/* $NetBSD: arm_pxa2x0.cpp,v 1.3 2010/04/06 16:20:28 nonaka Exp $ */ /*- * Copyright (c) 2008 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by UCHIYAMA Yasushi. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include /* * Intel XScale PXA 2x0 */ #define PAGE_SIZE 0x1000 #define DRAM_BANK_NUM 4 /* total 256MByte */ #define DRAM_BANK_SIZE 0x04000000 /* 64Mbyte */ #define DRAM_BANK0_START 0xa0000000 #define DRAM_BANK0_SIZE DRAM_BANK_SIZE #define DRAM_BANK1_START 0xa4000000 #define DRAM_BANK1_SIZE DRAM_BANK_SIZE #define DRAM_BANK2_START 0xa8000000 #define DRAM_BANK2_SIZE DRAM_BANK_SIZE #define DRAM_BANK3_START 0xac000000 #define DRAM_BANK3_SIZE DRAM_BANK_SIZE #define ZERO_BANK_START 0xe0000000 #define ZERO_BANK_SIZE DRAM_BANK_SIZE __BEGIN_DECLS // 2nd bootloader void boot_func_pxa2x0(kaddr_t, kaddr_t, kaddr_t, kaddr_t); extern char boot_func_end_pxa2x0[]; #define BOOT_FUNC_START reinterpret_cast (boot_func_pxa2x0) #define BOOT_FUNC_END reinterpret_cast (boot_func_end_pxa2x0) /* jump to 2nd loader */ void FlatJump_pxa2x0(kaddr_t, kaddr_t, kaddr_t, kaddr_t); __END_DECLS PXA2X0Architecture::PXA2X0Architecture(Console *&cons, MemoryManager *&mem) : ARMArchitecture(cons, mem) { DPRINTF((TEXT("PXA-2x0 CPU.\n"))); } PXA2X0Architecture::~PXA2X0Architecture(void) { } BOOL PXA2X0Architecture::init(void) { if (!_mem->init()) { DPRINTF((TEXT("can't initialize memory manager.\n"))); return FALSE; } // set D-RAM information _mem->loadBank(DRAM_BANK0_START, DRAM_BANK_SIZE); _mem->loadBank(DRAM_BANK1_START, DRAM_BANK_SIZE); _mem->loadBank(DRAM_BANK2_START, DRAM_BANK_SIZE); _mem->loadBank(DRAM_BANK3_START, DRAM_BANK_SIZE); // set D-cache information dcachesize = 32768 * 2; DPRINTF((TEXT("D-cache size = %d\n"), dcachesize)); #ifdef HW_TEST DPRINTF((TEXT("Testing framebuffer.\n"))); testFramebuffer(); DPRINTF((TEXT("Testing UART.\n"))); testUART(); #endif #ifdef REGDUMP DPRINTF((TEXT("Dump peripheral registers.\n"))); dumpPeripheralRegs(); #endif #ifdef CS0DUMP uint32_t dumpsize = 1024 * 1024; // 1MB DPRINTF((TEXT("Dump CS area (size = %d)\n"), dumpsize)); dumpCS0(dumpsize); #endif return TRUE; } void PXA2X0Architecture::testFramebuffer(void) { DPRINTF((TEXT("No framebuffer test yet.\n"))); } void PXA2X0Architecture::testUART(void) { #define COM_DATA VOLATILE_REF8(uart + 0x00) #define COM_IIR VOLATILE_REF8(uart + 0x08) #define COM_LSR VOLATILE_REF8(uart + 0x14) #define LSR_TXRDY 0x20 #define COM_TX_CHECK while (!(COM_LSR & LSR_TXRDY)) #define COM_PUTCHAR(c) (COM_DATA = (c)) #define COM_CLR_INTS ((void)COM_IIR) #define _(c) \ __BEGIN_MACRO \ COM_TX_CHECK; \ COM_PUTCHAR(c); \ COM_TX_CHECK; \ COM_CLR_INTS; \ __END_MACRO vaddr_t uart = _mem->mapPhysicalPage(0x40100000, 0x100, PAGE_READWRITE); // Don't turn on the enable-UART bit in the IER; this seems to // result in WinCE losing the port (and nothing working later). // All that should be taken care of by using WinCE to open the // port before we actually use it. _('H');_('e');_('l');_('l');_('o');_(' '); _('W');_('o');_('r');_('l');_('d');_('\r');_('\n'); _mem->unmapPhysicalPage(uart); } BOOL PXA2X0Architecture::setupLoader(void) { vaddr_t v; vsize_t sz = BOOT_FUNC_END - BOOT_FUNC_START; // check 2nd bootloader size. if (sz > _mem->getPageSize()) { DPRINTF((TEXT("2nd bootloader size(%dbyte) is larger than page size(%d).\n"), sz, _mem->getPageSize())); return FALSE; } // get physical mapped page and copy loader to there. // don't writeback D-cache here. make sure to writeback before jump. if (!_mem->getPage(v , _loader_addr)) { DPRINTF((TEXT("can't get page for 2nd loader.\n"))); return FALSE; } DPRINTF((TEXT("2nd bootloader vaddr=0x%08x paddr=0x%08x\n"), (unsigned)v,(unsigned)_loader_addr)); memcpy(reinterpret_cast (v), reinterpret_cast (BOOT_FUNC_START), sz); DPRINTF((TEXT("2nd bootloader copy done.\n"))); return TRUE; } void PXA2X0Architecture::jump(paddr_t info, paddr_t pvec) { kaddr_t sp; vaddr_t v; paddr_t p; // stack for bootloader _mem->getPage(v, p); sp = ptokv(p) + _mem->getPageSize(); DPRINTF((TEXT("sp for bootloader = %08x + %08x = %08x\n"), ptokv(p), _mem->getPageSize(), sp)); // writeback whole D-cache WritebackDCache(); SetKMode(1); FlatJump_pxa2x0(info, pvec, sp, _loader_addr); // NOTREACHED SetKMode(0); DPRINTF((TEXT("Return from FlatJump_pxa2x0.\n"))); } // // dump CS0 // void PXA2X0Architecture::dumpCS0(uint32_t size) { static char buf[0x1000]; vaddr_t mem; uint32_t addr; uint32_t off; HANDLE fh; unsigned long wrote; fh = CreateFile(TEXT("rom.bin"), GENERIC_WRITE, FILE_SHARE_READ, 0, OPEN_ALWAYS, FILE_ATTRIBUTE_NORMAL, 0); if (fh == INVALID_HANDLE_VALUE) { DPRINTF((TEXT("can't open file. (%s)\n"), TEXT("rom.bin"))); return; } for (addr = 0; addr < size; addr += 0x1000) { memset(buf, 0, sizeof(buf)); mem = _mem->mapPhysicalPage(addr, 0x1000, PAGE_READWRITE); for (off = 0; off < 0x1000; off++) { buf[off] = VOLATILE_REF8(mem + off); } _mem->unmapPhysicalPage(mem); WriteFile(fh, buf, 0x1000, &wrote, 0); } CloseHandle(fh); } // // dump peripheral registers. // #ifdef REGDUMP #define PXA250_GPIO_REG_NUM 3 #define PXA250_GPIO_NUM 96 #define PXA270_GPIO_REG_NUM 4 #define PXA270_GPIO_NUM 121 static const TCHAR *pxa270_gpioName[PXA270_GPIO_NUM][7] = { /*0*/ { TEXT("GPIO<0>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*1*/ { TEXT("GPIO<1>/nRESET_GPIO"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*2*/ { TEXT("SYS_EN5"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*3*/ { TEXT("GPIO<3>/PWR_SCL"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*4*/ { TEXT("GPIO<4>/PWR_SDA"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*5*/ { TEXT("PWR_CAP<0>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*6*/ { TEXT("PWR_CAP<1>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*7*/ { TEXT("PWR_CAP<2>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*8*/ { TEXT("PWR_CAP<3>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*9*/ { TEXT("GPIO<9>"),TEXT(""),TEXT(""),TEXT("FFCTS"),TEXT("HZ_CLK"),TEXT(""),TEXT("CHOUT<0>"), }, /*10*/ { TEXT("GPIO<10>"),TEXT("FFDCD"),TEXT(""),TEXT("USB_P3_57"),TEXT("HZ_CLK"),TEXT(""),TEXT("CHOUT<1>"), }, /*11*/ { TEXT("GPIO<11>"),TEXT("EXT_SYNC<0>"),TEXT("SSPRXD2"),TEXT("USB_P3_1"),TEXT("CHOUT<0>"),TEXT("PWM_OUT<2>"),TEXT("48_MHz"), }, /*12*/ { TEXT("GPIO<12>"),TEXT("EXT_SYNC<1>"),TEXT("CIF_DD<7>"),TEXT(""),TEXT("CHOUT<1>"),TEXT("PWM_OUT<3>"),TEXT("48_MHz"), }, /*13*/ { TEXT("GPIO<13>"),TEXT("CLK_EXT"),TEXT("KP_DKIN<7>"),TEXT("KP_MKIN<7>"),TEXT("SSPTXD2"),TEXT(""),TEXT(""), }, /*14*/ { TEXT("GPIO<14>"),TEXT("L_VSYNC"),TEXT("SSPSFRM2"),TEXT(""),TEXT(""),TEXT("SSPSFRM2"),TEXT("UCLK"), }, /*15*/ { TEXT("GPIO<15>"),TEXT(""),TEXT(""),TEXT(""),TEXT("nPCE<1>"),TEXT("nCS<1>"),TEXT(""), }, /*16*/ { TEXT("GPIO<16>"),TEXT("KP_MKIN<5>"),TEXT(""),TEXT(""),TEXT(""),TEXT("PWM_OUT<0>"),TEXT("FFTXD"), }, /*17*/ { TEXT("GPIO<17>"),TEXT("KP_MKIN<6>"),TEXT("CIF_DD<6>"),TEXT(""),TEXT(""),TEXT("PWM_OUT<1>"),TEXT(""), }, /*18*/ { TEXT("GPIO<18>"),TEXT("RDY"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*19*/ { TEXT("GPIO<19>"),TEXT("SSPSCLK2"),TEXT(""),TEXT("FFRXD"),TEXT("SSPSCLK2"),TEXT("L_CS"),TEXT("nURST"), }, /*20*/ { TEXT("GPIO<20>"),TEXT("DREQ<0>"),TEXT("MBREQ"),TEXT(""),TEXT("nSDCS<2>"),TEXT(""),TEXT(""), }, /*21*/ { TEXT("GPIO<21>"),TEXT(""),TEXT(""),TEXT(""),TEXT("nSDCS<3>"),TEXT("DVAL<0>"),TEXT("MBGNT"), }, /*22*/ { TEXT("GPIO<22>"),TEXT("SSPEXTCLK2"),TEXT("SSPSCLK2EN"),TEXT("SSPSCLK2"),TEXT("KP_MKOUT<7>"),TEXT("SSPSYSCLK2"),TEXT("SSPSCLK2"), }, /*23*/ { TEXT("GPIO<23>"),TEXT(""),TEXT("SSPSCLK"),TEXT(""),TEXT("CIF_MCLK"),TEXT("SSPSCLK"),TEXT(""), }, /*24*/ { TEXT("GPIO<24>"),TEXT("CIF_FV"),TEXT("SSPSFRM"),TEXT(""),TEXT("CIF_FV"),TEXT("SSPSFRM"),TEXT(""), }, /*25*/ { TEXT("GPIO<25>"),TEXT("CIF_LV"),TEXT(""),TEXT(""),TEXT("CIF_LV"),TEXT("SSPTXD"),TEXT(""), }, /*26*/ { TEXT("GPIO<26>"),TEXT("SSPRXD"),TEXT("CIF_PCLK"),TEXT("FFCTS"),TEXT(""),TEXT(""),TEXT(""), }, /*27*/ { TEXT("GPIO<27>"),TEXT("SSPEXTCLK"),TEXT("SSPSCLKEN"),TEXT("CIF_DD<0>"),TEXT("SSPSYSCLK"),TEXT(""),TEXT("FFRTS"), }, /*28*/ { TEXT("GPIO<28>"),TEXT("AC97_BITCLK"),TEXT("I2S_BITCLK"),TEXT("SSPSFRM"),TEXT("I2S_BITCLK"),TEXT(""),TEXT("SSPSFRM"), }, /*29*/ { TEXT("GPIO<29>"),TEXT("AC97_SDATA_IN_0"),TEXT("I2S_SDATA_IN"),TEXT("SSPSCLK"),TEXT("SSPRXD2"),TEXT(""),TEXT("SSPSCLK"), }, /*30*/ { TEXT("GPIO<30>"),TEXT(""),TEXT(""),TEXT(""),TEXT("I2S_SDATA_OUT"),TEXT("AC97_SDATA_OUT"),TEXT("USB_P3_2"), }, /*31*/ { TEXT("GPIO<31>"),TEXT(""),TEXT(""),TEXT(""),TEXT("I2S_SYNC"),TEXT("AC97_SYNC"),TEXT("USB_P3_6"), }, /*32*/ { TEXT("GPIO<32>"),TEXT(""),TEXT(""),TEXT(""),TEXT("MSSCLK"),TEXT("MMCLK"),TEXT(""), }, /*33*/ { TEXT("GPIO<33>"),TEXT("FFRXD"),TEXT("FFDSR"),TEXT(""),TEXT("DVAL<1>"),TEXT("nCS<5>"),TEXT("MBGNT"), }, /*34*/ { TEXT("GPIO<34>"),TEXT("FFRXD"),TEXT("KP_MKIN<3>"),TEXT("SSPSCLK3"),TEXT("USB_P2_2"),TEXT(""),TEXT("SSPSCLK3"), }, /*35*/ { TEXT("GPIO<35>"),TEXT("FFCTS"),TEXT("USB_P2_1"),TEXT("SSPSFRM3"),TEXT(""),TEXT("KP_MKOUT<6>"),TEXT("SSPTXD3"), }, /*36*/ { TEXT("GPIO<36>"),TEXT("FFDCD"),TEXT("SSPSCLK2"),TEXT("KP_MKIN<7>"),TEXT("USB_P2_4"),TEXT("SSPSCLK2"),TEXT(""), }, /*37*/ { TEXT("GPIO<37>"),TEXT("FFDSR"),TEXT("SSPSFRM2"),TEXT("KP_MKIN<3>"),TEXT("USB_P2_8"),TEXT("SSPSFRM2"),TEXT("FFTXD"), }, /*38*/ { TEXT("GPIO<38>"),TEXT("FFRI"),TEXT("KP_MKIN<4>"),TEXT("USB_P2_3"),TEXT("SSPTXD3"),TEXT("SSPTXD2"),TEXT("PWM_OUT<1>"), }, /*39*/ { TEXT("GPIO<39>"),TEXT("KP_MKIN<4>"),TEXT(""),TEXT("SSPSFRM3"),TEXT("USB_P2_6"),TEXT("FFTXD"),TEXT("SSPSFRM3"), }, /*40*/ { TEXT("GPIO<40>"),TEXT("SSPRXD2"),TEXT(""),TEXT("USB_P2_5"),TEXT("KP_MKOUT<6>"),TEXT("FFDTR"),TEXT("SSPSCLK3"), }, /*41*/ { TEXT("GPIO<41>"),TEXT("FFRXD"),TEXT("USB_P2_7"),TEXT("SSPRXD3"),TEXT("KP_MKOUT<7>"),TEXT("FFRTS"),TEXT(""), }, /*42*/ { TEXT("GPIO<42>"),TEXT("BTRXD"),TEXT("ICP_RXD"),TEXT(""),TEXT(""),TEXT(""),TEXT("CIF_MCLK"), }, /*43*/ { TEXT("GPIO<43>"),TEXT(""),TEXT(""),TEXT("CIF_FV"),TEXT("ICP_TXD"),TEXT("BTTXD"),TEXT("CIF_FV"), }, /*44*/ { TEXT("GPIO<44>"),TEXT("BTCTS"),TEXT(""),TEXT("CIF_LV"),TEXT(""),TEXT(""),TEXT("CIF_LV"), }, /*45*/ { TEXT("GPIO<45>"),TEXT(""),TEXT(""),TEXT("CIF_PCLK"),TEXT("AC97_SYSCLK"),TEXT("BTRTS"),TEXT("SSPSYSCLK3"), }, /*46*/ { TEXT("GPIO<46>"),TEXT("ICP_RXD"),TEXT("STD_RXD"),TEXT(""),TEXT(""),TEXT("PWM_OUT<2>"),TEXT(""), }, /*47*/ { TEXT("GPIO<47>"),TEXT("CIF_DD<0>"),TEXT(""),TEXT(""),TEXT("STD_TXD"),TEXT("ICP_TXD"),TEXT("PWM_OUT<3>"), }, /*48*/ { TEXT("GPIO<48>"),TEXT("CIF_DD<5>"),TEXT(""),TEXT(""),TEXT("BB_OB_DAT<1>"),TEXT("nPOE"),TEXT(""), }, /*49*/ { TEXT("GPIO<49>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT("nPWE"),TEXT(""), }, /*50*/ { TEXT("GPIO<50>"),TEXT("CIF_DD<3>"),TEXT(""),TEXT("SSPSCLK2"),TEXT("BB_OB_DAT<2>"),TEXT("nPIOR"),TEXT("SSPSCLK2"), }, /*51*/ { TEXT("GPIO<51>"),TEXT("CIF_DD<2>"),TEXT(""),TEXT(""),TEXT("BB_OB_DAT<3>"),TEXT("nPIOW"),TEXT(""), }, /*52*/ { TEXT("GPIO<52>"),TEXT("CIF_DD<4>"),TEXT("SSPSCLK3"),TEXT(""),TEXT("BB_OB_CLK"),TEXT("SSPSCLK3"),TEXT(""), }, /*53*/ { TEXT("GPIO<53>"),TEXT("FFRXD"),TEXT("USB_P2_3"),TEXT(""),TEXT("BB_OB_STB"),TEXT("CIF_MCLK"),TEXT("SSPSYSCLK"), }, /*54*/ { TEXT("GPIO<54>"),TEXT(""),TEXT("BB_OB_WAIT"),TEXT("CIF_PCLK"),TEXT(""),TEXT("nPCE<2>"),TEXT(""), }, /*55*/ { TEXT("GPIO<55>"),TEXT("CIF_DD<1>"),TEXT("BB_IB_DAT<1>"),TEXT(""),TEXT(""),TEXT("nPREG"),TEXT(""), }, /*56*/ { TEXT("GPIO<56>"),TEXT("nPWAIT"),TEXT("BB_IB_DAT<2>"),TEXT(""),TEXT("USB_P3_4"),TEXT(""),TEXT(""), }, /*57*/ { TEXT("GPIO<57>"),TEXT("nIOIS16"),TEXT("BB_IB_DAT<3>"),TEXT(""),TEXT(""),TEXT(""),TEXT("SSPTXD"), }, /*58*/ { TEXT("GPIO<58>"),TEXT(""),TEXT("LDD<0>"),TEXT(""),TEXT(""),TEXT("LDD<0>"),TEXT(""), }, /*59*/ { TEXT("GPIO<59>"),TEXT(""),TEXT("LDD<1>"),TEXT(""),TEXT(""),TEXT("LDD<1>"),TEXT(""), }, /*60*/ { TEXT("GPIO<60>"),TEXT(""),TEXT("LDD<2>"),TEXT(""),TEXT(""),TEXT("LDD<2>"),TEXT(""), }, /*61*/ { TEXT("GPIO<61>"),TEXT(""),TEXT("LDD<3>"),TEXT(""),TEXT(""),TEXT("LDD<3>"),TEXT(""), }, /*62*/ { TEXT("GPIO<62>"),TEXT(""),TEXT("LDD<4>"),TEXT(""),TEXT(""),TEXT("LDD<4>"),TEXT(""), }, /*63*/ { TEXT("GPIO<63>"),TEXT(""),TEXT("LDD<5>"),TEXT(""),TEXT(""),TEXT("LDD<5>"),TEXT(""), }, /*64*/ { TEXT("GPIO<64>"),TEXT(""),TEXT("LDD<6>"),TEXT(""),TEXT(""),TEXT("LDD<6>"),TEXT(""), }, /*65*/ { TEXT("GPIO<65>"),TEXT(""),TEXT("LDD<7>"),TEXT(""),TEXT(""),TEXT("LDD<7>"),TEXT(""), }, /*66*/ { TEXT("GPIO<66>"),TEXT(""),TEXT("LDD<8>"),TEXT(""),TEXT(""),TEXT("LDD<8>"),TEXT(""), }, /*67*/ { TEXT("GPIO<67>"),TEXT(""),TEXT("LDD<9>"),TEXT(""),TEXT(""),TEXT("LDD<9>"),TEXT(""), }, /*68*/ { TEXT("GPIO<68>"),TEXT(""),TEXT("LDD<10>"),TEXT(""),TEXT(""),TEXT("LDD<10>"),TEXT(""), }, /*69*/ { TEXT("GPIO<69>"),TEXT(""),TEXT("LDD<11>"),TEXT(""),TEXT(""),TEXT("LDD<11>"),TEXT(""), }, /*70*/ { TEXT("GPIO<70>"),TEXT(""),TEXT("LDD<12>"),TEXT(""),TEXT(""),TEXT("LDD<12>"),TEXT(""), }, /*71*/ { TEXT("GPIO<71>"),TEXT(""),TEXT("LDD<13>"),TEXT(""),TEXT(""),TEXT("LDD<13>"),TEXT(""), }, /*72*/ { TEXT("GPIO<72>"),TEXT(""),TEXT("LDD<14>"),TEXT(""),TEXT(""),TEXT("LDD<14>"),TEXT(""), }, /*73*/ { TEXT("GPIO<73>"),TEXT(""),TEXT("LDD<15>"),TEXT(""),TEXT(""),TEXT("LDD<15>"),TEXT(""), }, /*74*/ { TEXT("GPIO<74>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT("L_FCLK_RD"),TEXT(""), }, /*75*/ { TEXT("GPIO<75>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT("L_LCLK_A0"),TEXT(""), }, /*76*/ { TEXT("GPIO<76>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT("L_PCLK_WR"),TEXT(""), }, /*77*/ { TEXT("GPIO<77>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT("L_BIAS"),TEXT(""), }, /*78*/ { TEXT("GPIO<78>"),TEXT(""),TEXT(""),TEXT(""),TEXT("nPCE<2>"),TEXT("nCS<2>"),TEXT(""), }, /*79*/ { TEXT("GPIO<79>"),TEXT(""),TEXT(""),TEXT(""),TEXT("PSKTSEL"),TEXT("nCS<3>"),TEXT("PWM_OUT<2>"), }, /*80*/ { TEXT("GPIO<80>"),TEXT("DREQ<1>"),TEXT("MBREQ"),TEXT(""),TEXT(""),TEXT("nCS<4>"),TEXT("PWM_OUT<3>"), }, /*81*/ { TEXT("GPIO<81>"),TEXT(""),TEXT("CIF_DD<0>"),TEXT(""),TEXT("SSPTXD3"),TEXT("BB_OB_DAT<0>"),TEXT(""), }, /*82*/ { TEXT("GPIO<82>"),TEXT("SSPRXD3"),TEXT("BB_IB_DAT<0>"),TEXT("CIF_DD<5>"),TEXT(""),TEXT(""),TEXT("FFDTR"), }, /*83*/ { TEXT("GPIO<83>"),TEXT("SSPSFRM3"),TEXT("BB_IB_CLK"),TEXT("CIF_DD<4>"),TEXT("SSPSFRM3"),TEXT("FFTXD"),TEXT("FFRTS"), }, /*84*/ { TEXT("GPIO<84>"),TEXT("SSPCLK3"),TEXT("BB_IB_STB"),TEXT("CIF_FV"),TEXT("SSPCLK3"),TEXT(""),TEXT("CIF_FV"), }, /*85*/ { TEXT("GPIO<85>"),TEXT("FFRXD"),TEXT("DREQ<2>"),TEXT("CIF_LV"),TEXT("nPCE<1>"),TEXT("BB_IB_WAIT"),TEXT("CIF_LV"), }, /*86*/ { TEXT("GPIO<86>"),TEXT("SSPRXD2"),TEXT("LDD<16>"),TEXT("USB_P3_5"),TEXT("nPCE<1>"),TEXT("LDD<16>"),TEXT(""), }, /*87*/ { TEXT("GPIO<87>"),TEXT("nPCE<2>"),TEXT("LDD<17>"),TEXT("USB_P3_1"),TEXT("SSPTXD2"),TEXT("LDD<17>"),TEXT("SSPSFRM2"), }, /*88*/ { TEXT("GPIO<88>"),TEXT("USBHPWR<1>"),TEXT("SSPRXD2"),TEXT("SSPSFRM2"),TEXT(""),TEXT(""),TEXT("SSPSFRM2"), }, /*89*/ { TEXT("GPIO<89>"),TEXT("SSPRXD3"),TEXT(""),TEXT("FFRI"),TEXT("AC97_SYSCLK"),TEXT("USBHPEN<1>"),TEXT("SSPTXD2"), }, /*90*/ { TEXT("GPIO<90>"),TEXT("KP_MKIN<5>"),TEXT("USB_P3_5"),TEXT("CIF_DD<4>"),TEXT(""),TEXT("nURST"),TEXT(""), }, /*91*/ { TEXT("GPIO<91>"),TEXT("KP_MKIN<6>"),TEXT("USB_P3_1"),TEXT("CIF_DD<5>"),TEXT(""),TEXT("UCLK"),TEXT(""), }, /*92*/ { TEXT("GPIO<92>"),TEXT("MMDAT<0>"),TEXT(""),TEXT(""),TEXT("MMDAT<0>"),TEXT("MSBS"),TEXT(""), }, /*93*/ { TEXT("GPIO<93>"),TEXT("KP_DKIN<0>"),TEXT("CIF_DD<6>"),TEXT(""),TEXT("AC97_SDATA_OUT"),TEXT(""),TEXT(""), }, /*94*/ { TEXT("GPIO<94>"),TEXT("KP_DKIN<1>"),TEXT("CIF_DD<5>"),TEXT(""),TEXT("AC97_SYNC"),TEXT(""),TEXT(""), }, /*95*/ { TEXT("GPIO<95>"),TEXT("KP_DKIN<2>"),TEXT("CIF_DD<4>"),TEXT("KP_MKIN<6>"),TEXT("AC97_RESET_n"),TEXT(""),TEXT(""), }, /*96*/ { TEXT("GPIO<96>"),TEXT("KP_DKIN<3>"),TEXT("MBREQ"),TEXT("FFRXD"),TEXT(""),TEXT("DVAL<1>"),TEXT("KP_MKOUT<6>"), }, /*97*/ { TEXT("GPIO<97>"),TEXT("KP_DKIN<4>"),TEXT("DREQ<1>"),TEXT("KP_MKIN<3>"),TEXT(""),TEXT("MBGNT"),TEXT(""), }, /*98*/ { TEXT("GPIO<98>"),TEXT("KP_DKIN<5>"),TEXT("CIF_DD<0>"),TEXT("KP_MKIN<4>"),TEXT("AC97_SYSCLK"),TEXT(""),TEXT("FFRTS"), }, /*99*/ { TEXT("GPIO<99>"),TEXT("KP_DKIN<6>"),TEXT("AC97_SDATA_IN_1"),TEXT("KP_MKIN<5>"),TEXT(""),TEXT(""),TEXT("FFTXD"), }, /*100*/ { TEXT("GPIO<100>"),TEXT("KP_MKIN<0>"),TEXT("DREQ<2>"),TEXT("FFCTS"),TEXT(""),TEXT(""),TEXT(""), }, /*101*/ { TEXT("GPIO<101>"),TEXT("KP_MKIN<1>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*102*/ { TEXT("GPIO<102>"),TEXT("KP_MKIN<2>"),TEXT(""),TEXT("FFRXD"),TEXT("nPCE<1>"),TEXT(""),TEXT(""), }, /*103*/ { TEXT("GPIO<103>"),TEXT("CIF_DD<3>"),TEXT(""),TEXT(""),TEXT(""),TEXT("KP_MKOUT<0>"),TEXT(""), }, /*104*/ { TEXT("GPIO<104>"),TEXT("CIF_DD<2>"),TEXT(""),TEXT(""),TEXT("PSKTSEL"),TEXT("KP_MKOUT<1>"),TEXT(""), }, /*105*/ { TEXT("GPIO<105>"),TEXT("CIF_DD<1>"),TEXT(""),TEXT(""),TEXT("nPCE<2>"),TEXT("KP_MKOUT<2>"),TEXT(""), }, /*106*/ { TEXT("GPIO<106>"),TEXT("CIF_DD<9>"),TEXT(""),TEXT(""),TEXT(""),TEXT("KP_MKOUT<3>"),TEXT(""), }, /*107*/ { TEXT("GPIO<107>"),TEXT("CIF_DD<8>"),TEXT(""),TEXT(""),TEXT(""),TEXT("KP_MKOUT<4>"),TEXT(""), }, /*108*/ { TEXT("GPIO<108>"),TEXT("CIF_DD<7>"),TEXT(""),TEXT(""),TEXT("CHOUT<0>"),TEXT("KP_MKOUT<5>"),TEXT(""), }, /*109*/ { TEXT("GPIO<109>"),TEXT("MMDAT<1>"),TEXT("MSSDIO"),TEXT(""),TEXT("MMDAT<1>"),TEXT("MSSDIO"),TEXT(""), }, /*110*/ { TEXT("GPIO<110>"),TEXT("MMDAT<2>/MMCCS<0>"),TEXT(""),TEXT(""),TEXT("MMDAT<2>/MMCCS<0>"),TEXT(""),TEXT(""), }, /*111*/ { TEXT("GPIO<111>"),TEXT("MMDAT<3>/MMCCS<1>"),TEXT(""),TEXT(""),TEXT("MMDAT<3>/MMCCS<1>"),TEXT(""),TEXT(""), }, /*112*/ { TEXT("GPIO<112>"),TEXT("MMCMD"),TEXT("nMSINS"),TEXT(""),TEXT("MMCMD"),TEXT(""),TEXT(""), }, /*113*/ { TEXT("GPIO<113>"),TEXT(""),TEXT(""),TEXT("USB_P3_3"),TEXT("I2S_SYSCLK"),TEXT("AC97_RESET_n"),TEXT(""), }, /*114*/ { TEXT("GPIO<114>"),TEXT("CIF_DD<1>"),TEXT(""),TEXT(""),TEXT("UEN"),TEXT("UVS0"),TEXT(""), }, /*115*/ { TEXT("GPIO<115>"),TEXT("DREQ<0>"),TEXT("CIF_DD<3>"),TEXT("MBREQ"),TEXT("UEN"),TEXT("nUVS1"),TEXT("PWM_OUT<1>"), }, /*116*/ { TEXT("GPIO<116>"),TEXT("CIF_DD<2>"),TEXT("AC97_SDATA_IN_0"),TEXT("UDET"),TEXT("DVAL<0>"),TEXT("nUVS2"),TEXT("MBGNT"), }, /*117*/ { TEXT("GPIO<117>"),TEXT("SCL"),TEXT(""),TEXT(""),TEXT("SCL"),TEXT(""),TEXT(""), }, /*118*/ { TEXT("GPIO<118>"),TEXT("SDA"),TEXT(""),TEXT(""),TEXT("SDA"),TEXT(""),TEXT(""), }, /*119*/ { TEXT("GPIO<119>"),TEXT("USBHPWR<2>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, /*120*/ { TEXT("GPIO<120>"),TEXT("USBHPEN<2>"),TEXT(""),TEXT(""),TEXT(""),TEXT(""),TEXT(""), }, }; #endif void PXA2X0Architecture::dumpPeripheralRegs(void) { #ifdef REGDUMP uint32_t reg; bool first; int i, n; #define GPIO_OFFSET(r,o) ((r == 3) ? (o + 0x100) : (o + (r * 4))) // GPIO if (platid_match(&platid, &platid_mask_CPU_ARM_XSCALE_PXA270)) n = PXA270_GPIO_REG_NUM; else n = PXA250_GPIO_REG_NUM; vaddr_t gpio = _mem->mapPhysicalPage(0x40e00000, 0x1000, PAGE_READWRITE); DPRINTF((TEXT("Dump GPIO registers.\n"))); for (i = 0; i < n; i++) { reg = VOLATILE_REF(gpio + GPIO_OFFSET(i, 0x00)); DPRINTF((TEXT("GPLR%d: 0x%08x\n"), i, reg)); } for (i = 0; i < n; i++) { reg = VOLATILE_REF(gpio + GPIO_OFFSET(i, 0x0c)); DPRINTF((TEXT("GPDR%d: 0x%08x\n"), i, reg)); } #if 0 /* write-only register */ for (i = 0; i < n; i++) { reg = VOLATILE_REF(gpio + GPIO_OFFSET(i, 0x18)); DPRINTF((TEXT("GPSR%d: 0x%08x\n"), reg)); } for (i = 0; i < n; i++) { reg = VOLATILE_REF(gpio + GPIO_OFFSET(i, 0x24)); DPRINTF((TEXT("GPCR%d: 0x%08x\n"), reg)); } #endif for (i = 0; i < n; i++) { reg = VOLATILE_REF(gpio + GPIO_OFFSET(i, 0x30)); DPRINTF((TEXT("GRER%d: 0x%08x\n"), i, reg)); } for (i = 0; i < n; i++) { reg = VOLATILE_REF(gpio + GPIO_OFFSET(i, 0x3c)); DPRINTF((TEXT("GFER%d: 0x%08x\n"), i, reg)); } for (i = 0; i < n; i++) { reg = VOLATILE_REF(gpio + GPIO_OFFSET(i, 0x48)); DPRINTF((TEXT("GEDR%d: 0x%08x\n"), i, reg)); } for (i = 0; i < n; i++) { reg = VOLATILE_REF(gpio + 0x54 + (i * 8)); DPRINTF((TEXT("GAFR%d_L: 0x%08x\n"), i, reg)); reg = VOLATILE_REF(gpio + 0x58 + (i * 8)); DPRINTF((TEXT("GAFR%d_U: 0x%08x\n"), i, reg)); } // // display detail // if (!platid_match(&platid, &platid_mask_CPU_ARM_XSCALE_PXA270)) return; // header DPRINTF((TEXT("pin#,function,name,rising,falling,status\n"))); n = PXA270_GPIO_NUM; for (i = 0; i < n; i++) { const TCHAR *fn_name, *pin_name; uint32_t dir, altfn, redge, fedge, status; // pin function dir = VOLATILE_REF(gpio + GPIO_OFFSET(i, 0x0c)); dir = (dir >> (i % 32)) & 1; altfn = VOLATILE_REF(gpio + 0x54 + ((i / 16) * 4)); altfn = (altfn >> ((i % 16) * 2)) & 3; if (altfn == 0) { if (dir == 0) { fn_name = TEXT("GPIO_IN"); } else { fn_name = TEXT("GPIO_OUT"); } DPRINTF((TEXT("%d,%s,%s,"), i, fn_name, pxa270_gpioName[i][0])); } else { if (dir == 0) { fn_name = TEXT("IN"); pin_name = pxa270_gpioName[i][altfn]; } else { fn_name = TEXT("OUT"); pin_name = pxa270_gpioName[i][altfn+3]; } DPRINTF((TEXT("%d,ALT_FN_%d_%s,%s,"), i, altfn, fn_name, pin_name)); } // edge detect redge = VOLATILE_REF(gpio + GPIO_OFFSET(i, 0x30)); redge = (redge >> (i % 32)) & 1; fedge = VOLATILE_REF(gpio + GPIO_OFFSET(i, 0x3c)); fedge = (fedge >> (i % 32)) & 1; DPRINTF((TEXT("%s,%s,"), redge ? TEXT("enable") : TEXT("disable"), fedge ? TEXT("enable") : TEXT("disable"))); // status status = VOLATILE_REF(gpio + GPIO_OFFSET(i, 0x00)); status = (status >> (i % 32)) & 1; DPRINTF((TEXT("%s"), status ? TEXT("high") : TEXT("low"))); DPRINTF((TEXT("\n"))); } _mem->unmapPhysicalPage(gpio); // LCDC DPRINTF((TEXT("Dump LCDC registers.\n"))); vaddr_t lcdc = _mem->mapPhysicalPage(0x44000000, 0x1000, PAGE_READWRITE); reg = VOLATILE_REF(lcdc + 0x00); DPRINTF((TEXT("LCCR0: 0x%08x\n"), reg)); DPRINTF((TEXT("-> "))); first = true; if (reg & (1U << 26)) { DPRINTF((TEXT("%sLDDALT"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 25)) { DPRINTF((TEXT("%sOUC"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 22)) { DPRINTF((TEXT("%sLCDT"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 9)) { DPRINTF((TEXT("%sDPD"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 7)) { DPRINTF((TEXT("%sPAS"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 2)) { DPRINTF((TEXT("%sSDS"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 1)) { DPRINTF((TEXT("%sCMS"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 0)) { DPRINTF((TEXT("%sENB"), first ? TEXT("") : TEXT("/"))); first = false; } DPRINTF((TEXT("\n"))); DPRINTF((TEXT("-> PDD = 0x%02x\n"), (reg >> 12) & 0xff)); reg = VOLATILE_REF(lcdc + 0x04); DPRINTF((TEXT("LCCR1: 0x%08x\n"), reg)); DPRINTF((TEXT("-> BLW = 0x%02x, ELW = 0x%02x, HSW = 0x%02x, PPL = 0x%03x\n"), (reg >> 24) & 0xff, (reg >> 16) & 0xff, (reg >> 10) & 0x3f, reg & 0x3ff)); reg = VOLATILE_REF(lcdc + 0x08); DPRINTF((TEXT("LCCR2: 0x%08x\n"), reg)); DPRINTF((TEXT("-> BFW = 0x%02x, EFW = 0x%02x, VSW = 0x%02x, LPP = 0x%03x\n"), (reg >> 24) & 0xff, (reg >> 16) & 0xff, (reg >> 10) & 0x3f, reg & 0x3ff)); reg = VOLATILE_REF(lcdc + 0x0c); DPRINTF((TEXT("LCCR3: 0x%08x\n"), reg)); DPRINTF((TEXT("-> "))); first = true; if (reg & (1U << 27)) { DPRINTF((TEXT("%sDPC"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 23)) { DPRINTF((TEXT("%sOEP"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 22)) { DPRINTF((TEXT("%sPCP"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 21)) { DPRINTF((TEXT("%sHSP"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 20)) { DPRINTF((TEXT("%sVSP"), first ? TEXT("") : TEXT("/"))); first = false; } if (reg & (1U << 19)) { DPRINTF((TEXT("%sVSP"), first ? TEXT("") : TEXT("/"))); first = false; } DPRINTF((TEXT("\n"))); DPRINTF((TEXT("-> PDFOR = %d\n"), (reg >> 30) & 3)); DPRINTF((TEXT("-> BPP = 0x%02x\n"), ((reg >> 29) & 1 << 3) | ((reg >> 24) & 7))); DPRINTF((TEXT("-> API = 0x%x\n"), (reg >> 16) & 0xf)); DPRINTF((TEXT("-> ACB = 0x%02x\n"), (reg >> 8) & 0xff)); DPRINTF((TEXT("-> PCD = 0x%02x\n"), reg & 0xff)); reg = VOLATILE_REF(lcdc + 0x10); DPRINTF((TEXT("LCCR4: 0x%08x\n"), reg)); DPRINTF((TEXT("-> PCDDIV = %d\n"), (reg >> 31) & 1)); DPRINTF((TEXT("-> PAL_FOR = %d\n"), (reg >> 15) & 3)); DPRINTF((TEXT("-> K3 = 0x%x, K2 = 0x%x, K1 = 0x%x\n"), (reg >> 6) & 7, (reg >> 3) & 7, reg & 7)); reg = VOLATILE_REF(lcdc + 0x14); DPRINTF((TEXT("LCCR5: 0x%08x\n"), reg)); reg = VOLATILE_REF(lcdc + 0x54); DPRINTF((TEXT("LCDBSCNTR: 0x%08x\n"), reg)); _mem->unmapPhysicalPage(lcdc); #endif }