URL
https://opencores.org/ocsvn/xenie/xenie/trunk
Subversion Repositories xenie
Compare Revisions
- This comparison shows the changes necessary to convert path
/xenie
- from Rev 13 to Rev 12
- ↔ Reverse comparison
Rev 13 → Rev 12
/trunk/examples/Eth_example/doc/Xenie_ethernet_example.pdf
Cannot display: file marked as a binary type.
svn:mime-type = application/octet-stream
/trunk/examples/Eth_example/mb_fw/xenie_eth_test_womtd/src/main.c
114,7 → 114,7
|
/* System information defaults */ |
static struct sys_info_s sys_info = { |
.fwRev = 0x101, |
.fwRev = 0x100, |
.eth_status = {-1, -1}, |
.uid = {00, 00, 00, 00, 00, 00}, |
.eth_settings = { |
403,10 → 403,13
/* |
* Setup SPI driver to work with flash |
*/ |
|
res = spansion_flash_init(&sf_dev, &Spi, SPANSION_FLASH_CS); |
if(res != XST_SUCCESS) { |
goto failure; |
} |
/* Put spi to polled mode */ |
XSpi_IntrGlobalDisable(&Spi); |
|
/* |
* Initialize driver used to read flash in quad mode |
/trunk/examples/Eth_example/mb_fw/xenie_eth_test_womtd/src/spansion_flash.c
30,54 → 30,26
#include "spansion_flash.h" |
#include "uprintf.h" |
|
#define SPANSION_CFG_REG_QUAD (1<<1) |
#define SPANSION_CFG_REG_OTP_MASK (0x3c) |
#define SPANSION_BANK_REG_EXT_ADDR (1<<7) |
#define SPANSION_CFG_REG_BP_SHIFT 2 |
#define SPANSION_CFG_REG_BP_MASK (0x7 << SPANSION_CFG_REG_BP_SHIFT) |
#define SPANSION_STAT_REG_WIP (1<<0) |
#define SPANSION_CFG_REG_LC_MASK (0xc0) |
#define SPANSION_CFG_REG_LC_DEFAULT 0 |
static int spansion_flash_cmd_wen(struct spansion_flash *sf); |
static int spansion_flash_get_cr1(struct spansion_flash *sf, u8 *cr1); |
static int spansion_flash_get_sr1(struct spansion_flash *sf, u8 *sr1); |
|
int spansion_flash_init (struct spansion_flash *sf, XSpi *spi, int slave_num) |
{ |
u8 rCfg; |
|
sf->spi = spi; |
sf->slave_select = (1<<slave_num); |
int ret; |
int res; |
|
ret = XSpi_SetOptions(sf->spi, (XSP_MASTER_OPTION | \ |
res = XSpi_SetOptions(sf->spi, (XSP_MASTER_OPTION | \ |
XSP_MANUAL_SSELECT_OPTION | \ |
XSP_CLK_PHASE_1_OPTION | \ |
XSP_CLK_ACTIVE_LOW_OPTION)); |
if(ret) |
return ret; |
if(res) |
return res; |
|
ret = XSpi_SetSlaveSelect(sf->spi, sf->slave_select); |
if(ret) |
return ret; |
res = XSpi_SetSlaveSelect(sf->spi, sf->slave_select); |
if(res) |
return res; |
|
ret = XSpi_Start(sf->spi); |
if (ret) |
return ret; |
|
/* Put spi to polled mode */ |
XSpi_IntrGlobalDisable(sf->spi); |
|
/* Check latency is as expected */ |
ret = spansion_flash_get_cr1(sf, &rCfg); |
if(ret) |
return ret; |
|
if ((rCfg & SPANSION_CFG_REG_LC_MASK) != SPANSION_CFG_REG_LC_DEFAULT) { |
uprintf("Flash is configured with non-default latency code. Cannot read flash\r\n"); |
return -1; |
} |
return 0; |
res = XSpi_Start(sf->spi); |
return res; |
} |
|
static int spansion_flash_transfer(struct spansion_flash *sf, uint8_t *wr_buf, uint8_t *rd_buf, int len) |
92,85 → 64,85
} |
|
|
/* |
* Get status and control register value |
* and set QSPI mode. It needs to be done |
* after each configuration flash programming |
* using Xilinx tools as they erase this flag. |
* |
* !!!BEWARE: This is potentially dangerous |
* operation as if power is lost during write to |
* status and configuration register, both can be |
* set to all ones. It may set OTP bits that may render |
* flash unusable. As quad mode flag is non-volatile |
* it is necessary to do this once only during board |
* |
*/ |
/* Get status and control register and set QSPI*/ |
int spansion_flash_quad_mode(struct spansion_flash *sf) |
{ |
#define SPANSION_CFG_REG_QUAD (1<<1) |
int ret; |
int tmo_cnt; |
u8 rCfg; |
u8 rSt; |
u8 rCfgBuf[2]; |
u8 rStBuf[2]; |
u8 wCfgBuf[3]; |
u8 wEnBuf[1]; |
|
ret = spansion_flash_get_cr1(sf, &rCfg); |
rCfgBuf[0] = 0x35; |
ret = spansion_flash_transfer(sf, rCfgBuf, rCfgBuf, 2); |
if(ret) |
return ret; |
|
if (rCfg & SPANSION_CFG_REG_QUAD) { |
return 0; |
} |
|
ret = spansion_flash_get_sr1(sf, &rSt); |
rStBuf[0] = 0x05; |
ret = spansion_flash_transfer(sf, rStBuf, rStBuf, 2); |
if(ret) |
return ret; |
|
ret = spansion_flash_cmd_wen(sf); |
wEnBuf[0] = 0x6; |
ret = spansion_flash_transfer(sf, wEnBuf, wEnBuf, 1); |
if(ret) |
return ret; |
|
|
uprintf("WARNING: Setting flash quad mode in flash configuration\r\n" |
"registers. If power is lost at that moment flash can be\r\n" |
"corrupted permanently.\r\n"); |
wCfgBuf[0] = 0x01; |
wCfgBuf[1] = rSt; |
wCfgBuf[2] = rCfg | SPANSION_CFG_REG_QUAD; |
wCfgBuf[1] = rStBuf[1]; |
wCfgBuf[2] = rCfgBuf[1] | SPANSION_CFG_REG_QUAD; |
|
ret = spansion_flash_transfer(sf, wCfgBuf, wCfgBuf, 3); |
if(ret) |
return ret; |
|
/* Wait until flash finishes write with timeout */ |
tmo_cnt = 1000; |
do { |
ret = spansion_flash_get_sr1(sf, &rSt); |
if (ret) |
return ret; |
/* Reread CFG reg */ |
rCfgBuf[0] = 0x35; |
ret = spansion_flash_transfer(sf, rCfgBuf, rCfgBuf, 2); |
if(ret) |
return ret; |
|
if(tmo_cnt) |
tmo_cnt--; |
else |
return -1; |
} while (rSt & SPANSION_STAT_REG_WIP); |
return 0; |
} |
|
/* Reread CFG reg */ |
ret = spansion_flash_get_cr1(sf, &rCfg); |
if (ret) |
/* Set extended addressing mode in Flash and in Xilisf */ |
/* !!! Doesn't work well for quad command 6b */ |
int spansion_flash_extended_addressing(struct spansion_flash *sf, int onOff) |
{ |
#define SPANSION_BANK_REG_EXT_ADDR (1<<7) |
int ret; |
u8 buf[2]; |
XSpi *spi = sf->spi; |
|
/* Read bank register*/ |
buf[0] = 0x16; |
ret = XSpi_Transfer(spi, buf, buf, 2); |
if(ret) |
return ret; |
|
if (rCfg & SPANSION_CFG_REG_QUAD) { |
uprintf("Flash quad mode set successfully.\r\n"); |
return 0; |
/* Write bank register with extended addressing setting */ |
buf[0] = 0x17; |
if (onOff) { |
buf[1] |= SPANSION_BANK_REG_EXT_ADDR; |
} else { |
uprintf("Flash quad mode was not set, cannot read flash.\r\n"); |
return -1; |
buf[1] &= ~SPANSION_BANK_REG_EXT_ADDR; |
} |
ret = XSpi_Transfer(spi, buf, buf, 2); |
if(ret) |
return ret; |
|
/* Read bank register*/ |
buf[0] = 0x16; |
ret = XSpi_Transfer(spi, buf, buf, 2); |
if(ret) |
return ret; |
uprintf("Modified bank register 0x%02x\r\n", buf[1]); |
|
return 0; |
} |
|
|
/* |
* Use Quad IO 4 byte address read command to read block of data. |
* spi - SPI core instance to be used |
198,120 → 170,3
|
return XSpi_Transfer(spi, buf, buf, len + 8); |
} |
|
/* |
* Read and print flash configuration and status. |
*/ |
int spansion_flash_print_status(struct spansion_flash *sf) |
{ |
int ret; |
u8 rCfgBuf[2]; |
u8 rStBuf[2]; |
u8 rRDID[4]; |
|
rRDID[0] = 0x9f; |
ret = spansion_flash_transfer(sf, rRDID, rRDID, 4); |
if(ret) |
return ret; |
uprintf("RDID: 0x%02x 0x%02x 0x%02x\r\n", rRDID[1], rRDID[2], rRDID[3]); |
|
rStBuf[0] = 0x05; |
ret = spansion_flash_transfer(sf, rStBuf, rStBuf, 2); |
if(ret) |
return ret; |
uprintf("Status reg 1: 0x%02x\r\n", rStBuf[1]); |
|
rStBuf[0] = 0x07; |
ret = spansion_flash_transfer(sf, rStBuf, rStBuf, 2); |
if(ret) |
return ret; |
uprintf("Status reg 2: 0x%02x\r\n", rStBuf[1]); |
|
rCfgBuf[0] = 0x35; |
ret = spansion_flash_transfer(sf, rCfgBuf, rCfgBuf, 2); |
if(ret) |
return ret; |
uprintf("Configuration reg: 0x%02x\r\n", rCfgBuf[1]); |
|
return 0; |
} |
|
/* Send write enable command - needed for register write */ |
static int spansion_flash_cmd_wen(struct spansion_flash *sf) |
{ |
int ret; |
u8 wEnBuf[1]; |
|
wEnBuf[0] = 0x6; |
ret = spansion_flash_transfer(sf, wEnBuf, wEnBuf, 1); |
|
return ret; |
} |
|
/* Send Bulk erase command*/ |
static int spansion_flash_cmd_be(struct spansion_flash *sf) |
{ |
int ret; |
u8 buf[1]; |
|
buf[0] = 0x60; |
ret = spansion_flash_transfer(sf, buf, buf, 1); |
|
return ret; |
} |
|
/* Send get status register sr1*/ |
static int spansion_flash_get_sr1(struct spansion_flash *sf, u8 *sr1) |
{ |
int ret; |
u8 rStBuf[2]; |
|
rStBuf[0] = 0x05; |
ret = spansion_flash_transfer(sf, rStBuf, rStBuf, 2); |
|
*sr1 = rStBuf[1]; |
|
return ret; |
} |
|
/* Send get configuration register */ |
static int spansion_flash_get_cr1(struct spansion_flash *sf, u8 *cr1) |
{ |
int ret; |
u8 rCfgBuf[2]; |
|
rCfgBuf[0] = 0x35; |
ret = spansion_flash_transfer(sf, rCfgBuf, rCfgBuf, 2); |
|
*cr1 = rCfgBuf[1]; |
|
return ret; |
} |
|
|
|
/* |
* Erase whole device using bulk erase. |
*/ |
int spansion_flash_bulk_erase(struct spansion_flash *sf) |
{ |
int ret; |
u8 sr; |
int i; |
|
ret = spansion_flash_cmd_wen(sf); |
if(ret) |
return ret; |
|
ret = spansion_flash_cmd_be(sf); |
if(ret) |
return ret; |
|
i = 0; |
do { |
ret = spansion_flash_get_sr1(sf, &sr); |
i++; |
} while (sr & SPANSION_STAT_REG_WIP); |
|
return ret; |
} |
/trunk/examples/Eth_example/mb_fw/xenie_eth_test_womtd/src/spansion_flash.h
45,6 → 45,7
int spansion_flash_init (struct spansion_flash *sf, XSpi *spi, int slave_num); |
int spansion_flash_quad_io_read(struct spansion_flash *sf, uint32_t flash_addr, uint8_t *buf, int len); |
int spansion_flash_quad_mode(struct spansion_flash *sf); |
int spansion_flash_extended_addressing(struct spansion_flash *sf, int onOff); |
int spansion_flash_quad_io_read(struct spansion_flash *sf, uint32_t flash_addr, uint8_t *buf, int len); |
|
#endif |