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ftl-nano2g.c: s/\(\*([^)]+)\)\./\1->/

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git-svn-id: svn://svn.rockbox.org/rockbox/trunk@25186 a1c6a512-1295-4272-9138-f99709370657
This commit is contained in:
Michael Sparmann 2010-03-14 22:22:47 +00:00
parent c3c7306098
commit f6ada7c30c
1 changed files with 150 additions and 150 deletions
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300
firmware/target/arm/s5l8700/ipodnano2g/ftl-nano2g.c
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@ -423,15 +423,15 @@ static struct mutex ftl_mtx;
uint32_t ftl_find_devinfo(uint32_t bank)
{
/* Scan the last 10% of the flash for device info pages */
uint32_t lowestBlock = (*ftl_nand_type).blocks
- ((*ftl_nand_type).blocks / 10);
uint32_t lowestBlock = ftl_nand_type->blocks
- (ftl_nand_type->blocks / 10);
uint32_t block, page, pagenum;
for (block = (*ftl_nand_type).blocks - 1; block >= lowestBlock; block--)
for (block = ftl_nand_type->blocks - 1; block >= lowestBlock; block--)
{
page = (*ftl_nand_type).pagesperblock - 8;
for (; page < (*ftl_nand_type).pagesperblock; page++)
page = ftl_nand_type->pagesperblock - 8;
for (; page < ftl_nand_type->pagesperblock; page++)
{
pagenum = block * (*ftl_nand_type).pagesperblock + page;
pagenum = block * ftl_nand_type->pagesperblock + page;
if ((nand_read_page(bank, pagenum, ftl_buffer,
&ftl_sparebuffer[0], 1, 0) & 0x11F) != 0)
continue;
@ -460,7 +460,7 @@ uint32_t ftl_load_bbt(uint32_t bank, uint8_t* bbt)
uint32_t pagebase, page = ftl_find_devinfo(bank), page2;
uint32_t unk1, unk2, unk3;
if (page == 0) return 1;
pagebase = page & ~((*ftl_nand_type).pagesperblock - 1);
pagebase = page & ~(ftl_nand_type->pagesperblock - 1);
if ((nand_read_page(bank, page, ftl_buffer,
(uint32_t*)0, 1, 0) & 0x11F) != 0) return 1;
if (memcmp(&ftl_buffer[0x18], "BBT", 4) != 0) return 1;
@ -473,7 +473,7 @@ uint32_t ftl_load_bbt(uint32_t bank, uint8_t* bbt)
for (j = 0; ; j++)
{
page2 = unk2 + i + unk3 * j;
if (page2 >= (uint32_t)((*ftl_nand_type).pagesperblock - 8))
if (page2 >= (uint32_t)(ftl_nand_type->pagesperblock - 8))
break;
if ((nand_read_page(bank, pagebase + page2, ftl_buffer,
(void*)0, 1, 0) & 0x11F) == 0)
@ -545,7 +545,7 @@ uint32_t ftl_vfl_store_cxt(uint32_t bank)
{
uint32_t index = ftl_vfl_cxt[bank].activecxtblock;
uint32_t block = ftl_vfl_cxt[bank].vflcxtblocks[index];
uint32_t page = block * (*ftl_nand_type).pagesperblock;
uint32_t page = block * ftl_nand_type->pagesperblock;
page += ftl_vfl_cxt[bank].nextcxtpage - i;
nand_write_page(bank, page, &ftl_vfl_cxt[bank], &ftl_sparebuffer[0], 1);
}
@ -554,7 +554,7 @@ uint32_t ftl_vfl_store_cxt(uint32_t bank)
{
uint32_t index = ftl_vfl_cxt[bank].activecxtblock;
uint32_t block = ftl_vfl_cxt[bank].vflcxtblocks[index];
uint32_t page = block * (*ftl_nand_type).pagesperblock;
uint32_t page = block * ftl_nand_type->pagesperblock;
page += ftl_vfl_cxt[bank].nextcxtpage - i;
if ((nand_read_page(bank, page, ftl_buffer,
&ftl_sparebuffer[0], 1, 0) & 0x11F) != 0)
@ -576,7 +576,7 @@ uint32_t ftl_vfl_store_cxt(uint32_t bank)
retries until it works or all available pages have been tried */
uint32_t ftl_vfl_commit_cxt(uint32_t bank)
{
if (ftl_vfl_cxt[bank].nextcxtpage + 8 <= (*ftl_nand_type).pagesperblock)
if (ftl_vfl_cxt[bank].nextcxtpage + 8 <= ftl_nand_type->pagesperblock)
if (ftl_vfl_store_cxt(bank) == 0) return 0;
uint32_t current = ftl_vfl_cxt[bank].activecxtblock;
uint32_t i = current, j;
@ -587,7 +587,7 @@ uint32_t ftl_vfl_commit_cxt(uint32_t bank)
if (ftl_vfl_cxt[bank].vflcxtblocks[i] == 0xFFFF) continue;
for (j = 0; j < 4; j++)
if (nand_block_erase(bank, ftl_vfl_cxt[bank].vflcxtblocks[i]
* (*ftl_nand_type).pagesperblock) == 0)
* ftl_nand_type->pagesperblock) == 0)
break;
if (j == 4) continue;
ftl_vfl_cxt[bank].activecxtblock = i;
@ -656,12 +656,12 @@ uint32_t ftl_vfl_read_page(uint32_t bank, uint32_t block,
uint32_t i;
for (i = 0; i < 8; i++)
{
uint32_t page = block * (*ftl_nand_type).pagesperblock
uint32_t page = block * ftl_nand_type->pagesperblock
+ startpage + i;
if ((nand_read_page(bank, page, databuffer,
sparebuffer, 1, 1) & 0x11F) == 0)
if ((*sparebuffer).meta.field_8 == 0
&& (*sparebuffer).meta.type == 0x80)
if (sparebuffer->meta.field_8 == 0
&& sparebuffer->meta.type == 0x80)
return 0;
}
return 1;
@ -787,7 +787,7 @@ uint32_t ftl_vfl_remap_block(uint32_t bank, uint32_t block)
uint32_t i;
uint32_t newblock = 0, newidx;
panicf("FTL: Remapping bank %u block %u!", (unsigned)bank, (unsigned)block);
if (bank >= ftl_banks || block >= (*ftl_nand_type).blocks) return 0;
if (bank >= ftl_banks || block >= ftl_nand_type->blocks) return 0;
for (i = 0; i < ftl_vfl_cxt[bank].sparecount; i++)
if (ftl_vfl_cxt[bank].remaptable[i] == 0)
{
@ -798,7 +798,7 @@ uint32_t ftl_vfl_remap_block(uint32_t bank, uint32_t block)
if (newblock == 0) return 0;
for (i = 0; i < 9; i++)
if (nand_block_erase(bank,
newblock * (*ftl_nand_type).pagesperblock) == 0)
newblock * ftl_nand_type->pagesperblock) == 0)
break;
for (i = 0; i < newidx; i++)
if (ftl_vfl_cxt[bank].remaptable[i] == block)
@ -815,19 +815,19 @@ uint32_t ftl_vfl_remap_block(uint32_t bank, uint32_t block)
uint32_t ftl_vfl_read(uint32_t vpage, void* buffer, void* sparebuffer,
uint32_t checkempty, uint32_t remaponfail)
{
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t syshyperblocks = (*ftl_nand_type).blocks
- (*ftl_nand_type).userblocks - 0x17;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
uint32_t syshyperblocks = ftl_nand_type->blocks
- ftl_nand_type->userblocks - 0x17;
uint32_t abspage = vpage + ppb * syshyperblocks;
if (abspage >= (*ftl_nand_type).blocks * ppb || abspage < ppb)
if (abspage >= ftl_nand_type->blocks * ppb || abspage < ppb)
panicf("FTL: Trying to read out-of-bounds vPage %u", (unsigned)vpage);
//return 4;
uint32_t bank = abspage % ftl_banks;
uint32_t block = abspage / ((*ftl_nand_type).pagesperblock * ftl_banks);
uint32_t page = (abspage / ftl_banks) % (*ftl_nand_type).pagesperblock;
uint32_t block = abspage / (ftl_nand_type->pagesperblock * ftl_banks);
uint32_t page = (abspage / ftl_banks) % ftl_nand_type->pagesperblock;
uint32_t physblock = ftl_vfl_get_physical_block(bank, block);
uint32_t physpage = physblock * (*ftl_nand_type).pagesperblock + page;
uint32_t physpage = physblock * ftl_nand_type->pagesperblock + page;
uint32_t ret = nand_read_page(bank, physpage, buffer,
sparebuffer, 1, checkempty);
@ -855,17 +855,17 @@ uint32_t ftl_vfl_read_fast(uint32_t vpage, void* buffer, void* sparebuffer,
uint32_t checkempty, uint32_t remaponfail)
{
uint32_t i, rc = 0;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t syshyperblocks = (*ftl_nand_type).blocks
- (*ftl_nand_type).userblocks - 0x17;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
uint32_t syshyperblocks = ftl_nand_type->blocks
- ftl_nand_type->userblocks - 0x17;
uint32_t abspage = vpage + ppb * syshyperblocks;
if (abspage + ftl_banks - 1 >= (*ftl_nand_type).blocks * ppb || abspage < ppb)
if (abspage + ftl_banks - 1 >= ftl_nand_type->blocks * ppb || abspage < ppb)
panicf("FTL: Trying to read out-of-bounds vPage %u", (unsigned)vpage);
//return 4;
uint32_t bank = abspage % ftl_banks;
uint32_t block = abspage / ((*ftl_nand_type).pagesperblock * ftl_banks);
uint32_t page = (abspage / ftl_banks) % (*ftl_nand_type).pagesperblock;
uint32_t block = abspage / (ftl_nand_type->pagesperblock * ftl_banks);
uint32_t page = (abspage / ftl_banks) % ftl_nand_type->pagesperblock;
uint32_t remapped = 0;
for (i = 0; i < ftl_banks; i++)
if (ftl_vfl_get_physical_block(i, block) != block)
@ -886,7 +886,7 @@ uint32_t ftl_vfl_read_fast(uint32_t vpage, void* buffer, void* sparebuffer,
}
return rc;
}
uint32_t physpage = block * (*ftl_nand_type).pagesperblock + page;
uint32_t physpage = block * ftl_nand_type->pagesperblock + page;
rc = nand_read_page_fast(physpage, buffer, sparebuffer, 1, checkempty);
if (!(rc & 0xdddd)) return rc;
@ -925,11 +925,11 @@ uint32_t ftl_vfl_write(uint32_t vpage, uint32_t count,
void* buffer, void* sparebuffer)
{
uint32_t i, j;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t syshyperblocks = (*ftl_nand_type).blocks
- (*ftl_nand_type).userblocks - 0x17;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
uint32_t syshyperblocks = ftl_nand_type->blocks
- ftl_nand_type->userblocks - 0x17;
uint32_t abspage = vpage + ppb * syshyperblocks;
if (abspage + count > (*ftl_nand_type).blocks * ppb || abspage < ppb)
if (abspage + count > ftl_nand_type->blocks * ppb || abspage < ppb)
panicf("FTL: Trying to write out-of-bounds vPage %u",
(unsigned)vpage);
//return 4;
@ -947,10 +947,10 @@ uint32_t ftl_vfl_write(uint32_t vpage, uint32_t count,
physpage[j] = physpage[j - 1];
}
bank[0] = abspage % ftl_banks;
block[0] = abspage / ((*ftl_nand_type).pagesperblock * ftl_banks);
uint32_t page = (abspage / ftl_banks) % (*ftl_nand_type).pagesperblock;
block[0] = abspage / (ftl_nand_type->pagesperblock * ftl_banks);
uint32_t page = (abspage / ftl_banks) % ftl_nand_type->pagesperblock;
uint32_t physblock = ftl_vfl_get_physical_block(bank[0], block[0]);
physpage[0] = physblock * (*ftl_nand_type).pagesperblock + page;
physpage[0] = physblock * ftl_nand_type->pagesperblock + page;
if (i >= ftl_banks)
if (nand_write_page_collect(bank[ftl_banks]))
@ -1006,8 +1006,8 @@ uint32_t ftl_vfl_open(void)
uint8_t bbt[0x410];
#endif
uint32_t syshyperblocks = (*ftl_nand_type).blocks
- (*ftl_nand_type).userblocks - 0x18;
uint32_t syshyperblocks = ftl_nand_type->blocks
- ftl_nand_type->userblocks - 0x18;
for (i = 0; i < ftl_banks; i++)
#ifndef FTL_READONLY
@ -1027,7 +1027,7 @@ uint32_t ftl_vfl_open(void)
{
struct ftl_vfl_cxt_type* cxt;
cxt = (struct ftl_vfl_cxt_type*)ftl_buffer;
memcpy(vflcxtblock, &(*cxt).vflcxtblocks, 8);
memcpy(vflcxtblock, &cxt->vflcxtblocks, 8);
minusn = 0xFFFFFFFF;
vflcxtidx = 4;
for (k = 0; k < 4; k++)
@ -1045,7 +1045,7 @@ uint32_t ftl_vfl_open(void)
panicf("FTL: No VFL CXT block found on bank %u!",
(unsigned)i);
last = 0;
uint32_t max = (*ftl_nand_type).pagesperblock;
uint32_t max = ftl_nand_type->pagesperblock;
for (k = 8; k < max; k += 8)
{
if (ftl_vfl_read_page(i, vflcxtblock[vflcxtidx],
@ -1073,7 +1073,7 @@ uint32_t ftl_vfl_open(void)
panicf("FTL: Couldn't load bank %u lowlevel BBT!", (unsigned)i);
cxt = ftl_vfl_get_newest_cxt();
for (i = 0; i < ftl_banks; i++)
memcpy(ftl_vfl_cxt[i].ftlctrlblocks, (*cxt).ftlctrlblocks, 6);
memcpy(ftl_vfl_cxt[i].ftlctrlblocks, cxt->ftlctrlblocks, 6);
return 0;
}
@ -1083,28 +1083,28 @@ uint32_t ftl_open(void)
{
uint32_t i;
uint32_t ret;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
struct ftl_vfl_cxt_type* cxt = ftl_vfl_get_newest_cxt();
uint32_t ftlcxtblock = 0xffffffff;
uint32_t minusn = 0xffffffff;
for (i = 0; i < 3; i++)
{
ret = ftl_vfl_read(ppb * (*cxt).ftlctrlblocks[i],
ret = ftl_vfl_read(ppb * cxt->ftlctrlblocks[i],
ftl_buffer, &ftl_sparebuffer[0], 1, 0);
if ((ret &= 0x11F) != 0) continue;
if (ftl_sparebuffer[0].meta.type - 0x43 > 4) continue;
if (ftlcxtblock != 0xffffffff && ftl_sparebuffer[0].meta.usn >= minusn)
continue;
minusn = ftl_sparebuffer[0].meta.usn;
ftlcxtblock = (*cxt).ftlctrlblocks[i];
ftlcxtblock = cxt->ftlctrlblocks[i];
}
if (ftlcxtblock == 0xffffffff) //return 1;
panicf("FTL: Couldn't find readable FTL CXT block!");
uint32_t ftlcxtfound = 0;
for (i = (*ftl_nand_type).pagesperblock * ftl_banks - 1; i > 0; i--)
for (i = ftl_nand_type->pagesperblock * ftl_banks - 1; i > 0; i--)
{
ret = ftl_vfl_read(ppb * ftlcxtblock + i,
ftl_buffer, &ftl_sparebuffer[0], 1, 0);
@ -1128,8 +1128,8 @@ uint32_t ftl_open(void)
if (ftlcxtfound == 0) //return 1;
panicf("FTL: Couldn't find FTL CXT page!");
uint32_t pagestoread = (*ftl_nand_type).userblocks >> 10;
if (((*ftl_nand_type).userblocks & 0x1FF) != 0) pagestoread++;
uint32_t pagestoread = ftl_nand_type->userblocks >> 10;
if ((ftl_nand_type->userblocks & 0x1FF) != 0) pagestoread++;
for (i = 0; i < pagestoread; i++)
{
@ -1139,15 +1139,15 @@ uint32_t ftl_open(void)
//return 1;
uint32_t toread = 2048;
if (toread > ((*ftl_nand_type).userblocks << 1) - (i << 11))
toread = ((*ftl_nand_type).userblocks << 1) - (i << 11);
if (toread > (ftl_nand_type->userblocks << 1) - (i << 11))
toread = (ftl_nand_type->userblocks << 1) - (i << 11);
memcpy(&ftl_map[i << 10], ftl_buffer, toread);
}
#ifndef FTL_READONLY
pagestoread = ((*ftl_nand_type).userblocks + 23) >> 10;
if ((((*ftl_nand_type).userblocks + 23) & 0x1FF) != 0) pagestoread++;
pagestoread = (ftl_nand_type->userblocks + 23) >> 10;
if (((ftl_nand_type->userblocks + 23) & 0x1FF) != 0) pagestoread++;
for (i = 0; i < pagestoread; i++)
{
@ -1157,8 +1157,8 @@ uint32_t ftl_open(void)
//return 1;
uint32_t toread = 2048;
if (toread > (((*ftl_nand_type).userblocks + 23) << 1) - (i << 11))
toread = (((*ftl_nand_type).userblocks + 23) << 1) - (i << 11);
if (toread > ((ftl_nand_type->userblocks + 23) << 1) - (i << 11))
toread = ((ftl_nand_type->userblocks + 23) << 1) - (i << 11);
memcpy(&ftl_erasectr[i << 10], ftl_buffer, toread);
}
@ -1197,10 +1197,10 @@ struct ftl_log_type* ftl_get_log_entry(uint32_t block)
uint32_t ftl_read(uint32_t sector, uint32_t count, void* buffer)
{
uint32_t i, j;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
uint32_t error = 0;
if (sector + count > (*ftl_nand_type).userblocks * ppb)
if (sector + count > ftl_nand_type->userblocks * ppb)
return 1;
if (count == 0) return 0;
@ -1216,10 +1216,10 @@ uint32_t ftl_read(uint32_t sector, uint32_t count, void* buffer)
#ifndef FTL_READONLY
struct ftl_log_type* logentry = ftl_get_log_entry(block);
if (logentry != (struct ftl_log_type*)0)
if ((*logentry).scatteredvblock != 0xFFFF
&& (*logentry).pageoffsets[page] != 0xFFFF)
abspage = (*logentry).scatteredvblock * ppb
+ (*logentry).pageoffsets[page];
if (logentry->scatteredvblock != 0xFFFF
&& logentry->pageoffsets[page] != 0xFFFF)
abspage = logentry->scatteredvblock * ppb
+ logentry->pageoffsets[page];
#endif
#ifndef FTL_READONLY
@ -1266,9 +1266,9 @@ uint32_t ftl_read(uint32_t sector, uint32_t count, void* buffer)
uint32_t ftl_erase_block_internal(uint32_t block)
{
uint32_t i, j;
block = block + (*ftl_nand_type).blocks
- (*ftl_nand_type).userblocks - 0x17;
if (block == 0 || block >= (*ftl_nand_type).blocks) return 1;
block = block + ftl_nand_type->blocks
- ftl_nand_type->userblocks - 0x17;
if (block == 0 || block >= ftl_nand_type->blocks) return 1;
for (i = 0; i < ftl_banks; i++)
{
if (ftl_vfl_check_remap_scheduled(i, block) == 1)
@ -1281,7 +1281,7 @@ uint32_t ftl_erase_block_internal(uint32_t block)
uint32_t rc;
for (j = 0; j < 3; j++)
{
rc = nand_block_erase(i, pblock * (*ftl_nand_type).pagesperblock);
rc = nand_block_erase(i, pblock * ftl_nand_type->pagesperblock);
if (rc == 0) break;
}
if (rc != 0)
@ -1342,7 +1342,7 @@ uint32_t ftl_allocate_pool_block(void)
ftl_cxt.blockpool[bestidx] = ftl_cxt.blockpool[ftl_cxt.nextfreeidx];
ftl_cxt.blockpool[ftl_cxt.nextfreeidx] = block;
}
if (block > (uint32_t)(*ftl_nand_type).userblocks + 0x17)
if (block > (uint32_t)ftl_nand_type->userblocks + 0x17)
panicf("FTL: Bad block number in pool: %u", (unsigned)block);
if (ftl_erase_block(block) != 0) return 0xFFFFFFFF;
if (++ftl_cxt.nextfreeidx == 0x14) ftl_cxt.nextfreeidx = 0;
@ -1356,7 +1356,7 @@ uint32_t ftl_allocate_pool_block(void)
/* Releases a vBlock back into the pool */
void ftl_release_pool_block(uint32_t block)
{
if (block >= (uint32_t)(*ftl_nand_type).userblocks + 0x17)
if (block >= (uint32_t)ftl_nand_type->userblocks + 0x17)
panicf("FTL: Tried to release block %u", (unsigned)block);
uint32_t idx = ftl_cxt.nextfreeidx + ftl_cxt.freecount++;
if (idx >= 0x14) idx -= 0x14;
@ -1410,7 +1410,7 @@ uint32_t ftl_save_erasectr_page(uint32_t index)
uint32_t ftl_next_ctrl_pool_page(void)
{
uint32_t i;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
if (++ftl_cxt.ftlctrlpage % ppb != 0) return 0;
for (i = 0; i < 3; i++)
if ((ftl_cxt.ftlctrlblocks[i] + 1) * ppb == ftl_cxt.ftlctrlpage)
@ -1421,8 +1421,8 @@ uint32_t ftl_next_ctrl_pool_page(void)
if (newblock == 0xFFFFFFFF) return 1;
ftl_cxt.ftlctrlblocks[i] = newblock;
ftl_cxt.ftlctrlpage = newblock * ppb;
uint32_t pagestoread = ((*ftl_nand_type).userblocks + 23) >> 10;
if ((((*ftl_nand_type).userblocks + 23) & 0x1FF) != 0) pagestoread++;
uint32_t pagestoread = (ftl_nand_type->userblocks + 23) >> 10;
if (((ftl_nand_type->userblocks + 23) & 0x1FF) != 0) pagestoread++;
for (i = 0; i < pagestoread; i++)
if (oldblock * ppb <= ftl_cxt.ftl_erasectr_pages[i]
&& (oldblock + 1) * ppb > ftl_cxt.ftl_erasectr_pages[i])
@ -1448,7 +1448,7 @@ uint32_t ftl_next_ctrl_pool_page(void)
uint32_t ftl_copy_page(uint32_t source, uint32_t destination,
uint32_t lpn, uint32_t type)
{
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
uint32_t rc = ftl_vfl_read(source, ftl_copybuffer[0],
&ftl_copyspare[0], 1, 1) & 0x11F;
memset(&ftl_copyspare[0], 0xFF, 0x40);
@ -1469,7 +1469,7 @@ uint32_t ftl_copy_page(uint32_t source, uint32_t destination,
uint32_t ftl_copy_block(uint32_t source, uint32_t destination)
{
uint32_t i, j;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
uint32_t error = 0;
ftl_cxt.nextblockusn++;
for (i = 0; i < ppb; i += FTL_COPYBUF_SIZE)
@ -1510,9 +1510,9 @@ uint32_t ftl_copy_block(uint32_t source, uint32_t destination)
/* Clears ftl_log.issequential, if something violating that is written. */
void ftl_check_still_sequential(struct ftl_log_type* entry, uint32_t page)
{
if ((*entry).pagesused != (*entry).pagescurrent
|| (*entry).pageoffsets[page] != page)
(*entry).issequential = 0;
if (entry->pagesused != entry->pagescurrent
|| entry->pageoffsets[page] != page)
entry->issequential = 0;
}
#endif
@ -1528,51 +1528,51 @@ void ftl_check_still_sequential(struct ftl_log_type* entry, uint32_t page)
uint32_t ftl_compact_scattered(struct ftl_log_type* entry)
{
uint32_t i, j;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
uint32_t error;
struct ftl_log_type backup;
if ((*entry).pagescurrent == 0)
if (entry->pagescurrent == 0)
{
ftl_release_pool_block((*entry).scatteredvblock);
(*entry).scatteredvblock = 0xFFFF;
ftl_release_pool_block(entry->scatteredvblock);
entry->scatteredvblock = 0xFFFF;
return 0;
}
backup = *entry;
memcpy(ftl_offsets_backup, (*entry).pageoffsets, 0x400);
memcpy(ftl_offsets_backup, entry->pageoffsets, 0x400);
for (i = 0; i < 4; i++)
{
uint32_t block = ftl_allocate_pool_block();
if (block == 0xFFFFFFFF) return 1;
(*entry).pagesused = 0;
(*entry).pagescurrent = 0;
(*entry).issequential = 1;
(*entry).scatteredvblock = block;
entry->pagesused = 0;
entry->pagescurrent = 0;
entry->issequential = 1;
entry->scatteredvblock = block;
error = 0;
for (j = 0; j < ppb; j++)
if ((*entry).pageoffsets[j] != 0xFFFF)
if (entry->pageoffsets[j] != 0xFFFF)
{
uint32_t lpn = (*entry).logicalvblock * ppb + j;
uint32_t newpage = block * ppb + (*entry).pagesused;
uint32_t lpn = entry->logicalvblock * ppb + j;
uint32_t newpage = block * ppb + entry->pagesused;
uint32_t oldpage = backup.scatteredvblock * ppb
+ (*entry).pageoffsets[j];
+ entry->pageoffsets[j];
if (ftl_copy_page(oldpage, newpage, lpn,
(*entry).issequential) != 0)
entry->issequential) != 0)
{
error = 1;
break;
}
(*entry).pageoffsets[j] = (*entry).pagesused++;
(*entry).pagescurrent++;
entry->pageoffsets[j] = entry->pagesused++;
entry->pagescurrent++;
ftl_check_still_sequential(entry, j);
}
if (backup.pagescurrent != (*entry).pagescurrent) error = 1;
if (backup.pagescurrent != entry->pagescurrent) error = 1;
if (error == 0)
{
ftl_release_pool_block(backup.scatteredvblock);
break;
}
*entry = backup;
memcpy((*entry).pageoffsets, ftl_offsets_backup, 0x400);
memcpy(entry->pageoffsets, ftl_offsets_backup, 0x400);
}
return error;
}
@ -1590,15 +1590,15 @@ uint32_t ftl_commit_scattered(struct ftl_log_type* entry)
{
block = ftl_allocate_pool_block();
if (block == 0xFFFFFFFF) return 1;
error = ftl_copy_block((*entry).logicalvblock, block);
error = ftl_copy_block(entry->logicalvblock, block);
if (error == 0) break;
ftl_release_pool_block(block);
}
if (error != 0) return 1;
ftl_release_pool_block((*entry).scatteredvblock);
(*entry).scatteredvblock = 0xFFFF;
ftl_release_pool_block(ftl_map[(*entry).logicalvblock]);
ftl_map[(*entry).logicalvblock] = block;
ftl_release_pool_block(entry->scatteredvblock);
entry->scatteredvblock = 0xFFFF;
ftl_release_pool_block(ftl_map[entry->logicalvblock]);
ftl_map[entry->logicalvblock] = block;
return 0;
}
#endif
@ -1612,21 +1612,21 @@ uint32_t ftl_commit_scattered(struct ftl_log_type* entry)
uint32_t ftl_commit_sequential(struct ftl_log_type* entry)
{
uint32_t i;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
if ((*entry).issequential != 1
|| (*entry).pagescurrent != (*entry).pagesused)
if (entry->issequential != 1
|| entry->pagescurrent != entry->pagesused)
return 1;
for (; (*entry).pagesused < ppb; )
for (; entry->pagesused < ppb; )
{
uint32_t lpn = (*entry).logicalvblock * ppb + (*entry).pagesused;
uint32_t newpage = (*entry).scatteredvblock * ppb
+ (*entry).pagesused;
uint32_t count = FTL_COPYBUF_SIZE < ppb - (*entry).pagesused
? FTL_COPYBUF_SIZE : ppb - (*entry).pagesused;
uint32_t lpn = entry->logicalvblock * ppb + entry->pagesused;
uint32_t newpage = entry->scatteredvblock * ppb
+ entry->pagesused;
uint32_t count = FTL_COPYBUF_SIZE < ppb - entry->pagesused
? FTL_COPYBUF_SIZE : ppb - entry->pagesused;
for (i = 0; i < count; i++)
if ((*entry).pageoffsets[(*entry).pagesused + i] != 0xFFFF)
if (entry->pageoffsets[entry->pagesused + i] != 0xFFFF)
return ftl_commit_scattered(entry);
uint32_t rc = ftl_read(lpn, count, ftl_copybuffer[0]);
memset(&ftl_copyspare[0], 0xFF, 0x40 * FTL_COPYBUF_SIZE);
@ -1636,16 +1636,16 @@ uint32_t ftl_commit_sequential(struct ftl_log_type* entry)
ftl_copyspare[i].user.usn = ++ftl_cxt.nextblockusn;
ftl_copyspare[i].user.type = 0x40;
if (rc) ftl_copyspare[i].user.eccmark = 0x55;
if ((*entry).pagesused + i == ppb - 1)
if (entry->pagesused + i == ppb - 1)
ftl_copyspare[i].user.type = 0x41;
}
if (ftl_vfl_write(newpage, count, ftl_copybuffer[0], &ftl_copyspare[0]))
return ftl_commit_scattered(entry);
(*entry).pagesused += count;
entry->pagesused += count;
}
ftl_release_pool_block(ftl_map[(*entry).logicalvblock]);
ftl_map[(*entry).logicalvblock] = (*entry).scatteredvblock;
(*entry).scatteredvblock = 0xFFFF;
ftl_release_pool_block(ftl_map[entry->logicalvblock]);
ftl_map[entry->logicalvblock] = entry->scatteredvblock;
entry->scatteredvblock = 0xFFFF;
return 0;
}
#endif
@ -1658,7 +1658,7 @@ uint32_t ftl_commit_sequential(struct ftl_log_type* entry)
uint32_t ftl_remove_scattered_block(struct ftl_log_type* entry)
{
uint32_t i;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
uint32_t age = 0xFFFFFFFF, used = 0;
if (entry == (struct ftl_log_type*)0)
{
@ -1677,13 +1677,13 @@ uint32_t ftl_remove_scattered_block(struct ftl_log_type* entry)
}
if (entry == (struct ftl_log_type*)0) return 1;
}
else if ((*entry).pagescurrent < ppb / 2)
else if (entry->pagescurrent < ppb / 2)
{
ftl_cxt.swapcounter++;
return ftl_compact_scattered(entry);
}
ftl_cxt.swapcounter++;
if ((*entry).issequential == 1) return ftl_commit_sequential(entry);
if (entry->issequential == 1) return ftl_commit_sequential(entry);
else return ftl_commit_scattered(entry);
}
#endif
@ -1693,10 +1693,10 @@ uint32_t ftl_remove_scattered_block(struct ftl_log_type* entry)
/* Initialize a log entry to the values for an empty scattered page block */
void ftl_init_log_entry(struct ftl_log_type* entry)
{
(*entry).issequential = 1;
(*entry).pagescurrent = 0;
(*entry).pagesused = 0;
memset((*entry).pageoffsets, 0xFF, 0x400);
entry->issequential = 1;
entry->pagescurrent = 0;
entry->pagesused = 0;
memset(entry->pageoffsets, 0xFF, 0x400);
}
#endif
@ -1708,7 +1708,7 @@ struct ftl_log_type* ftl_allocate_log_entry(uint32_t block)
{
uint32_t i;
struct ftl_log_type* entry = ftl_get_log_entry(block);
(*entry).usn = ftl_cxt.nextblockusn - 1;
entry->usn = ftl_cxt.nextblockusn - 1;
if (entry != (struct ftl_log_type*)0) return entry;
for (i = 0; i < 0x11; i++)
@ -1728,15 +1728,15 @@ struct ftl_log_type* ftl_allocate_log_entry(uint32_t block)
if (ftl_remove_scattered_block((struct ftl_log_type*)0) != 0)
return (struct ftl_log_type*)0;
entry = ftl_log;
while ((*entry).scatteredvblock != 0xFFFF) entry = &entry[1];
(*entry).scatteredvblock = ftl_allocate_pool_block();
if ((*entry).scatteredvblock == 0xFFFF)
while (entry->scatteredvblock != 0xFFFF) entry = &entry[1];
entry->scatteredvblock = ftl_allocate_pool_block();
if (entry->scatteredvblock == 0xFFFF)
return (struct ftl_log_type*)0;
}
ftl_init_log_entry(entry);
(*entry).logicalvblock = block;
(*entry).usn = ftl_cxt.nextblockusn - 1;
entry->logicalvblock = block;
entry->usn = ftl_cxt.nextblockusn - 1;
return entry;
}
@ -1748,9 +1748,9 @@ struct ftl_log_type* ftl_allocate_log_entry(uint32_t block)
uint32_t ftl_commit_cxt(void)
{
uint32_t i;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t mappages = ((*ftl_nand_type).userblocks + 0x3ff) >> 10;
uint32_t ctrpages = ((*ftl_nand_type).userblocks + 23 + 0x3ff) >> 10;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
uint32_t mappages = (ftl_nand_type->userblocks + 0x3ff) >> 10;
uint32_t ctrpages = (ftl_nand_type->userblocks + 23 + 0x3ff) >> 10;
uint32_t endpage = ftl_cxt.ftlctrlpage + mappages + ctrpages + 1;
if (endpage >= (ftl_cxt.ftlctrlpage / ppb + 1) * ppb)
ftl_cxt.ftlctrlpage |= ppb - 1;
@ -1804,7 +1804,7 @@ uint32_t ftl_swap_blocks(void)
}
}
if (maxidx == 0x14) return 0;
for (i = 0; i < (*ftl_nand_type).userblocks; i++)
for (i = 0; i < ftl_nand_type->userblocks; i++)
{
if (ftl_erasectr[ftl_map[i]] > max) max = ftl_erasectr[ftl_map[i]];
if (ftl_get_log_entry(i) != (struct ftl_log_type*)0) continue;
@ -1831,9 +1831,9 @@ uint32_t ftl_swap_blocks(void)
uint32_t ftl_write(uint32_t sector, uint32_t count, const void* buffer)
{
uint32_t i, j, k;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
if (sector + count > (*ftl_nand_type).userblocks * ppb)
if (sector + count > ftl_nand_type->userblocks * ppb)
return 1;
if (count == 0) return 0;
@ -1878,9 +1878,9 @@ uint32_t ftl_write(uint32_t sector, uint32_t count, const void* buffer)
}
if (page == 0 && count - i >= ppb)
{
uint32_t vblock = (*logentry).scatteredvblock;
(*logentry).scatteredvblock = 0xFFFF;
if ((*logentry).pagesused != 0)
uint32_t vblock = logentry->scatteredvblock;
logentry->scatteredvblock = 0xFFFF;
if (logentry->pagesused != 0)
{
ftl_release_pool_block(vblock);
vblock = ftl_allocate_pool_block();
@ -1919,7 +1919,7 @@ uint32_t ftl_write(uint32_t sector, uint32_t count, const void* buffer)
}
else
{
if ((*logentry).pagesused == ppb)
if (logentry->pagesused == ppb)
{
ftl_remove_scattered_block(logentry);
logentry = ftl_allocate_log_entry(block);
@ -1931,7 +1931,7 @@ uint32_t ftl_write(uint32_t sector, uint32_t count, const void* buffer)
}
uint32_t cnt = FTL_WRITESPARE_SIZE;
if (cnt > count - i) cnt = count - i;
if (cnt > ppb - (*logentry).pagesused) cnt = ppb - (*logentry).pagesused;
if (cnt > ppb - logentry->pagesused) cnt = ppb - logentry->pagesused;
if (cnt > ppb - page) cnt = ppb - page;
memset(&ftl_sparebuffer[0], 0xFF, 0x40 * cnt);
for (j = 0; j < cnt; j++)
@ -1939,30 +1939,30 @@ uint32_t ftl_write(uint32_t sector, uint32_t count, const void* buffer)
ftl_sparebuffer[j].user.lpn = sector + i + j;
ftl_sparebuffer[j].user.usn = ++ftl_cxt.nextblockusn;
ftl_sparebuffer[j].user.type = 0x40;
if ((*logentry).pagesused + j == ppb - 1 && (*logentry).issequential)
if (logentry->pagesused + j == ppb - 1 && logentry->issequential)
ftl_sparebuffer[j].user.type = 0x41;
}
uint32_t abspage = (*logentry).scatteredvblock * ppb
+ (*logentry).pagesused;
(*logentry).pagesused += cnt;
uint32_t abspage = logentry->scatteredvblock * ppb
+ logentry->pagesused;
logentry->pagesused += cnt;
if (ftl_vfl_write(abspage, cnt, &((uint8_t*)buffer)[i << 11],
&ftl_sparebuffer[0]) == 0)
{
for (j = 0; j < cnt; j++)
{
if ((*logentry).pageoffsets[page + j] == 0xFFFF)
(*logentry).pagescurrent++;
(*logentry).pageoffsets[page + j] = (*logentry).pagesused - cnt + j;
if ((*logentry).pagesused - cnt + j + 1 != (*logentry).pagescurrent
|| (*logentry).pageoffsets[page + j] != page + j)
(*logentry).issequential = 0;
if (logentry->pageoffsets[page + j] == 0xFFFF)
logentry->pagescurrent++;
logentry->pageoffsets[page + j] = logentry->pagesused - cnt + j;
if (logentry->pagesused - cnt + j + 1 != logentry->pagescurrent
|| logentry->pageoffsets[page + j] != page + j)
logentry->issequential = 0;
}
i += cnt;
}
else panicf("FTL: Write error: %u %u %u!",
(unsigned)sector, (unsigned)count, (unsigned)i);
}
if ((*logentry).pagesused == ppb) ftl_remove_scattered_block(logentry);
if (logentry->pagesused == ppb) ftl_remove_scattered_block(logentry);
}
if (ftl_cxt.swapcounter >= 300)
{
@ -1993,7 +1993,7 @@ uint32_t ftl_sync(void)
{
uint32_t i;
uint32_t rc = 0;
uint32_t ppb = (*ftl_nand_type).pagesperblock * ftl_banks;
uint32_t ppb = ftl_nand_type->pagesperblock * ftl_banks;
if (ftl_cxt.clean_flag == 1) return 0;
mutex_lock(&ftl_mtx);
@ -2050,7 +2050,7 @@ uint32_t ftl_init(void)
foundsignature = 0;
blockwiped = 1;
mutex_unlock(&ftl_mtx);
for (i = 0; i < (*ftl_nand_type).pagesperblock; i++)
for (i = 0; i < ftl_nand_type->pagesperblock; i++)
{
result = nand_read_page(0, i, ftl_buffer, (uint32_t*)0, 1, 1);
if ((result & 0x11F) == 0)