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Stefan Roeseae691e52009-01-21 17:24:49 +01001/*
2 * (C) Copyright 2009 Stefan Roese <sr@denx.de>, DENX Software Engineering
3 *
4 * Copyright (C) 2006 Micronas GmbH
5 *
6 * This program is free software; you can redistribute it and/or
7 * modify it under the terms of the GNU General Public License as
8 * published by the Free Software Foundation; either version 2 of
9 * the License, or (at your option) any later version.
10 *
11 * This program is distributed in the hope that it will be useful,
12 * but WITHOUT ANY WARRANTY; without even the implied warranty of
13 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14 * GNU General Public License for more details.
15 *
16 * You should have received a copy of the GNU General Public License
17 * along with this program; if not, write to the Free Software
18 * Foundation, Inc., 59 Temple Place, Suite 330, Boston,
19 * MA 02111-1307 USA
20 */
21
22#ifndef _SCC_H
23#define _SCC_H
24
25#define DMA_READ 0 /* SCC read DMA */
26#define DMA_WRITE 1 /* SCC write DMA */
27
28#define DMA_LINEAR 0 /* DMA linear buffer access method */
29#define DMA_CYCLIC 1 /* DMA cyclic buffer access method */
30
31#define DMA_START 0 /* DMA command - start DMA */
32#define DMA_STOP 1 /* DMA command - stop DMA */
33#define DMA_START_FH_RESET 2 /* DMA command - start DMA reset FH */
34#define DMA_TAKEOVER 15 /* DMA command - commit the DMA conf */
35
36#define AGU_ACTIVE 0 /* enable AGU address calculation */
37#define AGU_BYPASS 1 /* set AGU to bypass mode */
38
39#define USE_NO_FH 0 /* order the DMA to not use FH */
40#define USE_FH 1 /* order the DMA to work with FH*/
41
42#define SCC_DBG_IDLE 0 /* DEBUG status (idle interfaces) */
43#define SCC_DBG_SYNC_RES 0x0001 /* synchronuous reset */
44
45#define SCC_TO_IMMEDIATE 1 /* takeover command issued immediately*/
46#define TO_DMA_CFG 2 /* takeover command for the DMA config*/
47
48#define DMA_CMD_RESET 0
49#define DMA_CMD_SETUP 1
50#define DMA_CMD_START 2
51#define DMA_CMD_STOP 3
52
53#define DMA_STATE_RESET 0
54#define DMA_STATE_SETUP 1
55#define DMA_STATE_START 2
56#define DMA_STATE_ERROR 3
57
58#define SRMD 0
59#define STRM_D 1
60#define STRM_P 2
61
62/*
63 * Slowest Monterey domain is DVP 27 MHz (324/27 = 12; 12*16 = 192 CPU clocks)
64 */
65#define RESET_TIME 2 /* cycle calc see in SCC_Reset */
66
67struct scc_descriptor {
68 char *pu_name; /* PU identifier */
69 char *scc_instance; /* SCC Name */
70 u32 profile; /* SCC VCI_D profile */
71
72 u32 base_address; /* base address of the SCC unit reg shell*/
73
74 /* SCS Interconnect configuration */
75 u32 p_scc_id; /* instance number of SCC unit */
76 u32 p_mci_id; /* memory channel ID */
77
78 /* DMA Registers configuration */
79 u32 p_dma_channels_rd; /* Number of Read DMA channels */
80 u32 p_dma_channels_wr; /* Number of Write DMA channels */
81
82 u32 p_dma_packet_desc; /* Number of packet descriptors */
83 u32 p_dma_mci_desc; /* Number of MCI_CFG Descriptors */
84
85 int use_fh; /* the flag tells if SCC uses an FH */
86
87 int p_si2ocp_id; /* instance number of SI2OCP unit */
88 int hw_dma_cfg; /* HW or SW DMA config flag */
89 int hw_dma_start; /* HW or SW DMA start/stop flag */
90
91 u32 *buffer_tag_list; /* list of the buffer tags available */
92 u32 *csize_list; /* list of the valid CSIZE values */
93};
94
95struct scc_dma_state {
96 u32 scc_id:8; /* SCC id */
97 u32 dma_id:8; /* DMA id, used for match with array idx*/
98 u32 buffer_tag:8; /* mem buf tag, assigned to this DMA */
99 u32 dma_status:2; /* state of DMA, of the DMA_STATE_ const*/
100 u32 dma_drs:2; /* DMA dir, either DMA_READ or DMA_WRITE*/
101 u32 dma_cmd:4; /* last executed command on this DMA */
102};
103
104union scc_cmd {
105 u32 reg;
106 struct {
107 u32 res1:19; /* reserved */
108 u32 drs:1; /* DMA Register Set */
109 u32 rid:2; /* Register Identifier */
110 u32 id:6; /* DMA Identifier */
111 u32 action:4; /* DMA Command encoding */
112 } bits;
113};
114
115union scc_dma_cfg {
116 u32 reg;
117 struct {
118 u32 res1:17; /* reserved */
119 u32 agu_mode:1; /* AGU Mode */
120 u32 res2:1; /* reserved */
121 u32 fh_mode:1; /* Fifo Handler */
122 u32 buffer_type:1; /* Defines type of mem buffers */
123 u32 mci_cfg_id:1; /* MCI_CFG register selector */
124 u32 packet_cfg_id:1; /* PACKET_CFG register selector */
125 u32 buffer_id:8; /* DMA Buffer Identifier */
126 } bits;
127};
128
129union scc_debug {
130 u32 reg;
131 struct {
132 u32 res1:20; /* reserved */
133 u32 arg:8; /* SCC Debug Command Argument (#) */
134 u32 cmd:4; /* SCC Debug Command Register */
135 } bits;
136};
137
138union scc_softwareconfiguration {
139 u32 reg;
140 struct {
141 u32 res1:28; /* reserved */
142 u32 clock_status:1; /* clock on/off */
143 u32 packet_select:1; /* active SCC packet id */
144 u32 enable_status:1; /* enabled [1/0] */
145 u32 active_status:1; /* 1=active 0=reset */
146 } bits;
147};
148
149/*
150 * System on Chip Channel ID
151 */
152enum scc_id {
153 SCC_NULL = -1, /* illegal SCC identifier */
154 SCC_FE_3DCOMB_WR, /* SCC_FE_3DCOMB Write channel */
155 SCC_FE_3DCOMB_RD, /* SCC_FE_3DCOMB Read channel */
156 SCC_DI_TNR_WR, /* SCC_DI_TNR Write channel */
157 SCC_DI_TNR_FIELD_RD, /* SCC_DI_TNR_FIELD Read channel */
158 SCC_DI_TNR_FRAME_RD, /* SCC_DI_TNR_FRAME Read channel */
159 SCC_DI_MVAL_WR, /* SCC_DI_MVAL Write channel */
160 SCC_DI_MVAL_RD, /* SCC_DI_MVAL Read channel */
161 SCC_RC_FRAME_WR, /* SCC_RC_FRAME Write channel */
162 SCC_RC_FRAME0_RD, /* SCC_RC_FRAME0 Read channel */
163 SCC_OPT_FIELD0_RD, /* SCC_OPT_FIELD0 Read channel */
164 SCC_OPT_FIELD1_RD, /* SCC_OPT_FIELD1 Read channel */
165 SCC_OPT_FIELD2_RD, /* SCC_OPT_FIELD2 Read channel */
166 SCC_PIP_FRAME_WR, /* SCC_PIP_FRAME Write channel */
167 SCC_PIP_FRAME_RD, /* SCC_PIP_FRAME Read channel */
168 SCC_DP_AGPU_RD, /* SCC_DP_AGPU Read channel */
169 SCC_EWARP_RW, /* SCC_EWARP Read/Write channel */
170 SCC_DP_OSD_RD, /* SCC_DP_OSD Read channel */
171 SCC_DP_GRAPHIC_RD, /* SCC_DP_GRAPHIC Read channel */
172 SCC_DVP_OSD_RD, /* SCC_DVP_OSD Read channel */
173 SCC_DVP_VBI_RD, /* SCC_DVP_VBI Read channel */
174 SCC_TSIO_WR, /* SCC_TSIO Write channel */
175 SCC_TSIO_RD, /* SCC_TSIO Read channel */
176 SCC_TSD_WR, /* SCC_TSD Write channel */
177 SCC_VD_UD_ST_RW, /* SCC_VD_UD_ST Read/Write channel */
178 SCC_VD_FRR_RD, /* SCC_VD_FRR Read channel */
179 SCC_VD_FRW_DISP_WR, /* SCC_VD_FRW_DISP Write channel */
180 SCC_MR_VD_M_Y_RD, /* SCC_MR_VD_M_Y Read channel */
181 SCC_MR_VD_M_C_RD, /* SCC_MR_VD_M_C Read channel */
182 SCC_MR_VD_S_Y_RD, /* SCC_MR_VD_S_Y Read channel */
183 SCC_MR_VD_S_C_RD, /* SCC_MR_VD_S_C Read channel */
184 SCC_GA_WR, /* SCC_GA Write channel */
185 SCC_GA_SRC1_RD, /* SCC_GA_SRC1 Read channel */
186 SCC_GA_SRC2_RD, /* SCC_GA_SRC2 Read channel */
187 SCC_AD_RD, /* SCC_AD Read channel */
188 SCC_AD_WR, /* SCC_AD Write channel */
189 SCC_ABP_RD, /* SCC_ABP Read channel */
190 SCC_ABP_WR, /* SCC_ABP Write channel */
191 SCC_EBI_RW, /* SCC_EBI Read/Write channel */
192 SCC_USB_RW, /* SCC_USB Read/Write channel */
193 SCC_CPU1_SPDMA_RW, /* SCC_CPU1_SPDMA Read/Write channel */
194 SCC_CPU1_BRIDGE_RW, /* SCC_CPU1_BRIDGE Read/Write channel */
195 SCC_MAX /* maximum limit on the SCC id */
196};
197
198int scc_set_usb_address_generation_mode(u32 agu_mode);
199int scc_dma_cmd(enum scc_id id, u32 cmd, u32 dma_id, u32 drs);
200int scc_setup_dma(enum scc_id id, u32 buffer_tag,
201 u32 type, u32 fh_mode, u32 drs, u32 dma_id);
202int scc_enable(enum scc_id id, u32 value);
203int scc_reset(enum scc_id id, u32 value);
204
205#endif /* _SCC_H */