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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [WizNET_DEMO_TERN_186/] [tern_code/] [i2chip_hw.c] - Rev 591
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/* ******************************************************************************** * TERN, Inc. * (c) Copyright 2005, http://www.tern.com * * - Created to support i2chip module on a variety of TERN hardware platforms. ******************************************************************************** */ #include <embedded.h> #include "i2chip_hw.h" #ifdef I2CHIP_MMC #include "mmc.h" #endif void i2chip_init(void) { #ifdef TERN_586 /* poke(MMCR,_BOOTCSCTL_,peek(MMCR,_BOOTCSCTL_)&0xffc9); // ROM 1 wait poke(MMCR,_ROMCS2CTL_,peek(MMCR,_ROMCS2CTL_)&0xffc8); // SRAM 0 wait pokeb(MMCR, _GPCSRT_, 24); // set the GP CS recovery time, 12 works pokeb(MMCR, _GPCSPW_, 128); // set the GP CS width, 64 works pokeb(MMCR, _GPCSOFF_, 16); // set the GP CS offset, 8 works pokeb(MMCR, _GPRDW_, 80); // set the GP RD pulse width, 50 works pokeb(MMCR, _GPRDOFF_, 30); // set the GP RD offset, 15 works pokeb(MMCR, _GPWRW_, 80); // set the GP WR pulse width, 50 pokeb(MMCR, _GPWROFF_, 30); // set the GP WR offset, 15 */ #ifdef TERN_5E pokeb(MMCR, _GPCSDW_, peekb(MMCR, _GPCSDW_)&0xf7); // set /CS3-/CSM Data Width=8 pokeb(MMCR, _CSPFS_, peekb(MMCR, _CSPFS_)|0x08); // set the GP CS3 PIN Function poke(MMCR, _PAR15_, 0x2000); // set CS3 I/O region poke(MMCR, _PAR15_+2, 0x2dff); // set CS3 I/O region, 512 bytes pokeb(MMCR, _GPCSDW_, peekb(MMCR, _GPCSDW_)&0x7f); // CS7=J4.3 Data Width=8, /CSI // pokeb(MMCR, _GPCSDW_, peekb(MMCR, _GPCSDW_)|0x80); // CS7=J4.3 Data Width=16 pokeb(MMCR, _CSPFS_, peekb(MMCR, _CSPFS_)|0x80); // set the GP CS7 PIN Function poke(MMCR, _PAR7_, 0x4000); // set CS7 I/O region poke(MMCR, _PAR7_+2, 0x3dff); // set CS7 I/O region, 512 bytes #else // If it's not 5E, then it must be 5P... in which case, we use PCS0 and // PCS1 as the chip-selects. pokeb(MMCR, _GPCSDW_, peekb(MMCR, _GPCSDW_)&0xfe); // CS0 Data Width=8 poke(MMCR, _PIOPFS31_16_, peek(MMCR,_PIOPFS31_16_)|0x0800); // P27=/CS0 poke(MMCR, _PAR13_, 0x1800); // CS0 I/O region poke(MMCR, _PAR13_+2, 0x21ff); // CS0 I/O RW, 512 bytes, start 0x1800 #endif a HLPRsetvect(0x47, (void far *) spu_m_isr); HLPRsetvect(0x4f, (void far *) spu_1_isr); HLPRsetvect(0x57, (void far *) spu_2_isr); #endif // 186, or RE #ifdef TERN_186 pio_init(18, 0); // P18=CTS1 for /PCS2 #ifdef TERN_16_BIT outport(0xfff2, 2); // AUXCON, MCS, Bus 16-bit #endif #ifdef I2CHIP_MCS_DIRECT outport(0xffa0,0xc0bf); // UMCS, 256K ROM, disable AD15-0 outport(0xfff0,inport(0xfff0)|0x4000 ); // SYSCON, MCS0 0x80000-0xbffff outport(0xffa8,0xa0bf ); // MPCS, MCS0=P14, 64KB, PCS I/O, outport(0xffa6,0x81ff); // MMCS, base 0x80000, outport(0xffa2,0x7fbf); // 512K RAM, outport(0xffa4,0x007d); // PACS, base 0, #else outport( 0xffa0,0xc0bf); // UMCS, 256K ROM, 3 wait, disable AD15-0 outport( 0xfff0,inport(0xfff0)|0x4000 ); // SYSCON, MCS0 0x80000-0xbffff // outport( 0xffa8,0xa0bc ); // MPCS, MCS0=P14, 64KB, PCS I/O 0 wait // outport( 0xffa8,0xa0bd ); // MPCS, MCS0=P14, 64KB, PCS I/O 1 wait outport( 0xffa8,0xa0bf ); // MPCS, MCS0=P14, 64KB, PCS I/O 1 wait #endif // I2CHIP_MCS_DIRECT #ifndef TERN_RE // 80 MHz R- boards can't tolerate zero wait state. outport( 0xffa6,0x81ff ); // MMCS, base 0x80000 outport(0xffa2,0x7fbe); // 512K RAM, 0 wait states outport(0xffa4,0x007d); // PACS, base 0, 0 wait #endif pio_init(14,0); // Enable /MCS0 #endif // TERN_186 #ifdef I2CHIP_WINDOW #ifdef I2CHIP_SHIFTED_ADDRESS pio_init(12, 2); // Configure P12 as A7, an output we'll be using. pio_wr(12, 0); // Set A7 low, initially. #endif WINDOW_RESTORE_BASE; // Equivalent to calling mmc_window(7, 0); #endif } #ifdef I2CHIP_WINDOW void i2chip_set_page(u_int page) { u_int new_page = page; #ifdef I2CHIP_SHIFTED_ADDRESS if (page & 0x01) // ... we're checking the right-most bit in the page. outport(0xff74, inport(0xff74) | 0x1000 ); // Using P12 as A7... else outport(0xff74, inport(0xff74) & 0xefff ); new_page = page >> 1; #endif #ifdef I2CHIP_MMC mmc_window(7, new_page); // See mmc.c #endif #ifdef I2CHIP_P51 p51_window(new_page); #endif } static u_int s_addr = 0xffff; u_char far* i2chip_mkptr(u_int addr) { if ((s_addr & 0xff00) == (addr & 0xff00)) // No point... no point... return MK_FP(WINDOW_BASE_SEGM, addr & 0xff); s_addr = addr ; // So the argument to this function is... what again? // I think it should be the highest 16-bits... or, in other words, // FP_SEG of a huge ptr. // Ok, and the *return* value should be a UINT value for the new // segment address to be used, if it's at all needed. TODO I2CHIP_SET_PAGE(s_addr >> 8); // Portable version // outportb(0x00, addr>>8); // quicker version return MK_FP(WINDOW_BASE_SEGM, addr & 0xff); } void i2chip_set_window(u_int window_addr) { s_addr = window_addr; I2CHIP_SET_PAGE(s_addr >> 8); } // Still inside #define I2CHIP_WINDOW ... u_int i2chip_get_window(void) { return s_addr & 0xff00; } void i2chip_push_window(u_int addr) { I2CHIP_SET_PAGE(addr>>8); } void i2chip_pop_window(void) { I2CHIP_SET_PAGE(s_addr >> 8); } #ifdef I2CHIP_WINDOW_IO u_char io_read_value(u_char far* addr) { // return value ... we assume the page is already set. So, instead, // we just go ahead and output valeu. return inportb(I2CHIP_BASE_SEG + (FP_OFF(addr) & 0xff)); } void io_write_value(u_char far* addr, u_char value) { // Get the last whatever bytes... and write value. outportb(I2CHIP_BASE_SEG + (FP_OFF(addr) & 0xff), value); } #endif // I2CHIP_WINDOW_IO #ifdef I2CHIP_P51 void p51_window(unsigned int page) { asm xor ax, ax asm mov ax, page #ifdef I2CHIP_WINDOW_IO asm mov dx, 1040h asm out dx, al #else asm out 040h, al #endif // use J1.19=/CS6 } #endif // I2CHIP_P51 #endif // I2CHIP_WINDOW #ifdef TERN_586 /* // Function: spu_m_isr // P22=Master PIC IR7, interrupt vector=0x47, /INTA */ void interrupt far spu_m_isr(void) { disable(); // Issue the EOI to interrupt controller outportb(_MPICOCW2_IO,0x67); // Specific EQI for master IR7 enable(); } /* // Function: spu_1_isr // P10=slave1 PIC IR7, Master IR2, interrupt vector=0x4f, /INTC */ void interrupt far spu_1_isr(void) { disable(); // Issue the EOI to interrupt controller outportb(_S1PICOCW2_IO,0x67); // Specific EOI for slave 1 IR7 outportb(_MPICOCW2_IO,0x62); // Specific EQI for master IR2 enable(); } /* // Function: spu_2_isr // P20=Slave2 PIC IR7, Master IR5, interrupt vector=0x57, GPIRQ7=PIO16 GP timer1 */ void interrupt far spu_2_isr(void) { disable(); // Issue the EOI to interrupt controller outportb(_S2PICOCW2_IO,0x67); // Specific EOI for slave 1 IR7 outportb(_MPICOCW2_IO,0x65); // Specific EQI for master IR5 enable(); } #endif
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