Added the ability to write to the external firmware image (when there's one).
The firmware can now save new settings!
This commit is contained in:
luigi__
parent
fabcf94d50
commit
5f617ca6ef
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@ -852,10 +852,70 @@ void NDS_Reset( void)
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MMU_clearMem();
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//ARM7 BIOS IRQ HANDLER
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if(CommonSettings.UseExtBIOS == true)
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inf = fopen(CommonSettings.ARM7BIOS,"rb");
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else
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inf = NULL;
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if(inf) {
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fread(MMU.ARM7_BIOS,1,16384,inf);
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fclose(inf);
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if(CommonSettings.SWIFromBIOS == true) NDS_ARM7.swi_tab = 0;
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else NDS_ARM7.swi_tab = ARM7_swi_tab;
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INFO("ARM7 BIOS is loaded.\n");
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} else {
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NDS_ARM7.swi_tab = ARM7_swi_tab;
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_MMU_write32<ARMCPU_ARM7>(0x00, 0xE25EF002);
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_MMU_write32<ARMCPU_ARM7>(0x04, 0xEAFFFFFE);
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_MMU_write32<ARMCPU_ARM7>(0x18, 0xEA000000);
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_MMU_write32<ARMCPU_ARM7>(0x20, 0xE92D500F);
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_MMU_write32<ARMCPU_ARM7>(0x24, 0xE3A00301);
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_MMU_write32<ARMCPU_ARM7>(0x28, 0xE28FE000);
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_MMU_write32<ARMCPU_ARM7>(0x2C, 0xE510F004);
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_MMU_write32<ARMCPU_ARM7>(0x30, 0xE8BD500F);
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_MMU_write32<ARMCPU_ARM7>(0x34, 0xE25EF004);
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}
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//ARM9 BIOS IRQ HANDLER
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if(CommonSettings.UseExtBIOS == true)
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inf = fopen(CommonSettings.ARM9BIOS,"rb");
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else
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inf = NULL;
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//memcpy(ARM9Mem.ARM9_BIOS + 0x20, gba_header_data_0x04, 156);
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if(inf) {
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fread(ARM9Mem.ARM9_BIOS,1,4096,inf);
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fclose(inf);
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if(CommonSettings.SWIFromBIOS == true) NDS_ARM9.swi_tab = 0;
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else NDS_ARM9.swi_tab = ARM9_swi_tab;
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INFO("ARM9 BIOS is loaded.\n");
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} else {
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NDS_ARM9.swi_tab = ARM9_swi_tab;
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0018, 0xEA000000);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0020, 0xE92D500F);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0024, 0xEE190F11);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0028, 0xE1A00620);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF002C, 0xE1A00600);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0030, 0xE2800C40);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0034, 0xE28FE000);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0038, 0xE510F004);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF003C, 0xE8BD500F);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0040, 0xE25EF004);
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}
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/* Is it really needed ??? */
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_MMU_write32<ARMCPU_ARM9>(0x0000004, 0xE3A0010E);
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_MMU_write32<ARMCPU_ARM9>(0x0000008, 0xE3A01020);
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// _MMU_write32<ARMCPU_ARM9>(0x000000C, 0xE1B02110);
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_MMU_write32<ARMCPU_ARM9>(0x000000C, 0xE1B02040);
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_MMU_write32<ARMCPU_ARM9>(0x0000010, 0xE3B02020);
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// _MMU_write32<ARMCPU_ARM9>(0x0000010, 0xE2100202);
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if(CommonSettings.UseExtFirmware == true)
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NDS_LoadFirmware(CommonSettings.Firmware);
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if((CommonSettings.UseExtFirmware == true) && (CommonSettings.BootFromFirmware == true) && (fw_success == TRUE))
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if((CommonSettings.UseExtBIOS == true) && (CommonSettings.UseExtFirmware == true) && (CommonSettings.BootFromFirmware == true) && (fw_success == TRUE))
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{
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for(i = 0; i < nds.FW_ARM9BootCodeSize; i += 4)
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{
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@ -869,6 +929,8 @@ void NDS_Reset( void)
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armcpu_init(&NDS_ARM9, nds.FW_ARM9BootCodeAddr);
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armcpu_init(&NDS_ARM7, nds.FW_ARM7BootCodeAddr);
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//armcpu_init(&NDS_ARM9, 0xFFFF0000);
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//armcpu_init(&NDS_ARM7, 0x00000000);
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}
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else
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{
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@ -940,68 +1002,6 @@ void NDS_Reset( void)
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//_MMU_write32[ARMCPU_ARM9](0x02007FFC, 0xE92D4030);
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//ARM7 BIOS IRQ HANDLER
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if(CommonSettings.UseExtBIOS == true)
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inf = fopen(CommonSettings.ARM7BIOS,"rb");
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else
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inf = NULL;
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if(inf) {
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fread(MMU.ARM7_BIOS,1,16384,inf);
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fclose(inf);
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if(CommonSettings.SWIFromBIOS == true) NDS_ARM7.swi_tab = 0;
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else NDS_ARM7.swi_tab = ARM7_swi_tab;
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INFO("ARM7 BIOS is loaded.\n");
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} else {
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NDS_ARM7.swi_tab = ARM7_swi_tab;
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_MMU_write32<ARMCPU_ARM7>(0x00, 0xE25EF002);
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_MMU_write32<ARMCPU_ARM7>(0x04, 0xEAFFFFFE);
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_MMU_write32<ARMCPU_ARM7>(0x18, 0xEA000000);
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_MMU_write32<ARMCPU_ARM7>(0x20, 0xE92D500F);
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_MMU_write32<ARMCPU_ARM7>(0x24, 0xE3A00301);
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_MMU_write32<ARMCPU_ARM7>(0x28, 0xE28FE000);
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_MMU_write32<ARMCPU_ARM7>(0x2C, 0xE510F004);
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_MMU_write32<ARMCPU_ARM7>(0x30, 0xE8BD500F);
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_MMU_write32<ARMCPU_ARM7>(0x34, 0xE25EF004);
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}
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//ARM9 BIOS IRQ HANDLER
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if(CommonSettings.UseExtBIOS == true)
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inf = fopen(CommonSettings.ARM9BIOS,"rb");
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else
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inf = NULL;
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//memcpy(ARM9Mem.ARM9_BIOS + 0x20, gba_header_data_0x04, 156);
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if(inf) {
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fread(ARM9Mem.ARM9_BIOS,1,4096,inf);
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fclose(inf);
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if(CommonSettings.SWIFromBIOS == true) NDS_ARM9.swi_tab = 0;
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else NDS_ARM9.swi_tab = ARM9_swi_tab;
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INFO("ARM9 BIOS is loaded.\n");
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} else {
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NDS_ARM9.swi_tab = ARM9_swi_tab;
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0018, 0xEA000000);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0020, 0xE92D500F);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0024, 0xEE190F11);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0028, 0xE1A00620);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF002C, 0xE1A00600);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0030, 0xE2800C40);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0034, 0xE28FE000);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0038, 0xE510F004);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF003C, 0xE8BD500F);
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_MMU_write32<ARMCPU_ARM9>(0xFFFF0040, 0xE25EF004);
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}
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_MMU_write32<ARMCPU_ARM9>(0x0000004, 0xE3A0010E);
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_MMU_write32<ARMCPU_ARM9>(0x0000008, 0xE3A01020);
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// _MMU_write32<ARMCPU_ARM9>(0x000000C, 0xE1B02110);
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_MMU_write32<ARMCPU_ARM9>(0x000000C, 0xE1B02040);
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_MMU_write32<ARMCPU_ARM9>(0x0000010, 0xE3B02020);
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// _MMU_write32<ARMCPU_ARM9>(0x0000010, 0xE2100202);
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delete header;
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GPU_Reset(MainScreen.gpu, 0);
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@ -1346,24 +1346,24 @@ int NDS_LoadFirmware(const char *filename)
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{
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int i;
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unsigned long size;
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FILE *file;
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//FILE *file;
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if ((file = fopen(filename, "rb")) == NULL)
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if ((MMU.fw.fp = fopen(filename, "rb+")) == NULL)
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return -1;
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fseek(file, 0, SEEK_END);
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size = ftell(file);
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fseek(file, 0, SEEK_SET);
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fseek(MMU.fw.fp, 0, SEEK_END);
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size = ftell(MMU.fw.fp);
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fseek(MMU.fw.fp, 0, SEEK_SET);
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if(size > MMU.fw.size)
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{
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fclose(file);
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fclose(MMU.fw.fp);
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fw_success = FALSE;
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return -1;
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}
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i = fread(MMU.fw.data, size, 1, file);
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fclose(file);
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i = fread(MMU.fw.data, size, 1, MMU.fw.fp);
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//fclose(file);
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INFO("Firmware: decrypting NDS firmware %s...\n", filename);
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@ -179,7 +179,7 @@ void mc_reset_com(memory_chip_t *mc)
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if ((mc->fp = fopen(mc->filename, "wb+")) != NULL)
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elems_written += fwrite((void *)mc->data, 1, mc->size, mc->fp);
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}
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else if (mc->com == BM_CMD_WRITELOW)
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else if ((mc->com == BM_CMD_WRITELOW) || (mc->com == FW_CMD_PAGEWRITE))
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{
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if (mc->fp)
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{
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@ -296,39 +296,39 @@ int mc_load_duc(memory_chip_t *mc, const char* filename)
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u8 fw_transfer(memory_chip_t *mc, u8 data)
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{
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if(mc->com == FW_CMD_READ || mc->com == FW_CMD_PAGEWRITE) /* check if we are in a command that needs 3 bytes address */
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if(mc->com == FW_CMD_READ || mc->com == FW_CMD_PAGEWRITE) /* check if we are in a command that needs 3 bytes address */
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{
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if(mc->addr_shift > 0) /* if we got a complete address */
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if(mc->addr_shift > 0) /* if we got a complete address */
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{
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mc->addr_shift--;
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mc->addr |= data << (mc->addr_shift * 8); /* argument is a byte of address */
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mc->addr_shift--;
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mc->addr |= data << (mc->addr_shift * 8); /* argument is a byte of address */
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}
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else /* if we have received 3 bytes of address, proceed command */
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else /* if we have received 3 bytes of address, proceed command */
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{
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switch(mc->com)
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switch(mc->com)
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{
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case FW_CMD_READ:
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if(mc->addr < mc->size) /* check if we can read */
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case FW_CMD_READ:
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if(mc->addr < mc->size) /* check if we can read */
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{
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data = mc->data[mc->addr]; /* return byte */
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mc->addr++; /* then increment address */
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data = mc->data[mc->addr]; /* return byte */
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mc->addr++; /* then increment address */
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}
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break;
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case FW_CMD_PAGEWRITE:
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if(mc->addr < mc->size)
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case FW_CMD_PAGEWRITE:
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if(mc->addr < mc->size)
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{
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mc->data[mc->addr] = data; /* write byte */
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mc->addr++;
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mc->data[mc->addr] = data; /* write byte */
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mc->addr++;
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}
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break;
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}
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}
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}
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else if(mc->com == FW_CMD_READSTATUS)
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else if(mc->com == FW_CMD_READSTATUS)
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{
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return 0;
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return (mc->write_enable ? 0x02 : 0x00);
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}
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else /* finally, check if it's a new command */
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{
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@ -336,36 +336,36 @@ u8 fw_transfer(memory_chip_t *mc, u8 data)
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{
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case 0: break; /* nothing */
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case FW_CMD_READ: /* read command */
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mc->addr = 0;
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mc->addr_shift = 3;
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mc->com = FW_CMD_READ;
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case FW_CMD_READ: /* read command */
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mc->addr = 0;
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mc->addr_shift = 3;
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mc->com = FW_CMD_READ;
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break;
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case FW_CMD_WRITEENABLE: /* enable writing */
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if(mc->writeable_buffer) { mc->write_enable = TRUE; }
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case FW_CMD_WRITEENABLE: /* enable writing */
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if(mc->writeable_buffer) { mc->write_enable = TRUE; }
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break;
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case FW_CMD_WRITEDISABLE: /* disable writing */
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mc->write_enable = FALSE;
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case FW_CMD_WRITEDISABLE: /* disable writing */
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mc->write_enable = FALSE;
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break;
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case FW_CMD_PAGEWRITE: /* write command */
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if(mc->write_enable)
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case FW_CMD_PAGEWRITE: /* write command */
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if(mc->write_enable)
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{
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mc->addr = 0;
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mc->addr_shift = 3;
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mc->com = FW_CMD_PAGEWRITE;
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mc->addr = 0;
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mc->addr_shift = 3;
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mc->com = FW_CMD_PAGEWRITE;
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}
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else { data = 0; }
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break;
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case FW_CMD_READSTATUS: /* status register command */
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mc->com = FW_CMD_READSTATUS;
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case FW_CMD_READSTATUS: /* status register command */
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mc->com = FW_CMD_READSTATUS;
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break;
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default:
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LOG("Unhandled FW command: %02X\n", data);
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LOG("Unhandled FW command: %02X\n", data);
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break;
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}
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}
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@ -375,49 +375,49 @@ u8 fw_transfer(memory_chip_t *mc, u8 data)
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u8 bm_transfer(memory_chip_t *mc, u8 data)
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{
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if(mc->com == BM_CMD_READLOW || mc->com == BM_CMD_WRITELOW) /* check if we are in a command that needs multiple byte address */
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if(mc->com == BM_CMD_READLOW || mc->com == BM_CMD_WRITELOW) /* check if we are in a command that needs multiple byte address */
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{
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if(mc->addr_shift > 0) /* if we got a complete address */
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if(mc->addr_shift > 0) /* if we got a complete address */
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{
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mc->addr_shift--;
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mc->addr |= data << (mc->addr_shift * 8); /* argument is a byte of address */
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mc->addr_shift--;
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mc->addr |= data << (mc->addr_shift * 8); /* argument is a byte of address */
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}
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else /* if we have received all bytes of address, proceed command */
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else /* if we have received all bytes of address, proceed command */
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{
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switch(mc->com)
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switch(mc->com)
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{
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case BM_CMD_READLOW:
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if(mc->addr < mc->size) /* check if we can read */
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{
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//LOG("Read Backup Memory addr %08X(%02X)\n", mc->addr, mc->data[mc->addr]);
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data = mc->data[mc->addr]; /* return byte */
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mc->addr++; /* then increment address */
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}
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case BM_CMD_READLOW:
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if(mc->addr < mc->size) /* check if we can read */
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{
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//LOG("Read Backup Memory addr %08X(%02X)\n", mc->addr, mc->data[mc->addr]);
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data = mc->data[mc->addr]; /* return byte */
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mc->addr++; /* then increment address */
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}
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break;
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case BM_CMD_WRITELOW:
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if(mc->addr < mc->size)
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{
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//LOG("Write Backup Memory addr %08X with %02X\n", mc->addr, data);
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mc->data[mc->addr] = data; /* write byte */
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mc->addr++;
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}
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case BM_CMD_WRITELOW:
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if(mc->addr < mc->size)
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{
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//LOG("Write Backup Memory addr %08X with %02X\n", mc->addr, data);
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mc->data[mc->addr] = data; /* write byte */
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mc->addr++;
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}
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break;
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}
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}
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}
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else if(mc->com == BM_CMD_AUTODETECT)
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{
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// Store everything in a temporary
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mc->autodetectbuf[mc->autodetectsize] = data;
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mc->autodetectsize++;
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return 0;
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}
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else if(mc->com == BM_CMD_READSTATUS)
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else if(mc->com == BM_CMD_AUTODETECT)
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{
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//LOG("Backup Memory Read Status: %02X\n", mc->write_enable << 1);
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return (mc->write_enable << 1);
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// Store everything in a temporary
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mc->autodetectbuf[mc->autodetectsize] = data;
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mc->autodetectsize++;
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return 0;
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}
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else if(mc->com == BM_CMD_READSTATUS)
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{
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//LOG("Backup Memory Read Status: %02X\n", mc->write_enable << 1);
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return (mc->write_enable << 1);
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}
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else /* finally, check if it's a new command */
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{
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@ -425,71 +425,71 @@ u8 bm_transfer(memory_chip_t *mc, u8 data)
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{
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case 0: break; /* nothing */
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case BM_CMD_WRITELOW: /* write command */
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if(mc->write_enable)
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case BM_CMD_WRITELOW: /* write command */
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if(mc->write_enable)
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{
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if(mc->type == MC_TYPE_AUTODETECT)
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{
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mc->com = BM_CMD_AUTODETECT;
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break;
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}
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if(mc->type == MC_TYPE_AUTODETECT)
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{
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mc->com = BM_CMD_AUTODETECT;
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break;
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}
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mc->addr = 0;
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mc->addr_shift = mc->addr_size;
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mc->com = BM_CMD_WRITELOW;
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||||
mc->addr = 0;
|
||||
mc->addr_shift = mc->addr_size;
|
||||
mc->com = BM_CMD_WRITELOW;
|
||||
}
|
||||
else { data = 0; }
|
||||
break;
|
||||
|
||||
case BM_CMD_READLOW: /* read command */
|
||||
mc->addr = 0;
|
||||
mc->addr_shift = mc->addr_size;
|
||||
mc->com = BM_CMD_READLOW;
|
||||
case BM_CMD_READLOW: /* read command */
|
||||
mc->addr = 0;
|
||||
mc->addr_shift = mc->addr_size;
|
||||
mc->com = BM_CMD_READLOW;
|
||||
break;
|
||||
|
||||
case BM_CMD_WRITEDISABLE: /* disable writing */
|
||||
mc->write_enable = FALSE;
|
||||
case BM_CMD_WRITEDISABLE: /* disable writing */
|
||||
mc->write_enable = FALSE;
|
||||
break;
|
||||
|
||||
case BM_CMD_READSTATUS: /* status register command */
|
||||
mc->com = BM_CMD_READSTATUS;
|
||||
case BM_CMD_READSTATUS: /* status register command */
|
||||
mc->com = BM_CMD_READSTATUS;
|
||||
break;
|
||||
|
||||
case BM_CMD_WRITEENABLE: /* enable writing */
|
||||
if(mc->writeable_buffer) { mc->write_enable = TRUE; }
|
||||
case BM_CMD_WRITEENABLE: /* enable writing */
|
||||
if(mc->writeable_buffer) { mc->write_enable = TRUE; }
|
||||
break;
|
||||
|
||||
case BM_CMD_WRITEHIGH: /* write command that's only available on ST M95040-W that I know of */
|
||||
if(mc->write_enable)
|
||||
case BM_CMD_WRITEHIGH: /* write command that's only available on ST M95040-W that I know of */
|
||||
if(mc->write_enable)
|
||||
{
|
||||
if(mc->type == MC_TYPE_AUTODETECT)
|
||||
{
|
||||
mc->com = BM_CMD_AUTODETECT;
|
||||
break;
|
||||
}
|
||||
if(mc->type == MC_TYPE_AUTODETECT)
|
||||
{
|
||||
mc->com = BM_CMD_AUTODETECT;
|
||||
break;
|
||||
}
|
||||
|
||||
if (mc->type == MC_TYPE_EEPROM1)
|
||||
mc->addr = 0x100;
|
||||
else
|
||||
mc->addr = 0;
|
||||
mc->addr_shift = mc->addr_size;
|
||||
mc->com = BM_CMD_WRITELOW;
|
||||
if (mc->type == MC_TYPE_EEPROM1)
|
||||
mc->addr = 0x100;
|
||||
else
|
||||
mc->addr = 0;
|
||||
mc->addr_shift = mc->addr_size;
|
||||
mc->com = BM_CMD_WRITELOW;
|
||||
}
|
||||
else { data = 0; }
|
||||
break;
|
||||
|
||||
case BM_CMD_READHIGH: /* read command that's only available on ST M95040-W that I know of */
|
||||
if (mc->type == MC_TYPE_EEPROM1)
|
||||
mc->addr = 0x100;
|
||||
else
|
||||
mc->addr = 0;
|
||||
mc->addr_shift = mc->addr_size;
|
||||
mc->com = BM_CMD_READLOW;
|
||||
case BM_CMD_READHIGH: /* read command that's only available on ST M95040-W that I know of */
|
||||
if (mc->type == MC_TYPE_EEPROM1)
|
||||
mc->addr = 0x100;
|
||||
else
|
||||
mc->addr = 0;
|
||||
mc->addr_shift = mc->addr_size;
|
||||
mc->com = BM_CMD_READLOW;
|
||||
|
||||
break;
|
||||
|
||||
default:
|
||||
LOG("Unhandled Backup Memory command: %02X\n", data);
|
||||
LOG("Unhandled Backup Memory command: %02X\n", data);
|
||||
break;
|
||||
}
|
||||
}
|
||||
|
|
|
|||
Loading…
Reference in New Issue