/* * FM Driver for Connectivity chip of Texas Instruments. * This sub-module of FM driver implements FM RX functionality. * * Copyright (C) 2011 Texas Instruments * Author: Raja Mani * Author: Manjunatha Halli * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ #include "fmdrv.h" #include "fmdrv_common.h" #include "fmdrv_rx.h" void fm_rx_reset_rds_cache(struct fmdev *fmdev) { fmdev->rx.rds.flag = FM_RDS_DISABLE; fmdev->rx.rds.last_blk_idx = 0; fmdev->rx.rds.wr_idx = 0; fmdev->rx.rds.rd_idx = 0; if (fmdev->rx.af_mode == FM_RX_RDS_AF_SWITCH_MODE_ON) fmdev->irq_info.mask |= FM_LEV_EVENT; } void fm_rx_reset_station_info(struct fmdev *fmdev) { fmdev->rx.stat_info.picode = FM_NO_PI_CODE; fmdev->rx.stat_info.afcache_size = 0; fmdev->rx.stat_info.af_list_max = 0; } int fm_rx_set_freq(struct fmdev *fmdev, u32 freq) { unsigned long timeleft; u16 payload, curr_frq, intr_flag; u32 curr_frq_in_khz; u32 resp_len; int ret; if (freq < fmdev->rx.region.bot_freq || freq > fmdev->rx.region.top_freq) { fmerr("Invalid frequency %d\n", freq); return -EINVAL; } /* Set audio enable */ payload = FM_RX_AUDIO_ENABLE_I2S_AND_ANALOG; ret = fmc_send_cmd(fmdev, AUDIO_ENABLE_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Set hilo to automatic selection */ payload = FM_RX_IFFREQ_HILO_AUTOMATIC; ret = fmc_send_cmd(fmdev, HILO_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Calculate frequency index and set*/ payload = (freq - fmdev->rx.region.bot_freq) / FM_FREQ_MUL; ret = fmc_send_cmd(fmdev, FREQ_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Read flags - just to clear any pending interrupts if we had */ ret = fmc_send_cmd(fmdev, FLAG_GET, REG_RD, NULL, 2, NULL, NULL); if (ret < 0) return ret; /* Enable FR, BL interrupts */ intr_flag = fmdev->irq_info.mask; fmdev->irq_info.mask = (FM_FR_EVENT | FM_BL_EVENT); payload = fmdev->irq_info.mask; ret = fmc_send_cmd(fmdev, INT_MASK_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Start tune */ payload = FM_TUNER_PRESET_MODE; ret = fmc_send_cmd(fmdev, TUNER_MODE_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) goto exit; /* Wait for tune ended interrupt */ init_completion(&fmdev->maintask_comp); timeleft = wait_for_completion_timeout(&fmdev->maintask_comp, FM_DRV_TX_TIMEOUT); if (!timeleft) { fmerr("Timeout(%d sec),didn't get tune ended int\n", jiffies_to_msecs(FM_DRV_TX_TIMEOUT) / 1000); ret = -ETIMEDOUT; goto exit; } /* Read freq back to confirm */ ret = fmc_send_cmd(fmdev, FREQ_SET, REG_RD, NULL, 2, &curr_frq, &resp_len); if (ret < 0) goto exit; curr_frq = be16_to_cpu(curr_frq); curr_frq_in_khz = (fmdev->rx.region.bot_freq + ((u32)curr_frq * FM_FREQ_MUL)); if (curr_frq_in_khz != freq) { pr_info("Frequency is set to (%d) but " "requested freq is (%d)\n", curr_frq_in_khz, freq); } /* Update local cache */ fmdev->rx.freq = curr_frq_in_khz; exit: /* Re-enable default FM interrupts */ fmdev->irq_info.mask = intr_flag; payload = fmdev->irq_info.mask; ret = fmc_send_cmd(fmdev, INT_MASK_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Reset RDS cache and current station pointers */ fm_rx_reset_rds_cache(fmdev); fm_rx_reset_station_info(fmdev); return ret; } static int fm_rx_set_channel_spacing(struct fmdev *fmdev, u32 spacing) { u16 payload; int ret; if (spacing > 0 && spacing <= 50000) spacing = FM_CHANNEL_SPACING_50KHZ; else if (spacing > 50000 && spacing <= 100000) spacing = FM_CHANNEL_SPACING_100KHZ; else spacing = FM_CHANNEL_SPACING_200KHZ; /* set channel spacing */ payload = spacing; ret = fmc_send_cmd(fmdev, CHANL_BW_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; fmdev->rx.region.chanl_space = spacing * FM_FREQ_MUL; return ret; } int fm_rx_seek(struct fmdev *fmdev, u32 seek_upward, u32 wrap_around, u32 spacing) { u32 resp_len; u16 curr_frq, next_frq, last_frq; u16 payload, int_reason, intr_flag; u16 offset, space_idx; unsigned long timeleft; int ret; /* Set channel spacing */ ret = fm_rx_set_channel_spacing(fmdev, spacing); if (ret < 0) { fmerr("Failed to set channel spacing\n"); return ret; } /* Read the current frequency from chip */ ret = fmc_send_cmd(fmdev, FREQ_SET, REG_RD, NULL, sizeof(curr_frq), &curr_frq, &resp_len); if (ret < 0) return ret; curr_frq = be16_to_cpu(curr_frq); last_frq = (fmdev->rx.region.top_freq - fmdev->rx.region.bot_freq) / FM_FREQ_MUL; /* Check the offset in order to be aligned to the channel spacing*/ space_idx = fmdev->rx.region.chanl_space / FM_FREQ_MUL; offset = curr_frq % space_idx; next_frq = seek_upward ? curr_frq + space_idx /* Seek Up */ : curr_frq - space_idx /* Seek Down */ ; /* * Add or subtract offset in order to stay aligned to the channel * spacing. */ if ((short)next_frq < 0) next_frq = last_frq - offset; else if (next_frq > last_frq) next_frq = 0 + offset; again: /* Set calculated next frequency to perform seek */ payload = next_frq; ret = fmc_send_cmd(fmdev, FREQ_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Set search direction (0:Seek Down, 1:Seek Up) */ payload = (seek_upward ? FM_SEARCH_DIRECTION_UP : FM_SEARCH_DIRECTION_DOWN); ret = fmc_send_cmd(fmdev, SEARCH_DIR_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Read flags - just to clear any pending interrupts if we had */ ret = fmc_send_cmd(fmdev, FLAG_GET, REG_RD, NULL, 2, NULL, NULL); if (ret < 0) return ret; /* Enable FR, BL interrupts */ intr_flag = fmdev->irq_info.mask; fmdev->irq_info.mask = (FM_FR_EVENT | FM_BL_EVENT); payload = fmdev->irq_info.mask; ret = fmc_send_cmd(fmdev, INT_MASK_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Start seek */ payload = FM_TUNER_AUTONOMOUS_SEARCH_MODE; ret = fmc_send_cmd(fmdev, TUNER_MODE_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Wait for tune ended/band limit reached interrupt */ init_completion(&fmdev->maintask_comp); timeleft = wait_for_completion_timeout(&fmdev->maintask_comp, FM_DRV_RX_SEEK_TIMEOUT); if (!timeleft) { fmerr("Timeout(%d sec),didn't get tune ended int\n", jiffies_to_msecs(FM_DRV_RX_SEEK_TIMEOUT) / 1000); return -ETIMEDOUT; } int_reason = fmdev->irq_info.flag & (FM_TUNE_COMPLETE | FM_BAND_LIMIT); /* Re-enable default FM interrupts */ fmdev->irq_info.mask = intr_flag; payload = fmdev->irq_info.mask; ret = fmc_send_cmd(fmdev, INT_MASK_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; if (int_reason & FM_BL_EVENT) { if (wrap_around == 0) { fmdev->rx.freq = seek_upward ? fmdev->rx.region.top_freq : fmdev->rx.region.bot_freq; } else { fmdev->rx.freq = seek_upward ? fmdev->rx.region.bot_freq : fmdev->rx.region.top_freq; /* Calculate frequency index to write */ next_frq = (fmdev->rx.freq - fmdev->rx.region.bot_freq) / FM_FREQ_MUL; goto again; } } else { /* Read freq to know where operation tune operation stopped */ ret = fmc_send_cmd(fmdev, FREQ_SET, REG_RD, NULL, 2, &curr_frq, &resp_len); if (ret < 0) return ret; curr_frq = be16_to_cpu(curr_frq); fmdev->rx.freq = (fmdev->rx.region.bot_freq + ((u32)curr_frq * FM_FREQ_MUL)); } /* Reset RDS cache and current station pointers */ fm_rx_reset_rds_cache(fmdev); fm_rx_reset_station_info(fmdev); return ret; } int fm_rx_set_volume(struct fmdev *fmdev, u16 vol_to_set) { u16 payload; int ret; if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (vol_to_set < FM_RX_VOLUME_MIN || vol_to_set > FM_RX_VOLUME_MAX) { fmerr("Volume is not within(%d-%d) range\n", FM_RX_VOLUME_MIN, FM_RX_VOLUME_MAX); return -EINVAL; } vol_to_set *= FM_RX_VOLUME_GAIN_STEP; payload = vol_to_set; ret = fmc_send_cmd(fmdev, VOLUME_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; fmdev->rx.volume = vol_to_set; return ret; } /* Get volume */ int fm_rx_get_volume(struct fmdev *fmdev, u16 *curr_vol) { if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (curr_vol == NULL) { fmerr("Invalid memory\n"); return -ENOMEM; } *curr_vol = fmdev->rx.volume / FM_RX_VOLUME_GAIN_STEP; return 0; } /* To get current band's bottom and top frequency */ int fm_rx_get_band_freq_range(struct fmdev *fmdev, u32 *bot_freq, u32 *top_freq) { if (bot_freq != NULL) *bot_freq = fmdev->rx.region.bot_freq; if (top_freq != NULL) *top_freq = fmdev->rx.region.top_freq; return 0; } /* Returns current band index (0-Europe/US; 1-Japan) */ void fm_rx_get_region(struct fmdev *fmdev, u8 *region) { *region = fmdev->rx.region.fm_band; } /* Sets band (0-Europe/US; 1-Japan) */ int fm_rx_set_region(struct fmdev *fmdev, u8 region_to_set) { u16 payload; u32 new_frq = 0; int ret; if (region_to_set != FM_BAND_EUROPE_US && region_to_set != FM_BAND_JAPAN) { fmerr("Invalid band\n"); return -EINVAL; } if (fmdev->rx.region.fm_band == region_to_set) { fmerr("Requested band is already configured\n"); return 0; } /* Send cmd to set the band */ payload = (u16)region_to_set; ret = fmc_send_cmd(fmdev, BAND_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; fmc_update_region_info(fmdev, region_to_set); /* Check whether current RX frequency is within band boundary */ if (fmdev->rx.freq < fmdev->rx.region.bot_freq) new_frq = fmdev->rx.region.bot_freq; else if (fmdev->rx.freq > fmdev->rx.region.top_freq) new_frq = fmdev->rx.region.top_freq; if (new_frq) { fmdbg("Current freq is not within band limit boundary," "switching to %d KHz\n", new_frq); /* Current RX frequency is not in range. So, update it */ ret = fm_rx_set_freq(fmdev, new_frq); } return ret; } /* Reads current mute mode (Mute Off/On/Attenuate)*/ int fm_rx_get_mute_mode(struct fmdev *fmdev, u8 *curr_mute_mode) { if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (curr_mute_mode == NULL) { fmerr("Invalid memory\n"); return -ENOMEM; } *curr_mute_mode = fmdev->rx.mute_mode; return 0; } static int fm_config_rx_mute_reg(struct fmdev *fmdev) { u16 payload, muteval; int ret; muteval = 0; switch (fmdev->rx.mute_mode) { case FM_MUTE_ON: muteval = FM_RX_AC_MUTE_MODE; break; case FM_MUTE_OFF: muteval = FM_RX_UNMUTE_MODE; break; case FM_MUTE_ATTENUATE: muteval = FM_RX_SOFT_MUTE_FORCE_MODE; break; } if (fmdev->rx.rf_depend_mute == FM_RX_RF_DEPENDENT_MUTE_ON) muteval |= FM_RX_RF_DEP_MODE; else muteval &= ~FM_RX_RF_DEP_MODE; payload = muteval; ret = fmc_send_cmd(fmdev, MUTE_STATUS_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; return 0; } /* Configures mute mode (Mute Off/On/Attenuate) */ int fm_rx_set_mute_mode(struct fmdev *fmdev, u8 mute_mode_toset) { u8 org_state; int ret; if (fmdev->rx.mute_mode == mute_mode_toset) return 0; org_state = fmdev->rx.mute_mode; fmdev->rx.mute_mode = mute_mode_toset; ret = fm_config_rx_mute_reg(fmdev); if (ret < 0) { fmdev->rx.mute_mode = org_state; return ret; } return 0; } /* Gets RF dependent soft mute mode enable/disable status */ int fm_rx_get_rfdepend_softmute(struct fmdev *fmdev, u8 *curr_mute_mode) { if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (curr_mute_mode == NULL) { fmerr("Invalid memory\n"); return -ENOMEM; } *curr_mute_mode = fmdev->rx.rf_depend_mute; return 0; } /* Sets RF dependent soft mute mode */ int fm_rx_set_rfdepend_softmute(struct fmdev *fmdev, u8 rfdepend_mute) { u8 org_state; int ret; if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (rfdepend_mute != FM_RX_RF_DEPENDENT_MUTE_ON && rfdepend_mute != FM_RX_RF_DEPENDENT_MUTE_OFF) { fmerr("Invalid RF dependent soft mute\n"); return -EINVAL; } if (fmdev->rx.rf_depend_mute == rfdepend_mute) return 0; org_state = fmdev->rx.rf_depend_mute; fmdev->rx.rf_depend_mute = rfdepend_mute; ret = fm_config_rx_mute_reg(fmdev); if (ret < 0) { fmdev->rx.rf_depend_mute = org_state; return ret; } return 0; } /* Returns the signal strength level of current channel */ int fm_rx_get_rssi_level(struct fmdev *fmdev, u16 *rssilvl) { u16 curr_rssi_lel; u32 resp_len; int ret; if (rssilvl == NULL) { fmerr("Invalid memory\n"); return -ENOMEM; } /* Read current RSSI level */ ret = fmc_send_cmd(fmdev, RSSI_LVL_GET, REG_RD, NULL, 2, &curr_rssi_lel, &resp_len); if (ret < 0) return ret; *rssilvl = be16_to_cpu(curr_rssi_lel); return 0; } /* * Sets the signal strength level that once reached * will stop the auto search process */ int fm_rx_set_rssi_threshold(struct fmdev *fmdev, short rssi_lvl_toset) { u16 payload; int ret; if (rssi_lvl_toset < FM_RX_RSSI_THRESHOLD_MIN || rssi_lvl_toset > FM_RX_RSSI_THRESHOLD_MAX) { fmerr("Invalid RSSI threshold level\n"); return -EINVAL; } payload = (u16)rssi_lvl_toset; ret = fmc_send_cmd(fmdev, SEARCH_LVL_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; fmdev->rx.rssi_threshold = rssi_lvl_toset; return 0; } /* Returns current RX RSSI threshold value */ int fm_rx_get_rssi_threshold(struct fmdev *fmdev, short *curr_rssi_lvl) { if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (curr_rssi_lvl == NULL) { fmerr("Invalid memory\n"); return -ENOMEM; } *curr_rssi_lvl = fmdev->rx.rssi_threshold; return 0; } /* Sets RX stereo/mono modes */ int fm_rx_set_stereo_mono(struct fmdev *fmdev, u16 mode) { u16 payload; int ret; if (mode != FM_STEREO_MODE && mode != FM_MONO_MODE) { fmerr("Invalid mode\n"); return -EINVAL; } /* Set stereo/mono mode */ payload = (u16)mode; ret = fmc_send_cmd(fmdev, MOST_MODE_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Set stereo blending mode */ payload = FM_STEREO_SOFT_BLEND; ret = fmc_send_cmd(fmdev, MOST_BLEND_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; return 0; } /* Gets current RX stereo/mono mode */ int fm_rx_get_stereo_mono(struct fmdev *fmdev, u16 *mode) { u16 curr_mode; u32 resp_len; int ret; if (mode == NULL) { fmerr("Invalid memory\n"); return -ENOMEM; } ret = fmc_send_cmd(fmdev, MOST_MODE_SET, REG_RD, NULL, 2, &curr_mode, &resp_len); if (ret < 0) return ret; *mode = be16_to_cpu(curr_mode); return 0; } /* Choose RX de-emphasis filter mode (50us/75us) */ int fm_rx_set_deemphasis_mode(struct fmdev *fmdev, u16 mode) { u16 payload; int ret; if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (mode != FM_RX_EMPHASIS_FILTER_50_USEC && mode != FM_RX_EMPHASIS_FILTER_75_USEC) { fmerr("Invalid rx de-emphasis mode (%d)\n", mode); return -EINVAL; } payload = mode; ret = fmc_send_cmd(fmdev, DEMPH_MODE_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; fmdev->rx.deemphasis_mode = mode; return 0; } /* Gets current RX de-emphasis filter mode */ int fm_rx_get_deemph_mode(struct fmdev *fmdev, u16 *curr_deemphasis_mode) { if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (curr_deemphasis_mode == NULL) { fmerr("Invalid memory\n"); return -ENOMEM; } *curr_deemphasis_mode = fmdev->rx.deemphasis_mode; return 0; } /* Enable/Disable RX RDS */ int fm_rx_set_rds_mode(struct fmdev *fmdev, u8 rds_en_dis) { u16 payload; int ret; if (rds_en_dis != FM_RDS_ENABLE && rds_en_dis != FM_RDS_DISABLE) { fmerr("Invalid rds option\n"); return -EINVAL; } if (rds_en_dis == FM_RDS_ENABLE && fmdev->rx.rds.flag == FM_RDS_DISABLE) { /* Turn on RX RDS and RDS circuit */ payload = FM_RX_PWR_SET_FM_AND_RDS_BLK_ON; ret = fmc_send_cmd(fmdev, POWER_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Clear and reset RDS FIFO */ payload = FM_RX_RDS_FLUSH_FIFO; ret = fmc_send_cmd(fmdev, RDS_CNTRL_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Read flags - just to clear any pending interrupts. */ ret = fmc_send_cmd(fmdev, FLAG_GET, REG_RD, NULL, 2, NULL, NULL); if (ret < 0) return ret; /* Set RDS FIFO threshold value */ payload = FM_RX_RDS_FIFO_THRESHOLD; ret = fmc_send_cmd(fmdev, RDS_MEM_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Enable RDS interrupt */ fmdev->irq_info.mask |= FM_RDS_EVENT; payload = fmdev->irq_info.mask; ret = fmc_send_cmd(fmdev, INT_MASK_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) { fmdev->irq_info.mask &= ~FM_RDS_EVENT; return ret; } /* Update our local flag */ fmdev->rx.rds.flag = FM_RDS_ENABLE; } else if (rds_en_dis == FM_RDS_DISABLE && fmdev->rx.rds.flag == FM_RDS_ENABLE) { /* Turn off RX RDS */ payload = FM_RX_PWR_SET_FM_ON_RDS_OFF; ret = fmc_send_cmd(fmdev, POWER_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; /* Reset RDS pointers */ fmdev->rx.rds.last_blk_idx = 0; fmdev->rx.rds.wr_idx = 0; fmdev->rx.rds.rd_idx = 0; fm_rx_reset_station_info(fmdev); /* Update RDS local cache */ fmdev->irq_info.mask &= ~(FM_RDS_EVENT); fmdev->rx.rds.flag = FM_RDS_DISABLE; } return 0; } /* Returns current RX RDS enable/disable status */ int fm_rx_get_rds_mode(struct fmdev *fmdev, u8 *curr_rds_en_dis) { if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (curr_rds_en_dis == NULL) { fmerr("Invalid memory\n"); return -ENOMEM; } *curr_rds_en_dis = fmdev->rx.rds.flag; return 0; } /* Sets RDS operation mode (RDS/RDBS) */ int fm_rx_set_rds_system(struct fmdev *fmdev, u8 rds_mode) { u16 payload; int ret; if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (rds_mode != FM_RDS_SYSTEM_RDS && rds_mode != FM_RDS_SYSTEM_RBDS) { fmerr("Invalid rds mode\n"); return -EINVAL; } /* Set RDS operation mode */ payload = (u16)rds_mode; ret = fmc_send_cmd(fmdev, RDS_SYSTEM_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; fmdev->rx.rds_mode = rds_mode; return 0; } /* Returns current RDS operation mode */ int fm_rx_get_rds_system(struct fmdev *fmdev, u8 *rds_mode) { if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (rds_mode == NULL) { fmerr("Invalid memory\n"); return -ENOMEM; } *rds_mode = fmdev->rx.rds_mode; return 0; } /* Configures Alternate Frequency switch mode */ int fm_rx_set_af_switch(struct fmdev *fmdev, u8 af_mode) { u16 payload; int ret; if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (af_mode != FM_RX_RDS_AF_SWITCH_MODE_ON && af_mode != FM_RX_RDS_AF_SWITCH_MODE_OFF) { fmerr("Invalid af mode\n"); return -EINVAL; } /* Enable/disable low RSSI interrupt based on af_mode */ if (af_mode == FM_RX_RDS_AF_SWITCH_MODE_ON) fmdev->irq_info.mask |= FM_LEV_EVENT; else fmdev->irq_info.mask &= ~FM_LEV_EVENT; payload = fmdev->irq_info.mask; ret = fmc_send_cmd(fmdev, INT_MASK_SET, REG_WR, &payload, sizeof(payload), NULL, NULL); if (ret < 0) return ret; fmdev->rx.af_mode = af_mode; return 0; } /* Returns Alternate Frequency switch status */ int fm_rx_get_af_switch(struct fmdev *fmdev, u8 *af_mode) { if (fmdev->curr_fmmode != FM_MODE_RX) return -EPERM; if (af_mode == NULL) { fmerr("Invalid memory\n"); return -ENOMEM; } *af_mode = fmdev->rx.af_mode; return 0; }