2003-11-30 11:37:43 +00:00
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/***************************************************************************
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* __________ __ ___.
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* Open \______ \ ____ ____ | | _\_ |__ _______ ___
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* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
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* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
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* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
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* \/ \/ \/ \/ \/
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* $Id$
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*
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* Copyright (C) 2003 by J<EFBFBD>rg Hohensohn
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*
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* Second-level bootloader, with dual-boot feature by holding F1/Menu
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* This is the image being descrambled and executed by the boot ROM.
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* It's task is to copy Rockbox from Flash to DRAM.
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* The image(s) in flash may optionally be compressed with UCL 2e
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*
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* All files in this archive are subject to the GNU General Public License.
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* See the file COPYING in the source tree root for full license agreement.
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*
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* This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY
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* KIND, either express or implied.
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*
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****************************************************************************/
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#include "sh7034.h"
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#include "bootloader.h"
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#ifdef NO_ROM
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// start with the vector table
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UINT32 vectors[] __attribute__ ((section (".vectors"))) =
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{
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(UINT32)_main, // entry point, the copy routine
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(UINT32)(end_stack - 1), // initial stack pointer
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FLASH_BASE + 0x200, // source of image in flash
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(UINT32)total_size, // size of image
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0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
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0x03020080 // mask and version (just as a suggestion)
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};
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#else
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// our binary has to start with a vector to the entry point
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tpMain start_vector[] __attribute__ ((section (".startvector"))) = {main};
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#endif
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#ifdef NO_ROM // some code which is only needed for the romless variant
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void _main(void)
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{
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UINT32* pSrc;
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UINT32* pDest;
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UINT32* pEnd;
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/*
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asm volatile ("ldc %0,sr" : : "r"(0xF0)); // disable interrupts
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asm volatile ("mov.l @%0,r15" : : "r"(4)); // load stack
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asm volatile ("ldc %0,vbr" : : "r"(0)); // load vector base
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*/
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// copy everything to IRAM and continue there
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pSrc = begin_iramcopy;
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pDest = begin_text;
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pEnd = pDest + (begin_stack - begin_text);
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do
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{
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*pDest++ = *pSrc++;
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}
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while (pDest < pEnd);
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main(); // jump to the real main()
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}
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void BootInit(void)
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{
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// inits from the boot ROM, whether they make sense or not
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PBDR &= 0xFFBF; // LED off (0x131E)
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PBCR2 = 0; // all GPIO
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PBIOR |= 0x40; // LED output
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PBIOR &= 0xFFF1; // LCD lines input
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// init DRAM like the boot ROM does
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PACR2 &= 0xFFFB;
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PACR2 |= 0x0008;
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CASCR = 0xAF;
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BCR |= 0x8000;
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WCR1 &= 0xFDFD;
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DCR = 0x0E00;
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RCR = 0x5AB0;
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RTCOR = 0x9605;
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RTCSR = 0xA518;
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}
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#endif // #ifdef NO_ROM
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int main(void)
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{
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int nButton;
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PlatformInit(); // model-specific inits
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nButton = ButtonPressed();
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if (nButton == 3)
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{ // F3 means start monitor
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MiniMon();
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}
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else
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{
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tImage* pImage;
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pImage = GetStartImage(nButton); // which image
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DecompressStart(pImage); // move into place and start it
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}
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return 0; // I guess we won't return ;-)
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}
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// init code that is specific to certain platform
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void PlatformInit(void)
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{
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#ifdef NO_ROM
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BootInit(); // if not started by boot ROM, we need to init what it did
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#endif
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#if defined PLATFORM_PLAYER
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BRR1 = 0x0019; // 14400 Baud for monitor
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if (FW_VERSION > 451) // "new" Player?
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{
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PBDR &= ~0x10; // set PB4 to 0 to power-up the harddisk early
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PBIOR |= 0x10; // make PB4 an output
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}
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#elif defined PLATFORM_RECORDER
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BRR1 = 0x0002; // 115200 Baud for monitor
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if (ReadADC(7) > 0x100) // charger plugged?
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{ // switch off the HD, else a flat battery may not start
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PACR2 &= 0xFBFF; // GPIO for PA5
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PAIOR |= 0x20; // make PA5 an output (low by default)
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}
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#elif defined PLATFORM_FM
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BRR1 = 0x0002; // 115200 Baud for monitor
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PBDR |= 0x20; // set PB5 to keep power (fixes the ON-holding problem)
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PBIOR |= 0x20; // make PB5 an output
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if (ReadADC(0) < 0x1FF) // charger plugged?
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2003-12-03 01:03:54 +00:00
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{ // switch off the HD, else a flat battery may not start
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PACR2 &= 0xFBFF; // GPIO for PA5
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PAIOR |= 0x20; // make PA5 an output (low by default)
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2003-11-30 11:37:43 +00:00
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}
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2004-09-29 21:54:29 +00:00
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#elif defined PLATFORM_ONDIO
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BRR1 = 0x0019; // 14400 Baud for monitor
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PBDR |= 0x20; // set PB5 to keep power (fixes the ON-holding problem)
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PBIOR |= 0x20; // make PB5 an output
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2003-11-30 11:37:43 +00:00
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#endif
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// platform-independent inits
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DCR |= 0x1000; // enable burst mode on DRAM
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BCR |= 0x2000; // activate Warp mode (simultaneous internal and external mem access)
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}
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// Thinned out version of the UCL 2e decompression sourcecode
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// Original (C) Markus F.X.J Oberhumer under GNU GPL license
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#define GETBIT(bb, src, ilen) \
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(((bb = bb & 0x7f ? bb*2 : ((unsigned)src[ilen++]*2+1)) >> 8) & 1)
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int ucl_nrv2e_decompress_8(
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const UINT8 *src, UINT8 *dst, UINT32* dst_len)
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{
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UINT32 bb = 0;
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unsigned ilen = 0, olen = 0, last_m_off = 1;
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for (;;)
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{
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unsigned m_off, m_len;
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while (GETBIT(bb,src,ilen))
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{
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dst[olen++] = src[ilen++];
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}
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m_off = 1;
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for (;;)
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{
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m_off = m_off*2 + GETBIT(bb,src,ilen);
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if (GETBIT(bb,src,ilen)) break;
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m_off = (m_off-1)*2 + GETBIT(bb,src,ilen);
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}
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if (m_off == 2)
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{
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m_off = last_m_off;
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m_len = GETBIT(bb,src,ilen);
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}
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else
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{
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m_off = (m_off-3)*256 + src[ilen++];
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if (m_off == 0xffffffff)
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break;
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m_len = (m_off ^ 0xffffffff) & 1;
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m_off >>= 1;
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last_m_off = ++m_off;
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}
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if (m_len)
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m_len = 1 + GETBIT(bb,src,ilen);
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else if (GETBIT(bb,src,ilen))
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m_len = 3 + GETBIT(bb,src,ilen);
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else
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{
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m_len++;
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do {
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m_len = m_len*2 + GETBIT(bb,src,ilen);
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} while (!GETBIT(bb,src,ilen));
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m_len += 3;
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}
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m_len += (m_off > 0x500);
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{
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const UINT8 *m_pos;
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m_pos = dst + olen - m_off;
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dst[olen++] = *m_pos++;
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do dst[olen++] = *m_pos++; while (--m_len > 0);
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}
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}
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*dst_len = olen;
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return ilen;
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}
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// move the image into place and start it
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void DecompressStart(tImage* pImage)
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{
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UINT32* pSrc;
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UINT32* pDest;
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pSrc = pImage->image;
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pDest = pImage->pDestination;
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if (pSrc != pDest) // if not linked to that flash address
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{
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if (pImage->flags & IF_UCL_2E)
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{ // UCL compressed, algorithm 2e
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UINT32 dst_len; // dummy
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ucl_nrv2e_decompress_8((UINT8*)pSrc, (UINT8*)pDest, &dst_len);
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}
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else
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{ // uncompressed, copy it
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UINT32 size = pImage->size;
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UINT32* pEnd;
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size = (size + 3) / 4; // round up to 32bit-words
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pEnd = pDest + size;
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do
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{
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*pDest++ = *pSrc++;
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}
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while (pDest < pEnd);
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}
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}
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pImage->pExecute();
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}
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int ReadADC(int channel)
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{
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// after channel 3, the ports wrap and get re-used
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volatile UINT16* pResult = (UINT16*)(ADDRAH_ADDR + 2 * (channel & 0x03));
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int timeout = 266; // conversion takes 266 clock cycles
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ADCSR = 0x20 | channel; // start single conversion
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while (((ADCSR & 0x80) == 0) && (--timeout)); // 6 instructions per round
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return (timeout == 0) ? -1 : *pResult>>6;
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}
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// This function is platform-dependent,
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// until I figure out how to distinguish at runtime.
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int ButtonPressed(void) // return 1,2,3 for F1,F2,F3, 0 if none pressed
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{
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int value = ReadADC(CHANNEL);
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if (value >= F1_LOWER && value <= F1_UPPER) // in range
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return 1;
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else if (value >= F2_LOWER && value <= F2_UPPER) // in range
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return 2;
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else if (value >= F3_LOWER && value <= F3_UPPER) // in range
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return 3;
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return 0;
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}
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// Determine the image to be started
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tImage* GetStartImage(int nPreferred)
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{
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tImage* pImage1;
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tImage* pImage2 = NULL; // default to not present
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UINT32 pos;
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UINT32* pFlash = (UINT32*)FLASH_BASE;
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// determine the first image position
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pos = pFlash[2] + pFlash[3]; // position + size of the bootloader = after it
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pos = (pos + 3) & ~3; // be shure it's 32 bit aligned
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pImage1 = (tImage*)pos;
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if (pImage1->size != 0)
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{ // check for second image
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pos = (UINT32)(&pImage1->image) + pImage1->size;
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pImage2 = (tImage*)pos;
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// does it make sense? (not in FF or 00 erazed space)
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if (pImage2->pDestination == (void*)0xFFFFFFFF
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|| pImage2->size == 0xFFFFFFFF
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|| pImage2->pExecute == (void*)0xFFFFFFFF
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|| pImage2->flags == 0xFFFFFFFF
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|| pImage2->pDestination == NULL) // size, execute and flags can legally be 0
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{
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pImage2 = NULL; // invalidate
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}
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}
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if (pImage2 == NULL || nPreferred == 1)
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{ // no second image or overridden: return the first
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return pImage1;
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}
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return pImage2; // return second image
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}
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// diagnostic functions
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void SetLed(BOOL bOn)
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{
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if (bOn)
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PBDR |= 0x40;
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else
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PBDR &= ~0x40;
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}
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void UartInit(void)
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{
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PBIOR &= 0xFBFF; // input: RXD1 remote pin
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PBCR1 |= 0x00A0; // set PB3+PB2 to UART
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PBCR1 &= 0xFFAF; // clear bits 6, 4 -> UART
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SMR1 = 0x0000; // async format 8N1, baud generator input is CPU clock
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SCR1 = 0x0030; // transmit+receive enable
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PBCR1 &= 0x00FF; // set bit 12...15 as GPIO
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SSR1 &= 0x00BF; // clear bit 6 (RDRF, receive data register full)
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}
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UINT8 UartRead(void)
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{
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UINT8 byte;
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while (!(SSR1 & SCI_RDRF)); // wait for char to be available
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byte = RDR1;
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SSR1 &= ~SCI_RDRF;
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return byte;
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}
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void UartWrite(UINT8 byte)
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{
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while (!(SSR1 & SCI_TDRE)); // wait for transmit buffer empty
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TDR1 = byte;
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SSR1 &= ~SCI_TDRE;
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}
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// include the mini monitor as a rescue feature, started with F3
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void MiniMon(void)
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{
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UINT8 cmd;
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UINT32 addr;
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UINT32 size;
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UINT32 content;
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volatile UINT8* paddr = NULL;
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volatile UINT8* pflash = NULL; // flash base address
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UartInit();
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while (1)
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{
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cmd = UartRead();
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switch (cmd)
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{
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case BAUDRATE:
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content = UartRead();
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UartWrite(cmd); // acknowledge by returning the command value
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while (!(SSR1 & SCI_TEND)); // wait for empty shift register, before changing baudrate
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BRR1 = content;
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break;
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case ADDRESS:
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addr = (UartRead() << 24) | (UartRead() << 16) | (UartRead() << 8) | UartRead();
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paddr = (UINT8*)addr;
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pflash = (UINT8*)(addr & 0xFFF80000); // round down to 512k align
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UartWrite(cmd); // acknowledge by returning the command value
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break;
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case BYTE_READ:
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content = *paddr++;
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UartWrite(content); // the content is the ack
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break;
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case BYTE_WRITE:
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content = UartRead();
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*paddr++ = content;
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UartWrite(cmd); // acknowledge by returning the command value
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break;
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case BYTE_READ16:
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size = 16;
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while (size--)
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{
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content = *paddr++;
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UartWrite(content); // the content is the ack
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}
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break;
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case BYTE_WRITE16:
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size = 16;
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while (size--)
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{
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content = UartRead();
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*paddr++ = content;
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}
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UartWrite(cmd); // acknowledge by returning the command value
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break;
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case BYTE_FLASH:
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content = UartRead();
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pflash[0x5555] = 0xAA; // set flash to command mode
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pflash[0x2AAA] = 0x55;
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pflash[0x5555] = 0xA0; // byte program command
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*paddr++ = content;
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UartWrite(cmd); // acknowledge by returning the command value
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break;
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case BYTE_FLASH16:
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size = 16;
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while (size--)
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{
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content = UartRead();
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pflash[0x5555] = 0xAA; // set flash to command mode
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pflash[0x2AAA] = 0x55;
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pflash[0x5555] = 0xA0; // byte program command
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*paddr++ = content;
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}
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UartWrite(cmd); // acknowledge by returning the command value
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break;
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case HALFWORD_READ:
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content = *(UINT16*)paddr;
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paddr += 2;
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UartWrite(content >> 8); // highbyte
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UartWrite(content & 0xFF); // lowbyte
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break;
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case HALFWORD_WRITE:
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content = UartRead() << 8 | UartRead();
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*(UINT16*)paddr = content;
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paddr += 2;
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UartWrite(cmd); // acknowledge by returning the command value
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break;
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case EXECUTE:
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{
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tpFunc pFunc = (tpFunc)paddr;
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pFunc();
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UartWrite(cmd); // acknowledge by returning the command value
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}
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break;
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case VERSION:
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UartWrite(1); // return our version number
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break;
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default:
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{
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SetLed(TRUE);
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UartWrite(~cmd); // error acknowledge
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}
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} // case
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} // while (1)
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}
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