#include "mchck.h"
#include "dfu.desc.h"
+#include "debug.h"
+
// ----- Variables -----
/**
* Unfortunately we can't DMA directly to FlexRAM, so we'll have to stage here.
*/
-static char staging[FLASH_SECTOR_SIZE];
+static char staging[ USB_DFU_TRANSFER_SIZE ];
// ----- Functions -----
-static enum dfu_status setup_write(size_t off, size_t len, void **buf)
+int sector_print( void* buf, size_t sector, size_t chunks )
+{
+ uint8_t* start = (uint8_t*)buf + sector * USB_DFU_TRANSFER_SIZE;
+ uint8_t* end = (uint8_t*)buf + (sector + 1) * USB_DFU_TRANSFER_SIZE;
+ uint8_t* pos = start;
+
+ // Verify if sector erased
+ FTFL.fccob.read_1s_section.fcmd = FTFL_FCMD_READ_1s_SECTION;
+ FTFL.fccob.read_1s_section.addr = (uintptr_t)start;
+ FTFL.fccob.read_1s_section.margin = FTFL_MARGIN_NORMAL;
+ FTFL.fccob.read_1s_section.num_words = 250; // 2000 kB / 64 bits
+ int retval = ftfl_submit_cmd();
+
+ print( NL );
+ print("Block ");
+ printHex( sector );
+ print(" ");
+ printHex( (size_t)start );
+ print(" -> ");
+ printHex( (size_t)end );
+ print(" Erased: ");
+ printHex( retval );
+ print( NL );
+
+ // Display sector
+ for ( size_t line = 0; pos < end - 24; line++ )
+ {
+ // Each Line
+ printHex_op( (size_t)pos, 4 );
+ print(": ");
+
+ // Each 2 byte chunk
+ for ( size_t chunk = 0; chunk < chunks; chunk++ )
+ {
+ // Print out the two bytes (second one first)
+ printHex_op( *(pos + 1), 2 );
+ printHex_op( *pos, 2 );
+ print(" ");
+ pos += 2;
+ }
+
+ print( NL );
+ }
+
+ return retval;
+}
+
+static enum dfu_status setup_read( size_t off, size_t *len, void **buf )
+{
+ // Calculate starting address from offset
+ *buf = (void*)&_app_rom + (USB_DFU_TRANSFER_SIZE / 4) * off;
+
+ // Calculate length of transfer
+ /*
+ *len = *buf > (void*)(&_app_rom_end) - USB_DFU_TRANSFER_SIZE
+ ? 0 : USB_DFU_TRANSFER_SIZE;
+ */
+
+ // Check for error
+ /*
+ if ( *buf > (void*)&_app_rom_end )
+ return (DFU_STATUS_errADDRESS);
+ */
+
+ return (DFU_STATUS_OK);
+}
+
+static enum dfu_status setup_write( size_t off, size_t len, void **buf )
{
static int last = 0;
- if (len > sizeof(staging))
+ if ( len > sizeof(staging) )
return (DFU_STATUS_errADDRESS);
// We only allow the last write to be less than one sector size.
- if (off == 0)
+ if ( off == 0 )
last = 0;
- if (last && len != 0)
+ if ( last && len != 0 )
return (DFU_STATUS_errADDRESS);
- if (len != FLASH_SECTOR_SIZE) {
+ if ( len != FLASH_SECTOR_SIZE )
+ {
last = 1;
- memset(staging, 0xff, sizeof(staging));
+ memset( staging, 0xff, sizeof(staging) );
}
*buf = staging;
static enum dfu_status finish_write( void *buf, size_t off, size_t len )
{
void *target;
- if (len == 0)
+ if ( len == 0 )
return (DFU_STATUS_OK);
target = flash_get_staging_area(off + (uintptr_t)&_app_rom, FLASH_SECTOR_SIZE);
- if (!target)
+ if ( !target )
return (DFU_STATUS_errADDRESS);
- memcpy(target, buf, len);
- if (flash_program_sector(off + (uintptr_t)&_app_rom, FLASH_SECTOR_SIZE) != 0)
+ memcpy( target, buf, len );
+
+ // Depending on the error return a different status
+ switch ( flash_program_sector(off + (uintptr_t)&_app_rom, FLASH_SECTOR_SIZE) )
+ {
+ /*
+ case FTFL_FSTAT_RDCOLERR: // Flash Read Collision Error
+ case FTFL_FSTAT_ACCERR: // Flash Access Error
+ case FTFL_FSTAT_FPVIOL: // Flash Protection Violation Error
return (DFU_STATUS_errADDRESS);
- return (DFU_STATUS_OK);
+ case FTFL_FSTAT_MGSTAT0: // Memory Controller Command Completion Error
+ return (DFU_STATUS_errADDRESS);
+ */
+
+ case 0:
+ default: // No error
+ return (DFU_STATUS_OK);
+ }
}
void init_usb_bootloader( int config )
{
- dfu_init(setup_write, finish_write, &dfu_ctx);
+ dfu_init( setup_read, setup_write, finish_write, &dfu_ctx );
}
void main()
// Enabling LED to indicate we are in the bootloader
GPIOA_PDDR |= (1<<5);
// Setup pin - A5 - See Lib/pin_map.mchck for more details on pins
- PORTA_PCR19 = PORT_PCR_SRE | PORT_PCR_DSE | PORT_PCR_MUX(1);
+ PORTA_PCR5 = PORT_PCR_SRE | PORT_PCR_DSE | PORT_PCR_MUX(1);
GPIOA_PSOR |= (1<<5);
-
+#else
+#error "Incompatible chip for bootloader"
#endif
+ uart_serial_setup();
+ printNL( NL "Bootloader DFU-Mode" );
+
+ // XXX REMOVEME
+ /*
+ GPIOB_PDDR |= (1<<16);
+ PORTB_PCR16 = PORT_PCR_SRE | PORT_PCR_DSE | PORT_PCR_MUX(1);
+ GPIOB_PSOR |= (1<<16);
+
+ // RST
+ GPIOC_PDDR |= (1<<8);
+ PORTC_PCR8 = PORT_PCR_SRE | PORT_PCR_DSE | PORT_PCR_MUX(1);
+ GPIOC_PSOR |= (1<<8);
+
+ // CS1B
+ GPIOC_PDDR |= (1<<4);
+ PORTC_PCR4 = PORT_PCR_SRE | PORT_PCR_DSE | PORT_PCR_MUX(1);
+ GPIOC_PCOR |= (1<<4);
+ */
+ // Backlight
+ /*
+ GPIOC_PDDR |= (1<<1);
+ PORTC_PCR1 = PORT_PCR_SRE | PORT_PCR_DSE | PORT_PCR_MUX(1);
+ GPIOC_PCOR |= (1<<1);
+ GPIOC_PDDR |= (1<<2);
+ PORTC_PCR2 = PORT_PCR_SRE | PORT_PCR_DSE | PORT_PCR_MUX(1);
+ GPIOC_PCOR |= (1<<2);
+ GPIOC_PDDR |= (1<<3);
+ PORTC_PCR3 = PORT_PCR_SRE | PORT_PCR_DSE | PORT_PCR_MUX(1);
+ GPIOC_PCOR |= (1<<3);
+ */
+
+ /*
+ // Read Firmware 1 Status
+ FTFL.fccob.read_1s_block.fcmd = FTFL_FCMD_READ_1s_BLOCK;
+ FTFL.fccob.read_1s_block.addr = (uintptr_t)&_app_rom;
+ FTFL.fccob.read_1s_block.margin = FTFL_MARGIN_NORMAL;
+
+ int retval = ftfl_submit_cmd();
+ print("Firmware Erase Status: ");
+ printHex( retval );
+ print( NL );
+
+
+ // Read Bootloader 1 Status
+ FTFL.fccob.read_1s_block.fcmd = FTFL_FCMD_READ_1s_BLOCK;
+ FTFL.fccob.read_1s_block.addr = (uintptr_t)&_bootloader;
+ FTFL.fccob.read_1s_block.margin = FTFL_MARGIN_NORMAL;
+
+ retval = ftfl_submit_cmd();
+ print("Bootloader Erase Status: ");
+ printHex( retval );
+ print( NL );
+ */
+
+ /*
+ // Program First Longword of firmware
+ FTFL.fccob.program_longword.fcmd = FTFL_FCMD_PROGRAM_LONGWORD;
+ FTFL.fccob.program_longword.addr = (uintptr_t)&_app_rom;
+ FTFL.fccob.program_longword.data_be[0] = 0x1;
+ FTFL.fccob.program_longword.data_be[1] = 0x2;
+ FTFL.fccob.program_longword.data_be[2] = 0x4;
+ FTFL.fccob.program_longword.data_be[3] = 0x8;
+ int retval = ftfl_submit_cmd();
+ print("Write Longword Status: ");
+ printHex( retval );
+ print( NL );
+ */
+
+ /*
+ // Erase Sector
+ FTFL.fccob.erase.fcmd = FTFL_FCMD_ERASE_SECTOR;
+ FTFL.fccob.erase.addr = (uintptr_t)&_app_rom;
+ int retval = ftfl_submit_cmd();
+ print("Erase Status: ");
+ printHex( retval );
+ print( NL );
+
+ // Prepare FlexRAM
+ FTFL.fccob.set_flexram.fcmd = FTFL_FCMD_SET_FLEXRAM;
+ FTFL.fccob.set_flexram.flexram_function = FTFL_FLEXRAM_RAM;
+ retval = ftfl_submit_cmd();
+ print("Set FlexRAM Status: ");
+ printHex( retval );
+ print( NL );
+
+ // Write to FlexRAM
+ memset( FlexRAM, 0xB4, 1000 );
+ memset( &FlexRAM[1000], 0xE3, 1000 );
+
+ // Program Sector
+ FTFL.fccob.program_section.fcmd = FTFL_FCMD_PROGRAM_SECTION;
+ FTFL.fccob.program_section.addr = (uintptr_t)&_app_rom;
+ FTFL.fccob.program_section.num_words = 128;
+ //FTFL.fccob.program_section.num_words = 250; // 2000 kb / 64 bits
+ retval = ftfl_submit_cmd();
+ print("Program Sector1 Status: ");
+ printHex( retval );
+ print( NL );
+
+ FTFL.fccob.program_section.fcmd = FTFL_FCMD_PROGRAM_SECTION;
+ FTFL.fccob.program_section.addr = (uintptr_t)&_app_rom + 0x400;
+ FTFL.fccob.program_section.num_words = 128;
+ //FTFL.fccob.program_section.num_words = 250; // 2000 kb / 64 bits
+ retval = ftfl_submit_cmd();
+ print("Program Sector2 Status: ");
+ printHex( retval );
+ print( NL );
+
+ for ( uint8_t sector = 0; sector < 1; sector++ )
+ //sector_print( &_bootloader, sector, 16 );
+ sector_print( &_app_rom, sector, 16 );
+ print( NL );
+ */
+
flash_prepare_flashing();
+ //uint32_t *position = &_app_rom;
usb_init( &dfu_device );
+
for (;;)
{
usb_poll();