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+-----------------------
+ Ethernet Driver Guide
+-----------------------
+
+The networking stack in Das U-Boot is designed for multiple network devices
+to be easily added and controlled at runtime. This guide is meant for people
+who wish to review the net driver stack with an eye towards implementing your
+own ethernet device driver. Here we will describe a new pseudo 'APE' driver.
+
+------------------
+ Driver Functions
+------------------
+
+All functions you will be implementing in this document have the return value
+meaning of 0 for success and non-zero for failure.
+
+ ----------
+ Register
+ ----------
+
+When U-Boot initializes, it will call the common function eth_initialize().
+This will in turn call the board-specific board_eth_init() (or if that fails,
+the cpu-specific cpu_eth_init()). These board-specific functions can do random
+system handling, but ultimately they will call the driver-specific register
+function which in turn takes care of initializing that particular instance.
+
+Keep in mind that you should code the driver to avoid storing state in global
+data as someone might want to hook up two of the same devices to one board. If
+the state is maintained as global data, it makes using both of those devices
+impossible.
+
+So the call graph at this stage would look something like:
+board_init()
+ eth_initialize()
+ board_eth_init() / cpu_eth_init()
+ driver_register()
+ initialize eth_device
+ eth_register()
+
+At this point in time, the only thing you need to worry about is the driver's
+register function. The pseudo code would look something like:
+int ape_register(bd_t *bis, int iobase)
+{
+ struct ape_priv *priv;
+ struct eth_device *dev;
+
+ priv = malloc(sizeof(*priv));
+ if (priv == NULL)
+ return 1;
+
+ dev = malloc(sizeof(*dev));
+ if (dev == NULL) {
+ free(priv);
+ return 1;
+ }
+
+ /* setup whatever private state you need */
+
+ memset(dev, 0, sizeof(*dev));
+ sprintf(dev->name, "APE");
+
+ /* if your device has dedicated hardware storage for the
+ * MAC, read it and initialize dev->enetaddr with it
+ */
+ ape_mac_read(dev->enetaddr);
+
+ dev->iobase = iobase;
+ dev->priv = priv;
+ dev->init = ape_init;
+ dev->halt = ape_halt;
+ dev->send = ape_send;
+ dev->recv = ape_recv;
+
+ eth_register(dev);
+
+#ifdef CONFIG_CMD_MII)
+ miiphy_register(dev->name, ape_mii_read, ape_mii_write);
+#endif
+
+ return 0;
+}
+
+The exact arguments needed to initialize your device are up to you. If you
+need to pass more/less arguments, that's fine. You should also add the
+prototype for your new register function to include/netdev.h. You might notice
+that many drivers seem to use xxx_initialize() rather than xxx_register().
+This is the old naming convention and should be avoided as it causes confusion
+with the driver-specific init function.
+
+Other than locating the MAC address in dedicated hardware storage, you should
+not touch the hardware in anyway. That step is handled in the driver-specific
+init function. Remember that we are only registering the device here, we are
+not checking its state or doing random probing.
+
+ -----------
+ Callbacks
+ -----------
+
+Now that we've registered with the ethernet layer, we can start getting some
+real work done. You will need four functions:
+ int ape_init(struct eth_device *dev, bd_t *bis);
+ int ape_send(struct eth_device *dev, volatile void *packet, int length);
+ int ape_recv(struct eth_device *dev);
+ int ape_halt(struct eth_device *dev);
+
+The init function checks the hardware (probing/identifying) and gets it ready
+for send/recv operations. You often do things here such as resetting the MAC
+and/or PHY, and waiting for the link to autonegotiate. You should also take
+the opportunity to program the device's MAC address with the dev->enetaddr
+member. This allows the rest of U-Boot to dynamically change the MAC address
+and have the new settings be respected.
+
+The send function does what you think -- transmit the specified packet whose
+size is specified by length (in bytes). You should not return until the
+transmission is complete, and you should leave the state such that the send
+function can be called multiple times in a row.
+
+The recv function should process packets as long as the hardware has them
+readily available before returning. i.e. you should drain the hardware fifo.
+The common code sets up packet buffers for you already (NetRxPackets), so there
+is no need to allocate your own. For each packet you receive, you should call
+the NetReceive() function on it with the packet length. So the pseudo code
+here would look something like:
+int ape_recv(struct eth_device *dev)
+{
+ int length, i = 0;
+ ...
+ while (packets_are_available()) {
+ ...
+ length = ape_get_packet(&NetRxPackets[i]);
+ ...
+ NetReceive(&NetRxPackets[i], length);
+ ...
+ if (++i >= PKTBUFSRX)
+ i = 0;
+ ...
+ }
+ ...
+ return 0;
+}
+
+The halt function should turn off / disable the hardware and place it back in
+its reset state.
+
+So the call graph at this stage would look something like:
+some net operation (ping / tftp / whatever...)
+ eth_init()
+ dev->init()
+ eth_send()
+ dev->send()
+ eth_rx()
+ dev->recv()
+ eth_halt()
+ dev->halt()
+
+-----------------------------
+ CONFIG_MII / CONFIG_CMD_MII
+-----------------------------
+
+If your device supports banging arbitrary values on the MII bus (pretty much
+every device does), you should add support for the mii command. Doing so is
+fairly trivial and makes debugging mii issues a lot easier at runtime.
+
+After you have called eth_register() in your driver's register function, add
+a call to miiphy_register() like so:
+#if defined(CONFIG_MII) || defined(CONFIG_CMD_MII)
+ miiphy_register(dev->name, mii_read, mii_write);
+#endif
+
+And then define the mii_read and mii_write functions if you haven't already.
+Their syntax is straightforward:
+ int mii_read(char *devname, uchar addr, uchar reg, ushort *val);
+ int mii_write(char *devname, uchar addr, uchar reg, ushort val);
+
+The read function should read the register 'reg' from the phy at address 'addr'
+and store the result in the pointer 'val'. The implementation for the write
+function should logically follow.