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Stephan Linzdf482652012-02-25 00:48:31 +00001/*
2 * Xilinx xps_ll_temac ethernet driver for u-boot
3 *
4 * LL_TEMAC interface
5 *
6 * Copyright (C) 2011 - 2012 Stephan Linz <linz@li-pro.net>
7 * Copyright (C) 2008 - 2011 Michal Simek <monstr@monstr.eu>
8 * Copyright (C) 2008 - 2011 PetaLogix
9 *
10 * Based on Yoshio Kashiwagi kashiwagi@co-nss.co.jp driver
11 * Copyright (C) 2008 Nissin Systems Co.,Ltd.
12 * March 2008 created
13 *
14 * This program is free software; you can redistribute it and/or modify it
15 * under the terms of the GNU General Public License as published by the
16 * Free Software Foundation; either version 2 of the License, or (at your
17 * option) any later version.
18 *
19 * [0]: http://www.xilinx.com/support/documentation
20 *
21 * [S]: [0]/ip_documentation/xps_ll_temac.pdf
22 * [A]: [0]/application_notes/xapp1041.pdf
23 */
24#ifndef _XILINX_LL_TEMAC_
25#define _XILINX_LL_TEMAC_
26
27#include <config.h>
28#include <net.h>
29#include <phy.h>
30#include <miiphy.h>
31
32#include <asm/types.h>
33#include <asm/byteorder.h>
34
35#include "xilinx_ll_temac_sdma.h"
36
37#if !defined(__BIG_ENDIAN)
38# error LL_TEMAC requires big endianess
39#endif
40
41/*
42 * TEMAC Memory and Register Definition
43 *
44 * [1]: [0]/ip_documentation/xps_ll_temac.pdf
45 * page 19, Memory and Register Descriptions
46 */
47struct temac_reg {
48 /* direct soft registers (low part) */
49 u32 raf; /* Reset and Address Filter */
50 u32 tpf; /* Transmit Pause Frame */
51 u32 ifgp; /* Transmit Inter Frame Gap Adjustment */
52 u32 is; /* Interrupt Status */
53 u32 ip; /* Interrupt Pending */
54 u32 ie; /* Interrupt Enable */
55 u32 ttag; /* Transmit VLAN Tag */
56 u32 rtag; /* Receive VLAN Tag */
57 /* hard TEMAC registers */
58 u32 msw; /* Most Significant Word Data */
59 u32 lsw; /* Least Significant Word Data */
60 u32 ctl; /* Control */
61 u32 rdy; /* Ready Status */
62 /* direct soft registers (high part) */
63 u32 uawl; /* Unicast Address Word Lower */
64 u32 uawu; /* Unicast Address Word Upper */
65 u32 tpid0; /* VLAN TPID Word 0 */
66 u32 tpid1; /* VLAN TPID Word 1 */
67};
68
69/* Reset and Address Filter Registers (raf), [1] p25 */
70#define RAF_SR (1 << 13)
71#define RAF_EMFE (1 << 12)
72#define RAF_NFE (1 << 11)
73#define RAF_RVSTM_POS 9
74#define RAF_RVSTM_MASK (3 << RAF_RVSTM_POS)
75#define RAF_TVSTM_POS 7
76#define RAF_TVSTM_MASK (3 << RAF_TVSTM_POS)
77#define RAF_RVTM_POS 5
78#define RAF_RVTM_MASK (3 << RAF_RVTM_POS)
79#define RAF_TVTM_POS 3
80#define RAF_TVTM_MASK (3 << RAF_TVTM_POS)
81#define RAF_BCREJ (1 << 2)
82#define RAF_MCREJ (1 << 1)
83#define RAF_HTRST (1 << 0)
84
85/* Transmit Pause Frame Registers (tpf), [1] p28 */
86#define TPF_TPFV_POS 0
87#define TPF_TPFV_MASK (0xFFFF << TPF_TPFV_POS)
88
89/* Transmit Inter Frame Gap Adjustment Registers (ifgp), [1] p28 */
90#define IFGP_POS 0
91#define IFGP_MASK (0xFF << IFGP_POS)
92
93/* Interrupt Status, Pending, Enable Registers (is, ip, ie), [1] p29-33 */
94#define ISPE_MR (1 << 7)
95#define ISPE_RDL (1 << 6)
96#define ISPE_TC (1 << 5)
97#define ISPE_RFO (1 << 4)
98#define ISPE_RR (1 << 3)
99#define ISPE_RC (1 << 2)
100#define ISPE_AN (1 << 1)
101#define ISPE_HAC (1 << 0)
102
103/* Transmit, Receive VLAN Tag Registers (ttag, rtag), [1] p34-35 */
104#define TRTAG_TPID_POS 16
105#define TRTAG_TPID_MASK (0xFFFF << TRTAG_TPID_POS)
106#define TRTAG_PRIO_POS 13
107#define TRTAG_PRIO_MASK (7 << TRTAG_PRIO_POS)
108#define TRTAG_CFI (1 << 12)
109#define TRTAG_VID_POS 0
110#define TRTAG_VID_MASK (0xFFF << TRTAG_VID_POS)
111
112/* Most, Least Significant Word Data Register (msw, lsw), [1] p46 */
113#define MLSW_POS 0
114#define MLSW_MASK (~0UL << MLSW_POS)
115
116/* LSW Data Register for PHY addresses (lsw), [1] p66 */
117#define LSW_REGAD_POS 0
118#define LSW_REGAD_MASK (0x1F << LSW_REGAD_POS)
119#define LSW_PHYAD_POS 5
120#define LSW_PHYAD_MASK (0x1F << LSW_PHYAD_POS)
121
122/* LSW Data Register for PHY data (lsw), [1] p66 */
123#define LSW_REGDAT_POS 0
124#define LSW_REGDAT_MASK (0xFFFF << LSW_REGDAT_POS)
125
126/* Control Register (ctl), [1] p47 */
127#define CTL_WEN (1 << 15)
128#define CTL_ADDR_POS 0
129#define CTL_ADDR_MASK (0x3FF << CTL_ADDR_POS)
130
131/* Ready Status Register Ethernet (rdy), [1] p48 */
132#define RSE_HACS_RDY (1 << 14)
133#define RSE_CFG_WR (1 << 6)
134#define RSE_CFG_RR (1 << 5)
135#define RSE_AF_WR (1 << 4)
136#define RSE_AF_RR (1 << 3)
137#define RSE_MIIM_WR (1 << 2)
138#define RSE_MIIM_RR (1 << 1)
139#define RSE_FABR_RR (1 << 0)
140
141/* Unicast Address Word Lower, Upper Registers (uawl, uawu), [1] p35-36 */
142#define UAWL_UADDR_POS 0
143#define UAWL_UADDR_MASK (~0UL << UAWL_UADDR_POS)
144#define UAWU_UADDR_POS 0
145#define UAWU_UADDR_MASK (0xFFFF << UAWU_UADDR_POS)
146
147/* VLAN TPID Word 0, 1 Registers (tpid0, tpid1), [1] p37 */
148#define TPID0_V0_POS 0
149#define TPID0_V0_MASK (0xFFFF << TPID0_V0_POS)
150#define TPID0_V1_POS 16
151#define TPID0_V1_MASK (0xFFFF << TPID0_V1_POS)
152#define TPID1_V2_POS 0
153#define TPID1_V2_MASK (0xFFFF << TPID1_V2_POS)
154#define TPID1_V3_POS 16
155#define TPID1_V3_MASK (0xFFFF << TPID1_V3_POS)
156
157/*
158 * TEMAC Indirectly Addressable Register Index Enumeration
159 *
160 * [0]: http://www.xilinx.com/support/documentation
161 *
162 * [1]: [0]/ip_documentation/xps_ll_temac.pdf
163 * page 23, PLB Indirectly Addressable TEMAC Registers
164 */
165enum temac_ctrl {
166 TEMAC_RCW0 = 0x200,
167 TEMAC_RCW1 = 0x240,
168 TEMAC_TC = 0x280,
169 TEMAC_FCC = 0x2C0,
170 TEMAC_EMMC = 0x300,
171 TEMAC_PHYC = 0x320,
172 TEMAC_MC = 0x340,
173 TEMAC_UAW0 = 0x380,
174 TEMAC_UAW1 = 0x384,
175 TEMAC_MAW0 = 0x388,
176 TEMAC_MAW1 = 0x38C,
177 TEMAC_AFM = 0x390,
178 TEMAC_TIS = 0x3A0,
179 TEMAC_TIE = 0x3A4,
180 TEMAC_MIIMWD = 0x3B0,
181 TEMAC_MIIMAI = 0x3B4
182};
183
184/* Receive Configuration Word 0, 1 Registers (RCW0, RCW1), [1] p50-51 */
185#define RCW0_PADDR_POS 0
186#define RCW0_PADDR_MASK (~0UL << RCW_PADDR_POS)
187#define RCW1_RST (1 << 31)
188#define RCW1_JUM (1 << 30)
189#define RCW1_FCS (1 << 29)
190#define RCW1_RX (1 << 28)
191#define RCW1_VLAN (1 << 27)
192#define RCW1_HD (1 << 26)
193#define RCW1_LT_DIS (1 << 25)
194#define RCW1_PADDR_POS 0
195#define RCW1_PADDR_MASK (0xFFFF << RCW_PADDR_POS)
196
197/* Transmit Configuration Registers (TC), [1] p52 */
198#define TC_RST (1 << 31)
199#define TC_JUM (1 << 30)
200#define TC_FCS (1 << 29)
201#define TC_TX (1 << 28)
202#define TC_VLAN (1 << 27)
203#define TC_HD (1 << 26)
204#define TC_IFG (1 << 25)
205
206/* Flow Control Configuration Registers (FCC), [1] p54 */
207#define FCC_FCTX (1 << 30)
208#define FCC_FCRX (1 << 29)
209
210/* Ethernet MAC Mode Configuration Registers (EMMC), [1] p54 */
211#define EMMC_LSPD_POS 30
212#define EMMC_LSPD_MASK (3 << EMMC_LSPD_POS)
213#define EMMC_LSPD_1000 (2 << EMMC_LSPD_POS)
214#define EMMC_LSPD_100 (1 << EMMC_LSPD_POS)
215#define EMMC_LSPD_10 0
216#define EMMC_RGMII (1 << 29)
217#define EMMC_SGMII (1 << 28)
218#define EMMC_GPCS (1 << 27)
219#define EMMC_HOST (1 << 26)
220#define EMMC_TX16 (1 << 25)
221#define EMMC_RX16 (1 << 24)
222
223/* RGMII/SGMII Configuration Registers (PHYC), [1] p56 */
224#define PHYC_SLSPD_POS 30
225#define PHYC_SLSPD_MASK (3 << EMMC_SLSPD_POS)
226#define PHYC_SLSPD_1000 (2 << EMMC_SLSPD_POS)
227#define PHYC_SLSPD_100 (1 << EMMC_SLSPD_POS)
228#define PHYC_SLSPD_10 0
229#define PHYC_RLSPD_POS 2
230#define PHYC_RLSPD_MASK (3 << EMMC_RLSPD_POS)
231#define PHYC_RLSPD_1000 (2 << EMMC_RLSPD_POS)
232#define PHYC_RLSPD_100 (1 << EMMC_RLSPD_POS)
233#define PHYC_RLSPD_10 0
234#define PHYC_RGMII_HD (1 << 1)
235#define PHYC_RGMII_LINK (1 << 0)
236
237/* Management Configuration Registers (MC), [1] p57 */
238#define MC_MDIOEN (1 << 6)
239#define MC_CLKDIV_POS 0
240#define MC_CLKDIV_MASK (0x3F << MC_CLKDIV_POS)
241
242/*
243 * fHOSTCLK fMDC = fHOSTCLK
244 * fMDC = ------------------- ---------> MC_CLKDIV = -------- - 1
245 * (1 + MC_CLKDIV) * 2 2.5 MHz 5MHz
246 */
247#define MC_CLKDIV(f, m) ((f / (2 * m)) - 1)
248#define MC_CLKDIV_25(f) MC_CLKDIV(f, 2500000)
249#define MC_CLKDIV_20(f) MC_CLKDIV(f, 2000000)
250#define MC_CLKDIV_15(f) MC_CLKDIV(f, 1500000)
251#define MC_CLKDIV_10(f) MC_CLKDIV(f, 1000000)
252
253/* Unicast Address Word 0, 1 Registers (UAW0, UAW1), [1] p58-59 */
254#define UAW0_UADDR_POS 0
255#define UAW0_UADDR_MASK (~0UL << UAW0_UADDR_POS)
256#define UAW1_UADDR_POS 0
257#define UAW1_UADDR_MASK (0xFFFF << UAW1_UADDR_POS)
258
259/* Multicast Address Word 0, 1 Registers (MAW0, MAW1), [1] p60 */
260#define MAW0_MADDR_POS 0
261#define MAW0_MADDR_MASK (~0UL << MAW0_MADDR_POS)
262#define MAW1_RNW (1 << 23)
263#define MAW1_MAIDX_POS 16
264#define MAW1_MAIDX_MASK (3 << MAW1_MAIDX_POS)
265#define MAW1_MADDR_POS 0
266#define MAW1_MADDR_MASK (0xFFFF << MAW1_MADDR_POS)
267
268/* Address Filter Mode Registers (AFM), [1] p63 */
269#define AFM_PM (1 << 31)
270
271/* Interrupt Status, Enable Registers (TIS, TIE), [1] p63-65 */
272#define TISE_CFG_W (1 << 6)
273#define TISE_CFG_R (1 << 5)
274#define TISE_AF_W (1 << 4)
275#define TISE_AF_R (1 << 3)
276#define TISE_MIIM_W (1 << 2)
277#define TISE_MIIM_R (1 << 1)
278#define TISE_FABR_R (1 << 0)
279
280/* MII Management Write Data Registers (MIIMWD), [1] p66 */
281#define MIIMWD_DATA_POS 0
282#define MIIMWD_DATA_MASK (0xFFFF << MIIMWD_DATA_POS)
283
284/* Ethernet interface ready status */
285int ll_temac_check_status(struct temac_reg *regs, u32 mask);
286
287/* Indirect write to ll_temac. */
288int ll_temac_indirect_set(struct temac_reg *regs, u16 regn, u32 reg_data);
289
290/* Indirect read from ll_temac. */
291int ll_temac_indirect_get(struct temac_reg *regs, u16 regn, u32* reg_data);
292
293struct ll_temac {
294 phys_addr_t ctrladdr;
295 phys_addr_t sdma_reg_addr[SDMA_CTRL_REGNUMS];
296
297 unsigned (*in32)(phys_addr_t);
298 void (*out32)(phys_addr_t, unsigned);
299
300 int (*ctrlinit) (struct eth_device *);
301 int (*ctrlhalt) (struct eth_device *);
302 int (*ctrlreset) (struct eth_device *);
303
304 int phyaddr;
305 struct phy_device *phydev;
306 struct mii_dev *bus;
307 char mdio_busname[MDIO_NAME_LEN];
308};
309
310#endif /* _XILINX_LL_TEMAC_ */