#include "ddk750_reg.h" #include "ddk750_help.h" #include "ddk750_display.h" #include "ddk750_power.h" #include "ddk750_dvi.h" #define primaryWaitVerticalSync(delay) waitNextVerticalSync(0, delay) static void setDisplayControl(int ctrl, int disp_state) { /* state != 0 means turn on both timing & plane en_bit */ unsigned long ulDisplayCtrlReg, ulReservedBits; int cnt; cnt = 0; /* Set the primary display control */ if (!ctrl) { ulDisplayCtrlReg = PEEK32(PANEL_DISPLAY_CTRL); /* Turn on/off the Panel display control */ 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. */ ulDisplayCtrlReg = FIELD_SET(ulDisplayCtrlReg, PANEL_DISPLAY_CTRL, TIMING, ENABLE); POKE32(PANEL_DISPLAY_CTRL, ulDisplayCtrlReg); ulDisplayCtrlReg = FIELD_SET(ulDisplayCtrlReg, PANEL_DISPLAY_CTRL, PLANE, ENABLE); /* Added some masks to mask out the reserved bits. * Sometimes, the reserved bits are set/reset randomly when * writing to the PRIMARY_DISPLAY_CTRL, therefore, the register * reserved bits are needed to be masked out. */ ulReservedBits = FIELD_SET(0, PANEL_DISPLAY_CTRL, RESERVED_1_MASK, ENABLE) | FIELD_SET(0, PANEL_DISPLAY_CTRL, RESERVED_2_MASK, ENABLE) | FIELD_SET(0, PANEL_DISPLAY_CTRL, RESERVED_3_MASK, ENABLE); /* 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(PANEL_DISPLAY_CTRL, ulDisplayCtrlReg); } while ((PEEK32(PANEL_DISPLAY_CTRL) & ~ulReservedBits) != (ulDisplayCtrlReg & ~ulReservedBits)); printk("Set Panel 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. * */ ulDisplayCtrlReg = FIELD_SET(ulDisplayCtrlReg, PANEL_DISPLAY_CTRL, PLANE, DISABLE); POKE32(PANEL_DISPLAY_CTRL, ulDisplayCtrlReg); ulDisplayCtrlReg = FIELD_SET(ulDisplayCtrlReg, PANEL_DISPLAY_CTRL, TIMING, DISABLE); POKE32(PANEL_DISPLAY_CTRL, ulDisplayCtrlReg); } } else { /* Set the secondary display control */ ulDisplayCtrlReg = PEEK32(CRT_DISPLAY_CTRL); 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. */ ulDisplayCtrlReg = FIELD_SET(ulDisplayCtrlReg, CRT_DISPLAY_CTRL, TIMING, ENABLE); POKE32(CRT_DISPLAY_CTRL, ulDisplayCtrlReg); ulDisplayCtrlReg = FIELD_SET(ulDisplayCtrlReg, CRT_DISPLAY_CTRL, PLANE, ENABLE); /* Added some masks to mask out the reserved bits. * Sometimes, the reserved bits are set/reset randomly when * writing to the PRIMARY_DISPLAY_CTRL, therefore, the register * reserved bits are needed to be masked out. */ ulReservedBits = FIELD_SET(0, CRT_DISPLAY_CTRL, RESERVED_1_MASK, ENABLE) | FIELD_SET(0, CRT_DISPLAY_CTRL, RESERVED_2_MASK, ENABLE) | FIELD_SET(0, CRT_DISPLAY_CTRL, RESERVED_3_MASK, ENABLE) | FIELD_SET(0, CRT_DISPLAY_CTRL, RESERVED_4_MASK, ENABLE); do { cnt++; POKE32(CRT_DISPLAY_CTRL, ulDisplayCtrlReg); } while ((PEEK32(CRT_DISPLAY_CTRL) & ~ulReservedBits) != (ulDisplayCtrlReg & ~ulReservedBits)); printk("Set Crt 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. */ ulDisplayCtrlReg = FIELD_SET(ulDisplayCtrlReg, CRT_DISPLAY_CTRL, PLANE, DISABLE); POKE32(CRT_DISPLAY_CTRL, ulDisplayCtrlReg); ulDisplayCtrlReg = FIELD_SET(ulDisplayCtrlReg, CRT_DISPLAY_CTRL, TIMING, DISABLE); POKE32(CRT_DISPLAY_CTRL, ulDisplayCtrlReg); } } } static void waitNextVerticalSync(int ctrl, int delay) { unsigned int status; if (!ctrl) { /* primary controller */ /* Do not wait when the Primary PLL is off or display control is already off. This will prevent the software to wait forever. */ if ((FIELD_GET(PEEK32(PANEL_PLL_CTRL), PANEL_PLL_CTRL, POWER) == PANEL_PLL_CTRL_POWER_OFF) || (FIELD_GET(PEEK32(PANEL_DISPLAY_CTRL), PANEL_DISPLAY_CTRL, TIMING) == PANEL_DISPLAY_CTRL_TIMING_DISABLE)) { return; } while (delay-- > 0) { /* Wait for end of vsync. */ do { status = FIELD_GET(PEEK32(SYSTEM_CTRL), SYSTEM_CTRL, PANEL_VSYNC); } while (status == SYSTEM_CTRL_PANEL_VSYNC_ACTIVE); /* Wait for start of vsync. */ do { status = FIELD_GET(PEEK32(SYSTEM_CTRL), SYSTEM_CTRL, PANEL_VSYNC); } while (status == SYSTEM_CTRL_PANEL_VSYNC_INACTIVE); } } else { /* Do not wait when the Primary PLL is off or display control is already off. This will prevent the software to wait forever. */ if ((FIELD_GET(PEEK32(CRT_PLL_CTRL), CRT_PLL_CTRL, POWER) == CRT_PLL_CTRL_POWER_OFF) || (FIELD_GET(PEEK32(CRT_DISPLAY_CTRL), CRT_DISPLAY_CTRL, TIMING) == CRT_DISPLAY_CTRL_TIMING_DISABLE)) { return; } while (delay-- > 0) { /* Wait for end of vsync. */ do { status = FIELD_GET(PEEK32(SYSTEM_CTRL), SYSTEM_CTRL, CRT_VSYNC); } while (status == SYSTEM_CTRL_CRT_VSYNC_ACTIVE); /* Wait for start of vsync. */ do { status = FIELD_GET(PEEK32(SYSTEM_CTRL), SYSTEM_CTRL, CRT_VSYNC); } while (status == SYSTEM_CTRL_CRT_VSYNC_INACTIVE); } } } static void swPanelPowerSequence(int disp, int delay) { unsigned int reg; /* disp should be 1 to open sequence */ reg = PEEK32(PANEL_DISPLAY_CTRL); reg = FIELD_VALUE(reg, PANEL_DISPLAY_CTRL, FPEN, disp); POKE32(PANEL_DISPLAY_CTRL, reg); primaryWaitVerticalSync(delay); reg = PEEK32(PANEL_DISPLAY_CTRL); reg = FIELD_VALUE(reg, PANEL_DISPLAY_CTRL, DATA, disp); POKE32(PANEL_DISPLAY_CTRL, reg); primaryWaitVerticalSync(delay); reg = PEEK32(PANEL_DISPLAY_CTRL); reg = FIELD_VALUE(reg, PANEL_DISPLAY_CTRL, VBIASEN, disp); POKE32(PANEL_DISPLAY_CTRL, reg); primaryWaitVerticalSync(delay); reg = PEEK32(PANEL_DISPLAY_CTRL); reg = FIELD_VALUE(reg, PANEL_DISPLAY_CTRL, FPEN, disp); POKE32(PANEL_DISPLAY_CTRL, reg); primaryWaitVerticalSync(delay); } void ddk750_setLogicalDispOut(disp_output_t output) { unsigned int reg; if (output & PNL_2_USAGE) { /* set panel path controller select */ reg = PEEK32(PANEL_DISPLAY_CTRL); reg = FIELD_VALUE(reg, PANEL_DISPLAY_CTRL, SELECT, (output & PNL_2_MASK)>>PNL_2_OFFSET); POKE32(PANEL_DISPLAY_CTRL, reg); } if (output & CRT_2_USAGE) { /* set crt path controller select */ reg = PEEK32(CRT_DISPLAY_CTRL); reg = FIELD_VALUE(reg, CRT_DISPLAY_CTRL, SELECT, (output & CRT_2_MASK)>>CRT_2_OFFSET); /*se blank off */ reg = FIELD_SET(reg, CRT_DISPLAY_CTRL, BLANK, OFF); POKE32(CRT_DISPLAY_CTRL, reg); } if (output & PRI_TP_USAGE) { /* set primary timing and plane en_bit */ setDisplayControl(0, (output & PRI_TP_MASK) >> PRI_TP_OFFSET); } if (output & SEC_TP_USAGE) { /* set secondary timing and plane en_bit*/ setDisplayControl(1, (output & SEC_TP_MASK) >> SEC_TP_OFFSET); } if (output & PNL_SEQ_USAGE) { /* set panel sequence */ swPanelPowerSequence((output & PNL_SEQ_MASK) >> PNL_SEQ_OFFSET, 4); } if (output & DAC_USAGE) setDAC((output & DAC_MASK) >> DAC_OFFSET); if (output & DPMS_USAGE) ddk750_setDPMS((output & DPMS_MASK) >> DPMS_OFFSET); }