proxmark3/bootrom/bootrom.c

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//-----------------------------------------------------------------------------
// This code is licensed to you under the terms of the GNU GPL, version 2 or,
// at your option, any later version. See the LICENSE.txt file for the text of
// the license.
//-----------------------------------------------------------------------------
// Main code for the bootloader
//-----------------------------------------------------------------------------
#include <proxmark3.h>
#include "usb_cdc.h"
#include "cmd.h"
//#include "usb_hid.h"
void DbpString(char *str) {
byte_t len = 0;
while (str[len] != 0x00) {
len++;
}
cmd_send(CMD_DEBUG_PRINT_STRING,len,0,0,(byte_t*)str,len);
}
struct common_area common_area __attribute__((section(".commonarea")));
unsigned int start_addr, end_addr, bootrom_unlocked;
extern char _bootrom_start, _bootrom_end, _flash_start, _flash_end;
static void ConfigClocks(void)
{
// we are using a 16 MHz crystal as the basis for everything
// slow clock runs at 32Khz typical regardless of crystal
// enable system clock and USB clock
AT91C_BASE_PMC->PMC_SCER = AT91C_PMC_PCK | AT91C_PMC_UDP;
// enable the clock to the following peripherals
AT91C_BASE_PMC->PMC_PCER =
(1<<AT91C_ID_PIOA) |
(1<<AT91C_ID_ADC) |
(1<<AT91C_ID_SPI) |
(1<<AT91C_ID_SSC) |
(1<<AT91C_ID_PWMC) |
(1<<AT91C_ID_UDP);
// worst case scenario, with MAINCK = 16Mhz xtal, startup delay is 1.4ms
// if SLCK slow clock runs at its worst case (max) frequency of 42khz
// max startup delay = (1.4ms*42k)/8 = 7.356 so round up to 8
// enable main oscillator and set startup delay
AT91C_BASE_PMC->PMC_MOR =
AT91C_CKGR_MOSCEN |
PMC_MAIN_OSC_STARTUP_DELAY(8);
// wait for main oscillator to stabilize
while ( !(AT91C_BASE_PMC->PMC_SR & AT91C_PMC_MOSCS) )
;
// PLL output clock frequency in range 80 - 160 MHz needs CKGR_PLL = 00
// PLL output clock frequency in range 150 - 180 MHz needs CKGR_PLL = 10
// PLL output is MAINCK * multiplier / divisor = 16Mhz * 12 / 2 = 96Mhz
AT91C_BASE_PMC->PMC_PLLR =
PMC_PLL_DIVISOR(2) |
PMC_PLL_COUNT_BEFORE_LOCK(0x50) |
PMC_PLL_FREQUENCY_RANGE(0) |
PMC_PLL_MULTIPLIER(12) |
PMC_PLL_USB_DIVISOR(1);
// wait for PLL to lock
while ( !(AT91C_BASE_PMC->PMC_SR & AT91C_PMC_LOCK) )
;
// we want a master clock (MCK) to be PLL clock / 2 = 96Mhz / 2 = 48Mhz
// datasheet recommends that this register is programmed in two operations
// when changing to PLL, program the prescaler first then the source
AT91C_BASE_PMC->PMC_MCKR = AT91C_PMC_PRES_CLK_2;
// wait for main clock ready signal
while ( !(AT91C_BASE_PMC->PMC_SR & AT91C_PMC_MCKRDY) )
;
// set the source to PLL
AT91C_BASE_PMC->PMC_MCKR = AT91C_PMC_PRES_CLK_2 | AT91C_PMC_CSS_PLL_CLK;
// wait for main clock ready signal
while ( !(AT91C_BASE_PMC->PMC_SR & AT91C_PMC_MCKRDY) )
;
}
static void Fatal(void)
{
for(;;);
}
void UsbPacketReceived(uint8_t *packet, int len) {
int i, dont_ack=0;
UsbCommand* c = (UsbCommand *)packet;
volatile uint32_t *p;
if(len != sizeof(UsbCommand)) {
Fatal();
}
uint32_t arg0 = (uint32_t)c->arg[0];
switch(c->cmd) {
case CMD_DEVICE_INFO: {
dont_ack = 1;
arg0 = DEVICE_INFO_FLAG_BOOTROM_PRESENT | DEVICE_INFO_FLAG_CURRENT_MODE_BOOTROM |
DEVICE_INFO_FLAG_UNDERSTANDS_START_FLASH;
if(common_area.flags.osimage_present) {
arg0 |= DEVICE_INFO_FLAG_OSIMAGE_PRESENT;
}
cmd_send(CMD_DEVICE_INFO,arg0,1,2,0,0);
} break;
case CMD_SETUP_WRITE: {
/* The temporary write buffer of the embedded flash controller is mapped to the
* whole memory region, only the last 8 bits are decoded.
*/
p = (volatile uint32_t *)&_flash_start;
for(i = 0; i < 12; i++) {
p[i+arg0] = c->d.asDwords[i];
}
} break;
case CMD_FINISH_WRITE: {
uint32_t* flash_mem = (uint32_t*)(&_flash_start);
for (size_t j=0; j<2; j++) {
for(i = 0+(64*j); i < 64+(64*j); i++) {
flash_mem[i] = c->d.asDwords[i];
}
uint32_t flash_address = arg0 + (0x100*j);
/* Check that the address that we are supposed to write to is within our allowed region */
if( ((flash_address+AT91C_IFLASH_PAGE_SIZE-1) >= end_addr) || (flash_address < start_addr) ) {
/* Disallow write */
dont_ack = 1;
cmd_send(CMD_NACK,0,0,0,0,0);
} else {
uint32_t page_n = (flash_address - ((uint32_t)flash_mem)) / AT91C_IFLASH_PAGE_SIZE;
/* Translate address to flash page and do flash, update here for the 512k part */
AT91C_BASE_EFC0->EFC_FCR = MC_FLASH_COMMAND_KEY |
MC_FLASH_COMMAND_PAGEN(page_n) |
AT91C_MC_FCMD_START_PROG;
}
// Wait until flashing of page finishes
uint32_t sr;
while(!((sr = AT91C_BASE_EFC0->EFC_FSR) & AT91C_MC_FRDY));
if(sr & (AT91C_MC_LOCKE | AT91C_MC_PROGE)) {
dont_ack = 1;
cmd_send(CMD_NACK,0,0,0,0,0);
}
}
} break;
case CMD_HARDWARE_RESET: {
usb_disable();
AT91C_BASE_RSTC->RSTC_RCR = RST_CONTROL_KEY | AT91C_RSTC_PROCRST;
} break;
case CMD_START_FLASH: {
if(c->arg[2] == START_FLASH_MAGIC) bootrom_unlocked = 1;
else bootrom_unlocked = 0;
{
int prot_start = (int)&_bootrom_start;
int prot_end = (int)&_bootrom_end;
int allow_start = (int)&_flash_start;
int allow_end = (int)&_flash_end;
int cmd_start = c->arg[0];
int cmd_end = c->arg[1];
/* Only allow command if the bootrom is unlocked, or the parameters are outside of the protected
* bootrom area. In any case they must be within the flash area.
*/
if( (bootrom_unlocked || ((cmd_start >= prot_end) || (cmd_end < prot_start)))
&& (cmd_start >= allow_start) && (cmd_end <= allow_end) ) {
start_addr = cmd_start;
end_addr = cmd_end;
} else {
start_addr = end_addr = 0;
dont_ack = 1;
cmd_send(CMD_NACK,0,0,0,0,0);
}
}
} break;
default: {
Fatal();
} break;
}
if(!dont_ack) {
cmd_send(CMD_ACK,arg0,0,0,0,0);
}
}
static void flash_mode(int externally_entered)
{
start_addr = 0;
end_addr = 0;
bootrom_unlocked = 0;
byte_t rx[sizeof(UsbCommand)];
size_t rx_len;
usb_enable();
for (volatile size_t i=0; i<0x100000; i++) {};
for(;;) {
WDT_HIT();
if (usb_poll()) {
rx_len = usb_read(rx,sizeof(UsbCommand));
if (rx_len) {
UsbPacketReceived(rx,rx_len);
}
}
if(!externally_entered && !BUTTON_PRESS()) {
/* Perform a reset to leave flash mode */
usb_disable();
LED_B_ON();
AT91C_BASE_RSTC->RSTC_RCR = RST_CONTROL_KEY | AT91C_RSTC_PROCRST;
for(;;);
}
if(externally_entered && BUTTON_PRESS()) {
/* Let the user's button press override the automatic leave */
externally_entered = 0;
}
}
}
extern uint32_t _osimage_entry;
void BootROM(void)
{
//------------
// First set up all the I/O pins; GPIOs configured directly, other ones
// just need to be assigned to the appropriate peripheral.
// Kill all the pullups, especially the one on USB D+; leave them for
// the unused pins, though.
AT91C_BASE_PIOA->PIO_PPUDR =
GPIO_USB_PU |
GPIO_LED_A |
GPIO_LED_B |
GPIO_LED_C |
GPIO_LED_D |
GPIO_FPGA_DIN |
GPIO_FPGA_DOUT |
GPIO_FPGA_CCLK |
GPIO_FPGA_NINIT |
GPIO_FPGA_NPROGRAM |
GPIO_FPGA_DONE |
GPIO_MUXSEL_HIPKD |
GPIO_MUXSEL_HIRAW |
GPIO_MUXSEL_LOPKD |
GPIO_MUXSEL_LORAW |
GPIO_RELAY |
GPIO_NVDD_ON;
// (and add GPIO_FPGA_ON)
// These pins are outputs
AT91C_BASE_PIOA->PIO_OER =
GPIO_LED_A |
GPIO_LED_B |
GPIO_LED_C |
GPIO_LED_D |
GPIO_RELAY |
GPIO_NVDD_ON;
// PIO controls the following pins
AT91C_BASE_PIOA->PIO_PER =
GPIO_USB_PU |
GPIO_LED_A |
GPIO_LED_B |
GPIO_LED_C |
GPIO_LED_D;
// USB_D_PLUS_PULLUP_OFF();
usb_disable();
LED_D_OFF();
LED_C_ON();
LED_B_OFF();
LED_A_OFF();
AT91C_BASE_EFC0->EFC_FMR =
AT91C_MC_FWS_1FWS |
MC_FLASH_MODE_MASTER_CLK_IN_MHZ(48);
// Initialize all system clocks
ConfigClocks();
LED_A_ON();
int common_area_present = 0;
switch(AT91C_BASE_RSTC->RSTC_RSR & AT91C_RSTC_RSTTYP) {
case AT91C_RSTC_RSTTYP_WATCHDOG:
case AT91C_RSTC_RSTTYP_SOFTWARE:
case AT91C_RSTC_RSTTYP_USER:
/* In these cases the common_area in RAM should be ok, retain it if it's there */
if(common_area.magic == COMMON_AREA_MAGIC && common_area.version == 1) {
common_area_present = 1;
}
break;
default: /* Otherwise, initialize it from scratch */
break;
}
if(!common_area_present){
/* Common area not ok, initialize it */
int i; for(i=0; i<sizeof(common_area); i++) { /* Makeshift memset, no need to drag util.c into this */
((char*)&common_area)[i] = 0;
}
common_area.magic = COMMON_AREA_MAGIC;
common_area.version = 1;
common_area.flags.bootrom_present = 1;
}
common_area.flags.bootrom_present = 1;
if(common_area.command == COMMON_AREA_COMMAND_ENTER_FLASH_MODE) {
common_area.command = COMMON_AREA_COMMAND_NONE;
flash_mode(1);
} else if(BUTTON_PRESS()) {
flash_mode(0);
} else if(_osimage_entry == 0xffffffffU) {
flash_mode(1);
} else {
// jump to Flash address of the osimage entry point (LSBit set for thumb mode)
2012-12-05 07:39:18 +08:00
__asm("bx %0\n" : : "r" ( ((int)&_osimage_entry) | 0x1 ) );
}
}