/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Tuner "middleware" for RDA5802 chip present in some Sansa Clip+ players * * Copyright (C) 2010 Bertrik Sikken * Copyright (C) 2008 Nils Wallménius (si4700 code that this was based on) * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "config.h" #include #include #include #include "kernel.h" #include "tuner.h" /* tuner abstraction interface */ #include "fmradio.h" #include "fmradio_i2c.h" /* physical interface driver */ #define SEEK_THRESHOLD 0x16 #define I2C_ADR 0x20 /** Registers and bits **/ #define POWERCFG 0x2 #define CHANNEL 0x3 #define SYSCONFIG1 0x4 #define SYSCONFIG2 0x5 #define SYSCONFIG3 0x6 #define READCHAN 0xA #define STATUSRSSI 0xB #define IDENT 0xC /* POWERCFG (0x2) */ #define POWERCFG_DMUTE (0x1 << 14) #define POWERCFG_MONO (0x1 << 13) #define POWERCFG_SOFT_RESET (0x1 << 1) #define POWERCFG_ENABLE (0x1 << 0) /* CHANNEL (0x3) */ #define CHANNEL_CHAN (0x3ff << 6) #define CHANNEL_CHANw(x) (((x) << 6) & CHANNEL_CHAN) #define CHANNEL_TUNE (0x1 << 4) #define CHANNEL_BAND (0x3 << 2) #define CHANNEL_BANDw(x) (((x) << 2) & CHANNEL_BAND) #define CHANNEL_BANDr(x) (((x) & CHANNEL_BAND) >> 2) #define CHANNEL_BAND_875_1080 (0x0 << 2) /* tenth-megahertz */ #define CHANNEL_BAND_760_1080 (0x1 << 2) #define CHANNEL_BAND_760_900 (0x2 << 2) #define CHANNEL_BAND_650_760 (0x3 << 2) #define CHANNEL_SPACE (0x3 << 0) #define CHANNEL_SPACEw(x) (((x) << 0) & CHANNEL_SPACE) #define CHANNEL_SPACEr(x) (((x) & CHANNEL_SPACE) >> 0) #define CHANNEL_SPACE_100KHZ (0x0 << 0) #define CHANNEL_SPACE_200KHZ (0x1 << 0) #define CHANNEL_SPACE_50KHZ (0x2 << 0) /* SYSCONFIG1 (0x4) */ #define SYSCONFIG1_DE (0x1 << 11) #define SYSCONFIG1_SMUTE (0x1 << 9) /* SYSCONFIG2 (0x5) */ #define SYSCONFIG2_VOLUME (0xF << 0) /* READCHAN (0xA) */ #define READCHAN_READCHAN (0x3ff << 0) #define READCHAN_READCHANr(x) (((x) & READCHAN_READCHAN) >> 0) #define READCHAN_STC (0x1 << 14) #define READCHAN_ST (0x1 << 10) /* STATUSRSSI (0xB) */ #define STATUSRSSI_RSSI (0x7F << 9) #define STATUSRSSI_RSSIr(x) (((x) & STATUSRSSI_RSSI) >> 9) #define STATUSRSSI_FM_TRUE (0x1 << 8) static const uint16_t initvals[16] = { 0x0000, 0x0000, 0xC401, 0x1B90, 0x0400, 0x866F, 0x8000, 0x4712, 0x5EC6, 0x0000, 0x406E, 0x2D80, 0x5803, 0x5804, 0x5804, 0x5804 }; static bool tuner_present = false; static int curr_frequency = 87500000; /* Current station frequency (HZ) */ static uint16_t cache[16]; /* reads registers from radio at offset 0x0A into cache */ static void rda5802_read(int len) { int i; unsigned char buf[128]; unsigned char *ptr = buf; uint16_t data; fmradio_i2c_read(I2C_ADR, buf, len * 2); for (i = 0; i < len; i++) { data = ptr[0] << 8 | ptr[1]; cache[READCHAN + i] = data; ptr += 2; } } /* writes registers from cache to radio at offset 0x02 */ static void rda5802_write(int len) { int i; unsigned char buf[64]; unsigned char *ptr = buf; uint16_t data; for (i = 0; i < len; i++) { data = cache[POWERCFG + i]; *ptr++ = (data >> 8) & 0xFF; *ptr++ = data & 0xFF; } fmradio_i2c_write(I2C_ADR, buf, len * 2); } static uint16_t rda5802_read_reg(int reg) { rda5802_read((reg - READCHAN) + 1); return cache[reg]; } static void rda5802_write_reg(int reg, uint16_t value) { cache[reg] = value; } static void rda5802_write_cache(void) { rda5802_write(5); } static void rda5802_write_masked(int reg, uint16_t bits, uint16_t mask) { rda5802_write_reg(reg, (cache[reg] & ~mask) | (bits & mask)); } static void rda5802_write_clear(int reg, uint16_t mask) { rda5802_write_reg(reg, cache[reg] & ~mask); } static void rda5802_write_set(int reg, uint16_t mask) { rda5802_write_reg(reg, cache[reg] | mask); } static void rda5802_sleep(int snooze) { if (snooze) { rda5802_write_clear(POWERCFG, POWERCFG_ENABLE); } else { rda5802_write_set(POWERCFG, POWERCFG_ENABLE); } rda5802_write_cache(); } bool rda5802_detect(void) { return ((rda5802_read_reg(IDENT) & 0xFF00) == 0x5800); } void rda5802_init(void) { if (rda5802_detect()) { tuner_present = true; // soft-reset rda5802_write_reg(POWERCFG, POWERCFG_SOFT_RESET); rda5802_write(1); sleep(HZ * 10 / 1000); // write initialisation values memcpy(cache, initvals, sizeof(cache)); rda5802_write(16); sleep(HZ * 70 / 1000); } } static void rda5802_set_frequency(int freq) { int i; uint16_t readchan; /* check BAND and spacings */ int start = CHANNEL_BANDr(cache[CHANNEL]) & 1 ? 76000000 : 87000000; int chan = (freq - start) / 50000; curr_frequency = freq; for (i = 0; i < 5; i++) { /* tune and wait a bit */ rda5802_write_masked(CHANNEL, CHANNEL_CHANw(chan) | CHANNEL_TUNE, CHANNEL_CHAN | CHANNEL_TUNE); rda5802_write_cache(); sleep(HZ * 70 / 1000); rda5802_write_clear(CHANNEL, CHANNEL_TUNE); rda5802_write_cache(); /* check if tuning was successful */ readchan = rda5802_read_reg(READCHAN); if (readchan & READCHAN_STC) { if (READCHAN_READCHANr(readchan) == chan) { break; } } } } static int rda5802_tuned(void) { /* Primitive tuning check: sufficient level and AFC not railed */ uint16_t status = rda5802_read_reg(STATUSRSSI); if (STATUSRSSI_RSSIr(status) >= SEEK_THRESHOLD && (status & STATUSRSSI_FM_TRUE)) { return 1; } return 0; } static void rda5802_set_region(int region) { const struct rda5802_region_data *rd = &rda5802_region_data[region]; uint16_t bandspacing = CHANNEL_BANDw(rd->band) | CHANNEL_SPACEw(CHANNEL_SPACE_50KHZ); uint16_t oldbs = cache[CHANNEL] & (CHANNEL_BAND | CHANNEL_SPACE); rda5802_write_masked(SYSCONFIG1, rd->deemphasis ? SYSCONFIG1_DE : 0, SYSCONFIG1_DE); rda5802_write_masked(CHANNEL, bandspacing, CHANNEL_BAND | CHANNEL_SPACE); rda5802_write_cache(); /* Retune if this region change would change the channel number. */ if (oldbs != bandspacing) { rda5802_set_frequency(curr_frequency); } } static bool rda5802_st(void) { return (rda5802_read_reg(READCHAN) & READCHAN_ST); } /* tuner abstraction layer: set something to the tuner */ int rda5802_set(int setting, int value) { switch (setting) { case RADIO_SLEEP: if (value != 2) { rda5802_sleep(value); } break; case RADIO_FREQUENCY: rda5802_set_frequency(value); break; case RADIO_SCAN_FREQUENCY: rda5802_set_frequency(value); return rda5802_tuned(); case RADIO_MUTE: rda5802_write_masked(POWERCFG, value ? 0 : POWERCFG_DMUTE, POWERCFG_DMUTE); rda5802_write_masked(SYSCONFIG1, (3 << 9), (3 << 9)); rda5802_write_set(SYSCONFIG2, SYSCONFIG2_VOLUME); rda5802_write_cache(); break; case RADIO_REGION: rda5802_set_region(value); break; case RADIO_FORCE_MONO: rda5802_write_masked(POWERCFG, value ? POWERCFG_MONO : 0, POWERCFG_MONO); rda5802_write_cache(); break; default: return -1; } return 1; } /* tuner abstraction layer: read something from the tuner */ int rda5802_get(int setting) { int val = -1; /* default for unsupported query */ switch (setting) { case RADIO_PRESENT: val = tuner_present ? 1 : 0; break; case RADIO_TUNED: val = rda5802_tuned(); break; case RADIO_STEREO: val = rda5802_st(); break; } return val; } void rda5802_dbg_info(struct rda5802_dbg_info *nfo) { rda5802_read(6); memcpy(nfo->regs, cache, sizeof (nfo->regs)); }