/* ################################################################################ # # Copyright(c) Realtek Semiconductor Corp. All rights reserved. # # This program is free software; you can redistribute it and/or modify it # under the terms of the GNU General Public License as published by the Free # Software Foundation; either version 2 of the License, or (at your option) # any later version. # # This program is distributed in the hope that it will be useful, but WITHOUT # ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or # FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for # more details. # # You should have received a copy of the GNU General Public License along with # this program; if not, write to the Free Software Foundation, Inc., 59 # Temple Place - Suite 330, Boston, MA 02111-1307, USA. # # The full GNU General Public License is included in this distribution in the # file called LICENSE. # ################################################################################ */ /* * This product is covered by one or more of the following patents: * US5,307,459, US5,434,872, US5,732,094, US6,570,884, US6,115,776, and US6,327,625. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "r8198.h" #include "r8198_asf.h" extern int rtl8198_eri_read(void __iomem *ioaddr, int addr, int len, int type); extern int rtl8198_eri_write(void __iomem *ioaddr, int addr, int len, int value, int type); int rtl8198_asf_ioctl(struct net_device *dev, struct ifreq *ifr) { struct rtl8198_private *tp = netdev_priv(dev); void __iomem *ioaddr = tp->mmio_addr; void *user_data = ifr->ifr_data; struct asf_ioctl_struct asf_usrdata; if (tp->mcfg != CFG_METHOD_7 && tp->mcfg != CFG_METHOD_8) return -EOPNOTSUPP; if (copy_from_user(&asf_usrdata, user_data, sizeof(struct asf_ioctl_struct))) return -EFAULT; switch (asf_usrdata.offset) { case HBPeriod: rtl8198_asf_hbperiod(ioaddr, asf_usrdata.arg, asf_usrdata.u.data); break; case WD8Timer: break; case WD16Rst: rtl8198_asf_wd16rst(ioaddr, asf_usrdata.arg, asf_usrdata.u.data); break; case WD8Rst: rtl8198_asf_time_period(ioaddr, asf_usrdata.arg, WD8Rst, asf_usrdata.u.data); break; case LSnsrPollCycle: rtl8198_asf_time_period(ioaddr, asf_usrdata.arg, LSnsrPollCycle, asf_usrdata.u.data); break; case ASFSnsrPollPrd: rtl8198_asf_time_period(ioaddr, asf_usrdata.arg, ASFSnsrPollPrd, asf_usrdata.u.data); break; case AlertReSendItvl: rtl8198_asf_time_period(ioaddr, asf_usrdata.arg, AlertReSendItvl, asf_usrdata.u.data); break; case SMBAddr: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, SMBAddr, RW_ONE_BYTE, asf_usrdata.u.data); break; case ASFConfigR0: rtl8198_asf_config_regs(ioaddr, asf_usrdata.arg, ASFConfigR0, asf_usrdata.u.data); break; case ASFConfigR1: rtl8198_asf_config_regs(ioaddr, asf_usrdata.arg, ASFConfigR1, asf_usrdata.u.data); break; case ConsoleMA: rtl8198_asf_console_mac(ioaddr, asf_usrdata.arg, asf_usrdata.u.data); break; case ConsoleIP: rtl8198_asf_ip_address(ioaddr, asf_usrdata.arg, ConsoleIP, asf_usrdata.u.data); break; case IPAddr: rtl8198_asf_ip_address(ioaddr, asf_usrdata.arg, IPAddr, asf_usrdata.u.data); break; case UUID: rtl8198_asf_rw_uuid(ioaddr, asf_usrdata.arg, asf_usrdata.u.data); break; case IANA: rtl8198_asf_rw_iana(ioaddr, asf_usrdata.arg, asf_usrdata.u.data); break; case SysID: rtl8198_asf_rw_systemid(ioaddr, asf_usrdata.arg, asf_usrdata.u.data); break; case Community: rtl8198_asf_community_string(ioaddr, asf_usrdata.arg, asf_usrdata.u.string); break; case StringLength: rtl8198_asf_community_string_len(ioaddr, asf_usrdata.arg, asf_usrdata.u.data); break; case FmCapMsk: rtl8198_asf_capability_masks(ioaddr, asf_usrdata.arg, FmCapMsk, asf_usrdata.u.data); break; case SpCMDMsk: rtl8198_asf_capability_masks(ioaddr, asf_usrdata.arg, SpCMDMsk, asf_usrdata.u.data); break; case SysCapMsk: rtl8198_asf_capability_masks(ioaddr, asf_usrdata.arg, SysCapMsk, asf_usrdata.u.data); break; case RmtRstAddr: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtRstAddr, RW_ONE_BYTE, asf_usrdata.u.data); break; case RmtRstCmd: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtRstCmd, RW_ONE_BYTE, asf_usrdata.u.data); break; case RmtRstData: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtRstData, RW_ONE_BYTE, asf_usrdata.u.data); break; case RmtPwrOffAddr: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtPwrOffAddr, RW_ONE_BYTE, asf_usrdata.u.data); break; case RmtPwrOffCmd: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtPwrOffCmd, RW_ONE_BYTE, asf_usrdata.u.data); break; case RmtPwrOffData: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtPwrOffData, RW_ONE_BYTE, asf_usrdata.u.data); break; case RmtPwrOnAddr: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtPwrOnAddr, RW_ONE_BYTE, asf_usrdata.u.data); break; case RmtPwrOnCmd: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtPwrOnCmd, RW_ONE_BYTE, asf_usrdata.u.data); break; case RmtPwrOnData: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtPwrOnData, RW_ONE_BYTE, asf_usrdata.u.data); break; case RmtPCRAddr: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtPCRAddr, RW_ONE_BYTE, asf_usrdata.u.data); break; case RmtPCRCmd: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtPCRCmd, RW_ONE_BYTE, asf_usrdata.u.data); break; case RmtPCRData: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, RmtPCRData, RW_ONE_BYTE, asf_usrdata.u.data); break; case ASFSnsr0Addr: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, ASFSnsr0Addr, RW_ONE_BYTE, asf_usrdata.u.data); break; case LSnsrAddr0: rtl8198_asf_rw_hexadecimal(ioaddr, asf_usrdata.arg, LSnsrAddr0, RW_ONE_BYTE, asf_usrdata.u.data); break; case KO: /* Get/Set Key Operation */ rtl8198_asf_key_access(ioaddr, asf_usrdata.arg, KO, asf_usrdata.u.data); break; case KA: /* Get/Set Key Administrator */ rtl8198_asf_key_access(ioaddr, asf_usrdata.arg, KA, asf_usrdata.u.data); break; case KG: /* Get/Set Key Generation */ rtl8198_asf_key_access(ioaddr, asf_usrdata.arg, KG, asf_usrdata.u.data); break; case KR: /* Get/Set Key Random */ rtl8198_asf_key_access(ioaddr, asf_usrdata.arg, KR, asf_usrdata.u.data); break; default: return -EOPNOTSUPP; } if (copy_to_user(user_data, &asf_usrdata, sizeof(struct asf_ioctl_struct))) return -EFAULT; return 0; } void rtl8198_asf_hbperiod(void __iomem *ioaddr, int arg, unsigned int *data) { if (arg == ASF_GET) data[ASFHBPERIOD] = rtl8198_eri_read(ioaddr, HBPeriod, RW_TWO_BYTES, ERIAR_ASF); else if (arg == ASF_SET) { rtl8198_eri_write(ioaddr, HBPeriod, RW_TWO_BYTES, data[ASFHBPERIOD], ERIAR_ASF); rtl8198_eri_write(ioaddr, 0x1EC, RW_ONE_BYTE, 0x07, ERIAR_ASF); } } void rtl8198_asf_wd16rst(void __iomem *ioaddr, int arg, unsigned int *data) { data[ASFWD16RST] = rtl8198_eri_read(ioaddr, WD16Rst, RW_TWO_BYTES, ERIAR_ASF); } void rtl8198_asf_console_mac(void __iomem *ioaddr, int arg, unsigned int *data) { int i; if (arg == ASF_GET) { for (i = 0; i < 6; i++) data[i] = rtl8198_eri_read(ioaddr, ConsoleMA + i, RW_ONE_BYTE, ERIAR_ASF); } else if (arg == ASF_SET) { for (i = 0; i < 6; i++) rtl8198_eri_write(ioaddr, ConsoleMA + i, RW_ONE_BYTE, data[i], ERIAR_ASF); } } void rtl8198_asf_ip_address(void __iomem *ioaddr, int arg, int offset, unsigned int *data) { int i; if (arg == ASF_GET) { for (i = 0; i < 4; i++) data[i] = rtl8198_eri_read(ioaddr, offset + i, RW_ONE_BYTE, ERIAR_ASF); } else if (arg == ASF_SET) { for (i = 0; i < 4; i++) rtl8198_eri_write(ioaddr, offset + i, RW_ONE_BYTE, data[i], ERIAR_ASF); } } void rtl8198_asf_config_regs(void __iomem *ioaddr, int arg, int offset, unsigned int *data) { unsigned int value; if (arg == ASF_GET) { data[ASFCAPABILITY] = (rtl8198_eri_read(ioaddr, offset, RW_ONE_BYTE, ERIAR_ASF) & data[ASFCONFIG]) ? FUNCTION_ENABLE : FUNCTION_DISABLE; } else if (arg == ASF_SET) { value = rtl8198_eri_read(ioaddr, offset, RW_ONE_BYTE, ERIAR_ASF); if (data[ASFCAPABILITY] == FUNCTION_ENABLE) value |= data[ASFCONFIG]; else if (data[ASFCAPABILITY] == FUNCTION_DISABLE) value &= ~data[ASFCONFIG]; rtl8198_eri_write(ioaddr, offset, RW_ONE_BYTE, value, ERIAR_ASF); } } void rtl8198_asf_capability_masks(void __iomem *ioaddr, int arg, int offset, unsigned int *data) { unsigned int len, bit_mask; bit_mask = DISABLE_MASK; if (offset == FmCapMsk) { /* System firmware capabilities */ len = RW_FOUR_BYTES; if (data[ASFCAPMASK] == FUNCTION_ENABLE) bit_mask = FMW_CAP_MASK; } else if (offset == SpCMDMsk) { /* Special commands */ len = RW_TWO_BYTES; if (data[ASFCAPMASK] == FUNCTION_ENABLE) bit_mask = SPC_CMD_MASK; } else { /* System capability (offset == SysCapMsk)*/ len = RW_ONE_BYTE; if (data[ASFCAPMASK] == FUNCTION_ENABLE) bit_mask = SYS_CAP_MASK; } if (arg == ASF_GET) data[ASFCAPMASK] = rtl8198_eri_read(ioaddr, offset, len, ERIAR_ASF) ? FUNCTION_ENABLE : FUNCTION_DISABLE; else /* arg == ASF_SET */ rtl8198_eri_write(ioaddr, offset, len, bit_mask, ERIAR_ASF); } void rtl8198_asf_community_string(void __iomem *ioaddr, int arg, char *string) { int i; if (arg == ASF_GET) { for (i = 0; i < COMMU_STR_MAX_LEN; i++) string[i] = rtl8198_eri_read(ioaddr, Community + i, RW_ONE_BYTE, ERIAR_ASF); } else { /* arg == ASF_SET */ for (i = 0; i < COMMU_STR_MAX_LEN; i++) rtl8198_eri_write(ioaddr, Community + i, RW_ONE_BYTE, string[i], ERIAR_ASF); } } void rtl8198_asf_community_string_len(void __iomem *ioaddr, int arg, unsigned int *data) { if (arg == ASF_GET) data[ASFCOMMULEN] = rtl8198_eri_read(ioaddr, StringLength, RW_ONE_BYTE, ERIAR_ASF); else /* arg == ASF_SET */ rtl8198_eri_write(ioaddr, StringLength, RW_ONE_BYTE, data[ASFCOMMULEN], ERIAR_ASF); } void rtl8198_asf_time_period(void __iomem *ioaddr, int arg, int offset, unsigned int *data) { int pos; if (offset == WD8Rst) pos = ASFWD8RESET; else if (offset == LSnsrPollCycle) pos = ASFLSNRPOLLCYC; else if (offset == ASFSnsrPollPrd) pos = ASFSNRPOLLCYC; else if (offset == AlertReSendItvl) pos = ASFALERTRESND; if (arg == ASF_GET) data[pos] = rtl8198_eri_read(ioaddr, offset, RW_ONE_BYTE, ERIAR_ASF); else /* arg == ASF_SET */ rtl8198_eri_write(ioaddr, offset, RW_ONE_BYTE, data[pos], ERIAR_ASF); } void rtl8198_asf_key_access(void __iomem *ioaddr, int arg, int offset, unsigned int *data) { int i; if (arg == ASF_GET) for (i = 0; i < KEY_LEN; i++) data[i] = rtl8198_eri_read(ioaddr, offset + KEY_LEN - (i + 1), RW_ONE_BYTE, ERIAR_ASF); else /* arg == ASF_SET */ for (i = 0; i < KEY_LEN; i++) rtl8198_eri_write(ioaddr, offset + KEY_LEN - (i + 1), RW_ONE_BYTE, data[i], ERIAR_ASF); } void rtl8198_asf_rw_hexadecimal(void __iomem *ioaddr, int arg, int offset, int len, unsigned int *data) { if (arg == ASF_GET) data[ASFRWHEXNUM] = rtl8198_eri_read(ioaddr, offset, len, ERIAR_ASF); else /* arg == ASF_SET */ rtl8198_eri_write(ioaddr, offset, len, data[ASFRWHEXNUM], ERIAR_ASF); } void rtl8198_asf_rw_systemid(void __iomem *ioaddr, int arg, unsigned int *data) { int i; if (arg == ASF_GET) for (i = 0; i < SYSID_LEN ; i++) data[i] = rtl8198_eri_read(ioaddr, SysID + i, RW_ONE_BYTE, ERIAR_ASF); else /* arg == ASF_SET */ for (i = 0; i < SYSID_LEN ; i++) rtl8198_eri_write(ioaddr, SysID + i, RW_ONE_BYTE, data[i], ERIAR_ASF); } void rtl8198_asf_rw_iana(void __iomem *ioaddr, int arg, unsigned int *data) { int i; if (arg == ASF_GET) for (i = 0; i < RW_FOUR_BYTES; i++) data[i] = rtl8198_eri_read(ioaddr, IANA + i, RW_ONE_BYTE, ERIAR_ASF); else /* arg == ASF_SET */ for (i = 0; i < RW_FOUR_BYTES; i++) rtl8198_eri_write(ioaddr, IANA + i, RW_ONE_BYTE, data[i], ERIAR_ASF); } void rtl8198_asf_rw_uuid(void __iomem *ioaddr, int arg, unsigned int *data) { int i, j; if (arg == ASF_GET) for (i = UUID_LEN - 1, j = 0; i >= 0 ; i--, j++) data[j] = rtl8198_eri_read(ioaddr, UUID + i, RW_ONE_BYTE, ERIAR_ASF); else /* arg == ASF_SET */ for (i = UUID_LEN - 1, j = 0; i >= 0 ; i--, j++) rtl8198_eri_write(ioaddr, UUID + i, RW_ONE_BYTE, data[j], ERIAR_ASF); }