RTL8139
The RTL8139 Network Chip is used on many old Ethernet Network Devices. It supports 10 and 100 MBit.
Programming Guide
Turning on the RTL8139
Send 0x00 to the CONFIG_1 register (0x52) to set the LWAKE + LWPTN to active high. this should essentially *power on* the device.
Software Reset!
Next, we should do a software reset to clear the RX and TX buffers and set everything back to defaults. Do this to eliminate the possibility of there still being garbage left in the buffers or registers on power on.
Sending 0x10 to the Command register (0x37) will send the RTL8139 into a software reset. Once that byte is sent, the RST bit must be checked to make sure that the chip has finished the reset. If the RST bit is high (1), then the reset is still in operation.
Init Receive buffer
For this part, we will send the chip a memory location to use as its receive buffer start location. One way to do it, would be to define a buffer variable and send that variables memory location to the RBSTART register (0x30).
ex:
char rx_buffer[8192+16]; // declare the local buffer space (8k + header) outportd(0x30, (unsigned long)rx_buffer); // send dword memory location to RBSTART (0x30)
Set IMR + ISR
The Interrupt Mask Register (IMR) and Interrupt Service Register (ISR) are responsible for firing up different IRQs. The IMR bits line up with the ISR bits to work in sync. If an IMR bit is low, then the corresponding ISR bit with never fire an IRQ when the time comes for it to happen. The IMR is located at 0x3C and the ISR is located at 0x3E.
To set the RTL8139 to accept only the Transmit OK (TOK) and Receive OK (ROK) interrupts, we would have the TOK and ROK bits of the IMR high and leave the rest low. That way when a TOK or ROK IRQ happens, it actually will go through and fire up an IRQ.
ex:
outportw(0x3C, 0x0005); // Sets the TOK and ROK bits high
NB: When you handle an interrupt, you have to write the bit corresponding to the interrupt to reset it. The doc says reading the register is enough to reset the buffer to zero and writing has no effect. This is not the case on QEmu, and probably on some/most hardware too. Writing a bit when it has no effect will probably not hurt.
01000101: Confirmed. In fact, the only way to clear an interrupt is by writing to it. The datasheet says that reading is what you must do, but it is completely wrong.
Configuring receive buffer (RCR)
Before hoping to see a packet coming to you, you should tell the RTL8139 to accept packets based on various rules. The configuration register is RCR.
You can enable different "matching" rules:
- AB - Accept Broadcast: Accept broadcast packets sent to mac ff:ff:ff:ff:ff:ff
- AM - Accept Multicast: Accept multicast packets
- APM - Accept Partial Match: Accept packets partially matched for you
- AAP: Accept exact match. This is one you usually don't want to forget.
You can also enable a nice option in this register : the WRAP option. It enables the Rx buffer to act as a ring buffer: if a packet is being written near the end of the buffer and the RTL8139 knows you've already handled data before this (thanks to CAPR), the packet will continue at the beginning of the buffer.
You can also tell the size of your RX buffer here, however if you use a 8k + 16 buffer as described before, writing zeroes is enough.
Example:
outportl(0x44, 0xf | (1 << 7)); // (1 << 7) is the WRAP bit, 0xf is AB+AM+APM+AAP
Enable Receive and Transmitter
Now is the time to start up the RX and TX functions. This is quite an easy piece, and should (in my opinion) only be done after all of the configurations to the RTL8139's registers have been set to what is desired. The RE (Receiver Enabled) and the TE (Transmitter Enabled) bits are located in the Command Register (0x37). Starting up the RE and TE is pretty straight-forward, but lets go through it anyways.
To enable the RTL8139 to accept and transmit packets, the RE and TE bits must go high. Once this is completed, then the card will start allowing packets in and/or out.
ex:
outportb(0x37, 0x0C); // Sets the RE and TE bits high
Related Articles
- RTL8169 Successor Chipset
External Links
- http://www.magnesium.net/~wpaul/rt/spec-8139cp(150).pdf, Datasheet for the RTL8139
- http://www.cs.usfca.edu/~cruse/cs326f04/RTL8139_ProgrammersGuide.pdf, Programming guide for the RTL8139