#include "ao.h"
#include "25lc1024.h"
+#define EE_BLOCK_SIZE ((uint16_t) (256))
+#define EE_BLOCK_SHIFT 8
+#define EE_DEVICE_SIZE ((uint32_t) 128 * (uint32_t) 1024)
+
+/* Total bytes of available storage */
+__pdata uint32_t ao_storage_total;
+
+/* Block size - device is erased in these units. At least 256 bytes */
+__pdata uint32_t ao_storage_block;
+
+/* Byte offset of config block. Will be ao_storage_block bytes long */
+__pdata uint32_t ao_storage_config;
+
+/* Storage unit size - device reads and writes must be within blocks of this size. Usually 256 bytes. */
+__pdata uint16_t ao_storage_unit;
+
/*
* Using SPI on USART 0, with P1_2 as the chip select
*/
#define EE_CS P1_2
#define EE_CS_INDEX 2
-__xdata uint8_t ao_ee_mutex;
+static __xdata uint8_t ao_ee_mutex;
#define ao_ee_delay() do { \
_asm nop _endasm; \
_asm nop _endasm; \
} while(0)
-void ao_ee_cs_low(void)
-{
- ao_ee_delay();
- EE_CS = 0;
- ao_ee_delay();
-}
-
-void ao_ee_cs_high(void)
-{
- ao_ee_delay();
- EE_CS = 1;
- ao_ee_delay();
-}
-
+#define ao_ee_cs_low() ao_spi_get_bit(EE_CS)
-#define EE_BLOCK 256
+#define ao_ee_cs_high() ao_spi_put_bit(EE_CS)
struct ao_ee_instruction {
uint8_t instruction;
#define EE_BLOCK_NONE 0xffff
-static __xdata uint8_t ao_ee_data[EE_BLOCK];
+static __xdata uint8_t ao_ee_data[EE_BLOCK_SIZE];
static __pdata uint16_t ao_ee_block = EE_BLOCK_NONE;
static __pdata uint8_t ao_ee_block_dirty;
ao_ee_instruction.address[1] = ao_ee_block;
ao_ee_instruction.address[2] = 0;
ao_spi_send(&ao_ee_instruction, 4);
- ao_spi_send(ao_ee_data, EE_BLOCK);
+ ao_spi_send(ao_ee_data, EE_BLOCK_SIZE);
ao_ee_cs_high();
for (;;) {
uint8_t status = ao_ee_rdsr();
ao_ee_instruction.address[1] = ao_ee_block;
ao_ee_instruction.address[2] = 0;
ao_spi_send(&ao_ee_instruction, 4);
- ao_spi_recv(ao_ee_data, EE_BLOCK);
+ ao_spi_recv(ao_ee_data, EE_BLOCK_SIZE);
ao_ee_cs_high();
}
}
uint8_t
-ao_ee_write(uint32_t pos, uint8_t *buf, uint16_t len) __reentrant
+ao_storage_device_write(uint32_t pos, __xdata void *buf, uint16_t len) __reentrant
{
- uint16_t block;
- uint16_t this_len;
- uint8_t this_off;
-
- if (pos >= AO_EE_DATA_SIZE || pos + len > AO_EE_DATA_SIZE)
- return 0;
- while (len) {
-
- /* Compute portion of transfer within
- * a single block
- */
- this_off = pos;
- this_len = 256 - (uint16_t) this_off;
- block = (uint16_t) (pos >> 8);
- if (this_len > len)
- this_len = len;
- if (this_len & 0xff00)
- ao_panic(AO_PANIC_EE);
-
- /* Transfer the data */
- ao_mutex_get(&ao_ee_mutex); {
- if (this_len != 256)
- ao_ee_fill(block);
- else {
- ao_ee_flush_internal();
- ao_ee_block = block;
- }
- memcpy(ao_ee_data + this_off, buf, this_len);
- ao_ee_block_dirty = 1;
- } ao_mutex_put(&ao_ee_mutex);
-
- /* See how much is left */
- buf += this_len;
- len -= this_len;
- pos += this_len;
- }
+ uint16_t block = (uint16_t) (pos >> EE_BLOCK_SHIFT);
+
+ /* Transfer the data */
+ ao_mutex_get(&ao_ee_mutex); {
+ if (len != EE_BLOCK_SIZE)
+ ao_ee_fill(block);
+ else {
+ ao_ee_flush_internal();
+ ao_ee_block = block;
+ }
+ memcpy(ao_ee_data + (uint16_t) (pos & 0xff), buf, len);
+ ao_ee_block_dirty = 1;
+ } ao_mutex_put(&ao_ee_mutex);
return 1;
}
uint8_t
-ao_ee_read(uint32_t pos, uint8_t *buf, uint16_t len) __reentrant
+ao_storage_device_read(uint32_t pos, __xdata void *buf, uint16_t len) __reentrant
{
- uint16_t block;
- uint16_t this_len;
- uint8_t this_off;
-
- if (pos >= AO_EE_DATA_SIZE || pos + len > AO_EE_DATA_SIZE)
- return 0;
- while (len) {
-
- /* Compute portion of transfer within
- * a single block
- */
- this_off = pos;
- this_len = 256 - (uint16_t) this_off;
- block = (uint16_t) (pos >> 8);
- if (this_len > len)
- this_len = len;
- if (this_len & 0xff00)
- ao_panic(AO_PANIC_EE);
-
- /* Transfer the data */
- ao_mutex_get(&ao_ee_mutex); {
- ao_ee_fill(block);
- memcpy(buf, ao_ee_data + this_off, this_len);
- } ao_mutex_put(&ao_ee_mutex);
+ uint16_t block = (uint16_t) (pos >> EE_BLOCK_SHIFT);
- /* See how much is left */
- buf += this_len;
- len -= this_len;
- pos += this_len;
- }
+ /* Transfer the data */
+ ao_mutex_get(&ao_ee_mutex); {
+ ao_ee_fill(block);
+ memcpy(buf, ao_ee_data + (uint16_t) (pos & 0xff), len);
+ } ao_mutex_put(&ao_ee_mutex);
return 1;
}
void
-ao_ee_flush(void) __reentrant
+ao_storage_flush(void) __reentrant
{
ao_mutex_get(&ao_ee_mutex); {
ao_ee_flush_internal();
} ao_mutex_put(&ao_ee_mutex);
}
-/*
- * Read/write the config block, which is in
- * the last block of the ao_eeprom
- */
uint8_t
-ao_ee_write_config(uint8_t *buf, uint16_t len) __reentrant
+ao_storage_erase(uint32_t pos) __reentrant
{
- if (len > AO_EE_BLOCK_SIZE)
- return 0;
ao_mutex_get(&ao_ee_mutex); {
- ao_ee_fill(AO_EE_CONFIG_BLOCK);
- memcpy(ao_ee_data, buf, len);
- ao_ee_block_dirty = 1;
ao_ee_flush_internal();
- } ao_mutex_put(&ao_ee_mutex);
- return 1;
-}
-
-uint8_t
-ao_ee_read_config(uint8_t *buf, uint16_t len) __reentrant
-{
- if (len > AO_EE_BLOCK_SIZE)
- return 0;
- ao_mutex_get(&ao_ee_mutex); {
- ao_ee_fill(AO_EE_CONFIG_BLOCK);
- memcpy(buf, ao_ee_data, len);
+ ao_ee_block = (uint16_t) (pos >> EE_BLOCK_SHIFT);
+ memset(ao_ee_data, 0xff, EE_BLOCK_SIZE);
+ ao_ee_block_dirty = 1;
} ao_mutex_put(&ao_ee_mutex);
return 1;
}
static void
-ee_dump(void) __reentrant
+ee_store(void) __reentrant
{
- uint8_t b;
- uint16_t block;
- uint8_t i;
-
- ao_cmd_hex();
- block = ao_cmd_lex_i;
- if (ao_cmd_status != ao_cmd_success)
- return;
- i = 0;
- do {
- if ((i & 7) == 0) {
- if (i)
- putchar('\n');
- ao_cmd_put16((uint16_t) i);
- }
- putchar(' ');
- ao_ee_read(((uint32_t) block << 8) | i, &b, 1);
- ao_cmd_put8(b);
- ++i;
- } while (i != 0);
- putchar('\n');
}
-static void
-ee_store(void) __reentrant
+void
+ao_storage_setup(void)
{
- uint16_t block;
- uint8_t i;
- uint16_t len;
- uint8_t b;
- uint32_t addr;
-
- ao_cmd_hex();
- block = ao_cmd_lex_i;
- ao_cmd_hex();
- i = ao_cmd_lex_i;
- addr = ((uint32_t) block << 8) | i;
- ao_cmd_hex();
- len = ao_cmd_lex_i;
- if (ao_cmd_status != ao_cmd_success)
- return;
- while (len--) {
- ao_cmd_hex();
- if (ao_cmd_status != ao_cmd_success)
- return;
- b = ao_cmd_lex_i;
- ao_ee_write(addr, &b, 1);
- addr++;
+ if (ao_storage_total == 0) {
+ ao_storage_total = EE_DEVICE_SIZE;
+ ao_storage_block = EE_BLOCK_SIZE;
+ ao_storage_config = EE_DEVICE_SIZE - EE_BLOCK_SIZE;
+ ao_storage_unit = EE_BLOCK_SIZE;
}
- ao_ee_flush();
}
-__code struct ao_cmds ao_ee_cmds[] = {
- { 'e', ee_dump, "e <block> Dump a block of EEPROM data" },
- { 'w', ee_store, "w <block> <start> <len> <data> ... Write data to EEPROM" },
- { 0, ee_store, NULL },
-};
+void
+ao_storage_device_info(void) __reentrant
+{
+}
/*
* To initialize the chip, set up the CS line and
* the SPI interface
*/
void
-ao_ee_init(void)
+ao_storage_device_init(void)
{
/* set up CS */
EE_CS = 1;
P1DIR |= (1 << EE_CS_INDEX);
P1SEL &= ~(1 << EE_CS_INDEX);
-
- ao_cmd_register(&ao_ee_cmds[0]);
}