Ethernet
Overview
Ethernet is a networking technology commonly used in local area networks (LAN). For more information, see this Ethernet Wikipedia article.
Zephyr supports following Ethernet features:
10, 100 and 1000 Mbit/sec links
Auto negotiation
Half/full duplex
Promiscuous mode
TX and RX checksum offloading
MAC address filtering
Not all Ethernet device drivers support all of these features. You can
see what is supported by net iface
net-shell command. It will print
currently supported Ethernet features.
API Reference
- group ethernet
Ethernet support functions.
Defines
-
ETH_NET_DEVICE_INIT(dev_id, name, init_fn, pm, data, config, prio, api, mtu)
Create an Ethernet network interface and bind it to network device.
- Parameters
dev_id – Network device id.
name – The name this instance of the driver exposes to the system.
init_fn – Address to the init function of the driver.
pm – Reference to struct pm_device associated with the device. (optional).
data – Pointer to the device’s private data.
config – The address to the structure containing the configuration information for this instance of the driver.
prio – The initialization level at which configuration occurs.
api – Provides an initial pointer to the API function struct used by the driver. Can be NULL.
mtu – Maximum transfer unit in bytes for this network interface.
-
ETH_NET_DEVICE_DT_DEFINE(node_id, init_fn, pm, data, config, prio, api, mtu)
Like ETH_NET_DEVICE_INIT but taking metadata from a devicetree. Create an Ethernet network interface and bind it to network device.
- Parameters
node_id – The devicetree node identifier.
init_fn – Address to the init function of the driver.
pm – Reference to struct pm_device associated with the device. (optional).
data – Pointer to the device’s private data.
config – The address to the structure containing the configuration information for this instance of the driver.
prio – The initialization level at which configuration occurs.
api – Provides an initial pointer to the API function struct used by the driver. Can be NULL.
mtu – Maximum transfer unit in bytes for this network interface.
-
ETH_NET_DEVICE_DT_INST_DEFINE(inst, ...)
Like ETH_NET_DEVICE_DT_DEFINE for an instance of a DT_DRV_COMPAT compatible.
- Parameters
inst – instance number. This is replaced by
DT_DRV_COMPAT(inst)
in the call to ETH_NET_DEVICE_DT_DEFINE.... – other parameters as expected by ETH_NET_DEVICE_DT_DEFINE.
Enums
Functions
-
void ethernet_init(struct net_if *iface)
Initialize Ethernet L2 stack for a given interface.
- Parameters
iface – A valid pointer to a network interface
-
void net_eth_ipv4_mcast_to_mac_addr(const struct in_addr *ipv4_addr, struct net_eth_addr *mac_addr)
Convert IPv4 multicast address to Ethernet address.
- Parameters
ipv4_addr – IPv4 multicast address
mac_addr – Output buffer for Ethernet address
-
void net_eth_ipv6_mcast_to_mac_addr(const struct in6_addr *ipv6_addr, struct net_eth_addr *mac_addr)
Convert IPv6 multicast address to Ethernet address.
- Parameters
ipv6_addr – IPv6 multicast address
mac_addr – Output buffer for Ethernet address
-
static inline enum ethernet_hw_caps net_eth_get_hw_capabilities(struct net_if *iface)
Return ethernet device hardware capability information.
- Parameters
iface – Network interface
- Returns
Hardware capabilities
-
static inline int net_eth_vlan_enable(struct net_if *iface, uint16_t tag)
Add VLAN tag to the interface.
- Parameters
iface – Interface to use.
tag – VLAN tag to add
- Returns
0 if ok, <0 if error
-
static inline int net_eth_vlan_disable(struct net_if *iface, uint16_t tag)
Remove VLAN tag from the interface.
- Parameters
iface – Interface to use.
tag – VLAN tag to remove
- Returns
0 if ok, <0 if error
-
static inline uint16_t net_eth_get_vlan_tag(struct net_if *iface)
Return VLAN tag specified to network interface.
- Parameters
iface – Network interface.
- Returns
VLAN tag for this interface or NET_VLAN_TAG_UNSPEC if VLAN is not configured for that interface.
-
static inline struct net_if *net_eth_get_vlan_iface(struct net_if *iface, uint16_t tag)
Return network interface related to this VLAN tag.
- Parameters
iface – Master network interface. This is used to get the pointer to ethernet L2 context
tag – VLAN tag
- Returns
Network interface related to this tag or NULL if no such interface exists.
-
static inline bool net_eth_is_vlan_enabled(struct ethernet_context *ctx, struct net_if *iface)
Check if VLAN is enabled for a specific network interface.
- Parameters
ctx – Ethernet context
iface – Network interface
- Returns
True if VLAN is enabled for this network interface, false if not.
-
static inline bool net_eth_get_vlan_status(struct net_if *iface)
Get VLAN status for a given network interface (enabled or not).
- Parameters
iface – Network interface
- Returns
True if VLAN is enabled for this network interface, false if not.
-
void net_eth_carrier_on(struct net_if *iface)
Inform ethernet L2 driver that ethernet carrier is detected. This happens when cable is connected.
- Parameters
iface – Network interface
-
void net_eth_carrier_off(struct net_if *iface)
Inform ethernet L2 driver that ethernet carrier was lost. This happens when cable is disconnected.
- Parameters
iface – Network interface
-
int net_eth_promisc_mode(struct net_if *iface, bool enable)
Set promiscuous mode either ON or OFF.
- Parameters
iface – Network interface
enable – on (true) or off (false)
- Returns
0 if mode set or unset was successful, <0 otherwise.
-
static inline const struct device *net_eth_get_ptp_clock(struct net_if *iface)
Return PTP clock that is tied to this ethernet network interface.
- Parameters
iface – Network interface
- Returns
Pointer to PTP clock if found, NULL if not found or if this ethernet interface does not support PTP.
-
struct ethernet_qav_param
- #include <ethernet.h>
Public Members
-
int queue_id
ID of the priority queue to use
-
enum ethernet_qav_param_type type
Type of Qav parameter
-
bool enabled
True if Qav is enabled for queue
-
unsigned int delta_bandwidth
Delta Bandwidth (percentage of bandwidth)
-
unsigned int idle_slope
Idle Slope (bits per second)
-
unsigned int oper_idle_slope
Oper Idle Slope (bits per second)
-
unsigned int traffic_class
Traffic class the queue is bound to
-
int queue_id
-
struct ethernet_qbv_param
- #include <ethernet.h>
Public Members
-
int port_id
Port id
-
enum ethernet_qbv_param_type type
Type of Qbv parameter
-
enum ethernet_qbv_state_type state
What state (Admin/Oper) parameters are these
-
bool enabled
True if Qbv is enabled or not
-
bool gate_status[NET_TC_TX_COUNT]
True = open, False = closed
-
enum ethernet_gate_state_operation operation
GateState operation
-
uint32_t time_interval
Time interval ticks (nanoseconds)
-
uint16_t row
Gate control list row
-
uint32_t gate_control_list_len
Number of entries in gate control list
-
struct net_ptp_extended_time base_time
Base time
-
struct net_ptp_time cycle_time
Cycle time
-
uint32_t extension_time
Extension time (nanoseconds)
-
int port_id
-
struct ethernet_qbu_param
- #include <ethernet.h>
Public Members
-
int port_id
Port id
-
enum ethernet_qbu_param_type type
Type of Qbu parameter
-
uint32_t hold_advance
Hold advance (nanoseconds)
-
uint32_t release_advance
Release advance (nanoseconds)
-
enum ethernet_qbu_preempt_status frame_preempt_statuses[NET_TC_TX_COUNT]
sequence of framePreemptionAdminStatus values.
-
bool enabled
True if Qbu is enabled or not
-
bool link_partner_status
Link partner status (from Qbr)
-
uint8_t additional_fragment_size
Additional fragment size (from Qbr). The minimum non-final fragment size is (additional_fragment_size + 1) * 64 octets
-
int port_id
-
struct ethernet_filter
- #include <ethernet.h>
-
struct ethernet_txtime_param
- #include <ethernet.h>
-
struct ethernet_api
- #include <ethernet.h>
Public Members
-
struct net_if_api iface_api
The net_if_api must be placed in first position in this struct so that we are compatible with network interface API.
-
enum ethernet_hw_caps (*get_capabilities)(const struct device *dev)
Get the device capabilities
-
int (*set_config)(const struct device *dev, enum ethernet_config_type type, const struct ethernet_config *config)
Set specific hardware configuration
-
struct net_if_api iface_api
-
struct ethernet_context
- #include <ethernet.h>
Ethernet L2 context that is needed for VLAN
Public Members
-
atomic_t flags
Flags representing ethernet state, which are accessed from multiple threads.
-
struct k_work carrier_work
Carrier ON/OFF handler worker. This is used to create network interface UP/DOWN event when ethernet L2 driver notices carrier ON/OFF situation. We must not create another network management event from inside management handler thus we use worker thread to trigger the UP/DOWN event.
-
enum net_l2_flags ethernet_l2_flags
This tells what L2 features does ethernet support.
-
bool is_net_carrier_up
Is network carrier up
-
bool is_init
Is this context already initialized
-
atomic_t flags
-
ETH_NET_DEVICE_INIT(dev_id, name, init_fn, pm, data, config, prio, api, mtu)
- group ethernet_mii
Ethernet MII (media independent interface) functions.
Defines
-
MII_BMCR
Basic Mode Control Register
-
MII_BMSR
Basic Mode Status Register
-
MII_PHYID1R
PHY ID 1 Register
-
MII_PHYID2R
PHY ID 2 Register
-
MII_ANAR
Auto-Negotiation Advertisement Register
-
MII_ANLPAR
Auto-Negotiation Link Partner Ability Reg
-
MII_ANER
Auto-Negotiation Expansion Register
-
MII_ANNPTR
Auto-Negotiation Next Page Transmit Register
-
MII_ANLPRNPR
Auto-Negotiation Link Partner Received Next Page Reg
-
MII_MMD_ACR
MMD Access Control Register
-
MII_MMD_AADR
MMD Access Address Data Register
-
MII_ESTAT
Extended Status Register
-
MII_BMCR_RESET
PHY reset
-
MII_BMCR_LOOPBACK
enable loopback mode
-
MII_BMCR_SPEED_LSB
10=1000Mbps 01=100Mbps; 00=10Mbps
-
MII_BMCR_AUTONEG_ENABLE
Auto-Negotiation enable
-
MII_BMCR_POWER_DOWN
power down mode
-
MII_BMCR_ISOLATE
isolate electrically PHY from MII
-
MII_BMCR_AUTONEG_RESTART
restart auto-negotiation
-
MII_BMCR_DUPLEX_MODE
full duplex mode
-
MII_BMCR_SPEED_MSB
10=1000Mbps 01=100Mbps; 00=10Mbps
-
MII_BMCR_SPEED_MASK
Link Speed Field
-
MII_BMCR_SPEED_10
select speed 10 Mb/s
-
MII_BMCR_SPEED_100
select speed 100 Mb/s
-
MII_BMCR_SPEED_1000
select speed 1000 Mb/s
-
MII_BMSR_100BASE_T4
100BASE-T4 capable
-
MII_BMSR_100BASE_X_FULL
100BASE-X full duplex capable
-
MII_BMSR_100BASE_X_HALF
100BASE-X half duplex capable
-
MII_BMSR_10_FULL
10 Mb/s full duplex capable
-
MII_BMSR_10_HALF
10 Mb/s half duplex capable
-
MII_BMSR_100BASE_T2_FULL
100BASE-T2 full duplex capable
-
MII_BMSR_100BASE_T2_HALF
100BASE-T2 half duplex capable
-
MII_BMSR_EXTEND_STATUS
extend status information in reg 15
-
MII_BMSR_MF_PREAMB_SUPPR
PHY accepts management frames with preamble suppressed
-
MII_BMSR_AUTONEG_COMPLETE
Auto-negotiation process completed
-
MII_BMSR_REMOTE_FAULT
remote fault detected
-
MII_BMSR_AUTONEG_ABILITY
PHY is able to perform Auto-Negotiation
-
MII_BMSR_LINK_STATUS
link is up
-
MII_BMSR_JABBER_DETECT
jabber condition detected
-
MII_BMSR_EXTEND_CAPAB
extended register capabilities
-
MII_ADVERTISE_NEXT_PAGE
next page
-
MII_ADVERTISE_LPACK
link partner acknowledge response
-
MII_ADVERTISE_REMOTE_FAULT
remote fault
-
MII_ADVERTISE_ASYM_PAUSE
try for asymmetric pause
-
MII_ADVERTISE_PAUSE
try for pause
-
MII_ADVERTISE_100BASE_T4
try for 100BASE-T4 support
-
MII_ADVERTISE_100_FULL
try for 100BASE-X full duplex support
-
MII_ADVERTISE_100_HALF
try for 100BASE-X support
-
MII_ADVERTISE_10_FULL
try for 10 Mb/s full duplex support
-
MII_ADVERTISE_10_HALF
try for 10 Mb/s half duplex support
-
MII_ADVERTISE_SEL_MASK
Selector Field
-
MII_ADVERTISE_SEL_IEEE_802_3
-
MII_ADVERTISE_ALL
-
MII_BMCR