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#ifndef CYGONCE_HAL_PLATFORM_SETUP_H #define CYGONCE_HAL_PLATFORM_SETUP_H /*============================================================================= // // hal_platform_setup.h // // Platform specific support for HAL (assembly code) // //============================================================================= //####ECOSGPLCOPYRIGHTBEGIN#### // ------------------------------------------- // This file is part of eCos, the Embedded Configurable Operating System. // Copyright (C) 1998, 1999, 2000, 2001, 2002 Red Hat, Inc. // Copyright (C) 2003 Gary Thomas <gary@mind.be> // // eCos is free software; you can redistribute it and/or modify it under // the terms of the GNU General Public License as published by the Free // Software Foundation; either version 2 or (at your option) any later version. // // eCos is distributed in the hope that it will be useful, but WITHOUT ANY // WARRANTY; without even the implied warranty of MERCHANTABILITY or // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License // for more details. // // You should have received a copy of the GNU General Public License along // with eCos; if not, write to the Free Software Foundation, Inc., // 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA. // // As a special exception, if other files instantiate templates or use macros // or inline functions from this file, or you compile this file and link it // with other works to produce a work based on this file, this file does not // by itself cause the resulting work to be covered by the GNU General Public // License. However the source code for this file must still be made available // in accordance with section (3) of the GNU General Public License. // // This exception does not invalidate any other reasons why a work based on // this file might be covered by the GNU General Public License. // // Alternative licenses for eCos may be arranged by contacting Red Hat, Inc. // at http://sources.redhat.com/ecos/ecos-license/ // ------------------------------------------- //####ECOSGPLCOPYRIGHTEND#### //============================================================================= //#####DESCRIPTIONBEGIN#### // // Author(s): gthomas // Contributors: gthomas // Date: 1999-04-21 // Purpose: Cirrus EDB7XXX platform specific support routines // Description: // Usage: #include <cyg/hal/hal_platform_setup.h> // //####DESCRIPTIONEND#### // //===========================================================================*/ #include <pkgconf/system.h> // System-wide configuration info #include <pkgconf/hal.h> // Architecture independent configuration #include CYGBLD_HAL_PLATFORM_H // Platform specific configuration #include <cyg/hal/hal_edb7xxx.h> // Platform specific hardware definitions #include <cyg/hal/hal_mmu.h> // MMU definitions #define CYGHWR_HAL_ARM_HAS_MMU // This processor has an MMU #define CYGSEM_HAL_ROM_RESET_USES_JUMP // // Memory map - set up by ROM (GDB stubs) // // Region Logical Address Physical Address // DRAM 0x00000000..0x00xFFFFF 0xC00x0000 (see below) // Expansion 2 0x20000000 0x20000000 // Expansion 3 0x30000000 0x30000000 // PCMCIA 0 0x40000000 0x40000000 // PCMCIA 1 0x50000000 0x50000000 // SRAM 0x60000000..0x600007FF 0x60000000 // I/O 0x80000000 0x80000000 // MMU Tables 0xC00y0000 // LCD buffer 0xC0000000..0xC001FFFF 0xC0000000 // ROM 0xE0000000..0xEFFFFFFF 0x00000000 // ROM 0xF0000000..0xFFFFFFFF 0x10000000 #ifdef CYGHWR_HAL_ARM_EDB7XXX_LCD_INSTALLED #define LCD_BUFFER_SIZE 0x00020000 #else #define LCD_BUFFER_SIZE 0x00000000 #endif #define DRAM_PA_START 0xC0000000 #define MMU_BASE DRAM_PA_START+LCD_BUFFER_SIZE #define PTE_BASE MMU_BASE+0x4000 #if (CYGHWR_HAL_ARM_EDB7XXX_DRAM_SIZE == 2) #define MMU_TABLES_SIZE (0x4000+0x1000+0x1000) // RAM used for PTE entries #define DRAM_LA_END (0x00200000-MMU_TABLES_SIZE-LCD_BUFFER_SIZE) #elif (CYGHWR_HAL_ARM_EDB7XXX_DRAM_SIZE == 16) #define MMU_TABLES_SIZE (0x4000+0x4000+0x1000) // RAM used for PTE entries #define DRAM_LA_END (0x01000000-MMU_TABLES_SIZE-LCD_BUFFER_SIZE) #endif #define DRAM_LA_START 0x00000000 #define DRAM_PA MMU_BASE+MMU_TABLES_SIZE #define LCD_LA_START 0xC0000000 #define LCD_LA_END 0xC0020000 #define LCD_PA 0xC0000000 #define ROM0_LA_START 0xE0000000 #define ROM0_PA 0x00000000 #define ROM0_LA_END 0xF0000000 #define ROM1_LA_START 0xF0000000 #define ROM1_LA_END 0x00000000 #define ROM1_PA 0x10000000 #define EXPANSION2_LA_START 0x20000000 #define EXPANSION2_PA 0x20000000 #define EXPANSION3_LA_START 0x30000000 #define EXPANSION3_PA 0x30000000 #define PCMCIA0_LA_START 0x40000000 #define PCMCIA0_PA 0x40000000 #define PCMCIA1_LA_START 0x50000000 #define PCMCIA1_PA 0x50000000 #define SRAM_LA_START 0x60000000 #ifdef CYGHWR_HAL_ARM_EDB7XXX_VARIANT_CL_PS7111 // 4K SRAM #define SRAM_LA_END 0x60001000 #else // 72xx - 37.5K SRAM #define SRAM_LA_END 0x6000A000 #endif #define SRAM_PA 0x60000000 #define IO_LA_START 0x80000000 #define IO_LA_END 0x8000f000 #define IO_PA 0x80000000 #ifndef _CYGHWR_LAYOUT_ONLY // Define startup code [macros] #if defined(CYGSEM_HAL_INSTALL_MMU_TABLES) #ifdef CYGHWR_HAL_ARM_EDB7XXX_VARIANT_CL_PS7111 // CL7111, 710 processor .macro MMU_INITIALIZE ldr r2,=MMU_Control_Init mcr MMU_CP,0,r2,MMU_Control,c0 /* MMU off */ mcr MMU_CP,0,r1,MMU_Base,c0 mcr MMU_CP,0,r1,MMU_FlushTLB,c0,0 /* Invalidate TLB */ mcr MMU_CP,0,r1,MMU_FlushIDC,c0,0 /* Invalidate Caches */ ldr r1,=0xFFFFFFFF mcr MMU_CP,0,r1,MMU_DomainAccess,c0 ldr r2,=10f ldr r1,=MMU_Control_Init|MMU_Control_M mcr MMU_CP,0,r1,MMU_Control,c0 mov pc,r2 /* Change address spaces */ nop nop nop 10: .endm #else // EP7xxx, 720T processor .macro MMU_INITIALIZE ldr r2,=MMU_Control_Init mcr MMU_CP,0,r2,MMU_Control,c0 /* MMU off */ mcr MMU_CP,0,r1,MMU_Base,c0 mcr MMU_CP,0,r1,MMU_TLB,c7,0 /* Invalidate TLB */ mcr MMU_CP,0,r1,MMU_FlushIDC,c0,0 /* Invalidate Caches */ ldr r1,=0xFFFFFFFF mcr MMU_CP,0,r1,MMU_DomainAccess,c0 ldr r2,=10f #ifdef CYG_HAL_STARTUP_ROMRAM ldr r3,=__exception_handlers sub r2,r2,r3 ldr r3,=ROM0_LA_START add r2,r2,r3 #endif ldr r1,=MMU_Control_Init|MMU_Control_M mcr MMU_CP,0,r1,MMU_Control,c0 mov pc,r2 /* Change address spaces */ nop nop nop 10: .endm #endif // EP7xxx,720T processor #ifdef CYG_HAL_STARTUP_ROMRAM .macro RELOCATE_TEXT_SEGMENT ldr r2,=__exception_handlers ldr r3,=ROM0_LA_START cmp r2,r3 beq 20f ldr r4,=__rom_data_end 15: ldr r0,[r3],#4 str r0,[r2],#4 cmp r2,r4 bne 15b ldr r2,=20f mov pc,r2 /* Change address spaces */ nop nop nop 20: .endm #endif #ifdef CYG_HAL_STARTUP_RAM .macro RELOCATE_RAM_IMAGE // Special code to handle case where program has been loaded into DRAM // _somewhere_. This code first relocates itself into DRAM where eCos // mapping will expect it to be. Note since we don't know the current // MMU mapping, this is tricky. This is handled by putting a small // routine into SRAM (which is always mapped 1-1) that turns off the // MMU whilst it stores one word into physical memory. Once the whole // program has been relocated thusly, the MMU is shut off again while // the eCos memory mapping takes place bl 5f // Routine to store one item in physical memory, with the MMU off _phys_store: ldr r5,=MMU_Control_Init mcr MMU_CP,0,r5,MMU_Control,c0 /* MMU off */ nop nop nop mcr MMU_CP,0,r1,MMU_TLB,c7,0 /* Invalidate TLB */ mcr MMU_CP,0,r1,MMU_FlushIDC,c0,0 /* Invalidate Caches */ str r4,[r2],#4 ldr r5,=MMU_Control_Init|MMU_Control_M mcr MMU_CP,0,r5,MMU_Control,c0 mov pc,lr _phys_store_end: // Copy above routine to SRAM, whose address does not change with MMU 5: mov r1,lr add r2,r1,#_phys_store_end-_phys_store ldr r3,=SRAM_LA_START 6: ldr r4,[r1],#4 str r4,[r3],#4 cmp r1,r2 bne 6b ldr r6,=SRAM_LA_START // Relocate code in DRAM to where eCos mapping wants it bl 7f 7: mov r2,lr ldr r1,=7b sub r1,r2,r1 ldr r2,=__exception_handlers add r1,r1,r2 // ldr r1,=0xF0020000 ldr r3,=DRAM_PA add r2,r2,r3 // ldr r2,=DRAM_PA+0x20000 ldr r3,=_edata ldr r4,=__exception_handlers sub r3,r3,r4 add r3,r1,r3 // ldr r3,=0xF0040000 10: ldr r4,[r1],#4 mov lr,pc // Call phys_store() function above mov pc,r6 cmp r1,r3 bne 10b // Now, turn off the MMU an execute the rest of this code in PHYSICAL memory ldr r1,=15f ldr r2,=DRAM_PA add r1,r1,r2 ldr r5,=MMU_Control_Init mcr MMU_CP,0,r5,MMU_Control,c0 /* MMU off */ mov pc,r1 nop nop nop 15: mcr MMU_CP,0,r1,MMU_TLB,c7,0 /* Invalidate TLB */ mcr MMU_CP,0,r1,MMU_FlushIDC,c0,0 /* Invalidate Caches */ .endm #endif // CYG_HAL_STARTUP_RAM #ifdef CYGHWR_HAL_ARM_EDB7XXX_VARIANT_EP7312 .macro INIT_MEMORY_CONFIG mov r0,#(CPSR_IRQ_DISABLE|CPSR_FIQ_DISABLE|CPSR_SUPERVISOR_MODE) msr cpsr,r0 ldr r10,=UARTDR1 ldr r11,=SYSFLG1 ldr r12,=SYSFLG1_UTXFF1 ldr r1,=SDCONF ldr r2,=0x00000522 str r2,[r1] ldr r1,=SDRFOR ldr r2,=0x00000240 str r2,[r1] ldr r1,=MEMCFG1 ldr r2,=0x1F101710 str r2,[r1] ldr r1,=MEMCFG2 ldr r2,=0x00001F13 str r2,[r1] .endm #else #if CYGHWR_HAL_ARM_EDB7XXX_VARIANT_EP7209 // No DRAM controller .macro INIT_MEMORY_CONFIG /* Initialize memory configuration */ ldr r1,=MEMCFG1 ldr r2,=0x8200A080 str r2,[r1] ldr r1,=MEMCFG2 ldr r2,=0xFEFC0000 str r2,[r1] .endm #else // CYGHWR_HAL_ARM_EDB7XXX_VARIANT = EP7211, EP7212 .macro INIT_MEMORY_CONFIG /* Initialize memory configuration */ ldr r1,=MEMCFG1 ldr r2,=0x8200A080 str r2,[r1] ldr r1,=MEMCFG2 ldr r2,=0xFEFC0000 str r2,[r1] ldr r1,=DRFPR ldr r2,=0x81 /* DRAM refresh = 64KHz */ strb r2,[r1] .endm #endif #endif #if defined(CYGSEM_HAL_STATIC_MMU_TABLES) #define PLATFORM_SETUP1 \ INIT_MEMORY_CONFIG ;\ ldr r1,=_MMU_table-0xE0000000 ;\ MMU_INITIALIZE ;\ RELOCATE_TEXT_SEGMENT #define PLATFORM_EXTRAS <cyg/hal/hal_platform_extras.h> #else // MMU tables placed in DRAM #if (CYGHWR_HAL_ARM_EDB7XXX_DRAM_SIZE == 2) // Note: The DRAM on this board is very irregular in that every // other 256K piece is missing. E.g. only these [physical] // addresses are valid: // 0xC0000000..0xC003FFFF // 0xC0080000..0xC00BFFFF // 0xC0200000..0xC023FFFF Note the additional GAP! // etc. // 0xC0800000..0xC083FFFF Note the additional GAP! // 0xC0880000..0xC08CFFFF // 0xC0A00000..0xC0A3FFFF // etc. // The MMU mapping code takes this into consideration and creates // a continuous logical map for the DRAM. .macro MAP_DRAM /* Map DRAM */ ldr r3,=DRAM_LA_START ldr r4,=DRAM_LA_END ldr r5,=DRAM_PA /* 0x00000000..0x000FFFFF */ mov r6,r2 /* Set up page table descriptor */ ldr r7,=MMU_L1_TYPE_Page orr r6,r6,r7 str r6,[r1],#4 /* Store PTE, update pointer */ 10: mov r6,r5 /* Build page table entry */ ldr r7,=MMU_L2_TYPE_Small|MMU_AP_Any|MMU_Bufferable|MMU_Cacheable orr r6,r6,r7 ldr r7,=MMU_PAGE_SIZE str r6,[r2],#4 /* Next page */ add r3,r3,r7 add r5,r5,r7 ldr r8,=DRAM_LA_START+MMU_SECTION_SIZE cmp r3,r8 /* Done with first 1M? */ beq 20f ldr r7,=0x40000 /* Special check for 256K boundary */ and r7,r7,r5 cmp r7,#0 beq 10b add r5,r5,r7 /* Skip 256K hole */ ldr r7,=0x100000 and r7,r5,r7 beq 10b add r5,r5,r7 /* Nothing at 0xC0100000 */ ldr r7,=0x400000 /* Also nothing at 0xC0400000 */ and r7,r5,r7 beq 10b add r5,r5,r7 b 10b 20: /* 0x00100000..0x001FFFFF */ mov r6,r2 /* Set up page table descriptor */ ldr r7,=MMU_L1_TYPE_Page orr r6,r6,r7 str r6,[r1],#4 /* Store PTE, update pointer */ 10: mov r6,r5 /* Build page table entry */ ldr r7,=MMU_L2_TYPE_Small|MMU_AP_Any|MMU_Bufferable|MMU_Cacheable orr r6,r6,r7 ldr r7,=MMU_PAGE_SIZE str r6,[r2],#4 /* Next page */ add r3,r3,r7 cmp r3,r4 /* Done with first DRAM? */ beq 20f add r5,r5,r7 ldr r7,=0x40000 /* Special check for 256K boundary */ and r7,r7,r5 cmp r7,#0 beq 10b add r5,r5,r7 /* Skip 256K hole */ ldr r7,=0x100000 and r7,r5,r7 beq 10b add r5,r5,r7 /* Nothing at 0xC0300000 */ ldr r7,=0x400000 /* Also nothing at 0xC0400000 */ and r7,r5,r7 beq 10b add r5,r5,r7 b 10b 20: #elif (CYGHWR_HAL_ARM_EDB7XXX_DRAM_SIZE == 16) // The 16M EDB72xx boards are arranged as: // 0xC0000000..0xC07FFFFF // 0xC1000000..0xC17FFFFF // The 16M EDB7312 board is arranged as: // 0xC0000000..0xC0FFFFFF .macro MAP_DRAM /* Map DRAM */ ldr r3,=DRAM_LA_START ldr r4,=DRAM_LA_END ldr r5,=DRAM_PA /* 0xXXX00000..0xXXXFFFFF */ 10: mov r6,r2 /* Set up page table descriptor */ ldr r7,=MMU_L1_TYPE_Page orr r6,r6,r7 str r6,[r1],#4 /* Store PTE, update pointer */ ldr r8,=MMU_SECTION_SIZE/MMU_PAGE_SIZE #if !defined(__EDB7312) // EDB7312 has contiguous SDRAM ldr r9,=DRAM_PA_START+0x00800000 /* Skip at 8M boundary */ 12: cmp r5,r9 bne 15f ldr r5,=DRAM_PA_START+0x01000000 /* Next chunk of DRAM */ #else 12: #endif 15: mov r6,r5 /* Build page table entry */ ldr r7,=MMU_L2_TYPE_Small|MMU_AP_Any|MMU_Bufferable|MMU_Cacheable orr r6,r6,r7 ldr r7,=MMU_PAGE_SIZE str r6,[r2],#4 /* Next page */ add r3,r3,r7 add r5,r5,r7 cmp r3,r4 /* End of DRAM? */ beq 20f sub r8,r8,#1 /* End of 1M section? */ cmp r8,#0 bne 12b /* Next page */ b 10b /* Next section */ 20: .endm #else #error Invalid DRAM size select #endif .macro MAP_L1_SEGMENT start end phys prot ldr r3,=0x3FF /* Page tables need 2K boundary */ add r2,r2,r3 ldr r3,=~0x3FF and r2,r2,r3 ldr r3,=\start ldr r4,=\end ldr r5,=\phys ldr r6,=\prot ldr r7,=MMU_SECTION_SIZE 10: orr r0,r5,r6 str r0,[r1],#4 add r5,r5,r7 add r3,r3,r7 cmp r3,r4 bne 10b .endm .macro PLATFORM_SETUP1 INIT_MEMORY_CONFIG #ifdef CYG_HAL_STARTUP_RAM RELOCATE_RAM_IMAGE #endif /* Initialize MMU to create new memory map */ ldr r1,=MMU_BASE ldr r2,=PTE_BASE MAP_DRAM /* Nothing until PCMCIA0 */ MAP_L1_SEGMENT (DRAM_LA_END+0x000FFFFF)&0xFFF00000 EXPANSION2_LA_START 0 MMU_L1_TYPE_Fault /* EXPANSION2, EXPANSION3, PCMCIA0, PCMCIA1 */ MAP_L1_SEGMENT EXPANSION2_LA_START SRAM_LA_START EXPANSION2_PA MMU_L1_TYPE_Section|MMU_AP_Any /* SRAM */ ldr r3,=SRAM_LA_START ldr r4,=MMU_L1_TYPE_Page|MMU_DOMAIN(0) orr r4,r4,r2 str r4,[r1],#4 ldr r7,=MMU_PAGE_SIZE ldr r5,=SRAM_LA_END 05: ldr r4,=MMU_L2_TYPE_Small|MMU_AP_Any|MMU_Bufferable|MMU_Cacheable orr r4,r3,r4 str r4,[r2],#4 add r3,r3,r7 cmp r3,r5 bne 05b ldr r4,=SRAM_LA_START+MMU_SECTION_SIZE ldr r5,=MMU_L2_TYPE_Fault 10: str r5,[r2],#4 add r3,r3,r7 cmp r3,r4 bne 10b ldr r4,=IO_LA_START ldr r5,=MMU_L1_TYPE_Fault ldr r7,=MMU_SECTION_SIZE 20: str r5,[r1],#4 add r3,r3,r7 cmp r3,r4 bne 20b /* I/O */ ldr r3,=0x3FF /* Page tables need 2K boundary */ add r2,r2,r3 ldr r3,=~0x3FF and r2,r2,r3 ldr r4,=MMU_L1_TYPE_Page|MMU_DOMAIN(0) orr r4,r4,r2 str r4,[r1],#4 ldr r3,=IO_LA_START ldr r4,=IO_LA_END ldr r7,=MMU_PAGE_SIZE ldr r5,=IO_PA|MMU_L2_TYPE_Small|MMU_AP_All 10: str r5,[r2],#4 add r5,r5,r7 add r3,r3,r7 cmp r3,r4 bne 10b ldr r4,=IO_LA_START+MMU_SECTION_SIZE ldr r5,=MMU_L2_TYPE_Fault ldr r7,=MMU_PAGE_SIZE 10: str r5,[r2],#4 add r3,r3,r7 cmp r3,r4 bne 10b ldr r4,=LCD_LA_START ldr r5,=MMU_L1_TYPE_Fault ldr r7,=MMU_SECTION_SIZE 20: str r5,[r1],#4 add r3,r3,r7 cmp r3,r4 bne 20b /* LCD Buffer & Unmapped DRAM (holes and all) */ MAP_L1_SEGMENT LCD_LA_START ROM0_LA_START LCD_PA MMU_L1_TYPE_Section|MMU_AP_Any|MMU_Bufferable|MMU_Cacheable /* ROM0 */ MAP_L1_SEGMENT ROM0_LA_START ROM0_LA_END ROM0_PA MMU_L1_TYPE_Section|MMU_AP_Any /* ROM1 */ MAP_L1_SEGMENT ROM1_LA_START ROM1_LA_END ROM1_PA MMU_L1_TYPE_Section|MMU_AP_Any /* Now initialize the MMU to use this new page table */ ldr r1,=MMU_BASE MMU_INITIALIZE #ifdef CYG_HAL_STARTUP_ROMRAM RELOCATE_TEXT_SEGMENT #endif // CYG_HAL_STARTUP_ROM .endm #endif // CYGSEM_HAL_STATIC_MMU_TABLES #else // CYGSEM_HAL_INSTALL_MMU_TABLES #define PLATFORM_SETUP1 #endif #endif //_CYGHWR_LAYOUT_ONLY /*---------------------------------------------------------------------------*/ /* end of hal_platform_setup.h */ #endif /* CYGONCE_HAL_PLATFORM_SETUP_H */