#include "ao.h"
#include "at45db161d.h"
-/*
- * Using SPI on USART 0, with P1_1 as the chip select
- */
-
#define FLASH_CS P1_1
#define FLASH_CS_INDEX 1
-__xdata uint8_t ao_flash_dma_in_done;
-__xdata uint8_t ao_flash_dma_out_done;
__xdata uint8_t ao_flash_mutex;
-uint8_t ao_flash_dma_out_id;
-uint8_t ao_flash_dma_in_id;
-
-static __xdata uint8_t ao_flash_const = 0xff;
-
#define ao_flash_delay() do { \
_asm nop _endasm; \
_asm nop _endasm; \
ao_flash_delay();
}
-/* Send bytes over SPI.
- *
- * This sets up two DMA engines, one writing the data and another reading
- * bytes coming back. We use the bytes coming back to tell when the transfer
- * is complete, as the transmit register is double buffered and hence signals
- * completion one byte before the transfer is actually complete
- */
-static void
-ao_flash_send(void __xdata *block, uint16_t len)
-{
- ao_dma_set_transfer(ao_flash_dma_in_id,
- &U0DBUFXADDR,
- &ao_flash_const,
- len,
- DMA_CFG0_WORDSIZE_8 |
- DMA_CFG0_TMODE_SINGLE |
- DMA_CFG0_TRIGGER_URX0,
- DMA_CFG1_SRCINC_0 |
- DMA_CFG1_DESTINC_0 |
- DMA_CFG1_PRIORITY_NORMAL);
-
- ao_dma_set_transfer(ao_flash_dma_out_id,
- block,
- &U0DBUFXADDR,
- len,
- DMA_CFG0_WORDSIZE_8 |
- DMA_CFG0_TMODE_SINGLE |
- DMA_CFG0_TRIGGER_UTX0,
- DMA_CFG1_SRCINC_1 |
- DMA_CFG1_DESTINC_0 |
- DMA_CFG1_PRIORITY_NORMAL);
-
- ao_dma_start(ao_flash_dma_in_id);
- ao_dma_start(ao_flash_dma_out_id);
- ao_dma_trigger(ao_flash_dma_out_id);
- __critical while (!ao_flash_dma_in_done)
- ao_sleep(&ao_flash_dma_in_done);
-}
-
-/* Receive bytes over SPI.
- *
- * This sets up tow DMA engines, one reading the data and another
- * writing constant values to the SPI transmitter as that is what
- * clocks the data coming in.
- */
-static void
-ao_flash_recv(void __xdata *block, uint16_t len)
-{
- ao_dma_set_transfer(ao_flash_dma_in_id,
- &U0DBUFXADDR,
- block,
- len,
- DMA_CFG0_WORDSIZE_8 |
- DMA_CFG0_TMODE_SINGLE |
- DMA_CFG0_TRIGGER_URX0,
- DMA_CFG1_SRCINC_0 |
- DMA_CFG1_DESTINC_1 |
- DMA_CFG1_PRIORITY_NORMAL);
-
- ao_dma_set_transfer(ao_flash_dma_out_id,
- &ao_flash_const,
- &U0DBUFXADDR,
- len,
- DMA_CFG0_WORDSIZE_8 |
- DMA_CFG0_TMODE_SINGLE |
- DMA_CFG0_TRIGGER_UTX0,
- DMA_CFG1_SRCINC_0 |
- DMA_CFG1_DESTINC_0 |
- DMA_CFG1_PRIORITY_NORMAL);
-
- ao_dma_start(ao_flash_dma_in_id);
- ao_dma_start(ao_flash_dma_out_id);
- ao_dma_trigger(ao_flash_dma_out_id);
- __critical while (!ao_flash_dma_in_done)
- ao_sleep(&ao_flash_dma_in_done);
-}
-
struct ao_flash_instruction {
uint8_t instruction;
uint8_t address[3];
ao_flash_instruction.address[0] = FLASH_SET_512_BYTE_0;
ao_flash_instruction.address[1] = FLASH_SET_512_BYTE_1;
ao_flash_instruction.address[2] = FLASH_SET_512_BYTE_2;
- ao_flash_send(&ao_flash_instruction, 4);
+ ao_spi_send(&ao_flash_instruction, 4);
ao_flash_cs_high();
}
{
ao_flash_cs_low();
ao_flash_instruction.instruction = FLASH_READ_STATUS;
- ao_flash_send(&ao_flash_instruction, 1);
- ao_flash_recv(&ao_flash_instruction, 1);
+ ao_spi_send(&ao_flash_instruction, 1);
+ ao_spi_recv(&ao_flash_instruction, 1);
ao_flash_cs_high();
return ao_flash_instruction.instruction;
}
static __pdata uint8_t ao_flash_setup_done;
static __data uint32_t ao_flash_device_size;
static __data uint8_t ao_flash_block_shift;
+static __data uint16_t ao_flash_block_size;
static void
ao_flash_setup(void)
ao_mutex_put(&ao_flash_mutex);
return;
}
- ao_flash_setup_done = 1;
/* On first use, check to see if the flash chip has
* been programmed to use 512 byte pages. If not, do so.
default:
ao_panic(AO_PANIC_FLASH);
}
+ ao_flash_block_size = 1 << ao_flash_block_shift;
+ ao_flash_setup_done = 1;
ao_mutex_put(&ao_flash_mutex);
}
ao_flash_instruction.address[0] = ao_flash_block >> (16 - ao_flash_block_shift);
ao_flash_instruction.address[1] = ao_flash_block << (ao_flash_block_shift - 8);
ao_flash_instruction.address[2] = 0;
- ao_flash_send(&ao_flash_instruction, 4);
- ao_flash_send(ao_flash_data, FLASH_BLOCK_SIZE);
+ ao_spi_send(&ao_flash_instruction, 4);
+ ao_spi_send(ao_flash_data, FLASH_BLOCK_SIZE);
ao_flash_cs_high();
ao_flash_write_pending = 1;
}
ao_flash_instruction.address[0] = ao_flash_block >> (16 - ao_flash_block_shift);
ao_flash_instruction.address[1] = ao_flash_block << (ao_flash_block_shift - 8);
ao_flash_instruction.address[2] = 0;
- ao_flash_send(&ao_flash_instruction, 4);
- ao_flash_recv(ao_flash_data, FLASH_BLOCK_SIZE);
+ ao_spi_send(&ao_flash_instruction, 4);
+ ao_spi_recv(ao_flash_data, FLASH_BLOCK_SIZE);
ao_flash_cs_high();
}
* the last block of the flash
*/
-void
-ao_ee_dump_config(void) __reentrant
-{
- uint16_t i;
- printf("Configuration block %d\n", FLASH_CONFIG_BLOCK);
- ao_mutex_get(&ao_flash_mutex); {
- ao_flash_flush_internal();
- ao_flash_block = FLASH_BLOCK_NONE;
- ao_flash_fill(FLASH_CONFIG_BLOCK);
- i = 0;
- do {
- if ((i & 7) == 0) {
- if (i)
- putchar('\n');
- ao_cmd_put16((uint16_t) i);
- }
- putchar(' ');
- ao_cmd_put8(ao_flash_data[i]);
- ++i;
- } while (i < sizeof (ao_config));
- } ao_mutex_put(&ao_flash_mutex);
-}
-
uint8_t
ao_ee_write_config(uint8_t *buf, uint16_t len) __reentrant
{
if (len > FLASH_BLOCK_SIZE)
return 0;
ao_mutex_get(&ao_flash_mutex); {
- printf("FLASH_CONFIG_BLOCK: %d\n", FLASH_CONFIG_BLOCK);
ao_flash_fill(FLASH_CONFIG_BLOCK);
memcpy(ao_flash_data, buf, len);
ao_flash_block_dirty = 1;
ao_flash_flush_internal();
} ao_mutex_put(&ao_flash_mutex);
- ao_ee_dump_config();
return 1;
}
ao_flash_setup();
if (len > FLASH_BLOCK_SIZE)
return 0;
- ao_ee_dump_config();
ao_mutex_get(&ao_flash_mutex); {
ao_flash_fill(FLASH_CONFIG_BLOCK);
memcpy(buf, ao_flash_data, len);
ao_ee_flush();
}
+void
+ao_ee_dump_config(void) __reentrant
+{
+ uint16_t i;
+ printf("Configuration block %d\n", FLASH_CONFIG_BLOCK);
+ ao_mutex_get(&ao_flash_mutex); {
+ ao_flash_flush_internal();
+ ao_flash_block = FLASH_BLOCK_NONE;
+ ao_flash_fill(FLASH_CONFIG_BLOCK);
+ i = 0;
+ do {
+ if ((i & 7) == 0) {
+ if (i)
+ putchar('\n');
+ ao_cmd_put16((uint16_t) i);
+ }
+ putchar(' ');
+ ao_cmd_put8(ao_flash_data[i]);
+ ++i;
+ } while (i < sizeof (ao_config));
+ } ao_mutex_put(&ao_flash_mutex);
+}
+
static void
flash_status(void) __reentrant
{
FLASH_CS = 1;
P1DIR |= (1 << FLASH_CS_INDEX);
P1SEL &= ~(1 << FLASH_CS_INDEX);
-
- /* Set up the USART pin assignment */
- PERCFG = (PERCFG & ~PERCFG_U0CFG_ALT_MASK) | PERCFG_U0CFG_ALT_2;
-
- /* Ensure that USART0 takes precidence over USART1 for pins that
- * they share
- */
- P2SEL = (P2SEL & ~P2SEL_PRI3P1_MASK) | P2SEL_PRI3P1_USART0;
-
- /* Make the SPI pins be controlled by the USART peripheral */
- P1SEL |= ((1 << 5) | (1 << 4) | (1 << 3));
-
- /* Set up OUT DMA */
- ao_flash_dma_out_id = ao_dma_alloc(&ao_flash_dma_out_done);
-
- /* Set up IN DMA */
- ao_flash_dma_in_id = ao_dma_alloc(&ao_flash_dma_in_done);
-
- /* Set up the USART.
- *
- * SPI master mode
- */
- U0CSR = (UxCSR_MODE_SPI | UxCSR_RE | UxCSR_MASTER);
-
- /* Set the baud rate and signal parameters
- *
- * The cc1111 is limited to a 24/8 MHz SPI clock,
- * while the at45db161d.h is limited to 20MHz. So,
- * use the 3MHz clock (BAUD_E 17, BAUD_M 0)
- */
- U0BAUD = 0;
- U0GCR = (UxGCR_CPOL_NEGATIVE |
- UxGCR_CPHA_FIRST_EDGE |
- UxGCR_ORDER_MSB |
- (17 << UxGCR_BAUD_E_SHIFT));
ao_cmd_register(&ao_flash_cmds[0]);
}