blob: f1ed8bcc149b7b55251eb0b6c5616d76ec17203d [file] [log] [blame]
#pragma once
#include "types.hpp"
#include <string>
// IPMI commands for Transport net functions.
enum ipmi_netfn_storage_cmds
{
// Get capability bits
IPMI_CMD_SET_LAN = 0x01,
IPMI_CMD_GET_LAN = 0x02,
};
// Command specific completion codes
enum ipmi_transport_return_codes
{
IPMI_CC_PARM_NOT_SUPPORTED = 0x80,
};
// Parameters
enum class LanParam : uint8_t
{
INPROGRESS = 0,
AUTHSUPPORT = 1, // Read-only
AUTHENABLES = 2,
IP = 3,
IPSRC = 4,
MAC = 5,
SUBNET = 6,
IPHEADER_PARAMS = 7,
RMCP_PORT = 8,
RMCP_SECONDARY_PORT = 9,
BMC_GENERATED_ARP_CTRL = 10,
GRATUITOUS_ARP_INTERVAL = 11,
GATEWAY = 12,
GATEWAY_MAC = 13,
GATEWAY_BACKUP = 14,
GATEWAY_BACKUP_MAC = 15,
COMMUNITY_STRING = 16,
LAN_ALERT_DESTINATION_COUNT = 17, // Read-only
LAN_ALERT_DESTINATION_TYPE = 18, // Type per destination
LAN_ALERT_DESTINATIONS = 19,
VLAN = 20,
VLAN_PRIORITY = 21,
CIPHER_SUITE_COUNT = 22, // Read-only
CIPHER_SUITE_ENTRIES = 23, // Read-only
CIPHER_SUITE_PRIVILEGE_LEVELS = 24,
DESTINATION_ADDR_VLAN_TAGS = 25,
BAD_PASSWORD_THRESHOLD = 26,
IPV6_AND_IPV4_SUPPORTED = 50, // Read-only
IPV6_AND_IPV4_ENABLES = 51,
IPV6_HEADER_STATIC_TRAFFIC_CLASS = 52,
IPV6_HEADER_STATIC_HOP_LIMIT = 53,
IPV6_HEADER_FLOW_LABEL = 54,
IPV6_STATUS = 55, // Read-only
IPV6_STATIC_ADDRESSES = 56,
IPV6_DHCPV6_STATIC_DUID_STORAGE_LENGTH = 57, // Read-only
IPV6_DHCPV6_STATIC_DUIDS = 58,
IPV6_DYNAMIC_ADDRESSES = 59, // Read-only
IPV6_DHCPV6_DYNAMIC_DUID_STOR_LEN = 60, // Read-only
IPV6_DHCPV6_DYNAMIC_DUIDS = 61,
IPV6_DHCPV6_TIMING_CONF_SUPPORT = 62, // Read-only
IPV6_DHCPV6_TIMING_CONFIGURATION = 63,
IPV6_ROUTER_ADDRESS_CONF_CTRL = 64,
IPV6_STATIC_ROUTER_1_IP_ADDR = 65,
IPV6_STATIC_ROUTER_1_MAC_ADDR = 66,
IPV6_STATIC_ROUTER_1_PREFIX_LEN = 67,
IPV6_STATIC_ROUTER_1_PREFIX_VAL = 68,
IPV6_STATIC_ROUTER_2_IP_ADDR = 69,
IPV6_STATIC_ROUTER_2_MAC_ADDR = 70,
IPV6_STATIC_ROUTER_2_PREFIX_LEN = 71,
IPV6_STATIC_ROUTER_2_PREFIX_VAL = 72,
DYNAMIC_ROUTER_INFO_SET_COUNT = 73, // Read-only
IPV6_DYNAMIC_ROUTER_INFO_IP_ADDR = 74, // Read-only
IPV6_DYNAMIC_ROUTER_INFO_MAC = 75, // Read-only
IPV6_DYNAMIC_ROUTER_INFO_PREFIX_LEN = 76, // Read-only
IPV6_DYNAMIC_ROUTER_INFO_PREFIX_VAL = 77, // Read-only
IPV6_DYNAMIC_ROUTER_RECV_HOP_LIMIT = 78,
IPV6_NEIGHBOR_TIMING_CONF_SUPPORT = 79, // Read-only
IPV6_NEIGHBOR_TIMING_CONFIGURATION = 80,
};
constexpr uint8_t SET_COMPLETE = 0;
constexpr uint8_t SET_IN_PROGRESS = 1;
constexpr uint8_t SET_COMMIT_WRITE = 2; // Optional
constexpr uint8_t SET_IN_PROGRESS_RESERVED = 3; // Reserved
const int CHANNEL_MASK = 0x0f;
const int NUM_CHANNELS = 0x0f;
struct ChannelConfig_t
{
std::string ipaddr;
ipmi::network::IPOrigin ipsrc = ipmi::network::IPOrigin::UNSPECIFIED;
std::string netmask;
std::string gateway;
std::string macAddress;
// IPMI stores the vlan info in 16 bits,32 bits is to aligned
// with phosphor-dbus interfaces.
// vlan id is in 12 bits and the 16th bit is for enable mask.
uint32_t vlanID = ipmi::network::VLAN_ID_MASK;
uint8_t lan_set_in_progress = SET_COMPLETE;
bool flush = false;
void clear()
{
ipaddr.clear();
netmask.clear();
gateway.clear();
macAddress.clear();
vlanID = ipmi::network::VLAN_ID_MASK;
ipsrc = ipmi::network::IPOrigin::UNSPECIFIED;
lan_set_in_progress = SET_COMPLETE;
flush = false;
}
};
// Given a channel, get the corresponding configuration,
// or allocate it first.
//
// @param[in] channel the channel
// @return the ChannelConfig_t pointer.
struct ChannelConfig_t* getChannelConfig(int channel);
/** @brief Iterate over all the channelconfig and if
* user has given the data for a channel then
* apply the network changes for that channel.
*/
void commitNetworkChanges();
/* @brief Apply the network changes which is there in the
* network cache for a given channel which gets filled
* through setLan command. If some of the network
* parameter was not given by the setLan then this function
* gets the value of that parameter which is already
* configured on the system.
* @param[in] channel: channel number.
*/
void applyChanges(int channel);