/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2002 by Alan Korr * * This program 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 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #ifndef __SYSTEM_H__ #define __SYSTEM_H__ #include "cpu.h" #include "stdbool.h" #include "kernel.h" #include "gcc_extensions.h" /* for LIKELY/UNLIKELY */ extern void system_reboot (void); /* Called from any UIE handler and panicf - wait for a key and return * to reboot system. */ extern void system_exception_wait(void); extern void system_init(void); extern long cpu_frequency; struct flash_header { unsigned long magic; unsigned long length; char version[32]; }; bool detect_flashed_romimage(void); bool detect_flashed_ramimage(void); bool detect_original_firmware(void); #if defined(HAVE_ADJUSTABLE_CPU_FREQ) \ && defined(ROCKBOX_HAS_LOGF) && (NUM_CORES == 1) #define CPU_BOOST_LOGGING #endif #ifdef HAVE_ADJUSTABLE_CPU_FREQ #if NUM_CORES > 1 extern struct spinlock boostctrl_spin; #endif void cpu_boost_init(void); #define FREQ cpu_frequency void set_cpu_frequency(long frequency); #ifdef CPU_BOOST_LOGGING char * cpu_boost_log_getlog_first(void); char * cpu_boost_log_getlog_next(void); int cpu_boost_log_getcount(void); void cpu_boost_(bool on_off, char* location, int line); #else void cpu_boost(bool on_off); #endif void cpu_idle_mode(bool on_off); int get_cpu_boost_counter(void); #else /* ndef HAVE_ADJUSTABLE_CPU_FREQ */ #ifndef FREQ #define FREQ CPU_FREQ #endif #define set_cpu_frequency(frequency) #define cpu_boost(on_off) #define cpu_boost_id(on_off, id) #define cpu_idle_mode(on_off) #define get_cpu_boost_counter() #define get_cpu_boost_tracker() #endif /* HAVE_ADJUSTABLE_CPU_FREQ */ #ifdef CPU_BOOST_LOGGING #define cpu_boost(on_off) cpu_boost_(on_off,__FILE__, __LINE__) #endif #define BAUDRATE 9600 #ifndef NULL #define NULL ((void*)0) #endif #ifndef MIN #define MIN(a, b) (((a)<(b))?(a):(b)) #endif #ifndef MAX #define MAX(a, b) (((a)>(b))?(a):(b)) #endif /* return number of elements in array a */ #define ARRAYLEN(a) (sizeof(a)/sizeof((a)[0])) /* return p incremented by specified number of bytes */ #define SKIPBYTES(p, count) ((typeof (p))((char *)(p) + (count))) #define P2_M1(p2) ((1 << (p2))-1) /* align up or down to nearest 2^p2 */ #define ALIGN_DOWN_P2(n, p2) ((n) & ~P2_M1(p2)) #define ALIGN_UP_P2(n, p2) ALIGN_DOWN_P2((n) + P2_M1(p2),p2) /* align up or down to nearest integer multiple of a */ #define ALIGN_DOWN(n, a) ((typeof(n))((typeof(a))(n)/(a)*(a))) #define ALIGN_UP(n, a) ALIGN_DOWN((n)+((a)-1),a) /* align start and end of buffer to nearest integer multiple of a */ #define ALIGN_BUFFER(ptr,len,align) \ {\ uintptr_t tmp_ptr1 = (uintptr_t)ptr; \ uintptr_t tmp_ptr2 = tmp_ptr1 + len;\ tmp_ptr1 = ALIGN_UP(tmp_ptr1,align); \ tmp_ptr2 = ALIGN_DOWN(tmp_ptr2,align); \ len = tmp_ptr2 - tmp_ptr1; \ ptr = (typeof(ptr))tmp_ptr1; \ } #define PTR_ADD(ptr, x) ((typeof(ptr))((char*)(ptr) + (x))) #define PTR_SUB(ptr, x) ((typeof(ptr))((char*)(ptr) - (x))) /* newer? SDL includes endian.h, So we ignore it */ #if (CONFIG_PLATFORM & PLATFORM_HOSTED) || defined(__PCTOOL__) #undef letoh16 #undef letoh32 #undef htole16 #undef htole32 #undef betoh16 #undef betoh32 #undef htobe16 #undef htobe32 #endif /* Android NDK contains swap16 and swap32, ignore them */ #if (CONFIG_PLATFORM & PLATFORM_ANDROID) #undef swap16 #undef swap32 #endif /* Get the byte offset of a type's member */ #define OFFSETOF(type, membername) ((off_t)&((type *)0)->membername) /* Get the type pointer from one of its members */ #define TYPE_FROM_MEMBER(type, memberptr, membername) \ ((type *)((intptr_t)(memberptr) - OFFSETOF(type, membername))) /* returns index of first set bit or 32 if no bits are set */ int find_first_set_bit(uint32_t val); static inline __attribute__((always_inline)) uint32_t isolate_first_bit(uint32_t val) { return val & -val; } /* Functions to set and clear register or variable bits atomically */ void bitmod16(volatile uint16_t *addr, uint16_t bits, uint16_t mask); void bitset16(volatile uint16_t *addr, uint16_t mask); void bitclr16(volatile uint16_t *addr, uint16_t mask); void bitmod32(volatile uint32_t *addr, uint32_t bits, uint32_t mask); void bitset32(volatile uint32_t *addr, uint32_t mask); void bitclr32(volatile uint32_t *addr, uint32_t mask); /* gcc 3.4 changed the format of the constraints */ #if (__GNUC__ >= 3) && (__GNUC_MINOR__ > 3) || (__GNUC__ >= 4) #define I_CONSTRAINT "I08" #else #define I_CONSTRAINT "I" #endif /* Utilize the user break controller to catch invalid memory accesses. */ int system_memory_guard(int newmode); enum { MEMGUARD_KEEP = -1, /* don't change the mode; for reading */ MEMGUARD_NONE = 0, /* catch nothing */ MEMGUARD_FLASH_WRITES, /* catch writes to area 02 (flash ROM) */ MEMGUARD_ZERO_AREA, /* catch all accesses to areas 00 and 01 */ MAXMEMGUARD }; #if !defined(SIMULATOR) && !defined(__PCTOOL__) #include "system-target.h" #elif defined(HAVE_SDL) /* SDL build */ #include "system-sdl.h" #define NEED_GENERIC_BYTESWAPS #endif #include "bitswap.h" #ifdef NEED_GENERIC_BYTESWAPS static inline uint16_t swap16_hw(uint16_t value) /* result[15..8] = value[ 7..0]; result[ 7..0] = value[15..8]; */ { return (value >> 8) | (value << 8); } static inline uint32_t swap32_hw(uint32_t value) /* result[31..24] = value[ 7.. 0]; result[23..16] = value[15.. 8]; result[15.. 8] = value[23..16]; result[ 7.. 0] = value[31..24]; */ { uint32_t hi = swap16_hw(value >> 16); uint32_t lo = swap16_hw(value & 0xffff); return (lo << 16) | hi; } static inline uint32_t swap_odd_even32_hw(uint32_t value) { /* result[31..24],[15.. 8] = value[23..16],[ 7.. 0] result[23..16],[ 7.. 0] = value[31..24],[15.. 8] */ uint32_t t = value & 0xff00ff00; return (t >> 8) | ((t ^ value) << 8); } static inline uint32_t swaw32_hw(uint32_t value) { /* result[31..16] = value[15.. 0]; result[15.. 0] = value[31..16]; */ return (value >> 16) | (value << 16); } #endif /* NEED_GENERIC_BYTESWAPS */ /* static endianness conversion */ #define SWAP16_CONST(x) \ ((typeof(x))( ((uint16_t)(x) >> 8) | ((uint16_t)(x) << 8) )) #define SWAP32_CONST(x) \ ((typeof(x))( ((uint32_t)(x) >> 24) | \ (((uint32_t)(x) & 0xff0000) >> 8) | \ (((uint32_t)(x) & 0xff00) << 8) | \ ((uint32_t)(x) << 24) )) #define SWAP_ODD_EVEN32_CONST(x) \ ((typeof(x))( ((uint32_t)SWAP16_CONST((uint32_t)(x) >> 16) << 16) | \ SWAP16_CONST((uint32_t)(x))) ) #define SWAW32_CONST(x) \ ((typeof(x))( ((uint32_t)(x) << 16) | ((uint32_t)(x) >> 16) )) /* Select best method based upon whether x is a constant expression */ #define swap16(x) \ ( __builtin_constant_p(x) ? SWAP16_CONST(x) : (typeof(x))swap16_hw(x) ) #define swap32(x) \ ( __builtin_constant_p(x) ? SWAP32_CONST(x) : (typeof(x))swap32_hw(x) ) #define swap_odd_even32(x) \ ( __builtin_constant_p(x) ? SWAP_ODD_EVEN32_CONST(x) : (typeof(x))swap_odd_even32_hw(x) ) #define swaw32(x) \ ( __builtin_constant_p(x) ? SWAW32_CONST(x) : (typeof(x))swaw32_hw(x) ) #ifdef ROCKBOX_LITTLE_ENDIAN #define letoh16(x) (x) #define letoh32(x) (x) #define htole16(x) (x) #define htole32(x) (x) #define betoh16(x) swap16(x) #define betoh32(x) swap32(x) #define htobe16(x) swap16(x) #define htobe32(x) swap32(x) #define swap_odd_even_be32(x) (x) #define swap_odd_even_le32(x) swap_odd_even32(x) #else #define letoh16(x) swap16(x) #define letoh32(x) swap32(x) #define htole16(x) swap16(x) #define htole32(x) swap32(x) #define betoh16(x) (x) #define betoh32(x) (x) #define htobe16(x) (x) #define htobe32(x) (x) #define swap_odd_even_be32(x) swap_odd_even32(x) #define swap_odd_even_le32(x) (x) #endif #ifndef BIT_N #define BIT_N(n) (1U << (n)) #endif /* Declare this as HIGHEST_IRQ_LEVEL if they don't differ */ #ifndef DISABLE_INTERRUPTS #define DISABLE_INTERRUPTS HIGHEST_IRQ_LEVEL #endif /* Just define these as empty if not declared */ #ifdef HAVE_CPUCACHE_INVALIDATE void cpucache_commit_discard(void); /* deprecated alias */ void cpucache_invalidate(void); #else static inline void cpucache_commit_discard(void) { } /* deprecated alias */ static inline void cpucache_invalidate(void) { } #endif #ifdef HAVE_CPUCACHE_FLUSH void cpucache_commit(void); /* deprecated alias */ void cpucache_flush(void); #else static inline void cpucache_commit(void) { } /* deprecated alias */ static inline void cpucache_flush(void) { } #endif /* Define this, if the CPU may take advantage of cache aligment. Is enabled * for all ARM CPUs. */ #ifdef CPU_ARM #define HAVE_CPU_CACHE_ALIGN #endif /* Calculate CACHEALIGN_SIZE from CACHEALIGN_BITS */ #ifdef CACHEALIGN_SIZE /* undefine, if defined. always calculate from CACHEALIGN_BITS */ #undef CACHEALIGN_SIZE #endif #ifdef CACHEALIGN_BITS /* CACHEALIGN_SIZE = 2 ^ CACHEALIGN_BITS */ #define CACHEALIGN_SIZE (1u << CACHEALIGN_BITS) #else /* FIXME: set to maximum known cache alignment of supported CPUs */ #define CACHEALIGN_BITS 5 #define CACHEALIGN_SIZE 32 #endif #ifdef HAVE_CPU_CACHE_ALIGN /* Cache alignment attributes and sizes are enabled */ #define CACHEALIGN_ATTR __attribute__((aligned(CACHEALIGN_SIZE))) /* Aligns x up to a CACHEALIGN_SIZE boundary */ #define CACHEALIGN_UP(x) \ ((typeof (x))ALIGN_UP_P2((uintptr_t)(x), CACHEALIGN_BITS)) /* Aligns x down to a CACHEALIGN_SIZE boundary */ #define CACHEALIGN_DOWN(x) \ ((typeof (x))ALIGN_DOWN_P2((uintptr_t)(x), CACHEALIGN_BITS)) /* Aligns at least to the greater of size x or CACHEALIGN_SIZE */ #define CACHEALIGN_AT_LEAST_ATTR(x) \ __attribute__((aligned(CACHEALIGN_UP(x)))) /* Aligns a buffer pointer and size to proper boundaries */ #define CACHEALIGN_BUFFER(start, size) \ ALIGN_BUFFER((start), (size), CACHEALIGN_SIZE) #else /* Cache alignment attributes and sizes are not enabled */ #define CACHEALIGN_ATTR #define CACHEALIGN_AT_LEAST_ATTR(x) __attribute__((aligned(x))) #define CACHEALIGN_UP(x) (x) #define CACHEALIGN_DOWN(x) (x) /* Make no adjustments */ #define CACHEALIGN_BUFFER(start, size) #endif /* Define MEM_ALIGN_ATTR which may be used to align e.g. buffers for faster * access. */ #if defined(CPU_ARM) /* Use ARMs cache alignment. */ #define MEM_ALIGN_ATTR CACHEALIGN_ATTR #define MEM_ALIGN_SIZE CACHEALIGN_SIZE #elif defined(CPU_COLDFIRE) /* Use fixed alignment of 16 bytes. Speed up only for 'movem' in DRAM. */ #define MEM_ALIGN_ATTR __attribute__((aligned(16))) #define MEM_ALIGN_SIZE 16 #else /* Do nothing. */ #define MEM_ALIGN_ATTR /* Align pointer size */ #define MEM_ALIGN_SIZE sizeof(intptr_t) #endif #ifdef STORAGE_WANTS_ALIGN #define STORAGE_ALIGN_ATTR __attribute__((aligned(CACHEALIGN_SIZE))) #define STORAGE_ALIGN_DOWN(x) \ ((typeof (x))ALIGN_DOWN_P2((uintptr_t)(x), CACHEALIGN_BITS)) /* Pad a size so the buffer can be aligned later */ #define STORAGE_PAD(x) ((x) + CACHEALIGN_SIZE - 1) /* Number of bytes in the last cacheline assuming buffer of size x is aligned */ #define STORAGE_OVERLAP(x) ((x) & (CACHEALIGN_SIZE - 1)) #define STORAGE_ALIGN_BUFFER(start, size) \ ALIGN_BUFFER((start), (size), CACHEALIGN_SIZE) #else #define STORAGE_ALIGN_ATTR #define STORAGE_ALIGN_DOWN(x) (x) #define STORAGE_PAD(x) (x) #define STORAGE_OVERLAP(x) 0 #define STORAGE_ALIGN_BUFFER(start, size) #endif /* Double-cast to avoid 'dereferencing type-punned pointer will * break strict aliasing rules' B.S. */ #define PUN_PTR(type, p) ((type)(intptr_t)(p)) #endif /* __SYSTEM_H__ */