static int is_adc_finished(void) { int finished = 0; if (!(delta_busy() || sample_busy() || avg_busy())) finished = 1; else if (++adc_sample_time >= CONFIG_SARADC_SAMPLE_TIME_MAX) finished = 2; adc_sample_time |= finished << 30; return finished; }
int get_adc_sample(int chan) { int count; int value = -1; int sum; set_chan_list(chan, 1); set_avg_mode(chan, NO_AVG_MODE, SAMPLE_NUM_8); set_sample_mux(chan, g_chan_mux[chan]); set_detect_mux(g_chan_mux[chan]); set_idle_mux(g_chan_mux[chan]); // for revb enable_sample_engine(); start_sample(); // Read any CBUS register to delay one clock // cycle after starting the sampling engine // The bus is really fast and we may miss that it started { count = READ_CBUS_REG(ISA_TIMERE); } count = 0; while (delta_busy() || sample_busy() || avg_busy()){ if (++count > 10000){ printf("ADC busy error.\n"); goto adc_sample_end; } } stop_sample(); sum = 0; count = 0; value = get_fifo_sample(); while (get_fifo_cnt()){ value = get_fifo_sample() & 0x3ff; if ((value != 0x1fe) && (value != 0x1ff)){ sum += value & 0x3ff; count++; } } value = (count) ? (sum / count) : (-1); adc_sample_end: #if AML_ADC_SAMPLE_DEBUG printf("ch%d = %d, count=%d\n", chan, value, count); #endif //AML_ADC_SAMPLE_DEBUG disable_sample_engine(); set_sc_phase(); return value; }
int get_adc_sample(int chan) { int count; int value; int sum; if (!gp_saradc) return -1; spin_lock(&gp_saradc->lock); set_chan_list(chan, 1); set_avg_mode(chan, NO_AVG_MODE, SAMPLE_NUM_8); set_sample_mux(chan, chan_mux[chan]); set_detect_mux(chan_mux[chan]); set_idle_mux(chan_mux[chan]); // for revb enable_sample_engine(); start_sample(); // Read any CBUS register to delay one clock cycle after starting the sampling engine // The bus is really fast and we may miss that it started { count = get_reg(ISA_TIMERE); } count = 0; while (delta_busy() || sample_busy() || avg_busy()) { if (++count > 10000) { printk(KERN_ERR "ADC busy error.\n"); goto end; } } stop_sample(); sum = 0; count = 0; value = get_fifo_sample(); while (get_fifo_cnt()) { value = get_fifo_sample() & 0x3ff; if ((value != 0x1fe) && (value != 0x1ff)) { sum += value & 0x3ff; count++; } } value = (count) ? (sum / count) : (-1); end: //printk("ch%d = %d, count=%d\n", chan, value, count); disable_sample_engine(); spin_unlock(&gp_saradc->lock); return value; }