/* * Copyright (C) 2008 Yoshihiro Shimoda * * SPDX-License-Identifier: GPL-2.0+ */ #include #include "rtl8169.h" static unsigned char *PCI_MEMR; static void mac_delay(unsigned int cnt) { udelay(cnt); } static void mac_pci_setup(void) { unsigned long pci_data; PCI_PAR = 0x00000010; PCI_PDR = 0x00001000; PCI_PAR = 0x00000004; pci_data = PCI_PDR; PCI_PDR = pci_data | 0x00000007; PCI_PAR = 0x00000010; PCI_MEMR = (unsigned char *)((PCI_PDR | 0xFE240050) & 0xFFFFFFF0); } static void EECS(int level) { unsigned char data = *PCI_MEMR; if (level) *PCI_MEMR = data | 0x08; else *PCI_MEMR = data & 0xf7; } static void EECLK(int level) { unsigned char data = *PCI_MEMR; if (level) *PCI_MEMR = data | 0x04; else *PCI_MEMR = data & 0xfb; } static void EEDI(int level) { unsigned char data = *PCI_MEMR; if (level) *PCI_MEMR = data | 0x02; else *PCI_MEMR = data & 0xfd; } static inline void sh7785lcr_bitset(unsigned short bit) { if (bit) EEDI(HIGH); else EEDI(LOW); EECLK(LOW); mac_delay(TIME1); EECLK(HIGH); mac_delay(TIME1); EEDI(LOW); } static inline unsigned char sh7785lcr_bitget(void) { unsigned char bit; EECLK(LOW); mac_delay(TIME1); bit = *PCI_MEMR & 0x01; EECLK(HIGH); mac_delay(TIME1); return bit; } static inline void sh7785lcr_setcmd(unsigned char command) { sh7785lcr_bitset(BIT_DUMMY); switch (command) { case MAC_EEP_READ: sh7785lcr_bitset(1); sh7785lcr_bitset(1); sh7785lcr_bitset(0); break; case MAC_EEP_WRITE: sh7785lcr_bitset(1); sh7785lcr_bitset(0); sh7785lcr_bitset(1); break; case MAC_EEP_ERACE: sh7785lcr_bitset(1); sh7785lcr_bitset(1); sh7785lcr_bitset(1); break; case MAC_EEP_EWEN: sh7785lcr_bitset(1); sh7785lcr_bitset(0); sh7785lcr_bitset(0); break; case MAC_EEP_EWDS: sh7785lcr_bitset(1); sh7785lcr_bitset(0); sh7785lcr_bitset(0); break; default: break; } } static inline unsigned short sh7785lcr_getdt(void) { unsigned short data = 0; int i; sh7785lcr_bitget(); /* DUMMY */ for (i = 0 ; i < 16 ; i++) { data <<= 1; data |= sh7785lcr_bitget(); } return data; } static inline void sh7785lcr_setadd(unsigned short address) { sh7785lcr_bitset(address & 0x0020); /* A5 */ sh7785lcr_bitset(address & 0x0010); /* A4 */ sh7785lcr_bitset(address & 0x0008); /* A3 */ sh7785lcr_bitset(address & 0x0004); /* A2 */ sh7785lcr_bitset(address & 0x0002); /* A1 */ sh7785lcr_bitset(address & 0x0001); /* A0 */ } static inline void sh7785lcr_setdata(unsigned short data) { sh7785lcr_bitset(data & 0x8000); sh7785lcr_bitset(data & 0x4000); sh7785lcr_bitset(data & 0x2000); sh7785lcr_bitset(data & 0x1000); sh7785lcr_bitset(data & 0x0800); sh7785lcr_bitset(data & 0x0400); sh7785lcr_bitset(data & 0x0200); sh7785lcr_bitset(data & 0x0100); sh7785lcr_bitset(data & 0x0080); sh7785lcr_bitset(data & 0x0040); sh7785lcr_bitset(data & 0x0020); sh7785lcr_bitset(data & 0x0010); sh7785lcr_bitset(data & 0x0008); sh7785lcr_bitset(data & 0x0004); sh7785lcr_bitset(data & 0x0002); sh7785lcr_bitset(data & 0x0001); } static void sh7785lcr_datawrite(const unsigned short *data, unsigned short address, unsigned int count) { unsigned int i; for (i = 0; i < count; i++) { EECS(HIGH); EEDI(LOW); mac_delay(TIME1); sh7785lcr_setcmd(MAC_EEP_WRITE); sh7785lcr_setadd(address++); sh7785lcr_setdata(*(data + i)); EECLK(LOW); EEDI(LOW); EECS(LOW); mac_delay(TIME2); } } static void sh7785lcr_macerase(void) { unsigned int i; unsigned short pci_address = 7; for (i = 0; i < 3; i++) { EECS(HIGH); EEDI(LOW); mac_delay(TIME1); sh7785lcr_setcmd(MAC_EEP_ERACE); sh7785lcr_setadd(pci_address++); mac_delay(TIME1); EECLK(LOW); EEDI(LOW); EECS(LOW); } mac_delay(TIME2); printf("\n\nErace End\n"); for (i = 0; i < 10; i++) mac_delay(TIME2); } static void sh7785lcr_macwrite(unsigned short *data) { sh7785lcr_macerase(); sh7785lcr_datawrite(EEPROM_W_Data_8169_A, 0x0000, 7); sh7785lcr_datawrite(data, PCI_EEP_ADDRESS, PCI_MAC_ADDRESS_SIZE); sh7785lcr_datawrite(EEPROM_W_Data_8169_B, 0x000a, 54); } void sh7785lcr_macdtrd(unsigned char *buf, unsigned short address, unsigned int count) { unsigned int i; unsigned short wk; for (i = 0 ; i < count; i++) { EECS(HIGH); EEDI(LOW); mac_delay(TIME1); sh7785lcr_setcmd(MAC_EEP_READ); sh7785lcr_setadd(address++); wk = sh7785lcr_getdt(); *buf++ = (unsigned char)(wk & 0xff); *buf++ = (unsigned char)((wk >> 8) & 0xff); EECLK(LOW); EEDI(LOW); EECS(LOW); } } static void sh7785lcr_macadrd(unsigned char *buf) { *PCI_MEMR = PCI_PROG; sh7785lcr_macdtrd(buf, PCI_EEP_ADDRESS, PCI_MAC_ADDRESS_SIZE); } static void sh7785lcr_eepewen(void) { *PCI_MEMR = PCI_PROG; mac_delay(TIME1); EECS(LOW); EECLK(LOW); EEDI(LOW); EECS(HIGH); mac_delay(TIME1); sh7785lcr_setcmd(MAC_EEP_EWEN); sh7785lcr_bitset(1); sh7785lcr_bitset(1); sh7785lcr_bitset(BIT_DUMMY); sh7785lcr_bitset(BIT_DUMMY); sh7785lcr_bitset(BIT_DUMMY); sh7785lcr_bitset(BIT_DUMMY); EECLK(LOW); EEDI(LOW); EECS(LOW); mac_delay(TIME1); } void mac_write(unsigned short *data) { mac_pci_setup(); sh7785lcr_eepewen(); sh7785lcr_macwrite(data); } void mac_read(void) { unsigned char data[6]; mac_pci_setup(); sh7785lcr_macadrd(data); printf("Mac = %02x:%02x:%02x:%02x:%02x:%02x\n", data[0], data[1], data[2], data[3], data[4], data[5]); } int do_set_mac(cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[]) { int i; unsigned char mac[6]; char *s, *e; if (argc != 2) return cmd_usage(cmdtp); s = argv[1]; for (i = 0; i < 6; i++) { mac[i] = s ? simple_strtoul(s, &e, 16) : 0; if (s) s = (*e) ? e + 1 : e; } mac_write((unsigned short *)mac); return 0; } U_BOOT_CMD( setmac, 2, 1, do_set_mac, "write MAC address for RTL8110SCL", "\n" "setmac - write MAC address for RTL8110SCL" ); int do_print_mac(cmd_tbl_t *cmdtp, int flag, int argc, char * const argv[]) { if (argc != 1) return cmd_usage(cmdtp); mac_read(); return 0; } U_BOOT_CMD( printmac, 1, 1, do_print_mac, "print MAC address for RTL8110", "\n" " - print MAC address for RTL8110" );