FreeCalypso > hg > fc-tourmaline
view src/cs/drivers/drv_app/ffs/board/intelsbdrv.c @ 0:4e78acac3d88
src/{condat,cs,gpf,nucleus}: import from Selenite
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Fri, 16 Oct 2020 06:23:26 +0000 |
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/****************************************************************************** * Flash File System (ffs) * Idea, design and coding by Mads Meisner-Jensen, mmj@ti.com * * FFS AMD single bank low level flash driver RAM code * * $Id: intelsbdrv.c 1.13 Thu, 08 Jan 2004 15:05:23 +0100 tsj $ * ******************************************************************************/ #include "ffs.cfg" #include "ffs/ffs.h" #include "ffs/board/drv.h" #include "ffs/board/ffstrace.h" #define INTEL_UNLOCK_SLOW 1 #undef tlw #define tlw(contents) #undef ttw #define ttw(contents) // Status bits for Intel flash memory devices #define INTEL_STATE_MACHINE_DONE (1<<7) #define FLASH_READ(addr) (*(volatile uint16 *) (addr)) #define FLASH_WRITE(addr, data) (*(volatile uint16 *) (addr)) = data #ifdef __GNUC__ asm(".globl ffsdrv_ram_intel_begin"); asm("ffsdrv_ram_intel_begin:"); #else asm(" .label _ffsdrv_ram_intel_begin"); asm(" .def _ffsdrv_ram_intel_begin"); #endif uint32 intel_int_disable(void); void intel_int_enable(uint32 tmp); /****************************************************************************** * INTEL Single Bank Driver Functions ******************************************************************************/ // Actually we should have disabled and enable the interrupts in this // function, but when the interrupt functions are used Target don't run! // Anyway, currently the interrupts are already disabled at this point thus // it does not cause any problems. int ffsdrv_ram_intel_sb_init(void) { uint32 cpsr, i; volatile char *addr; uint16 status; for (i = 0; i < dev.numblocks; i++) { addr = block2addr(i); *addr = 0x50; // Intel Clear Status Register *addr = 0xFF; // Intel read array *addr = 0x60; // Intel Config Setup *addr = 0xD0; // Intel Unlock Block // Wait for unlock to finish do { status = FLASH_READ(addr); } while (!(status & INTEL_STATE_MACHINE_DONE)); *addr = 0x70; // Intel Read Status Register status = FLASH_READ(addr); // Is there an erase suspended? if ((status & 0x40) != 0) { *addr = 0xD0; // Intel erase resume *addr = 0x70; // Intel Read Status Register // wait for erase to finish do { status = FLASH_READ(addr); } while (!(status & INTEL_STATE_MACHINE_DONE)); } *addr = 0xFF; // Intel Read Array } return 0; } void ffsdrv_ram_intel_sb_write_halfword(volatile uint16 *addr, uint16 value) { uint32 cpsr; ttw(ttr(TTrDrv, "wh(%x,%x)" NL, addr, value)); if (~*addr & value) { ttw(ttr(TTrFatal, "wh(%x,%x->%x) fatal" NL, addr, *addr, value)); return; } cpsr = intel_int_disable(); tlw(led_on(LED_WRITE)); #if (INTEL_UNLOCK_SLOW == 1) *addr = 0x60; // Intel Config Setup *addr = 0xD0; // Intel Unlock Block #endif *addr = 0x50; // Intel Clear Status Register *addr = 0x40; // Intel program byte/word *addr = value; while ((*addr & 0x80) == 0) ; *addr = 0xFF; // Intel read array tlw(led_off(LED_WRITE)); intel_int_enable(cpsr); } void ffsdrv_ram_intel_sb_erase(uint8 block) { volatile char *addr; uint32 cpsr; uint16 poll; ttw(ttr(TTrDrvEra, "e(%d)" NL, block)); addr = block2addr(block); cpsr = intel_int_disable(); tlw(led_on(LED_ERASE)); #if (INTEL_UNLOCK_SLOW == 1) *addr = 0x60; // Intel Config Setup *addr = 0xD0; // Intel Unlock Block #endif *addr = 0x50; // Intel Clear Status Register *addr = 0x20; // Intel Erase Setup *addr = 0xD0; // Intel Erase Confirm *addr = 0x70; // Intel Read Status Register // Wait for erase to finish. while ((*addr & 0x80) == 0) { tlw(led_toggle(LED_ERASE)); // Poll interrupts, taking interrupt mask into account. if (INT_REQUESTED) { // 1. suspend erase // 2. enable interrupts // .. now the interrupt code executes // 3. disable interrupts // 4. resume erase tlw(led_on(LED_ERASE_SUSPEND)); *addr = 0xB0; // Intel Erase Suspend *addr = 0x70; // Intel Read Status Register while (((poll = *addr) & 0x80) == 0) ; // If erase is complete, exit immediately if ((poll & 0x40) == 0) break; *addr = 0xFF; // Intel read array tlw(led_off(LED_ERASE_SUSPEND)); intel_int_enable(cpsr); // Other interrupts and tasks run now... cpsr = intel_int_disable(); tlw(led_on(LED_ERASE_SUSPEND)); *addr = 0xD0; // Intel erase resume // The following "extra" Read Status command is required because Intel has // changed the specification of the W30 flash! (See "1.8 Volt Intel® // Wireless Flash Memory with 3 Volt I/O 28F6408W30, 28F640W30, 28F320W30 // Specification Update") *addr = 0x70; // Intel Read Status Register tlw(led_off(LED_ERASE_SUSPEND)); } } *addr = 0xFF; // Intel read array tlw(led_on(LED_ERASE)); tlw(led_off(LED_ERASE)); intel_int_enable(cpsr); } // TODO: remove below function, not in use anymore. void ffsdrv_ram_intel_erase(uint8 block) { uint32 cpsr; uint16 status; ttw(ttr(TTrDrvErase, "e(%d)" NL, block)); tlw(led_on(LED_ERASE)); dev.addr = (uint16 *) block2addr(block); cpsr = intel_int_disable(); dev.state = DEV_ERASE; *dev.addr = 0x60; // Intel Config setup *dev.addr = 0xD0; // Intel Unlock block *dev.addr = 0x50; // Intel clear status register (not really necessary) *dev.addr = 0x20; // Intel erase setup *dev.addr = 0xD0; // Intel erase confirm intel_int_enable(cpsr); while ((*dev.addr & 0x80) == 0) ; *dev.addr = 0xFF; // Intel read array dev.state = DEV_READ; tlw(led_off(LED_WRITE)); } /****************************************************************************** * Interrupt Enable/Disable ******************************************************************************/ #ifdef __GNUC__ #define NOINLINE __attribute__ ((noinline)) #else #define NOINLINE #endif uint32 NOINLINE intel_int_disable(void) { #ifdef __GNUC__ asm(" .code 16"); #else asm(" .state16"); #endif asm(" mov A1, #0xC0"); asm(" ldr A2, tct_intel_disable"); asm(" bx A2 "); #ifdef __GNUC__ asm(".balign 4"); asm("tct_intel_disable:"); asm(" .word TCT_Control_Interrupts"); #else asm("tct_intel_disable .field _TCT_Control_Interrupts+0,32"); asm(" .global _TCT_Control_Interrupts"); #endif } void NOINLINE intel_int_enable(uint32 cpsr) { #ifdef __GNUC__ asm(" .code 16"); #else asm(" .state16"); #endif asm(" ldr A2, tct_intel_enable"); asm(" bx A2 "); #ifdef __GNUC__ asm(".balign 4"); asm("tct_intel_enable:"); asm(" .word TCT_Control_Interrupts"); #else asm("tct_intel_enable .field _TCT_Control_Interrupts+0,32"); asm(" .global _TCT_Control_Interrupts"); #endif } // Even though we have this end label, we cannot determine the number of // constant/PC-relative data following the code! #ifdef __GNUC__ asm(".globl ffsdrv_ram_intel_end"); asm("ffsdrv_ram_intel_end:"); #else asm(" .state32"); asm(" .label _ffsdrv_ram_intel_end"); asm(" .def _ffsdrv_ram_intel_end"); #endif