/* Simulator for Analog Devices Blackfin processors. Copyright (C) 2005-2011 Free Software Foundation, Inc. Contributed by Analog Devices, Inc. This file is part of simulators. 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 3 of the License, or (at your option) any later version. This program 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 this program. If not, see . */ #include "config.h" #include "sim-main.h" #include "gdb/sim-bfin.h" #include "bfd.h" #include "sim-hw.h" #include "devices.h" #include "dv-bfin_cec.h" #include "dv-bfin_ctimer.h" #include "dv-bfin_dma.h" #include "dv-bfin_dmac.h" #include "dv-bfin_ebiu_amc.h" #include "dv-bfin_ebiu_ddrc.h" #include "dv-bfin_ebiu_sdc.h" #include "dv-bfin_emac.h" #include "dv-bfin_eppi.h" #include "dv-bfin_evt.h" #include "dv-bfin_gpio.h" #include "dv-bfin_gptimer.h" #include "dv-bfin_jtag.h" #include "dv-bfin_mmu.h" #include "dv-bfin_nfc.h" #include "dv-bfin_otp.h" #include "dv-bfin_pll.h" #include "dv-bfin_ppi.h" #include "dv-bfin_rtc.h" #include "dv-bfin_sic.h" #include "dv-bfin_spi.h" #include "dv-bfin_trace.h" #include "dv-bfin_twi.h" #include "dv-bfin_uart.h" #include "dv-bfin_uart2.h" #include "dv-bfin_wdog.h" #include "dv-bfin_wp.h" static const MACH bfin_mach; struct bfin_memory_layout { address_word addr, len; unsigned mask; /* see mapmask in sim_core_attach() */ }; struct bfin_dev_layout { address_word base, len; unsigned int dmac; const char *dev; }; struct bfin_dmac_layout { address_word base; unsigned int dma_count; }; struct bfin_model_data { bu32 chipid; int model_num; const struct bfin_memory_layout *mem; size_t mem_count; const struct bfin_dev_layout *dev; size_t dev_count; const struct bfin_dmac_layout *dmac; size_t dmac_count; }; #define LAYOUT(_addr, _len, _mask) { .addr = _addr, .len = _len, .mask = access_##_mask, } #define _DEVICE(_base, _len, _dev, _dmac) { .base = _base, .len = _len, .dev = _dev, .dmac = _dmac, } #define DEVICE(_base, _len, _dev) _DEVICE(_base, _len, _dev, 0) /* [1] Common sim code can't model exec-only memory. http://sourceware.org/ml/gdb/2010-02/msg00047.html */ #define bf000_chipid 0 static const struct bfin_memory_layout bf000_mem[] = {}; static const struct bfin_dev_layout bf000_dev[] = {}; static const struct bfin_dmac_layout bf000_dmac[] = {}; #define bf50x_chipid 0x2800 #define bf504_chipid bf50x_chipid #define bf506_chipid bf50x_chipid static const struct bfin_memory_layout bf50x_mem[] = { LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFFC03200, 0x50, read_write), /* PORT_MUX stub */ LAYOUT (0xFFC03800, 0x100, read_write), /* RSI stub */ LAYOUT (0xFFC0328C, 0xC, read_write), /* Flash stub */ LAYOUT (0xFF800000, 0x4000, read_write), /* Data A */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFFA00000, 0x4000, read_write_exec), /* Inst A [1] */ LAYOUT (0xFFA04000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; #define bf504_mem bf50x_mem #define bf506_mem bf50x_mem static const struct bfin_dev_layout bf50x_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00400, BFIN_MMR_UART2_SIZE, "bfin_uart2@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC00630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@3"), DEVICE (0xFFC00640, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@4"), DEVICE (0xFFC00650, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@5"), DEVICE (0xFFC00660, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@6"), DEVICE (0xFFC00670, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@7"), DEVICE (0xFFC00700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@5"), DEVICE (0xFFC00A00, BF50X_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC01000, BFIN_MMR_PPI_SIZE, "bfin_ppi@0"), DEVICE (0xFFC01400, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC01500, BFIN_MMR_GPIO_SIZE, "bfin_gpio@6"), DEVICE (0xFFC01700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@7"), DEVICE (0xFFC02000, BFIN_MMR_UART2_SIZE, "bfin_uart2@1"), DEVICE (0xFFC03400, BFIN_MMR_SPI_SIZE, "bfin_spi@1"), }; #define bf504_dev bf50x_dev #define bf506_dev bf50x_dev static const struct bfin_dmac_layout bf50x_dmac[] = { { BFIN_MMR_DMAC0_BASE, 12, }, }; #define bf504_dmac bf50x_dmac #define bf506_dmac bf50x_dmac #define bf51x_chipid 0x27e8 #define bf512_chipid bf51x_chipid #define bf514_chipid bf51x_chipid #define bf516_chipid bf51x_chipid #define bf518_chipid bf51x_chipid static const struct bfin_memory_layout bf51x_mem[] = { LAYOUT (0xFFC00680, 0xC, read_write), /* TIMER stub */ LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFFC03200, 0x50, read_write), /* PORT_MUX stub */ LAYOUT (0xFFC03800, 0xD0, read_write), /* RSI stub */ LAYOUT (0xFFC03FE0, 0x20, read_write), /* RSI peripheral stub */ LAYOUT (0xFF800000, 0x4000, read_write), /* Data A */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFF900000, 0x4000, read_write), /* Data B */ LAYOUT (0xFF904000, 0x4000, read_write), /* Data B Cache */ LAYOUT (0xFFA00000, 0x8000, read_write_exec), /* Inst A [1] */ LAYOUT (0xFFA10000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; #define bf512_mem bf51x_mem #define bf514_mem bf51x_mem #define bf516_mem bf51x_mem #define bf518_mem bf51x_mem static const struct bfin_dev_layout bf512_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00300, BFIN_MMR_RTC_SIZE, "bfin_rtc"), DEVICE (0xFFC00400, BFIN_MMR_UART_SIZE, "bfin_uart@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC00630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@3"), DEVICE (0xFFC00640, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@4"), DEVICE (0xFFC00650, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@5"), DEVICE (0xFFC00660, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@6"), DEVICE (0xFFC00670, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@7"), DEVICE (0xFFC00700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@5"), DEVICE (0xFFC00A00, BFIN_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A10, BFIN_MMR_EBIU_SDC_SIZE, "bfin_ebiu_sdc"), DEVICE (0xFFC01000, BFIN_MMR_PPI_SIZE, "bfin_ppi@0"), DEVICE (0xFFC01400, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC01500, BFIN_MMR_GPIO_SIZE, "bfin_gpio@6"), DEVICE (0xFFC01700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@7"), DEVICE (0xFFC02000, BFIN_MMR_UART_SIZE, "bfin_uart@1"), DEVICE (0xFFC03400, BFIN_MMR_SPI_SIZE, "bfin_spi@1"), DEVICE (0xFFC03600, BFIN_MMR_OTP_SIZE, "bfin_otp"), }; #define bf514_dev bf512_dev static const struct bfin_dev_layout bf516_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00300, BFIN_MMR_RTC_SIZE, "bfin_rtc"), DEVICE (0xFFC00400, BFIN_MMR_UART_SIZE, "bfin_uart@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC00630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@3"), DEVICE (0xFFC00640, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@4"), DEVICE (0xFFC00650, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@5"), DEVICE (0xFFC00660, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@6"), DEVICE (0xFFC00670, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@7"), DEVICE (0xFFC00700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@5"), DEVICE (0xFFC00A00, BFIN_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A10, BFIN_MMR_EBIU_SDC_SIZE, "bfin_ebiu_sdc"), DEVICE (0xFFC01000, BFIN_MMR_PPI_SIZE, "bfin_ppi@0"), DEVICE (0xFFC01400, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC01500, BFIN_MMR_GPIO_SIZE, "bfin_gpio@6"), DEVICE (0xFFC01700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@7"), DEVICE (0xFFC02000, BFIN_MMR_UART_SIZE, "bfin_uart@1"), DEVICE (0xFFC03000, BFIN_MMR_EMAC_SIZE, "bfin_emac"), DEVICE (0, 0x20, "bfin_emac/eth_phy"), DEVICE (0xFFC03400, BFIN_MMR_SPI_SIZE, "bfin_spi@1"), DEVICE (0xFFC03600, BFIN_MMR_OTP_SIZE, "bfin_otp"), }; #define bf518_dev bf516_dev #define bf512_dmac bf50x_dmac #define bf514_dmac bf50x_dmac #define bf516_dmac bf50x_dmac #define bf518_dmac bf50x_dmac #define bf522_chipid 0x27e4 #define bf523_chipid 0x27e0 #define bf524_chipid bf522_chipid #define bf525_chipid bf523_chipid #define bf526_chipid bf522_chipid #define bf527_chipid bf523_chipid static const struct bfin_memory_layout bf52x_mem[] = { LAYOUT (0xFFC00680, 0xC, read_write), /* TIMER stub */ LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFFC03200, 0x50, read_write), /* PORT_MUX stub */ LAYOUT (0xFFC03800, 0x500, read_write), /* MUSB stub */ LAYOUT (0xFF800000, 0x4000, read_write), /* Data A */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFF900000, 0x4000, read_write), /* Data B */ LAYOUT (0xFF904000, 0x4000, read_write), /* Data B Cache */ LAYOUT (0xFFA00000, 0x8000, read_write_exec), /* Inst A [1] */ LAYOUT (0xFFA08000, 0x4000, read_write_exec), /* Inst B [1] */ LAYOUT (0xFFA10000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; #define bf522_mem bf52x_mem #define bf523_mem bf52x_mem #define bf524_mem bf52x_mem #define bf525_mem bf52x_mem #define bf526_mem bf52x_mem #define bf527_mem bf52x_mem static const struct bfin_dev_layout bf522_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00300, BFIN_MMR_RTC_SIZE, "bfin_rtc"), DEVICE (0xFFC00400, BFIN_MMR_UART_SIZE, "bfin_uart@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC00630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@3"), DEVICE (0xFFC00640, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@4"), DEVICE (0xFFC00650, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@5"), DEVICE (0xFFC00660, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@6"), DEVICE (0xFFC00670, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@7"), DEVICE (0xFFC00700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@5"), DEVICE (0xFFC00A00, BFIN_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A10, BFIN_MMR_EBIU_SDC_SIZE, "bfin_ebiu_sdc"), DEVICE (0xFFC01000, BFIN_MMR_PPI_SIZE, "bfin_ppi@0"), DEVICE (0xFFC01400, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC01500, BFIN_MMR_GPIO_SIZE, "bfin_gpio@6"), DEVICE (0xFFC01700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@7"), DEVICE (0xFFC02000, BFIN_MMR_UART_SIZE, "bfin_uart@1"), DEVICE (0xFFC03600, BFIN_MMR_OTP_SIZE, "bfin_otp"), DEVICE (0xFFC03700, BFIN_MMR_NFC_SIZE, "bfin_nfc"), }; #define bf523_dev bf522_dev #define bf524_dev bf522_dev #define bf525_dev bf522_dev static const struct bfin_dev_layout bf526_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00300, BFIN_MMR_RTC_SIZE, "bfin_rtc"), DEVICE (0xFFC00400, BFIN_MMR_UART_SIZE, "bfin_uart@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC00630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@3"), DEVICE (0xFFC00640, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@4"), DEVICE (0xFFC00650, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@5"), DEVICE (0xFFC00660, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@6"), DEVICE (0xFFC00670, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@7"), DEVICE (0xFFC00700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@5"), DEVICE (0xFFC00A00, BFIN_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A10, BFIN_MMR_EBIU_SDC_SIZE, "bfin_ebiu_sdc"), DEVICE (0xFFC01000, BFIN_MMR_PPI_SIZE, "bfin_ppi@0"), DEVICE (0xFFC01400, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC01500, BFIN_MMR_GPIO_SIZE, "bfin_gpio@6"), DEVICE (0xFFC01700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@7"), DEVICE (0xFFC02000, BFIN_MMR_UART_SIZE, "bfin_uart@1"), DEVICE (0xFFC03000, BFIN_MMR_EMAC_SIZE, "bfin_emac"), DEVICE (0, 0x20, "bfin_emac/eth_phy"), DEVICE (0xFFC03600, BFIN_MMR_OTP_SIZE, "bfin_otp"), DEVICE (0xFFC03700, BFIN_MMR_NFC_SIZE, "bfin_nfc"), }; #define bf527_dev bf526_dev #define bf522_dmac bf50x_dmac #define bf523_dmac bf50x_dmac #define bf524_dmac bf50x_dmac #define bf525_dmac bf50x_dmac #define bf526_dmac bf50x_dmac #define bf527_dmac bf50x_dmac #define bf531_chipid 0x27a5 #define bf532_chipid bf531_chipid #define bf533_chipid bf531_chipid static const struct bfin_memory_layout bf531_mem[] = { LAYOUT (0xFFC00640, 0xC, read_write), /* TIMER stub */ LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFFA08000, 0x4000, read_write_exec), /* Inst B [1] */ LAYOUT (0xFFA10000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; static const struct bfin_memory_layout bf532_mem[] = { LAYOUT (0xFFC00640, 0xC, read_write), /* TIMER stub */ LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFF904000, 0x4000, read_write), /* Data B Cache */ LAYOUT (0xFFA08000, 0x4000, read_write_exec), /* Inst B [1] */ LAYOUT (0xFFA0C000, 0x4000, read_write_exec), /* Inst C [1] */ LAYOUT (0xFFA10000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; static const struct bfin_memory_layout bf533_mem[] = { LAYOUT (0xFFC00640, 0xC, read_write), /* TIMER stub */ LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFF800000, 0x4000, read_write), /* Data A */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFF900000, 0x4000, read_write), /* Data B */ LAYOUT (0xFF904000, 0x4000, read_write), /* Data B Cache */ LAYOUT (0xFFA00000, 0x8000, read_write_exec), /* Inst A [1] */ LAYOUT (0xFFA08000, 0x4000, read_write_exec), /* Inst B [1] */ LAYOUT (0xFFA0C000, 0x4000, read_write_exec), /* Inst C [1] */ LAYOUT (0xFFA10000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; static const struct bfin_dev_layout bf533_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00300, BFIN_MMR_RTC_SIZE, "bfin_rtc"), DEVICE (0xFFC00400, BFIN_MMR_UART_SIZE, "bfin_uart@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC00700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@5"), DEVICE (0xFFC00A00, BFIN_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A10, BFIN_MMR_EBIU_SDC_SIZE, "bfin_ebiu_sdc"), DEVICE (0xFFC01000, BFIN_MMR_PPI_SIZE, "bfin_ppi@0"), }; #define bf531_dev bf533_dev #define bf532_dev bf533_dev static const struct bfin_dmac_layout bf533_dmac[] = { { BFIN_MMR_DMAC0_BASE, 8, }, }; #define bf531_dmac bf533_dmac #define bf532_dmac bf533_dmac #define bf534_chipid 0x27c6 #define bf536_chipid 0x27c8 #define bf537_chipid bf536_chipid static const struct bfin_memory_layout bf534_mem[] = { LAYOUT (0xFFC00680, 0xC, read_write), /* TIMER stub */ LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFFC03200, 0x10, read_write), /* PORT_MUX stub */ LAYOUT (0xFF800000, 0x4000, read_write), /* Data A */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFF900000, 0x4000, read_write), /* Data B */ LAYOUT (0xFF904000, 0x4000, read_write), /* Data B Cache */ LAYOUT (0xFFA00000, 0x8000, read_write_exec), /* Inst A [1] */ LAYOUT (0xFFA08000, 0x4000, read_write_exec), /* Inst B [1] */ LAYOUT (0xFFA10000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; static const struct bfin_memory_layout bf536_mem[] = { LAYOUT (0xFFC00680, 0xC, read_write), /* TIMER stub */ LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFFC03200, 0x10, read_write), /* PORT_MUX stub */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFF904000, 0x4000, read_write), /* Data B Cache */ LAYOUT (0xFFA00000, 0x8000, read_write_exec), /* Inst A [1] */ LAYOUT (0xFFA08000, 0x4000, read_write_exec), /* Inst B [1] */ LAYOUT (0xFFA10000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; static const struct bfin_memory_layout bf537_mem[] = { LAYOUT (0xFFC00680, 0xC, read_write), /* TIMER stub */ LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFFC03200, 0x10, read_write), /* PORT_MUX stub */ LAYOUT (0xFF800000, 0x4000, read_write), /* Data A */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFF900000, 0x4000, read_write), /* Data B */ LAYOUT (0xFF904000, 0x4000, read_write), /* Data B Cache */ LAYOUT (0xFFA00000, 0x8000, read_write_exec), /* Inst A [1] */ LAYOUT (0xFFA08000, 0x4000, read_write_exec), /* Inst B [1] */ LAYOUT (0xFFA10000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; static const struct bfin_dev_layout bf534_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00300, BFIN_MMR_RTC_SIZE, "bfin_rtc"), DEVICE (0xFFC00400, BFIN_MMR_UART_SIZE, "bfin_uart@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC00630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@3"), DEVICE (0xFFC00640, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@4"), DEVICE (0xFFC00650, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@5"), DEVICE (0xFFC00660, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@6"), DEVICE (0xFFC00670, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@7"), DEVICE (0xFFC00700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@5"), DEVICE (0xFFC00A00, BFIN_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A10, BFIN_MMR_EBIU_SDC_SIZE, "bfin_ebiu_sdc"), DEVICE (0xFFC01000, BFIN_MMR_PPI_SIZE, "bfin_ppi@0"), DEVICE (0xFFC01400, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC01500, BFIN_MMR_GPIO_SIZE, "bfin_gpio@6"), DEVICE (0xFFC01700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@7"), DEVICE (0xFFC02000, BFIN_MMR_UART_SIZE, "bfin_uart@1"), }; static const struct bfin_dev_layout bf537_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00300, BFIN_MMR_RTC_SIZE, "bfin_rtc"), DEVICE (0xFFC00400, BFIN_MMR_UART_SIZE, "bfin_uart@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC00630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@3"), DEVICE (0xFFC00640, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@4"), DEVICE (0xFFC00650, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@5"), DEVICE (0xFFC00660, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@6"), DEVICE (0xFFC00670, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@7"), DEVICE (0xFFC00700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@5"), DEVICE (0xFFC00A00, BFIN_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A10, BFIN_MMR_EBIU_SDC_SIZE, "bfin_ebiu_sdc"), DEVICE (0xFFC01000, BFIN_MMR_PPI_SIZE, "bfin_ppi@0"), DEVICE (0xFFC01400, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC01500, BFIN_MMR_GPIO_SIZE, "bfin_gpio@6"), DEVICE (0xFFC01700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@7"), DEVICE (0xFFC02000, BFIN_MMR_UART_SIZE, "bfin_uart@1"), DEVICE (0xFFC03000, BFIN_MMR_EMAC_SIZE, "bfin_emac"), DEVICE (0, 0x20, "bfin_emac/eth_phy"), }; #define bf536_dev bf537_dev #define bf534_dmac bf50x_dmac #define bf536_dmac bf50x_dmac #define bf537_dmac bf50x_dmac #define bf538_chipid 0x27c4 #define bf539_chipid bf538_chipid static const struct bfin_memory_layout bf538_mem[] = { LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFFC01500, 0x70, read_write), /* PORTC/D/E stub */ LAYOUT (0xFFC02500, 0x60, read_write), /* SPORT2 stub */ LAYOUT (0xFFC02600, 0x60, read_write), /* SPORT3 stub */ LAYOUT (0xFF800000, 0x4000, read_write), /* Data A */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFF900000, 0x4000, read_write), /* Data B */ LAYOUT (0xFF904000, 0x4000, read_write), /* Data B Cache */ LAYOUT (0xFFA00000, 0x8000, read_write_exec), /* Inst A [1] */ LAYOUT (0xFFA08000, 0x4000, read_write_exec), /* Inst B [1] */ LAYOUT (0xFFA0C000, 0x4000, read_write_exec), /* Inst C [1] */ LAYOUT (0xFFA10000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; #define bf539_mem bf538_mem static const struct bfin_dev_layout bf538_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00300, BFIN_MMR_RTC_SIZE, "bfin_rtc"), DEVICE (0xFFC00400, BFIN_MMR_UART_SIZE, "bfin_uart@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC00A00, BFIN_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A10, BFIN_MMR_EBIU_SDC_SIZE, "bfin_ebiu_sdc"), DEVICE (0xFFC01000, BFIN_MMR_PPI_SIZE, "bfin_ppi@0"), DEVICE (0xFFC01400, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC00700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@5"), _DEVICE (0xFFC02000, BFIN_MMR_UART_SIZE, "bfin_uart@1", 1), _DEVICE (0xFFC02100, BFIN_MMR_UART_SIZE, "bfin_uart@2", 1), DEVICE (0xFFC02200, BFIN_MMR_TWI_SIZE, "bfin_twi@1"), _DEVICE (0xFFC02300, BFIN_MMR_SPI_SIZE, "bfin_spi@1", 1), _DEVICE (0xFFC02400, BFIN_MMR_SPI_SIZE, "bfin_spi@2", 1), }; #define bf539_dev bf538_dev static const struct bfin_dmac_layout bf538_dmac[] = { { BFIN_MMR_DMAC0_BASE, 8, }, { BFIN_MMR_DMAC1_BASE, 12, }, }; #define bf539_dmac bf538_dmac #define bf54x_chipid 0x27de #define bf542_chipid bf54x_chipid #define bf544_chipid bf54x_chipid #define bf547_chipid bf54x_chipid #define bf548_chipid bf54x_chipid #define bf549_chipid bf54x_chipid static const struct bfin_memory_layout bf54x_mem[] = { LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub XXX: not on BF542/4 */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFFC01400, 0x200, read_write), /* PORT/GPIO stub */ LAYOUT (0xFFC02500, 0x60, read_write), /* SPORT2 stub */ LAYOUT (0xFFC02600, 0x60, read_write), /* SPORT3 stub */ LAYOUT (0xFFC03800, 0x70, read_write), /* ATAPI stub */ LAYOUT (0xFFC03900, 0x100, read_write), /* RSI stub */ LAYOUT (0xFFC03C00, 0x500, read_write), /* MUSB stub */ LAYOUT (0xFEB00000, 0x20000, read_write_exec), /* L2 */ LAYOUT (0xFF800000, 0x4000, read_write), /* Data A */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFF900000, 0x4000, read_write), /* Data B */ LAYOUT (0xFF904000, 0x4000, read_write), /* Data B Cache */ LAYOUT (0xFFA00000, 0x8000, read_write_exec), /* Inst A [1] */ LAYOUT (0xFFA08000, 0x4000, read_write_exec), /* Inst B [1] */ LAYOUT (0xFFA10000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; #define bf542_mem bf54x_mem #define bf544_mem bf54x_mem #define bf547_mem bf54x_mem #define bf548_mem bf54x_mem #define bf549_mem bf54x_mem static const struct bfin_dev_layout bf542_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00300, BFIN_MMR_RTC_SIZE, "bfin_rtc"), DEVICE (0xFFC00400, BFIN_MMR_UART2_SIZE, "bfin_uart2@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00700, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC00A00, BF54X_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A20, BFIN_MMR_EBIU_DDRC_SIZE, "bfin_ebiu_ddrc"), _DEVICE (0xFFC01300, BFIN_MMR_EPPI_SIZE, "bfin_eppi@1", 1), DEVICE (0xFFC01600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC01610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC01620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC01630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@3"), DEVICE (0xFFC01640, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@4"), DEVICE (0xFFC01650, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@5"), DEVICE (0xFFC01660, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@6"), DEVICE (0xFFC01670, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@7"), DEVICE (0xFFC02000, BFIN_MMR_UART2_SIZE, "bfin_uart2@1"), _DEVICE (0xFFC02100, BFIN_MMR_UART2_SIZE, "bfin_uart2@2", 1), DEVICE (0xFFC02300, BFIN_MMR_SPI_SIZE, "bfin_spi@1"), _DEVICE (0xFFC02900, BFIN_MMR_EPPI_SIZE, "bfin_eppi@2", 1), _DEVICE (0xFFC03100, BFIN_MMR_UART2_SIZE, "bfin_uart2@3", 1), DEVICE (0xFFC03B00, BFIN_MMR_NFC_SIZE, "bfin_nfc"), DEVICE (0xFFC04300, BFIN_MMR_OTP_SIZE, "bfin_otp"), }; static const struct bfin_dev_layout bf544_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00300, BFIN_MMR_RTC_SIZE, "bfin_rtc"), DEVICE (0xFFC00400, BFIN_MMR_UART2_SIZE, "bfin_uart2@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@8"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@9"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@10"), DEVICE (0xFFC00700, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC00A00, BF54X_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A20, BFIN_MMR_EBIU_DDRC_SIZE, "bfin_ebiu_ddrc"), _DEVICE (0xFFC01000, BFIN_MMR_EPPI_SIZE, "bfin_eppi@0", 1), _DEVICE (0xFFC01300, BFIN_MMR_EPPI_SIZE, "bfin_eppi@1", 1), DEVICE (0xFFC01600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC01610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC01620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC01630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@3"), DEVICE (0xFFC01640, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@4"), DEVICE (0xFFC01650, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@5"), DEVICE (0xFFC01660, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@6"), DEVICE (0xFFC01670, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@7"), DEVICE (0xFFC02000, BFIN_MMR_UART2_SIZE, "bfin_uart2@1"), _DEVICE (0xFFC02100, BFIN_MMR_UART2_SIZE, "bfin_uart2@2", 1), DEVICE (0xFFC02200, BFIN_MMR_TWI_SIZE, "bfin_twi@1"), DEVICE (0xFFC02300, BFIN_MMR_SPI_SIZE, "bfin_spi@1"), _DEVICE (0xFFC02900, BFIN_MMR_EPPI_SIZE, "bfin_eppi@2", 1), _DEVICE (0xFFC03100, BFIN_MMR_UART2_SIZE, "bfin_uart2@3", 1), DEVICE (0xFFC03B00, BFIN_MMR_NFC_SIZE, "bfin_nfc"), DEVICE (0xFFC04300, BFIN_MMR_OTP_SIZE, "bfin_otp"), }; static const struct bfin_dev_layout bf547_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00300, BFIN_MMR_RTC_SIZE, "bfin_rtc"), DEVICE (0xFFC00400, BFIN_MMR_UART2_SIZE, "bfin_uart2@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@8"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@9"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@10"), DEVICE (0xFFC00700, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC00A00, BF54X_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A20, BFIN_MMR_EBIU_DDRC_SIZE, "bfin_ebiu_ddrc"), _DEVICE (0xFFC01000, BFIN_MMR_EPPI_SIZE, "bfin_eppi@0", 1), _DEVICE (0xFFC01300, BFIN_MMR_EPPI_SIZE, "bfin_eppi@1", 1), DEVICE (0xFFC01600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC01610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC01620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC01630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@3"), DEVICE (0xFFC01640, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@4"), DEVICE (0xFFC01650, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@5"), DEVICE (0xFFC01660, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@6"), DEVICE (0xFFC01670, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@7"), DEVICE (0xFFC02000, BFIN_MMR_UART2_SIZE, "bfin_uart2@1"), _DEVICE (0xFFC02100, BFIN_MMR_UART2_SIZE, "bfin_uart2@2", 1), DEVICE (0xFFC02200, BFIN_MMR_TWI_SIZE, "bfin_twi@1"), DEVICE (0xFFC02300, BFIN_MMR_SPI_SIZE, "bfin_spi@1"), _DEVICE (0xFFC02400, BFIN_MMR_SPI_SIZE, "bfin_spi@2", 1), _DEVICE (0xFFC02900, BFIN_MMR_EPPI_SIZE, "bfin_eppi@2", 1), _DEVICE (0xFFC03100, BFIN_MMR_UART2_SIZE, "bfin_uart2@3", 1), DEVICE (0xFFC03B00, BFIN_MMR_NFC_SIZE, "bfin_nfc"), }; #define bf548_dev bf547_dev #define bf549_dev bf547_dev static const struct bfin_dmac_layout bf54x_dmac[] = { { BFIN_MMR_DMAC0_BASE, 12, }, { BFIN_MMR_DMAC1_BASE, 12, }, }; #define bf542_dmac bf54x_dmac #define bf544_dmac bf54x_dmac #define bf547_dmac bf54x_dmac #define bf548_dmac bf54x_dmac #define bf549_dmac bf54x_dmac /* This is only Core A of course ... */ #define bf561_chipid 0x27bb static const struct bfin_memory_layout bf561_mem[] = { LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFEB00000, 0x20000, read_write_exec), /* L2 */ LAYOUT (0xFF800000, 0x4000, read_write), /* Data A */ LAYOUT (0xFF804000, 0x4000, read_write), /* Data A Cache */ LAYOUT (0xFF900000, 0x4000, read_write), /* Data B */ LAYOUT (0xFF904000, 0x4000, read_write), /* Data B Cache */ LAYOUT (0xFFA00000, 0x4000, read_write_exec), /* Inst A [1] */ LAYOUT (0xFFA10000, 0x4000, read_write_exec), /* Inst Cache [1] */ }; static const struct bfin_dev_layout bf561_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00400, BFIN_MMR_UART_SIZE, "bfin_uart@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC00630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@3"), DEVICE (0xFFC00640, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@4"), DEVICE (0xFFC00650, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@5"), DEVICE (0xFFC00660, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@6"), DEVICE (0xFFC00670, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@7"), DEVICE (0xFFC00700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@5"), DEVICE (0xFFC00A00, BFIN_MMR_EBIU_AMC_SIZE, "bfin_ebiu_amc"), DEVICE (0xFFC00A10, BFIN_MMR_EBIU_SDC_SIZE, "bfin_ebiu_sdc"), _DEVICE (0xFFC01000, BFIN_MMR_PPI_SIZE, "bfin_ppi@0", 1), DEVICE (0xFFC01200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@1"), _DEVICE (0xFFC01300, BFIN_MMR_PPI_SIZE, "bfin_ppi@1", 1), DEVICE (0xFFC01500, BFIN_MMR_GPIO_SIZE, "bfin_gpio@6"), DEVICE (0xFFC01600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@8"), DEVICE (0xFFC01610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@9"), DEVICE (0xFFC01620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@10"), DEVICE (0xFFC01630, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@11"), DEVICE (0xFFC01700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@7"), }; static const struct bfin_dmac_layout bf561_dmac[] = { { BFIN_MMR_DMAC0_BASE, 12, }, { BFIN_MMR_DMAC1_BASE, 12, }, /* XXX: IMDMA: { 0xFFC01800, 4, }, */ }; #define bf592_chipid 0x20cb static const struct bfin_memory_layout bf592_mem[] = { LAYOUT (0xFFC00800, 0x60, read_write), /* SPORT0 stub */ LAYOUT (0xFFC00900, 0x60, read_write), /* SPORT1 stub */ LAYOUT (0xFF800000, 0x8000, read_write), /* Data A */ LAYOUT (0xFFA00000, 0x4000, read_write_exec), /* Inst A [1] */ LAYOUT (0xFFA04000, 0x4000, read_write_exec), /* Inst B [1] */ }; static const struct bfin_dev_layout bf592_dev[] = { DEVICE (0xFFC00200, BFIN_MMR_WDOG_SIZE, "bfin_wdog@0"), DEVICE (0xFFC00400, BFIN_MMR_UART_SIZE, "bfin_uart@0"), DEVICE (0xFFC00500, BFIN_MMR_SPI_SIZE, "bfin_spi@0"), DEVICE (0xFFC00600, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@0"), DEVICE (0xFFC00610, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@1"), DEVICE (0xFFC00620, BFIN_MMR_GPTIMER_SIZE, "bfin_gptimer@2"), DEVICE (0xFFC00700, BFIN_MMR_GPIO_SIZE, "bfin_gpio@5"), DEVICE (0xFFC01000, BFIN_MMR_PPI_SIZE, "bfin_ppi@0"), DEVICE (0xFFC01300, BFIN_MMR_SPI_SIZE, "bfin_spi@1"), DEVICE (0xFFC01400, BFIN_MMR_TWI_SIZE, "bfin_twi@0"), DEVICE (0xFFC01500, BFIN_MMR_GPIO_SIZE, "bfin_gpio@6"), }; static const struct bfin_dmac_layout bf592_dmac[] = { /* XXX: there are only 9 channels, but mdma code below assumes that they start right after the dma channels ... */ { BFIN_MMR_DMAC0_BASE, 12, }, }; static const struct bfin_model_data bfin_model_data[] = { #define P(n) \ [MODEL_BF##n] = { \ bf##n##_chipid, n, \ bf##n##_mem , ARRAY_SIZE (bf##n##_mem ), \ bf##n##_dev , ARRAY_SIZE (bf##n##_dev ), \ bf##n##_dmac, ARRAY_SIZE (bf##n##_dmac), \ }, #include "proc_list.def" #undef P }; #define CORE_DEVICE(dev, DEV) \ DEVICE (BFIN_COREMMR_##DEV##_BASE, BFIN_COREMMR_##DEV##_SIZE, "bfin_"#dev) static const struct bfin_dev_layout bfin_core_dev[] = { CORE_DEVICE (cec, CEC), CORE_DEVICE (ctimer, CTIMER), CORE_DEVICE (evt, EVT), CORE_DEVICE (jtag, JTAG), CORE_DEVICE (mmu, MMU), CORE_DEVICE (trace, TRACE), CORE_DEVICE (wp, WP), }; #define dv_bfin_hw_parse(sd, dv, DV) \ do { \ bu32 base = BFIN_MMR_##DV##_BASE; \ bu32 size = BFIN_MMR_##DV##_SIZE; \ sim_hw_parse (sd, "/core/bfin_"#dv"/reg %#x %i", base, size); \ sim_hw_parse (sd, "/core/bfin_"#dv"/type %i", mdata->model_num); \ } while (0) static void bfin_model_hw_tree_init (SIM_DESC sd, SIM_CPU *cpu) { const MODEL *model = CPU_MODEL (cpu); const struct bfin_model_data *mdata = CPU_MODEL_DATA (cpu); const struct bfin_board_data *board = STATE_BOARD_DATA (sd); int mnum = MODEL_NUM (model); unsigned i, j, dma_chan; /* Map the core devices. */ for (i = 0; i < ARRAY_SIZE (bfin_core_dev); ++i) { const struct bfin_dev_layout *dev = &bfin_core_dev[i]; sim_hw_parse (sd, "/core/%s/reg %#x %i", dev->dev, dev->base, dev->len); } sim_hw_parse (sd, "/core/bfin_ctimer > ivtmr ivtmr /core/bfin_cec"); if (mnum == MODEL_BF000) goto done; /* Map the system devices. */ dv_bfin_hw_parse (sd, sic, SIC); sim_hw_parse (sd, "/core/bfin_sic/type %i", mdata->model_num); for (i = 7; i < 16; ++i) sim_hw_parse (sd, "/core/bfin_sic > ivg%i ivg%i /core/bfin_cec", i, i); dv_bfin_hw_parse (sd, pll, PLL); sim_hw_parse (sd, "/core/bfin_pll > pll pll /core/bfin_sic"); dma_chan = 0; for (i = 0; i < mdata->dmac_count; ++i) { const struct bfin_dmac_layout *dmac = &mdata->dmac[i]; sim_hw_parse (sd, "/core/bfin_dmac@%u/type %i", i, mdata->model_num); /* Hook up the non-mdma channels. */ for (j = 0; j < dmac->dma_count; ++j) { sim_hw_parse (sd, "/core/bfin_dmac@%u/bfin_dma@%u/reg %#x %i", i, dma_chan, dmac->base + j * BFIN_MMR_DMA_SIZE, BFIN_MMR_DMA_SIZE); /* Could route these into the bfin_dmac and let that forward it to the SIC, but not much value. */ sim_hw_parse (sd, "/core/bfin_dmac@%u/bfin_dma@%u > di dma@%u /core/bfin_sic", i, dma_chan, dma_chan); ++dma_chan; } /* Hook up the mdma channels -- assume every DMAC has 4. */ for (j = 0; j < 4; ++j) { sim_hw_parse (sd, "/core/bfin_dmac@%u/bfin_dma@%u/reg %#x %i", i, j + BFIN_DMAC_MDMA_BASE, dmac->base + (j + dmac->dma_count) * BFIN_MMR_DMA_SIZE, BFIN_MMR_DMA_SIZE); sim_hw_parse (sd, "/core/bfin_dmac@%u/bfin_dma@%u > di mdma@%u /core/bfin_sic", i, j + BFIN_DMAC_MDMA_BASE, (2 * i) + (j / 2)); } } for (i = 0; i < mdata->dev_count; ++i) { const struct bfin_dev_layout *dev = &mdata->dev[i]; sim_hw_parse (sd, "/core/%s/reg %#x %i", dev->dev, dev->base, dev->len); sim_hw_parse (sd, "/core/%s/type %i", dev->dev, mdata->model_num); if (strchr (dev->dev, '/')) continue; if (!strncmp (dev->dev, "bfin_uart", 9) || !strncmp (dev->dev, "bfin_emac", 9) || !strncmp (dev->dev, "bfin_sport", 10)) { const char *sint = dev->dev + 5; sim_hw_parse (sd, "/core/%s > tx %s_tx /core/bfin_dmac@%u", dev->dev, sint, dev->dmac); sim_hw_parse (sd, "/core/%s > rx %s_rx /core/bfin_dmac@%u", dev->dev, sint, dev->dmac); sim_hw_parse (sd, "/core/%s > stat %s_stat /core/bfin_sic", dev->dev, sint); } else if (!strncmp (dev->dev, "bfin_gptimer", 12) || !strncmp (dev->dev, "bfin_ppi", 8) || !strncmp (dev->dev, "bfin_spi", 8) || !strncmp (dev->dev, "bfin_twi", 8)) { const char *sint = dev->dev + 5; sim_hw_parse (sd, "/core/%s > stat %s /core/bfin_sic", dev->dev, sint); } else if (!strncmp (dev->dev, "bfin_rtc", 8)) { const char *sint = dev->dev + 5; sim_hw_parse (sd, "/core/%s > %s %s /core/bfin_sic", dev->dev, sint, sint); } else if (!strncmp (dev->dev, "bfin_wdog", 9)) { sim_hw_parse (sd, "/core/%s > reset rst /core/bfin_cec", dev->dev); sim_hw_parse (sd, "/core/%s > nmi nmi /core/bfin_cec", dev->dev); sim_hw_parse (sd, "/core/%s > gpi wdog /core/bfin_sic", dev->dev); } else if (!strncmp (dev->dev, "bfin_gpio", 9)) { char port = 'a' + strtol(&dev->dev[10], NULL, 0); sim_hw_parse (sd, "/core/%s > mask_a port%c_irq_a /core/bfin_sic", dev->dev, port); sim_hw_parse (sd, "/core/%s > mask_b port%c_irq_b /core/bfin_sic", dev->dev, port); } } done: /* Add any additional user board content. */ if (board->hw_file) sim_do_commandf (sd, "hw-file %s", board->hw_file); /* Trigger all the new devices' finish func. */ hw_tree_finish (dv_get_device (cpu, "/")); } #include "bfroms/all.h" struct bfrom { bu32 addr, len, alias_len; int sirev; const char *buf; }; #define BFROMA(addr, rom, sirev, alias_len) \ { addr, sizeof (bfrom_bf##rom##_0_##sirev), alias_len, \ sirev, bfrom_bf##rom##_0_##sirev, } #define BFROM(rom, sirev, alias_len) BFROMA (0xef000000, rom, sirev, alias_len) #define BFROM_STUB { 0, 0, 0, 0, NULL, } static const struct bfrom bf50x_roms[] = { BFROM (50x, 0, 0x1000000), BFROM_STUB, }; static const struct bfrom bf51x_roms[] = { BFROM (51x, 2, 0x1000000), BFROM (51x, 1, 0x1000000), BFROM (51x, 0, 0x1000000), BFROM_STUB, }; static const struct bfrom bf526_roms[] = { BFROM (526, 1, 0x1000000), BFROM (526, 0, 0x1000000), BFROM_STUB, }; static const struct bfrom bf527_roms[] = { BFROM (527, 2, 0x1000000), BFROM (527, 1, 0x1000000), BFROM (527, 0, 0x1000000), BFROM_STUB, }; static const struct bfrom bf533_roms[] = { BFROM (533, 6, 0x1000000), BFROM (533, 5, 0x1000000), BFROM (533, 4, 0x1000000), BFROM (533, 3, 0x1000000), BFROM (533, 2, 0x1000000), BFROM (533, 1, 0x1000000), BFROM_STUB, }; static const struct bfrom bf537_roms[] = { BFROM (537, 3, 0x100000), BFROM (537, 2, 0x100000), BFROM (537, 1, 0x100000), BFROM (537, 0, 0x100000), BFROM_STUB, }; static const struct bfrom bf538_roms[] = { BFROM (538, 5, 0x1000000), BFROM (538, 4, 0x1000000), BFROM (538, 3, 0x1000000), BFROM (538, 2, 0x1000000), BFROM (538, 1, 0x1000000), BFROM (538, 0, 0x1000000), BFROM_STUB, }; static const struct bfrom bf54x_roms[] = { BFROM (54x, 2, 0), BFROM (54x, 1, 0), BFROM (54x, 0, 0), BFROMA (0xffa14000, 54x_l1, 2, 0), BFROMA (0xffa14000, 54x_l1, 1, 0), BFROMA (0xffa14000, 54x_l1, 0, 0), BFROM_STUB, }; static const struct bfrom bf561_roms[] = { /* XXX: No idea what the actual wrap limit is here. */ BFROM (561, 5, 0), BFROM_STUB, }; static const struct bfrom bf59x_roms[] = { BFROM (59x, 1, 0x1000000), BFROM (59x, 0, 0x1000000), BFROMA (0xffa10000, 59x_l1, 1, 0), BFROM_STUB, }; static void bfin_model_map_bfrom (SIM_DESC sd, SIM_CPU *cpu) { const struct bfin_model_data *mdata = CPU_MODEL_DATA (cpu); const struct bfin_board_data *board = STATE_BOARD_DATA (sd); int mnum = mdata->model_num; const struct bfrom *bfrom; unsigned int sirev; if (mnum >= 500 && mnum <= 509) bfrom = bf50x_roms; else if (mnum >= 510 && mnum <= 519) bfrom = bf51x_roms; else if (mnum >= 520 && mnum <= 529) bfrom = (mnum & 1) ? bf527_roms : bf526_roms; else if (mnum >= 531 && mnum <= 533) bfrom = bf533_roms; else if (mnum == 535) /* Stub. */; else if (mnum >= 534 && mnum <= 537) bfrom = bf537_roms; else if (mnum >= 538 && mnum <= 539) bfrom = bf538_roms; else if (mnum >= 540 && mnum <= 549) bfrom = bf54x_roms; else if (mnum == 561) bfrom = bf561_roms; else if (mnum >= 590 && mnum <= 599) bfrom = bf59x_roms; else return; if (board->sirev_valid) sirev = board->sirev; else sirev = bfrom->sirev; while (bfrom->buf) { /* Map all the ranges for this model/sirev. */ if (bfrom->sirev == sirev) sim_core_attach (sd, NULL, 0, access_read_exec, 0, bfrom->addr, bfrom->alias_len ? : bfrom->len, bfrom->len, NULL, (char *)bfrom->buf); ++bfrom; } } void bfin_model_cpu_init (SIM_DESC sd, SIM_CPU *cpu) { const MODEL *model = CPU_MODEL (cpu); const struct bfin_model_data *mdata = CPU_MODEL_DATA (cpu); int mnum = MODEL_NUM (model); size_t idx; /* These memory maps are supposed to be cpu-specific, but the common sim code does not yet allow that (2nd arg is "cpu" rather than "NULL". */ sim_core_attach (sd, NULL, 0, access_read_write, 0, BFIN_L1_SRAM_SCRATCH, BFIN_L1_SRAM_SCRATCH_SIZE, 0, NULL, NULL); if (STATE_ENVIRONMENT (CPU_STATE (cpu)) != OPERATING_ENVIRONMENT) return; if (mnum == MODEL_BF000) goto core_only; /* Map in the on-chip memories (SRAMs). */ mdata = &bfin_model_data[MODEL_NUM (model)]; for (idx = 0; idx < mdata->mem_count; ++idx) { const struct bfin_memory_layout *mem = &mdata->mem[idx]; sim_core_attach (sd, NULL, 0, mem->mask, 0, mem->addr, mem->len, 0, NULL, NULL); } /* Map the on-chip ROMs. */ bfin_model_map_bfrom (sd, cpu); core_only: /* Finally, build up the tree for this cpu model. */ bfin_model_hw_tree_init (sd, cpu); } bu32 bfin_model_get_chipid (SIM_DESC sd) { SIM_CPU *cpu = STATE_CPU (sd, 0); const struct bfin_model_data *mdata = CPU_MODEL_DATA (cpu); const struct bfin_board_data *board = STATE_BOARD_DATA (sd); return (board->sirev << 28) | (mdata->chipid << 12) | (((0xE5 << 1) | 1) & 0xFF); } bu32 bfin_model_get_dspid (SIM_DESC sd) { const struct bfin_board_data *board = STATE_BOARD_DATA (sd); return (0xE5 << 24) | (0x04 << 16) | (board->sirev); } static void bfin_model_init (SIM_CPU *cpu) { CPU_MODEL_DATA (cpu) = (void *) &bfin_model_data[MODEL_NUM (CPU_MODEL (cpu))]; } static bu32 bfin_extract_unsigned_integer (unsigned char *addr, int len) { bu32 retval; unsigned char * p; unsigned char * startaddr = (unsigned char *)addr; unsigned char * endaddr = startaddr + len; retval = 0; for (p = endaddr; p > startaddr;) retval = (retval << 8) | *--p; return retval; } static void bfin_store_unsigned_integer (unsigned char *addr, int len, bu32 val) { unsigned char *p; unsigned char *startaddr = addr; unsigned char *endaddr = startaddr + len; for (p = startaddr; p < endaddr;) { *p++ = val & 0xff; val >>= 8; } } static bu32 * bfin_get_reg (SIM_CPU *cpu, int rn) { switch (rn) { case SIM_BFIN_R0_REGNUM: return &DREG (0); case SIM_BFIN_R1_REGNUM: return &DREG (1); case SIM_BFIN_R2_REGNUM: return &DREG (2); case SIM_BFIN_R3_REGNUM: return &DREG (3); case SIM_BFIN_R4_REGNUM: return &DREG (4); case SIM_BFIN_R5_REGNUM: return &DREG (5); case SIM_BFIN_R6_REGNUM: return &DREG (6); case SIM_BFIN_R7_REGNUM: return &DREG (7); case SIM_BFIN_P0_REGNUM: return &PREG (0); case SIM_BFIN_P1_REGNUM: return &PREG (1); case SIM_BFIN_P2_REGNUM: return &PREG (2); case SIM_BFIN_P3_REGNUM: return &PREG (3); case SIM_BFIN_P4_REGNUM: return &PREG (4); case SIM_BFIN_P5_REGNUM: return &PREG (5); case SIM_BFIN_SP_REGNUM: return &SPREG; case SIM_BFIN_FP_REGNUM: return &FPREG; case SIM_BFIN_I0_REGNUM: return &IREG (0); case SIM_BFIN_I1_REGNUM: return &IREG (1); case SIM_BFIN_I2_REGNUM: return &IREG (2); case SIM_BFIN_I3_REGNUM: return &IREG (3); case SIM_BFIN_M0_REGNUM: return &MREG (0); case SIM_BFIN_M1_REGNUM: return &MREG (1); case SIM_BFIN_M2_REGNUM: return &MREG (2); case SIM_BFIN_M3_REGNUM: return &MREG (3); case SIM_BFIN_B0_REGNUM: return &BREG (0); case SIM_BFIN_B1_REGNUM: return &BREG (1); case SIM_BFIN_B2_REGNUM: return &BREG (2); case SIM_BFIN_B3_REGNUM: return &BREG (3); case SIM_BFIN_L0_REGNUM: return &LREG (0); case SIM_BFIN_L1_REGNUM: return &LREG (1); case SIM_BFIN_L2_REGNUM: return &LREG (2); case SIM_BFIN_L3_REGNUM: return &LREG (3); case SIM_BFIN_RETS_REGNUM: return &RETSREG; case SIM_BFIN_A0_DOT_X_REGNUM: return &AXREG (0); case SIM_BFIN_A0_DOT_W_REGNUM: return &AWREG (0); case SIM_BFIN_A1_DOT_X_REGNUM: return &AXREG (1); case SIM_BFIN_A1_DOT_W_REGNUM: return &AWREG (1); case SIM_BFIN_LC0_REGNUM: return &LCREG (0); case SIM_BFIN_LT0_REGNUM: return <REG (0); case SIM_BFIN_LB0_REGNUM: return &LBREG (0); case SIM_BFIN_LC1_REGNUM: return &LCREG (1); case SIM_BFIN_LT1_REGNUM: return <REG (1); case SIM_BFIN_LB1_REGNUM: return &LBREG (1); case SIM_BFIN_CYCLES_REGNUM: return &CYCLESREG; case SIM_BFIN_CYCLES2_REGNUM: return &CYCLES2REG; case SIM_BFIN_USP_REGNUM: return &USPREG; case SIM_BFIN_SEQSTAT_REGNUM: return &SEQSTATREG; case SIM_BFIN_SYSCFG_REGNUM: return &SYSCFGREG; case SIM_BFIN_RETI_REGNUM: return &RETIREG; case SIM_BFIN_RETX_REGNUM: return &RETXREG; case SIM_BFIN_RETN_REGNUM: return &RETNREG; case SIM_BFIN_RETE_REGNUM: return &RETEREG; case SIM_BFIN_PC_REGNUM: return &PCREG; default: return NULL; } } static int bfin_reg_fetch (SIM_CPU *cpu, int rn, unsigned char *buf, int len) { bu32 value, *reg; reg = bfin_get_reg (cpu, rn); if (reg) value = *reg; else if (rn == SIM_BFIN_ASTAT_REGNUM) value = ASTAT; else if (rn == SIM_BFIN_CC_REGNUM) value = CCREG; else return 0; // will be an error in gdb /* Handle our KSP/USP shadowing in SP. While in supervisor mode, we have the normal SP/USP behavior. User mode is tricky though. */ if (STATE_ENVIRONMENT (CPU_STATE (cpu)) == OPERATING_ENVIRONMENT && cec_is_user_mode (cpu)) { if (rn == SIM_BFIN_SP_REGNUM) value = KSPREG; else if (rn == SIM_BFIN_USP_REGNUM) value = SPREG; } bfin_store_unsigned_integer (buf, 4, value); return -1; // disables size checking in gdb } static int bfin_reg_store (SIM_CPU *cpu, int rn, unsigned char *buf, int len) { bu32 value, *reg; value = bfin_extract_unsigned_integer (buf, 4); reg = bfin_get_reg (cpu, rn); if (reg) /* XXX: Need register trace ? */ *reg = value; else if (rn == SIM_BFIN_ASTAT_REGNUM) SET_ASTAT (value); else if (rn == SIM_BFIN_CC_REGNUM) SET_CCREG (value); else return 0; // will be an error in gdb return -1; // disables size checking in gdb } static sim_cia bfin_pc_get (SIM_CPU *cpu) { return PCREG; } static void bfin_pc_set (SIM_CPU *cpu, sim_cia newpc) { SET_PCREG (newpc); } static const char * bfin_insn_name (SIM_CPU *cpu, int i) { static const char * const insn_name[] = { #define I(insn) #insn, #include "insn_list.def" #undef I }; return insn_name[i]; } static void bfin_init_cpu (SIM_CPU *cpu) { CPU_REG_FETCH (cpu) = bfin_reg_fetch; CPU_REG_STORE (cpu) = bfin_reg_store; CPU_PC_FETCH (cpu) = bfin_pc_get; CPU_PC_STORE (cpu) = bfin_pc_set; CPU_MAX_INSNS (cpu) = BFIN_INSN_MAX; CPU_INSN_NAME (cpu) = bfin_insn_name; } static void bfin_prepare_run (SIM_CPU *cpu) { } static const MODEL bfin_models[] = { #define P(n) { "bf"#n, & bfin_mach, MODEL_BF##n, NULL, bfin_model_init }, #include "proc_list.def" #undef P { 0, NULL, 0, NULL, NULL, } }; static const MACH_IMP_PROPERTIES bfin_imp_properties = { sizeof (SIM_CPU), 0, }; static const MACH bfin_mach = { "bfin", "bfin", MACH_BFIN, 32, 32, & bfin_models[0], & bfin_imp_properties, bfin_init_cpu, bfin_prepare_run }; const MACH *sim_machs[] = { & bfin_mach, NULL }; /* Device option parsing. */ static DECLARE_OPTION_HANDLER (bfin_mach_option_handler); enum { OPTION_MACH_SIREV = OPTION_START, OPTION_MACH_HW_BOARD_FILE, }; const OPTION bfin_mach_options[] = { { {"sirev", required_argument, NULL, OPTION_MACH_SIREV }, '\0', "NUMBER", "Set CPU silicon revision", bfin_mach_option_handler, NULL }, { {"hw-board-file", required_argument, NULL, OPTION_MACH_HW_BOARD_FILE }, '\0', "FILE", "Add the supplemental devices listed in the file", bfin_mach_option_handler, NULL }, { {NULL, no_argument, NULL, 0}, '\0', NULL, NULL, NULL, NULL } }; static SIM_RC bfin_mach_option_handler (SIM_DESC sd, sim_cpu *current_cpu, int opt, char *arg, int is_command) { struct bfin_board_data *board = STATE_BOARD_DATA (sd); switch (opt) { case OPTION_MACH_SIREV: board->sirev_valid = 1; /* Accept (and throw away) a leading "0." in the version. */ if (!strncmp (arg, "0.", 2)) arg += 2; board->sirev = atoi (arg); if (board->sirev > 0xf) { sim_io_eprintf (sd, "sirev '%s' needs to fit into 4 bits\n", arg); return SIM_RC_FAIL; } return SIM_RC_OK; case OPTION_MACH_HW_BOARD_FILE: board->hw_file = xstrdup (arg); return SIM_RC_OK; default: sim_io_eprintf (sd, "Unknown Blackfin option %d\n", opt); return SIM_RC_FAIL; } }