1 /* 2 * Copyright 2004-2007 Freescale Semiconductor, Inc. All Rights Reserved. 3 * Copyright 2008 Juergen Beisert, kernel@pengutronix.de 4 * 5 * This program is free software; you can redistribute it and/or 6 * modify it under the terms of the GNU General Public License 7 * as published by the Free Software Foundation; either version 2 8 * of the License, or (at your option) any later version. 9 * This program is distributed in the hope that it will be useful, 10 * but WITHOUT ANY WARRANTY; without even the implied warranty of 11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 12 * GNU General Public License for more details. 13 * 14 * You should have received a copy of the GNU General Public License 15 * along with this program; if not, write to the Free Software 16 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, 17 * MA 02110-1301, USA. 18 */ 19 20 #ifndef __ASM_ARCH_MXC_HARDWARE_H__ 21 #define __ASM_ARCH_MXC_HARDWARE_H__ 22 23 #include <asm/sizes.h> 24 25 #ifdef __ASSEMBLER__ 26 #define IOMEM(addr) (addr) 27 #else 28 #define IOMEM(addr) ((void __force __iomem *)(addr)) 29 #endif 30 31 #define IMX_IO_P2V_MODULE(addr, module) \ 32 (((addr) - module ## _BASE_ADDR) < module ## _SIZE ? \ 33 (addr) - (module ## _BASE_ADDR) + (module ## _BASE_ADDR_VIRT) : 0) 34 35 /* 36 * This is rather complicated for humans and ugly to verify, but for a machine 37 * it's OK. Still more as it is usually only applied to constants. The upsides 38 * on using this approach are: 39 * 40 * - same mapping on all i.MX machines 41 * - works for assembler, too 42 * - no need to nurture #defines for virtual addresses 43 * 44 * The downside it, it's hard to verify (but I have a script for that). 45 * 46 * Obviously this needs to be injective for each SoC. In general it maps the 47 * whole address space to [0xf4000000, 0xf5ffffff]. So [0xf6000000,0xfeffffff] 48 * is free for per-machine use (e.g. KZM_ARM11_01 uses 64MiB there). 49 * 50 * It applies the following mappings for the different SoCs: 51 * 52 * mx1: 53 * IO 0x00200000+0x100000 -> 0xf4000000+0x100000 54 * mx21: 55 * AIPI 0x10000000+0x100000 -> 0xf4400000+0x100000 56 * SAHB1 0x80000000+0x100000 -> 0xf4000000+0x100000 57 * X_MEMC 0xdf000000+0x004000 -> 0xf5f00000+0x004000 58 * mx25: 59 * AIPS1 0x43f00000+0x100000 -> 0xf5300000+0x100000 60 * AIPS2 0x53f00000+0x100000 -> 0xf5700000+0x100000 61 * AVIC 0x68000000+0x100000 -> 0xf5800000+0x100000 62 * mx27: 63 * AIPI 0x10000000+0x100000 -> 0xf4400000+0x100000 64 * SAHB1 0x80000000+0x100000 -> 0xf4000000+0x100000 65 * X_MEMC 0xd8000000+0x100000 -> 0xf5c00000+0x100000 66 * mx31: 67 * AIPS1 0x43f00000+0x100000 -> 0xf5300000+0x100000 68 * AIPS2 0x53f00000+0x100000 -> 0xf5700000+0x100000 69 * AVIC 0x68000000+0x100000 -> 0xf5800000+0x100000 70 * X_MEMC 0xb8000000+0x010000 -> 0xf4c00000+0x010000 71 * SPBA0 0x50000000+0x100000 -> 0xf5400000+0x100000 72 * mx35: 73 * AIPS1 0x43f00000+0x100000 -> 0xf5300000+0x100000 74 * AIPS2 0x53f00000+0x100000 -> 0xf5700000+0x100000 75 * AVIC 0x68000000+0x100000 -> 0xf5800000+0x100000 76 * X_MEMC 0xb8000000+0x010000 -> 0xf4c00000+0x010000 77 * SPBA0 0x50000000+0x100000 -> 0xf5400000+0x100000 78 * mx50: 79 * TZIC 0x0fffc000+0x004000 -> 0xf4bfc000+0x004000 80 * SPBA0 0x50000000+0x100000 -> 0xf5400000+0x100000 81 * AIPS1 0x53f00000+0x100000 -> 0xf5700000+0x100000 82 * AIPS2 0x63f00000+0x100000 -> 0xf5300000+0x100000 83 * mx51: 84 * TZIC 0xe0000000+0x004000 -> 0xf5000000+0x004000 85 * IRAM 0x1ffe0000+0x020000 -> 0xf4fe0000+0x020000 86 * SPBA0 0x70000000+0x100000 -> 0xf5400000+0x100000 87 * AIPS1 0x73f00000+0x100000 -> 0xf5700000+0x100000 88 * AIPS2 0x83f00000+0x100000 -> 0xf4300000+0x100000 89 * mx53: 90 * TZIC 0x0fffc000+0x004000 -> 0xf4bfc000+0x004000 91 * SPBA0 0x50000000+0x100000 -> 0xf5400000+0x100000 92 * AIPS1 0x53f00000+0x100000 -> 0xf5700000+0x100000 93 * AIPS2 0x63f00000+0x100000 -> 0xf5300000+0x100000 94 * mx6q: 95 * SCU 0x00a00000+0x001000 -> 0xf4000000+0x001000 96 * CCM 0x020c4000+0x004000 -> 0xf42c4000+0x004000 97 * ANATOP 0x020c8000+0x001000 -> 0xf42c8000+0x001000 98 * UART4 0x021f0000+0x004000 -> 0xf42f0000+0x004000 99 */ 100 #define IMX_IO_P2V(x) ( \ 101 0xf4000000 + \ 102 (((x) & 0x50000000) >> 6) + \ 103 (((x) & 0x0b000000) >> 4) + \ 104 (((x) & 0x000fffff))) 105 106 #define IMX_IO_ADDRESS(x) IOMEM(IMX_IO_P2V(x)) 107 108 #include <mach/mxc.h> 109 110 #include <mach/mx6q.h> 111 #include <mach/mx50.h> 112 #include <mach/mx51.h> 113 #include <mach/mx53.h> 114 #include <mach/mx3x.h> 115 #include <mach/mx31.h> 116 #include <mach/mx35.h> 117 #include <mach/mx2x.h> 118 #include <mach/mx21.h> 119 #include <mach/mx27.h> 120 #include <mach/mx1.h> 121 #include <mach/mx25.h> 122 123 #define imx_map_entry(soc, name, _type) { \ 124 .virtual = soc ## _IO_P2V(soc ## _ ## name ## _BASE_ADDR), \ 125 .pfn = __phys_to_pfn(soc ## _ ## name ## _BASE_ADDR), \ 126 .length = soc ## _ ## name ## _SIZE, \ 127 .type = _type, \ 128 } 129 130 /* There's a off-by-one betweem the gpio bank number and the gpiochip */ 131 /* range e.g. GPIO_1_5 is gpio 5 under linux */ 132 #define IMX_GPIO_NR(bank, nr) (((bank) - 1) * 32 + (nr)) 133 134 #define IMX_GPIO_TO_IRQ(gpio) (MXC_GPIO_IRQ_START + (gpio)) 135 136 #endif /* __ASM_ARCH_MXC_HARDWARE_H__ */ 137