Merge branch 'master' of git://git.denx.de/u-boot-mips
[platform/kernel/u-boot.git] / board / micronas / vct / scc.h
1 /*
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
67 struct 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
95 struct 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
104 union 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
115 union 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
129 union 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
138 union 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  */
152 enum 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
198 int scc_set_usb_address_generation_mode(u32 agu_mode);
199 int scc_dma_cmd(enum scc_id id, u32 cmd, u32 dma_id, u32 drs);
200 int scc_setup_dma(enum scc_id id, u32 buffer_tag,
201                   u32 type, u32 fh_mode, u32 drs, u32 dma_id);
202 int scc_enable(enum scc_id id, u32 value);
203 int scc_reset(enum scc_id id, u32 value);
204
205 #endif /* _SCC_H */