mirror of
https://github.com/markqvist/RNode_Firmware.git
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205 lines
8.0 KiB
C
205 lines
8.0 KiB
C
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/*
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* The MIT License (MIT)
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*
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* Copyright (c) 2019 Ha Thach for Adafruit Industries
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*
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* Permission is hereby granted, free of charge, to any person obtaining a copy
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* of this software and associated documentation files (the "Software"), to deal
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* in the Software without restriction, including without limitation the rights
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* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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* copies of the Software, and to permit persons to whom the Software is
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* furnished to do so, subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be included in
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* all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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* THE SOFTWARE.
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*/
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#include <string.h>
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#include "flash_cache.h"
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#include "common_func.h"
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#include "variant.h"
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#include "wiring_digital.h"
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//--------------------------------------------------------------------+
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// MACRO TYPEDEF CONSTANT ENUM DECLARATION
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//--------------------------------------------------------------------+
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static inline uint32_t page_addr_of (uint32_t addr)
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{
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return addr & ~(FLASH_CACHE_SIZE - 1);
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}
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static inline uint32_t page_offset_of (uint32_t addr)
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{
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return addr & (FLASH_CACHE_SIZE - 1);
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}
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int flash_cache_write (flash_cache_t* fc, uint32_t dst, void const * src, uint32_t len)
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{
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uint8_t const * src8 = (uint8_t const *) src;
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uint32_t remain = len;
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// Program up to page boundary each loop
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while ( remain )
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{
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uint32_t const page_addr = page_addr_of(dst);
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uint32_t const offset = page_offset_of(dst);
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uint32_t wr_bytes = FLASH_CACHE_SIZE - offset;
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wr_bytes = min32(remain, wr_bytes);
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// Page changes, flush old and update new cache
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if ( page_addr != fc->cache_addr )
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{
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flash_cache_flush(fc);
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fc->cache_addr = page_addr;
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// read a whole page from flash
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fc->read(fc->cache_buf, page_addr, FLASH_CACHE_SIZE);
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}
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memcpy(fc->cache_buf + offset, src8, wr_bytes);
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// adjust for next run
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src8 += wr_bytes;
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remain -= wr_bytes;
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dst += wr_bytes;
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}
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return len - remain;
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}
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void flash_cache_flush (flash_cache_t* fc)
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{
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if ( fc->cache_addr == FLASH_CACHE_INVALID_ADDR ) return;
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// skip erase & program if verify() exists, and memory matches
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if ( !(fc->verify && fc->verify(fc->cache_addr, fc->cache_buf, FLASH_CACHE_SIZE)) )
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{
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// indicator TODO allow to disable flash indicator
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ledOn(LED_BUILTIN);
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fc->erase(fc->cache_addr);
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fc->program(fc->cache_addr, fc->cache_buf, FLASH_CACHE_SIZE);
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ledOff(LED_BUILTIN);
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}
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fc->cache_addr = FLASH_CACHE_INVALID_ADDR;
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}
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int flash_cache_read (flash_cache_t* fc, void* dst, uint32_t addr, uint32_t count)
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{
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// there is no check for overflow / wraparound for dst + count, addr + count.
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// this might be a useful thing to add for at least debug builds.
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// overwrite with cache value if available
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if ( (fc->cache_addr != FLASH_CACHE_INVALID_ADDR) && // cache is not valid
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!(addr < fc->cache_addr && addr + count <= fc->cache_addr) && // starts before, ends before cache area
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!(addr >= fc->cache_addr + FLASH_CACHE_SIZE) ) // starts after end of cache area
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{
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// This block is entered only when the read overlaps the cache area by at least one byte.
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// If the read starts before the cache area, it's further guaranteed
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// that count is large enough to cause the read to enter
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// the cache area by at least 1 byte.
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uint32_t dst_off = 0;
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uint32_t src_off = 0;
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if (addr < fc->cache_addr)
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{
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dst_off = fc->cache_addr - addr;
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// Read the bytes prior to the cache address
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fc->read(dst, addr, dst_off);
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}
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else
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{
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src_off = addr - fc->cache_addr;
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}
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// Thus, after the above code block executes:
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// *** AT MOST ***, only one of src_off and dst_off are non-zero;
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// (Both may be zero when the read starts at the start of the cache area.)
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// dst_off corresponds to the number of bytes already read from PRIOR to the cache area.
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// src_off corresponds to the byte offset to start reading at, from WITHIN the cache area.
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// How many bytes to memcpy from flash area?
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// Remember that, AT MOST, one of src_off and dst_off are non-zero.
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// If src_off is non-zero, then dst_off is zero, representing that the
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// read starts inside the cache. In this case:
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// PARAM1 := FLASH_CACHE_SIZE - src_off == maximum possible bytes to read from cache
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// PARAM2 := count
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// Thus, taking the minimum of the two gives the number of bytes to read from cache,
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// in the range [ 1 .. FLASH_CACHE_SIZE-src_off ].
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// Else if dst_off is non-zero, then src_off is zero, representing that the
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// read started prior to the cache area. In this case:
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// PARAM1 := FLASH_CACHE_SIZE == full size of the cache
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// PARAM2 := count - dst_off == total bytes requested, minus the count of those already read
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// Because the original request is guaranteed to overlap the cache, the range for
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// PARAM2 is ensured to be [ 1 .. count-1 ].
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// Thus, taking the minimum of the two gives the number of bytes to read from cache,
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// in the range [ 1 .. FLASH_CACHE_SIZE ]
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// Else both src_off and dst_off are zero, representing that the read is starting
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// exactly aligned to the cache.
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// PARAM1 := FLASH_CACHE_SIZE
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// PARAM2 := count
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// Thus, taking the minimum of the two gives the number of bytes to read from cache,
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// in the range [ 1 .. FLASH_CACHE_SIZE ]
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//
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// Therefore, in all cases, there is assurance that cache_bytes
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// will be in the final range [1..FLASH_CACHE_SIZE].
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uint32_t cache_bytes = minof(FLASH_CACHE_SIZE-src_off, count - dst_off);
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// Use memcpy to read cached data into the buffer
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// If src_off is non-zero, then dst_off is zero, representing that the
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// read starts inside the cache. In this case:
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// PARAM1 := dst
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// PARAM2 := fc->cache_buf + src_off
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// PARAM3 := cache_bytes
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// Thus, all works as expected when starting in the midst of the cache.
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// Else if dst_off is non-zero, then src_off is zero, representing that the
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// read started prior to the cache. In this case:
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// PARAM1 := dst + dst_off == destination offset by number of bytes already read
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// PARAM2 := fc->cache_buf
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// PARAM3 := cache_bytes
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// Thus, all works as expected when starting prior to the cache.
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// Else both src_off and dst_off are zero, representing that the read is starting
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// exactly aligned to the cache.
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// PARAM1 := dst
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// PARAM2 := fc->cache_buf
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// PARAM3 := cache_bytes
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// Thus, all works as expected when starting exactly at the cache boundary
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//
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// Therefore, in all cases, there is assurance that cache_bytes
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// will be in the final range [1..FLASH_CACHE_SIZE].
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memcpy(dst + dst_off, fc->cache_buf + src_off, cache_bytes);
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// Read any final bytes from flash
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// As noted above, dst_off represents the count of bytes read prior to the cache
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// while cache_bytes represents the count of bytes read from the cache;
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// This code block is guaranteed to overlap the cache area by at least one byte.
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// Thus, copied will correspond to the total bytes already copied,
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// and is guaranteed to be in the range [ 1 .. count ].
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uint32_t copied = dst_off + cache_bytes;
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//
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if ( copied < count )
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{
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fc->read(dst + copied, addr + copied, count - copied);
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}
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}
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else
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{
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// not using the cache, so just forward to read from flash
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fc->read(dst, addr, count);
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}
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return (int) count;
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}
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