713 lines
21 KiB
C
713 lines
21 KiB
C
/*
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* spiffs_nucleus.h
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*
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* Created on: Jun 15, 2013
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* Author: petera
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*/
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/* SPIFFS layout
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*
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* spiffs is designed for following spi flash characteristics:
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* - only big areas of data (blocks) can be erased
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* - erasing resets all bits in a block to ones
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* - writing pulls ones to zeroes
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* - zeroes cannot be pulled to ones, without erase
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* - wear leveling
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*
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* spiffs is also meant to be run on embedded, memory constraint devices.
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*
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* Entire area is divided in blocks. Entire area is also divided in pages.
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* Each block contains same number of pages. A page cannot be erased, but a
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* block can be erased.
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*
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* Entire area must be block_size * x
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* page_size must be block_size / (2^y) where y > 2
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*
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* ex: area = 1024*1024 bytes, block size = 65536 bytes, page size = 256 bytes
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*
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* BLOCK 0 PAGE 0 object lookup 1
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* PAGE 1 object lookup 2
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* ...
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* PAGE n-1 object lookup n
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* PAGE n object data 1
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* PAGE n+1 object data 2
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* ...
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* PAGE n+m-1 object data m
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*
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* BLOCK 1 PAGE n+m object lookup 1
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* PAGE n+m+1 object lookup 2
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* ...
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* PAGE 2n+m-1 object lookup n
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* PAGE 2n+m object data 1
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* PAGE 2n+m object data 2
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* ...
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* PAGE 2n+2m-1 object data m
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* ...
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*
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* n is number of object lookup pages, which is number of pages needed to index all pages
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* in a block by object id
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* : block_size / page_size * sizeof(obj_id) / page_size
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* m is number data pages, which is number of pages in block minus number of lookup pages
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* : block_size / page_size - block_size / page_size * sizeof(obj_id) / page_size
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* thus, n+m is total number of pages in a block
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* : block_size / page_size
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*
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* ex: n = 65536/256*2/256 = 2, m = 65536/256 - 2 = 254 => n+m = 65536/256 = 256
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*
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* Object lookup pages contain object id entries. Each entry represent the corresponding
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* data page.
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* Assuming a 16 bit object id, an object id being 0xffff represents a free page.
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* An object id being 0x0000 represents a deleted page.
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*
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* ex: page 0 : lookup : 0008 0001 0aaa ffff ffff ffff ffff ffff ..
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* page 1 : lookup : ffff ffff ffff ffff ffff ffff ffff ffff ..
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* page 2 : data : data for object id 0008
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* page 3 : data : data for object id 0001
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* page 4 : data : data for object id 0aaa
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* ...
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*
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*
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* Object data pages can be either object index pages or object content.
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* All object data pages contains a data page header, containing object id and span index.
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* The span index denotes the object page ordering amongst data pages with same object id.
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* This applies to both object index pages (when index spans more than one page of entries),
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* and object data pages.
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* An object index page contains page entries pointing to object content page. The entry index
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* in a object index page correlates to the span index in the actual object data page.
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* The first object index page (span index 0) is called object index header page, and also
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* contains object flags (directory/file), size, object name etc.
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*
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* ex:
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* BLOCK 1
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* PAGE 256: objectl lookup page 1
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* [*123] [ 123] [ 123] [ 123]
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* [ 123] [*123] [ 123] [ 123]
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* [free] [free] [free] [free] ...
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* PAGE 257: objectl lookup page 2
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* [free] [free] [free] [free] ...
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* PAGE 258: object index page (header)
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* obj.id:0123 span.ix:0000 flags:INDEX
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* size:1600 name:ex.txt type:file
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* [259] [260] [261] [262]
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* PAGE 259: object data page
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* obj.id:0123 span.ix:0000 flags:DATA
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* PAGE 260: object data page
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* obj.id:0123 span.ix:0001 flags:DATA
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* PAGE 261: object data page
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* obj.id:0123 span.ix:0002 flags:DATA
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* PAGE 262: object data page
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* obj.id:0123 span.ix:0003 flags:DATA
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* PAGE 263: object index page
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* obj.id:0123 span.ix:0001 flags:INDEX
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* [264] [265] [fre] [fre]
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* [fre] [fre] [fre] [fre]
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* PAGE 264: object data page
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* obj.id:0123 span.ix:0004 flags:DATA
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* PAGE 265: object data page
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* obj.id:0123 span.ix:0005 flags:DATA
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*
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*/
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#ifndef SPIFFS_NUCLEUS_H_
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#define SPIFFS_NUCLEUS_H_
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#define _SPIFFS_ERR_CHECK_FIRST (SPIFFS_ERR_INTERNAL - 1)
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#define SPIFFS_ERR_CHECK_OBJ_ID_MISM (SPIFFS_ERR_INTERNAL - 1)
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#define SPIFFS_ERR_CHECK_SPIX_MISM (SPIFFS_ERR_INTERNAL - 2)
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#define SPIFFS_ERR_CHECK_FLAGS_BAD (SPIFFS_ERR_INTERNAL - 3)
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#define _SPIFFS_ERR_CHECK_LAST (SPIFFS_ERR_INTERNAL - 4)
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#define SPIFFS_VIS_COUNTINUE (SPIFFS_ERR_INTERNAL - 20)
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#define SPIFFS_VIS_COUNTINUE_RELOAD (SPIFFS_ERR_INTERNAL - 21)
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#define SPIFFS_VIS_END (SPIFFS_ERR_INTERNAL - 22)
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#define SPIFFS_EV_IX_UPD 0
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#define SPIFFS_EV_IX_NEW 1
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#define SPIFFS_EV_IX_DEL 2
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#define SPIFFS_OBJ_ID_IX_FLAG ((spiffs_obj_id)(1<<(8*sizeof(spiffs_obj_id)-1)))
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#define SPIFFS_UNDEFINED_LEN (u32_t)(-1)
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#define SPIFFS_OBJ_ID_DELETED ((spiffs_obj_id)0)
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#define SPIFFS_OBJ_ID_FREE ((spiffs_obj_id)-1)
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#define SPIFFS_MAGIC(fs) ((spiffs_obj_id)(0x20140529 ^ SPIFFS_CFG_LOG_PAGE_SZ(fs)))
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#define SPIFFS_CONFIG_MAGIC (0x20090315)
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#if SPIFFS_SINGLETON == 0
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#define SPIFFS_CFG_LOG_PAGE_SZ(fs) \
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((fs)->cfg.log_page_size)
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#define SPIFFS_CFG_LOG_BLOCK_SZ(fs) \
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((fs)->cfg.log_block_size)
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#define SPIFFS_CFG_PHYS_SZ(fs) \
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((fs)->cfg.phys_size)
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#define SPIFFS_CFG_PHYS_ERASE_SZ(fs) \
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((fs)->cfg.phys_erase_block)
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#define SPIFFS_CFG_PHYS_ADDR(fs) \
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((fs)->cfg.phys_addr)
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#endif
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// total number of pages
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#define SPIFFS_MAX_PAGES(fs) \
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( SPIFFS_CFG_PHYS_SZ(fs)/SPIFFS_CFG_LOG_PAGE_SZ(fs) )
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// total number of pages per block, including object lookup pages
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#define SPIFFS_PAGES_PER_BLOCK(fs) \
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( SPIFFS_CFG_LOG_BLOCK_SZ(fs)/SPIFFS_CFG_LOG_PAGE_SZ(fs) )
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// number of object lookup pages per block
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#define SPIFFS_OBJ_LOOKUP_PAGES(fs) \
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(MAX(1, (SPIFFS_PAGES_PER_BLOCK(fs) * sizeof(spiffs_obj_id)) / SPIFFS_CFG_LOG_PAGE_SZ(fs)) )
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// checks if page index belongs to object lookup
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#define SPIFFS_IS_LOOKUP_PAGE(fs,pix) \
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(((pix) % SPIFFS_PAGES_PER_BLOCK(fs)) < SPIFFS_OBJ_LOOKUP_PAGES(fs))
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// number of object lookup entries in all object lookup pages
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#define SPIFFS_OBJ_LOOKUP_MAX_ENTRIES(fs) \
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(SPIFFS_PAGES_PER_BLOCK(fs)-SPIFFS_OBJ_LOOKUP_PAGES(fs))
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// converts a block to physical address
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#define SPIFFS_BLOCK_TO_PADDR(fs, block) \
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( SPIFFS_CFG_PHYS_ADDR(fs) + (block)* SPIFFS_CFG_LOG_BLOCK_SZ(fs) )
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// converts a object lookup entry to page index
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#define SPIFFS_OBJ_LOOKUP_ENTRY_TO_PIX(fs, block, entry) \
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((block)*SPIFFS_PAGES_PER_BLOCK(fs) + (SPIFFS_OBJ_LOOKUP_PAGES(fs) + entry))
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// converts a object lookup entry to physical address of corresponding page
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#define SPIFFS_OBJ_LOOKUP_ENTRY_TO_PADDR(fs, block, entry) \
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(SPIFFS_BLOCK_TO_PADDR(fs, block) + (SPIFFS_OBJ_LOOKUP_PAGES(fs) + entry) * SPIFFS_CFG_LOG_PAGE_SZ(fs) )
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// converts a page to physical address
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#define SPIFFS_PAGE_TO_PADDR(fs, page) \
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( SPIFFS_CFG_PHYS_ADDR(fs) + (page) * SPIFFS_CFG_LOG_PAGE_SZ(fs) )
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// converts a physical address to page
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#define SPIFFS_PADDR_TO_PAGE(fs, addr) \
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( ((addr) - SPIFFS_CFG_PHYS_ADDR(fs)) / SPIFFS_CFG_LOG_PAGE_SZ(fs) )
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// gives index in page for a physical address
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#define SPIFFS_PADDR_TO_PAGE_OFFSET(fs, addr) \
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( ((addr) - SPIFFS_CFG_PHYS_ADDR(fs)) % SPIFFS_CFG_LOG_PAGE_SZ(fs) )
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// returns containing block for given page
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#define SPIFFS_BLOCK_FOR_PAGE(fs, page) \
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( (page) / SPIFFS_PAGES_PER_BLOCK(fs) )
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// returns starting page for block
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#define SPIFFS_PAGE_FOR_BLOCK(fs, block) \
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( (block) * SPIFFS_PAGES_PER_BLOCK(fs) )
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// converts page to entry in object lookup page
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#define SPIFFS_OBJ_LOOKUP_ENTRY_FOR_PAGE(fs, page) \
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( (page) % SPIFFS_PAGES_PER_BLOCK(fs) - SPIFFS_OBJ_LOOKUP_PAGES(fs) )
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// returns data size in a data page
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#define SPIFFS_DATA_PAGE_SIZE(fs) \
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( SPIFFS_CFG_LOG_PAGE_SZ(fs) - sizeof(spiffs_page_header) )
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// returns physical address for block's erase count,
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// always in the physical last entry of the last object lookup page
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#define SPIFFS_ERASE_COUNT_PADDR(fs, bix) \
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( SPIFFS_BLOCK_TO_PADDR(fs, bix) + SPIFFS_OBJ_LOOKUP_PAGES(fs) * SPIFFS_CFG_LOG_PAGE_SZ(fs) - sizeof(spiffs_obj_id) )
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// returns physical address for block's magic,
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// always in the physical second last entry of the last object lookup page
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#define SPIFFS_MAGIC_PADDR(fs, bix) \
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( SPIFFS_BLOCK_TO_PADDR(fs, bix) + SPIFFS_OBJ_LOOKUP_PAGES(fs) * SPIFFS_CFG_LOG_PAGE_SZ(fs) - sizeof(spiffs_obj_id)*2 )
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// checks if there is any room for magic in the object luts
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#define SPIFFS_CHECK_MAGIC_POSSIBLE(fs) \
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( (SPIFFS_OBJ_LOOKUP_MAX_ENTRIES(fs) % (SPIFFS_CFG_LOG_PAGE_SZ(fs)/sizeof(spiffs_obj_id))) * sizeof(spiffs_obj_id) \
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<= (SPIFFS_CFG_LOG_PAGE_SZ(fs)-sizeof(spiffs_obj_id)*2) )
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// define helpers object
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// entries in an object header page index
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#define SPIFFS_OBJ_HDR_IX_LEN(fs) \
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((SPIFFS_CFG_LOG_PAGE_SZ(fs) - sizeof(spiffs_page_object_ix_header))/sizeof(spiffs_page_ix))
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// entries in an object page index
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#define SPIFFS_OBJ_IX_LEN(fs) \
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((SPIFFS_CFG_LOG_PAGE_SZ(fs) - sizeof(spiffs_page_object_ix))/sizeof(spiffs_page_ix))
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// object index entry for given data span index
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#define SPIFFS_OBJ_IX_ENTRY(fs, spix) \
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((spix) < SPIFFS_OBJ_HDR_IX_LEN(fs) ? (spix) : (((spix)-SPIFFS_OBJ_HDR_IX_LEN(fs))%SPIFFS_OBJ_IX_LEN(fs)))
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// object index span index number for given data span index or entry
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#define SPIFFS_OBJ_IX_ENTRY_SPAN_IX(fs, spix) \
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((spix) < SPIFFS_OBJ_HDR_IX_LEN(fs) ? 0 : (1+((spix)-SPIFFS_OBJ_HDR_IX_LEN(fs))/SPIFFS_OBJ_IX_LEN(fs)))
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#define SPIFFS_OP_T_OBJ_LU (0<<0)
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#define SPIFFS_OP_T_OBJ_LU2 (1<<0)
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#define SPIFFS_OP_T_OBJ_IX (2<<0)
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#define SPIFFS_OP_T_OBJ_DA (3<<0)
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#define SPIFFS_OP_C_DELE (0<<2)
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#define SPIFFS_OP_C_UPDT (1<<2)
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#define SPIFFS_OP_C_MOVS (2<<2)
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#define SPIFFS_OP_C_MOVD (3<<2)
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#define SPIFFS_OP_C_FLSH (4<<2)
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#define SPIFFS_OP_C_READ (5<<2)
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#define SPIFFS_OP_C_WRTHRU (6<<2)
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#define SPIFFS_OP_TYPE_MASK (3<<0)
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#define SPIFFS_OP_COM_MASK (7<<2)
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// if 0, this page is written to, else clean
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#define SPIFFS_PH_FLAG_USED (1<<0)
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// if 0, writing is finalized, else under modification
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#define SPIFFS_PH_FLAG_FINAL (1<<1)
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// if 0, this is an index page, else a data page
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#define SPIFFS_PH_FLAG_INDEX (1<<2)
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// if 0, page is deleted, else valid
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#define SPIFFS_PH_FLAG_DELET (1<<7)
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// if 0, this index header is being deleted
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#define SPIFFS_PH_FLAG_IXDELE (1<<6)
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#define SPIFFS_CHECK_MOUNT(fs) \
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((fs)->mounted != 0)
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#define SPIFFS_CHECK_CFG(fs) \
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((fs)->config_magic == SPIFFS_CONFIG_MAGIC)
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#define SPIFFS_CHECK_RES(res) \
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do { \
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if ((res) < SPIFFS_OK) return (res); \
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} while (0);
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#define SPIFFS_API_CHECK_MOUNT(fs) \
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if (!SPIFFS_CHECK_MOUNT((fs))) { \
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(fs)->err_code = SPIFFS_ERR_NOT_MOUNTED; \
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return -1; \
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}
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#define SPIFFS_API_CHECK_CFG(fs) \
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if (!SPIFFS_CHECK_CFG((fs))) { \
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(fs)->err_code = SPIFFS_ERR_NOT_CONFIGURED; \
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return -1; \
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}
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#define SPIFFS_API_CHECK_RES(fs, res) \
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if ((res) < SPIFFS_OK) { \
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(fs)->err_code = (res); \
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return -1; \
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}
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#define SPIFFS_API_CHECK_RES_UNLOCK(fs, res) \
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if ((res) < SPIFFS_OK) { \
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(fs)->err_code = (res); \
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SPIFFS_UNLOCK(fs); \
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return -1; \
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}
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#define SPIFFS_VALIDATE_OBJIX(ph, objid, spix) \
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if (((ph).flags & SPIFFS_PH_FLAG_USED) != 0) return SPIFFS_ERR_IS_FREE; \
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if (((ph).flags & SPIFFS_PH_FLAG_DELET) == 0) return SPIFFS_ERR_DELETED; \
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if (((ph).flags & SPIFFS_PH_FLAG_FINAL) != 0) return SPIFFS_ERR_NOT_FINALIZED; \
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if (((ph).flags & SPIFFS_PH_FLAG_INDEX) != 0) return SPIFFS_ERR_NOT_INDEX; \
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if (((objid) & SPIFFS_OBJ_ID_IX_FLAG) == 0) return SPIFFS_ERR_NOT_INDEX; \
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if ((ph).span_ix != (spix)) return SPIFFS_ERR_INDEX_SPAN_MISMATCH;
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//if ((spix) == 0 && ((ph).flags & SPIFFS_PH_FLAG_IXDELE) == 0) return SPIFFS_ERR_DELETED;
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#define SPIFFS_VALIDATE_DATA(ph, objid, spix) \
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if (((ph).flags & SPIFFS_PH_FLAG_USED) != 0) return SPIFFS_ERR_IS_FREE; \
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if (((ph).flags & SPIFFS_PH_FLAG_DELET) == 0) return SPIFFS_ERR_DELETED; \
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if (((ph).flags & SPIFFS_PH_FLAG_FINAL) != 0) return SPIFFS_ERR_NOT_FINALIZED; \
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if (((ph).flags & SPIFFS_PH_FLAG_INDEX) == 0) return SPIFFS_ERR_IS_INDEX; \
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if ((objid) & SPIFFS_OBJ_ID_IX_FLAG) return SPIFFS_ERR_IS_INDEX; \
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if ((ph).span_ix != (spix)) return SPIFFS_ERR_DATA_SPAN_MISMATCH;
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// check id
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#define SPIFFS_VIS_CHECK_ID (1<<0)
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// report argument object id to visitor - else object lookup id is reported
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#define SPIFFS_VIS_CHECK_PH (1<<1)
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// stop searching at end of all look up pages
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#define SPIFFS_VIS_NO_WRAP (1<<2)
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#if SPIFFS_CACHE
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#define SPIFFS_CACHE_FLAG_DIRTY (1<<0)
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#define SPIFFS_CACHE_FLAG_WRTHRU (1<<1)
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#define SPIFFS_CACHE_FLAG_OBJLU (1<<2)
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#define SPIFFS_CACHE_FLAG_OBJIX (1<<3)
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#define SPIFFS_CACHE_FLAG_DATA (1<<4)
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#define SPIFFS_CACHE_FLAG_TYPE_WR (1<<7)
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#define SPIFFS_CACHE_PAGE_SIZE(fs) \
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(sizeof(spiffs_cache_page) + SPIFFS_CFG_LOG_PAGE_SZ(fs))
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#define spiffs_get_cache(fs) \
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((spiffs_cache *)((fs)->cache))
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#define spiffs_get_cache_page_hdr(fs, c, ix) \
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((spiffs_cache_page *)(&((c)->cpages[(ix) * SPIFFS_CACHE_PAGE_SIZE(fs)])))
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#define spiffs_get_cache_page(fs, c, ix) \
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((u8_t *)(&((c)->cpages[(ix) * SPIFFS_CACHE_PAGE_SIZE(fs)])) + sizeof(spiffs_cache_page))
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// cache page struct
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typedef struct {
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// cache flags
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u8_t flags;
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// cache page index
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u8_t ix;
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// last access of this cache page
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u32_t last_access;
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union {
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// type read cache
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struct {
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// read cache page index
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spiffs_page_ix pix;
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};
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#if SPIFFS_CACHE_WR
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// type write cache
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struct {
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// write cache
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spiffs_obj_id obj_id;
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// offset in cache page
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u32_t offset;
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// size of cache page
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u16_t size;
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};
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#endif
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};
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} spiffs_cache_page;
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// cache struct
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typedef struct {
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u8_t cpage_count;
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u32_t last_access;
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u32_t cpage_use_map;
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u32_t cpage_use_mask;
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u8_t *cpages;
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} spiffs_cache;
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#endif
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// spiffs nucleus file descriptor
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typedef struct {
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// the filesystem of this descriptor
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spiffs *fs;
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// number of file descriptor - if 0, the file descriptor is closed
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spiffs_file file_nbr;
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// object id - if SPIFFS_OBJ_ID_ERASED, the file was deleted
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spiffs_obj_id obj_id;
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// size of the file
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u32_t size;
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// cached object index header page index
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spiffs_page_ix objix_hdr_pix;
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// cached offset object index page index
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spiffs_page_ix cursor_objix_pix;
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// cached offset object index span index
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spiffs_span_ix cursor_objix_spix;
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// current absolute offset
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u32_t offset;
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// current file descriptor offset
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u32_t fdoffset;
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// fd flags
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spiffs_flags flags;
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#if SPIFFS_CACHE_WR
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spiffs_cache_page *cache_page;
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#endif
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} spiffs_fd;
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// object structs
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// page header, part of each page except object lookup pages
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// NB: this is always aligned when the data page is an object index,
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// as in this case struct spiffs_page_object_ix is used
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typedef struct __attribute(( packed )) {
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// object id
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spiffs_obj_id obj_id;
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// object span index
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spiffs_span_ix span_ix;
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// flags
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u8_t flags;
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} spiffs_page_header;
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// object index header page header
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typedef struct __attribute(( packed ))
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{
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// common page header
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spiffs_page_header p_hdr;
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// size of object
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u32_t size;
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// type of object
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spiffs_obj_type type;
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// name of object
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u8_t name[SPIFFS_OBJ_NAME_LEN];
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} spiffs_page_object_ix_header;
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// object index page header
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typedef struct __attribute(( packed )) {
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spiffs_page_header p_hdr;
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} spiffs_page_object_ix;
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// callback func for object lookup visitor
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typedef s32_t (*spiffs_visitor_f)(spiffs *fs, spiffs_obj_id id, spiffs_block_ix bix, int ix_entry,
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u32_t user_data, void *user_p);
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#if SPIFFS_CACHE
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#define _spiffs_rd(fs, op, fh, addr, len, dst) \
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spiffs_phys_rd((fs), (op), (fh), (addr), (len), (dst))
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#define _spiffs_wr(fs, op, fh, addr, len, src) \
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spiffs_phys_wr((fs), (op), (fh), (addr), (len), (src))
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#else
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#define _spiffs_rd(fs, op, fh, addr, len, dst) \
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spiffs_phys_rd((fs), (addr), (len), (dst))
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#define _spiffs_wr(fs, op, fh, addr, len, src) \
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spiffs_phys_wr((fs), (addr), (len), (src))
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#endif
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#ifndef MIN
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#define MIN(a,b) ((a) < (b) ? (a) : (b))
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#endif
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#ifndef MAX
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#define MAX(a,b) ((a) > (b) ? (a) : (b))
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#endif
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// ---------------
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s32_t spiffs_phys_rd(
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spiffs *fs,
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#if SPIFFS_CACHE
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u8_t op,
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spiffs_file fh,
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#endif
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u32_t addr,
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u32_t len,
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u8_t *dst);
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s32_t spiffs_phys_wr(
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spiffs *fs,
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#if SPIFFS_CACHE
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u8_t op,
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spiffs_file fh,
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#endif
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u32_t addr,
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u32_t len,
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u8_t *src);
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s32_t spiffs_phys_cpy(
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spiffs *fs,
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spiffs_file fh,
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u32_t dst,
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u32_t src,
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u32_t len);
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s32_t spiffs_phys_count_free_blocks(
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spiffs *fs);
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s32_t spiffs_obj_lu_find_entry_visitor(
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spiffs *fs,
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spiffs_block_ix starting_block,
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int starting_lu_entry,
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u8_t flags,
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spiffs_obj_id obj_id,
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spiffs_visitor_f v,
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u32_t user_data,
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void *user_p,
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spiffs_block_ix *block_ix,
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int *lu_entry);
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s32_t spiffs_erase_block(
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spiffs *fs,
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spiffs_block_ix bix);
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// ---------------
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s32_t spiffs_obj_lu_scan(
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spiffs *fs);
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s32_t spiffs_obj_lu_find_free_obj_id(
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spiffs *fs,
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spiffs_obj_id *obj_id,
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u8_t *conflicting_name);
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s32_t spiffs_obj_lu_find_free(
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spiffs *fs,
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spiffs_block_ix starting_block,
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int starting_lu_entry,
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spiffs_block_ix *block_ix,
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int *lu_entry);
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s32_t spiffs_obj_lu_find_id(
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spiffs *fs,
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spiffs_block_ix starting_block,
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int starting_lu_entry,
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spiffs_obj_id obj_id,
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spiffs_block_ix *block_ix,
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int *lu_entry);
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s32_t spiffs_obj_lu_find_id_and_span(
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spiffs *fs,
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spiffs_obj_id obj_id,
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spiffs_span_ix spix,
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spiffs_page_ix exclusion_pix,
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spiffs_page_ix *pix);
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s32_t spiffs_obj_lu_find_id_and_span_by_phdr(
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spiffs *fs,
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spiffs_obj_id obj_id,
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spiffs_span_ix spix,
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spiffs_page_ix exclusion_pix,
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spiffs_page_ix *pix);
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// ---------------
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s32_t spiffs_page_allocate_data(
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spiffs *fs,
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spiffs_obj_id obj_id,
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spiffs_page_header *ph,
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u8_t *data,
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u32_t len,
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u32_t page_offs,
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u8_t finalize,
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spiffs_page_ix *pix);
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s32_t spiffs_page_move(
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spiffs *fs,
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spiffs_file fh,
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u8_t *page_data,
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spiffs_obj_id obj_id,
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spiffs_page_header *page_hdr,
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spiffs_page_ix src_pix,
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spiffs_page_ix *dst_pix);
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s32_t spiffs_page_delete(
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spiffs *fs,
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spiffs_page_ix pix);
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// ---------------
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s32_t spiffs_object_create(
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spiffs *fs,
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spiffs_obj_id obj_id,
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u8_t name[SPIFFS_OBJ_NAME_LEN],
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spiffs_obj_type type,
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spiffs_page_ix *objix_hdr_pix);
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s32_t spiffs_object_update_index_hdr(
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spiffs *fs,
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spiffs_fd *fd,
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spiffs_obj_id obj_id,
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spiffs_page_ix objix_hdr_pix,
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u8_t *new_objix_hdr_data,
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u8_t name[SPIFFS_OBJ_NAME_LEN],
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u32_t size,
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spiffs_page_ix *new_pix);
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void spiffs_cb_object_event(
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spiffs *fs,
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spiffs_fd *fd,
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int ev,
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spiffs_obj_id obj_id,
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spiffs_span_ix spix,
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spiffs_page_ix new_pix,
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u32_t new_size);
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s32_t spiffs_object_open_by_id(
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spiffs *fs,
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spiffs_obj_id obj_id,
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spiffs_fd *f,
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spiffs_flags flags,
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spiffs_mode mode);
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s32_t spiffs_object_open_by_page(
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spiffs *fs,
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spiffs_page_ix pix,
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spiffs_fd *f,
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spiffs_flags flags,
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spiffs_mode mode);
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s32_t spiffs_object_append(
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spiffs_fd *fd,
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u32_t offset,
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u8_t *data,
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u32_t len);
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s32_t spiffs_object_modify(
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spiffs_fd *fd,
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u32_t offset,
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u8_t *data,
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u32_t len);
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s32_t spiffs_object_read(
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spiffs_fd *fd,
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u32_t offset,
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u32_t len,
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u8_t *dst);
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s32_t spiffs_object_truncate(
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spiffs_fd *fd,
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u32_t new_len,
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u8_t remove_object);
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s32_t spiffs_object_find_object_index_header_by_name(
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spiffs *fs,
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u8_t name[SPIFFS_OBJ_NAME_LEN],
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spiffs_page_ix *pix);
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// ---------------
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s32_t spiffs_gc_check(
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spiffs *fs,
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u32_t len);
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s32_t spiffs_gc_erase_page_stats(
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spiffs *fs,
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spiffs_block_ix bix);
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s32_t spiffs_gc_find_candidate(
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spiffs *fs,
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spiffs_block_ix **block_candidate,
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int *candidate_count,
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char fs_crammed);
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s32_t spiffs_gc_clean(
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spiffs *fs,
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spiffs_block_ix bix);
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s32_t spiffs_gc_quick(
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spiffs *fs, u16_t max_free_pages);
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// ---------------
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s32_t spiffs_fd_find_new(
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spiffs *fs,
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spiffs_fd **fd);
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s32_t spiffs_fd_return(
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spiffs *fs,
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spiffs_file f);
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s32_t spiffs_fd_get(
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spiffs *fs,
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spiffs_file f,
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spiffs_fd **fd);
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#if SPIFFS_CACHE
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void spiffs_cache_init(
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spiffs *fs);
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void spiffs_cache_drop_page(
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spiffs *fs,
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spiffs_page_ix pix);
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#if SPIFFS_CACHE_WR
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spiffs_cache_page *spiffs_cache_page_allocate_by_fd(
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spiffs *fs,
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spiffs_fd *fd);
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void spiffs_cache_fd_release(
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spiffs *fs,
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spiffs_cache_page *cp);
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spiffs_cache_page *spiffs_cache_page_get_by_fd(
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spiffs *fs,
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spiffs_fd *fd);
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#endif
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#endif
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s32_t spiffs_lookup_consistency_check(
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spiffs *fs,
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u8_t check_all_objects);
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s32_t spiffs_page_consistency_check(
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spiffs *fs);
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s32_t spiffs_object_index_consistency_check(
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spiffs *fs);
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#endif /* SPIFFS_NUCLEUS_H_ */
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