diff options
Diffstat (limited to 'drivers/staging/brcm80211/brcmsmac/srom.c')
-rw-r--r-- | drivers/staging/brcm80211/brcmsmac/srom.c | 1237 |
1 files changed, 0 insertions, 1237 deletions
diff --git a/drivers/staging/brcm80211/brcmsmac/srom.c b/drivers/staging/brcm80211/brcmsmac/srom.c deleted file mode 100644 index f39442ed4ce7..000000000000 --- a/drivers/staging/brcm80211/brcmsmac/srom.c +++ /dev/null @@ -1,1237 +0,0 @@ -/* - * Copyright (c) 2010 Broadcom Corporation - * - * Permission to use, copy, modify, and/or 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. - */ - -#include <linux/kernel.h> -#include <linux/string.h> -#include <linux/io.h> -#include <linux/etherdevice.h> -#include <stdarg.h> - -#include <chipcommon.h> -#include <brcmu_utils.h> -#include "nicpci.h" -#include "aiutils.h" -#include "otp.h" -#include "srom.h" - -#define SROM_OFFSET(sih) ((sih->ccrev > 31) ? \ - (((sih->cccaps & CC_CAP_SROM) == 0) ? NULL : \ - ((u8 *)curmap + PCI_16KB0_CCREGS_OFFSET + CC_SROM_OTP)) : \ - ((u8 *)curmap + PCI_BAR0_SPROM_OFFSET)) - -#if defined(BCMDBG) -#define WRITE_ENABLE_DELAY 500 /* 500 ms after write enable/disable toggle */ -#define WRITE_WORD_DELAY 20 /* 20 ms between each word write */ -#endif - -/* Maximum srom: 6 Kilobits == 768 bytes */ -#define SROM_MAX 768 - -/* PCI fields */ -#define PCI_F0DEVID 48 - -#define SROM_WORDS 64 - -#define SROM_SSID 2 - -#define SROM_WL1LHMAXP 29 - -#define SROM_WL1LPAB0 30 -#define SROM_WL1LPAB1 31 -#define SROM_WL1LPAB2 32 - -#define SROM_WL1HPAB0 33 -#define SROM_WL1HPAB1 34 -#define SROM_WL1HPAB2 35 - -#define SROM_MACHI_IL0 36 -#define SROM_MACMID_IL0 37 -#define SROM_MACLO_IL0 38 -#define SROM_MACHI_ET1 42 -#define SROM_MACMID_ET1 43 -#define SROM_MACLO_ET1 44 -#define SROM3_MACHI 37 -#define SROM3_MACMID 38 -#define SROM3_MACLO 39 - -#define SROM_BXARSSI2G 40 -#define SROM_BXARSSI5G 41 - -#define SROM_TRI52G 42 -#define SROM_TRI5GHL 43 - -#define SROM_RXPO52G 45 - -#define SROM_AABREV 46 -/* Fields in AABREV */ -#define SROM_BR_MASK 0x00ff -#define SROM_CC_MASK 0x0f00 -#define SROM_CC_SHIFT 8 -#define SROM_AA0_MASK 0x3000 -#define SROM_AA0_SHIFT 12 -#define SROM_AA1_MASK 0xc000 -#define SROM_AA1_SHIFT 14 - -#define SROM_WL0PAB0 47 -#define SROM_WL0PAB1 48 -#define SROM_WL0PAB2 49 - -#define SROM_LEDBH10 50 -#define SROM_LEDBH32 51 - -#define SROM_WL10MAXP 52 - -#define SROM_WL1PAB0 53 -#define SROM_WL1PAB1 54 -#define SROM_WL1PAB2 55 - -#define SROM_ITT 56 - -#define SROM_BFL 57 -#define SROM_BFL2 28 -#define SROM3_BFL2 61 - -#define SROM_AG10 58 - -#define SROM_CCODE 59 - -#define SROM_OPO 60 - -#define SROM3_LEDDC 62 - -#define SROM_CRCREV 63 - -/* SROM Rev 4: Reallocate the software part of the srom to accommodate - * MIMO features. It assumes up to two PCIE functions and 440 bytes - * of usable srom i.e. the usable storage in chips with OTP that - * implements hardware redundancy. - */ - -#define SROM4_WORDS 220 - -#define SROM4_SIGN 32 -#define SROM4_SIGNATURE 0x5372 - -#define SROM4_BREV 33 - -#define SROM4_BFL0 34 -#define SROM4_BFL1 35 -#define SROM4_BFL2 36 -#define SROM4_BFL3 37 -#define SROM5_BFL0 37 -#define SROM5_BFL1 38 -#define SROM5_BFL2 39 -#define SROM5_BFL3 40 - -#define SROM4_MACHI 38 -#define SROM4_MACMID 39 -#define SROM4_MACLO 40 -#define SROM5_MACHI 41 -#define SROM5_MACMID 42 -#define SROM5_MACLO 43 - -#define SROM4_CCODE 41 -#define SROM4_REGREV 42 -#define SROM5_CCODE 34 -#define SROM5_REGREV 35 - -#define SROM4_LEDBH10 43 -#define SROM4_LEDBH32 44 -#define SROM5_LEDBH10 59 -#define SROM5_LEDBH32 60 - -#define SROM4_LEDDC 45 -#define SROM5_LEDDC 45 - -#define SROM4_AA 46 - -#define SROM4_AG10 47 -#define SROM4_AG32 48 - -#define SROM4_TXPID2G 49 -#define SROM4_TXPID5G 51 -#define SROM4_TXPID5GL 53 -#define SROM4_TXPID5GH 55 - -#define SROM4_TXRXC 61 -#define SROM4_TXCHAIN_MASK 0x000f -#define SROM4_TXCHAIN_SHIFT 0 -#define SROM4_RXCHAIN_MASK 0x00f0 -#define SROM4_RXCHAIN_SHIFT 4 -#define SROM4_SWITCH_MASK 0xff00 -#define SROM4_SWITCH_SHIFT 8 - -/* Per-path fields */ -#define MAX_PATH_SROM 4 -#define SROM4_PATH0 64 -#define SROM4_PATH1 87 -#define SROM4_PATH2 110 -#define SROM4_PATH3 133 - -#define SROM4_2G_ITT_MAXP 0 -#define SROM4_2G_PA 1 -#define SROM4_5G_ITT_MAXP 5 -#define SROM4_5GLH_MAXP 6 -#define SROM4_5G_PA 7 -#define SROM4_5GL_PA 11 -#define SROM4_5GH_PA 15 - -/* All the miriad power offsets */ -#define SROM4_2G_CCKPO 156 -#define SROM4_2G_OFDMPO 157 -#define SROM4_5G_OFDMPO 159 -#define SROM4_5GL_OFDMPO 161 -#define SROM4_5GH_OFDMPO 163 -#define SROM4_2G_MCSPO 165 -#define SROM4_5G_MCSPO 173 -#define SROM4_5GL_MCSPO 181 -#define SROM4_5GH_MCSPO 189 -#define SROM4_CDDPO 197 -#define SROM4_STBCPO 198 -#define SROM4_BW40PO 199 -#define SROM4_BWDUPPO 200 - -#define SROM4_CRCREV 219 - -/* SROM Rev 8: Make space for a 48word hardware header for PCIe rev >= 6. - * This is acombined srom for both MIMO and SISO boards, usable in - * the .130 4Kilobit OTP with hardware redundancy. - */ -#define SROM8_BREV 65 - -#define SROM8_BFL0 66 -#define SROM8_BFL1 67 -#define SROM8_BFL2 68 -#define SROM8_BFL3 69 - -#define SROM8_MACHI 70 -#define SROM8_MACMID 71 -#define SROM8_MACLO 72 - -#define SROM8_CCODE 73 -#define SROM8_REGREV 74 - -#define SROM8_LEDBH10 75 -#define SROM8_LEDBH32 76 - -#define SROM8_LEDDC 77 - -#define SROM8_AA 78 - -#define SROM8_AG10 79 -#define SROM8_AG32 80 - -#define SROM8_TXRXC 81 - -#define SROM8_BXARSSI2G 82 -#define SROM8_BXARSSI5G 83 -#define SROM8_TRI52G 84 -#define SROM8_TRI5GHL 85 -#define SROM8_RXPO52G 86 - -#define SROM8_FEM2G 87 -#define SROM8_FEM5G 88 -#define SROM8_FEM_ANTSWLUT_MASK 0xf800 -#define SROM8_FEM_ANTSWLUT_SHIFT 11 -#define SROM8_FEM_TR_ISO_MASK 0x0700 -#define SROM8_FEM_TR_ISO_SHIFT 8 -#define SROM8_FEM_PDET_RANGE_MASK 0x00f8 -#define SROM8_FEM_PDET_RANGE_SHIFT 3 -#define SROM8_FEM_EXTPA_GAIN_MASK 0x0006 -#define SROM8_FEM_EXTPA_GAIN_SHIFT 1 -#define SROM8_FEM_TSSIPOS_MASK 0x0001 -#define SROM8_FEM_TSSIPOS_SHIFT 0 - -#define SROM8_THERMAL 89 - -/* Temp sense related entries */ -#define SROM8_MPWR_RAWTS 90 -#define SROM8_TS_SLP_OPT_CORRX 91 -/* FOC: freiquency offset correction, HWIQ: H/W IOCAL enable, IQSWP: IQ CAL swap disable */ -#define SROM8_FOC_HWIQ_IQSWP 92 - -/* Temperature delta for PHY calibration */ -#define SROM8_PHYCAL_TEMPDELTA 93 - -/* Per-path offsets & fields */ -#define SROM8_PATH0 96 -#define SROM8_PATH1 112 -#define SROM8_PATH2 128 -#define SROM8_PATH3 144 - -#define SROM8_2G_ITT_MAXP 0 -#define SROM8_2G_PA 1 -#define SROM8_5G_ITT_MAXP 4 -#define SROM8_5GLH_MAXP 5 -#define SROM8_5G_PA 6 -#define SROM8_5GL_PA 9 -#define SROM8_5GH_PA 12 - -/* All the miriad power offsets */ -#define SROM8_2G_CCKPO 160 - -#define SROM8_2G_OFDMPO 161 -#define SROM8_5G_OFDMPO 163 -#define SROM8_5GL_OFDMPO 165 -#define SROM8_5GH_OFDMPO 167 - -#define SROM8_2G_MCSPO 169 -#define SROM8_5G_MCSPO 177 -#define SROM8_5GL_MCSPO 185 -#define SROM8_5GH_MCSPO 193 - -#define SROM8_CDDPO 201 -#define SROM8_STBCPO 202 -#define SROM8_BW40PO 203 -#define SROM8_BWDUPPO 204 - -/* SISO PA parameters are in the path0 spaces */ -#define SROM8_SISO 96 - -/* Legacy names for SISO PA paramters */ -#define SROM8_W0_ITTMAXP (SROM8_SISO + SROM8_2G_ITT_MAXP) -#define SROM8_W0_PAB0 (SROM8_SISO + SROM8_2G_PA) -#define SROM8_W0_PAB1 (SROM8_SISO + SROM8_2G_PA + 1) -#define SROM8_W0_PAB2 (SROM8_SISO + SROM8_2G_PA + 2) -#define SROM8_W1_ITTMAXP (SROM8_SISO + SROM8_5G_ITT_MAXP) -#define SROM8_W1_MAXP_LCHC (SROM8_SISO + SROM8_5GLH_MAXP) -#define SROM8_W1_PAB0 (SROM8_SISO + SROM8_5G_PA) -#define SROM8_W1_PAB1 (SROM8_SISO + SROM8_5G_PA + 1) -#define SROM8_W1_PAB2 (SROM8_SISO + SROM8_5G_PA + 2) -#define SROM8_W1_PAB0_LC (SROM8_SISO + SROM8_5GL_PA) -#define SROM8_W1_PAB1_LC (SROM8_SISO + SROM8_5GL_PA + 1) -#define SROM8_W1_PAB2_LC (SROM8_SISO + SROM8_5GL_PA + 2) -#define SROM8_W1_PAB0_HC (SROM8_SISO + SROM8_5GH_PA) -#define SROM8_W1_PAB1_HC (SROM8_SISO + SROM8_5GH_PA + 1) -#define SROM8_W1_PAB2_HC (SROM8_SISO + SROM8_5GH_PA + 2) - -/* SROM REV 9 */ -#define SROM9_2GPO_CCKBW20 160 -#define SROM9_2GPO_CCKBW20UL 161 -#define SROM9_2GPO_LOFDMBW20 162 -#define SROM9_2GPO_LOFDMBW20UL 164 - -#define SROM9_5GLPO_LOFDMBW20 166 -#define SROM9_5GLPO_LOFDMBW20UL 168 -#define SROM9_5GMPO_LOFDMBW20 170 -#define SROM9_5GMPO_LOFDMBW20UL 172 -#define SROM9_5GHPO_LOFDMBW20 174 -#define SROM9_5GHPO_LOFDMBW20UL 176 - -#define SROM9_2GPO_MCSBW20 178 -#define SROM9_2GPO_MCSBW20UL 180 -#define SROM9_2GPO_MCSBW40 182 - -#define SROM9_5GLPO_MCSBW20 184 -#define SROM9_5GLPO_MCSBW20UL 186 -#define SROM9_5GLPO_MCSBW40 188 -#define SROM9_5GMPO_MCSBW20 190 -#define SROM9_5GMPO_MCSBW20UL 192 -#define SROM9_5GMPO_MCSBW40 194 -#define SROM9_5GHPO_MCSBW20 196 -#define SROM9_5GHPO_MCSBW20UL 198 -#define SROM9_5GHPO_MCSBW40 200 - -#define SROM9_PO_MCS32 202 -#define SROM9_PO_LOFDM40DUP 203 - -/* SROM flags (see sromvar_t) */ -#define SRFL_MORE 1 /* value continues as described by the next entry */ -#define SRFL_NOFFS 2 /* value bits can't be all one's */ -#define SRFL_PRHEX 4 /* value is in hexdecimal format */ -#define SRFL_PRSIGN 8 /* value is in signed decimal format */ -#define SRFL_CCODE 0x10 /* value is in country code format */ -#define SRFL_ETHADDR 0x20 /* value is an Ethernet address */ -#define SRFL_LEDDC 0x40 /* value is an LED duty cycle */ -#define SRFL_NOVAR 0x80 /* do not generate a nvram param, entry is for mfgc */ - -/* Max. nvram variable table size */ -#define MAXSZ_NVRAM_VARS 4096 - -struct brcms_sromvar { - const char *name; - u32 revmask; - u32 flags; - u16 off; - u16 mask; -}; - -struct brcms_varbuf { - char *base; /* pointer to buffer base */ - char *buf; /* pointer to current position */ - unsigned int size; /* current (residual) size in bytes */ -}; - -/* Assumptions: - * - Ethernet address spans across 3 consective words - * - * Table rules: - * - Add multiple entries next to each other if a value spans across multiple words - * (even multiple fields in the same word) with each entry except the last having - * it's SRFL_MORE bit set. - * - Ethernet address entry does not follow above rule and must not have SRFL_MORE - * bit set. Its SRFL_ETHADDR bit implies it takes multiple words. - * - The last entry's name field must be NULL to indicate the end of the table. Other - * entries must have non-NULL name. - */ -static const struct brcms_sromvar pci_sromvars[] = { - {"devid", 0xffffff00, SRFL_PRHEX | SRFL_NOVAR, PCI_F0DEVID, 0xffff}, - {"boardrev", 0x0000000e, SRFL_PRHEX, SROM_AABREV, SROM_BR_MASK}, - {"boardrev", 0x000000f0, SRFL_PRHEX, SROM4_BREV, 0xffff}, - {"boardrev", 0xffffff00, SRFL_PRHEX, SROM8_BREV, 0xffff}, - {"boardflags", 0x00000002, SRFL_PRHEX, SROM_BFL, 0xffff}, - {"boardflags", 0x00000004, SRFL_PRHEX | SRFL_MORE, SROM_BFL, 0xffff}, - {"", 0, 0, SROM_BFL2, 0xffff}, - {"boardflags", 0x00000008, SRFL_PRHEX | SRFL_MORE, SROM_BFL, 0xffff}, - {"", 0, 0, SROM3_BFL2, 0xffff}, - {"boardflags", 0x00000010, SRFL_PRHEX | SRFL_MORE, SROM4_BFL0, 0xffff}, - {"", 0, 0, SROM4_BFL1, 0xffff}, - {"boardflags", 0x000000e0, SRFL_PRHEX | SRFL_MORE, SROM5_BFL0, 0xffff}, - {"", 0, 0, SROM5_BFL1, 0xffff}, - {"boardflags", 0xffffff00, SRFL_PRHEX | SRFL_MORE, SROM8_BFL0, 0xffff}, - {"", 0, 0, SROM8_BFL1, 0xffff}, - {"boardflags2", 0x00000010, SRFL_PRHEX | SRFL_MORE, SROM4_BFL2, 0xffff}, - {"", 0, 0, SROM4_BFL3, 0xffff}, - {"boardflags2", 0x000000e0, SRFL_PRHEX | SRFL_MORE, SROM5_BFL2, 0xffff}, - {"", 0, 0, SROM5_BFL3, 0xffff}, - {"boardflags2", 0xffffff00, SRFL_PRHEX | SRFL_MORE, SROM8_BFL2, 0xffff}, - {"", 0, 0, SROM8_BFL3, 0xffff}, - {"boardtype", 0xfffffffc, SRFL_PRHEX, SROM_SSID, 0xffff}, - {"boardnum", 0x00000006, 0, SROM_MACLO_IL0, 0xffff}, - {"boardnum", 0x00000008, 0, SROM3_MACLO, 0xffff}, - {"boardnum", 0x00000010, 0, SROM4_MACLO, 0xffff}, - {"boardnum", 0x000000e0, 0, SROM5_MACLO, 0xffff}, - {"boardnum", 0xffffff00, 0, SROM8_MACLO, 0xffff}, - {"cc", 0x00000002, 0, SROM_AABREV, SROM_CC_MASK}, - {"regrev", 0x00000008, 0, SROM_OPO, 0xff00}, - {"regrev", 0x00000010, 0, SROM4_REGREV, 0x00ff}, - {"regrev", 0x000000e0, 0, SROM5_REGREV, 0x00ff}, - {"regrev", 0xffffff00, 0, SROM8_REGREV, 0x00ff}, - {"ledbh0", 0x0000000e, SRFL_NOFFS, SROM_LEDBH10, 0x00ff}, - {"ledbh1", 0x0000000e, SRFL_NOFFS, SROM_LEDBH10, 0xff00}, - {"ledbh2", 0x0000000e, SRFL_NOFFS, SROM_LEDBH32, 0x00ff}, - {"ledbh3", 0x0000000e, SRFL_NOFFS, SROM_LEDBH32, 0xff00}, - {"ledbh0", 0x00000010, SRFL_NOFFS, SROM4_LEDBH10, 0x00ff}, - {"ledbh1", 0x00000010, SRFL_NOFFS, SROM4_LEDBH10, 0xff00}, - {"ledbh2", 0x00000010, SRFL_NOFFS, SROM4_LEDBH32, 0x00ff}, - {"ledbh3", 0x00000010, SRFL_NOFFS, SROM4_LEDBH32, 0xff00}, - {"ledbh0", 0x000000e0, SRFL_NOFFS, SROM5_LEDBH10, 0x00ff}, - {"ledbh1", 0x000000e0, SRFL_NOFFS, SROM5_LEDBH10, 0xff00}, - {"ledbh2", 0x000000e0, SRFL_NOFFS, SROM5_LEDBH32, 0x00ff}, - {"ledbh3", 0x000000e0, SRFL_NOFFS, SROM5_LEDBH32, 0xff00}, - {"ledbh0", 0xffffff00, SRFL_NOFFS, SROM8_LEDBH10, 0x00ff}, - {"ledbh1", 0xffffff00, SRFL_NOFFS, SROM8_LEDBH10, 0xff00}, - {"ledbh2", 0xffffff00, SRFL_NOFFS, SROM8_LEDBH32, 0x00ff}, - {"ledbh3", 0xffffff00, SRFL_NOFFS, SROM8_LEDBH32, 0xff00}, - {"pa0b0", 0x0000000e, SRFL_PRHEX, SROM_WL0PAB0, 0xffff}, - {"pa0b1", 0x0000000e, SRFL_PRHEX, SROM_WL0PAB1, 0xffff}, - {"pa0b2", 0x0000000e, SRFL_PRHEX, SROM_WL0PAB2, 0xffff}, - {"pa0itssit", 0x0000000e, 0, SROM_ITT, 0x00ff}, - {"pa0maxpwr", 0x0000000e, 0, SROM_WL10MAXP, 0x00ff}, - {"pa0b0", 0xffffff00, SRFL_PRHEX, SROM8_W0_PAB0, 0xffff}, - {"pa0b1", 0xffffff00, SRFL_PRHEX, SROM8_W0_PAB1, 0xffff}, - {"pa0b2", 0xffffff00, SRFL_PRHEX, SROM8_W0_PAB2, 0xffff}, - {"pa0itssit", 0xffffff00, 0, SROM8_W0_ITTMAXP, 0xff00}, - {"pa0maxpwr", 0xffffff00, 0, SROM8_W0_ITTMAXP, 0x00ff}, - {"opo", 0x0000000c, 0, SROM_OPO, 0x00ff}, - {"opo", 0xffffff00, 0, SROM8_2G_OFDMPO, 0x00ff}, - {"aa2g", 0x0000000e, 0, SROM_AABREV, SROM_AA0_MASK}, - {"aa2g", 0x000000f0, 0, SROM4_AA, 0x00ff}, - {"aa2g", 0xffffff00, 0, SROM8_AA, 0x00ff}, - {"aa5g", 0x0000000e, 0, SROM_AABREV, SROM_AA1_MASK}, - {"aa5g", 0x000000f0, 0, SROM4_AA, 0xff00}, - {"aa5g", 0xffffff00, 0, SROM8_AA, 0xff00}, - {"ag0", 0x0000000e, 0, SROM_AG10, 0x00ff}, - {"ag1", 0x0000000e, 0, SROM_AG10, 0xff00}, - {"ag0", 0x000000f0, 0, SROM4_AG10, 0x00ff}, - {"ag1", 0x000000f0, 0, SROM4_AG10, 0xff00}, - {"ag2", 0x000000f0, 0, SROM4_AG32, 0x00ff}, - {"ag3", 0x000000f0, 0, SROM4_AG32, 0xff00}, - {"ag0", 0xffffff00, 0, SROM8_AG10, 0x00ff}, - {"ag1", 0xffffff00, 0, SROM8_AG10, 0xff00}, - {"ag2", 0xffffff00, 0, SROM8_AG32, 0x00ff}, - {"ag3", 0xffffff00, 0, SROM8_AG32, 0xff00}, - {"pa1b0", 0x0000000e, SRFL_PRHEX, SROM_WL1PAB0, 0xffff}, - {"pa1b1", 0x0000000e, SRFL_PRHEX, SROM_WL1PAB1, 0xffff}, - {"pa1b2", 0x0000000e, SRFL_PRHEX, SROM_WL1PAB2, 0xffff}, - {"pa1lob0", 0x0000000c, SRFL_PRHEX, SROM_WL1LPAB0, 0xffff}, - {"pa1lob1", 0x0000000c, SRFL_PRHEX, SROM_WL1LPAB1, 0xffff}, - {"pa1lob2", 0x0000000c, SRFL_PRHEX, SROM_WL1LPAB2, 0xffff}, - {"pa1hib0", 0x0000000c, SRFL_PRHEX, SROM_WL1HPAB0, 0xffff}, - {"pa1hib1", 0x0000000c, SRFL_PRHEX, SROM_WL1HPAB1, 0xffff}, - {"pa1hib2", 0x0000000c, SRFL_PRHEX, SROM_WL1HPAB2, 0xffff}, - {"pa1itssit", 0x0000000e, 0, SROM_ITT, 0xff00}, - {"pa1maxpwr", 0x0000000e, 0, SROM_WL10MAXP, 0xff00}, - {"pa1lomaxpwr", 0x0000000c, 0, SROM_WL1LHMAXP, 0xff00}, - {"pa1himaxpwr", 0x0000000c, 0, SROM_WL1LHMAXP, 0x00ff}, - {"pa1b0", 0xffffff00, SRFL_PRHEX, SROM8_W1_PAB0, 0xffff}, - {"pa1b1", 0xffffff00, SRFL_PRHEX, SROM8_W1_PAB1, 0xffff}, - {"pa1b2", 0xffffff00, SRFL_PRHEX, SROM8_W1_PAB2, 0xffff}, - {"pa1lob0", 0xffffff00, SRFL_PRHEX, SROM8_W1_PAB0_LC, 0xffff}, - {"pa1lob1", 0xffffff00, SRFL_PRHEX, SROM8_W1_PAB1_LC, 0xffff}, - {"pa1lob2", 0xffffff00, SRFL_PRHEX, SROM8_W1_PAB2_LC, 0xffff}, - {"pa1hib0", 0xffffff00, SRFL_PRHEX, SROM8_W1_PAB0_HC, 0xffff}, - {"pa1hib1", 0xffffff00, SRFL_PRHEX, SROM8_W1_PAB1_HC, 0xffff}, - {"pa1hib2", 0xffffff00, SRFL_PRHEX, SROM8_W1_PAB2_HC, 0xffff}, - {"pa1itssit", 0xffffff00, 0, SROM8_W1_ITTMAXP, 0xff00}, - {"pa1maxpwr", 0xffffff00, 0, SROM8_W1_ITTMAXP, 0x00ff}, - {"pa1lomaxpwr", 0xffffff00, 0, SROM8_W1_MAXP_LCHC, 0xff00}, - {"pa1himaxpwr", 0xffffff00, 0, SROM8_W1_MAXP_LCHC, 0x00ff}, - {"bxa2g", 0x00000008, 0, SROM_BXARSSI2G, 0x1800}, - {"rssisav2g", 0x00000008, 0, SROM_BXARSSI2G, 0x0700}, - {"rssismc2g", 0x00000008, 0, SROM_BXARSSI2G, 0x00f0}, - {"rssismf2g", 0x00000008, 0, SROM_BXARSSI2G, 0x000f}, - {"bxa2g", 0xffffff00, 0, SROM8_BXARSSI2G, 0x1800}, - {"rssisav2g", 0xffffff00, 0, SROM8_BXARSSI2G, 0x0700}, - {"rssismc2g", 0xffffff00, 0, SROM8_BXARSSI2G, 0x00f0}, - {"rssismf2g", 0xffffff00, 0, SROM8_BXARSSI2G, 0x000f}, - {"bxa5g", 0x00000008, 0, SROM_BXARSSI5G, 0x1800}, - {"rssisav5g", 0x00000008, 0, SROM_BXARSSI5G, 0x0700}, - {"rssismc5g", 0x00000008, 0, SROM_BXARSSI5G, 0x00f0}, - {"rssismf5g", 0x00000008, 0, SROM_BXARSSI5G, 0x000f}, - {"bxa5g", 0xffffff00, 0, SROM8_BXARSSI5G, 0x1800}, - {"rssisav5g", 0xffffff00, 0, SROM8_BXARSSI5G, 0x0700}, - {"rssismc5g", 0xffffff00, 0, SROM8_BXARSSI5G, 0x00f0}, - {"rssismf5g", 0xffffff00, 0, SROM8_BXARSSI5G, 0x000f}, - {"tri2g", 0x00000008, 0, SROM_TRI52G, 0x00ff}, - {"tri5g", 0x00000008, 0, SROM_TRI52G, 0xff00}, - {"tri5gl", 0x00000008, 0, SROM_TRI5GHL, 0x00ff}, - {"tri5gh", 0x00000008, 0, SROM_TRI5GHL, 0xff00}, - {"tri2g", 0xffffff00, 0, SROM8_TRI52G, 0x00ff}, - {"tri5g", 0xffffff00, 0, SROM8_TRI52G, 0xff00}, - {"tri5gl", 0xffffff00, 0, SROM8_TRI5GHL, 0x00ff}, - {"tri5gh", 0xffffff00, 0, SROM8_TRI5GHL, 0xff00}, - {"rxpo2g", 0x00000008, SRFL_PRSIGN, SROM_RXPO52G, 0x00ff}, - {"rxpo5g", 0x00000008, SRFL_PRSIGN, SROM_RXPO52G, 0xff00}, - {"rxpo2g", 0xffffff00, SRFL_PRSIGN, SROM8_RXPO52G, 0x00ff}, - {"rxpo5g", 0xffffff00, SRFL_PRSIGN, SROM8_RXPO52G, 0xff00}, - {"txchain", 0x000000f0, SRFL_NOFFS, SROM4_TXRXC, SROM4_TXCHAIN_MASK}, - {"rxchain", 0x000000f0, SRFL_NOFFS, SROM4_TXRXC, SROM4_RXCHAIN_MASK}, - {"antswitch", 0x000000f0, SRFL_NOFFS, SROM4_TXRXC, SROM4_SWITCH_MASK}, - {"txchain", 0xffffff00, SRFL_NOFFS, SROM8_TXRXC, SROM4_TXCHAIN_MASK}, - {"rxchain", 0xffffff00, SRFL_NOFFS, SROM8_TXRXC, SROM4_RXCHAIN_MASK}, - {"antswitch", 0xffffff00, SRFL_NOFFS, SROM8_TXRXC, SROM4_SWITCH_MASK}, - {"tssipos2g", 0xffffff00, 0, SROM8_FEM2G, SROM8_FEM_TSSIPOS_MASK}, - {"extpagain2g", 0xffffff00, 0, SROM8_FEM2G, SROM8_FEM_EXTPA_GAIN_MASK}, - {"pdetrange2g", 0xffffff00, 0, SROM8_FEM2G, SROM8_FEM_PDET_RANGE_MASK}, - {"triso2g", 0xffffff00, 0, SROM8_FEM2G, SROM8_FEM_TR_ISO_MASK}, - {"antswctl2g", 0xffffff00, 0, SROM8_FEM2G, SROM8_FEM_ANTSWLUT_MASK}, - {"tssipos5g", 0xffffff00, 0, SROM8_FEM5G, SROM8_FEM_TSSIPOS_MASK}, - {"extpagain5g", 0xffffff00, 0, SROM8_FEM5G, SROM8_FEM_EXTPA_GAIN_MASK}, - {"pdetrange5g", 0xffffff00, 0, SROM8_FEM5G, SROM8_FEM_PDET_RANGE_MASK}, - {"triso5g", 0xffffff00, 0, SROM8_FEM5G, SROM8_FEM_TR_ISO_MASK}, - {"antswctl5g", 0xffffff00, 0, SROM8_FEM5G, SROM8_FEM_ANTSWLUT_MASK}, - {"tempthresh", 0xffffff00, 0, SROM8_THERMAL, 0xff00}, - {"tempoffset", 0xffffff00, 0, SROM8_THERMAL, 0x00ff}, - {"txpid2ga0", 0x000000f0, 0, SROM4_TXPID2G, 0x00ff}, - {"txpid2ga1", 0x000000f0, 0, SROM4_TXPID2G, 0xff00}, - {"txpid2ga2", 0x000000f0, 0, SROM4_TXPID2G + 1, 0x00ff}, - {"txpid2ga3", 0x000000f0, 0, SROM4_TXPID2G + 1, 0xff00}, - {"txpid5ga0", 0x000000f0, 0, SROM4_TXPID5G, 0x00ff}, - {"txpid5ga1", 0x000000f0, 0, SROM4_TXPID5G, 0xff00}, - {"txpid5ga2", 0x000000f0, 0, SROM4_TXPID5G + 1, 0x00ff}, - {"txpid5ga3", 0x000000f0, 0, SROM4_TXPID5G + 1, 0xff00}, - {"txpid5gla0", 0x000000f0, 0, SROM4_TXPID5GL, 0x00ff}, - {"txpid5gla1", 0x000000f0, 0, SROM4_TXPID5GL, 0xff00}, - {"txpid5gla2", 0x000000f0, 0, SROM4_TXPID5GL + 1, 0x00ff}, - {"txpid5gla3", 0x000000f0, 0, SROM4_TXPID5GL + 1, 0xff00}, - {"txpid5gha0", 0x000000f0, 0, SROM4_TXPID5GH, 0x00ff}, - {"txpid5gha1", 0x000000f0, 0, SROM4_TXPID5GH, 0xff00}, - {"txpid5gha2", 0x000000f0, 0, SROM4_TXPID5GH + 1, 0x00ff}, - {"txpid5gha3", 0x000000f0, 0, SROM4_TXPID5GH + 1, 0xff00}, - - {"ccode", 0x0000000f, SRFL_CCODE, SROM_CCODE, 0xffff}, - {"ccode", 0x00000010, SRFL_CCODE, SROM4_CCODE, 0xffff}, - {"ccode", 0x000000e0, SRFL_CCODE, SROM5_CCODE, 0xffff}, - {"ccode", 0xffffff00, SRFL_CCODE, SROM8_CCODE, 0xffff}, - {"macaddr", 0xffffff00, SRFL_ETHADDR, SROM8_MACHI, 0xffff}, - {"macaddr", 0x000000e0, SRFL_ETHADDR, SROM5_MACHI, 0xffff}, - {"macaddr", 0x00000010, SRFL_ETHADDR, SROM4_MACHI, 0xffff}, - {"macaddr", 0x00000008, SRFL_ETHADDR, SROM3_MACHI, 0xffff}, - {"il0macaddr", 0x00000007, SRFL_ETHADDR, SROM_MACHI_IL0, 0xffff}, - {"et1macaddr", 0x00000007, SRFL_ETHADDR, SROM_MACHI_ET1, 0xffff}, - {"leddc", 0xffffff00, SRFL_NOFFS | SRFL_LEDDC, SROM8_LEDDC, 0xffff}, - {"leddc", 0x000000e0, SRFL_NOFFS | SRFL_LEDDC, SROM5_LEDDC, 0xffff}, - {"leddc", 0x00000010, SRFL_NOFFS | SRFL_LEDDC, SROM4_LEDDC, 0xffff}, - {"leddc", 0x00000008, SRFL_NOFFS | SRFL_LEDDC, SROM3_LEDDC, 0xffff}, - {"rawtempsense", 0xffffff00, SRFL_PRHEX, SROM8_MPWR_RAWTS, 0x01ff}, - {"measpower", 0xffffff00, SRFL_PRHEX, SROM8_MPWR_RAWTS, 0xfe00}, - {"tempsense_slope", 0xffffff00, SRFL_PRHEX, SROM8_TS_SLP_OPT_CORRX, - 0x00ff}, - {"tempcorrx", 0xffffff00, SRFL_PRHEX, SROM8_TS_SLP_OPT_CORRX, 0xfc00}, - {"tempsense_option", 0xffffff00, SRFL_PRHEX, SROM8_TS_SLP_OPT_CORRX, - 0x0300}, - {"freqoffset_corr", 0xffffff00, SRFL_PRHEX, SROM8_FOC_HWIQ_IQSWP, - 0x000f}, - {"iqcal_swp_dis", 0xffffff00, SRFL_PRHEX, SROM8_FOC_HWIQ_IQSWP, 0x0010}, - {"hw_iqcal_en", 0xffffff00, SRFL_PRHEX, SROM8_FOC_HWIQ_IQSWP, 0x0020}, - {"phycal_tempdelta", 0xffffff00, 0, SROM8_PHYCAL_TEMPDELTA, 0x00ff}, - - {"cck2gpo", 0x000000f0, 0, SROM4_2G_CCKPO, 0xffff}, - {"cck2gpo", 0x00000100, 0, SROM8_2G_CCKPO, 0xffff}, - {"ofdm2gpo", 0x000000f0, SRFL_MORE, SROM4_2G_OFDMPO, 0xffff}, - {"", 0, 0, SROM4_2G_OFDMPO + 1, 0xffff}, - {"ofdm5gpo", 0x000000f0, SRFL_MORE, SROM4_5G_OFDMPO, 0xffff}, - {"", 0, 0, SROM4_5G_OFDMPO + 1, 0xffff}, - {"ofdm5glpo", 0x000000f0, SRFL_MORE, SROM4_5GL_OFDMPO, 0xffff}, - {"", 0, 0, SROM4_5GL_OFDMPO + 1, 0xffff}, - {"ofdm5ghpo", 0x000000f0, SRFL_MORE, SROM4_5GH_OFDMPO, 0xffff}, - {"", 0, 0, SROM4_5GH_OFDMPO + 1, 0xffff}, - {"ofdm2gpo", 0x00000100, SRFL_MORE, SROM8_2G_OFDMPO, 0xffff}, - {"", 0, 0, SROM8_2G_OFDMPO + 1, 0xffff}, - {"ofdm5gpo", 0x00000100, SRFL_MORE, SROM8_5G_OFDMPO, 0xffff}, - {"", 0, 0, SROM8_5G_OFDMPO + 1, 0xffff}, - {"ofdm5glpo", 0x00000100, SRFL_MORE, SROM8_5GL_OFDMPO, 0xffff}, - {"", 0, 0, SROM8_5GL_OFDMPO + 1, 0xffff}, - {"ofdm5ghpo", 0x00000100, SRFL_MORE, SROM8_5GH_OFDMPO, 0xffff}, - {"", 0, 0, SROM8_5GH_OFDMPO + 1, 0xffff}, - {"mcs2gpo0", 0x000000f0, 0, SROM4_2G_MCSPO, 0xffff}, - {"mcs2gpo1", 0x000000f0, 0, SROM4_2G_MCSPO + 1, 0xffff}, - {"mcs2gpo2", 0x000000f0, 0, SROM4_2G_MCSPO + 2, 0xffff}, - {"mcs2gpo3", 0x000000f0, 0, SROM4_2G_MCSPO + 3, 0xffff}, - {"mcs2gpo4", 0x000000f0, 0, SROM4_2G_MCSPO + 4, 0xffff}, - {"mcs2gpo5", 0x000000f0, 0, SROM4_2G_MCSPO + 5, 0xffff}, - {"mcs2gpo6", 0x000000f0, 0, SROM4_2G_MCSPO + 6, 0xffff}, - {"mcs2gpo7", 0x000000f0, 0, SROM4_2G_MCSPO + 7, 0xffff}, - {"mcs5gpo0", 0x000000f0, 0, SROM4_5G_MCSPO, 0xffff}, - {"mcs5gpo1", 0x000000f0, 0, SROM4_5G_MCSPO + 1, 0xffff}, - {"mcs5gpo2", 0x000000f0, 0, SROM4_5G_MCSPO + 2, 0xffff}, - {"mcs5gpo3", 0x000000f0, 0, SROM4_5G_MCSPO + 3, 0xffff}, - {"mcs5gpo4", 0x000000f0, 0, SROM4_5G_MCSPO + 4, 0xffff}, - {"mcs5gpo5", 0x000000f0, 0, SROM4_5G_MCSPO + 5, 0xffff}, - {"mcs5gpo6", 0x000000f0, 0, SROM4_5G_MCSPO + 6, 0xffff}, - {"mcs5gpo7", 0x000000f0, 0, SROM4_5G_MCSPO + 7, 0xffff}, - {"mcs5glpo0", 0x000000f0, 0, SROM4_5GL_MCSPO, 0xffff}, - {"mcs5glpo1", 0x000000f0, 0, SROM4_5GL_MCSPO + 1, 0xffff}, - {"mcs5glpo2", 0x000000f0, 0, SROM4_5GL_MCSPO + 2, 0xffff}, - {"mcs5glpo3", 0x000000f0, 0, SROM4_5GL_MCSPO + 3, 0xffff}, - {"mcs5glpo4", 0x000000f0, 0, SROM4_5GL_MCSPO + 4, 0xffff}, - {"mcs5glpo5", 0x000000f0, 0, SROM4_5GL_MCSPO + 5, 0xffff}, - {"mcs5glpo6", 0x000000f0, 0, SROM4_5GL_MCSPO + 6, 0xffff}, - {"mcs5glpo7", 0x000000f0, 0, SROM4_5GL_MCSPO + 7, 0xffff}, - {"mcs5ghpo0", 0x000000f0, 0, SROM4_5GH_MCSPO, 0xffff}, - {"mcs5ghpo1", 0x000000f0, 0, SROM4_5GH_MCSPO + 1, 0xffff}, - {"mcs5ghpo2", 0x000000f0, 0, SROM4_5GH_MCSPO + 2, 0xffff}, - {"mcs5ghpo3", 0x000000f0, 0, SROM4_5GH_MCSPO + 3, 0xffff}, - {"mcs5ghpo4", 0x000000f0, 0, SROM4_5GH_MCSPO + 4, 0xffff}, - {"mcs5ghpo5", 0x000000f0, 0, SROM4_5GH_MCSPO + 5, 0xffff}, - {"mcs5ghpo6", 0x000000f0, 0, SROM4_5GH_MCSPO + 6, 0xffff}, - {"mcs5ghpo7", 0x000000f0, 0, SROM4_5GH_MCSPO + 7, 0xffff}, - {"mcs2gpo0", 0x00000100, 0, SROM8_2G_MCSPO, 0xffff}, - {"mcs2gpo1", 0x00000100, 0, SROM8_2G_MCSPO + 1, 0xffff}, - {"mcs2gpo2", 0x00000100, 0, SROM8_2G_MCSPO + 2, 0xffff}, - {"mcs2gpo3", 0x00000100, 0, SROM8_2G_MCSPO + 3, 0xffff}, - {"mcs2gpo4", 0x00000100, 0, SROM8_2G_MCSPO + 4, 0xffff}, - {"mcs2gpo5", 0x00000100, 0, SROM8_2G_MCSPO + 5, 0xffff}, - {"mcs2gpo6", 0x00000100, 0, SROM8_2G_MCSPO + 6, 0xffff}, - {"mcs2gpo7", 0x00000100, 0, SROM8_2G_MCSPO + 7, 0xffff}, - {"mcs5gpo0", 0x00000100, 0, SROM8_5G_MCSPO, 0xffff}, - {"mcs5gpo1", 0x00000100, 0, SROM8_5G_MCSPO + 1, 0xffff}, - {"mcs5gpo2", 0x00000100, 0, SROM8_5G_MCSPO + 2, 0xffff}, - {"mcs5gpo3", 0x00000100, 0, SROM8_5G_MCSPO + 3, 0xffff}, - {"mcs5gpo4", 0x00000100, 0, SROM8_5G_MCSPO + 4, 0xffff}, - {"mcs5gpo5", 0x00000100, 0, SROM8_5G_MCSPO + 5, 0xffff}, - {"mcs5gpo6", 0x00000100, 0, SROM8_5G_MCSPO + 6, 0xffff}, - {"mcs5gpo7", 0x00000100, 0, SROM8_5G_MCSPO + 7, 0xffff}, - {"mcs5glpo0", 0x00000100, 0, SROM8_5GL_MCSPO, 0xffff}, - {"mcs5glpo1", 0x00000100, 0, SROM8_5GL_MCSPO + 1, 0xffff}, - {"mcs5glpo2", 0x00000100, 0, SROM8_5GL_MCSPO + 2, 0xffff}, - {"mcs5glpo3", 0x00000100, 0, SROM8_5GL_MCSPO + 3, 0xffff}, - {"mcs5glpo4", 0x00000100, 0, SROM8_5GL_MCSPO + 4, 0xffff}, - {"mcs5glpo5", 0x00000100, 0, SROM8_5GL_MCSPO + 5, 0xffff}, - {"mcs5glpo6", 0x00000100, 0, SROM8_5GL_MCSPO + 6, 0xffff}, - {"mcs5glpo7", 0x00000100, 0, SROM8_5GL_MCSPO + 7, 0xffff}, - {"mcs5ghpo0", 0x00000100, 0, SROM8_5GH_MCSPO, 0xffff}, - {"mcs5ghpo1", 0x00000100, 0, SROM8_5GH_MCSPO + 1, 0xffff}, - {"mcs5ghpo2", 0x00000100, 0, SROM8_5GH_MCSPO + 2, 0xffff}, - {"mcs5ghpo3", 0x00000100, 0, SROM8_5GH_MCSPO + 3, 0xffff}, - {"mcs5ghpo4", 0x00000100, 0, SROM8_5GH_MCSPO + 4, 0xffff}, - {"mcs5ghpo5", 0x00000100, 0, SROM8_5GH_MCSPO + 5, 0xffff}, - {"mcs5ghpo6", 0x00000100, 0, SROM8_5GH_MCSPO + 6, 0xffff}, - {"mcs5ghpo7", 0x00000100, 0, SROM8_5GH_MCSPO + 7, 0xffff}, - {"cddpo", 0x000000f0, 0, SROM4_CDDPO, 0xffff}, - {"stbcpo", 0x000000f0, 0, SROM4_STBCPO, 0xffff}, - {"bw40po", 0x000000f0, 0, SROM4_BW40PO, 0xffff}, - {"bwduppo", 0x000000f0, 0, SROM4_BWDUPPO, 0xffff}, - {"cddpo", 0x00000100, 0, SROM8_CDDPO, 0xffff}, - {"stbcpo", 0x00000100, 0, SROM8_STBCPO, 0xffff}, - {"bw40po", 0x00000100, 0, SROM8_BW40PO, 0xffff}, - {"bwduppo", 0x00000100, 0, SROM8_BWDUPPO, 0xffff}, - - /* power per rate from sromrev 9 */ - {"cckbw202gpo", 0xfffffe00, 0, SROM9_2GPO_CCKBW20, 0xffff}, - {"cckbw20ul2gpo", 0xfffffe00, 0, SROM9_2GPO_CCKBW20UL, 0xffff}, - {"legofdmbw202gpo", 0xfffffe00, SRFL_MORE, SROM9_2GPO_LOFDMBW20, - 0xffff}, - {"", 0, 0, SROM9_2GPO_LOFDMBW20 + 1, 0xffff}, - {"legofdmbw20ul2gpo", 0xfffffe00, SRFL_MORE, SROM9_2GPO_LOFDMBW20UL, - 0xffff}, - {"", 0, 0, SROM9_2GPO_LOFDMBW20UL + 1, 0xffff}, - {"legofdmbw205glpo", 0xfffffe00, SRFL_MORE, SROM9_5GLPO_LOFDMBW20, - 0xffff}, - {"", 0, 0, SROM9_5GLPO_LOFDMBW20 + 1, 0xffff}, - {"legofdmbw20ul5glpo", 0xfffffe00, SRFL_MORE, SROM9_5GLPO_LOFDMBW20UL, - 0xffff}, - {"", 0, 0, SROM9_5GLPO_LOFDMBW20UL + 1, 0xffff}, - {"legofdmbw205gmpo", 0xfffffe00, SRFL_MORE, SROM9_5GMPO_LOFDMBW20, - 0xffff}, - {"", 0, 0, SROM9_5GMPO_LOFDMBW20 + 1, 0xffff}, - {"legofdmbw20ul5gmpo", 0xfffffe00, SRFL_MORE, SROM9_5GMPO_LOFDMBW20UL, - 0xffff}, - {"", 0, 0, SROM9_5GMPO_LOFDMBW20UL + 1, 0xffff}, - {"legofdmbw205ghpo", 0xfffffe00, SRFL_MORE, SROM9_5GHPO_LOFDMBW20, - 0xffff}, - {"", 0, 0, SROM9_5GHPO_LOFDMBW20 + 1, 0xffff}, - {"legofdmbw20ul5ghpo", 0xfffffe00, SRFL_MORE, SROM9_5GHPO_LOFDMBW20UL, - 0xffff}, - {"", 0, 0, SROM9_5GHPO_LOFDMBW20UL + 1, 0xffff}, - {"mcsbw202gpo", 0xfffffe00, SRFL_MORE, SROM9_2GPO_MCSBW20, 0xffff}, - {"", 0, 0, SROM9_2GPO_MCSBW20 + 1, 0xffff}, - {"mcsbw20ul2gpo", 0xfffffe00, SRFL_MORE, SROM9_2GPO_MCSBW20UL, 0xffff}, - {"", 0, 0, SROM9_2GPO_MCSBW20UL + 1, 0xffff}, - {"mcsbw402gpo", 0xfffffe00, SRFL_MORE, SROM9_2GPO_MCSBW40, 0xffff}, - {"", 0, 0, SROM9_2GPO_MCSBW40 + 1, 0xffff}, - {"mcsbw205glpo", 0xfffffe00, SRFL_MORE, SROM9_5GLPO_MCSBW20, 0xffff}, - {"", 0, 0, SROM9_5GLPO_MCSBW20 + 1, 0xffff}, - {"mcsbw20ul5glpo", 0xfffffe00, SRFL_MORE, SROM9_5GLPO_MCSBW20UL, - 0xffff}, - {"", 0, 0, SROM9_5GLPO_MCSBW20UL + 1, 0xffff}, - {"mcsbw405glpo", 0xfffffe00, SRFL_MORE, SROM9_5GLPO_MCSBW40, 0xffff}, - {"", 0, 0, SROM9_5GLPO_MCSBW40 + 1, 0xffff}, - {"mcsbw205gmpo", 0xfffffe00, SRFL_MORE, SROM9_5GMPO_MCSBW20, 0xffff}, - {"", 0, 0, SROM9_5GMPO_MCSBW20 + 1, 0xffff}, - {"mcsbw20ul5gmpo", 0xfffffe00, SRFL_MORE, SROM9_5GMPO_MCSBW20UL, - 0xffff}, - {"", 0, 0, SROM9_5GMPO_MCSBW20UL + 1, 0xffff}, - {"mcsbw405gmpo", 0xfffffe00, SRFL_MORE, SROM9_5GMPO_MCSBW40, 0xffff}, - {"", 0, 0, SROM9_5GMPO_MCSBW40 + 1, 0xffff}, - {"mcsbw205ghpo", 0xfffffe00, SRFL_MORE, SROM9_5GHPO_MCSBW20, 0xffff}, - {"", 0, 0, SROM9_5GHPO_MCSBW20 + 1, 0xffff}, - {"mcsbw20ul5ghpo", 0xfffffe00, SRFL_MORE, SROM9_5GHPO_MCSBW20UL, - 0xffff}, - {"", 0, 0, SROM9_5GHPO_MCSBW20UL + 1, 0xffff}, - {"mcsbw405ghpo", 0xfffffe00, SRFL_MORE, SROM9_5GHPO_MCSBW40, 0xffff}, - {"", 0, 0, SROM9_5GHPO_MCSBW40 + 1, 0xffff}, - {"mcs32po", 0xfffffe00, 0, SROM9_PO_MCS32, 0xffff}, - {"legofdm40duppo", 0xfffffe00, 0, SROM9_PO_LOFDM40DUP, 0xffff}, - - {NULL, 0, 0, 0, 0} -}; - -static const struct brcms_sromvar perpath_pci_sromvars[] = { - {"maxp2ga", 0x000000f0, 0, SROM4_2G_ITT_MAXP, 0x00ff}, - {"itt2ga", 0x000000f0, 0, SROM4_2G_ITT_MAXP, 0xff00}, - {"itt5ga", 0x000000f0, 0, SROM4_5G_ITT_MAXP, 0xff00}, - {"pa2gw0a", 0x000000f0, SRFL_PRHEX, SROM4_2G_PA, 0xffff}, - {"pa2gw1a", 0x000000f0, SRFL_PRHEX, SROM4_2G_PA + 1, 0xffff}, - {"pa2gw2a", 0x000000f0, SRFL_PRHEX, SROM4_2G_PA + 2, 0xffff}, - {"pa2gw3a", 0x000000f0, SRFL_PRHEX, SROM4_2G_PA + 3, 0xffff}, - {"maxp5ga", 0x000000f0, 0, SROM4_5G_ITT_MAXP, 0x00ff}, - {"maxp5gha", 0x000000f0, 0, SROM4_5GLH_MAXP, 0x00ff}, - {"maxp5gla", 0x000000f0, 0, SROM4_5GLH_MAXP, 0xff00}, - {"pa5gw0a", 0x000000f0, SRFL_PRHEX, SROM4_5G_PA, 0xffff}, - {"pa5gw1a", 0x000000f0, SRFL_PRHEX, SROM4_5G_PA + 1, 0xffff}, - {"pa5gw2a", 0x000000f0, SRFL_PRHEX, SROM4_5G_PA + 2, 0xffff}, - {"pa5gw3a", 0x000000f0, SRFL_PRHEX, SROM4_5G_PA + 3, 0xffff}, - {"pa5glw0a", 0x000000f0, SRFL_PRHEX, SROM4_5GL_PA, 0xffff}, - {"pa5glw1a", 0x000000f0, SRFL_PRHEX, SROM4_5GL_PA + 1, 0xffff}, - {"pa5glw2a", 0x000000f0, SRFL_PRHEX, SROM4_5GL_PA + 2, 0xffff}, - {"pa5glw3a", 0x000000f0, SRFL_PRHEX, SROM4_5GL_PA + 3, 0xffff}, - {"pa5ghw0a", 0x000000f0, SRFL_PRHEX, SROM4_5GH_PA, 0xffff}, - {"pa5ghw1a", 0x000000f0, SRFL_PRHEX, SROM4_5GH_PA + 1, 0xffff}, - {"pa5ghw2a", 0x000000f0, SRFL_PRHEX, SROM4_5GH_PA + 2, 0xffff}, - {"pa5ghw3a", 0x000000f0, SRFL_PRHEX, SROM4_5GH_PA + 3, 0xffff}, - {"maxp2ga", 0xffffff00, 0, SROM8_2G_ITT_MAXP, 0x00ff}, - {"itt2ga", 0xffffff00, 0, SROM8_2G_ITT_MAXP, 0xff00}, - {"itt5ga", 0xffffff00, 0, SROM8_5G_ITT_MAXP, 0xff00}, - {"pa2gw0a", 0xffffff00, SRFL_PRHEX, SROM8_2G_PA, 0xffff}, - {"pa2gw1a", 0xffffff00, SRFL_PRHEX, SROM8_2G_PA + 1, 0xffff}, - {"pa2gw2a", 0xffffff00, SRFL_PRHEX, SROM8_2G_PA + 2, 0xffff}, - {"maxp5ga", 0xffffff00, 0, SROM8_5G_ITT_MAXP, 0x00ff}, - {"maxp5gha", 0xffffff00, 0, SROM8_5GLH_MAXP, 0x00ff}, - {"maxp5gla", 0xffffff00, 0, SROM8_5GLH_MAXP, 0xff00}, - {"pa5gw0a", 0xffffff00, SRFL_PRHEX, SROM8_5G_PA, 0xffff}, - {"pa5gw1a", 0xffffff00, SRFL_PRHEX, SROM8_5G_PA + 1, 0xffff}, - {"pa5gw2a", 0xffffff00, SRFL_PRHEX, SROM8_5G_PA + 2, 0xffff}, - {"pa5glw0a", 0xffffff00, SRFL_PRHEX, SROM8_5GL_PA, 0xffff}, - {"pa5glw1a", 0xffffff00, SRFL_PRHEX, SROM8_5GL_PA + 1, 0xffff}, - {"pa5glw2a", 0xffffff00, SRFL_PRHEX, SROM8_5GL_PA + 2, 0xffff}, - {"pa5ghw0a", 0xffffff00, SRFL_PRHEX, SROM8_5GH_PA, 0xffff}, - {"pa5ghw1a", 0xffffff00, SRFL_PRHEX, SROM8_5GH_PA + 1, 0xffff}, - {"pa5ghw2a", 0xffffff00, SRFL_PRHEX, SROM8_5GH_PA + 2, 0xffff}, - {NULL, 0, 0, 0, 0} -}; - -static void _initvars_srom_pci(u8 sromrev, u16 *srom, uint off, - struct brcms_varbuf *b); -static int initvars_srom_pci(struct si_pub *sih, void *curmap, char **vars, - uint *count); -static int sprom_read_pci(struct si_pub *sih, u16 *sprom, - uint wordoff, u16 *buf, uint nwords, bool check_crc); -#if defined(BCMNVRAMR) -static int otp_read_pci(struct si_pub *sih, u16 *buf, uint bufsz); -#endif - -static int initvars_table(char *start, char *end, - char **vars, uint *count); - -/* Initialization of varbuf structure */ -static void varbuf_init(struct brcms_varbuf *b, char *buf, uint size) -{ - b->size = size; - b->base = b->buf = buf; -} - -/* append a null terminated var=value string */ -static int varbuf_append(struct brcms_varbuf *b, const char *fmt, ...) -{ - va_list ap; - int r; - size_t len; - char *s; - - if (b->size < 2) - return 0; - - va_start(ap, fmt); - r = vsnprintf(b->buf, b->size, fmt, ap); - va_end(ap); - - /* C99 snprintf behavior returns r >= size on overflow, - * others return -1 on overflow. - * All return -1 on format error. - * We need to leave room for 2 null terminations, one for the current var - * string, and one for final null of the var table. So check that the - * strlen written, r, leaves room for 2 chars. - */ - if ((r == -1) || (r > (int)(b->size - 2))) { - b->size = 0; - return 0; - } - - /* Remove any earlier occurrence of the same variable */ - s = strchr(b->buf, '='); - if (s != NULL) { - len = (size_t) (s - b->buf); - for (s = b->base; s < b->buf;) { - if ((memcmp(s, b->buf, len) == 0) && s[len] == '=') { - len = strlen(s) + 1; - memmove(s, (s + len), - ((b->buf + r + 1) - (s + len))); - b->buf -= len; - b->size += (unsigned int)len; - break; - } - - while (*s++) - ; - } - } - - /* skip over this string's null termination */ - r++; - b->size -= r; - b->buf += r; - - return r; -} - -/* - * Initialize local vars from the right source for this platform. - * Return 0 on success, nonzero on error. - */ -int srom_var_init(struct si_pub *sih, uint bustype, void *curmap, - char **vars, uint *count) -{ - uint len; - - len = 0; - - if (vars == NULL || count == NULL) - return 0; - - *vars = NULL; - *count = 0; - - if (curmap != NULL && bustype == PCI_BUS) - return initvars_srom_pci(sih, curmap, vars, count); - - return -EINVAL; -} - -static inline void ltoh16_buf(u16 *buf, unsigned int size) -{ - for (size /= 2; size; size--) - *(buf + size) = le16_to_cpu(*(buf + size)); -} - -static inline void htol16_buf(u16 *buf, unsigned int size) -{ - for (size /= 2; size; size--) - *(buf + size) = cpu_to_le16(*(buf + size)); -} - -/* - * Read in and validate sprom. - * Return 0 on success, nonzero on error. - */ -static int -sprom_read_pci(struct si_pub *sih, u16 *sprom, uint wordoff, - u16 *buf, uint nwords, bool check_crc) -{ - int err = 0; - uint i; - - /* read the sprom */ - for (i = 0; i < nwords; i++) - buf[i] = R_REG(&sprom[wordoff + i]); - - if (check_crc) { - - if (buf[0] == 0xffff) { - /* The hardware thinks that an srom that starts with 0xffff - * is blank, regardless of the rest of the content, so declare - * it bad. - */ - return -ENODATA; - } - - /* fixup the endianness so crc8 will pass */ - htol16_buf(buf, nwords * 2); - if (brcmu_crc8((u8 *) buf, nwords * 2, CRC8_INIT_VALUE) != - CRC8_GOOD_VALUE) { - /* DBG only pci always read srom4 first, then srom8/9 */ - err = -EIO; - } - /* now correct the endianness of the byte array */ - ltoh16_buf(buf, nwords * 2); - } - return err; -} - -#if defined(BCMNVRAMR) -static int otp_read_pci(struct si_pub *sih, u16 *buf, uint bufsz) -{ - u8 *otp; - uint sz = OTP_SZ_MAX / 2; /* size in words */ - int err = 0; - - otp = kzalloc(OTP_SZ_MAX, GFP_ATOMIC); - if (otp == NULL) { - return -ENOMEM; - } - - err = otp_read_region(sih, OTP_HW_RGN, (u16 *) otp, &sz); - - memcpy(buf, otp, bufsz); - - kfree(otp); - - /* Check CRC */ - if (buf[0] == 0xffff) { - /* The hardware thinks that an srom that starts with 0xffff - * is blank, regardless of the rest of the content, so declare - * it bad. - */ - return -ENODATA; - } - - /* fixup the endianness so crc8 will pass */ - htol16_buf(buf, bufsz); - if (brcmu_crc8((u8 *) buf, SROM4_WORDS * 2, CRC8_INIT_VALUE) != - CRC8_GOOD_VALUE) { - err = -EIO; - } - /* now correct the endianness of the byte array */ - ltoh16_buf(buf, bufsz); - - return err; -} -#endif /* defined(BCMNVRAMR) */ -/* -* Create variable table from memory. -* Return 0 on success, nonzero on error. -*/ -static int initvars_table(char *start, char *end, - char **vars, uint *count) -{ - int c = (int)(end - start); - - /* do it only when there is more than just the null string */ - if (c > 1) { - char *vp = kmalloc(c, GFP_ATOMIC); - if (!vp) - return -ENOMEM; - memcpy(vp, start, c); - *vars = vp; - *count = c; - } else { - *vars = NULL; - *count = 0; - } - - return 0; -} - -/* Parse SROM and create name=value pairs. 'srom' points to - * the SROM word array. 'off' specifies the offset of the - * first word 'srom' points to, which should be either 0 or - * SROM3_SWRG_OFF (full SROM or software region). - */ - -static uint mask_shift(u16 mask) -{ - uint i; - for (i = 0; i < (sizeof(mask) << 3); i++) { - if (mask & (1 << i)) - return i; - } - return 0; -} - -static uint mask_width(u16 mask) -{ - int i; - for (i = (sizeof(mask) << 3) - 1; i >= 0; i--) { - if (mask & (1 << i)) - return (uint) (i - mask_shift(mask) + 1); - } - return 0; -} - -static void -_initvars_srom_pci(u8 sromrev, u16 *srom, uint off, struct brcms_varbuf *b) -{ - u16 w; - u32 val; - const struct brcms_sromvar *srv; - uint width; - uint flags; - u32 sr = (1 << sromrev); - - varbuf_append(b, "sromrev=%d", sromrev); - - for (srv = pci_sromvars; srv->name != NULL; srv++) { - const char *name; - - if ((srv->revmask & sr) == 0) - continue; - - if (srv->off < off) - continue; - - flags = srv->flags; - name = srv->name; - - /* This entry is for mfgc only. Don't generate param for it, */ - if (flags & SRFL_NOVAR) - continue; - - if (flags & SRFL_ETHADDR) { - u8 ea[ETH_ALEN]; - - ea[0] = (srom[srv->off - off] >> 8) & 0xff; - ea[1] = srom[srv->off - off] & 0xff; - ea[2] = (srom[srv->off + 1 - off] >> 8) & 0xff; - ea[3] = srom[srv->off + 1 - off] & 0xff; - ea[4] = (srom[srv->off + 2 - off] >> 8) & 0xff; - ea[5] = srom[srv->off + 2 - off] & 0xff; - - varbuf_append(b, "%s=%pM", name, ea); - } else { - w = srom[srv->off - off]; - val = (w & srv->mask) >> mask_shift(srv->mask); - width = mask_width(srv->mask); - - while (srv->flags & SRFL_MORE) { - srv++; - if (srv->off == 0 || srv->off < off) - continue; - - w = srom[srv->off - off]; - val += - ((w & srv->mask) >> mask_shift(srv-> - mask)) << - width; - width += mask_width(srv->mask); - } - - if ((flags & SRFL_NOFFS) - && ((int)val == (1 << width) - 1)) - continue; - - if (flags & SRFL_CCODE) { - if (val == 0) - varbuf_append(b, "ccode="); - else - varbuf_append(b, "ccode=%c%c", - (val >> 8), (val & 0xff)); - } - /* LED Powersave duty cycle has to be scaled: - *(oncount >> 24) (offcount >> 8) - */ - else if (flags & SRFL_LEDDC) { - u32 w32 = (((val >> 8) & 0xff) << 24) | /* oncount */ - (((val & 0xff)) << 8); /* offcount */ - varbuf_append(b, "leddc=%d", w32); - } else if (flags & SRFL_PRHEX) - varbuf_append(b, "%s=0x%x", name, val); - else if ((flags & SRFL_PRSIGN) - && (val & (1 << (width - 1)))) - varbuf_append(b, "%s=%d", name, - (int)(val | (~0 << width))); - else - varbuf_append(b, "%s=%u", name, val); - } - } - - if (sromrev >= 4) { - /* Do per-path variables */ - uint p, pb, psz; - - if (sromrev >= 8) { - pb = SROM8_PATH0; - psz = SROM8_PATH1 - SROM8_PATH0; - } else { - pb = SROM4_PATH0; - psz = SROM4_PATH1 - SROM4_PATH0; - } - - for (p = 0; p < MAX_PATH_SROM; p++) { - for (srv = perpath_pci_sromvars; srv->name != NULL; - srv++) { - if ((srv->revmask & sr) == 0) - continue; - - if (pb + srv->off < off) - continue; - - /* This entry is for mfgc only. Don't generate param for it, */ - if (srv->flags & SRFL_NOVAR) - continue; - - w = srom[pb + srv->off - off]; - val = (w & srv->mask) >> mask_shift(srv->mask); - width = mask_width(srv->mask); - - /* Cheating: no per-path var is more than 1 word */ - - if ((srv->flags & SRFL_NOFFS) - && ((int)val == (1 << width) - 1)) - continue; - - if (srv->flags & SRFL_PRHEX) - varbuf_append(b, "%s%d=0x%x", srv->name, - p, val); - else - varbuf_append(b, "%s%d=%d", srv->name, - p, val); - } - pb += psz; - } - } -} - -/* - * Initialize nonvolatile variable table from sprom. - * Return 0 on success, nonzero on error. - */ -static int initvars_srom_pci(struct si_pub *sih, void *curmap, char **vars, - uint *count) -{ - u16 *srom, *sromwindow; - u8 sromrev = 0; - u32 sr; - struct brcms_varbuf b; - char *vp, *base = NULL; - int err = 0; - - /* - * Apply CRC over SROM content regardless SROM is present or not. - */ - srom = kmalloc(SROM_MAX, GFP_ATOMIC); - if (!srom) - return -ENOMEM; - - sromwindow = (u16 *) SROM_OFFSET(sih); - if (ai_is_sprom_available(sih)) { - err = sprom_read_pci(sih, sromwindow, 0, srom, SROM_WORDS, - true); - - if ((srom[SROM4_SIGN] == SROM4_SIGNATURE) || - (((sih->buscoretype == PCIE_CORE_ID) - && (sih->buscorerev >= 6)) - || ((sih->buscoretype == PCI_CORE_ID) - && (sih->buscorerev >= 0xe)))) { - /* sromrev >= 4, read more */ - err = sprom_read_pci(sih, sromwindow, 0, srom, - SROM4_WORDS, true); - sromrev = srom[SROM4_CRCREV] & 0xff; - } else if (err == 0) { - /* srom is good and is rev < 4 */ - /* top word of sprom contains version and crc8 */ - sromrev = srom[SROM_CRCREV] & 0xff; - /* bcm4401 sroms misprogrammed */ - if (sromrev == 0x10) - sromrev = 1; - } - } -#if defined(BCMNVRAMR) - /* Use OTP if SPROM not available */ - else { - err = otp_read_pci(sih, srom, SROM_MAX); - if (err == 0) - /* OTP only contain SROM rev8/rev9 for now */ - sromrev = srom[SROM4_CRCREV] & 0xff; - } -#else - else - err = -ENODEV; -#endif - - if (!err) { - /* Bitmask for the sromrev */ - sr = 1 << sromrev; - - /* srom version check: Current valid versions: 1, 2, 3, 4, 5, 8, 9 */ - if ((sr & 0x33e) == 0) { - err = -EINVAL; - goto errout; - } - - base = kmalloc(MAXSZ_NVRAM_VARS, GFP_ATOMIC); - if (!base) { - err = -ENOMEM; - goto errout; - } - - varbuf_init(&b, base, MAXSZ_NVRAM_VARS); - - /* parse SROM into name=value pairs. */ - _initvars_srom_pci(sromrev, srom, 0, &b); - - /* final nullbyte terminator */ - vp = b.buf; - *vp++ = '\0'; - - err = initvars_table(base, vp, vars, count); - kfree(base); - } - -errout: - kfree(srom); - return err; -} |