#include "HW.h" void EXIControl( u32 value ) { if( value == 0 ) { *(vu32*)0x3160 = 0xDEADBEEF; *(vu32*)0xD800070 &= ~1; } else { *(vu32*)0x3160 = 0; *(vu32*)0xD800070 |= 1; } } void HWRegWriteBatch( u32 A, u32 B, u32 C, u32 D, u32 delay ) { DRAMWrite( 0x160, A ); DRAMWrite( 0x161, B ); DRAMWrite( 0x161, C ); DRAMWrite( 0x161, D ); udelay(delay); } //inline void RegisterWrite( u32 Offset, u32 Value ) //{ // *(vu16*)(0x0D8B4000+Offset) = Value; //} //inline volatile u32 RegisterRead( u32 Offset ) //{ // return *(vu16*)(0x0D8B4000+Offset); //} //void DRAMWrite( u32 Register, u32 Value ) //{ // RegisterWrite( 0x74, Register ); // RegisterRead( 0x74 ); // RegisterWrite( 0x76, Value ); //} //u32 DRAMRead( u32 Register ) //{ // RegisterWrite( 0x74, Register ); // RegisterRead( 0x74 ); // return RegisterRead( 0x76 ); //} //void DRAMCTRLWrite( u32 ValueA, u32 ValueB ) //{ // DRAMWrite( 0x0163, ValueA ); // DRAMRead( 0x0163 ); // DRAMWrite( 0x0162, ValueB ); //} //u32 DRAMCTRLRead( u32 ValueA ) //{ // DRAMWrite( 0x0163, ValueA ); // DRAMRead( 0x0163 ); // return DRAMRead( 0x0162 ); //} void SomeFuncA( void ) { set32( 0xD80018C, 0x400 ); set32( 0xD80018C, 0x800 ); } void SomeFuncD( void ) { u32 cookie = *(vu32*)(0xD8001D8) & 0x7FFFFFFF; write32( 0xD8001D8, cookie ); udelay(2); write32( 0xD8001D8, cookie & 0xBFFFFFFF ); udelay(10); write32( 0xD8001D8, (read32(0xD8001D8) & 0xBFFFFFFF) | 0x40000000 ); udelay(50); write32( 0xD8001D8, (read32(0xD8001D8) & 0x7FFFFFFF) | 0x80000000 ); udelay(2); } void EHCIInit( void ) { SomeFuncA(); u32 HWVerFlag = ((*(vu32*)0xD800214) << 0x18) >> 0x1C; write32( 0xD800088, 0xFE ); udelay(2); SomeFuncD(); write32( 0xD800088, 0xF6 ); udelay(50); write32( 0xD800088, 0xF4 ); udelay(1); write32( 0xD800088, 0xF0 ); udelay(1); write32( 0xD800088, 0x70 ); udelay(1); write32( 0xD800088, 0x60 ); udelay(1); write32( 0xD800088, 0x40 ); udelay(1); write32( 0xD800088, 0x00 ); udelay(1); write32( 0xD0400B4, 0x2214 ); if( HWVerFlag == 0 ) { write32( 0xD0400B0, 0x20400 ); } else { write32( 0xD0400B0, 0x20600 ); } write32( 0xD0400A4, 0x26 ); udelay(1); write32( 0xD0400A4, 0x2026 ); udelay(1); write32( 0xD0400A4, 0x4026 ); udelay(20); write32( 0xD0400CC, 0x111 ); udelay(1); //set32( 0xD800194, 0x7FDFBCF ); write32( 0xD8001E0, 0x65244A ); write32( 0xD8001E4, 0x46A024 ); return; } void Shutdown( void ) { udelay(200); set32( 0x0d8000E0, 1<<1); while(1); } void GetRevision( u32 *Version, u32 *Revision ) { u32 val = read32(HW_VERSION); *Version = (val << 24 ) >> 28; *Revision = val & 0x0F; } void PPCReset( void ) { clear32( HW_RESETS, 0x30 ); udelay(15); set32( HW_RESETS, 0x20 ); } void HWResetDisable( void ) { clear32( HW_RESETS, 0x4800 ); } void HWResetEnable( void ) { set32( HW_RESETS, 0x4800 ); } void HW_184( void ) { clear32( 0xD800184, 0x438E ); } void HW_184_2( void ) { set32( 0xD800184, 0x438E ); } void ChangeClock( void ) { write32( HW_CLOCKS, 1 ); udelay(1); write32( HW_RESETS, 0x7FFFFFF7 ); udelay(1); write32( HW_CLOCKS, 3 ); write32( HW_RESETS, 0x7FFFFFFF ); udelay(4); write32( HW_CLOCKS, 2 ); udelay(1); } #define RAMTEST {write32( 0x13020000, 0xdeadbeaf); if( read32( 0x13020000 ) != 0xdeadbeaf ){ dbgprintf("Fail at:%d\n", __LINE__ );/*Shutdown();*/}} u32 SP[3]; void DRAMInit( u32 A, u32 B ) { SP[0] = 0; HWMAgic( 162, 999, A, B ); } void HWMAgic( u32 R0, u32 R1, u32 R2, u32 R3 ) { u32 R10,R11,R7,R8,R9,value; R3 = R3 << 24; SP[1] = R3 >> 24; SP[2] = R0; R10 = (R1<<16)>>16; //if( read32( HW_RESETS ) & 0x800 ) //{ // DRAMCTRLWrite( 0x18, 0 ); // DRAMCTRLWrite( 0x19, 0 ); // DRAMCTRLWrite( 0x17, 0 ); // udelay(10); //} //clear32( HW_RESETS, 0x800 ); //udelay(100); clear32( HW_DIFLAGS, 0x20 ); clear32( HW_RESETS, 0x100 ); udelay(10); write32( HW_RESETS, (read32( HW_RESETS ) & 0xFFFFF7FF) | 0x800 ); udelay(5); write32( HW_RESETS, (read32( HW_RESETS ) & 0xFFFFFEFF) | 0x100 ); udelay(5); value = read32( HW_RESETS ) & 0xFFFFFEFF; write32( HW_RESETS, value ); udelay(100); value |= 0x100; write32( HW_RESETS, value ); udelay(5); //SubD clear32( 0xD8001C0, 0xC0000000 ); udelay(100); value = read32( 0xD8001BC ); value&= ~0x3F; value|= 0; value&=0xFFFC003F; value|= 0x00001240; value&=0xF803FFFF; value|= 0x00100000; value&=0xEFFFFFFF; value|= 0; write32( 0xD8001BC, value ); udelay(100); value = read32( 0xD8001C0 ); value&=0x7FFFFFFF; value&=0xBFFFFFFF; value|=0x40000000; value&=0xEFFFFFFF; value|=0x10000000; value&=0xF7FFFFFF; value|=0x08000000; write32( 0xD8001C0, value ); udelay(1000); value = read32( 0xD8001C0 ); value&=0x7FFFFFFF; value|=0x80000000; write32( 0xD8001C0, value ); udelay(1000); //DRAMWrite( 0x100, 0x24 ); //udelay(5); //DRAMWrite( 0x100, 0x20 ); DRAMCTRLWrite( 0x4B, 0 ); if( SP[0] == 1 ) { DRAMCTRLWrite( 0x0048, 0xD09 ); udelay(50); if( SP[0] == 1 ) { DRAMCTRLWrite( 0x0048, 0x509 ); } else { DRAMCTRLWrite( 0x0048, 0x50B ); } } else { DRAMCTRLWrite( 0x0048, 0xD0B ); udelay(50); if( SP[0] != 1 ) { DRAMCTRLWrite( 0x0048, 0x50B ); } else { DRAMCTRLWrite( 0x0048, 0x509 ); } } udelay(50); //SubJ DRAMCTRLWrite( 0x003E, 0xF0F0 ); DRAMCTRLWrite( 0x003F, 0xF0F0 ); DRAMCTRLWrite( 0x0040, 0x1616 ); DRAMCTRLWrite( 0x0041, 0x1616 ); DRAMCTRLWrite( 0x0042, 0x1616 ); DRAMCTRLWrite( 0x0043, 0x1616 ); udelay(50); //SubO if( SP[0] == 1 ) { DRAMCTRLWrite( 0x0048, 0x0109 ); } else { DRAMCTRLWrite( 0x0048, 0x010B ); } udelay(10); DRAMCTRLWrite( 0x0047, 0x8000 ); DRAMCTRLWrite( 0x0027, 0x0000 ); DRAMWrite( 0x010C, 0x01FF ); DRAMWrite( 0x010D, 0x0FFF ); DRAMWrite( 0x010E, 0x0007 ); DRAMWrite( 0x010B, 0x0001 ); DRAMWrite( 0x0109, 0x0004 ); DRAMWrite( 0x0108, 0x0006 ); DRAMWrite( 0x010A, 0x0002 ); DRAMWrite( 0x015B, 0x0EFF ); DRAMWrite( 0x0134, 0x0008 ); DRAMWrite( 0x0135, 0x000C ); DRAMWrite( 0x0136, 0x0018 ); DRAMWrite( 0x0140, 0x0006 ); DRAMWrite( 0x015A, 0x0005 ); DRAMWrite( 0x0137, 0x0005 ); DRAMWrite( 0x0138, 0x0005 ); DRAMWrite( 0x0139, 0x0005 ); DRAMWrite( 0x013A, 0x0005 ); DRAMWrite( 0x013B, 0x0005 ); DRAMWrite( 0x013C, 0x0005 ); DRAMWrite( 0x013D, 0x0005 ); DRAMWrite( 0x013E, 0x0005 ); DRAMWrite( 0x013F, 0x0005 ); DRAMCTRLWrite( 0x001C, 0x0000 ); DRAMCTRLWrite( 0x001B, 0x0000 ); DRAMCTRLWrite( 0x0000, 0x0000 ); DRAMCTRLWrite( 0x0015, 0x0001 ); DRAMCTRLWrite( 0x0016, 0x0000 ); DRAMCTRLWrite( 0x0025, 0x0001 ); DRAMCTRLWrite( 0x0010, 0x0000 ); DRAMCTRLWrite( 0x0023, 0x0008 ); DRAMCTRLWrite( 0x0001, 0x0007 ); DRAMCTRLWrite( 0x0002, 0x0004 ); DRAMCTRLWrite( 0x0005, 0x0007 ); DRAMCTRLWrite( 0x0008, 0x0004 ); DRAMCTRLWrite( 0x0009, 0x0018 ); DRAMCTRLWrite( 0x000A, 0x001B ); DRAMCTRLWrite( 0x0004, 0x0017 ); DRAMCTRLWrite( 0x0021, 0x000B ); DRAMCTRLWrite( 0x000B, 0x0009 ); DRAMCTRLWrite( 0x000C, 0x000B ); DRAMCTRLWrite( 0x000D, 0x0006 ); DRAMCTRLWrite( 0x000E, 0x000C ); DRAMCTRLWrite( 0x000F, 0x0017 ); DRAMCTRLWrite( 0x0011, 0xFC00 ); DRAMCTRLWrite( 0x0012, 0x001F ); DRAMCTRLWrite( 0x0013, 0x0000 ); DRAMCTRLWrite( 0x0014, 0x0000 ); DRAMCTRLWrite( 0x0006, 0x0002 ); DRAMCTRLWrite( 0x0007, 0x000A ); DRAMCTRLWrite( 0x0022, 0x0008 ); DRAMCTRLWrite( 0x001F, 0x1FE0 ); DRAMCTRLWrite( 0x0020, 0x0000 ); DRAMCTRLWrite( 0x002C, 0x7252 ); DRAMCTRLWrite( 0x002D, 0x4A5E ); DRAMCTRLWrite( 0x002E, 0x7BDE ); DRAMCTRLWrite( 0x002F, 0x00DE ); DRAMCTRLWrite( 0x0030, 0x00CC ); DRAMCTRLWrite( 0x0031, 0x0000 ); DRAMCTRLWrite( 0x0032, 0x00CC ); DRAMCTRLWrite( 0x0033, 0x0000 ); DRAMCTRLWrite( 0x0034, 0x00CC ); DRAMCTRLWrite( 0x0035, 0x0000 ); DRAMCTRLWrite( 0x0036, 0x08EC ); DRAMCTRLWrite( 0x0037, 0x0000 ); DRAMCTRLWrite( 0x0038, 0x0476 ); DRAMCTRLWrite( 0x0039, 0x0000 ); if( SP[0] == 1 ) { DRAMCTRLWrite( 0x3A, 0x800F ); DRAMCTRLWrite( 0x3B, 7 ); DRAMCTRLWrite( 0x3C, 0x800F ); DRAMCTRLWrite( 0x3D, 7 ); } else { DRAMCTRLWrite( 0x3A, 0 ); DRAMCTRLWrite( 0x3B, 0 ); DRAMCTRLWrite( 0x3C, 0 ); DRAMCTRLWrite( 0x3D, 0 ); } DRAMCTRLWrite( 0x45, 0 ); DRAMCTRLWrite( 0x100, 0 ); udelay(5); DRAMCTRLWrite( 0x18, 1 ); udelay(5); DRAMCTRLWrite( 0x17, 1 ); udelay(200); DRAMCTRLWrite( 0x4B, 1 ); DRAMCTRLWrite( 0x4C, 1 ); HWRegWriteBatch( 0xFFFF, 0x20, 0x21, 0x20, 1 ); HWRegWriteBatch( 0x2882, 0x22, 0x23, 0x22, 5 ); HWRegWriteBatch( 0x2882, 0x24, 0x25, 0x24, 5 ); HWRegWriteBatch( 0x2C82, 0x22, 0x23, 0x22, 5 ); u32 r5 = (DRAMCTRLRead(0x29) << 0x10) >> 0x18; HWRegWriteBatch( 0x2882, 0x22, 0x23, 0x22, 5 ); HWRegWriteBatch( 0x2C82, 0x24, 0x25, 0x24, 5 ); u32 r4 = (DRAMCTRLRead(0x29) << 0x10) >> 0x18; HWRegWriteBatch( 0x2882, 0x24, 0x25, 0x24, 5 ); HWRegWriteBatch( 0x0903, 0x22, 0x23, 0x22, 1 ); HWRegWriteBatch( 0x0903, 0x24, 0x25, 0x24, 1 ); DRAMCTRLWrite( 0x4C, 0 ); DRAMCTRLWrite( 0x18, 0 ); DRAMCTRLWrite( 0x17, 0 ); udelay(200); if( r4 == r5 ) { DRAMCTRLWrite( 0x18, 1 ); udelay(5); DRAMCTRLWrite( 0x17, 1 ); } else { DRAMCTRLWrite( 0x17, 1 ); udelay(5); DRAMCTRLWrite( 0x18, 1 ); } udelay(200); DRAMCTRLWrite( 0x4B, 0 ); if( r4 != r5 ) { DRAMWrite( 0x10B, 7 ); DRAMCTRLWrite( 0x15, 0 ); } HWRegWriteBatch( 0xFFFF, 0x20, 0x21, 0x20, 2 ); if( r4 == r5 ) { HWRegWriteBatch( 0x288E, 0x22, 0x23, 0x22, 1 ); } else { HWRegWriteBatch( 0x288A, 0x22, 0x23, 0x22, 1 ); } if( r4 == r5 ) { HWRegWriteBatch( 0x288E, 0x24, 0x25, 0x24, 1 ); } HWRegWriteBatch( 0x903, 0x22, 0x23, 0x22, 1 ); if( r4 == r5 ) { HWRegWriteBatch( 0x903, 0x24, 0x25, 0x24, 1 ); } udelay(70); //SubEND HWRegWriteBatch( 0xFFFF, 0x20, 0x21, 0x20, 2 ); HWRegWriteBatch( 0xFFFF, 2, 3, 2, 5 ); HWRegWriteBatch( 0xFFFF, 2, 3, 2, 5 ); int i; for( i=0; i < 0x10; i+=2 ) write16( 0xD8B4000 + i, 0 ); write16( 0xD8B4026, 65 ); //GC-MODE DRAMCTRLWrite( 0x18, 0 ); DRAMCTRLWrite( 0x19, 1 ); DRAMWrite( 0x113, 631 ); //END DRAMWrite( 0x165, 0x29 ); DRAMWrite( 0x164, r5 ); DRAMWrite( 0x165, 0x2B ); DRAMWrite( 0x164, r4 ); } void MIOSInit( void ) { ahb_flush_from(1); ahb_flush_to(1); MIOSHWInit( 1, 1 ); } void MIOSDoStuff( u32 R0, u32 R1 ) { if( R0 == 0 ) { write32( 0xD8B0010, R0 ); } write32( 0xD8B0010, 0 ); if( R0 == 1 ) { if( R1 == 0 ) { u32 value = read32( 0xD800140 ); value |= R0; value &= 0xFFFF000F; write32( 0xD800140, value ); } } } void MIOSUnkInit( void ) { u32 value = read32( HW_DIFLAGS ); value &= 0xFFFFFEFF; value &= ~0x80; write32( HW_DIFLAGS, value ); clear32( 0xD8001D0, 0x80000000 ); udelay(2); clear32( 0xD8001D0, 0x40000000 ); if( SP[1] <= 1 ) { value = read32( 0xD8001CC ); value&= 0xFFFC003F; value|= 0x00000FC0; value&=~0x0000003F; value&= 0xF803FFFF; value|= 0x04640000; write32( 0xD8001CC, value ); } else { value = read32( 0xD8001A8 ); value&= 0xFFFC003F; value|= 0x00000FC0; value&=~0x0000003F; value&= 0xF803FFFF; value|= 0x04640000; write32( 0xD8001A8, value ); } udelay(10); value = read32( 0xD8001D0 ); value&= 0xBFFFFFFF; value|= 0x40000000; write32( 0xD8001D0, value ); udelay(500); value = read32( 0xD8001D0 ); value&= 0x7FFFFFFF; value|= 0x80000000; write32( 0xD8001D0, value ); udelay(2); } void MIOSEHCISub( void ) { u32 v = read32( 0xD8001D8 ) & 0x7FFFFFFF; write32( 0xD8001D8, v ); udelay(2); write32( 0xD8001D8, v & 0xBFFFFFFF ); udelay(10); write32( 0xD8001D8, ( read32( 0xD8001D8 ) & 0xBFFFFFFF ) | 0x40000000 ); udelay(50); write32( 0xD8001D8, ( read32( 0xD8001D8 ) & 0x7FFFFFFF ) | 0x80000000 ); udelay(2); } char EHCIData[] = { 0x02, 0x00, 0x00, 0x00, 0x04, 0x00, 0x00, 0x00, 0x05, 0x0F, 0x00, 0x00, }; void MIOSEHCISub2( u32 A ) { if( A > 2 ) A = 2; A <<= 2; u32 R1 = *(u8*)(EHCIData+A); u32 R3 = *(u8*)(EHCIData+A+1); R1 &= 0xF; R3 &= 0xF; u32 R4 = R1 << 8; R3 = R3 << 0x17; R4 = R4 | R3; u32 R2 = R1 << 2; R2 = R2 + R1; R4 = R4 | 0x2014; R2 = R2 - 4; R2 = R2 & 0xFF; R2 = R2 << 8; R2 = R2 | 0x20000; write32( 0xD0400B4, R4 ); write32( 0xD0400B0, R2 ); } void MIOSEHCIInit( u32 A ) { write32( 0xD800088, 0xFE ); udelay(2); MIOSEHCISub(); write32( 0xD800088, 0xF6 ); udelay(50); write32( 0xD800088, 0xF4 ); udelay(1); write32( 0xD800088, 0xF0 ); udelay(1); write32( 0xD800088, 0x70 ); udelay(1); write32( 0xD800088, 0x60 ); udelay(1); write32( 0xD800088, 0x40 ); udelay(1); write32( 0xD800088, 0x00 ); udelay(1); MIOSEHCISub2( A ); if( A > 1 ) { write32( 0xD0400A4, 0x23 ); udelay(1); write32( 0xD0400A4, 0x2023 ); udelay(1); write32( 0xD0400A4, 0x4023 ); udelay(20); } else { write32( 0xD0400A4, 0x26 ); udelay(1); write32( 0xD0400A4, 0x2026 ); udelay(1); write32( 0xD0400A4, 0x4026 ); udelay(20); } write32( 0xD0400CC, 0x111 ); } void MIOSEHCIInit2( void ) { GetRevision( SP+1, SP ); if( SP[1] <= 1 ) { write32( 0xD8001E0, 0x65244A ); write32( 0xD8001E4, 0x46A024 ); return; } // dbgprintf("Unsupported CPU version!\n"); } void MIOSHWInit( u32 A, u32 B ) { GetRevision( SP+1, SP ); set32( HW_EXICTRL, 1 ); MIOSDoStuff( SP[1], SP[0] ); MIOSUnkInit(); MIOSEHCIInit( SP[1] ); set32( HW_RESETS, 0x7FDFBCF ); MIOSEHCIInit2(); } void UNKInit( u32 A, u32 B ) { u32 FlagA = (A << 24) >> 24; u32 FlagB = B << 24; if( FlagB == 0 ) { if( read32( 0xD8001D0 ) & (1<31) ) { if( read32( 0xD8001D0 ) & (1<30) ) return; } } u32 value = read32( HW_DIFLAGS ); if( FlagA ) { value &= 0xFFFFFEFF; } else { value &= 0xFFFFFEFF; value |= 0x100; } value &= ~0x80; write32( HW_DIFLAGS, value ); clear32( 0xD8001D0, 0x80000000 ); udelay(2); clear32( 0xD8001D0, 0x40000000 ); if( FlagA ) { value = read32( 0xD8001CC ); value&= 0xFFFC003F; value|= 0x00000FC0; value&=~0x0000003F; value&= 0xF803FFFF; value|= 0x04640000; write32( 0xD8001CC, value ); } else { clear32( 0xD8001D0, 0x10000000 ); value = read32( 0xD8001CC ); value&= 0xFFFC003F; value|= 0x0000FFC0; value&=~0x0000003F; value|= 0x0000000E; value&= 0xF803FFFF; value|= 0x04B00000; write32( 0xD8001CC, value ); } udelay(10); value = read32( 0xD8001D0 ); value&= 0xBFFFFFFF; value|= 0x40000000; write32( 0xD8001D0, value ); udelay(500); value = read32( 0xD8001D0 ); value&= 0x7FFFFFFF; value|= 0x80000000; write32( 0xD8001D0, value ); udelay(2); } void BootPPC( void ) { u32 BootCode[] = // 16 * 4 { 0x3C600000, 0x60633400, 0x7C7A03A6, 0x38600000, 0x7C7B03A6, 0x4C000064, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, } ; u32 cookie = read32(HW_EXICTRL); //Enable EXI set32( HW_EXICTRL, 1 ); //Upload BootCode int i; for( i=0; i < 16; ++i ) write32( 0xd806840 + i * 4, BootCode[i] ); u32 val = read32( 0xd806840 + 4 * 16 - 4 ); write32( HW_EXICTRL, cookie ); val = read32(HW_EXICTRL); } extern u8 *RAM; //void MEM2Switch( u32 A ) //{ // clear32( HW_RESETS, 0x48000 ); // clear32( 0xD800184, 0x428E ); // // if( A ) // { // // DRAMWrite( 0x10B, 7 ); // DRAMCTRLWrite( 0x15, 0 ); // DRAMCTRLWrite( 0x18, 1 ); // DRAMCTRLWrite( 0x19, 0 ); // DRAMCTRLWrite( 0x4A, 0x0E ); // DRAMCTRLWrite( 0x0F, 0x08 ); // DRAMCTRLWrite( 0x03, 0x0E ); // // DRAMCTRLWrite( 0x49, 1 ); // udelay(2); // // DRAMWrite( 0x113, 631 ); // // } else { // DRAMWrite( 0x10B, 7 ); // DRAMCTRLWrite( 0x15, 0x00 ); // DRAMCTRLWrite( 0x18, 0x00 ); // DRAMCTRLWrite( 0x19, 0x01 ); // DRAMCTRLWrite( 0x4A, 0x00 ); // DRAMCTRLWrite( 0x0F, 0x17 ); // DRAMCTRLWrite( 0x03, 0x00 ); // // DRAMCTRLWrite( 0x49, 0x00 ); // udelay(2); // // DRAMWrite( 0x113, 947 ); // } // set32( HW_RESETS, 0x48000 ); // set32( 0xD800184, 0x428E ); // // udelay(5000); // // //} void MEMInitLow( void ) { write32( 0x3118, 0x04000000 ); write32( 0x311C, 0x04000000 ); write32( 0x3124, 0x90000800 ); write32( 0x3128, 0x935E0000 ); write32( 0x3130, 0x935E0000 ); write32( 0x3138, 0x00000101 ); write32( 0x3140, 0x00000707 ); write32( 0x3144, 0x00082209 ); write32( 0x3158, 0xCAFEBABE ); write32( 0x3114, 0xDEADBEEF ); write32( 0x312C, 0xDEADBEEF ); write32( 0x313C, 0xDEADBEEF ); write32( 0x3148, 0xDEADBEEF ); write32( 0x314C, 0xDEADBEEF ); write32( 0x3154, 0xDEADBEEF ); write32( 0x3150, 0xDEADBEEF ); write32( 0x315C, 0xDEADBEEF ); write32( 0x3160, 0xDEADBEEF ); write32( 0x3100, 0x01800000 ); write32( 0x3104, 0x01800000 ); write32( 0x3108, 0x81800000 ); write32( 0x310C, 0x00000000 ); write32( 0x3110, 0x81800000 ); write32( 0x3120, 0x93600000 ); write32( 0x3134, 0x93600000 ); write32( 0x0028, 0x01800000 ); write32( 0x00F0, 0x01800000 ); write32( 0x0030, 0x00000000 ); write32( 0x0034, 0x81800000 ); write32( 0x00D0, 16*1024*1024 ); //Set ARAM size write16( 0x0D8B4200, 0x00000000 ); udelay(1); write32( 0x00000080, 0x09142001 ); //some date? 14th SEP 2001 clear32( HW_RESETS, 0x00048000 ); clear32( 0xD800184, 0x0000438E ); DRAMWrite( 0x10B, 7 ); DRAMCTRLWrite( 0x15, 0 ); DRAMCTRLWrite( 0x18, 1 ); DRAMCTRLWrite( 0x19, 0 ); DRAMCTRLWrite( 0x4A, 0x0E ); DRAMCTRLWrite( 0x0F, 0x08 ); DRAMCTRLWrite( 0x03, 0x0E ); //DRAMCTRLWrite( 0x49, 0x0E ); //udelay(2); //DRAMCTRLWrite( 0x49, 0x0F ); //udelay(2); DRAMWrite( 0x113, 631 ); set32( HW_RESETS, 0x00048000 ); set32( 0xD800184, 0x0000438E ); write32( 0x30F8, 0 ); ahb_flush_to( 1 ); //RegisterSet clear32( HW_RESETS, 0x48F200 ); udelay(1); u32 val = read32( HW_DIFLAGS ); val &= ~0x01; //val &= ~0x02; // also required to be changed //val &= ~0x04; //this disables bit 14 of the IRQ Flags val &= ~0x08; val |= 0x10; val |= 0x20; val &= 0xFFFFFEFF; val &= ~0x80; val &= 0xFFFFFDFF; val &= 0xFFFFFBFF; val &= 0xFFFFF7FF; val &= 0xFFFFDFFF; val &= 0xFFFFBFFF; val &= 0xFFFF7FFF; val &= 0xFFFEFFFF; val &= 0xFFFDFFFF; val &= 0xFFFBFFFF; write32( HW_DIFLAGS, val ); udelay(1); set32( HW_RESETS, 0x48F200 ); udelay(1); //SetUP GPIOs clear32( 0xD8000E0, 0xC120 ); set32( 0xD8000E0, read32( 0xD8000C0 ) ); write32( 0xD8000FC, 0 ); set32( 0xD8000E4, 0xFFDF3E ); EXIControl(1); BootPPC(); write32( HW_DIFLAGS, (read32(HW_DIFLAGS) & 0xFFEFFFFF) | 0x100000 ); EXIControl(0); write32( 0xD800034, 0x40000000 ); clear32( HW_RESETS, 0x10 | 0x20 ); udelay(15); set32( HW_RESETS, 0x20 ); udelay(150); set32( HW_RESETS, 0x10 ); udelay(200); set32( 0xD8000E0, 0xCE0000 ); udelay(200); while( read32( 0x30F8 ) == 0 ) ahb_flush_from(0); val = read32(HW_DIFLAGS); val |= 0x00000040; val &= ~0x00200000; val |= 0x00200000; val &= ~0x00400000; val |= 0x00400000; val &= ~0x00001000; write32( HW_DIFLAGS, val ); udelay(1); //write32( 0x30F8, 0 ); //ahb_flush_to(1); clear32( HW_DIFLAGS, 0x180000 ); }