bcm63xx: add initial support for bcm6368 boards
[openwrt.git] / package / ltq-dsl / src / ifxmips_atm_ppe_ar9.h
1 /******************************************************************************
2 **
3 ** FILE NAME : ifxmips_atm_ppe_ar9.h
4 ** PROJECT : UEIP
5 ** MODULES : ATM (ADSL)
6 **
7 ** DATE : 1 AUG 2005
8 ** AUTHOR : Xu Liang
9 ** DESCRIPTION : ATM Driver (PPE Registers)
10 ** COPYRIGHT : Copyright (c) 2006
11 ** Infineon Technologies AG
12 ** Am Campeon 1-12, 85579 Neubiberg, Germany
13 **
14 ** This program is free software; you can redistribute it and/or modify
15 ** it under the terms of the GNU General Public License as published by
16 ** the Free Software Foundation; either version 2 of the License, or
17 ** (at your option) any later version.
18 **
19 ** HISTORY
20 ** $Date $Author $Comment
21 ** 4 AUG 2005 Xu Liang Initiate Version
22 ** 23 OCT 2006 Xu Liang Add GPL header.
23 ** 9 JAN 2007 Xu Liang First version got from Anand (IC designer)
24 *******************************************************************************/
25
26
27
28 #ifndef IFXMIPS_ATM_PPE_AR9_H
29 #define IFXMIPS_ATM_PPE_AR9_H
30
31
32
33 /*
34 * FPI Configuration Bus Register and Memory Address Mapping
35 */
36 #define IFX_PPE (KSEG1 | 0x1E180000)
37 #define PP32_DEBUG_REG_ADDR(i, x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x0000) << 2)))
38 #define PPM_INT_REG_ADDR(i, x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x0030) << 2)))
39 #define PP32_INTERNAL_RES_ADDR(i, x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x0040) << 2)))
40 #define CDM_CODE_MEMORY(i, x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x1000) << 2)))
41 #define PPE_REG_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x4000) << 2)))
42 #define CDM_DATA_MEMORY(i, x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x5000) << 2)))
43 #define PPM_INT_UNIT_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x6000) << 2)))
44 #define PPM_TIMER0_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x6100) << 2)))
45 #define PPM_TASK_IND_REG_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x6200) << 2)))
46 #define PPS_BRK_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x6300) << 2)))
47 #define PPM_TIMER1_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x6400) << 2)))
48 #define SB_RAM0_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x8000) << 2)))
49 #define SB_RAM1_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x8800) << 2)))
50 #define SB_RAM2_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x9000) << 2)))
51 #define SB_RAM3_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0x9800) << 2)))
52 #define SB_RAM4_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0xA000) << 2)))
53 #define QSB_CONF_REG_ADDR(x) ((volatile unsigned int*)(IFX_PPE + (((x) + 0xC000) << 2)))
54
55 /*
56 * DWORD-Length of Memory Blocks
57 */
58 #define PP32_DEBUG_REG_DWLEN 0x0030
59 #define PPM_INT_REG_DWLEN 0x0010
60 #define PP32_INTERNAL_RES_DWLEN 0x00C0
61 #define CDM_CODE_MEMORYn_DWLEN(n) 0x1000
62 #define PPE_REG_DWLEN 0x1000
63 #define CDM_DATA_MEMORY_DWLEN CDM_CODE_MEMORYn_DWLEN(1)
64 #define PPM_INT_UNIT_DWLEN 0x0100
65 #define PPM_TIMER0_DWLEN 0x0100
66 #define PPM_TASK_IND_REG_DWLEN 0x0100
67 #define PPS_BRK_DWLEN 0x0100
68 #define PPM_TIMER1_DWLEN 0x0100
69 #define SB_RAM0_DWLEN 0x0800
70 #define SB_RAM1_DWLEN 0x0800
71 #define SB_RAM2_DWLEN 0x0800
72 #define SB_RAM3_DWLEN 0x0800
73 #define SB_RAM4_DWLEN 0x0C00
74 #define QSB_CONF_REG_DWLEN 0x0100
75
76 /*
77 * PP32 to FPI Address Mapping
78 */
79 #define SB_BUFFER(__sb_addr) ((volatile unsigned int *)((((__sb_addr) >= 0x0000) && ((__sb_addr) <= 0x0FFF)) ? PPE_REG_ADDR((__sb_addr)): \
80 (((__sb_addr) >= 0x2000) && ((__sb_addr) <= 0x27FF)) ? SB_RAM0_ADDR((__sb_addr) - 0x2000) : \
81 (((__sb_addr) >= 0x2800) && ((__sb_addr) <= 0x2FFF)) ? SB_RAM1_ADDR((__sb_addr) - 0x2800) : \
82 (((__sb_addr) >= 0x3000) && ((__sb_addr) <= 0x37FF)) ? SB_RAM2_ADDR((__sb_addr) - 0x3000) : \
83 (((__sb_addr) >= 0x3800) && ((__sb_addr) <= 0x3FFF)) ? SB_RAM3_ADDR((__sb_addr) - 0x3800) : \
84 (((__sb_addr) >= 0x4000) && ((__sb_addr) <= 0x4BFF)) ? SB_RAM4_ADDR((__sb_addr) - 0x4000) : \
85 0))
86
87 /*
88 * PP32 Debug Control Register
89 */
90 #define NUM_OF_PP32 1
91
92 #define PP32_DBG_CTRL(n) PP32_DEBUG_REG_ADDR(n, 0x0000)
93
94 #define DBG_CTRL_RESTART 0
95 #define DBG_CTRL_STOP 1
96
97 #define PP32_CTRL_CMD(n) PP32_DEBUG_REG_ADDR(n, 0x0B00)
98 #define PP32_CTRL_CMD_RESTART (1 << 0)
99 #define PP32_CTRL_CMD_STOP (1 << 1)
100 #define PP32_CTRL_CMD_STEP (1 << 2)
101 #define PP32_CTRL_CMD_BREAKOUT (1 << 3)
102
103 #define PP32_CTRL_OPT(n) PP32_DEBUG_REG_ADDR(n, 0x0C00)
104 #define PP32_CTRL_OPT_BREAKOUT_ON_STOP_ON (3 << 0)
105 #define PP32_CTRL_OPT_BREAKOUT_ON_STOP_OFF (2 << 0)
106 #define PP32_CTRL_OPT_BREAKOUT_ON_BREAKIN_ON (3 << 2)
107 #define PP32_CTRL_OPT_BREAKOUT_ON_BREAKIN_OFF (2 << 2)
108 #define PP32_CTRL_OPT_STOP_ON_BREAKIN_ON (3 << 4)
109 #define PP32_CTRL_OPT_STOP_ON_BREAKIN_OFF (2 << 4)
110 #define PP32_CTRL_OPT_STOP_ON_BREAKPOINT_ON (3 << 6)
111 #define PP32_CTRL_OPT_STOP_ON_BREAKPOINT_OFF (2 << 6)
112 #define PP32_CTRL_OPT_BREAKOUT_ON_STOP(n) (*PP32_CTRL_OPT(n) & (1 << 0))
113 #define PP32_CTRL_OPT_BREAKOUT_ON_BREAKIN(n) (*PP32_CTRL_OPT(n) & (1 << 2))
114 #define PP32_CTRL_OPT_STOP_ON_BREAKIN(n) (*PP32_CTRL_OPT(n) & (1 << 4))
115 #define PP32_CTRL_OPT_STOP_ON_BREAKPOINT(n) (*PP32_CTRL_OPT(n) & (1 << 6))
116
117 #define PP32_BRK_PC(n, i) PP32_DEBUG_REG_ADDR(n, 0x0900 + (i) * 2)
118 #define PP32_BRK_PC_MASK(n, i) PP32_DEBUG_REG_ADDR(n, 0x0901 + (i) * 2)
119 #define PP32_BRK_DATA_ADDR(n, i) PP32_DEBUG_REG_ADDR(n, 0x0904 + (i) * 2)
120 #define PP32_BRK_DATA_ADDR_MASK(n, i) PP32_DEBUG_REG_ADDR(n, 0x0905 + (i) * 2)
121 #define PP32_BRK_DATA_VALUE_RD(n, i) PP32_DEBUG_REG_ADDR(n, 0x0908 + (i) * 2)
122 #define PP32_BRK_DATA_VALUE_RD_MASK(n, i) PP32_DEBUG_REG_ADDR(n, 0x0909 + (i) * 2)
123 #define PP32_BRK_DATA_VALUE_WR(n, i) PP32_DEBUG_REG_ADDR(n, 0x090C + (i) * 2)
124 #define PP32_BRK_DATA_VALUE_WR_MASK(n, i) PP32_DEBUG_REG_ADDR(n, 0x090D + (i) * 2)
125 #define PP32_BRK_CONTEXT_MASK(i) (1 << (i))
126 #define PP32_BRK_CONTEXT_MASK_EN (1 << 4)
127 #define PP32_BRK_COMPARE_GREATER_EQUAL (1 << 5) // valid for break data value rd/wr only
128 #define PP32_BRK_COMPARE_LOWER_EQUAL (1 << 6)
129 #define PP32_BRK_COMPARE_EN (1 << 7)
130
131 #define PP32_BRK_TRIG(n) PP32_DEBUG_REG_ADDR(n, 0x0F00)
132 #define PP32_BRK_GRPi_PCn_ON(i, n) ((3 << ((n) * 2)) << ((i) * 16))
133 #define PP32_BRK_GRPi_PCn_OFF(i, n) ((2 << ((n) * 2)) << ((i) * 16))
134 #define PP32_BRK_GRPi_DATA_ADDRn_ON(i, n) ((3 << ((n) * 2 + 4)) << ((i) * 16))
135 #define PP32_BRK_GRPi_DATA_ADDRn_OFF(i, n) ((2 << ((n) * 2 + 4)) << ((i) * 16))
136 #define PP32_BRK_GRPi_DATA_VALUE_RDn_ON(i, n) ((3 << ((n) * 2 + 8)) << ((i) * 16))
137 #define PP32_BRK_GRPi_DATA_VALUE_RDn_OFF(i, n)((2 << ((n) * 2 + 8)) << ((i) * 16))
138 #define PP32_BRK_GRPi_DATA_VALUE_WRn_ON(i, n) ((3 << ((n) * 2 + 12)) << ((i) * 16))
139 #define PP32_BRK_GRPi_DATA_VALUE_WRn_OFF(i, n)((2 << ((n) * 2 + 12)) << ((i) * 16))
140 #define PP32_BRK_GRPi_PCn(k, i, n) (*PP32_BRK_TRIG(k) & ((1 << ((n))) << ((i) * 8)))
141 #define PP32_BRK_GRPi_DATA_ADDRn(k, i, n) (*PP32_BRK_TRIG(k) & ((1 << ((n) + 2)) << ((i) * 8)))
142 #define PP32_BRK_GRPi_DATA_VALUE_RDn(k, i, n) (*PP32_BRK_TRIG(k) & ((1 << ((n) + 4)) << ((i) * 8)))
143 #define PP32_BRK_GRPi_DATA_VALUE_WRn(k, i, n) (*PP32_BRK_TRIG(k) & ((1 << ((n) + 6)) << ((i) * 8)))
144
145 #define PP32_CPU_STATUS(n) PP32_DEBUG_REG_ADDR(n, 0x0D00)
146 #define PP32_HALT_STAT(n) PP32_CPU_STATUS(n)
147 #define PP32_DBG_CUR_PC(n) PP32_CPU_STATUS(n)
148 #define PP32_CPU_USER_STOPPED(n) (*PP32_CPU_STATUS(n) & (1 << 0))
149 #define PP32_CPU_USER_BREAKIN_RCV(n) (*PP32_CPU_STATUS(n) & (1 << 1))
150 #define PP32_CPU_USER_BREAKPOINT_MET(n) (*PP32_CPU_STATUS(n) & (1 << 2))
151 #define PP32_CPU_CUR_PC(n) (*PP32_CPU_STATUS(n) >> 16)
152
153 #define PP32_BREAKPOINT_REASONS(n) PP32_DEBUG_REG_ADDR(n, 0x0A00)
154 #define PP32_BRK_PC_MET(n, i) (*PP32_BREAKPOINT_REASONS(n) & (1 << (i)))
155 #define PP32_BRK_DATA_ADDR_MET(n, i) (*PP32_BREAKPOINT_REASONS(n) & (1 << ((i) + 2)))
156 #define PP32_BRK_DATA_VALUE_RD_MET(n, i) (*PP32_BREAKPOINT_REASONS(n) & (1 << ((i) + 4)))
157 #define PP32_BRK_DATA_VALUE_WR_MET(n, i) (*PP32_BREAKPOINT_REASONS(n) & (1 << ((i) + 6)))
158 #define PP32_BRK_DATA_VALUE_RD_LO_EQ(n, i) (*PP32_BREAKPOINT_REASONS(n) & (1 << ((i) * 2 + 8)))
159 #define PP32_BRK_DATA_VALUE_RD_GT_EQ(n, i) (*PP32_BREAKPOINT_REASONS(n) & (1 << ((i) * 2 + 9)))
160 #define PP32_BRK_DATA_VALUE_WR_LO_EQ(n, i) (*PP32_BREAKPOINT_REASONS(n) & (1 << ((i) * 2 + 12)))
161 #define PP32_BRK_DATA_VALUE_WR_GT_EQ(n, i) (*PP32_BREAKPOINT_REASONS(n) & (1 << ((i) * 2 + 13)))
162 #define PP32_BRK_CUR_CONTEXT(n) ((*PP32_BREAKPOINT_REASONS(n) >> 16) & 0x03)
163
164 #define PP32_GP_REG_BASE(n) PP32_DEBUG_REG_ADDR(n, 0x0E00)
165 #define PP32_GP_CONTEXTi_REGn(n, i, j) PP32_DEBUG_REG_ADDR(n, 0x0E00 + (i) * 16 + (j))
166
167 /*
168 * EMA Registers
169 */
170 #define EMA_CMDCFG PPE_REG_ADDR(0x0A00)
171 #define EMA_DATACFG PPE_REG_ADDR(0x0A01)
172 #define EMA_CMDCNT PPE_REG_ADDR(0x0A02)
173 #define EMA_DATACNT PPE_REG_ADDR(0x0A03)
174 #define EMA_ISR PPE_REG_ADDR(0x0A04)
175 #define EMA_IER PPE_REG_ADDR(0x0A05)
176 #define EMA_CFG PPE_REG_ADDR(0x0A06)
177 #define EMA_SUBID PPE_REG_ADDR(0x0A07)
178
179 #define EMA_ALIGNMENT 4
180
181 /*
182 * Mailbox IGU1 Interrupt
183 */
184 #define PPE_MAILBOX_IGU1_INT INT_NUM_IM2_IRL0 + 24
185
186
187
188 #endif // IFXMIPS_ATM_PPE_AR9_H
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