#include "fw.h" #include "console.h" #include "io.h" extern char __dram_init_start[], __dram_init_end[]; extern char __dram_bss_start[], __dram_bss_end[]; enum romcmd { ROM_WRITE_ENABLE = 0x06, ROM_VOLATILE_SR_WRITE_ENABLE = 0x50, ROM_WRITE_DISABLE = 0x04, ROM_RELEASE_POWERDOWN_ID = 0xab, ROM_MANUFACTURER_DEVICE_ID = 0x90, ROM_JEDEC_ID = 0x9f, ROM_READ_UNIQUE_ID = 0x4b, ROM_READ_DATA = 0x03, /* DO NOT USE */ ROM_FAST_READ = 0x0b, ROM_PAGE_PROGRAM = 0x02, ROM_ERASE_4K = 0x20, ROM_ERASE_32K = 0x52, ROM_ERASE_64K = 0xd8, ROM_ERASE_ALL = 0xc7, ROM_READ_SR1 = 0x05, ROM_WRITE_SR1 = 0x01, ROM_READ_SR2 = 0x35, ROM_WRITE_SR2 = 0x31, ROM_READ_SR3 = 0x15, ROM_WRITE_SR3 = 0x11, ROM_READ_SFPD = 0x5a, ROM_ERASE_SECURITY = 0x44, ROM_PROGRAM_SECURITY = 0x42, ROM_READ_SECURITY = 0x48, ROM_GLOBAL_BLOCK_LOCK = 0x7e, ROM_GLOBAL_BLOCK_UNLOCK = 0x98, ROM_READ_BLOCK_LOCK = 0x3d, ROM_ONE_BLOCK_LOCK = 0x36, ROM_ONE_BLOCK_UNLOCK = 0x39, ROM_ERASE_PROGRAM_SUSPEND = 0x75, ROM_ERASE_PROGRAM_RESUME = 0x7a, ROM_POWER_DOWN = 0xb9, ROM_ENABLE_RESET = 0x66, ROM_RESET = 0x99, ROM_FAST_READ_DUAL = 0x3b }; #define SPIROM_DUAL_MODE 1 void __hot romcopy_download(void *dst, size_t offset, size_t len) { unsigned int cmd; unsigned int flags = ROMCOPY_SPI_CMDLEN(5) | ROMCOPY_WRITE_RAM; if (SPIROM_DUAL_MODE) { cmd = ROM_FAST_READ_DUAL; flags |= ROMCOPY_SPI_DUAL; } else { cmd = ROM_FAST_READ; } ROMCOPY_RAMADDR = (size_t)dst; ROMCOPY_ROMCMD = __rom_offset + offset + (cmd << 24); ROMCOPY_DATALEN = len | flags; } void __hot romcopy_bzero(void *dst, size_t len) { ROMCOPY_RAMADDR = (size_t)dst; ROMCOPY_ROMCMD = 0; ROMCOPY_DATALEN = len | ROMCOPY_ZERO_BUFFER | ROMCOPY_WRITE_RAM; } /* * Read unique serial number programmed into ROM * */ char __bss_hot rom_serial_str[16]; qword_t __bss_hot rom_serial; static __must_inline void rom_read_serial(void) { ROMCOPY_ROMCMD = ROM_READ_UNIQUE_ID << 24; ROMCOPY_DATALEN = ROMCOPY_SPI_CMDLEN(5) | ROMCOPY_SPI_MORE; waitfor(ROMCOPY_IRQ); ROMCOPY_DATALEN = ROMCOPY_SPI_CMDLEN(4) | ROMCOPY_SPI_MORE; waitfor(ROMCOPY_IRQ); rom_serial.l[1] = ROMCOPY_INPUT; ROMCOPY_DATALEN = ROMCOPY_SPI_CMDLEN(4); waitfor(ROMCOPY_IRQ); rom_serial.l[0] = ROMCOPY_INPUT; } /* * Convert the ROM serial number to a hex string and poke it into the * USB descriptor "ROM". Used to use base36, but this has to be done * very early, and it has turned out that making it consistent with * what one can easily get out of a debugger is really useful. * * Doing this as early as possible means a much better chance to see * the proper serial number during USB enumeration, so doing it * immediately after SPI ROM conditioning is a great time. */ static __must_inline void rom_mangle_serial(void) { volatile uint32_t *udp = &usbdesc_rom[2]; for (int i = 7; i >= 0; i--) { unsigned int v = rom_serial.b[i]; unsigned int c; c = (v >> 4)+'0'; if (c > '9') c += 'A'-'9'-1; udp[0] = c; c = (v & 15)+'0'; if (c > '9') c += 'A'-'9'-1; udp[2] = c; udp += 4; } } void rom_print_serial(void) { /* Print the ROM serial when we actually can */ con_printf("ROM serial: %08X%08X (%08x-%08x)\n", rom_serial.l[1], rom_serial.l[0], rom_serial.l[1], rom_serial.l[0]); } static __must_inline void romcopy_config_flash(void) { /* Enable writing volatile status register bits */ ROMCOPY_ROMCMD = ROM_VOLATILE_SR_WRITE_ENABLE << 24; ROMCOPY_DATALEN = ROMCOPY_SPI_CMDLEN(1); waitfor(ROMCOPY_IRQ); /* Write SR3 = 0; this sets the drive strength to maximum */ ROMCOPY_ROMCMD = ROM_WRITE_SR3 << 24; ROMCOPY_DATALEN = ROMCOPY_SPI_CMDLEN(2); waitfor(ROMCOPY_IRQ); } IRQHANDLER(romcopy,0) { static __sbss unsigned int romcopy_state; size_t len; switch (romcopy_state++) { case 0: /* Condition flash ROM */ romcopy_config_flash(); /* Read serial number */ rom_read_serial(); /* Start copy DRAM data */ len = __dram_init_end - __dram_init_start; romcopy_download(__dram_init_start, 0, len); /* Convert serial number and export to USB */ rom_mangle_serial(); break; case 1: /* Zero .dram.bss */ len = __dram_bss_end - __dram_bss_start; romcopy_bzero(__dram_bss_start, len); break; default: mask_irq(ROMCOPY_IRQ); break; } }