1df482650SStephan Linz /*
2df482650SStephan Linz * Xilinx xps_ll_temac ethernet driver for u-boot
3df482650SStephan Linz *
4df482650SStephan Linz * FIFO sub-controller
5df482650SStephan Linz *
6df482650SStephan Linz * Copyright (C) 2011 - 2012 Stephan Linz <linz@li-pro.net>
7df482650SStephan Linz * Copyright (C) 2008 - 2011 Michal Simek <monstr@monstr.eu>
8df482650SStephan Linz * Copyright (C) 2008 - 2011 PetaLogix
9df482650SStephan Linz *
10df482650SStephan Linz * Based on Yoshio Kashiwagi kashiwagi@co-nss.co.jp driver
11df482650SStephan Linz * Copyright (C) 2008 Nissin Systems Co.,Ltd.
12df482650SStephan Linz * March 2008 created
13df482650SStephan Linz *
14df482650SStephan Linz * CREDITS: tsec driver
15df482650SStephan Linz *
161a459660SWolfgang Denk * SPDX-License-Identifier: GPL-2.0+
17df482650SStephan Linz *
18df482650SStephan Linz * [0]: http://www.xilinx.com/support/documentation
19df482650SStephan Linz *
20df482650SStephan Linz * [F]: [0]/ip_documentation/xps_ll_fifo.pdf
21df482650SStephan Linz * [S]: [0]/ip_documentation/xps_ll_temac.pdf
22df482650SStephan Linz * [A]: [0]/application_notes/xapp1041.pdf
23df482650SStephan Linz */
24df482650SStephan Linz
25df482650SStephan Linz #include <config.h>
26df482650SStephan Linz #include <common.h>
27df482650SStephan Linz #include <net.h>
28df482650SStephan Linz
29df482650SStephan Linz #include <asm/types.h>
30df482650SStephan Linz #include <asm/io.h>
31df482650SStephan Linz
32df482650SStephan Linz #include "xilinx_ll_temac.h"
33df482650SStephan Linz #include "xilinx_ll_temac_fifo.h"
34df482650SStephan Linz
ll_temac_reset_fifo(struct eth_device * dev)35df482650SStephan Linz int ll_temac_reset_fifo(struct eth_device *dev)
36df482650SStephan Linz {
37df482650SStephan Linz struct ll_temac *ll_temac = dev->priv;
38df482650SStephan Linz struct fifo_ctrl *fifo_ctrl = (void *)ll_temac->ctrladdr;
39df482650SStephan Linz
40df482650SStephan Linz out_be32(&fifo_ctrl->tdfr, LL_FIFO_TDFR_KEY);
41df482650SStephan Linz out_be32(&fifo_ctrl->rdfr, LL_FIFO_RDFR_KEY);
42df482650SStephan Linz out_be32(&fifo_ctrl->isr, ~0UL);
43df482650SStephan Linz out_be32(&fifo_ctrl->ier, 0);
44df482650SStephan Linz
45df482650SStephan Linz return 0;
46df482650SStephan Linz }
47df482650SStephan Linz
ll_temac_recv_fifo(struct eth_device * dev)48df482650SStephan Linz int ll_temac_recv_fifo(struct eth_device *dev)
49df482650SStephan Linz {
50df482650SStephan Linz int i, length = 0;
51*1fd92db8SJoe Hershberger u32 *buf = (u32 *)net_rx_packets[0];
52df482650SStephan Linz struct ll_temac *ll_temac = dev->priv;
53df482650SStephan Linz struct fifo_ctrl *fifo_ctrl = (void *)ll_temac->ctrladdr;
54df482650SStephan Linz
55df482650SStephan Linz if (in_be32(&fifo_ctrl->isr) & LL_FIFO_ISR_RC) {
56df482650SStephan Linz
57df482650SStephan Linz /* reset isr */
58df482650SStephan Linz out_be32(&fifo_ctrl->isr, ~0UL);
59df482650SStephan Linz
60df482650SStephan Linz /*
61df482650SStephan Linz * MAYBE here:
62df482650SStephan Linz * while (fifo_ctrl->isr);
63df482650SStephan Linz */
64df482650SStephan Linz
65df482650SStephan Linz /*
66df482650SStephan Linz * The length is written (into RLR) by the XPS LL FIFO
67df482650SStephan Linz * when the packet is received across the RX LocalLink
68df482650SStephan Linz * interface and the receive data FIFO had enough
69df482650SStephan Linz * locations that all of the packet data has been saved.
70df482650SStephan Linz * The RLR should only be read when a receive packet is
71df482650SStephan Linz * available for processing (the receive occupancy is
72df482650SStephan Linz * not zero). Once the RLR is read, the receive packet
73df482650SStephan Linz * data should be read from the receive data FIFO before
74df482650SStephan Linz * the RLR is read again.
75df482650SStephan Linz *
76df482650SStephan Linz * [F] page 17, Receive Length Register (RLR)
77df482650SStephan Linz */
78df482650SStephan Linz if (in_be32(&fifo_ctrl->rdfo) & LL_FIFO_RDFO_MASK) {
79df482650SStephan Linz length = in_be32(&fifo_ctrl->rlf) & LL_FIFO_RLF_MASK;
80df482650SStephan Linz } else {
81df482650SStephan Linz printf("%s: Got error, no receive occupancy\n",
82df482650SStephan Linz __func__);
83df482650SStephan Linz return -1;
84df482650SStephan Linz }
85df482650SStephan Linz
86df482650SStephan Linz if (length > PKTSIZE_ALIGN) {
87df482650SStephan Linz printf("%s: Got error, receive package too big (%i)\n",
88df482650SStephan Linz __func__, length);
89df482650SStephan Linz ll_temac_reset_fifo(dev);
90df482650SStephan Linz return -1;
91df482650SStephan Linz }
92df482650SStephan Linz
93df482650SStephan Linz for (i = 0; i < length; i += 4)
94df482650SStephan Linz *buf++ = in_be32(&fifo_ctrl->rdfd);
95df482650SStephan Linz
96*1fd92db8SJoe Hershberger net_process_received_packet(net_rx_packets[0], length);
97df482650SStephan Linz }
98df482650SStephan Linz
99df482650SStephan Linz return 0;
100df482650SStephan Linz }
101df482650SStephan Linz
ll_temac_send_fifo(struct eth_device * dev,void * packet,int length)102f22ff1abSStephan Linz int ll_temac_send_fifo(struct eth_device *dev, void *packet, int length)
103df482650SStephan Linz {
104df482650SStephan Linz int i;
105df482650SStephan Linz u32 *buf = (u32 *)packet;
106df482650SStephan Linz struct ll_temac *ll_temac = dev->priv;
107df482650SStephan Linz struct fifo_ctrl *fifo_ctrl = (void *)ll_temac->ctrladdr;
108df482650SStephan Linz
109df482650SStephan Linz if (length < LL_FIFO_TLF_MIN) {
110df482650SStephan Linz printf("%s: Got error, transmit package too small (%i)\n",
111df482650SStephan Linz __func__, length);
112df482650SStephan Linz return -1;
113df482650SStephan Linz }
114df482650SStephan Linz
115df482650SStephan Linz if (length > LL_FIFO_TLF_MAX) {
116df482650SStephan Linz printf("%s: Got error, transmit package too big (%i)\n",
117df482650SStephan Linz __func__, length);
118df482650SStephan Linz return -1;
119df482650SStephan Linz }
120df482650SStephan Linz
121df482650SStephan Linz for (i = 0; i < length; i += 4)
122df482650SStephan Linz out_be32(&fifo_ctrl->tdfd, *buf++);
123df482650SStephan Linz
124df482650SStephan Linz /*
125df482650SStephan Linz * Once the packet length is written to the TLR it is
126df482650SStephan Linz * automatically moved to the transmit data FIFO with
127df482650SStephan Linz * the packet data freeing up the TLR for another value.
128df482650SStephan Linz * The packet length must be written to the TLR after
129df482650SStephan Linz * the packet data is written to the transmit data FIFO.
130df482650SStephan Linz * It is not valid to write data for multiple packets
131df482650SStephan Linz * to the transmit data FIFO before writing the packet
132df482650SStephan Linz * length values.
133df482650SStephan Linz *
134df482650SStephan Linz * [F] page 17, Transmit Length Register (TLR)
135df482650SStephan Linz */
136df482650SStephan Linz out_be32(&fifo_ctrl->tlf, length);
137df482650SStephan Linz
138df482650SStephan Linz return 0;
139df482650SStephan Linz }
140