@@ -256,3 +256,167 @@ drm_hdmi_compute_mode_clock(const struct drm_display_mode *mode,
return DIV_ROUND_CLOSEST_ULL(clock * bpc, 8);
}
EXPORT_SYMBOL(drm_hdmi_compute_mode_clock);
+
+struct drm_hdmi_acr_n_cts_entry {
+ unsigned int n;
+ unsigned int cts;
+};
+
+struct drm_hdmi_acr_data {
+ unsigned long tmds_clock_khz;
+ struct drm_hdmi_acr_n_cts_entry n_cts_32k,
+ n_cts_44k1,
+ n_cts_48k;
+};
+
+static const struct drm_hdmi_acr_data hdmi_acr_n_cts[] = {
+ {
+ /* "Other" entry */
+ .n_cts_32k = { .n = 4096, },
+ .n_cts_44k1 = { .n = 6272, },
+ .n_cts_48k = { .n = 6144, },
+ }, {
+ .tmds_clock_khz = 25175,
+ .n_cts_32k = { .n = 4576, .cts = 28125, },
+ .n_cts_44k1 = { .n = 7007, .cts = 31250, },
+ .n_cts_48k = { .n = 6864, .cts = 28125, },
+ }, {
+ .tmds_clock_khz = 25200,
+ .n_cts_32k = { .n = 4096, .cts = 25200, },
+ .n_cts_44k1 = { .n = 6272, .cts = 28000, },
+ .n_cts_48k = { .n = 6144, .cts = 25200, },
+ }, {
+ .tmds_clock_khz = 27000,
+ .n_cts_32k = { .n = 4096, .cts = 27000, },
+ .n_cts_44k1 = { .n = 6272, .cts = 30000, },
+ .n_cts_48k = { .n = 6144, .cts = 27000, },
+ }, {
+ .tmds_clock_khz = 27027,
+ .n_cts_32k = { .n = 4096, .cts = 27027, },
+ .n_cts_44k1 = { .n = 6272, .cts = 30030, },
+ .n_cts_48k = { .n = 6144, .cts = 27027, },
+ }, {
+ .tmds_clock_khz = 54000,
+ .n_cts_32k = { .n = 4096, .cts = 54000, },
+ .n_cts_44k1 = { .n = 6272, .cts = 60000, },
+ .n_cts_48k = { .n = 6144, .cts = 54000, },
+ }, {
+ .tmds_clock_khz = 54054,
+ .n_cts_32k = { .n = 4096, .cts = 54054, },
+ .n_cts_44k1 = { .n = 6272, .cts = 60060, },
+ .n_cts_48k = { .n = 6144, .cts = 54054, },
+ }, {
+ .tmds_clock_khz = 74176,
+ .n_cts_32k = { .n = 11648, .cts = 210937, }, /* and 210938 */
+ .n_cts_44k1 = { .n = 17836, .cts = 234375, },
+ .n_cts_48k = { .n = 11648, .cts = 140625, },
+ }, {
+ .tmds_clock_khz = 74250,
+ .n_cts_32k = { .n = 4096, .cts = 74250, },
+ .n_cts_44k1 = { .n = 6272, .cts = 82500, },
+ .n_cts_48k = { .n = 6144, .cts = 74250, },
+ }, {
+ .tmds_clock_khz = 148352,
+ .n_cts_32k = { .n = 11648, .cts = 421875, },
+ .n_cts_44k1 = { .n = 8918, .cts = 234375, },
+ .n_cts_48k = { .n = 5824, .cts = 140625, },
+ }, {
+ .tmds_clock_khz = 148500,
+ .n_cts_32k = { .n = 4096, .cts = 148500, },
+ .n_cts_44k1 = { .n = 6272, .cts = 165000, },
+ .n_cts_48k = { .n = 6144, .cts = 148500, },
+ }, {
+ .tmds_clock_khz = 296703,
+ .n_cts_32k = { .n = 5824, .cts = 421875, },
+ .n_cts_44k1 = { .n = 4459, .cts = 234375, },
+ .n_cts_48k = { .n = 5824, .cts = 281250, },
+ }, {
+ .tmds_clock_khz = 297000,
+ .n_cts_32k = { .n = 3072, .cts = 222750, },
+ .n_cts_44k1 = { .n = 4704, .cts = 247500, },
+ .n_cts_48k = { .n = 5120, .cts = 247500, },
+ }, {
+ .tmds_clock_khz = 593407,
+ .n_cts_32k = { .n = 5824, .cts = 843750, },
+ .n_cts_44k1 = { .n = 8918, .cts = 937500, },
+ .n_cts_48k = { .n = 5824, .cts = 562500, },
+ }, {
+ .tmds_clock_khz = 594000,
+ .n_cts_32k = { .n = 3072, .cts = 445500, },
+ .n_cts_44k1 = { .n = 9408, .cts = 990000, },
+ .n_cts_48k = { .n = 6144, .cts = 594000, },
+ },
+};
+
+static int drm_hdmi_acr_find_tmds_entry(unsigned long tmds_clock_khz)
+{
+ int i;
+
+ /* skip the "other" entry */
+ for (i = 1; i < ARRAY_SIZE(hdmi_acr_n_cts); i++) {
+ if (hdmi_acr_n_cts[i].tmds_clock_khz == tmds_clock_khz)
+ return i;
+ }
+
+ return 0;
+}
+
+/**
+ * drm_hdmi_acr_get_n_cts() - get N and CTS values for Audio Clock Regeneration
+ *
+ * @tmds_char_rate: TMDS clock (char rate) as used by the HDMI connector
+ * @sample_rate: audio sample rate
+ * @out_n: a pointer to write the N value
+ * @out_cts: a pointer to write the CTS value
+ *
+ * Get the N and CTS values (either by calculating them or by returning data
+ * from the tables. This follows the HDMI 1.4b Section 7.2 "Audio Sample Clock
+ * Capture and Regeneration".
+ */
+void
+drm_hdmi_acr_get_n_cts(unsigned long long tmds_char_rate,
+ unsigned int sample_rate,
+ unsigned int *out_n,
+ unsigned int *out_cts)
+{
+ /* be a bit more tolerant, especially for the 1.001 entries */
+ unsigned long tmds_clock_khz = DIV_ROUND_CLOSEST_ULL(tmds_char_rate, 1000);
+ const struct drm_hdmi_acr_n_cts_entry *entry;
+ unsigned int n, cts, mult;
+ int tmds_idx;
+
+ tmds_idx = drm_hdmi_acr_find_tmds_entry(tmds_clock_khz);
+
+ /*
+ * Don't change the order, 192 kHz is divisible by 48k and 32k, but it
+ * should use 48k entry.
+ */
+ if (sample_rate % 48000 == 0) {
+ entry = &hdmi_acr_n_cts[tmds_idx].n_cts_48k;
+ mult = sample_rate / 48000;
+ } else if (sample_rate % 44100 == 0) {
+ entry = &hdmi_acr_n_cts[tmds_idx].n_cts_44k1;
+ mult = sample_rate / 44100;
+ } else if (sample_rate % 32000 == 0) {
+ entry = &hdmi_acr_n_cts[tmds_idx].n_cts_32k;
+ mult = sample_rate / 32000;
+ } else {
+ entry = NULL;
+ }
+
+ if (entry) {
+ n = entry->n * mult;
+ cts = entry->cts;
+ } else {
+ /* Recommended optimal value, HDMI 1.4b, Section 7.2.1 */
+ n = 128 * sample_rate / 1000;
+ cts = 0;
+ }
+
+ if (!cts)
+ cts = DIV_ROUND_CLOSEST_ULL(tmds_char_rate * n,
+ 128 * sample_rate);
+
+ *out_n = n;
+ *out_cts = cts;
+}
@@ -28,4 +28,10 @@ unsigned long long
drm_hdmi_compute_mode_clock(const struct drm_display_mode *mode,
unsigned int bpc, enum hdmi_colorspace fmt);
+void
+drm_hdmi_acr_get_n_cts(unsigned long long tmds_char_rate,
+ unsigned int sample_rate,
+ unsigned int *out_n,
+ unsigned int *out_cts);
+
#endif