of v6 flt rules on client %d is %d.\n", index, flt_rule_count_v6[index]);
}
return;
}
inline void decreaseFltRuleCount(int index, ipa_ip_type iptype, int decrement)
{
if((index >= IPA_CLIENT_CONS - IPA_CLIENT_PROD) || (index < 0))
{
IPACMERR("Index is out of range: %d.\n", index);
return;
}
if(iptype == IPA_IP_v4)
{
flt_rule_count_v4[index] -= decrement;
IPACMDBG_H("Now num of v4 flt rules on client %d is %d.\n", index, flt_rule_count_v4[index]);
}
else
{
flt_rule_count_v6[index] -= decrement;
IPACMDBG_H("Now num of v6 flt rules on client %d is %d.\n", index, flt_rule_count_v6[index]);
}
return;
}
inline int getFltRuleCount(int index, ipa_ip_type iptype)
{
if((index >= IPA_CLIENT_CONS - IPA_CLIENT_PROD) || (index < 0))
{
IPACMERR("Index is out of range: %d.\n", index);
return -1;
}
if(iptype == IPA_IP_v4)
{
return flt_rule_count_v4[index];
}
else
{
return flt_rule_count_v6[index];
}
}
inline int GetAlgPortCnt()
{
return ipa_num_alg_ports;
}
int GetAlgPorts(int nPorts, ipacm_alg *pAlgPorts);
inline int GetNatMaxEntries(void)
{
return ipa_nat_max_entries;
}
inline int GetNatIfacesCnt()
{
return ipa_nat_iface_entries;
}
int GetNatIfaces(int nPorts, NatIfaces *ifaces);
/* for IPACM resource manager dependency usage */
void AddRmDepend(ipa_rm_resource_name rm1,bool rx_bypass_ipa);
void DelRmDepend(ipa_rm_resource_name rm1);
int AddNatIfaces(char *dev_name);
int DelNatIfaces(char *dev_name);
inline void SetQmapId(uint8_t id)
{
qmap_id = id;
}
inline uint8_t GetQmapId()
{
return qmap_id;
}
int SetExtProp(ipa_ioc_query_intf_ext_props *prop);
ipacm_ext_prop* GetExtProp(ipa_ip_type ip_type);
int DelExtProp(ipa_ip_type ip_type);
int Init(void);
inline bool isPrivateSubnet(uint32_t ip_addr)
{
for(int cnt=0; cnt<ipa_num_private_subnet; cnt++)
{
if(private_subnet_table[cnt].subnet_addr ==
(private_subnet_table[cnt].subnet_mask & ip_addr))
{
return true;
}
}
return false;
}
#ifdef FEATURE_IPA_ANDROID
inline bool AddPrivateSubnet(uint32_t ip_addr, int ipa_if_index)
{
ipacm_cmd_q_data evt_data;
ipacm_event_data_fid *data_fid;
uint32_t subnet_mask = ~0;
for(int cnt=0; cnt<ipa_num_private_subnet; cnt++)
{
if(private_subnet_table[cnt].subnet_addr == ip_addr)
{
IPACMDBG("Already has private subnet_addr as: 0x%x in entry(%d) \n", ip_addr, cnt);
return true;
}
}
if(ipa_num_private_subnet < IPA_MAX_PRIVATE_SUBNET_ENTRIES)
{
IPACMDBG("Add IPACM private subnet_addr as: 0x%x in entry(%d) \n", ip_addr, ipa_num_private_subnet);
private_subnet_table[ipa_num_private_subnet].subnet_addr = ip_addr;
private_subnet_table[ipa_num_private_subnet].subnet_mask = (subnet_mask >> 8) << 8;
ipa_num_private_subnet++;
/* IPACM private subnet set changes */
data_fid = (ipacm_event_data_fid *)malloc(sizeof(ipacm_event_data_fid));
if(data_fid == NULL)
{
IPACMERR("unable to allocate memory for event data_fid\n");
return IPACM_FAILURE;
}
data_fid->if_index = ipa_if_index; // already ipa index, not fid index
evt_data.event = IPA_PRIVATE_SUBNET_CHANGE_EVENT;
evt_data.evt_data = data_fid;
/* Insert IPA_PRIVATE_SUBNET_CHANGE_EVENT to command queue */
IPACM_EvtDispatcher::PostEvt(&evt_data);
return true;
}
IPACMERR("IPACM private subnet_addr overflow, total entry(%d)\n", ipa_num_private_subnet);
return false;
}
inline bool DelPrivateSubnet(uint32_t ip_addr, int ipa_if_index)
{
ipacm_cmd_q_data evt_data;
ipacm_event_data_fid *data_fid;
for(int cnt=0; cnt<ipa_num_private_subnet; cnt++)
{
if(private_subnet_table[cnt].subnet_addr == ip_addr)
{
IPACMDBG("Found private subnet_addr as: 0x%x in entry(%d) \n", ip_addr, cnt);
for (; cnt < ipa_num_private_subnet - 1; cnt++)
{
private_subnet_table[cnt].subnet_addr = private_subnet_table[cnt+1].subnet_addr;
}
ipa_num_private_subnet = ipa_num_private_subnet - 1;
/* IPACM private subnet set changes */
data_fid = (ipacm_event_data_fid *)malloc(sizeof(ipacm_event_data_fid));
if(data_fid == NULL)
{
IPACMERR("unable to allocate memory for event data_fid\n");
return IPACM_FAILURE;
}
data_fid->if_index = ipa_if_index; // already ipa index, not fid index
evt_data.event = IPA_PRIVATE_SUBNET_CHANGE_EVENT;
evt_data.evt_data = data_fid;
/* Insert IPA_PRIVATE_SUBNET_CHANGE_EVENT to command queue */
IPACM_EvtDispatcher::PostEvt(&evt_data);
return true;
}
}
IPACMDBG("can't find private subnet_addr as: 0x%x \n", ip_addr);
return false;
}
#endif /* defined(FEATURE_IPA_ANDROID)*/
static const char *DEVICE_NAME_ODU;
private:
static IPACM_Config *pInstance;
static const char *DEVICE_NAME;
IPACM_Config(void);
int m_fd; /* File descriptor of the IPA device node /dev/ipa */
uint8_t qmap_id;
ipacm_ext_prop ext_prop_v4;
ipacm_ext_prop ext_prop_v6;
};
#endif /* IPACM_CONFIG */