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Mike Frysingerfc615a72009-09-09 14:41:22 -04001-----------------------
2 Ethernet Driver Guide
3-----------------------
4
5The networking stack in Das U-Boot is designed for multiple network devices
6to be easily added and controlled at runtime. This guide is meant for people
7who wish to review the net driver stack with an eye towards implementing your
8own ethernet device driver. Here we will describe a new pseudo 'APE' driver.
9
10------------------
11 Driver Functions
12------------------
13
14All functions you will be implementing in this document have the return value
15meaning of 0 for success and non-zero for failure.
16
17 ----------
18 Register
19 ----------
20
21When U-Boot initializes, it will call the common function eth_initialize().
22This will in turn call the board-specific board_eth_init() (or if that fails,
23the cpu-specific cpu_eth_init()). These board-specific functions can do random
24system handling, but ultimately they will call the driver-specific register
25function which in turn takes care of initializing that particular instance.
26
27Keep in mind that you should code the driver to avoid storing state in global
Ben Warrenb3cce7a2009-10-05 00:02:51 -070028data as someone might want to hook up two of the same devices to one board.
29Any such information that is specific to an interface should be stored in a
30private, driver-defined data structure and pointed to by eth->priv (see below).
Mike Frysingerfc615a72009-09-09 14:41:22 -040031
32So the call graph at this stage would look something like:
33board_init()
34 eth_initialize()
35 board_eth_init() / cpu_eth_init()
36 driver_register()
37 initialize eth_device
38 eth_register()
39
40At this point in time, the only thing you need to worry about is the driver's
41register function. The pseudo code would look something like:
42int ape_register(bd_t *bis, int iobase)
43{
44 struct ape_priv *priv;
45 struct eth_device *dev;
Bin Meng610b3992015-03-20 17:12:19 +080046 struct mii_dev *bus;
Mike Frysingerfc615a72009-09-09 14:41:22 -040047
48 priv = malloc(sizeof(*priv));
49 if (priv == NULL)
Bin Meng610b3992015-03-20 17:12:19 +080050 return -ENOMEM;
Mike Frysingerfc615a72009-09-09 14:41:22 -040051
52 dev = malloc(sizeof(*dev));
53 if (dev == NULL) {
54 free(priv);
Bin Meng610b3992015-03-20 17:12:19 +080055 return -ENOMEM;
Mike Frysingerfc615a72009-09-09 14:41:22 -040056 }
57
58 /* setup whatever private state you need */
59
60 memset(dev, 0, sizeof(*dev));
61 sprintf(dev->name, "APE");
62
Bin Meng610b3992015-03-20 17:12:19 +080063 /*
64 * if your device has dedicated hardware storage for the
Mike Frysingerfc615a72009-09-09 14:41:22 -040065 * MAC, read it and initialize dev->enetaddr with it
66 */
67 ape_mac_read(dev->enetaddr);
68
69 dev->iobase = iobase;
70 dev->priv = priv;
71 dev->init = ape_init;
72 dev->halt = ape_halt;
73 dev->send = ape_send;
74 dev->recv = ape_recv;
Ben Warren6db991a2010-04-26 11:11:46 -070075 dev->write_hwaddr = ape_write_hwaddr;
Mike Frysingerfc615a72009-09-09 14:41:22 -040076
77 eth_register(dev);
78
Bin Meng610b3992015-03-20 17:12:19 +080079#ifdef CONFIG_PHYLIB
80 bus = mdio_alloc();
81 if (!bus) {
82 free(priv);
83 free(dev);
84 return -ENOMEM;
85 }
86
87 bus->read = ape_mii_read;
88 bus->write = ape_mii_write;
89 mdio_register(bus);
Mike Frysingerfc615a72009-09-09 14:41:22 -040090#endif
91
Ben Warrenb3cce7a2009-10-05 00:02:51 -070092 return 1;
Mike Frysingerfc615a72009-09-09 14:41:22 -040093}
94
95The exact arguments needed to initialize your device are up to you. If you
96need to pass more/less arguments, that's fine. You should also add the
Ben Warrenb3cce7a2009-10-05 00:02:51 -070097prototype for your new register function to include/netdev.h.
98
99The return value for this function should be as follows:
100< 0 - failure (hardware failure, not probe failure)
101>=0 - number of interfaces detected
102
Wolfgang Denkd61fbcc2009-10-28 00:49:47 +0100103You might notice that many drivers seem to use xxx_initialize() rather than
Ben Warrenb3cce7a2009-10-05 00:02:51 -0700104xxx_register(). This is the old naming convention and should be avoided as it
105causes confusion with the driver-specific init function.
Mike Frysingerfc615a72009-09-09 14:41:22 -0400106
107Other than locating the MAC address in dedicated hardware storage, you should
108not touch the hardware in anyway. That step is handled in the driver-specific
109init function. Remember that we are only registering the device here, we are
110not checking its state or doing random probing.
111
112 -----------
113 Callbacks
114 -----------
115
116Now that we've registered with the ethernet layer, we can start getting some
Ben Warren6db991a2010-04-26 11:11:46 -0700117real work done. You will need five functions:
Mike Frysingerfc615a72009-09-09 14:41:22 -0400118 int ape_init(struct eth_device *dev, bd_t *bis);
119 int ape_send(struct eth_device *dev, volatile void *packet, int length);
120 int ape_recv(struct eth_device *dev);
121 int ape_halt(struct eth_device *dev);
Ben Warren6db991a2010-04-26 11:11:46 -0700122 int ape_write_hwaddr(struct eth_device *dev);
Mike Frysingerfc615a72009-09-09 14:41:22 -0400123
124The init function checks the hardware (probing/identifying) and gets it ready
125for send/recv operations. You often do things here such as resetting the MAC
126and/or PHY, and waiting for the link to autonegotiate. You should also take
127the opportunity to program the device's MAC address with the dev->enetaddr
128member. This allows the rest of U-Boot to dynamically change the MAC address
129and have the new settings be respected.
130
131The send function does what you think -- transmit the specified packet whose
132size is specified by length (in bytes). You should not return until the
133transmission is complete, and you should leave the state such that the send
134function can be called multiple times in a row.
135
136The recv function should process packets as long as the hardware has them
137readily available before returning. i.e. you should drain the hardware fifo.
Mike Frysinger36a92062009-11-01 22:39:56 -0500138For each packet you receive, you should call the NetReceive() function on it
139along with the packet length. The common code sets up packet buffers for you
140already in the .bss (NetRxPackets), so there should be no need to allocate your
141own. This doesn't mean you must use the NetRxPackets array however; you're
142free to call the NetReceive() function with any buffer you wish. So the pseudo
143code here would look something like:
Mike Frysingerfc615a72009-09-09 14:41:22 -0400144int ape_recv(struct eth_device *dev)
145{
146 int length, i = 0;
147 ...
148 while (packets_are_available()) {
149 ...
150 length = ape_get_packet(&NetRxPackets[i]);
151 ...
152 NetReceive(&NetRxPackets[i], length);
153 ...
154 if (++i >= PKTBUFSRX)
155 i = 0;
156 ...
157 }
158 ...
159 return 0;
160}
161
162The halt function should turn off / disable the hardware and place it back in
Mike Frysinger36a92062009-11-01 22:39:56 -0500163its reset state. It can be called at any time (before any call to the related
164init function), so make sure it can handle this sort of thing.
Mike Frysingerfc615a72009-09-09 14:41:22 -0400165
Ben Warren6db991a2010-04-26 11:11:46 -0700166The write_hwaddr function should program the MAC address stored in dev->enetaddr
167into the Ethernet controller.
168
Mike Frysingerfc615a72009-09-09 14:41:22 -0400169So the call graph at this stage would look something like:
170some net operation (ping / tftp / whatever...)
171 eth_init()
172 dev->init()
173 eth_send()
174 dev->send()
175 eth_rx()
176 dev->recv()
177 eth_halt()
178 dev->halt()
179
Bin Meng610b3992015-03-20 17:12:19 +0800180--------------------------------
181 CONFIG_PHYLIB / CONFIG_CMD_MII
182--------------------------------
Mike Frysingerfc615a72009-09-09 14:41:22 -0400183
184If your device supports banging arbitrary values on the MII bus (pretty much
185every device does), you should add support for the mii command. Doing so is
186fairly trivial and makes debugging mii issues a lot easier at runtime.
187
188After you have called eth_register() in your driver's register function, add
Bin Meng610b3992015-03-20 17:12:19 +0800189a call to mdio_alloc() and mdio_register() like so:
190 bus = mdio_alloc();
191 if (!bus) {
192 free(priv);
193 free(dev);
194 return -ENOMEM;
195 }
196
197 bus->read = ape_mii_read;
198 bus->write = ape_mii_write;
199 mdio_register(bus);
Mike Frysingerfc615a72009-09-09 14:41:22 -0400200
201And then define the mii_read and mii_write functions if you haven't already.
202Their syntax is straightforward:
Bin Meng610b3992015-03-20 17:12:19 +0800203 int mii_read(struct mii_dev *bus, int addr, int devad, int reg);
204 int mii_write(struct mii_dev *bus, int addr, int devad, int reg,
205 u16 val);
Mike Frysingerfc615a72009-09-09 14:41:22 -0400206
207The read function should read the register 'reg' from the phy at address 'addr'
Bin Meng610b3992015-03-20 17:12:19 +0800208and return the result to its caller. The implementation for the write function
209should logically follow.