#include <cfg/debug.h>
#include <cpu/irq.h>
+ // Define logging setting (for cfg/log.h module).
+#define LOG_LEVEL CONFIG_FLASH_AVR_LOG_LEVEL
+#define LOG_VERBOSITY CONFIG_FLASH_AVR_LOG_VERBOSITY
+#include <cfg/log.h>
+
#include <drv/wdt.h>
#include <kern/kfile.h>
* Definition of type for avr flash module.
*/
typedef uint16_t avr_page_addr_t;
-typedef uint16_t avr_page_t;
-/**
- * Temporary buffer cointaing data block to
- * write on flash.
- */
-static uint8_t page_buf[SPM_PAGESIZE];
-/**
- * Flag for checking if current page is modified.
- */
-bool page_modified;
-/**
- * Current buffered page.
- */
-static avr_page_t curr_page = 0;
-/*
+/**
* Private avr flush funtion.
*
* Write current buffered page in flash memory (if modified).
* This function erase flash memory page before writing.
*
- * This function is only use internaly in this module.
+ * This function is only use internally in this module.
*/
-static void flash_avr_flush(void)
+static void flash_avr_flush(FlashAvr *fd)
{
- if (page_modified)
+ if (fd->page_dirty)
{
- kprintf("Flushing page %d\n", curr_page);
+
+ LOG_INFO("Flushing page %d\n", fd->curr_page);
// Wait while the SPM instruction is busy.
boot_spm_busy_wait();
- kprintf("Filling temparary page buffer...");
+ LOG_INFO("Filling temparary page buffer...");
// Fill the temporary buffer of the AVR
for (avr_page_addr_t page_addr = 0; page_addr < SPM_PAGESIZE; page_addr += 2)
{
- uint16_t word = ((uint16_t)page_buf[page_addr + 1] << 8) | page_buf[page_addr];
+ uint16_t word = ((uint16_t)fd->page_buf[page_addr + 1] << 8) | fd->page_buf[page_addr];
ATOMIC(boot_page_fill(page_addr, word));
}
- kprintf("Done.\n");
+ LOG_INFO("Done.\n");
wdt_reset();
- kprintf("Erasing page, addr %u...", curr_page * SPM_PAGESIZE);
+ LOG_INFO("Erasing page, addr %u...", fd->curr_page * SPM_PAGESIZE);
/* Page erase */
- ATOMIC(boot_page_erase(curr_page * SPM_PAGESIZE));
+ ATOMIC(boot_page_erase(fd->curr_page * SPM_PAGESIZE));
/* Wait until the memory is erased. */
boot_spm_busy_wait();
- kprintf("Done.\n");
- kprintf("Writing page, addr %u...", curr_page * SPM_PAGESIZE);
+ LOG_INFO("Done.\n");
+ LOG_INFO("Writing page, addr %u...", fd->curr_page * SPM_PAGESIZE);
/* Store buffer in flash page. */
- ATOMIC(boot_page_write(curr_page * SPM_PAGESIZE));
+ ATOMIC(boot_page_write(fd->curr_page * SPM_PAGESIZE));
boot_spm_busy_wait(); // Wait while the SPM instruction is busy.
/*
*/
ATOMIC(boot_rww_enable());
- page_modified = false;
- kprintf("Done.\n");
+ fd->page_dirty = false;
+ LOG_INFO("Done.\n");
}
}
* Write current buffered page in flash memory (if modified).
* This function erase flash memory page before writing.
*/
-static int flash_avr_kfileFlush(UNUSED_ARG(struct KFile *,fd))
+static int flash_avr_kfileFlush(struct KFile *_fd)
{
-
- KFILEFLASHAVR(fd);
- flash_avr_flush();
+ FlashAvr *fd = FLASHAVR_CAST(_fd);
+ flash_avr_flush(fd);
return 0;
}
* Check current page and if \a page is different, load it in
* temporary buffer.
*/
-static void flash_avr_loadPage(avr_page_t page)
+static void flash_avr_loadPage(FlashAvr *fd, avr_page_t page)
{
- if (page != curr_page)
+ if (page != fd->curr_page)
{
- flash_avr_flush();
+ flash_avr_flush(fd);
// Load page
- memcpy_P(page_buf, (const char *)(page * SPM_PAGESIZE), SPM_PAGESIZE);
- curr_page = page;
- kprintf("Loaded page %d\n", curr_page);
+ memcpy_P(fd->page_buf, (const char *)(page * SPM_PAGESIZE), SPM_PAGESIZE);
+ fd->curr_page = page;
+ LOG_INFO("Loaded page %d\n", fd->curr_page);
}
}
* Write \a size bytes from buffer \a _buf to file \a fd
* \note Write operations are buffered.
*/
-static size_t flash_avr_write(struct KFile *fd, const void *_buf, size_t size)
+static size_t flash_avr_write(struct KFile *_fd, const void *_buf, size_t size)
{
- KFILEFLASHAVR(fd);
+ FlashAvr *fd = FLASHAVR_CAST(_fd);
const uint8_t *buf =(const uint8_t *)_buf;
avr_page_t page;
size_t total_write = 0;
- ASSERT(fd->seek_pos + size <= fd->size);
- size = MIN((uint32_t)size, fd->size - fd->seek_pos);
+ ASSERT(fd->fd.seek_pos + (kfile_off_t)size <= (kfile_off_t)fd->fd.size);
+ size = MIN((uint32_t)size, fd->fd.size - fd->fd.seek_pos);
- kprintf("Writing at pos[%u]\n", fd->seek_pos);
+ LOG_INFO("Writing at pos[%u]\n", fd->fd.seek_pos);
while (size)
{
- page = fd->seek_pos / SPM_PAGESIZE;
- page_addr = fd->seek_pos % SPM_PAGESIZE;
+ page = fd->fd.seek_pos / SPM_PAGESIZE;
+ page_addr = fd->fd.seek_pos % SPM_PAGESIZE;
- flash_avr_loadPage(page);
+ flash_avr_loadPage(fd, page);
size_t wr_len = MIN(size, SPM_PAGESIZE - page_addr);
- memcpy(page_buf + page_addr, buf, wr_len);
- page_modified = true;
+ memcpy(fd->page_buf + page_addr, buf, wr_len);
+ fd->page_dirty = true;
buf += wr_len;
- fd->seek_pos += wr_len;
+ fd->fd.seek_pos += wr_len;
size -= wr_len;
total_write += wr_len;
}
- kprintf("written %u bytes\n", total_write);
+ LOG_INFO("written %u bytes\n", total_write);
return total_write;
}
* \a name and \a mode are unused, cause flash memory is
* threated like one file.
*/
-static void flash_avr_open(struct KFile *fd)
+static void flash_avr_open(struct FlashAvr *fd)
{
- KFILEFLASHAVR(fd);
- curr_page = 0;
- memcpy_P(page_buf, (const char *)(curr_page * SPM_PAGESIZE), SPM_PAGESIZE);
+ fd->curr_page = 0;
+ memcpy_P(fd->page_buf, (const char *)(fd->curr_page * SPM_PAGESIZE), SPM_PAGESIZE);
- fd->seek_pos = 0;
- fd->size = (uint16_t)(FLASHEND - CONFIG_FLASH_AVR_BOOTSIZE + 1);
- page_modified = false;
+ fd->fd.seek_pos = 0;
+ fd->fd.size = (uint16_t)(FLASHEND - CONFIG_FLASH_AVR_BOOTSIZE + 1);
+ fd->page_dirty = false;
- kprintf("Flash file opened\n");
+ LOG_INFO("Flash file opened\n");
}
/**
* Close file \a fd
*/
-static int flash_avr_close(UNUSED_ARG(struct KFile *,fd))
+static int flash_avr_close(struct KFile *_fd)
{
- KFILEFLASHAVR(fd);
- flash_avr_flush();
- kprintf("Flash file closed\n");
+ FlashAvr *fd = FLASHAVR_CAST(_fd);
+ flash_avr_flush(fd);
+ LOG_INFO("Flash file closed\n");
return 0;
}
*/
static struct KFile *flash_avr_reopen(struct KFile *fd)
{
- KFILEFLASHAVR(fd);
+ FlashAvr *_fd = FLASHAVR_CAST(fd);
flash_avr_close(fd);
- flash_avr_open(fd);
+ flash_avr_open(_fd);
return fd;
}
* Read from file \a fd \a size bytes and put it in buffer \a buf
* \return the number of bytes read.
*/
-static size_t flash_avr_read(struct KFile *fd, void *buf, size_t size)
+static size_t flash_avr_read(struct KFile *_fd, void *buf, size_t size)
{
- KFILEFLASHAVR(fd);
- ASSERT(fd->seek_pos + size <= fd->size);
- size = MIN((uint32_t)size, fd->size - fd->seek_pos);
+ FlashAvr *fd = FLASHAVR_CAST(_fd);
+ ASSERT(fd->fd.seek_pos + (kfile_off_t)size <= (kfile_off_t)fd->fd.size);
+ size = MIN((uint32_t)size, fd->fd.size - fd->fd.seek_pos);
- kprintf("Reading at pos[%u]\n", fd->seek_pos);
+ LOG_INFO("Reading at pos[%u]\n", fd->fd.seek_pos);
// Flush current buffered page (if modified).
- flash_avr_flush();
+ flash_avr_flush(fd);
/*
* AVR pointers are 16 bits wide, this hack is needed to avoid
* compiler warning, cause fd->seek_pos is a 32bit offset.
*/
const uint8_t *pgm_addr = (const uint8_t *)0;
- pgm_addr += fd->seek_pos;
+ pgm_addr += fd->fd.seek_pos;
memcpy_P(buf, pgm_addr, size);
- fd->seek_pos += size;
- kprintf("Read %u bytes\n", size);
+ fd->fd.seek_pos += size;
+ LOG_INFO("Read %u bytes\n", size);
return size;
}
/**
* Init AVR flash read/write file.
*/
-void flash_avr_init(struct KFile *fd)
+void flash_avr_init(struct FlashAvr *fd)
{
memset(fd, 0, sizeof(*fd));
- DB(fd->_type = KFT_FLASHAVR);
+ DB(fd->fd._type = KFT_FLASHAVR);
// Set up flash programming functions.
- fd->reopen = flash_avr_reopen;
- fd->close = flash_avr_close;
- fd->read = flash_avr_read;
- fd->write = flash_avr_write;
- fd->seek = kfile_genericSeek;
- fd->flush = flash_avr_kfileFlush;
+ fd->fd.reopen = flash_avr_reopen;
+ fd->fd.close = flash_avr_close;
+ fd->fd.read = flash_avr_read;
+ fd->fd.write = flash_avr_write;
+ fd->fd.seek = kfile_genericSeek;
+ fd->fd.flush = flash_avr_kfileFlush;
+ fd->curr_page = 0;
flash_avr_open(fd);
}