Commit 6f84da0c authored by james qian wang (Arm Technology China)'s avatar james qian wang (Arm Technology China) Committed by Liviu Dudau

drm/komeda: Rename main engine clk name "mclk" to "aclk"

To avoid confusion, unify the driver main engine clk name "mclk" to
the spec name "aclk".
Signed-off-by: default avatarJames Qian Wang (Arm Technology China) <james.qian.wang@arm.com>
Signed-off-by: default avatarLiviu Dudau <liviu.dudau@arm.com>
parent 28be315c
......@@ -728,7 +728,7 @@ static int d71_scaler_init(struct d71_dev *d71,
static int d71_downscaling_clk_check(struct komeda_pipeline *pipe,
struct drm_display_mode *mode,
unsigned long mclk_rate,
unsigned long aclk_rate,
struct komeda_data_flow_cfg *dflow)
{
u32 h_in = dflow->in_w;
......@@ -738,20 +738,20 @@ static int d71_downscaling_clk_check(struct komeda_pipeline *pipe,
/* D71 downscaling must satisfy the following equation
*
* MCLK h_in * v_in
* ACLK h_in * v_in
* ------- >= ---------------------------------------------
* PXLCLK (h_total - (1 + 2 * v_in / v_out)) * v_out
*
* In only horizontal downscaling situation, the right side should be
* multiplied by (h_total - 3) / (h_active - 3), then equation becomes
*
* MCLK h_in
* ACLK h_in
* ------- >= ----------------
* PXLCLK (h_active - 3)
*
* To avoid precision lost the equation 1 will be convert to:
*
* MCLK h_in * v_in
* ACLK h_in * v_in
* ------- >= -----------------------------------
* PXLCLK (h_total -1 ) * v_out - 2 * v_in
*/
......@@ -763,7 +763,7 @@ static int d71_downscaling_clk_check(struct komeda_pipeline *pipe,
denominator = (mode->htotal - 1) * v_out - 2 * v_in;
}
return mclk_rate * denominator >= mode->clock * 1000 * fraction ?
return aclk_rate * denominator >= mode->clock * 1000 * fraction ?
0 : -EINVAL;
}
......
......@@ -20,7 +20,7 @@
static void komeda_crtc_update_clock_ratio(struct komeda_crtc_state *kcrtc_st)
{
u64 pxlclk, mclk;
u64 pxlclk, aclk;
if (!kcrtc_st->base.active) {
kcrtc_st->clock_ratio = 0;
......@@ -28,10 +28,10 @@ static void komeda_crtc_update_clock_ratio(struct komeda_crtc_state *kcrtc_st)
}
pxlclk = kcrtc_st->base.adjusted_mode.clock * 1000;
mclk = komeda_calc_mclk(kcrtc_st) << 32;
aclk = komeda_calc_aclk(kcrtc_st) << 32;
do_div(mclk, pxlclk);
kcrtc_st->clock_ratio = mclk;
do_div(aclk, pxlclk);
kcrtc_st->clock_ratio = aclk;
}
/**
......@@ -71,12 +71,12 @@ komeda_crtc_atomic_check(struct drm_crtc *crtc,
return 0;
}
unsigned long komeda_calc_mclk(struct komeda_crtc_state *kcrtc_st)
unsigned long komeda_calc_aclk(struct komeda_crtc_state *kcrtc_st)
{
struct komeda_dev *mdev = kcrtc_st->base.crtc->dev->dev_private;
unsigned long pxlclk = kcrtc_st->base.adjusted_mode.clock;
return clk_round_rate(mdev->mclk, pxlclk * 1000);
return clk_round_rate(mdev->aclk, pxlclk * 1000);
}
/* For active a crtc, mainly need two parts of preparation
......@@ -109,18 +109,18 @@ komeda_crtc_prepare(struct komeda_crtc *kcrtc)
}
mdev->dpmode = new_mode;
/* Only need to enable mclk on single display mode, but no need to
* enable mclk it on dual display mode, since the dual mode always
* switch from single display mode, the mclk already enabled, no need
/* Only need to enable aclk on single display mode, but no need to
* enable aclk it on dual display mode, since the dual mode always
* switch from single display mode, the aclk already enabled, no need
* to enable it again.
*/
if (new_mode != KOMEDA_MODE_DUAL_DISP) {
err = clk_set_rate(mdev->mclk, komeda_calc_mclk(kcrtc_st));
err = clk_set_rate(mdev->aclk, komeda_calc_aclk(kcrtc_st));
if (err)
DRM_ERROR("failed to set mclk.\n");
err = clk_prepare_enable(mdev->mclk);
DRM_ERROR("failed to set aclk.\n");
err = clk_prepare_enable(mdev->aclk);
if (err)
DRM_ERROR("failed to enable mclk.\n");
DRM_ERROR("failed to enable aclk.\n");
}
err = clk_set_rate(master->pxlclk, pxlclk_rate);
......@@ -164,7 +164,7 @@ komeda_crtc_unprepare(struct komeda_crtc *kcrtc)
clk_disable_unprepare(master->pxlclk);
if (new_mode == KOMEDA_MODE_INACTIVE)
clk_disable_unprepare(mdev->mclk);
clk_disable_unprepare(mdev->aclk);
unlock:
mutex_unlock(&mdev->lock);
......@@ -342,7 +342,6 @@ komeda_crtc_mode_valid(struct drm_crtc *crtc, const struct drm_display_mode *m)
if (m->flags & DRM_MODE_FLAG_INTERLACE)
return MODE_NO_INTERLACE;
/* main clock/AXI clk must be faster than pxlclk*/
mode_clk = m->clock * 1000;
pxlclk = clk_round_rate(master->pxlclk, mode_clk);
if (pxlclk != mode_clk) {
......@@ -351,8 +350,9 @@ komeda_crtc_mode_valid(struct drm_crtc *crtc, const struct drm_display_mode *m)
return MODE_NOCLOCK;
}
if (clk_round_rate(mdev->mclk, mode_clk) < pxlclk) {
DRM_DEBUG_ATOMIC("mclk can't satisfy the requirement of %s-clk: %ld.\n",
/* main engine clock must be faster than pxlclk*/
if (clk_round_rate(mdev->aclk, mode_clk) < pxlclk) {
DRM_DEBUG_ATOMIC("engine clk can't satisfy the requirement of %s-clk: %ld.\n",
m->name, pxlclk);
return MODE_CLOCK_HIGH;
......
......@@ -193,15 +193,15 @@ struct komeda_dev *komeda_dev_create(struct device *dev)
goto err_cleanup;
}
mdev->mclk = devm_clk_get(dev, "mclk");
if (IS_ERR(mdev->mclk)) {
mdev->aclk = devm_clk_get(dev, "aclk");
if (IS_ERR(mdev->aclk)) {
DRM_ERROR("Get engine clk failed.\n");
err = PTR_ERR(mdev->mclk);
mdev->mclk = NULL;
err = PTR_ERR(mdev->aclk);
mdev->aclk = NULL;
goto err_cleanup;
}
clk_prepare_enable(mdev->mclk);
clk_prepare_enable(mdev->aclk);
mdev->funcs = product->identify(mdev->reg_base, &mdev->chip);
if (!komeda_product_match(mdev, product->product_id)) {
......@@ -300,10 +300,10 @@ void komeda_dev_destroy(struct komeda_dev *mdev)
mdev->reg_base = NULL;
}
if (mdev->mclk) {
clk_disable_unprepare(mdev->mclk);
devm_clk_put(dev, mdev->mclk);
mdev->mclk = NULL;
if (mdev->aclk) {
clk_disable_unprepare(mdev->aclk);
devm_clk_put(dev, mdev->aclk);
mdev->aclk = NULL;
}
devm_kfree(dev, mdev);
......
......@@ -160,8 +160,8 @@ struct komeda_dev {
struct komeda_chip_info chip;
/** @fmt_tbl: initialized by &komeda_dev_funcs->init_format_table */
struct komeda_format_caps_table fmt_tbl;
/** @mclk: HW main engine clk */
struct clk *mclk;
/** @aclk: HW main engine clk */
struct clk *aclk;
/** @irq: irq number */
int irq;
......
......@@ -87,7 +87,7 @@ struct komeda_crtc {
/** @disable_done: this flip_done is for tracing the disable */
struct completion *disable_done;
/** @clock_ratio_property: property for ratio of (mclk << 32)/pxlclk */
/** @clock_ratio_property: property for ratio of (aclk << 32)/pxlclk */
struct drm_property *clock_ratio_property;
};
......@@ -112,7 +112,7 @@ struct komeda_crtc_state {
*/
u32 active_pipes;
/** @clock_ratio: ratio of (mclk << 32)/pxlclk */
/** @clock_ratio: ratio of (aclk << 32)/pxlclk */
u64 clock_ratio;
};
......@@ -155,7 +155,7 @@ is_only_changed_connector(struct drm_crtc_state *st, struct drm_connector *conn)
return BIT(drm_connector_index(conn)) == changed_connectors;
}
unsigned long komeda_calc_mclk(struct komeda_crtc_state *kcrtc_st);
unsigned long komeda_calc_aclk(struct komeda_crtc_state *kcrtc_st);
int komeda_kms_setup_crtcs(struct komeda_kms_dev *kms, struct komeda_dev *mdev);
......
......@@ -319,12 +319,12 @@ struct komeda_data_flow_cfg {
};
struct komeda_pipeline_funcs {
/* check if the mclk (main engine clock) can satisfy the clock
/* check if the aclk (main engine clock) can satisfy the clock
* requirements of the downscaling that specified by dflow
*/
int (*downscaling_clk_check)(struct komeda_pipeline *pipe,
struct drm_display_mode *mode,
unsigned long mclk_rate,
unsigned long aclk_rate,
struct komeda_data_flow_cfg *dflow);
/* dump_register: Optional, dump registers to seq_file */
void (*dump_register)(struct komeda_pipeline *pipe,
......
......@@ -461,9 +461,9 @@ komeda_scaler_check_cfg(struct komeda_scaler *scaler,
err = pipe->funcs->downscaling_clk_check(pipe,
&kcrtc_st->base.adjusted_mode,
komeda_calc_mclk(kcrtc_st), dflow);
komeda_calc_aclk(kcrtc_st), dflow);
if (err) {
DRM_DEBUG_ATOMIC("mclk can't satisfy the clock requirement of the downscaling\n");
DRM_DEBUG_ATOMIC("aclk can't satisfy the clock requirement of the downscaling\n");
return err;
}
}
......
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