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authorMike Frysinger <vapier@gentoo.org>2010-05-05 01:08:53 -0400
committerMike Frysinger <vapier@gentoo.org>2010-07-05 04:18:18 -0400
commit7393a09800599b1aa90e23288c82e6ca2d8294b4 (patch)
treec1842da5aaebef28898389e63eefec33787b45a6 /board/bf537-stamp/spi_flash.c
parentb30453ace4eb930ab224012bd2367fa3d1337ced (diff)
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Blackfin: bf537-stamp: drop old spi_flash driver
The new common spi framework and spi flash subsystem provides all the same functionality as the old Blackfin-specific driver, so punt the old one as it has been sticking around long enough. Signed-off-by: Mike Frysinger <vapier@gentoo.org>
Diffstat (limited to 'board/bf537-stamp/spi_flash.c')
-rw-r--r--board/bf537-stamp/spi_flash.c996
1 files changed, 0 insertions, 996 deletions
diff --git a/board/bf537-stamp/spi_flash.c b/board/bf537-stamp/spi_flash.c
deleted file mode 100644
index 7b753ad..0000000
--- a/board/bf537-stamp/spi_flash.c
+++ /dev/null
@@ -1,996 +0,0 @@
-/*
- * SPI flash driver
- *
- * Enter bugs at http://blackfin.uclinux.org/
- *
- * Copyright (c) 2005-2008 Analog Devices Inc.
- *
- * Licensed under the GPL-2 or later.
- */
-
-/* Configuration options:
- * CONFIG_SPI_BAUD - value to load into SPI_BAUD (divisor of SCLK to get SPI CLK)
- * CONFIG_SPI_FLASH_SLOW_READ - force usage of the slower read
- * WARNING: make sure your SCLK + SPI_BAUD is slow enough
- */
-
-#include <common.h>
-#include <malloc.h>
-#include <asm/io.h>
-#include <asm/mach-common/bits/spi.h>
-#include <asm/mach-common/bits/dma.h>
-
-/* Forcibly phase out these */
-#ifdef CONFIG_SPI_FLASH_NUM_SECTORS
-# error do not set CONFIG_SPI_FLASH_NUM_SECTORS
-#endif
-#ifdef CONFIG_SPI_FLASH_SECTOR_SIZE
-# error do not set CONFIG_SPI_FLASH_SECTOR_SIZE
-#endif
-
-#if defined(CONFIG_SPI)
-
-struct flash_info {
- char *name;
- uint16_t id;
- uint16_t ext_id;
- unsigned sector_size;
- unsigned num_sectors;
-};
-
-/* SPI Speeds: 50 MHz / 33 MHz */
-static struct flash_info flash_spansion_serial_flash[] = {
- { "S25FL016", 0x0215, 0, 64 * 1024, 32 },
- { "S25FL032", 0x0216, 0, 64 * 1024, 64 },
- { "S25FL064", 0x0217, 0, 64 * 1024, 128 },
- { "S25FL128-00", 0x2018, 0x0301, 64 * 1024, 256 }, /* Package marking FL128PIF */
- { "S25FL128-01", 0x2018, 0x0300, 128 * 1024, 64 }, /* Package marking FL128PIFL */
- { NULL, 0, 0, 0, 0 }
-};
-
-/* SPI Speeds: 50 MHz / 20 MHz */
-static struct flash_info flash_st_serial_flash[] = {
- { "m25p05", 0x2010, 0, 32 * 1024, 2 },
- { "m25p10", 0x2011, 0, 32 * 1024, 4 },
- { "m25p20", 0x2012, 0, 64 * 1024, 4 },
- { "m25p40", 0x2013, 0, 64 * 1024, 8 },
- { "m25p80", 0x20FF, 0, 64 * 1024, 16 },
- { "m25p16", 0x2015, 0, 64 * 1024, 32 },
- { "m25p32", 0x2016, 0, 64 * 1024, 64 },
- { "m25p64", 0x2017, 0, 64 * 1024, 128 },
- { "m25p128", 0x2018, 0, 256 * 1024, 64 },
- { NULL, 0, 0, 0, 0 }
-};
-
-/* SPI Speeds: 20 MHz / 40 MHz */
-static struct flash_info flash_sst_serial_flash[] = {
- { "SST25WF512", 0x2501, 0, 4 * 1024, 128 },
- { "SST25WF010", 0x2502, 0, 4 * 1024, 256 },
- { "SST25WF020", 0x2503, 0, 4 * 1024, 512 },
- { "SST25WF040", 0x2504, 0, 4 * 1024, 1024 },
- { NULL, 0, 0, 0, 0 }
-};
-
-/* SPI Speeds: 66 MHz / 33 MHz */
-static struct flash_info flash_atmel_dataflash[] = {
- { "AT45DB011x", 0x0c, 0, 264, 512 },
- { "AT45DB021x", 0x14, 0, 264, 1025 },
- { "AT45DB041x", 0x1c, 0, 264, 2048 },
- { "AT45DB081x", 0x24, 0, 264, 4096 },
- { "AT45DB161x", 0x2c, 0, 528, 4096 },
- { "AT45DB321x", 0x34, 0, 528, 8192 },
- { "AT45DB642x", 0x3c, 0, 1056, 8192 },
- { NULL, 0, 0, 0, 0 }
-};
-
-/* SPI Speed: 50 MHz / 25 MHz or 40 MHz / 20 MHz */
-static struct flash_info flash_winbond_serial_flash[] = {
- { "W25X10", 0x3011, 0, 16 * 256, 32 },
- { "W25X20", 0x3012, 0, 16 * 256, 64 },
- { "W25X40", 0x3013, 0, 16 * 256, 128 },
- { "W25X80", 0x3014, 0, 16 * 256, 256 },
- { "W25P80", 0x2014, 0, 256 * 256, 16 },
- { "W25P16", 0x2015, 0, 256 * 256, 32 },
- { NULL, 0, 0, 0, 0 }
-};
-
-struct flash_ops {
- uint8_t read, write, erase, status;
-};
-
-#ifdef CONFIG_SPI_FLASH_SLOW_READ
-# define OP_READ 0x03
-#else
-# define OP_READ 0x0B
-#endif
-static struct flash_ops flash_st_ops = {
- .read = OP_READ,
- .write = 0x02,
- .erase = 0xD8,
- .status = 0x05,
-};
-
-static struct flash_ops flash_sst_ops = {
- .read = OP_READ,
- .write = 0x02,
- .erase = 0x20,
- .status = 0x05,
-};
-
-static struct flash_ops flash_atmel_ops = {
- .read = OP_READ,
- .write = 0x82,
- .erase = 0x81,
- .status = 0xD7,
-};
-
-static struct flash_ops flash_winbond_ops = {
- .read = OP_READ,
- .write = 0x02,
- .erase = 0x20,
- .status = 0x05,
-};
-
-struct manufacturer_info {
- const char *name;
- uint8_t id;
- struct flash_info *flashes;
- struct flash_ops *ops;
-};
-
-static struct {
- struct manufacturer_info *manufacturer;
- struct flash_info *flash;
- struct flash_ops *ops;
- uint8_t manufacturer_id, device_id1, device_id2, device_extid1, device_extid2;
- unsigned int write_length;
- unsigned long sector_size, num_sectors;
-} flash;
-
-enum {
- JED_MANU_SPANSION = 0x01,
- JED_MANU_ST = 0x20,
- JED_MANU_SST = 0xBF,
- JED_MANU_ATMEL = 0x1F,
- JED_MANU_WINBOND = 0xEF,
-};
-
-static struct manufacturer_info flash_manufacturers[] = {
- {
- .name = "Spansion",
- .id = JED_MANU_SPANSION,
- .flashes = flash_spansion_serial_flash,
- .ops = &flash_st_ops,
- },
- {
- .name = "ST",
- .id = JED_MANU_ST,
- .flashes = flash_st_serial_flash,
- .ops = &flash_st_ops,
- },
- {
- .name = "SST",
- .id = JED_MANU_SST,
- .flashes = flash_sst_serial_flash,
- .ops = &flash_sst_ops,
- },
- {
- .name = "Atmel",
- .id = JED_MANU_ATMEL,
- .flashes = flash_atmel_dataflash,
- .ops = &flash_atmel_ops,
- },
- {
- .name = "Winbond",
- .id = JED_MANU_WINBOND,
- .flashes = flash_winbond_serial_flash,
- .ops = &flash_winbond_ops,
- },
-};
-
-#define TIMEOUT 5000 /* timeout of 5 seconds */
-
-/* If part has multiple SPI flashes, assume SPI0 as that is
- * the one we can boot off of ...
- */
-#ifndef pSPI_CTL
-# define pSPI_CTL pSPI0_CTL
-# define pSPI_BAUD pSPI0_BAUD
-# define pSPI_FLG pSPI0_FLG
-# define pSPI_RDBR pSPI0_RDBR
-# define pSPI_STAT pSPI0_STAT
-# define pSPI_TDBR pSPI0_TDBR
-#endif
-
-/* Default to the SPI SSEL that we boot off of:
- * BF54x, BF537, (everything new?): SSEL1
- * BF51x, BF533, BF561: SSEL2
- */
-#ifndef CONFIG_SPI_FLASH_SSEL
-# define CONFIG_SPI_FLASH_SSEL BFIN_BOOT_SPI_SSEL
-#endif
-#define SSEL_MASK (1 << CONFIG_SPI_FLASH_SSEL)
-
-static void SPI_INIT(void)
-{
- /* [#3541] This delay appears to be necessary, but not sure
- * exactly why as the history behind it is non-existant.
- */
- *pSPI_CTL = 0;
- udelay(CONFIG_CCLK_HZ / 25000000);
-
- /* enable SPI pins: SSEL, MOSI, MISO, SCK */
-#ifdef __ADSPBF54x__
- *pPORTE_FER |= (PE0 | PE1 | PE2 | PE4);
-#elif defined(__ADSPBF534__) || defined(__ADSPBF536__) || defined(__ADSPBF537__)
- *pPORTF_FER |= (PF10 | PF11 | PF12 | PF13);
-#elif defined(__ADSPBF52x__)
- bfin_write_PORTG_MUX((bfin_read_PORTG_MUX() & ~PORT_x_MUX_0_MASK) | PORT_x_MUX_0_FUNC_3);
- bfin_write_PORTG_FER(bfin_read_PORTG_FER() | PG1 | PG2 | PG3 | PG4);
-#elif defined(__ADSPBF51x__)
- bfin_write_PORTG_MUX((bfin_read_PORTG_MUX() & ~PORT_x_MUX_7_MASK) | PORT_x_MUX_7_FUNC_1);
- bfin_write_PORTG_FER(bfin_read_PORTG_FER() | PG12 | PG13 | PG14 | PG15);
-#endif
-
- /* initate communication upon write of TDBR */
- *pSPI_CTL = (SPE | MSTR | CPHA | CPOL | TDBR_CORE);
- *pSPI_BAUD = CONFIG_SPI_BAUD;
-}
-
-static void SPI_DEINIT(void)
-{
- *pSPI_CTL = 0;
- *pSPI_BAUD = 0;
- SSYNC();
-}
-
-static void SPI_ON(void)
-{
- /* toggle SSEL to reset the device so it'll take a new command */
- *pSPI_FLG = 0xFF00 | SSEL_MASK;
- SSYNC();
-
- *pSPI_FLG = ((0xFF & ~SSEL_MASK) << 8) | SSEL_MASK;
- SSYNC();
-}
-
-static void SPI_OFF(void)
-{
- /* put SPI settings back to reset state */
- *pSPI_FLG = 0xFF00;
- SSYNC();
-}
-
-static uint8_t spi_write_read_byte(uint8_t transmit)
-{
- *pSPI_TDBR = transmit;
- SSYNC();
-
- while ((*pSPI_STAT & TXS))
- if (ctrlc())
- break;
- while (!(*pSPI_STAT & SPIF))
- if (ctrlc())
- break;
- while (!(*pSPI_STAT & RXS))
- if (ctrlc())
- break;
-
- /* Read dummy to empty the receive register */
- return *pSPI_RDBR;
-}
-
-static uint8_t read_status_register(void)
-{
- uint8_t status_register;
-
- /* send instruction to read status register */
- SPI_ON();
- spi_write_read_byte(flash.ops->status);
- /* send dummy to receive the status register */
- status_register = spi_write_read_byte(0);
- SPI_OFF();
-
- return status_register;
-}
-
-static int wait_for_ready_status(void)
-{
- ulong start = get_timer(0);
-
- while (get_timer(0) - start < TIMEOUT) {
- switch (flash.manufacturer_id) {
- case JED_MANU_SPANSION:
- case JED_MANU_ST:
- case JED_MANU_SST:
- case JED_MANU_WINBOND:
- if (!(read_status_register() & 0x01))
- return 0;
- break;
-
- case JED_MANU_ATMEL:
- if (read_status_register() & 0x80)
- return 0;
- break;
- }
-
- if (ctrlc()) {
- puts("\nAbort\n");
- return -1;
- }
- }
-
- puts("Timeout\n");
- return -1;
-}
-
-static int enable_writing(void)
-{
- ulong start;
-
- if (flash.manufacturer_id == JED_MANU_ATMEL)
- return 0;
-
- /* A write enable instruction must previously have been executed */
- SPI_ON();
- spi_write_read_byte(0x06);
- SPI_OFF();
-
- /* The status register will be polled to check the write enable latch "WREN" */
- start = get_timer(0);
- while (get_timer(0) - start < TIMEOUT) {
- if (read_status_register() & 0x02)
- return 0;
-
- if (ctrlc()) {
- puts("\nAbort\n");
- return -1;
- }
- }
-
- puts("Timeout\n");
- return -1;
-}
-
-static void write_status_register(uint8_t val)
-{
- if (flash.manufacturer_id != JED_MANU_SST)
- hang();
-
- if (enable_writing())
- return;
-
- /* send instruction to write status register */
- SPI_ON();
- spi_write_read_byte(0x01);
- /* and clear it! */
- spi_write_read_byte(val);
- SPI_OFF();
-}
-
-/* Request and read the manufacturer and device id of parts which
- * are compatible with the JEDEC standard (JEP106) and use that to
- * setup other operating conditions.
- */
-static int spi_detect_part(void)
-{
- uint16_t dev_id, dev_extid;
- size_t i;
-
- static char called_init;
- if (called_init)
- return 0;
-
-#ifdef CONFIG_SPI_FLASH_M25P80
- flash.manufacturer_id = JED_MANU_ST;
- flash.device_id1 = 0x20;
- flash.device_id2 = 0xFF;
-#else
- SPI_ON();
-
- /* Send the request for the part identification */
- spi_write_read_byte(0x9F);
-
- /* Now read in the manufacturer id bytes */
- do {
- flash.manufacturer_id = spi_write_read_byte(0);
- if (flash.manufacturer_id == 0x7F)
- puts("Warning: unhandled manufacturer continuation byte!\n");
- } while (flash.manufacturer_id == 0x7F);
-
- /* Now read in the first device id byte */
- flash.device_id1 = spi_write_read_byte(0);
-
- /* Now read in the second device id byte */
- flash.device_id2 = spi_write_read_byte(0);
-
- /* Read extended device ids */
- flash.device_extid1 = spi_write_read_byte(0);
- flash.device_extid2 = spi_write_read_byte(0);
-
- SPI_OFF();
-#endif
-
- dev_id = (flash.device_id1 << 8) | flash.device_id2;
- dev_extid = (flash.device_extid1 << 8) | flash.device_extid2;
-
- for (i = 0; i < ARRAY_SIZE(flash_manufacturers); ++i) {
- if (flash.manufacturer_id == flash_manufacturers[i].id)
- break;
- }
- if (i == ARRAY_SIZE(flash_manufacturers))
- goto unknown;
-
- flash.manufacturer = &flash_manufacturers[i];
- flash.ops = flash_manufacturers[i].ops;
-
- switch (flash.manufacturer_id) {
- case JED_MANU_SPANSION:
- case JED_MANU_ST:
- case JED_MANU_SST:
- case JED_MANU_WINBOND:
- for (i = 0; flash.manufacturer->flashes[i].name; ++i) {
- if (dev_id == flash.manufacturer->flashes[i].id &&
- (flash.manufacturer->flashes[i].ext_id == 0 ||
- flash.manufacturer->flashes[i].ext_id == dev_extid))
- break;
- }
- if (!flash.manufacturer->flashes[i].name)
- goto unknown;
-
- flash.flash = &flash.manufacturer->flashes[i];
- flash.sector_size = flash.flash->sector_size;
- flash.num_sectors = flash.flash->num_sectors;
-
- if (flash.manufacturer_id == JED_MANU_SST)
- flash.write_length = 1; /* pwnt :( */
- else
- flash.write_length = 256;
- break;
-
- case JED_MANU_ATMEL: {
- uint8_t status = read_status_register();
-
- for (i = 0; flash.manufacturer->flashes[i].name; ++i) {
- if ((status & 0x3c) == flash.manufacturer->flashes[i].id)
- break;
- }
- if (!flash.manufacturer->flashes[i].name)
- goto unknown;
-
- flash.flash = &flash.manufacturer->flashes[i];
- flash.sector_size = flash.flash->sector_size;
- flash.num_sectors = flash.flash->num_sectors;
-
- /* see if flash is in "power of 2" mode */
- if (status & 0x1)
- flash.sector_size &= ~(1 << (ffs(flash.sector_size) - 1));
-
- flash.write_length = flash.sector_size;
- break;
- }
- }
-
- /* the SST parts power up with software protection enabled by default */
- if (flash.manufacturer_id == JED_MANU_SST)
- write_status_register(0);
-
- called_init = 1;
- return 0;
-
- unknown:
- printf("Unknown SPI device: 0x%02X 0x%02X 0x%02X\n",
- flash.manufacturer_id, flash.device_id1, flash.device_id2);
- return 1;
-}
-
-/*
- * Function: spi_init_f
- * Description: Init SPI-Controller (ROM part)
- * return: ---
- */
-void spi_init_f(void)
-{
-}
-
-/*
- * Function: spi_init_r
- * Description: Init SPI-Controller (RAM part) -
- * The malloc engine is ready and we can move our buffers to
- * normal RAM
- * return: ---
- */
-void spi_init_r(void)
-{
-#if defined(CONFIG_POST) && (CONFIG_POST & CONFIG_SYS_POST_SPI)
- /* Our testing strategy here is pretty basic:
- * - fill src memory with an 8-bit pattern
- * - write the src memory to the SPI flash
- * - read the SPI flash into the dst memory
- * - compare src and dst memory regions
- * - repeat a few times
- * The variations we test for:
- * - change the 8-bit pattern a bit
- * - change the read/write block size so we know:
- * - writes smaller/equal/larger than the buffer work
- * - writes smaller/equal/larger than the sector work
- * - change the SPI offsets so we know:
- * - writing partial sectors works
- */
- uint8_t *mem_src, *mem_dst;
- size_t i, c, l, o;
- size_t test_count, errors;
- uint8_t pattern;
-
- SPI_INIT();
-
- if (spi_detect_part())
- goto out;
- eeprom_info();
-
- ulong lengths[] = {
- flash.write_length,
- flash.write_length * 2,
- flash.write_length / 2,
- flash.sector_size,
- flash.sector_size * 2,
- flash.sector_size / 2
- };
- ulong offsets[] = {
- 0,
- flash.write_length,
- flash.write_length * 2,
- flash.write_length / 2,
- flash.write_length / 4,
- flash.sector_size,
- flash.sector_size * 2,
- flash.sector_size / 2,
- flash.sector_size / 4,
- };
-
- /* the exact addresses are arbitrary ... they just need to not overlap */
- mem_src = (void *)(0);
- mem_dst = (void *)(max(flash.write_length, flash.sector_size) * 2);
-
- test_count = 0;
- errors = 0;
- pattern = 0x00;
-
- for (i = 0; i < 16; ++i) { /* 16 = 8 bits * 2 iterations */
- for (l = 0; l < ARRAY_SIZE(lengths); ++l) {
- for (o = 0; o < ARRAY_SIZE(offsets); ++o) {
- ulong len = lengths[l];
- ulong off = offsets[o];
-
- printf("Testing pattern 0x%02X of length %5lu and offset %5lu: ", pattern, len, off);
-
- /* setup the source memory region */
- memset(mem_src, pattern, len);
-
- test_count += 4;
- for (c = 0; c < 4; ++c) { /* 4 is just a random repeat count */
- if (ctrlc()) {
- puts("\nAbort\n");
- goto out;
- }
-
- /* make sure background fill pattern != pattern */
- memset(mem_dst, pattern ^ 0xFF, len);
-
- /* write out the source memory and then read it back and compare */
- eeprom_write(0, off, mem_src, len);
- eeprom_read(0, off, mem_dst, len);
-
- if (memcmp(mem_src, mem_dst, len)) {
- for (c = 0; c < len; ++c)
- if (mem_src[c] != mem_dst[c])
- break;
- printf(" FAIL @ offset %u, skipping repeats ", c);
- ++errors;
- break;
- }
-
- /* XXX: should shrink write region here to test with
- * leading/trailing canaries so we know surrounding
- * bytes don't get screwed.
- */
- }
- puts("\n");
- }
- }
-
- /* invert the pattern every other run and shift out bits slowly */
- pattern ^= 0xFF;
- if (i % 2)
- pattern = (pattern | 0x01) << 1;
- }
-
- if (errors)
- printf("SPI FAIL: Out of %i tests, there were %i errors ;(\n", test_count, errors);
- else
- printf("SPI PASS: %i tests worked!\n", test_count);
-
- out:
- SPI_DEINIT();
-
-#endif
-}
-
-static void transmit_address(uint32_t addr)
-{
- /* Send the highest byte of the 24 bit address at first */
- spi_write_read_byte(addr >> 16);
- /* Send the middle byte of the 24 bit address at second */
- spi_write_read_byte(addr >> 8);
- /* Send the lowest byte of the 24 bit address finally */
- spi_write_read_byte(addr);
-}
-
-/*
- * Read a value from flash for verify purpose
- * Inputs: unsigned long ulStart - holds the SPI start address
- * int pnData - pointer to store value read from flash
- * long lCount - number of elements to read
- */
-#ifdef CONFIG_SPI_READFLASH_NODMA
-static int read_flash(unsigned long address, long count, uchar *buffer)
-{
- size_t i, j;
-
- /* Send the read command to SPI device */
- SPI_ON();
- spi_write_read_byte(flash.ops->read);
- transmit_address(address);
-
-#ifndef CONFIG_SPI_FLASH_SLOW_READ
- /* Send dummy byte when doing SPI fast reads */
- spi_write_read_byte(0);
-#endif
-
- /* After the SPI device address has been placed on the MOSI pin the data can be */
- /* received on the MISO pin. */
- j = flash.sector_size << 1;
- for (i = 1; i <= count; ++i) {
- *buffer++ = spi_write_read_byte(0);
- if (!j--) {
- puts(".");
- j = flash.sector_size;
- }
- }
-
- SPI_OFF();
-
- return 0;
-}
-#else
-
-#ifdef __ADSPBF54x__
-#define bfin_write_DMA_SPI_IRQ_STATUS bfin_write_DMA4_IRQ_STATUS
-#define bfin_read_DMA_SPI_IRQ_STATUS bfin_read_DMA4_IRQ_STATUS
-#define bfin_write_DMA_SPI_CURR_DESC_PTR bfin_write_DMA4_CURR_DESC_PTR
-#define bfin_write_DMA_SPI_CONFIG bfin_write_DMA4_CONFIG
-#elif defined(__ADSPBF533__) || defined(__ADSPBF532__) || defined(__ADSPBF531__) || \
- defined(__ADSPBF538__) || defined(__ADSPBF539__)
-#define bfin_write_DMA_SPI_IRQ_STATUS bfin_write_DMA5_IRQ_STATUS
-#define bfin_read_DMA_SPI_IRQ_STATUS bfin_read_DMA5_IRQ_STATUS
-#define bfin_write_DMA_SPI_CURR_DESC_PTR bfin_write_DMA5_CURR_DESC_PTR
-#define bfin_write_DMA_SPI_CONFIG bfin_write_DMA5_CONFIG
-#elif defined(__ADSPBF561__)
-#define bfin_write_DMA_SPI_IRQ_STATUS bfin_write_DMA16_IRQ_STATUS
-#define bfin_read_DMA_SPI_IRQ_STATUS bfin_read_DMA16_IRQ_STATUS
-#define bfin_write_DMA_SPI_CURR_DESC_PTR bfin_write_DMA16_CURR_DESC_PTR
-#define bfin_write_DMA_SPI_CONFIG bfin_write_DMA16_CONFIG
-#elif defined(__ADSPBF537__) || defined(__ADSPBF536__) || defined(__ADSPBF534__) || \
- defined(__ADSPBF52x__) || defined(__ADSPBF51x__)
-#define bfin_write_DMA_SPI_IRQ_STATUS bfin_write_DMA7_IRQ_STATUS
-#define bfin_read_DMA_SPI_IRQ_STATUS bfin_read_DMA7_IRQ_STATUS
-#define bfin_write_DMA_SPI_CURR_DESC_PTR bfin_write_DMA7_CURR_DESC_PTR
-#define bfin_write_DMA_SPI_CONFIG bfin_write_DMA7_CONFIG
-#else
-#error "Please provide SPI DMA channel defines"
-#endif
-
-struct dmadesc_array {
- unsigned long start_addr;
- unsigned short cfg;
- unsigned short x_count;
- short x_modify;
- unsigned short y_count;
- short y_modify;
-} __attribute__((packed));
-
-/*
- * Read a value from flash for verify purpose
- * Inputs: unsigned long ulStart - holds the SPI start address
- * int pnData - pointer to store value read from flash
- * long lCount - number of elements to read
- */
-
-static int read_flash(unsigned long address, long count, uchar *buffer)
-{
- unsigned int ndsize;
- struct dmadesc_array dma[2];
- /* Send the read command to SPI device */
-
- if (!count)
- return 0;
-
- dma[0].start_addr = (unsigned long)buffer;
- dma[0].x_modify = 1;
- if (count <= 65536) {
- blackfin_dcache_flush_invalidate_range(buffer, buffer + count);
- ndsize = NDSIZE_5;
- dma[0].cfg = NDSIZE_0 | WNR | WDSIZE_8 | FLOW_STOP | DMAEN | DI_EN;
- dma[0].x_count = count;
- } else {
- blackfin_dcache_flush_invalidate_range(buffer, buffer + 65536 - 1);
- ndsize = NDSIZE_7;
- dma[0].cfg = NDSIZE_5 | WNR | WDSIZE_8 | FLOW_ARRAY | DMAEN | DMA2D;
- dma[0].x_count = 0; /* 2^16 */
- dma[0].y_count = count >> 16; /* count / 2^16 */
- dma[0].y_modify = 1;
- dma[1].start_addr = (unsigned long)(buffer + (count & ~0xFFFF));
- dma[1].cfg = NDSIZE_0 | WNR | WDSIZE_8 | FLOW_STOP | DMAEN | DI_EN;
- dma[1].x_count = count & 0xFFFF; /* count % 2^16 */
- dma[1].x_modify = 1;
- }
-
- bfin_write_DMA_SPI_CONFIG(0);
- bfin_write_DMA_SPI_IRQ_STATUS(DMA_DONE | DMA_ERR);
- bfin_write_DMA_SPI_CURR_DESC_PTR(dma);
-
- SPI_ON();
-
- spi_write_read_byte(flash.ops->read);
- transmit_address(address);
-
-#ifndef CONFIG_SPI_FLASH_SLOW_READ
- /* Send dummy byte when doing SPI fast reads */
- spi_write_read_byte(0);
-#endif
-
- bfin_write_DMA_SPI_CONFIG(ndsize | FLOW_ARRAY | DMAEN);
- *pSPI_CTL = (MSTR | CPHA | CPOL | RDBR_DMA | SPE | SZ);
- SSYNC();
-
- /*
- * We already invalidated the first 64k,
- * now while we just wait invalidate the remaining part.
- * Its not likely that the DMA is going to overtake
- */
- if (count > 65536)
- blackfin_dcache_flush_invalidate_range(buffer + 65536,
- buffer + count);
-
- while (!(bfin_read_DMA_SPI_IRQ_STATUS() & DMA_DONE))
- if (ctrlc())
- break;
-
- SPI_OFF();
-
- *pSPI_CTL = 0;
-
- bfin_write_DMA_SPI_CONFIG(0);
-
- *pSPI_CTL = (SPE | MSTR | CPHA | CPOL | TDBR_CORE);
-
- return 0;
-}
-#endif
-
-static long address_to_sector(unsigned long address)
-{
- if (address > (flash.num_sectors * flash.sector_size) - 1)
- return -1;
- return address / flash.sector_size;
-}
-
-static int erase_sector(int address)
-{
- /* sector gets checked in higher function, so assume it's valid
- * here and figure out the offset of the sector in flash
- */
- if (enable_writing())
- return -1;
-
- /*
- * Send the erase block command to the flash followed by the 24 address
- * to point to the start of a sector
- */
- SPI_ON();
- spi_write_read_byte(flash.ops->erase);
- transmit_address(address);
- SPI_OFF();
-
- return wait_for_ready_status();
-}
-
-/* Write [count] bytes out of [buffer] into the given SPI [address] */
-static long write_flash(unsigned long address, long count, uchar *buffer)
-{
- long i, write_buffer_size;
-
- if (enable_writing())
- return -1;
-
- /* Send write command followed by the 24 bit address */
- SPI_ON();
- spi_write_read_byte(flash.ops->write);
- transmit_address(address);
-
- /* Shoot out a single write buffer */
- write_buffer_size = min(count, flash.write_length);
- for (i = 0; i < write_buffer_size; ++i)
- spi_write_read_byte(buffer[i]);
-
- SPI_OFF();
-
- /* Wait for the flash to do its thing */
- if (wait_for_ready_status()) {
- puts("SPI Program Time out! ");
- return -1;
- }
-
- return i;
-}
-
-/* Write [count] bytes out of [buffer] into the given SPI [address] */
-static int write_sector(unsigned long address, long count, uchar *buffer)
-{
- long write_cnt;
-
- while (count != 0) {
- write_cnt = write_flash(address, count, buffer);
- if (write_cnt == -1)
- return -1;
-
- /* Now that we've sent some bytes out to the flash, update
- * our counters a bit
- */
- count -= write_cnt;
- address += write_cnt;
- buffer += write_cnt;
- }
-
- /* return the appropriate error code */
- return 0;
-}
-
-/*
- * Function: spi_write
- */
-ssize_t spi_write(uchar *addr, int alen, uchar *buffer, int len)
-{
- unsigned long offset;
- int start_sector, end_sector;
- int start_byte, end_byte;
- uchar *temp = NULL;
- int num, ret = 0;
-
- SPI_INIT();
-
- if (spi_detect_part())
- goto out;
-
- offset = addr[0] << 16 | addr[1] << 8 | addr[2];
-
- /* Get the start block number */
- start_sector = address_to_sector(offset);
- if (start_sector == -1) {
- puts("Invalid sector! ");
- goto out;
- }
- end_sector = address_to_sector(offset + len - 1);
- if (end_sector == -1) {
- puts("Invalid sector! ");
- goto out;
- }
-
- /* Since flashes operate in sector units but the eeprom command
- * operates as a continuous stream of bytes, we need to emulate
- * the eeprom behavior. So here we read in the sector, overlay
- * any bytes we're actually modifying, erase the sector, and
- * then write back out the new sector.
- */
- temp = malloc(flash.sector_size);
- if (!temp) {
- puts("Malloc for sector failed! ");
- goto out;
- }
-
- for (num = start_sector; num <= end_sector; num++) {
- unsigned long address = num * flash.sector_size;
-
- /* XXX: should add an optimization when spanning sectors:
- * No point in reading in a sector if we're going to be
- * clobbering the whole thing. Need to also add a test
- * case to make sure the optimization is correct.
- */
- if (read_flash(address, flash.sector_size, temp)) {
- puts("Read sector failed! ");
- len = 0;
- break;
- }
-
- start_byte = max(address, offset);
- end_byte = address + flash.sector_size - 1;
- if (end_byte > (offset + len))
- end_byte = (offset + len - 1);
-
- memcpy(temp + start_byte - address,
- buffer + start_byte - offset,
- end_byte - start_byte + 1);
-
- if (erase_sector(address)) {
- puts("Erase sector failed! ");
- goto out;
- }
-
- if (write_sector(address, flash.sector_size, temp)) {
- puts("Write sector failed! ");
- goto out;
- }
-
- puts(".");
- }
-
- ret = len;
-
- out:
- free(temp);
-
- SPI_DEINIT();
-
- return ret;
-}
-
-/*
- * Function: spi_read
- */
-ssize_t spi_read(uchar *addr, int alen, uchar *buffer, int len)
-{
- unsigned long offset;
-
- SPI_INIT();
-
- if (spi_detect_part())
- len = 0;
- else {
- offset = addr[0] << 16 | addr[1] << 8 | addr[2];
- read_flash(offset, len, buffer);
- }
-
- SPI_DEINIT();
-
- return len;
-}
-
-/*
- * Spit out some useful information about the SPI eeprom
- */
-int eeprom_info(void)
-{
- int ret = 0;
-
- SPI_INIT();
-
- if (spi_detect_part())
- ret = 1;
- else
- printf("SPI Device: %s 0x%02X (%s) 0x%02X 0x%02X\n"
- "Parameters: num sectors = %lu, sector size = %lu, write size = %i\n"
- "Flash Size: %lu mbit (%lu mbyte)\n"
- "Status: 0x%02X\n",
- flash.flash->name, flash.manufacturer_id, flash.manufacturer->name,
- flash.device_id1, flash.device_id2, flash.num_sectors,
- flash.sector_size, flash.write_length,
- (flash.num_sectors * flash.sector_size) >> 17,
- (flash.num_sectors * flash.sector_size) >> 20,
- read_status_register());
-
- SPI_DEINIT();
-
- return ret;
-}
-
-#endif