56.6.8 MAC Filtering Block
The filter block determines which frames should be written to the FIFO interface and on to the DMA.
Whether a frame is passed depends on what is enabled in the Network Configuration register, the contents of the specific address, type and Hash registers and the frame's destination address and type field.
If bit 25 of the Network Configuration register is not set, a frame will not be copied to memory if the GMAC is transmitting in half duplex mode at the time a destination address is received.
Ethernet frames are transmitted a byte at a time, least significant bit first. The first six bytes (48 bits) of an Ethernet frame make up the destination address. The first bit of the destination address, which is the LSB of the first byte of the frame, is the group or individual bit. This is one for multicast addresses and zero for unicast. The all ones address is the broadcast address and a special case of multicast.
The GMAC supports recognition of four specific addresses. Each specific address requires two registers, Specific Address Bottom register and Specific Address Top register. Specific Address Bottom register stores the first four bytes of the destination address and Specific Address Top register contains the last two bytes. The addresses stored can be specific, group, local or universal.
The destination address of received frames is compared against the data stored in the Specific Address registers once they have been activated. The addresses are deactivated at reset or when their corresponding Specific Address Bottom register is written. They are activated when Specific Address Top register is written. If a receive frame address matches an active address, the frame is written to the FIFO interface and on to DMA memory.
Frames may be filtered using the type ID field for matching. Four type ID registers exist in the register address space and each can be enabled for matching by writing a one to the MSB (bit 31) of the respective register. When a frame is received, the matching is implemented as an OR function of the various types of match.
The contents of each type ID register (when enabled) are compared against the length/type ID of the frame being received (e.g., bytes 13 and 14 in non-VLAN and non-SNAP encapsulated frames) and copied to memory if a match is found. The encoded type ID match bits (Word 0, Bit 22 and Bit 23) in the receive buffer descriptor status are set indicating which type ID register generated the match, if the receive checksum offload is disabled.
The reset state of the type ID registers is zero, hence each is initially disabled.
The following example illustrates the use of the address and type ID match registers for a MAC address of 21:43:65:87:A9:CB:
Preamble | 55 |
SFD | D5 |
DA (Octet 0 - LSB) | 21 |
DA (Octet 1) | 43 |
DA (Octet 2) | 65 |
DA (Octet 3) | 87 |
DA (Octet 4) | A9 |
DA (Octet 5 - MSB) | CB |
SA (LSB) | 00(1) |
SA | 00(1) |
SA | 00(1) |
SA | 00(1) |
SA | 00(1) |
SA (MSB) | 00(1) |
Type ID (MSB) | 43 |
Type ID (LSB) | 21 |
- Contains the address of the transmitting device.
The sequence above shows the beginning of an Ethernet frame. Byte order of transmission is from top to bottom as shown. For a successful match to specific address 1, the following address matching registers must be set up:
- Specific Address 1 Bottom register (GMAC_SAB1) (Address 0x088) 0x87654321
- Specific Address 1 Top register (GMAC_SAT1) (Address 0x08C) 0x0000CBA9
For a successful match to the type ID, the following Type ID Match 1 register must be set up:
- Type ID Match 1 register (GMAC_TIDM1) (Address 0x0A8) 0x80004321