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@ -80,37 +80,6 @@ Accessing the flash through the mem emulation at 0x40200000 is a bit hairy: All |
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a memory exception, crashing the program. |
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*/ |
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void espfs_memcpy( EspFsContext * ctx, void * dest, const void * src, int count ) |
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{ |
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if( ctx->source == ESPFS_MEMORY ) |
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os_memcpy( dest, src, count ); |
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else |
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{ |
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if( spi_flash_read( (int)src, dest, count ) != SPI_FLASH_RESULT_OK ) |
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os_memset( dest, 0, count ); // if read was not successful, reply with zeroes
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} |
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} |
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EspFsInitResult ICACHE_FLASH_ATTR espFsInit(EspFsContext *ctx, void *flashAddress, EspFsSource source) { |
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ctx->valid = 0; |
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ctx->source = source; |
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// base address must be aligned to 4 bytes
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if (((int)flashAddress & 3) != 0) { |
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return ESPFS_INIT_RESULT_BAD_ALIGN; |
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} |
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// check if there is valid header at address
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EspFsHeader testHeader; |
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espfs_memcpy(ctx, &testHeader, flashAddress, sizeof(EspFsHeader)); |
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if (testHeader.magic != ESPFS_MAGIC) { |
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return ESPFS_INIT_RESULT_NO_IMAGE; |
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} |
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ctx->data = (char *)flashAddress; |
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ctx->valid = 1; |
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return ESPFS_INIT_RESULT_OK; |
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} |
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//Copies len bytes over from dst to src, but does it using *only*
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//aligned 32-bit reads. Yes, it's no too optimized but it's short and sweet and it works.
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@ -133,12 +102,49 @@ void ICACHE_FLASH_ATTR memcpyAligned(char *dst, const char *src, int len) { |
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#define memcpyAligned memcpy |
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#endif |
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void ICACHE_FLASH_ATTR memcpyFromFlash(char *dst, const char *src, int len) |
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{ |
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if( spi_flash_read( (int)src, (void *)dst, len ) != SPI_FLASH_RESULT_OK ) |
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os_memset( dst, 0, len ); // if read was not successful, reply with zeroes
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} |
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// memcpy on MEMORY/FLASH file systems
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void espfs_memcpy( EspFsContext * ctx, void * dest, const void * src, int count ) |
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{ |
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if( ctx->source == ESPFS_MEMORY ) |
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os_memcpy( dest, src, count ); |
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else |
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memcpyFromFlash(dest, src, count); |
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} |
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// aligned memcpy on MEMORY/FLASH file systems
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void espfs_memcpyAligned( EspFsContext * ctx, void * dest, const void * src, int count ) |
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{ |
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if( ctx->source == ESPFS_MEMORY ) |
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memcpyAligned(dest, src, count); |
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else |
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espfs_memcpy(ctx, dest, src, count); |
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memcpyFromFlash(dest, src, count); |
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} |
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// initializes an EspFs context
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EspFsInitResult ICACHE_FLASH_ATTR espFsInit(EspFsContext *ctx, void *flashAddress, EspFsSource source) { |
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ctx->valid = 0; |
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ctx->source = source; |
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// base address must be aligned to 4 bytes
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if (((int)flashAddress & 3) != 0) { |
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return ESPFS_INIT_RESULT_BAD_ALIGN; |
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} |
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// check if there is valid header at address
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EspFsHeader testHeader; |
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espfs_memcpy(ctx, &testHeader, flashAddress, sizeof(EspFsHeader)); |
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if (testHeader.magic != ESPFS_MAGIC) { |
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return ESPFS_INIT_RESULT_NO_IMAGE; |
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} |
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ctx->data = (char *)flashAddress; |
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ctx->valid = 1; |
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return ESPFS_INIT_RESULT_OK; |
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} |
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// Returns flags of opened file.
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@ -155,6 +161,7 @@ int ICACHE_FLASH_ATTR espFsFlags(EspFsFile *fh) { |
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return (int)flags; |
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} |
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// creates and initializes an iterator over the espfs file system
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void ICACHE_FLASH_ATTR espFsIteratorInit(EspFsContext *ctx, EspFsIterator *iterator) |
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{ |
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if( ctx->data == NULL ) |
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@ -163,19 +170,31 @@ void ICACHE_FLASH_ATTR espFsIteratorInit(EspFsContext *ctx, EspFsIterator *itera |
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return; |
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} |
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iterator->ctx = ctx; |
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iterator->p = ctx->data; |
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iterator->position = NULL; |
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} |
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// moves iterator to the next file on espfs
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// returns 1 if iterator move was successful, otherwise 0 (last file)
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// iterator->header and iterator->name will contain file information
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int ICACHE_FLASH_ATTR espFsIteratorNext(EspFsIterator *iterator) |
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{ |
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if( iterator->ctx == NULL ) |
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return 0; |
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char * p = iterator->p; |
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char * position = iterator->position; |
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if( position == NULL ) |
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position = iterator->ctx->data; // first node
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else |
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{ |
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// jump the iterator to the next file
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position+=sizeof(EspFsHeader) + iterator->header.nameLen+iterator->header.fileLenComp; |
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if ((int)position&3) position+=4-((int)position&3); //align to next 32bit val
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} |
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iterator->node = p; |
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iterator->position = position; |
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EspFsHeader * hdr = &iterator->header; |
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espfs_memcpy(iterator->ctx, hdr, p, sizeof(EspFsHeader)); |
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espfs_memcpy(iterator->ctx, hdr, position, sizeof(EspFsHeader)); |
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if (hdr->magic!=ESPFS_MAGIC) { |
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#ifdef ESPFS_DBG |
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@ -185,17 +204,15 @@ int ICACHE_FLASH_ATTR espFsIteratorNext(EspFsIterator *iterator) |
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} |
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if (hdr->flags&FLAG_LASTFILE) { |
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//os_printf("End of image.\n");
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iterator->ctx = NULL; // invalidate the iterator
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return 0; |
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} |
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p += sizeof(EspFsHeader); |
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position += sizeof(EspFsHeader); |
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//Grab the name of the file.
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espfs_memcpy(iterator->ctx, iterator->name, p, sizeof(iterator->name)); |
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espfs_memcpy(iterator->ctx, iterator->name, position, sizeof(iterator->name)); |
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p+=hdr->nameLen+hdr->fileLenComp; |
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if ((int)p&3) p+=4-((int)p&3); //align to next 32bit val
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iterator->p = p; |
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return 1; |
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} |
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@ -221,10 +238,10 @@ EspFsFile ICACHE_FLASH_ATTR *espFsOpen(EspFsContext *ctx, char *fileName) { |
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//os_printf("Alloc %p[%d]\n", r, sizeof(EspFsFile));
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if (r==NULL) return NULL; |
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r->ctx = ctx; |
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r->header=(EspFsHeader *)it.node; |
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r->header=(EspFsHeader *)it.position; |
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r->decompressor=it.header.compression; |
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r->posComp=it.node + it.header.nameLen + sizeof(EspFsHeader); |
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r->posStart=it.node + it.header.nameLen + sizeof(EspFsHeader); |
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r->posComp=it.position + it.header.nameLen + sizeof(EspFsHeader); |
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r->posStart=it.position + it.header.nameLen + sizeof(EspFsHeader); |
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r->posDecomp=0; |
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if (it.header.compression==COMPRESS_NONE) { |
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r->decompData=NULL; |
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@ -269,6 +286,7 @@ void ICACHE_FLASH_ATTR espFsClose(EspFsFile *fh) { |
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os_free(fh); |
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} |
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// checks if the file system is valid (detect if the content is an espfs image or random data)
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int ICACHE_FLASH_ATTR espFsIsValid(EspFsContext *ctx) { |
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return ctx->valid; |
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} |
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