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authorDana Conrad <dconrad@fastmail.com>2021-08-01 21:58:33 -0500
committerAidan MacDonald <amachronic@protonmail.com>2021-08-07 14:21:47 +0000
commit56b0dde5451ddedfd85c82391536e310cd05e1a8 (patch)
tree19d988f8cad0976abd086ee306ecbc840a1d477d /firmware
parent16b009825608164b17dabd877c78123a667b4981 (diff)
Higher bitdepth software volume scaling
Operates between 0 and -74 dB (mute) without issue Change-Id: I497e002bd8db43833a09ebbc29212fbb6cc8ebfd
Diffstat (limited to 'firmware')
-rw-r--r--firmware/drivers/audio/eros_qn_codec.c12
-rw-r--r--firmware/export/config/erosqnative.h3
-rw-r--r--firmware/export/eros_qn_codec.h2
-rw-r--r--firmware/pcm_sw_volume.c126
-rw-r--r--firmware/target/mips/ingenic_x1000/pcm-x1000.c7
5 files changed, 118 insertions, 32 deletions
diff --git a/firmware/drivers/audio/eros_qn_codec.c b/firmware/drivers/audio/eros_qn_codec.c
index fdf21d2f9d..17b0acf13e 100644
--- a/firmware/drivers/audio/eros_qn_codec.c
+++ b/firmware/drivers/audio/eros_qn_codec.c
@@ -70,10 +70,14 @@ void audiohw_set_volume(int vol_l, int vol_r)
}
#endif
- l = l <= PCM5102A_VOLUME_MIN ? PCM_MUTE_LEVEL : l;
- r = r <= PCM5102A_VOLUME_MIN ? PCM_MUTE_LEVEL : r;
-
- pcm_set_master_volume(l, r);
+ if (l <= PCM5102A_VOLUME_MIN || r <= PCM5102A_VOLUME_MIN)
+ {
+ pcm_set_master_volume(PCM_MUTE_LEVEL, PCM_MUTE_LEVEL);
+ }
+ else
+ {
+ pcm_set_master_volume(l/20, r/20);
+ }
}
void audiohw_mute_hp(int mute)
diff --git a/firmware/export/config/erosqnative.h b/firmware/export/config/erosqnative.h
index 1b37b6042a..b2b6f3f89e 100644
--- a/firmware/export/config/erosqnative.h
+++ b/firmware/export/config/erosqnative.h
@@ -64,6 +64,9 @@
#define HAVE_SW_TONE_CONTROLS
#define HAVE_SW_VOLUME_CONTROL
+/* use high-bitdepth volume scaling */
+#define PCM_NATIVE_BITDEPTH 24
+
/* Button defines */
#define CONFIG_KEYPAD EROSQ_PAD
#define HAVE_SCROLLWHEEL
diff --git a/firmware/export/eros_qn_codec.h b/firmware/export/eros_qn_codec.h
index 9c900186a8..ae04c66799 100644
--- a/firmware/export/eros_qn_codec.h
+++ b/firmware/export/eros_qn_codec.h
@@ -29,7 +29,7 @@
/* a small DC offset appears to prevent play/pause clicking */
#define PCM_DC_OFFSET_VALUE -1
-AUDIOHW_SETTING(VOLUME, "dB", 0, 1, PCM5102A_VOLUME_MIN/10, PCM5102A_VOLUME_MAX/10, 0)
+AUDIOHW_SETTING(VOLUME, "dB", 0, 2, PCM5102A_VOLUME_MIN/10, PCM5102A_VOLUME_MAX/10, 0)
/* this just calls audiohw_set_volume() with the last (locally) known volume,
* used for switching to/from fixed line out volume. */
diff --git a/firmware/pcm_sw_volume.c b/firmware/pcm_sw_volume.c
index 3593c684af..646f2a680a 100644
--- a/firmware/pcm_sw_volume.c
+++ b/firmware/pcm_sw_volume.c
@@ -26,6 +26,16 @@
#include "fixedpoint.h"
#include "pcm_sw_volume.h"
+/*
+ * NOTE: With the addition of 32-bit software scaling to this
+ * file, sometimes the "size" variable gets a little confusing.
+ *
+ * The source buffer (as of right now) is always 16-bit, and the
+ * destination buffer can potentially be 32-bit. I've tried to
+ * make it consistent: when passed in a function call, try to use
+ * the source buffer (16-bit) size.
+ */
+
/* volume factors set by pcm_set_master_volume */
static uint32_t vol_factor_l = 0, vol_factor_r = 0;
@@ -39,6 +49,30 @@ static uint32_t pcm_new_factor_l = 0, pcm_new_factor_r = 0;
static uint32_t pcm_factor_l = 0, pcm_factor_r = 0;
static typeof (memcpy) *pcm_scaling_fn = NULL;
+/* default to 16-bit volume scaling unless specified */
+#if !defined(PCM_NATIVE_BITDEPTH)
+# define PCM_NATIVE_BITDEPTH 16
+#endif
+
+/* take care of some defines for 32-bit software vol */
+#if (PCM_NATIVE_BITDEPTH > 16) /* >16-bit */
+
+# define HAVE_SWVOL_32
+# define PCM_VOL_SAMPLE_SIZE (2 * sizeof (int32_t))
+# define PCM_DBL_BUF_SIZE_T int32_t
+
+# if !defined(PCM_DC_OFFSET_VALUE)
+/* PCM_DC_OFFSET_VALUE is only needed due to hardware quirk on Eros Q */
+# define PCM_DC_OFFSET_VALUE 0
+# endif
+
+#else /* 16-BIT */
+
+# define PCM_VOL_SAMPLE_SIZE PCM_SAMPLE_SIZE
+# define PCM_DBL_BUF_SIZE_T int16_t
+
+#endif /* 16-BIT */
+
/***
** Volume scaling routines
** If unbuffered, called externally by pcm driver
@@ -54,54 +88,53 @@ static typeof (memcpy) *pcm_scaling_fn = NULL;
/* Scale sample by PCM factor */
static inline int32_t pcm_scale_sample(PCM_F_T f, int32_t s)
{
-#if defined(PCM_DC_OFFSET_VALUE)
- return (f * s + PCM_DC_OFFSET_VALUE) >> PCM_SW_VOLUME_FRACBITS;
+#if defined(HAVE_SWVOL_32)
+ return (f * s + PCM_DC_OFFSET_VALUE) >> (32 - PCM_NATIVE_BITDEPTH);
#else
return (f * s) >> PCM_SW_VOLUME_FRACBITS;
#endif
}
-/* Both UNITY, use direct copy */
-/* static void * memcpy(void *dst, const void *src, size_t size); */
-
/* Either cut (both <= UNITY), no clipping needed */
-static void * pcm_scale_buffer_cut(void *dst, const void *src, size_t size)
+static void * pcm_scale_buffer_cut(void *dst, const void *src, size_t src_size)
{
- int16_t *d = dst;
+ PCM_DBL_BUF_SIZE_T *d = dst;
const int16_t *s = src;
uint32_t factor_l = pcm_factor_l, factor_r = pcm_factor_r;
- while (size)
+ while (src_size)
{
*d++ = pcm_scale_sample(factor_l, *s++);
*d++ = pcm_scale_sample(factor_r, *s++);
- size -= PCM_SAMPLE_SIZE;
+ src_size -= PCM_SAMPLE_SIZE;
}
return dst;
}
+#if !defined(HAVE_SWVOL_32) /* NOTE: 32-bit scaling is hardcoded to the cut function! */
/* Either boost (any > UNITY) requires clipping */
-static void * pcm_scale_buffer_boost(void *dst, const void *src, size_t size)
+static void * pcm_scale_buffer_boost(void *dst, const void *src, size_t src_size)
{
int16_t *d = dst;
const int16_t *s = src;
uint32_t factor_l = pcm_factor_l, factor_r = pcm_factor_r;
- while (size)
+ while (src_size)
{
*d++ = clip_sample_16(pcm_scale_sample(factor_l, *s++));
*d++ = clip_sample_16(pcm_scale_sample(factor_r, *s++));
- size -= PCM_SAMPLE_SIZE;
+ src_size -= PCM_SAMPLE_SIZE;
}
return dst;
}
+#endif
/* Transition the volume change smoothly across a frame */
-static void * pcm_scale_buffer_trans(void *dst, const void *src, size_t size)
+static void * pcm_scale_buffer_trans(void *dst, const void *src, size_t src_size)
{
- int16_t *d = dst;
+ PCM_DBL_BUF_SIZE_T *d = dst;
const int16_t *s = src;
uint32_t factor_l = pcm_factor_l, factor_r = pcm_factor_r;
@@ -114,13 +147,19 @@ static void * pcm_scale_buffer_trans(void *dst, const void *src, size_t size)
int32_t diff_l = (int32_t)new_factor_l - (int32_t)factor_l;
int32_t diff_r = (int32_t)new_factor_r - (int32_t)factor_r;
- for (size_t done = 0; done < size; done += PCM_SAMPLE_SIZE)
+ for (size_t done = 0; done < src_size; done += PCM_SAMPLE_SIZE)
{
- int32_t sweep = (1 << 14) - fp14_cos(180*done / size); /* 0.0..2.0 */
+ int32_t sweep = (1 << 14) - fp14_cos(180*done / src_size); /* 0.0..2.0 */
uint32_t f_l = fp_mul(sweep, diff_l, 15) + factor_l;
uint32_t f_r = fp_mul(sweep, diff_r, 15) + factor_r;
+#if defined(HAVE_SWVOL_32)
+ /* do not clip to 16 bits */
+ *d++ = pcm_scale_sample(f_l, *s++);
+ *d++ = pcm_scale_sample(f_r, *s++);
+#else
*d++ = clip_sample_16(pcm_scale_sample(f_l, *s++));
*d++ = clip_sample_16(pcm_scale_sample(f_r, *s++));
+#endif
}
/* Select steady-state operation */
@@ -133,9 +172,9 @@ static void * pcm_scale_buffer_trans(void *dst, const void *src, size_t size)
#ifndef PCM_SW_VOLUME_UNBUFFERED
static inline
#endif
-void pcm_sw_volume_copy_buffer(void *dst, const void *src, size_t size)
+void pcm_sw_volume_copy_buffer(void *dst, const void *src, size_t src_size)
{
- pcm_scaling_fn(dst, src, size);
+ pcm_scaling_fn(dst, src, src_size);
}
/* Assign the new scaling function for normal steady-state operation */
@@ -147,6 +186,13 @@ void pcm_sync_pcm_factors(void)
pcm_factor_l = new_factor_l;
pcm_factor_r = new_factor_r;
+/* NOTE: 32-bit scaling is limited to 0 db <--> -74 db, we will hardcode to cut.
+ * MEMCPY CANNOT BE USED, because we do need to at minimum multiply each
+ * sample up to 32-bit size. */
+#if defined(HAVE_SWVOL_32)
+ pcm_scaling_fn = pcm_scale_buffer_cut;
+#else
+
if (new_factor_l == PCM_FACTOR_UNITY &&
new_factor_r == PCM_FACTOR_UNITY)
{
@@ -161,6 +207,7 @@ void pcm_sync_pcm_factors(void)
{
pcm_scaling_fn = pcm_scale_buffer_boost;
}
+#endif
}
#ifndef PCM_SW_VOLUME_UNBUFFERED
@@ -168,10 +215,10 @@ void pcm_sync_pcm_factors(void)
static const void * volatile src_buf_addr = NULL;
static size_t volatile src_buf_rem = 0;
-#define PCM_PLAY_DBL_BUF_SIZE (PCM_PLAY_DBL_BUF_SAMPLE*PCM_SAMPLE_SIZE)
+#define PCM_PLAY_DBL_BUF_SIZE (PCM_PLAY_DBL_BUF_SAMPLE*PCM_VOL_SAMPLE_SIZE)
/* double buffer and frame length control */
-static int16_t pcm_dbl_buf[2][PCM_PLAY_DBL_BUF_SAMPLES*2]
+static PCM_DBL_BUF_SIZE_T pcm_dbl_buf[2][PCM_PLAY_DBL_BUF_SAMPLES*2]
PCM_DBL_BUF_BSS MEM_ALIGN_ATTR;
static size_t pcm_dbl_buf_size[2];
static int pcm_dbl_buf_num = 0;
@@ -209,11 +256,12 @@ bool pcm_play_dma_complete_callback(enum pcm_dma_status status,
in one chunk */
static void update_frame_params(size_t size)
{
- int count = size / PCM_SAMPLE_SIZE;
+ /* multiply by 2 for 32 bit, optimize away to 1 for 16 bit */
+ int count = (size * (sizeof(PCM_DBL_BUF_SIZE_T)/sizeof(int16_t))) / PCM_VOL_SAMPLE_SIZE;
frame_count = (count + PCM_PLAY_DBL_BUF_SAMPLES - 1) /
PCM_PLAY_DBL_BUF_SAMPLES;
int perframe = count / frame_count;
- frame_size = perframe * PCM_SAMPLE_SIZE;
+ frame_size = perframe * PCM_VOL_SAMPLE_SIZE;
frame_frac = count - perframe * frame_count;
frame_err = 0;
}
@@ -225,7 +273,8 @@ pcm_play_dma_status_callback_int(enum pcm_dma_status status)
if (status != PCM_DMAST_STARTED)
return status;
- size_t size = pcm_dbl_buf_size[pcm_dbl_buf_num];
+ /* divide by 2 for 32 bit, optimize away to 1 for 16 bit */
+ size_t size = pcm_dbl_buf_size[pcm_dbl_buf_num] / (sizeof(PCM_DBL_BUF_SIZE_T)/sizeof(int16_t));
const void *addr = src_buf_addr + size;
size = src_buf_rem - size;
@@ -241,7 +290,8 @@ pcm_play_dma_status_callback_int(enum pcm_dma_status status)
if (size != 0)
{
- size = frame_size;
+ /* multiply by 2 for 32 bit, optimize away to 1 for 16 bit */
+ size = frame_size / (sizeof(PCM_DBL_BUF_SIZE_T)/sizeof(int16_t));
if ((frame_err += frame_frac) >= frame_count)
{
@@ -251,7 +301,8 @@ pcm_play_dma_status_callback_int(enum pcm_dma_status status)
}
pcm_dbl_buf_num ^= 1;
- pcm_dbl_buf_size[pcm_dbl_buf_num] = size;
+ /* multiply by 2 for 32 bit, optimize away to 1 for 16 bit */
+ pcm_dbl_buf_size[pcm_dbl_buf_num] = size * (sizeof(PCM_DBL_BUF_SIZE_T)/sizeof(int16_t));
pcm_sw_volume_copy_buffer(pcm_dbl_buf[pcm_dbl_buf_num], addr, size);
return PCM_DMAST_OK;
@@ -269,6 +320,7 @@ static void start_pcm(bool reframe)
if (reframe)
update_frame_params(src_buf_rem);
+
pcm_play_dma_status_callback(PCM_DMAST_STARTED);
pcm_play_dma_status_callback(PCM_DMAST_STARTED);
@@ -278,7 +330,8 @@ static void start_pcm(bool reframe)
void pcm_play_dma_start_int(const void *addr, size_t size)
{
src_buf_addr = addr;
- src_buf_rem = size;
+ /* divide by 2 for 32 bit, optimize away to 1 for 16 bit */
+ src_buf_rem = size / (sizeof(PCM_DBL_BUF_SIZE_T)/sizeof(int16_t));
start_pcm(true);
}
@@ -299,13 +352,32 @@ static uint32_t pcm_centibels_to_factor(int volume)
{
if (volume == PCM_MUTE_LEVEL)
return 0; /* mute */
-
+#if defined(HAVE_SWVOL_32)
+ /*
+ * 32-bit software volume taken from pcm-alsa.c
+ */
+ volume += 48; /* -42dB .. 0dB => 5dB .. 48dB */
+ /* NOTE if vol_dB = 5 then vol_shift = 1 but r = 1 so we do vol_shift - 1 >= 0
+ * otherwise vol_dB >= 0 implies vol_shift >= 2 so vol_shift - 2 >= 0 */
+ int vol_shift = volume / 3;
+ int r = volume % 3;
+ int32_t dig_vol_mult;
+ if(r == 0)
+ dig_vol_mult = 1 << vol_shift;
+ else if(r == 1)
+ dig_vol_mult = 1 << vol_shift | 1 << (vol_shift - 2);
+ else
+ dig_vol_mult = 1 << vol_shift | 1 << (vol_shift - 1);
+ return dig_vol_mult;
+#else /* standard software volume */
/* Centibels -> fixedpoint */
return (uint32_t)fp_factor(fp_div(volume, 10, PCM_SW_VOLUME_FRACBITS),
PCM_SW_VOLUME_FRACBITS);
+#endif /* HAVE_SWVOL_32 */
}
+
/** Public functions **/
/* Produce final pcm scale factor */
diff --git a/firmware/target/mips/ingenic_x1000/pcm-x1000.c b/firmware/target/mips/ingenic_x1000/pcm-x1000.c
index a3da3411f2..ce2fbb17a9 100644
--- a/firmware/target/mips/ingenic_x1000/pcm-x1000.c
+++ b/firmware/target/mips/ingenic_x1000/pcm-x1000.c
@@ -66,10 +66,17 @@ void pcm_play_dma_init(void)
/* Let the target initialize its hardware and setup the AIC */
audiohw_init();
+#if (PCM_NATIVE_BITDEPTH > 16)
+ /* Program audio format (stereo, 24 bit samples) */
+ jz_writef(AIC_CCR, PACK16(0), CHANNEL_V(STEREO),
+ OSS_V(24BIT), ISS_V(24BIT), M2S(0));
+ jz_writef(AIC_I2SCR, SWLH(0));
+#else
/* Program audio format (stereo, packed 16 bit samples) */
jz_writef(AIC_CCR, PACK16(1), CHANNEL_V(STEREO),
OSS_V(16BIT), ISS_V(16BIT), M2S(0));
jz_writef(AIC_I2SCR, SWLH(0));
+#endif
/* Set DMA settings */
jz_writef(AIC_CFG, TFTH(16), RFTH(16));