bcd64e0c20
After initial power-up, the embedded cpu is usually halted. However, if we down the interface and only do a soft reset before bringing the interface back up, it will still be running and the firmware loading code will bail out. This change halts the CPU before loading the firmware, enabling a second call to wl1251_boot() to succeed without a hard reset. Signed-off-by: Bob Copeland <me@bobcopeland.com> Signed-off-by: John W. Linville <linville@tuxdriver.com>
530 lines
14 KiB
C
530 lines
14 KiB
C
/*
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* This file is part of wl1251
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*
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* Copyright (C) 2008 Nokia Corporation
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*
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* Contact: Kalle Valo <kalle.valo@nokia.com>
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* version 2 as published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA
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* 02110-1301 USA
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*
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*/
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#include <linux/gpio.h>
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#include "wl1251_reg.h"
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#include "wl1251_boot.h"
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#include "wl1251_io.h"
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#include "wl1251_spi.h"
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#include "wl1251_event.h"
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#include "wl1251_acx.h"
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void wl1251_boot_target_enable_interrupts(struct wl1251 *wl)
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{
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wl1251_reg_write32(wl, ACX_REG_INTERRUPT_MASK, ~(wl->intr_mask));
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wl1251_reg_write32(wl, HI_CFG, HI_CFG_DEF_VAL);
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}
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int wl1251_boot_soft_reset(struct wl1251 *wl)
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{
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unsigned long timeout;
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u32 boot_data;
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/* perform soft reset */
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wl1251_reg_write32(wl, ACX_REG_SLV_SOFT_RESET, ACX_SLV_SOFT_RESET_BIT);
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/* SOFT_RESET is self clearing */
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timeout = jiffies + usecs_to_jiffies(SOFT_RESET_MAX_TIME);
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while (1) {
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boot_data = wl1251_reg_read32(wl, ACX_REG_SLV_SOFT_RESET);
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wl1251_debug(DEBUG_BOOT, "soft reset bootdata 0x%x", boot_data);
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if ((boot_data & ACX_SLV_SOFT_RESET_BIT) == 0)
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break;
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if (time_after(jiffies, timeout)) {
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/* 1.2 check pWhalBus->uSelfClearTime if the
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* timeout was reached */
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wl1251_error("soft reset timeout");
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return -1;
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}
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udelay(SOFT_RESET_STALL_TIME);
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}
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/* disable Rx/Tx */
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wl1251_reg_write32(wl, ENABLE, 0x0);
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/* disable auto calibration on start*/
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wl1251_reg_write32(wl, SPARE_A2, 0xffff);
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return 0;
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}
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int wl1251_boot_init_seq(struct wl1251 *wl)
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{
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u32 scr_pad6, init_data, tmp, elp_cmd, ref_freq;
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/*
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* col #1: INTEGER_DIVIDER
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* col #2: FRACTIONAL_DIVIDER
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* col #3: ATTN_BB
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* col #4: ALPHA_BB
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* col #5: STOP_TIME_BB
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* col #6: BB_PLL_LOOP_FILTER
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*/
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static const u32 LUT[REF_FREQ_NUM][LUT_PARAM_NUM] = {
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{ 83, 87381, 0xB, 5, 0xF00, 3}, /* REF_FREQ_19_2*/
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{ 61, 141154, 0xB, 5, 0x1450, 2}, /* REF_FREQ_26_0*/
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{ 41, 174763, 0xC, 6, 0x2D00, 1}, /* REF_FREQ_38_4*/
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{ 40, 0, 0xC, 6, 0x2EE0, 1}, /* REF_FREQ_40_0*/
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{ 47, 162280, 0xC, 6, 0x2760, 1} /* REF_FREQ_33_6 */
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};
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/* read NVS params */
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scr_pad6 = wl1251_reg_read32(wl, SCR_PAD6);
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wl1251_debug(DEBUG_BOOT, "scr_pad6 0x%x", scr_pad6);
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/* read ELP_CMD */
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elp_cmd = wl1251_reg_read32(wl, ELP_CMD);
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wl1251_debug(DEBUG_BOOT, "elp_cmd 0x%x", elp_cmd);
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/* set the BB calibration time to be 300 usec (PLL_CAL_TIME) */
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ref_freq = scr_pad6 & 0x000000FF;
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wl1251_debug(DEBUG_BOOT, "ref_freq 0x%x", ref_freq);
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wl1251_reg_write32(wl, PLL_CAL_TIME, 0x9);
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/*
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* PG 1.2: set the clock buffer time to be 210 usec (CLK_BUF_TIME)
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*/
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wl1251_reg_write32(wl, CLK_BUF_TIME, 0x6);
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/*
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* set the clock detect feature to work in the restart wu procedure
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* (ELP_CFG_MODE[14]) and Select the clock source type
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* (ELP_CFG_MODE[13:12])
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*/
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tmp = ((scr_pad6 & 0x0000FF00) << 4) | 0x00004000;
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wl1251_reg_write32(wl, ELP_CFG_MODE, tmp);
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/* PG 1.2: enable the BB PLL fix. Enable the PLL_LIMP_CLK_EN_CMD */
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elp_cmd |= 0x00000040;
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wl1251_reg_write32(wl, ELP_CMD, elp_cmd);
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/* PG 1.2: Set the BB PLL stable time to be 1000usec
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* (PLL_STABLE_TIME) */
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wl1251_reg_write32(wl, CFG_PLL_SYNC_CNT, 0x20);
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/* PG 1.2: read clock request time */
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init_data = wl1251_reg_read32(wl, CLK_REQ_TIME);
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/*
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* PG 1.2: set the clock request time to be ref_clk_settling_time -
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* 1ms = 4ms
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*/
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if (init_data > 0x21)
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tmp = init_data - 0x21;
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else
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tmp = 0;
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wl1251_reg_write32(wl, CLK_REQ_TIME, tmp);
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/* set BB PLL configurations in RF AFE */
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wl1251_reg_write32(wl, 0x003058cc, 0x4B5);
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/* set RF_AFE_REG_5 */
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wl1251_reg_write32(wl, 0x003058d4, 0x50);
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/* set RF_AFE_CTRL_REG_2 */
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wl1251_reg_write32(wl, 0x00305948, 0x11c001);
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/*
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* change RF PLL and BB PLL divider for VCO clock and adjust VCO
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* bais current(RF_AFE_REG_13)
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*/
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wl1251_reg_write32(wl, 0x003058f4, 0x1e);
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/* set BB PLL configurations */
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tmp = LUT[ref_freq][LUT_PARAM_INTEGER_DIVIDER] | 0x00017000;
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wl1251_reg_write32(wl, 0x00305840, tmp);
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/* set fractional divider according to Appendix C-BB PLL
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* Calculations
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*/
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tmp = LUT[ref_freq][LUT_PARAM_FRACTIONAL_DIVIDER];
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wl1251_reg_write32(wl, 0x00305844, tmp);
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/* set the initial data for the sigma delta */
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wl1251_reg_write32(wl, 0x00305848, 0x3039);
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/*
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* set the accumulator attenuation value, calibration loop1
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* (alpha), calibration loop2 (beta), calibration loop3 (gamma) and
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* the VCO gain
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*/
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tmp = (LUT[ref_freq][LUT_PARAM_ATTN_BB] << 16) |
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(LUT[ref_freq][LUT_PARAM_ALPHA_BB] << 12) | 0x1;
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wl1251_reg_write32(wl, 0x00305854, tmp);
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/*
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* set the calibration stop time after holdoff time expires and set
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* settling time HOLD_OFF_TIME_BB
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*/
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tmp = LUT[ref_freq][LUT_PARAM_STOP_TIME_BB] | 0x000A0000;
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wl1251_reg_write32(wl, 0x00305858, tmp);
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/*
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* set BB PLL Loop filter capacitor3- BB_C3[2:0] and set BB PLL
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* constant leakage current to linearize PFD to 0uA -
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* BB_ILOOPF[7:3]
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*/
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tmp = LUT[ref_freq][LUT_PARAM_BB_PLL_LOOP_FILTER] | 0x00000030;
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wl1251_reg_write32(wl, 0x003058f8, tmp);
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/*
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* set regulator output voltage for n divider to
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* 1.35-BB_REFDIV[1:0], set charge pump current- BB_CPGAIN[4:2],
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* set BB PLL Loop filter capacitor2- BB_C2[7:5], set gain of BB
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* PLL auto-call to normal mode- BB_CALGAIN_3DB[8]
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*/
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wl1251_reg_write32(wl, 0x003058f0, 0x29);
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/* enable restart wakeup sequence (ELP_CMD[0]) */
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wl1251_reg_write32(wl, ELP_CMD, elp_cmd | 0x1);
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/* restart sequence completed */
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udelay(2000);
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return 0;
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}
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static void wl1251_boot_set_ecpu_ctrl(struct wl1251 *wl, u32 flag)
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{
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u32 cpu_ctrl;
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/* 10.5.0 run the firmware (I) */
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cpu_ctrl = wl1251_reg_read32(wl, ACX_REG_ECPU_CONTROL);
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/* 10.5.1 run the firmware (II) */
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cpu_ctrl &= ~flag;
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wl1251_reg_write32(wl, ACX_REG_ECPU_CONTROL, cpu_ctrl);
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}
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int wl1251_boot_run_firmware(struct wl1251 *wl)
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{
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int loop, ret;
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u32 chip_id, interrupt;
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wl1251_boot_set_ecpu_ctrl(wl, ECPU_CONTROL_HALT);
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chip_id = wl1251_reg_read32(wl, CHIP_ID_B);
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wl1251_debug(DEBUG_BOOT, "chip id after firmware boot: 0x%x", chip_id);
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if (chip_id != wl->chip_id) {
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wl1251_error("chip id doesn't match after firmware boot");
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return -EIO;
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}
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/* wait for init to complete */
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loop = 0;
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while (loop++ < INIT_LOOP) {
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udelay(INIT_LOOP_DELAY);
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interrupt = wl1251_reg_read32(wl, ACX_REG_INTERRUPT_NO_CLEAR);
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if (interrupt == 0xffffffff) {
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wl1251_error("error reading hardware complete "
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"init indication");
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return -EIO;
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}
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/* check that ACX_INTR_INIT_COMPLETE is enabled */
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else if (interrupt & WL1251_ACX_INTR_INIT_COMPLETE) {
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wl1251_reg_write32(wl, ACX_REG_INTERRUPT_ACK,
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WL1251_ACX_INTR_INIT_COMPLETE);
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break;
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}
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}
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if (loop >= INIT_LOOP) {
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wl1251_error("timeout waiting for the hardware to "
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"complete initialization");
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return -EIO;
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}
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/* get hardware config command mail box */
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wl->cmd_box_addr = wl1251_reg_read32(wl, REG_COMMAND_MAILBOX_PTR);
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/* get hardware config event mail box */
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wl->event_box_addr = wl1251_reg_read32(wl, REG_EVENT_MAILBOX_PTR);
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/* set the working partition to its "running" mode offset */
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wl1251_set_partition(wl, WL1251_PART_WORK_MEM_START,
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WL1251_PART_WORK_MEM_SIZE,
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WL1251_PART_WORK_REG_START,
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WL1251_PART_WORK_REG_SIZE);
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wl1251_debug(DEBUG_MAILBOX, "cmd_box_addr 0x%x event_box_addr 0x%x",
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wl->cmd_box_addr, wl->event_box_addr);
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wl1251_acx_fw_version(wl, wl->fw_ver, sizeof(wl->fw_ver));
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/*
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* in case of full asynchronous mode the firmware event must be
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* ready to receive event from the command mailbox
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*/
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/* enable gpio interrupts */
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wl1251_enable_interrupts(wl);
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/* Enable target's interrupts */
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wl->intr_mask = WL1251_ACX_INTR_RX0_DATA |
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WL1251_ACX_INTR_RX1_DATA |
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WL1251_ACX_INTR_TX_RESULT |
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WL1251_ACX_INTR_EVENT_A |
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WL1251_ACX_INTR_EVENT_B |
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WL1251_ACX_INTR_INIT_COMPLETE;
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wl1251_boot_target_enable_interrupts(wl);
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/* unmask all mbox events */
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wl->event_mask = 0xffffffff;
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ret = wl1251_event_unmask(wl);
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if (ret < 0) {
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wl1251_error("EVENT mask setting failed");
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return ret;
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}
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wl1251_event_mbox_config(wl);
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/* firmware startup completed */
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return 0;
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}
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static int wl1251_boot_upload_firmware(struct wl1251 *wl)
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{
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int addr, chunk_num, partition_limit;
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size_t fw_data_len;
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u8 *p;
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/* whal_FwCtrl_LoadFwImageSm() */
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wl1251_debug(DEBUG_BOOT, "chip id before fw upload: 0x%x",
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wl1251_reg_read32(wl, CHIP_ID_B));
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/* 10.0 check firmware length and set partition */
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fw_data_len = (wl->fw[4] << 24) | (wl->fw[5] << 16) |
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(wl->fw[6] << 8) | (wl->fw[7]);
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wl1251_debug(DEBUG_BOOT, "fw_data_len %zu chunk_size %d", fw_data_len,
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CHUNK_SIZE);
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if ((fw_data_len % 4) != 0) {
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wl1251_error("firmware length not multiple of four");
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return -EIO;
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}
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wl1251_set_partition(wl, WL1251_PART_DOWN_MEM_START,
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WL1251_PART_DOWN_MEM_SIZE,
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WL1251_PART_DOWN_REG_START,
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WL1251_PART_DOWN_REG_SIZE);
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/* 10.1 set partition limit and chunk num */
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chunk_num = 0;
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partition_limit = WL1251_PART_DOWN_MEM_SIZE;
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while (chunk_num < fw_data_len / CHUNK_SIZE) {
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/* 10.2 update partition, if needed */
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addr = WL1251_PART_DOWN_MEM_START +
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(chunk_num + 2) * CHUNK_SIZE;
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if (addr > partition_limit) {
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addr = WL1251_PART_DOWN_MEM_START +
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chunk_num * CHUNK_SIZE;
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partition_limit = chunk_num * CHUNK_SIZE +
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WL1251_PART_DOWN_MEM_SIZE;
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wl1251_set_partition(wl,
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addr,
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WL1251_PART_DOWN_MEM_SIZE,
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WL1251_PART_DOWN_REG_START,
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WL1251_PART_DOWN_REG_SIZE);
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}
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/* 10.3 upload the chunk */
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addr = WL1251_PART_DOWN_MEM_START + chunk_num * CHUNK_SIZE;
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p = wl->fw + FW_HDR_SIZE + chunk_num * CHUNK_SIZE;
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wl1251_debug(DEBUG_BOOT, "uploading fw chunk 0x%p to 0x%x",
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p, addr);
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wl1251_mem_write(wl, addr, p, CHUNK_SIZE);
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chunk_num++;
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}
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/* 10.4 upload the last chunk */
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addr = WL1251_PART_DOWN_MEM_START + chunk_num * CHUNK_SIZE;
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p = wl->fw + FW_HDR_SIZE + chunk_num * CHUNK_SIZE;
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wl1251_debug(DEBUG_BOOT, "uploading fw last chunk (%zu B) 0x%p to 0x%x",
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fw_data_len % CHUNK_SIZE, p, addr);
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wl1251_mem_write(wl, addr, p, fw_data_len % CHUNK_SIZE);
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return 0;
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}
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static int wl1251_boot_upload_nvs(struct wl1251 *wl)
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{
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size_t nvs_len, nvs_bytes_written, burst_len;
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int nvs_start, i;
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u32 dest_addr, val;
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u8 *nvs_ptr, *nvs;
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nvs = wl->nvs;
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if (nvs == NULL)
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return -ENODEV;
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nvs_ptr = nvs;
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nvs_len = wl->nvs_len;
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nvs_start = wl->fw_len;
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/*
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* Layout before the actual NVS tables:
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* 1 byte : burst length.
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* 2 bytes: destination address.
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* n bytes: data to burst copy.
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*
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* This is ended by a 0 length, then the NVS tables.
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*/
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while (nvs_ptr[0]) {
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burst_len = nvs_ptr[0];
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dest_addr = (nvs_ptr[1] & 0xfe) | ((u32)(nvs_ptr[2] << 8));
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/* We move our pointer to the data */
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nvs_ptr += 3;
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for (i = 0; i < burst_len; i++) {
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val = (nvs_ptr[0] | (nvs_ptr[1] << 8)
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| (nvs_ptr[2] << 16) | (nvs_ptr[3] << 24));
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wl1251_debug(DEBUG_BOOT,
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"nvs burst write 0x%x: 0x%x",
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dest_addr, val);
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wl1251_mem_write32(wl, dest_addr, val);
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nvs_ptr += 4;
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dest_addr += 4;
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}
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}
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/*
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* We've reached the first zero length, the first NVS table
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* is 7 bytes further.
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*/
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nvs_ptr += 7;
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nvs_len -= nvs_ptr - nvs;
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nvs_len = ALIGN(nvs_len, 4);
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/* Now we must set the partition correctly */
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wl1251_set_partition(wl, nvs_start,
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WL1251_PART_DOWN_MEM_SIZE,
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WL1251_PART_DOWN_REG_START,
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WL1251_PART_DOWN_REG_SIZE);
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/* And finally we upload the NVS tables */
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nvs_bytes_written = 0;
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while (nvs_bytes_written < nvs_len) {
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val = (nvs_ptr[0] | (nvs_ptr[1] << 8)
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| (nvs_ptr[2] << 16) | (nvs_ptr[3] << 24));
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val = cpu_to_le32(val);
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wl1251_debug(DEBUG_BOOT,
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"nvs write table 0x%x: 0x%x",
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nvs_start, val);
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wl1251_mem_write32(wl, nvs_start, val);
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nvs_ptr += 4;
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nvs_bytes_written += 4;
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nvs_start += 4;
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}
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return 0;
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}
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int wl1251_boot(struct wl1251 *wl)
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{
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int ret = 0, minor_minor_e2_ver;
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u32 tmp, boot_data;
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/* halt embedded ARM CPU while loading firmware */
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wl1251_reg_write32(wl, ACX_REG_ECPU_CONTROL, ECPU_CONTROL_HALT);
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ret = wl1251_boot_soft_reset(wl);
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if (ret < 0)
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goto out;
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/* 2. start processing NVS file */
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ret = wl1251_boot_upload_nvs(wl);
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if (ret < 0)
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goto out;
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/* write firmware's last address (ie. it's length) to
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* ACX_EEPROMLESS_IND_REG */
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wl1251_reg_write32(wl, ACX_EEPROMLESS_IND_REG, wl->fw_len);
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/* 6. read the EEPROM parameters */
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tmp = wl1251_reg_read32(wl, SCR_PAD2);
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/* 7. read bootdata */
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wl->boot_attr.radio_type = (tmp & 0x0000FF00) >> 8;
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wl->boot_attr.major = (tmp & 0x00FF0000) >> 16;
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tmp = wl1251_reg_read32(wl, SCR_PAD3);
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/* 8. check bootdata and call restart sequence */
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wl->boot_attr.minor = (tmp & 0x00FF0000) >> 16;
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minor_minor_e2_ver = (tmp & 0xFF000000) >> 24;
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wl1251_debug(DEBUG_BOOT, "radioType 0x%x majorE2Ver 0x%x "
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"minorE2Ver 0x%x minor_minor_e2_ver 0x%x",
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wl->boot_attr.radio_type, wl->boot_attr.major,
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wl->boot_attr.minor, minor_minor_e2_ver);
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ret = wl1251_boot_init_seq(wl);
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if (ret < 0)
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goto out;
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/* 9. NVS processing done */
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boot_data = wl1251_reg_read32(wl, ACX_REG_ECPU_CONTROL);
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wl1251_debug(DEBUG_BOOT, "halt boot_data 0x%x", boot_data);
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/* 10. check that ECPU_CONTROL_HALT bits are set in
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* pWhalBus->uBootData and start uploading firmware
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*/
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if ((boot_data & ECPU_CONTROL_HALT) == 0) {
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wl1251_error("boot failed, ECPU_CONTROL_HALT not set");
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ret = -EIO;
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goto out;
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}
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ret = wl1251_boot_upload_firmware(wl);
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if (ret < 0)
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goto out;
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/* 10.5 start firmware */
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ret = wl1251_boot_run_firmware(wl);
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if (ret < 0)
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goto out;
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out:
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return ret;
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}
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