diff options
Diffstat (limited to 'src/flash/nand/lpc3180.c')
| -rw-r--r-- | src/flash/nand/lpc3180.c | 1243 |
1 files changed, 618 insertions, 625 deletions
diff --git a/src/flash/nand/lpc3180.c b/src/flash/nand/lpc3180.c index b370e112..1b530670 100644 --- a/src/flash/nand/lpc3180.c +++ b/src/flash/nand/lpc3180.c @@ -20,6 +20,7 @@ * Free Software Foundation, Inc., * * 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * ***************************************************************************/ + #ifdef HAVE_CONFIG_H #include "config.h" #endif @@ -28,25 +29,20 @@ #include "lpc3180.h" #include <target/target.h> - static int lpc3180_reset(struct nand_device *nand); static int lpc3180_controller_ready(struct nand_device *nand, int timeout); static int lpc3180_tc_ready(struct nand_device *nand, int timeout); - #define ECC_OFFS 0x120 #define SPARE_OFFS 0x140 #define DATA_OFFS 0x200 - /* nand device lpc3180 <target#> <oscillator_frequency> */ NAND_DEVICE_COMMAND_HANDLER(lpc3180_nand_device_command) { if (CMD_ARGC < 3) - { return ERROR_COMMAND_SYNTAX_ERROR; - } uint32_t osc_freq; COMMAND_PARSE_NUMBER(u32, CMD_ARGV[2], osc_freq); @@ -58,9 +54,9 @@ NAND_DEVICE_COMMAND_HANDLER(lpc3180_nand_device_command) lpc3180_info->osc_freq = osc_freq; if ((lpc3180_info->osc_freq < 1000) || (lpc3180_info->osc_freq > 20000)) - { - LOG_WARNING("LPC3180 oscillator frequency should be between 1000 and 20000 kHz, was %i", lpc3180_info->osc_freq); - } + LOG_WARNING( + "LPC3180 oscillator frequency should be between 1000 and 20000 kHz, was %i", + lpc3180_info->osc_freq); lpc3180_info->selected_controller = LPC3180_NO_CONTROLLER; lpc3180_info->sw_write_protection = 0; lpc3180_info->sw_wp_lower_bound = 0x0; @@ -120,25 +116,18 @@ static float lpc3180_cycle_time(struct nand_device *nand) /* determine selected HCLK source */ target_read_u32(target, 0x40004044, &pwr_ctrl); - if ((pwr_ctrl & (1 << 2)) == 0) /* DIRECT RUN mode */ - { + if ((pwr_ctrl & (1 << 2)) == 0) /* DIRECT RUN mode */ hclk = sysclk; - } - else - { + else { target_read_u32(target, 0x40004058, &hclkpll_ctrl); hclk_pll = lpc3180_pll(sysclk, hclkpll_ctrl); target_read_u32(target, 0x40004040, &hclkdiv_ctrl); if (pwr_ctrl & (1 << 10)) /* ARM_CLK and HCLK use PERIPH_CLK */ - { hclk = hclk_pll / (((hclkdiv_ctrl & 0x7c) >> 2) + 1); - } else /* HCLK uses HCLK_PLL */ - { hclk = hclk_pll / (1 << (hclkdiv_ctrl & 0x3)); - } } LOG_DEBUG("LPC3180 HCLK currently clocked at %i kHz", hclk); @@ -156,15 +145,13 @@ static int lpc3180_init(struct nand_device *nand) int address_cycles = nand->address_cycles ? : 3; int page_size = nand->page_size ? : 512; - if (target->state != TARGET_HALTED) - { + if (target->state != TARGET_HALTED) { LOG_ERROR("target must be halted to use LPC3180 NAND flash controller"); return ERROR_NAND_OPERATION_FAILED; } /* sanitize arguments */ - if ((bus_width != 8) && (bus_width != 16)) - { + if ((bus_width != 8) && (bus_width != 16)) { LOG_ERROR("LPC3180 only supports 8 or 16 bit bus width, not %i", bus_width); return ERROR_NAND_OPERATION_NOT_SUPPORTED; } @@ -173,34 +160,28 @@ static int lpc3180_init(struct nand_device *nand) * would support 16 bit, too, so we just warn about this for now */ if (bus_width == 16) - { LOG_WARNING("LPC3180 only supports 8 bit bus width"); - } /* inform calling code about selected bus width */ nand->bus_width = bus_width; - if ((address_cycles != 3) && (address_cycles != 4)) - { + if ((address_cycles != 3) && (address_cycles != 4)) { LOG_ERROR("LPC3180 only supports 3 or 4 address cycles, not %i", address_cycles); return ERROR_NAND_OPERATION_NOT_SUPPORTED; } - if ((page_size != 512) && (page_size != 2048)) - { + if ((page_size != 512) && (page_size != 2048)) { LOG_ERROR("LPC3180 only supports 512 or 2048 byte pages, not %i", page_size); return ERROR_NAND_OPERATION_NOT_SUPPORTED; } /* select MLC controller if none is currently selected */ - if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) - { + if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) { LOG_DEBUG("no LPC3180 NAND flash controller selected, using default 'mlc'"); lpc3180_info->selected_controller = LPC3180_MLC_CONTROLLER; } - if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) - { + if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) { uint32_t mlc_icr_value = 0x0; float cycle; int twp, twh, trp, treh, trhz, trbwb, tcea; @@ -245,9 +226,7 @@ static int lpc3180_init(struct nand_device *nand) ((trbwb & 0x1f) << 19) | ((tcea & 0x3) << 24)); lpc3180_reset(nand); - } - else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) { float cycle; int r_setup, r_hold, r_width, r_rdy; int w_setup, w_hold, w_width, w_rdy; @@ -258,18 +237,19 @@ static int lpc3180_init(struct nand_device *nand) /* after reset set other registers of SLC so reset calling is here at the begining*/ lpc3180_reset(nand); - /* SLC_CFG = 0x (Force nCE assert, DMA ECC enabled, ECC enabled, DMA burst enabled, DMA read from SLC, WIDTH = bus_width) */ + /* SLC_CFG = 0x (Force nCE assert, DMA ECC enabled, ECC enabled, DMA burst enabled, + *DMA read from SLC, WIDTH = bus_width) */ target_write_u32(target, 0x20020014, 0x3e | (bus_width == 16) ? 1 : 0); /* SLC_IEN = 3 (INT_RDY_EN = 1) ,(INT_TC_STAT = 1) */ target_write_u32(target, 0x20020020, 0x03); - /* DMA configuration */ - /* DMACLK_CTRL = 0x01 (enable clock for DMA controller) */ + /* DMA configuration + * DMACLK_CTRL = 0x01 (enable clock for DMA controller) */ target_write_u32(target, 0x400040e8, 0x01); /* DMACConfig = DMA enabled*/ target_write_u32(target, 0x31000030, 0x01); - + /* calculate NAND controller timings */ cycle = lpc3180_cycle_time(nand); @@ -295,35 +275,27 @@ static int lpc3180_reset(struct nand_device *nand) struct lpc3180_nand_controller *lpc3180_info = nand->controller_priv; struct target *target = nand->target; - if (target->state != TARGET_HALTED) - { + if (target->state != TARGET_HALTED) { LOG_ERROR("target must be halted to use LPC3180 NAND flash controller"); return ERROR_NAND_OPERATION_FAILED; } - if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) - { + if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) { LOG_ERROR("BUG: no LPC3180 NAND flash controller selected"); return ERROR_NAND_OPERATION_FAILED; - } - else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) { /* MLC_CMD = 0xff (reset controller and NAND device) */ target_write_u32(target, 0x200b8000, 0xff); - if (!lpc3180_controller_ready(nand, 100)) - { + if (!lpc3180_controller_ready(nand, 100)) { LOG_ERROR("LPC3180 NAND controller timed out after reset"); return ERROR_NAND_OPERATION_TIMEOUT; } - } - else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) { /* SLC_CTRL = 0x6 (ECC_CLEAR, SW_RESET) */ target_write_u32(target, 0x20020010, 0x6); - if (!lpc3180_controller_ready(nand, 100)) - { + if (!lpc3180_controller_ready(nand, 100)) { LOG_ERROR("LPC3180 NAND controller timed out after reset"); return ERROR_NAND_OPERATION_TIMEOUT; } @@ -337,24 +309,18 @@ static int lpc3180_command(struct nand_device *nand, uint8_t command) struct lpc3180_nand_controller *lpc3180_info = nand->controller_priv; struct target *target = nand->target; - if (target->state != TARGET_HALTED) - { + if (target->state != TARGET_HALTED) { LOG_ERROR("target must be halted to use LPC3180 NAND flash controller"); return ERROR_NAND_OPERATION_FAILED; } - if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) - { + if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) { LOG_ERROR("BUG: no LPC3180 NAND flash controller selected"); return ERROR_NAND_OPERATION_FAILED; - } - else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) { /* MLC_CMD = command */ target_write_u32(target, 0x200b8000, command); - } - else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) { /* SLC_CMD = command */ target_write_u32(target, 0x20020008, command); } @@ -367,24 +333,18 @@ static int lpc3180_address(struct nand_device *nand, uint8_t address) struct lpc3180_nand_controller *lpc3180_info = nand->controller_priv; struct target *target = nand->target; - if (target->state != TARGET_HALTED) - { + if (target->state != TARGET_HALTED) { LOG_ERROR("target must be halted to use LPC3180 NAND flash controller"); return ERROR_NAND_OPERATION_FAILED; } - if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) - { + if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) { LOG_ERROR("BUG: no LPC3180 NAND flash controller selected"); return ERROR_NAND_OPERATION_FAILED; - } - else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) { /* MLC_ADDR = address */ target_write_u32(target, 0x200b8004, address); - } - else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) { /* SLC_ADDR = address */ target_write_u32(target, 0x20020004, address); } @@ -397,24 +357,18 @@ static int lpc3180_write_data(struct nand_device *nand, uint16_t data) struct lpc3180_nand_controller *lpc3180_info = nand->controller_priv; struct target *target = nand->target; - if (target->state != TARGET_HALTED) - { + if (target->state != TARGET_HALTED) { LOG_ERROR("target must be halted to use LPC3180 NAND flash controller"); return ERROR_NAND_OPERATION_FAILED; } - if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) - { + if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) { LOG_ERROR("BUG: no LPC3180 NAND flash controller selected"); return ERROR_NAND_OPERATION_FAILED; - } - else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) { /* MLC_DATA = data */ target_write_u32(target, 0x200b0000, data); - } - else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) { /* SLC_DATA = data */ target_write_u32(target, 0x20020000, data); } @@ -427,55 +381,39 @@ static int lpc3180_read_data(struct nand_device *nand, void *data) struct lpc3180_nand_controller *lpc3180_info = nand->controller_priv; struct target *target = nand->target; - if (target->state != TARGET_HALTED) - { + if (target->state != TARGET_HALTED) { LOG_ERROR("target must be halted to use LPC3180 NAND flash controller"); return ERROR_NAND_OPERATION_FAILED; } - if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) - { + if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) { LOG_ERROR("BUG: no LPC3180 NAND flash controller selected"); return ERROR_NAND_OPERATION_FAILED; - } - else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) { /* data = MLC_DATA, use sized access */ - if (nand->bus_width == 8) - { + if (nand->bus_width == 8) { uint8_t *data8 = data; target_read_u8(target, 0x200b0000, data8); - } - else if (nand->bus_width == 16) - { + } else if (nand->bus_width == 16) { uint16_t *data16 = data; target_read_u16(target, 0x200b0000, data16); - } - else - { + } else { LOG_ERROR("BUG: bus_width neither 8 nor 16 bit"); return ERROR_NAND_OPERATION_FAILED; } - } - else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) { uint32_t data32; /* data = SLC_DATA, must use 32-bit access */ target_read_u32(target, 0x20020000, &data32); - if (nand->bus_width == 8) - { + if (nand->bus_width == 8) { uint8_t *data8 = data; *data8 = data32 & 0xff; - } - else if (nand->bus_width == 16) - { + } else if (nand->bus_width == 16) { uint16_t *data16 = data; *data16 = data32 & 0xffff; - } - else - { + } else { LOG_ERROR("BUG: bus_width neither 8 nor 16 bit"); return ERROR_NAND_OPERATION_FAILED; } @@ -484,7 +422,12 @@ static int lpc3180_read_data(struct nand_device *nand, void *data) return ERROR_OK; } -static int lpc3180_write_page(struct nand_device *nand, uint32_t page, uint8_t *data, uint32_t data_size, uint8_t *oob, uint32_t oob_size) +static int lpc3180_write_page(struct nand_device *nand, + uint32_t page, + uint8_t *data, + uint32_t data_size, + uint8_t *oob, + uint32_t oob_size) { struct lpc3180_nand_controller *lpc3180_info = nand->controller_priv; struct target *target = nand->target; @@ -492,37 +435,30 @@ static int lpc3180_write_page(struct nand_device *nand, uint32_t page, uint8_t * uint8_t status; uint8_t *page_buffer; - if (target->state != TARGET_HALTED) - { + if (target->state != TARGET_HALTED) { LOG_ERROR("target must be halted to use LPC3180 NAND flash controller"); return ERROR_NAND_OPERATION_FAILED; } - if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) - { + if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) { LOG_ERROR("BUG: no LPC3180 NAND flash controller selected"); return ERROR_NAND_OPERATION_FAILED; - } - else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) { uint8_t *oob_buffer; int quarter, num_quarters; - if (!data && oob) - { + if (!data && oob) { LOG_ERROR("LPC3180 MLC controller can't write OOB data only"); return ERROR_NAND_OPERATION_NOT_SUPPORTED; } - if (oob && (oob_size > 24)) - { + if (oob && (oob_size > 24)) { LOG_ERROR("LPC3180 MLC controller can't write more " "than 6 bytes for each quarter's OOB data"); return ERROR_NAND_OPERATION_NOT_SUPPORTED; } - if (data_size > (uint32_t)nand->page_size) - { + if (data_size > (uint32_t)nand->page_size) { LOG_ERROR("data size exceeds page size"); return ERROR_NAND_OPERATION_NOT_SUPPORTED; } @@ -533,8 +469,7 @@ static int lpc3180_write_page(struct nand_device *nand, uint32_t page, uint8_t * page_buffer = malloc(512); oob_buffer = malloc(6); - if (nand->page_size == 512) - { + if (nand->page_size == 512) { /* MLC_ADDR = 0x0 (one column cycle) */ target_write_u32(target, 0x200b8004, 0x0); @@ -544,9 +479,7 @@ static int lpc3180_write_page(struct nand_device *nand, uint32_t page, uint8_t * if (nand->address_cycles == 4) target_write_u32(target, 0x200b8004, (page >> 16) & 0xff); - } - else - { + } else { /* MLC_ADDR = 0x0 (two column cycles) */ target_write_u32(target, 0x200b8004, 0x0); target_write_u32(target, 0x200b8004, 0x0); @@ -561,22 +494,19 @@ static int lpc3180_write_page(struct nand_device *nand, uint32_t page, uint8_t * */ num_quarters = (nand->page_size == 2048) ? 4 : 1; - for (quarter = 0; quarter < num_quarters; quarter++) - { + for (quarter = 0; quarter < num_quarters; quarter++) { int thisrun_data_size = (data_size > 512) ? 512 : data_size; int thisrun_oob_size = (oob_size > 6) ? 6 : oob_size; memset(page_buffer, 0xff, 512); - if (data) - { + if (data) { memcpy(page_buffer, data, thisrun_data_size); data_size -= thisrun_data_size; data += thisrun_data_size; } memset(oob_buffer, 0xff, 6); - if (oob) - { + if (oob) { memcpy(oob_buffer, oob, thisrun_oob_size); oob_size -= thisrun_oob_size; oob += thisrun_oob_size; @@ -586,16 +516,16 @@ static int lpc3180_write_page(struct nand_device *nand, uint32_t page, uint8_t * target_write_u32(target, 0x200b8008, 0x0); target_write_memory(target, 0x200a8000, - 4, 128, page_buffer); + 4, 128, page_buffer); target_write_memory(target, 0x200a8000, - 1, 6, oob_buffer); + 1, 6, oob_buffer); /* write MLC_ECC_AUTO_ENC_REG to start auto encode */ target_write_u32(target, 0x200b8010, 0x0); - if (!lpc3180_controller_ready(nand, 1000)) - { - LOG_ERROR("timeout while waiting for completion of auto encode cycle"); + if (!lpc3180_controller_ready(nand, 1000)) { + LOG_ERROR( + "timeout while waiting for completion of auto encode cycle"); return ERROR_NAND_OPERATION_FAILED; } } @@ -603,291 +533,334 @@ static int lpc3180_write_page(struct nand_device *nand, uint32_t page, uint8_t * /* MLC_CMD = auto program command */ target_write_u32(target, 0x200b8000, NAND_CMD_PAGEPROG); - if ((retval = nand_read_status(nand, &status)) != ERROR_OK) - { + retval = nand_read_status(nand, &status); + if (retval != ERROR_OK) { LOG_ERROR("couldn't read status"); return ERROR_NAND_OPERATION_FAILED; } - if (status & NAND_STATUS_FAIL) - { + if (status & NAND_STATUS_FAIL) { LOG_ERROR("write operation didn't pass, status: 0x%2.2x", status); return ERROR_NAND_OPERATION_FAILED; } free(page_buffer); free(oob_buffer); - } - else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) - { - - /********************************************************************** - * Write both SLC NAND flash page main area and spare area. - * Small page - - * ------------------------------------------ - * | 512 bytes main | 16 bytes spare | - * ------------------------------------------ - * Large page - - * ------------------------------------------ - * | 2048 bytes main | 64 bytes spare | - * ------------------------------------------ - * If DMA & ECC enabled, then the ECC generated for the 1st 256-byte - * data is written to the 3rd word of the spare area. The ECC - * generated for the 2nd 256-byte data is written to the 4th word - * of the spare area. The ECC generated for the 3rd 256-byte data is - * written to the 7th word of the spare area. The ECC generated - * for the 4th 256-byte data is written to the 8th word of the - * spare area and so on. - * - **********************************************************************/ - - int i=0,target_mem_base; - uint8_t *ecc_flash_buffer; - struct working_area *pworking_area; - - - if(lpc3180_info->is_bulk){ - - if (!data && oob){ - /*if oob only mode is active original method is used as SLC controller hangs during DMA interworking. Anyway the code supports the oob only mode below. */ - return nand_write_page_raw(nand, page, data, data_size, oob, oob_size); - } - retval = nand_page_command(nand, page, NAND_CMD_SEQIN, !data); - if (ERROR_OK != retval) - return retval; - - /* allocate a working area */ - if (target->working_area_size < (uint32_t) nand->page_size + 0x200){ - LOG_ERROR("Reserve at least 0x%x physical target working area",nand->page_size + 0x200); - return ERROR_FLASH_OPERATION_FAILED; - } - if (target->working_area_phys%4){ - LOG_ERROR("Reserve the physical target working area at word boundary"); - return ERROR_FLASH_OPERATION_FAILED; - } - if (target_alloc_working_area(target, target->working_area_size, &pworking_area) != ERROR_OK) - { - LOG_ERROR("no working area specified, can't read LPC internal flash"); - return ERROR_FLASH_OPERATION_FAILED; - } - target_mem_base = target->working_area_phys; - - - if (nand->page_size == 2048) - { - page_buffer = malloc(2048); - } - else - { - page_buffer = malloc(512); - } - - ecc_flash_buffer = malloc(64); - - /* SLC_CFG = 0x (Force nCE assert, DMA ECC enabled, ECC enabled, DMA burst enabled, DMA write to SLC, WIDTH = bus_width) */ - target_write_u32(target, 0x20020014, 0x3c); - - if( data && !oob){ - /* set DMA LLI-s in target memory and in DMA*/ - for(i=0;i<nand->page_size/0x100;i++){ - - int tmp; - /* -------LLI for 256 byte block---------*/ - /* DMACC0SrcAddr = SRAM */ - target_write_u32(target,target_mem_base+0+i*32,target_mem_base+DATA_OFFS+i*256 ); - if(i==0) target_write_u32(target,0x31000100,target_mem_base+DATA_OFFS ); - /* DMACCxDestAddr = SLC_DMA_DATA */ - target_write_u32(target,target_mem_base+4+i*32,0x20020038 ); - if(i==0) target_write_u32(target,0x31000104,0x20020038 ); - /* DMACCxLLI = next element */ - tmp = (target_mem_base+(1+i*2)*16)&0xfffffffc; - target_write_u32(target,target_mem_base+8+i*32, tmp ); - if(i==0) target_write_u32(target,0x31000108, tmp ); - /* DMACCxControl = TransferSize =64, Source burst size =16, Destination burst size = 16, Source transfer width = 32 bit, - Destination transfer width = 32 bit, Source AHB master select = M0, Destination AHB master select = M0, Source increment = 1, - Destination increment = 0, Terminal count interrupt enable bit = 0*/ - target_write_u32(target,target_mem_base+12+i*32,0x40 | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 1<<26 | 0<<27| 0<<31); - if(i==0) target_write_u32(target,0x3100010c,0x40 | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 1<<26 | 0<<27| 0<<31); - - /* -------LLI for 3 byte ECC---------*/ - /* DMACC0SrcAddr = SLC_ECC*/ - target_write_u32(target,target_mem_base+16+i*32,0x20020034 ); - /* DMACCxDestAddr = SRAM */ - target_write_u32(target,target_mem_base+20+i*32,target_mem_base+SPARE_OFFS+8+16*(i>>1)+(i%2)*4 ); - /* DMACCxLLI = next element */ - tmp = (target_mem_base+(2+i*2)*16)&0xfffffffc; - target_write_u32(target,target_mem_base+24+i*32, tmp ); - /* DMACCxControl = TransferSize =1, Source burst size =4, Destination burst size = 4, Source transfer width = 32 bit, - Destination transfer width = 32 bit, Source AHB master select = M0, Destination AHB master select = M0, Source increment = 0, - Destination increment = 1, Terminal count interrupt enable bit = 0*/ - target_write_u32(target,target_mem_base+28+i*32,0x01 | 1<<12 | 1<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 0<<26 | 1<<27| 0<<31); - } - } - else if (data && oob){ - /* -------LLI for 512 or 2048 bytes page---------*/ - /* DMACC0SrcAddr = SRAM */ - target_write_u32(target,target_mem_base,target_mem_base+DATA_OFFS ); - target_write_u32(target,0x31000100,target_mem_base+DATA_OFFS ); - /* DMACCxDestAddr = SLC_DMA_DATA */ - target_write_u32(target,target_mem_base+4,0x20020038 ); - target_write_u32(target,0x31000104,0x20020038 ); - /* DMACCxLLI = next element */ - target_write_u32(target,target_mem_base+8, (target_mem_base+32)&0xfffffffc ); - target_write_u32(target,0x31000108, (target_mem_base+32)&0xfffffffc ); - /* DMACCxControl = TransferSize =512 or 128, Source burst size =16, Destination burst size = 16, Source transfer width = 32 bit, - Destination transfer width = 32 bit, Source AHB master select = M0, Destination AHB master select = M0, Source increment = 1, - Destination increment = 0, Terminal count interrupt enable bit = 0*/ - target_write_u32(target,target_mem_base+12,(nand->page_size==2048?512:128) | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 1<<26 | 0<<27| 0<<31); - target_write_u32(target,0x3100010c,(nand->page_size==2048?512:128) | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 1<<26 | 0<<27| 0<<31); - i = 1; - } - else if (!data && oob){ - i = 0; - } - - /* -------LLI for spare area---------*/ - /* DMACC0SrcAddr = SRAM*/ - target_write_u32(target,target_mem_base+0+i*32,target_mem_base+SPARE_OFFS ); - if(i==0) target_write_u32(target,0x31000100,target_mem_base+SPARE_OFFS ); - /* DMACCxDestAddr = SLC_DMA_DATA */ - target_write_u32(target,target_mem_base+4+i*32,0x20020038 ); - if(i==0) target_write_u32(target,0x31000104,0x20020038 ); - /* DMACCxLLI = next element = NULL */ - target_write_u32(target,target_mem_base+8+i*32, 0 ); - if(i==0) target_write_u32(target,0x31000108,0 ); - /* DMACCxControl = TransferSize =16 for large page or 4 for small page, Source burst size =16, Destination burst size = 16, Source transfer width = 32 bit, - Destination transfer width = 32 bit, Source AHB master select = M0, Destination AHB master select = M0, Source increment = 1, - Destination increment = 0, Terminal count interrupt enable bit = 0*/ - target_write_u32(target,target_mem_base+12+i*32, (nand->page_size==2048?0x10:0x04) | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 1<<26 | 0<<27| 0<<31); - if(i==0) target_write_u32(target,0x3100010c,(nand->page_size==2048?0x10:0x04) | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 1<<26 | 0<<27| 0<<31 ); - - - - memset(ecc_flash_buffer, 0xff, 64); - if( oob ){ - memcpy(ecc_flash_buffer,oob, oob_size); - } - target_write_memory(target, target_mem_base+SPARE_OFFS, 4, 16, ecc_flash_buffer); - - if (data){ - memset(page_buffer, 0xff, nand->page_size == 2048?2048:512); - memcpy(page_buffer,data, data_size); - target_write_memory(target, target_mem_base+DATA_OFFS, 4, nand->page_size == 2048?512:128, page_buffer); - } - - free(page_buffer); - free(ecc_flash_buffer); - - /* Enable DMA after channel set up ! - LLI only works when DMA is the flow controller! - */ - /* DMACCxConfig= E=1, SrcPeripheral = 1 (SLC), DestPeripheral = 1 (SLC), FlowCntrl = 2 (Pher -> Mem, DMA), IE = 0, ITC = 0, L= 0, H=0*/ - target_write_u32(target,0x31000110, 1 | 1<<1 | 1<<6 | 2<<11 | 0<<14 | 0<<15 | 0<<16 | 0<<18); - - - - /* SLC_CTRL = 3 (START DMA), ECC_CLEAR */ - target_write_u32(target, 0x20020010, 0x3); - - /* SLC_ICR = 2, INT_TC_CLR, clear pending TC*/ - target_write_u32(target, 0x20020028, 2); - - /* SLC_TC */ - if (!data && oob) - target_write_u32(target, 0x20020030, (nand->page_size==2048?0x10:0x04)); - else - target_write_u32(target, 0x20020030, (nand->page_size==2048?0x840:0x210)); - - nand_write_finish(nand); - - - if (!lpc3180_tc_ready(nand, 1000)) - { - LOG_ERROR("timeout while waiting for completion of DMA"); - return ERROR_NAND_OPERATION_FAILED; - } - - target_free_working_area(target,pworking_area); - - LOG_INFO("Page = 0x%" PRIx32 " was written.",page); - - } - else - return nand_write_page_raw(nand, page, data, data_size, oob, oob_size); - } + } else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) { + + /********************************************************************** + * Write both SLC NAND flash page main area and spare area. + * Small page - + * ------------------------------------------ + * | 512 bytes main | 16 bytes spare | + * ------------------------------------------ + * Large page - + * ------------------------------------------ + * | 2048 bytes main | 64 bytes spare | + * ------------------------------------------ + * If DMA & ECC enabled, then the ECC generated for the 1st 256-byte + * data is written to the 3rd word of the spare area. The ECC + * generated for the 2nd 256-byte data is written to the 4th word + * of the spare area. The ECC generated for the 3rd 256-byte data is + * written to the 7th word of the spare area. The ECC generated + * for the 4th 256-byte data is written to the 8th word of the + * spare area and so on. + * + **********************************************************************/ + + int i = 0, target_mem_base; + uint8_t *ecc_flash_buffer; + struct working_area *pworking_area; + + if (lpc3180_info->is_bulk) { + + if (!data && oob) { + /*if oob only mode is active original method is used as SLC + *controller hangs during DMA interworking. Anyway the code supports + *the oob only mode below. */ + return nand_write_page_raw(nand, + page, + data, + data_size, + oob, + oob_size); + } + retval = nand_page_command(nand, page, NAND_CMD_SEQIN, !data); + if (ERROR_OK != retval) + return retval; + + /* allocate a working area */ + if (target->working_area_size < (uint32_t) nand->page_size + 0x200) { + LOG_ERROR("Reserve at least 0x%x physical target working area", + nand->page_size + 0x200); + return ERROR_FLASH_OPERATION_FAILED; + } + if (target->working_area_phys%4) { + LOG_ERROR( + "Reserve the physical target working area at word boundary"); + return ERROR_FLASH_OPERATION_FAILED; + } + if (target_alloc_working_area(target, target->working_area_size, + &pworking_area) != ERROR_OK) { + LOG_ERROR("no working area specified, can't read LPC internal flash"); + return ERROR_FLASH_OPERATION_FAILED; + } + target_mem_base = target->working_area_phys; + + if (nand->page_size == 2048) + page_buffer = malloc(2048); + else + page_buffer = malloc(512); + + ecc_flash_buffer = malloc(64); + + /* SLC_CFG = 0x (Force nCE assert, DMA ECC enabled, ECC enabled, DMA burst + *enabled, DMA write to SLC, WIDTH = bus_width) */ + target_write_u32(target, 0x20020014, 0x3c); + + if (data && !oob) { + /* set DMA LLI-s in target memory and in DMA*/ + for (i = 0; i < nand->page_size/0x100; i++) { + + int tmp; + /* -------LLI for 256 byte block--------- + * DMACC0SrcAddr = SRAM */ + target_write_u32(target, + target_mem_base+0+i*32, + target_mem_base+DATA_OFFS+i*256); + if (i == 0) + target_write_u32(target, + 0x31000100, + target_mem_base+DATA_OFFS); + /* DMACCxDestAddr = SLC_DMA_DATA */ + target_write_u32(target, target_mem_base+4+i*32, 0x20020038); + if (i == 0) + target_write_u32(target, 0x31000104, 0x20020038); + /* DMACCxLLI = next element */ + tmp = (target_mem_base+(1+i*2)*16)&0xfffffffc; + target_write_u32(target, target_mem_base+8+i*32, tmp); + if (i == 0) + target_write_u32(target, 0x31000108, tmp); + /* DMACCxControl = TransferSize =64, Source burst size =16, + * Destination burst size = 16, Source transfer width = 32 bit, + * Destination transfer width = 32 bit, Source AHB master select = M0, + * Destination AHB master select = M0, Source increment = 1, + * Destination increment = 0, Terminal count interrupt enable bit = 0*/ + target_write_u32(target, + target_mem_base+12+i*32, + 0x40 | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 1<<26 | + 0<<27 | 0<<31); + if (i == 0) + target_write_u32(target, + 0x3100010c, + 0x40 | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 1<<26 | + 0<<27 | 0<<31); + + /* -------LLI for 3 byte ECC--------- + * DMACC0SrcAddr = SLC_ECC*/ + target_write_u32(target, target_mem_base+16+i*32, 0x20020034); + /* DMACCxDestAddr = SRAM */ + target_write_u32(target, + target_mem_base+20+i*32, + target_mem_base+SPARE_OFFS+8+16*(i>>1)+(i%2)*4); + /* DMACCxLLI = next element */ + tmp = (target_mem_base+(2+i*2)*16)&0xfffffffc; + target_write_u32(target, target_mem_base+24+i*32, tmp); + /* DMACCxControl = TransferSize =1, Source burst size =4, + * Destination burst size = 4, Source transfer width = 32 bit, + * Destination transfer width = 32 bit, Source AHB master select = M0, + * Destination AHB master select = M0, Source increment = 0, + * Destination increment = 1, Terminal count interrupt enable bit = 0*/ + target_write_u32(target, + target_mem_base+28+i*32, + 0x01 | 1<<12 | 1<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 0<<26 | 1<<27 | 0<< + 31); + } + } else if (data && oob) { + /* -------LLI for 512 or 2048 bytes page--------- + * DMACC0SrcAddr = SRAM */ + target_write_u32(target, target_mem_base, target_mem_base+DATA_OFFS); + target_write_u32(target, 0x31000100, target_mem_base+DATA_OFFS); + /* DMACCxDestAddr = SLC_DMA_DATA */ + target_write_u32(target, target_mem_base+4, 0x20020038); + target_write_u32(target, 0x31000104, 0x20020038); + /* DMACCxLLI = next element */ + target_write_u32(target, + target_mem_base+8, + (target_mem_base+32)&0xfffffffc); + target_write_u32(target, 0x31000108, + (target_mem_base+32)&0xfffffffc); + /* DMACCxControl = TransferSize =512 or 128, Source burst size =16, + * Destination burst size = 16, Source transfer width = 32 bit, + * Destination transfer width = 32 bit, Source AHB master select = M0, + * Destination AHB master select = M0, Source increment = 1, + * Destination increment = 0, Terminal count interrupt enable bit = 0*/ + target_write_u32(target, + target_mem_base+12, + (nand->page_size == + 2048 ? 512 : 128) | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | + 1<<26 | 0<<27 | 0<<31); + target_write_u32(target, + 0x3100010c, + (nand->page_size == + 2048 ? 512 : 128) | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | + 1<<26 | 0<<27 | 0<<31); + i = 1; + } else if (!data && oob) + i = 0; + + /* -------LLI for spare area--------- + * DMACC0SrcAddr = SRAM*/ + target_write_u32(target, target_mem_base+0+i*32, target_mem_base+SPARE_OFFS); + if (i == 0) + target_write_u32(target, 0x31000100, target_mem_base+SPARE_OFFS); + /* DMACCxDestAddr = SLC_DMA_DATA */ + target_write_u32(target, target_mem_base+4+i*32, 0x20020038); + if (i == 0) + target_write_u32(target, 0x31000104, 0x20020038); + /* DMACCxLLI = next element = NULL */ + target_write_u32(target, target_mem_base+8+i*32, 0); + if (i == 0) + target_write_u32(target, 0x31000108, 0); + /* DMACCxControl = TransferSize =16 for large page or 4 for small page, + * Source burst size =16, Destination burst size = 16, Source transfer width = 32 bit, + * Destination transfer width = 32 bit, Source AHB master select = M0, + * Destination AHB master select = M0, Source increment = 1, + * Destination increment = 0, Terminal count interrupt enable bit = 0*/ + target_write_u32(target, + target_mem_base+12+i*32, + (nand->page_size == + 2048 ? 0x10 : 0x04) | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 1<<26 | + 0<<27 | 0<<31); + if (i == 0) + target_write_u32(target, 0x3100010c, + (nand->page_size == 2048 ? + 0x10 : 0x04) | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | + 0<<25 | 1<<26 | 0<<27 | 0<<31); + + memset(ecc_flash_buffer, 0xff, 64); + if (oob) + memcpy(ecc_flash_buffer, oob, oob_size); + target_write_memory(target, + target_mem_base+SPARE_OFFS, + 4, + 16, + ecc_flash_buffer); + + if (data) { + memset(page_buffer, 0xff, nand->page_size == 2048 ? 2048 : 512); + memcpy(page_buffer, data, data_size); + target_write_memory(target, + target_mem_base+DATA_OFFS, + 4, + nand->page_size == 2048 ? 512 : 128, + page_buffer); + } + + free(page_buffer); + free(ecc_flash_buffer); + + /* Enable DMA after channel set up ! + LLI only works when DMA is the flow controller! + */ + /* DMACCxConfig= E=1, SrcPeripheral = 1 (SLC), DestPeripheral = 1 (SLC), + *FlowCntrl = 2 (Pher -> Mem, DMA), IE = 0, ITC = 0, L= 0, H=0*/ + target_write_u32(target, + 0x31000110, + 1 | 1<<1 | 1<<6 | 2<<11 | 0<<14 | 0<<15 | 0<<16 | 0<<18); + /* SLC_CTRL = 3 (START DMA), ECC_CLEAR */ + target_write_u32(target, 0x20020010, 0x3); + + /* SLC_ICR = 2, INT_TC_CLR, clear pending TC*/ + target_write_u32(target, 0x20020028, 2); + + /* SLC_TC */ + if (!data && oob) + target_write_u32(target, 0x20020030, + (nand->page_size == 2048 ? 0x10 : 0x04)); + else + target_write_u32(target, 0x20020030, + (nand->page_size == 2048 ? 0x840 : 0x210)); + + nand_write_finish(nand); + + if (!lpc3180_tc_ready(nand, 1000)) { + LOG_ERROR("timeout while waiting for completion of DMA"); + return ERROR_NAND_OPERATION_FAILED; + } + + target_free_working_area(target, pworking_area); + + LOG_INFO("Page = 0x%" PRIx32 " was written.", page); + + } else + return nand_write_page_raw(nand, page, data, data_size, oob, oob_size); + } return ERROR_OK; } -static int lpc3180_read_page(struct nand_device *nand, uint32_t page, uint8_t *data, uint32_t data_size, uint8_t *oob, uint32_t oob_size) +static int lpc3180_read_page(struct nand_device *nand, + uint32_t page, + uint8_t *data, + uint32_t data_size, + uint8_t *oob, + uint32_t oob_size) { struct lpc3180_nand_controller *lpc3180_info = nand->controller_priv; struct target *target = nand->target; uint8_t *page_buffer; - if (target->state != TARGET_HALTED) - { + if (target->state != TARGET_HALTED) { LOG_ERROR("target must be halted to use LPC3180 NAND flash controller"); return ERROR_NAND_OPERATION_FAILED; } - if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) - { + if (lpc3180_info->selected_controller == LPC3180_NO_CONTROLLER) { LOG_ERROR("BUG: no LPC3180 NAND flash controller selected"); return ERROR_NAND_OPERATION_FAILED; - } - else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) { uint8_t *oob_buffer; uint32_t page_bytes_done = 0; uint32_t oob_bytes_done = 0; uint32_t mlc_isr; #if 0 - if (oob && (oob_size > 6)) - { + if (oob && (oob_size > 6)) { LOG_ERROR("LPC3180 MLC controller can't read more than 6 bytes of OOB data"); return ERROR_NAND_OPERATION_NOT_SUPPORTED; } #endif - if (data_size > (uint32_t)nand->page_size) - { + if (data_size > (uint32_t)nand->page_size) { LOG_ERROR("data size exceeds page size"); return ERROR_NAND_OPERATION_NOT_SUPPORTED; } - if (nand->page_size == 2048) - { + if (nand->page_size == 2048) { page_buffer = malloc(2048); oob_buffer = malloc(64); - } - else - { + } else { page_buffer = malloc(512); oob_buffer = malloc(16); } - if (!data && oob) - { + if (!data && oob) { /* MLC_CMD = Read OOB * we can use the READOOB command on both small and large page devices, * as the controller translates the 0x50 command to a 0x0 with appropriate * positioning of the serial buffer read pointer */ target_write_u32(target, 0x200b8000, NAND_CMD_READOOB); - } - else - { + } else { /* MLC_CMD = Read0 */ target_write_u32(target, 0x200b8000, NAND_CMD_READ0); } - if (nand->page_size == 512) - { - /* small page device */ - /* MLC_ADDR = 0x0 (one column cycle) */ + if (nand->page_size == 512) { + /* small page device + * MLC_ADDR = 0x0 (one column cycle) */ target_write_u32(target, 0x200b8004, 0x0); /* MLC_ADDR = row */ @@ -896,11 +869,9 @@ static int lpc3180_read_page(struct nand_device *nand, uint32_t page, uint8_t *d if (nand->address_cycles == 4) target_write_u32(target, 0x200b8004, (page >> 16) & 0xff); - } - else - { - /* large page device */ - /* MLC_ADDR = 0x0 (two column cycles) */ + } else { + /* large page device + * MLC_ADDR = 0x0 (two column cycles) */ target_write_u32(target, 0x200b8004, 0x0); target_write_u32(target, 0x200b8004, 0x0); @@ -912,39 +883,42 @@ static int lpc3180_read_page(struct nand_device *nand, uint32_t page, uint8_t *d target_write_u32(target, 0x200b8000, NAND_CMD_READSTART); } - while (page_bytes_done < (uint32_t)nand->page_size) - { + while (page_bytes_done < (uint32_t)nand->page_size) { /* MLC_ECC_AUTO_DEC_REG = dummy */ target_write_u32(target, 0x200b8014, 0xaa55aa55); - if (!lpc3180_controller_ready(nand, 1000)) - { - LOG_ERROR("timeout while waiting for completion of auto decode cycle"); + if (!lpc3180_controller_ready(nand, 1000)) { + LOG_ERROR( + "timeout while waiting for completion of auto decode cycle"); return ERROR_NAND_OPERATION_FAILED; } target_read_u32(target, 0x200b8048, &mlc_isr); - if (mlc_isr & 0x8) - { - if (mlc_isr & 0x40) - { - LOG_ERROR("uncorrectable error detected: 0x%2.2x", (unsigned)mlc_isr); + if (mlc_isr & 0x8) { + if (mlc_isr & 0x40) { + LOG_ERROR("uncorrectable error detected: 0x%2.2x", + (unsigned)mlc_isr); return ERROR_NAND_OPERATION_FAILED; } - LOG_WARNING("%i symbol error detected and corrected", ((int)(((mlc_isr & 0x30) >> 4) + 1))); + LOG_WARNING("%i symbol error detected and corrected", + ((int)(((mlc_isr & 0x30) >> 4) + 1))); } if (data) - { - target_read_memory(target, 0x200a8000, 4, 128, page_buffer + page_bytes_done); - } + target_read_memory(target, + 0x200a8000, + 4, + 128, + page_buffer + page_bytes_done); if (oob) - { - target_read_memory(target, 0x200a8000, 4, 4, oob_buffer + oob_bytes_done); - } + target_read_memory(target, + 0x200a8000, + 4, + 4, + oob_buffer + oob_bytes_done); page_bytes_done += 512; oob_bytes_done += 16; @@ -958,178 +932,221 @@ static int lpc3180_read_page(struct nand_device *nand, uint32_t page, uint8_t *d free(page_buffer); free(oob_buffer); - } - else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) { + + /********************************************************************** + * Read both SLC NAND flash page main area and spare area. + * Small page - + * ------------------------------------------ + * | 512 bytes main | 16 bytes spare | + * ------------------------------------------ + * Large page - + * ------------------------------------------ + * | 2048 bytes main | 64 bytes spare | + * ------------------------------------------ + * If DMA & ECC enabled, then the ECC generated for the 1st 256-byte + * data is compared with the 3rd word of the spare area. The ECC + * generated for the 2nd 256-byte data is compared with the 4th word + * of the spare area. The ECC generated for the 3rd 256-byte data is + * compared with the 7th word of the spare area. The ECC generated + * for the 4th 256-byte data is compared with the 8th word of the + * spare area and so on. + * + **********************************************************************/ + + int retval, i, target_mem_base; + uint8_t *ecc_hw_buffer; + uint8_t *ecc_flash_buffer; + struct working_area *pworking_area; + + if (lpc3180_info->is_bulk) { + + /* read always the data and also oob areas*/ + + retval = nand_page_command(nand, page, NAND_CMD_READ0, 0); + if (ERROR_OK != retval) + return retval; + + /* allocate a working area */ + if (target->working_area_size < (uint32_t) nand->page_size + 0x200) { + LOG_ERROR("Reserve at least 0x%x physical target working area", + nand->page_size + 0x200); + return ERROR_FLASH_OPERATION_FAILED; + } + if (target->working_area_phys%4) { + LOG_ERROR( + "Reserve the physical target working area at word boundary"); + return ERROR_FLASH_OPERATION_FAILED; + } + if (target_alloc_working_area(target, target->working_area_size, + &pworking_area) != ERROR_OK) { + LOG_ERROR("no working area specified, can't read LPC internal flash"); + return ERROR_FLASH_OPERATION_FAILED; + } + target_mem_base = target->working_area_phys; + + if (nand->page_size == 2048) + page_buffer = malloc(2048); + else + page_buffer = malloc(512); + + ecc_hw_buffer = malloc(32); + ecc_flash_buffer = malloc(64); + + /* SLC_CFG = 0x (Force nCE assert, DMA ECC enabled, ECC enabled, DMA burst + *enabled, DMA read from SLC, WIDTH = bus_width) */ + target_write_u32(target, 0x20020014, 0x3e); + + /* set DMA LLI-s in target memory and in DMA*/ + for (i = 0; i < nand->page_size/0x100; i++) { + int tmp; + /* -------LLI for 256 byte block--------- + * DMACC0SrcAddr = SLC_DMA_DATA*/ + target_write_u32(target, target_mem_base+0+i*32, 0x20020038); + if (i == 0) + target_write_u32(target, 0x31000100, 0x20020038); + /* DMACCxDestAddr = SRAM */ + target_write_u32(target, + target_mem_base+4+i*32, + target_mem_base+DATA_OFFS+i*256); + if (i == 0) + target_write_u32(target, + 0x31000104, + target_mem_base+DATA_OFFS); + /* DMACCxLLI = next element */ + tmp = (target_mem_base+(1+i*2)*16)&0xfffffffc; + target_write_u32(target, target_mem_base+8+i*32, tmp); + if (i == 0) + target_write_u32(target, 0x31000108, tmp); + /* DMACCxControl = TransferSize =64, Source burst size =16, + * Destination burst size = 16, Source transfer width = 32 bit, + * Destination transfer width = 32 bit, Source AHB master select = M0, + * Destination AHB master select = M0, Source increment = 0, + * Destination increment = 1, Terminal count interrupt enable bit = 0*/ + target_write_u32(target, + target_mem_base+12+i*32, + 0x40 | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 0<<26 | 1<<27 | 0<< + 31); + if (i == 0) + target_write_u32(target, + 0x3100010c, + 0x40 | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 0<<26 | 1<<27 | 0<< + 31); + + /* -------LLI for 3 byte ECC--------- + * DMACC0SrcAddr = SLC_ECC*/ + target_write_u32(target, target_mem_base+16+i*32, 0x20020034); + /* DMACCxDestAddr = SRAM */ + target_write_u32(target, + target_mem_base+20+i*32, + target_mem_base+ECC_OFFS+i*4); + /* DMACCxLLI = next element */ + tmp = (target_mem_base+(2+i*2)*16)&0xfffffffc; + target_write_u32(target, target_mem_base+24+i*32, tmp); + /* DMACCxControl = TransferSize =1, Source burst size =4, + * Destination burst size = 4, Source transfer width = 32 bit, + * Destination transfer width = 32 bit, Source AHB master select = M0, + * Destination AHB master select = M0, Source increment = 0, + * Destination increment = 1, Terminal count interrupt enable bit = 0*/ + target_write_u32(target, + target_mem_base+28+i*32, + 0x01 | 1<<12 | 1<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 0<<26 | 1<<27 | 0<< + 31); + } + + /* -------LLI for spare area--------- + * DMACC0SrcAddr = SLC_DMA_DATA*/ + target_write_u32(target, target_mem_base+0+i*32, 0x20020038); + /* DMACCxDestAddr = SRAM */ + target_write_u32(target, target_mem_base+4+i*32, target_mem_base+SPARE_OFFS); + /* DMACCxLLI = next element = NULL */ + target_write_u32(target, target_mem_base+8+i*32, 0); + /* DMACCxControl = TransferSize =16 for large page or 4 for small page, + * Source burst size =16, Destination burst size = 16, Source transfer width = 32 bit, + * Destination transfer width = 32 bit, Source AHB master select = M0, + * Destination AHB master select = M0, Source increment = 0, + * Destination increment = 1, Terminal count interrupt enable bit = 0*/ + target_write_u32(target, + target_mem_base + 12 + i * 32, + (nand->page_size == 2048 ? 0x10 : 0x04) | 3<<12 | 3<<15 | 2<<18 | 2<<21 | + 0<<24 | 0<<25 | 0<<26 | 1<<27 | 0<<31); + + /* Enable DMA after channel set up ! + LLI only works when DMA is the flow controller! + */ + /* DMACCxConfig= E=1, SrcPeripheral = 1 (SLC), DestPeripheral = 1 (SLC), + *FlowCntrl = 2 (Pher-> Mem, DMA), IE = 0, ITC = 0, L= 0, H=0*/ + target_write_u32(target, + 0x31000110, + 1 | 1<<1 | 1<<6 | 2<<11 | 0<<14 | 0<<15 | 0<<16 | 0<<18); + + /* SLC_CTRL = 3 (START DMA), ECC_CLEAR */ + target_write_u32(target, 0x20020010, 0x3); + + /* SLC_ICR = 2, INT_TC_CLR, clear pending TC*/ + target_write_u32(target, 0x20020028, 2); + + /* SLC_TC */ + target_write_u32(target, 0x20020030, + (nand->page_size == 2048 ? 0x840 : 0x210)); + + if (!lpc3180_tc_ready(nand, 1000)) { + LOG_ERROR("timeout while waiting for completion of DMA"); + free(page_buffer); + free(ecc_hw_buffer); + free(ecc_flash_buffer); + target_free_working_area(target, pworking_area); + return ERROR_NAND_OPERATION_FAILED; + } + + if (data) { + target_read_memory(target, + target_mem_base+DATA_OFFS, + 4, + nand->page_size == 2048 ? 512 : 128, + page_buffer); + memcpy(data, page_buffer, data_size); + + LOG_INFO("Page = 0x%" PRIx32 " was read.", page); + + /* check hw generated ECC for each 256 bytes block with the saved + *ECC in flash spare area*/ + int idx = nand->page_size/0x200; + target_read_memory(target, + target_mem_base+SPARE_OFFS, + 4, + 16, + ecc_flash_buffer); + target_read_memory(target, + target_mem_base+ECC_OFFS, + 4, + 8, + ecc_hw_buffer); + for (i = 0; i < idx; i++) { + if ((0x00ffffff & *(uint32_t *)(void *)(ecc_hw_buffer+i*8)) != + (0x00ffffff & *(uint32_t *)(void *)(ecc_flash_buffer+8+i*16))) + LOG_WARNING( + "ECC mismatch at 256 bytes size block= %d at page= 0x%" PRIx32, + i * 2 + 1, page); + if ((0x00ffffff & *(uint32_t *)(void *)(ecc_hw_buffer+4+i*8)) != + (0x00ffffff & *(uint32_t *)(void *)(ecc_flash_buffer+12+i*16))) + LOG_WARNING( + "ECC mismatch at 256 bytes size block= %d at page= 0x%" PRIx32, + i * 2 + 2, page); + } + } + + if (oob) + memcpy(oob, ecc_flash_buffer, oob_size); - /********************************************************************** - * Read both SLC NAND flash page main area and spare area. - * Small page - - * ------------------------------------------ - * | 512 bytes main | 16 bytes spare | - * ------------------------------------------ - * Large page - - * ------------------------------------------ - * | 2048 bytes main | 64 bytes spare | - * ------------------------------------------ - * If DMA & ECC enabled, then the ECC generated for the 1st 256-byte - * data is compared with the 3rd word of the spare area. The ECC - * generated for the 2nd 256-byte data is compared with the 4th word - * of the spare area. The ECC generated for the 3rd 256-byte data is - * compared with the 7th word of the spare area. The ECC generated - * for the 4th 256-byte data is compared with the 8th word of the - * spare area and so on. - * - **********************************************************************/ - - int retval,i,target_mem_base; - uint8_t *ecc_hw_buffer; - uint8_t *ecc_flash_buffer; - struct working_area *pworking_area; - - if(lpc3180_info->is_bulk){ - - /* read always the data and also oob areas*/ - - retval = nand_page_command(nand, page, NAND_CMD_READ0, 0); - if (ERROR_OK != retval) - return retval; - - /* allocate a working area */ - if (target->working_area_size < (uint32_t) nand->page_size + 0x200){ - LOG_ERROR("Reserve at least 0x%x physical target working area",nand->page_size + 0x200); - return ERROR_FLASH_OPERATION_FAILED; - } - if (target->working_area_phys%4){ - LOG_ERROR("Reserve the physical target working area at word boundary"); - return ERROR_FLASH_OPERATION_FAILED; - } - if (target_alloc_working_area(target, target->working_area_size, &pworking_area) != ERROR_OK) - { - LOG_ERROR("no working area specified, can't read LPC internal flash"); - return ERROR_FLASH_OPERATION_FAILED; - } - target_mem_base = target->working_area_phys; - - if (nand->page_size == 2048) - { - page_buffer = malloc(2048); - } - else - { - page_buffer = malloc(512); - } - - ecc_hw_buffer = malloc(32); - ecc_flash_buffer = malloc(64); - - /* SLC_CFG = 0x (Force nCE assert, DMA ECC enabled, ECC enabled, DMA burst enabled, DMA read from SLC, WIDTH = bus_width) */ - target_write_u32(target, 0x20020014, 0x3e); - - /* set DMA LLI-s in target memory and in DMA*/ - for(i=0;i<nand->page_size/0x100;i++){ - int tmp; - /* -------LLI for 256 byte block---------*/ - /* DMACC0SrcAddr = SLC_DMA_DATA*/ - target_write_u32(target,target_mem_base+0+i*32,0x20020038 ); - if(i==0) target_write_u32(target,0x31000100,0x20020038 ); - /* DMACCxDestAddr = SRAM */ - target_write_u32(target,target_mem_base+4+i*32,target_mem_base+DATA_OFFS+i*256 ); - if(i==0) target_write_u32(target,0x31000104,target_mem_base+DATA_OFFS ); - /* DMACCxLLI = next element */ - tmp = (target_mem_base+(1+i*2)*16)&0xfffffffc; - target_write_u32(target,target_mem_base+8+i*32, tmp ); - if(i==0) target_write_u32(target,0x31000108, tmp ); - /* DMACCxControl = TransferSize =64, Source burst size =16, Destination burst size = 16, Source transfer width = 32 bit, - Destination transfer width = 32 bit, Source AHB master select = M0, Destination AHB master select = M0, Source increment = 0, - Destination increment = 1, Terminal count interrupt enable bit = 0*/ - target_write_u32(target,target_mem_base+12+i*32,0x40 | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 0<<26 | 1<<27| 0<<31); - if(i==0) target_write_u32(target,0x3100010c,0x40 | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 0<<26 | 1<<27| 0<<31); - - /* -------LLI for 3 byte ECC---------*/ - /* DMACC0SrcAddr = SLC_ECC*/ - target_write_u32(target,target_mem_base+16+i*32,0x20020034 ); - /* DMACCxDestAddr = SRAM */ - target_write_u32(target,target_mem_base+20+i*32,target_mem_base+ECC_OFFS+i*4 ); - /* DMACCxLLI = next element */ - tmp = (target_mem_base+(2+i*2)*16)&0xfffffffc; - target_write_u32(target,target_mem_base+24+i*32, tmp ); - /* DMACCxControl = TransferSize =1, Source burst size =4, Destination burst size = 4, Source transfer width = 32 bit, - Destination transfer width = 32 bit, Source AHB master select = M0, Destination AHB master select = M0, Source increment = 0, - Destination increment = 1, Terminal count interrupt enable bit = 0*/ - target_write_u32(target,target_mem_base+28+i*32,0x01 | 1<<12 | 1<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 0<<26 | 1<<27| 0<<31); - - - } - - /* -------LLI for spare area---------*/ - /* DMACC0SrcAddr = SLC_DMA_DATA*/ - target_write_u32(target,target_mem_base+0+i*32,0x20020038 ); - /* DMACCxDestAddr = SRAM */ - target_write_u32(target,target_mem_base+4+i*32,target_mem_base+SPARE_OFFS ); - /* DMACCxLLI = next element = NULL */ - target_write_u32(target,target_mem_base+8+i*32, 0 ); - /* DMACCxControl = TransferSize =16 for large page or 4 for small page, Source burst size =16, Destination burst size = 16, Source transfer width = 32 bit, - Destination transfer width = 32 bit, Source AHB master select = M0, Destination AHB master select = M0, Source increment = 0, - Destination increment = 1, Terminal count interrupt enable bit = 0*/ - target_write_u32(target,target_mem_base+12+i*32, (nand->page_size==2048?0x10:0x04) | 3<<12 | 3<<15 | 2<<18 | 2<<21 | 0<<24 | 0<<25 | 0<<26 | 1<<27| 0<<31); - - /* Enable DMA after channel set up ! - LLI only works when DMA is the flow controller! - */ - /* DMACCxConfig= E=1, SrcPeripheral = 1 (SLC), DestPeripheral = 1 (SLC), FlowCntrl = 2 (Pher-> Mem, DMA), IE = 0, ITC = 0, L= 0, H=0*/ - target_write_u32(target,0x31000110, 1 | 1<<1 | 1<<6 | 2<<11 | 0<<14 | 0<<15 | 0<<16 | 0<<18); - - - /* SLC_CTRL = 3 (START DMA), ECC_CLEAR */ - target_write_u32(target, 0x20020010, 0x3); - - /* SLC_ICR = 2, INT_TC_CLR, clear pending TC*/ - target_write_u32(target, 0x20020028, 2); - - /* SLC_TC */ - target_write_u32(target, 0x20020030, (nand->page_size==2048?0x840:0x210)); - - if (!lpc3180_tc_ready(nand, 1000)) - { - LOG_ERROR("timeout while waiting for completion of DMA"); - free(page_buffer); - free(ecc_hw_buffer); - free(ecc_flash_buffer); - target_free_working_area(target,pworking_area); - return ERROR_NAND_OPERATION_FAILED; - } - - if (data){ - target_read_memory(target, target_mem_base+DATA_OFFS, 4, nand->page_size == 2048?512:128, page_buffer); - memcpy(data, page_buffer, data_size); - - LOG_INFO("Page = 0x%" PRIx32 " was read.",page); - - /* check hw generated ECC for each 256 bytes block with the saved ECC in flash spare area*/ - int idx = nand->page_size/0x200 ; - target_read_memory(target, target_mem_base+SPARE_OFFS, 4, 16, ecc_flash_buffer); - target_read_memory(target, target_mem_base+ECC_OFFS, 4, 8, ecc_hw_buffer); - for(i=0;i<idx;i++){ - if( (0x00ffffff&*(uint32_t *)(void *)(ecc_hw_buffer+i*8)) != (0x00ffffff&*(uint32_t *)(void *)(ecc_flash_buffer+8+i*16)) ) - LOG_WARNING("ECC mismatch at 256 bytes size block= %d at page= 0x%" PRIx32,i*2+1,page); - if( (0x00ffffff&*(uint32_t *)(void *)(ecc_hw_buffer+4+i*8)) != (0x00ffffff&*(uint32_t *)(void *)(ecc_flash_buffer+12+i*16)) ) - LOG_WARNING("ECC mismatch at 256 bytes size block= %d at page= 0x%" PRIx32,i*2+2,page); - } - } - - if (oob) - memcpy(oob, ecc_flash_buffer, oob_size); - - free(page_buffer); - free(ecc_hw_buffer); - free(ecc_flash_buffer); - - target_free_working_area(target,pworking_area); - - } - else - return nand_read_page_raw(nand, page, data, data_size, oob, oob_size); + free(page_buffer); + free(ecc_hw_buffer); + free(ecc_flash_buffer); + + target_free_working_area(target, pworking_area); + + } else + return nand_read_page_raw(nand, page, data, data_size, oob, oob_size); } return ERROR_OK; @@ -1140,18 +1157,15 @@ static int lpc3180_controller_ready(struct nand_device *nand, int timeout) struct lpc3180_nand_controller *lpc3180_info = nand->controller_priv; struct target *target = nand->target; - if (target->state != TARGET_HALTED) - { + if (target->state != TARGET_HALTED) { LOG_ERROR("target must be halted to use LPC3180 NAND flash controller"); return ERROR_NAND_OPERATION_FAILED; } LOG_DEBUG("lpc3180_controller_ready count start=%d", timeout); - do - { - if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) - { + do { + if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) { uint8_t status; /* Read MLC_ISR, wait for controller to become ready */ @@ -1159,12 +1173,10 @@ static int lpc3180_controller_ready(struct nand_device *nand, int timeout) if (status & 2) { LOG_DEBUG("lpc3180_controller_ready count=%d", - timeout); + timeout); return 1; } - } - else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) { uint32_t status; /* Read SLC_STAT and check READY bit */ @@ -1172,7 +1184,7 @@ static int lpc3180_controller_ready(struct nand_device *nand, int timeout) if (status & 1) { LOG_DEBUG("lpc3180_controller_ready count=%d", - timeout); + timeout); return 1; } } @@ -1188,18 +1200,15 @@ static int lpc3180_nand_ready(struct nand_device *nand, int timeout) struct lpc3180_nand_controller *lpc3180_info = nand->controller_priv; struct target *target = nand->target; - if (target->state != TARGET_HALTED) - { + if (target->state != TARGET_HALTED) { LOG_ERROR("target must be halted to use LPC3180 NAND flash controller"); return ERROR_NAND_OPERATION_FAILED; } LOG_DEBUG("lpc3180_nand_ready count start=%d", timeout); - do - { - if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) - { + do { + if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) { uint8_t status = 0x0; /* Read MLC_ISR, wait for NAND flash device to become ready */ @@ -1207,12 +1216,10 @@ static int lpc3180_nand_ready(struct nand_device *nand, int timeout) if (status & 1) { LOG_DEBUG("lpc3180_nand_ready count end=%d", - timeout); + timeout); return 1; } - } - else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) - { + } else if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) { uint32_t status = 0x0; /* Read SLC_STAT and check READY bit */ @@ -1220,7 +1227,7 @@ static int lpc3180_nand_ready(struct nand_device *nand, int timeout) if (status & 1) { LOG_DEBUG("lpc3180_nand_ready count end=%d", - timeout); + timeout); return 1; } } @@ -1236,28 +1243,25 @@ static int lpc3180_tc_ready(struct nand_device *nand, int timeout) struct lpc3180_nand_controller *lpc3180_info = nand->controller_priv; struct target *target = nand->target; - if (target->state != TARGET_HALTED) - { + if (target->state != TARGET_HALTED) { LOG_ERROR("target must be halted to use LPC3180 NAND flash controller"); return ERROR_NAND_OPERATION_FAILED; } - LOG_DEBUG("lpc3180_tc_ready count start=%d", - timeout); + LOG_DEBUG("lpc3180_tc_ready count start=%d", + timeout); - do - { - if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) - { - uint32_t status = 0x0; + do { + if (lpc3180_info->selected_controller == LPC3180_SLC_CONTROLLER) { + uint32_t status = 0x0; /* Read SLC_INT_STAT and check INT_TC_STAT bit */ target_read_u32(target, 0x2002001c, &status); - if (status & 2){ - LOG_DEBUG("lpc3180_tc_ready count=%d", - timeout); - return 1; - } + if (status & 2) { + LOG_DEBUG("lpc3180_tc_ready count=%d", + timeout); + return 1; + } } alive_sleep(1); @@ -1266,59 +1270,47 @@ static int lpc3180_tc_ready(struct nand_device *nand, int timeout) return 0; } - COMMAND_HANDLER(handle_lpc3180_select_command) { struct lpc3180_nand_controller *lpc3180_info = NULL; - char *selected[] = - { + char *selected[] = { "no", "mlc", "slc" }; if ((CMD_ARGC < 1) || (CMD_ARGC > 3)) - { return ERROR_COMMAND_SYNTAX_ERROR; - } unsigned num; COMMAND_PARSE_NUMBER(uint, CMD_ARGV[0], num); struct nand_device *nand = get_nand_device_by_num(num); - if (!nand) - { + if (!nand) { command_print(CMD_CTX, "nand device '#%s' is out of bounds", CMD_ARGV[0]); return ERROR_OK; } lpc3180_info = nand->controller_priv; - if (CMD_ARGC >= 2) - { + if (CMD_ARGC >= 2) { if (strcmp(CMD_ARGV[1], "mlc") == 0) - { lpc3180_info->selected_controller = LPC3180_MLC_CONTROLLER; - } - else if (strcmp(CMD_ARGV[1], "slc") == 0) - { + else if (strcmp(CMD_ARGV[1], "slc") == 0) { lpc3180_info->selected_controller = LPC3180_SLC_CONTROLLER; - if (CMD_ARGC == 3 && strcmp(CMD_ARGV[2], "bulk") == 0){ - lpc3180_info->is_bulk = 1; - } - else{ - lpc3180_info->is_bulk = 0; - } - } - else - { + if (CMD_ARGC == 3 && strcmp(CMD_ARGV[2], "bulk") == 0) + lpc3180_info->is_bulk = 1; + else + lpc3180_info->is_bulk = 0; + } else return ERROR_COMMAND_SYNTAX_ERROR; - } } - if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) - command_print(CMD_CTX, "%s controller selected", selected[lpc3180_info->selected_controller]); - else{ - command_print(CMD_CTX, lpc3180_info->is_bulk?"%s controller selected bulk mode is available":"%s controller selected bulk mode is not available", selected[lpc3180_info->selected_controller]); - } - + if (lpc3180_info->selected_controller == LPC3180_MLC_CONTROLLER) + command_print(CMD_CTX, "%s controller selected", + selected[lpc3180_info->selected_controller]); + else + command_print(CMD_CTX, + lpc3180_info->is_bulk ? "%s controller selected bulk mode is available" : + "%s controller selected bulk mode is not available", + selected[lpc3180_info->selected_controller]); return ERROR_OK; } @@ -1328,7 +1320,8 @@ static const struct command_registration lpc3180_exec_command_handlers[] = { .name = "select", .handler = handle_lpc3180_select_command, .mode = COMMAND_EXEC, - .help = "select MLC or SLC controller (default is MLC), SLC can be set to bulk mode", + .help = + "select MLC or SLC controller (default is MLC), SLC can be set to bulk mode", .usage = "bank_id ['mlc'|'slc' ['bulk'] ]", }, COMMAND_REGISTRATION_DONE |