// SPDX-License-Identifier: GPL-2.0
#include "ddk750_reg.h"
#include "ddk750_chip.h"
#include "ddk750_display.h"
#include "ddk750_power.h"
#include "ddk750_dvi.h"
static void set_display_control(int ctrl, int disp_state)
{
/* state != 0 means turn on both timing & plane en_bit */
unsigned long reg, val, reserved;
int cnt = 0;
if (!ctrl) {
reg = PANEL_DISPLAY_CTRL;
reserved = PANEL_DISPLAY_CTRL_RESERVED_MASK;
} else {
reg = CRT_DISPLAY_CTRL;
reserved = CRT_DISPLAY_CTRL_RESERVED_MASK;
}
val = peek32(reg);
if (disp_state) {
/*
* Timing should be enabled first before enabling the
* plane because changing at the same time does not
* guarantee that the plane will also enabled or
* disabled.
*/
val |= DISPLAY_CTRL_TIMING;
poke32(reg, val);
val |= DISPLAY_CTRL_PLANE;
/*
* Somehow the register value on the plane is not set
* until a few delay. Need to write and read it a
* couple times
*/
do {
cnt++;
poke32(reg, val);
} while ((peek32(reg) & ~reserved) != (val & ~reserved));
pr_debug("Set Plane enbit:after tried %d times\n", cnt);
} else {
/*
* When turning off, there is no rule on the
* programming sequence since whenever the clock is
* off, then it does not matter whether the plane is
* enabled or disabled. Note: Modifying the plane bit
* will take effect on the next vertical sync. Need to
* find out if it is necessary to wait for 1 vsync
* before modifying the timing enable bit.
*/
val &= ~DISPLAY_CTRL_PLANE;
poke32(reg, val);
val &= ~DISPLAY_CTRL_TIMING;
poke32(reg, val);
}
}
static void primary_wait_vertical_sync(int delay)
{
unsigned int status;
/*
* Do not wait when the Primary PLL is off or display control is
* already off. This will prevent the software to wait forever.
*/
if (!(peek32(PANEL_PLL_CTRL) & PLL_CTRL_POWER) ||
!(peek32(PANEL_DISPLAY_CTRL) & DISPLAY_CTRL_TIMING))
return;
while (delay-- > 0) {
/* Wait for end of vsync. */
do {
status = peek32(SYSTEM_CTRL);
} while (status & SYSTEM_CTRL_PANEL_VSYNC_ACTIVE);
/* Wait for start of vsync. */
do {
status = peek32(SYSTEM_CTRL);
} while (!(status & SYSTEM_CTRL_PANEL_VSYNC_ACTIVE));
}
}
static void sw_panel_power_sequence(int disp, int delay)
{
unsigned int reg;
/* disp should be 1 to open sequence */
reg = peek32(PANEL_DISPLAY_CTRL);
reg |= (disp ? PANEL_DISPLAY_CTRL_FPEN : 0);
poke32(PANEL_DISPLAY_CTRL, reg);
primary_wait_vertical_sync(delay);
reg = peek32(PANEL_DISPLAY_CTRL);
reg |= (disp ? PANEL_DISPLAY_CTRL_DATA : 0);
poke32(PANEL_DISPLAY_CTRL, reg);
primary_wait_vertical_sync(delay);
reg = peek32(PANEL_DISPLAY_CTRL);
reg |= (disp ? PANEL_DISPLAY_CTRL_VBIASEN : 0);
poke32(PANEL_DISPLAY_CTRL, reg);
primary_wait_vertical_sync(delay);
reg = peek32(PANEL_DISPLAY_CTRL);
reg |= (disp ? PANEL_DISPLAY_CTRL_FPEN : 0);
poke32(PANEL_DISPLAY_CTRL, reg);
primary_wait_vertical_sync(delay);
}
void ddk750_set_logical_disp_out(enum disp_output output)
{
unsigned int reg;
if (output & PNL_2_USAGE) {
/* set panel path controller select */
reg = peek32(PANEL_DISPLAY_CTRL);
reg &= ~PANEL_DISPLAY_CTRL_SELECT_MASK;
reg |= (((output & PNL_2_MASK) >> PNL_2_OFFSET) <<
PANEL_DISPLAY_CTRL_SELECT_SHIFT);
poke32(PANEL_DISPLAY_CTRL, reg);
}
if (output & CRT_2_USAGE) {
/* set crt path controller select */
reg = peek32(CRT_DISPLAY_CTRL);
reg &= ~CRT_DISPLAY_CTRL_SELECT_MASK;
reg |= (((output & CRT_2_MASK) >> CRT_2_OFFSET) <<
CRT_DISPLAY_CTRL_SELECT_SHIFT);
/*se blank off */
reg &= ~CRT_DISPLAY_CTRL_BLANK;
poke32(CRT_DISPLAY_CTRL, reg);
}
if (output & PRI_TP_USAGE) {
/* set primary timing and plane en_bit */
set_display_control(0, (output & PRI_TP_MASK) >> PRI_TP_OFFSET);
}
if (output & SEC_TP_USAGE) {
/* set secondary timing and plane en_bit*/
set_display_control(1, (output & SEC_TP_MASK) >> SEC_TP_OFFSET);
}
if (output & PNL_SEQ_USAGE) {
/* set panel sequence */
sw_panel_power_sequence((output & PNL_SEQ_MASK) >>
PNL_SEQ_OFFSET, 4);
}
if (output & DAC_USAGE)
set_DAC((output & DAC_MASK) >> DAC_OFFSET);
if (output & DPMS_USAGE)
ddk750_set_dpms((output & DPMS_MASK) >> DPMS_OFFSET);
}