/* $OpenBSD: acxreg.h,v 1.12 2008/06/01 10:08:35 brad Exp $ */ /* * Copyright (c) 2006 Jonathan Gray * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN * ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF * OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ /* * Copyright (c) 2006 The DragonFly Project. All rights reserved. * * This code is derived from software contributed to The DragonFly Project * by Sepherosa Ziehau * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name of The DragonFly Project nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific, prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDERS OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED * AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT * OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #ifndef _ACXREG_H #define _ACXREG_H /* * IO register index */ #define ACXREG_SOFT_RESET 0 #define ACXREG_FWMEM_ADDR 1 #define ACXREG_FWMEM_DATA 2 #define ACXREG_FWMEM_CTRL 3 #define ACXREG_FWMEM_START 4 #define ACXREG_EVENT_MASK 5 #define ACXREG_INTR_TRIG 6 #define ACXREG_INTR_MASK 7 #define ACXREG_INTR_STATUS 8 #define ACXREG_INTR_STATUS_CLR 9 /* cleared after being read */ #define ACXREG_INTR_ACK 10 #define ACXREG_HINTR_TRIG 11 /* XXX what's this? */ #define ACXREG_RADIO_ENABLE 12 #define ACXREG_EEPROM_INIT 13 #define ACXREG_EEPROM_CTRL 14 #define ACXREG_EEPROM_ADDR 15 #define ACXREG_EEPROM_DATA 16 #define ACXREG_EEPROM_CONF 17 #define ACXREG_EEPROM_INFO 18 #define ACXREG_PHY_ADDR 19 #define ACXREG_PHY_DATA 20 #define ACXREG_PHY_CTRL 21 #define ACXREG_GPIO_OUT_ENABLE 22 #define ACXREG_GPIO_OUT 23 #define ACXREG_CMD_REG_OFFSET 24 #define ACXREG_INFO_REG_OFFSET 25 #define ACXREG_RESET_SENSE 26 #define ACXREG_ECPU_CTRL 27 #define ACXREG_MAX 28 #define ACXREG(reg, val) [ACXREG_##reg] = val /* * Value read from ACXREG_EEPROM_INFO * upper 8bits are radio type * lower 8bits are form factor */ #define ACX_EEINFO_RADIO_TYPE_SHIFT 8 #define ACX_EEINFO_RADIO_TYPE_MASK (0xff << ACX_EEINFO_RADIO_TYPE_SHIFT) #define ACX_EEINFO_FORM_FACTOR_MASK 0xff #define ACX_EEINFO_HAS_RADIO_TYPE(info) ((info) & ACX_EEINFO_RADIO_TYPE_MASK) #define ACX_EEINFO_RADIO_TYPE(info) ((info) >> ACX_EEINFO_RADIO_TYPE_SHIFT) #define ACX_EEINFO_FORM_FACTOR(info) ((info) & ACX_EEINFO_FORM_FACTOR_MASK) /* * Size of command register whose location is obtained * from ACXREG_CMD_REG_OFFSET IO register */ #define ACX_CMD_REG_SIZE 4 /* 4 bytes */ /* * Size of infomation register whose location is obtained * from ACXREG_INFO_REG_OFFSET IO register */ #define ACX_INFO_REG_SIZE 4 /* 4 bytes */ /* * Offset of EEPROM variables */ #define ACX_EE_VERSION_OFS 0x05 /* * Possible values for various IO registers */ /* ACXREG_SOFT_RESET */ #define ACXRV_SOFT_RESET 0x1 /* ACXREG_FWMEM_START */ #define ACXRV_FWMEM_START_OP 0x0 /* ACXREG_FWMEM_CTRL */ #define ACXRV_FWMEM_ADDR_AUTOINC 0x10000 /* ACXREG_EVENT_MASK */ #define ACXRV_EVENT_DISABLE 0x8000 /* XXX What's this?? */ /* ACXREG_INTR_TRIG */ #define ACXRV_TRIG_CMD_FINI 0x0001 #define ACXRV_TRIG_TX_FINI 0x0004 /* ACXREG_INTR_MASK */ #define ACXRV_INTR_RX_DATA 0x0001 #define ACXRV_INTR_TX_FINI 0x0002 #define ACXRV_INTR_TX_XFER 0x0004 #define ACXRV_INTR_RX_FINI 0x0008 #define ACXRV_INTR_DTIM 0x0010 #define ACXRV_INTR_BEACON 0x0020 #define ACXRV_INTR_TIMER 0x0040 #define ACXRV_INTR_KEY_MISS 0x0080 #define ACXRV_INTR_WEP_FAIL 0x0100 #define ACXRV_INTR_CMD_FINI 0x0200 #define ACXRV_INTR_INFO 0x0400 #define ACXRV_INTR_OVERFLOW 0x0800 /* XXX */ #define ACXRV_INTR_PROC_ERR 0x1000 /* XXX */ #define ACXRV_INTR_SCAN_FINI 0x2000 #define ACXRV_INTR_FCS_THRESH 0x4000 /* XXX */ #define ACXRV_INTR_UNKN 0x8000 #define ACXRV_INTR_ALL 0xffff /* ACXREG_EEPROM_INIT */ #define ACXRV_EEPROM_INIT 0x1 /* ACXREG_EEPROM_CTRL */ #define ACXRV_EEPROM_READ 0x2 /* ACXREG_PHY_CTRL */ #define ACXRV_PHY_WRITE 0x1 #define ACXRV_PHY_READ 0x2 /* ACXREG_PHY_ADDR */ #define ACXRV_PHYREG_TXPOWER 0x11 /* axc100 */ #define ACXRV_PHYREG_SENSITIVITY 0x30 /* ACXREG_ECPU_CTRL */ #define ACXRV_ECPU_HALT 0x1 #define ACXRV_ECPU_START 0x0 /* Commands */ #define ACXCMD_GET_CONF 0x01 #define ACXCMD_SET_CONF 0x02 #define ACXCMD_ENABLE_RXCHAN 0x03 #define ACXCMD_ENABLE_TXCHAN 0x04 #define ACXCMD_TMPLT_TIM 0x0a #define ACXCMD_JOIN_BSS 0x0b #define ACXCMD_WEP_MGMT 0x0c /* acx111 */ #define ACXCMD_SLEEP 0x0f #define ACXCMD_WAKEUP 0x10 #define ACXCMD_INIT_MEM 0x12 /* acx100 */ #define ACXCMD_TMPLT_BEACON 0x13 #define ACXCMD_TMPLT_PROBE_RESP 0x14 #define ACXCMD_TMPLT_NULL_DATA 0x15 #define ACXCMD_TMPLT_PROBE_REQ 0x16 #define ACXCMD_INIT_RADIO 0x18 #if 0 /* * acx111 does not agree with acx100 about * the meaning of following values. So they * are put into chip specific files. */ #define ACX_CONF_FW_RING 0x0003 #define ACX_CONF_MEMOPT 0x0005 #endif #define ACX_CONF_MEMBLK_SIZE 0x0004 /* acx100 */ #define ACX_CONF_RATE_FALLBACK 0x0006 #define ACX_CONF_WEPOPT 0x0007 /* acx100 */ #define ACX_CONF_MMAP 0x0008 #define ACX_CONF_FWREV 0x000d #define ACX_CONF_RXOPT 0x0010 #define ACX_CONF_OPTION 0x0015 /* acx111 */ #define ACX_CONF_EADDR 0x1001 #define ACX_CONF_NRETRY_SHORT 0x1005 #define ACX_CONF_NRETRY_LONG 0x1006 #define ACX_CONF_WEPKEY 0x1007 /* acx100 */ #define ACX_CONF_MSDU_LIFETIME 0x1008 #define ACX_CONF_REGDOM 0x100a #define ACX_CONF_ANTENNA 0x100b #define ACX_CONF_TXPOWER 0x100d /* acx111 */ #define ACX_CONF_CCA_MODE 0x100e #define ACX_CONF_ED_THRESH 0x100f #define ACX_CONF_WEP_TXKEY 0x1010 /* * NOTE: * Following structs' fields are little endian */ struct acx_conf { uint16_t conf_id; /* see ACXCONF_ (_acxcmd.h) */ uint16_t conf_data_len; } __packed; struct acx_conf_mmap { struct acx_conf confcom; uint32_t code_start; uint32_t code_end; uint32_t wep_cache_start; uint32_t wep_cache_end; uint32_t pkt_tmplt_start; uint32_t pkt_tmplt_end; uint32_t fw_desc_start; uint32_t fw_desc_end; uint32_t memblk_start; uint32_t memblk_end; } __packed; struct acx_conf_wepopt { struct acx_conf confcom; uint16_t nkey; uint8_t opt; /* see WEPOPT_ */ } __packed; #define WEPOPT_HDWEP 0 /* hardware WEP */ struct acx_conf_eaddr { struct acx_conf confcom; uint8_t eaddr[IEEE80211_ADDR_LEN]; } __packed; struct acx_conf_regdom { struct acx_conf confcom; uint8_t regdom; uint8_t unknown; } __packed; struct acx_conf_antenna { struct acx_conf confcom; uint8_t antenna; } __packed; struct acx_conf_fwrev { struct acx_conf confcom; #define ACX_FWREV_LEN 20 /* * "Rev xx.xx.xx.xx" * '\0' terminated */ char fw_rev[ACX_FWREV_LEN]; uint32_t hw_id; } __packed; struct acx_conf_nretry_long { struct acx_conf confcom; uint8_t nretry; } __packed; struct acx_conf_nretry_short { struct acx_conf confcom; uint8_t nretry; } __packed; struct acx_conf_msdu_lifetime { struct acx_conf confcom; uint32_t lifetime; } __packed; struct acx_conf_rate_fallback { struct acx_conf confcom; uint8_t ratefb_enable; /* 0/1 */ } __packed; struct acx_conf_rxopt { struct acx_conf confcom; uint16_t opt1; /* see RXOPT1_ */ uint16_t opt2; /* see RXOPT2_ */ } __packed; #define RXOPT1_INCL_RXBUF_HDR 0x2000 /* rxbuf with acx_rxbuf_hdr */ #define RXOPT1_RECV_SSID 0x0400 /* recv frame for joined SSID */ #define RXOPT1_FILT_BCAST 0x0200 /* filt broadcast pkt */ #define RXOPT1_RECV_MCAST1 0x0100 /* recv pkt for multicast addr1 */ #define RXOPT1_RECV_MCAST0 0x0080 /* recv pkt for multicast addr0 */ #define RXOPT1_FILT_ALLMULTI 0x0040 /* filt allmulti pkt */ #define RXOPT1_FILT_FSSID 0x0020 /* filt frame for foreign SSID */ #define RXOPT1_FILT_FDEST 0x0010 /* filt frame for foreign dest addr */ #define RXOPT1_PROMISC 0x0008 /* promisc mode */ #define RXOPT1_INCL_FCS 0x0004 #define RXOPT1_INCL_PHYHDR 0x0000 /* XXX 0x0002 */ #define RXOPT2_RECV_ASSOC_REQ 0x0800 #define RXOPT2_RECV_AUTH 0x0400 #define RXOPT2_RECV_BEACON 0x0200 #define RXOPT2_RECV_CF 0x0100 #define RXOPT2_RECV_CTRL 0x0080 #define RXOPT2_RECV_DATA 0x0040 #define RXOPT2_RECV_BROKEN 0x0020 /* broken frame */ #define RXOPT2_RECV_MGMT 0x0010 #define RXOPT2_RECV_PROBE_REQ 0x0008 #define RXOPT2_RECV_PROBE_RESP 0x0004 #define RXOPT2_RECV_ACK 0x0002 /* RTS/CTS/ACK */ #define RXOPT2_RECV_OTHER 0x0001 struct acx_conf_wep_txkey { struct acx_conf confcom; uint8_t wep_txkey; } __packed; struct acx_tmplt_null_data { uint16_t size; struct ieee80211_frame data; } __packed; struct acx_tmplt_probe_req { uint16_t size; union { struct { struct ieee80211_frame f; uint8_t var[1]; } __packed u_data; uint8_t u_mem[0x44]; } data; } __packed; #define ACX_TMPLT_PROBE_REQ_SIZ(var_len) \ (sizeof(uint16_t) + sizeof(struct ieee80211_frame) + (var_len)) struct acx_tmplt_probe_resp { uint16_t size; union { struct { struct ieee80211_frame f; uint8_t time_stamp[8]; uint16_t beacon_intvl; uint16_t cap; uint8_t var[1]; } __packed u_data; uint8_t u_mem[0x54]; } data; } __packed; #define ACX_TMPLT_PROBE_RESP_SIZ(var_len) \ (sizeof(uint16_t) + sizeof(struct ieee80211_frame) + \ 8 * sizeof(uint8_t) + sizeof(uint16_t) + sizeof(uint16_t) + (var_len)) /* XXX same as acx_tmplt_probe_resp */ struct acx_tmplt_beacon { uint16_t size; union { struct { struct ieee80211_frame f; uint8_t time_stamp[8]; uint16_t beacon_intvl; uint16_t cap; uint8_t var[1]; } __packed u_data; uint8_t u_mem[0x54]; } data; } __packed; /* XXX C&P of ACX_TMPLT_PROVE_RESP_SIZ() */ #define ACX_TMPLT_BEACON_SIZ(var_len) \ (sizeof(uint16_t) + sizeof(struct ieee80211_frame) + \ 8 * sizeof(uint8_t) + sizeof(uint16_t) + sizeof(uint16_t) + (var_len)) /* XXX do NOT belong here */ struct tim_head { uint8_t eid; uint8_t len; uint8_t dtim_count; uint8_t dtim_period; uint8_t bitmap_ctrl; } __packed; /* For tim_head.len (tim_head - eid - len + bitmap) */ #define ACX_TIM_LEN(bitmap_len) \ (sizeof(struct tim_head) - (2 * sizeof(uint8_t)) + (bitmap_len)) #define ACX_TIM_BITMAP_LEN 1 struct acx_tmplt_tim { uint16_t size; union { struct { struct tim_head th; uint8_t bitmap[1]; } __packed u_data; uint8_t u_mem[0x100]; } data; #define tim_eid data.u_data.th.eid #define tim_len data.u_data.th.len #define tim_dtim_count data.u_data.th.dtim_count #define tim_dtim_period data.u_data.th.dtim_period #define tim_bitmap_ctrl data.u_data.th.bitmap_ctrl #define tim_bitmap data.u_data.bitmap } __packed; #define ACX_TMPLT_TIM_SIZ(bitmap_len) \ (sizeof(uint16_t) + sizeof(struct tim_head) + (bitmap_len)) #define CMDPRM_WRITE_REGION_1(sc, r, rlen) \ bus_space_write_region_1((sc)->sc_mem2_bt, \ (sc)->sc_mem2_bh, \ (sc)->sc_cmd_param, \ (const uint8_t *)(r), (rlen)) #define CMDPRM_READ_REGION_1(sc, r, rlen) \ bus_space_read_region_1((sc)->sc_mem2_bt, (sc)->sc_mem2_bh, \ (sc)->sc_cmd_param, (uint8_t *)(r), (rlen)) /* * This will clear previous command's * execution status too */ #define CMD_WRITE_4(sc, val) \ bus_space_write_4((sc)->sc_mem2_bt, (sc)->sc_mem2_bh, \ (sc)->sc_cmd, (val)) #define CMD_READ_4(sc) \ bus_space_read_4((sc)->sc_mem2_bt, (sc)->sc_mem2_bh, (sc)->sc_cmd) /* * acx command register layerout: * upper 16bits are command execution status * lower 16bits are command to be executed */ #define ACX_CMD_STATUS_SHIFT 16 #define ACX_CMD_STATUS_OK 1 struct radio_init { uint32_t radio_ofs; /* radio firmware offset */ uint32_t radio_len; /* radio firmware length */ } __packed; struct bss_join_hdr { uint8_t bssid[IEEE80211_ADDR_LEN]; uint16_t beacon_intvl; uint8_t chip_spec[3]; uint8_t ndata_txrate; /* see ACX_NDATA_TXRATE_ */ uint8_t ndata_txopt; /* see ACX_NDATA_TXOPT_ */ uint8_t mode; /* see ACX_MODE_ */ uint8_t channel; uint8_t esslen; char essid[1]; } __packed; /* * non-data frame tx rate */ #define ACX_NDATA_TXRATE_1 10 /* 1Mbits/s */ #define ACX_NDATA_TXRATE_2 20 /* 2Mbits/s */ /* * non-data frame tx options */ #define ACX_NDATA_TXOPT_PBCC 0x40 #define ACX_NDATA_TXOPT_OFDM 0x20 #define ACX_NDATA_TXOPT_SHORT_PREAMBLE 0x10 #define BSS_JOIN_BUFLEN \ (sizeof(struct bss_join_hdr) + IEEE80211_NWID_LEN - 1) #define BSS_JOIN_PARAM_SIZE(bj) \ (sizeof(struct bss_join_hdr) + (bj)->esslen - 1) #define PCIR_BAR(x) (PCI_MAPS + (x) * 4) #endif /* !_ACXREG_H */