// SPDX-License-Identifier: GPL-2.0+ /* * Copyright (C) 2016 Nexell Co., Ltd. * * Author: junghyun, kim */ #include #include #include "s5pxx18_soc_dpc.h" static struct { struct nx_dpc_register_set *pregister; } __g_module_variables[NUMBER_OF_DPC_MODULE] = { { NULL,},}; int nx_dpc_initialize(void) { static int binit; u32 i; if (binit == 0) { for (i = 0; i < NUMBER_OF_DPC_MODULE; i++) __g_module_variables[i].pregister = NULL; binit = 1; } return 1; } u32 nx_dpc_get_number_of_module(void) { return NUMBER_OF_DPC_MODULE; } u32 nx_dpc_get_physical_address(u32 module_index) { const u32 physical_addr[] = PHY_BASEADDR_DPC_LIST; return physical_addr[module_index]; } void nx_dpc_set_base_address(u32 module_index, void *base_address) { __g_module_variables[module_index].pregister = (struct nx_dpc_register_set *)base_address; } void *nx_dpc_get_base_address(u32 module_index) { return (void *)__g_module_variables[module_index].pregister; } void nx_dpc_set_interrupt_enable(u32 module_index, int32_t int_num, int enable) { const u32 intenb_pos = 11; const u32 intenb_mask = 1ul << intenb_pos; const u32 intpend_pos = 10; const u32 intpend_mask = 1ul << intpend_pos; register u32 regvalue; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; regvalue = pregister->dpcctrl0; regvalue &= ~(intenb_mask | intpend_mask); regvalue |= (u32)enable << intenb_pos; writel(regvalue, &pregister->dpcctrl0); } int nx_dpc_get_interrupt_enable(u32 module_index, int32_t int_num) { const u32 intenb_pos = 11; const u32 intenb_mask = 1ul << intenb_pos; return (int)((__g_module_variables[module_index].pregister->dpcctrl0 & intenb_mask) >> intenb_pos); } void nx_dpc_set_interrupt_enable32(u32 module_index, u32 enable_flag) { const u32 intenb_pos = 11; const u32 intenb_mask = 1 << intenb_pos; const u32 intpend_pos = 10; const u32 intpend_mask = 1 << intpend_pos; register struct nx_dpc_register_set *pregister; register u32 read_value; pregister = __g_module_variables[module_index].pregister; read_value = pregister->dpcctrl0 & ~(intpend_mask | intenb_mask); writel((u32)(read_value | (enable_flag & 0x01) << intenb_pos), &pregister->dpcctrl0); } u32 nx_dpc_get_interrupt_enable32(u32 module_index) { const u32 intenb_pos = 11; const u32 intenb_mask = 1 << intenb_pos; return (u32)((__g_module_variables[module_index].pregister->dpcctrl0 & intenb_mask) >> intenb_pos); } int nx_dpc_get_interrupt_pending(u32 module_index, int32_t int_num) { const u32 intpend_pos = 10; const u32 intpend_mask = 1ul << intpend_pos; return (int)((__g_module_variables[module_index].pregister->dpcctrl0 & intpend_mask) >> intpend_pos); } u32 nx_dpc_get_interrupt_pending32(u32 module_index) { const u32 intpend_pos = 10; const u32 intpend_mask = 1 << intpend_pos; return (u32)((__g_module_variables[module_index].pregister->dpcctrl0 & intpend_mask) >> intpend_pos); } void nx_dpc_clear_interrupt_pending(u32 module_index, int32_t int_num) { const u32 intpend_pos = 10; register struct nx_dpc_register_set *pregister; register u32 regvalue; pregister = __g_module_variables[module_index].pregister; regvalue = pregister->dpcctrl0; regvalue |= 1ul << intpend_pos; writel(regvalue, &pregister->dpcctrl0); } void nx_dpc_clear_interrupt_pending32(u32 module_index, u32 pending_flag) { const u32 intpend_pos = 10; const u32 intpend_mask = 1 << intpend_pos; register struct nx_dpc_register_set *pregister; register u32 read_value; pregister = __g_module_variables[module_index].pregister; read_value = pregister->dpcctrl0 & ~intpend_mask; writel((u32)(read_value | ((pending_flag & 0x01) << intpend_pos)), &pregister->dpcctrl0); } void nx_dpc_set_interrupt_enable_all(u32 module_index, int enable) { const u32 intenb_pos = 11; const u32 intenb_mask = 1ul << intenb_pos; const u32 intpend_pos = 10; const u32 intpend_mask = 1ul << intpend_pos; register u32 regvalue; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; regvalue = pregister->dpcctrl0; regvalue &= ~(intenb_mask | intpend_mask); regvalue |= (u32)enable << intenb_pos; writel(regvalue, &pregister->dpcctrl0); } int nx_dpc_get_interrupt_enable_all(u32 module_index) { const u32 intenb_pos = 11; const u32 intenb_mask = 1ul << intenb_pos; return (int)((__g_module_variables[module_index].pregister->dpcctrl0 & intenb_mask) >> intenb_pos); } int nx_dpc_get_interrupt_pending_all(u32 module_index) { const u32 intpend_pos = 10; const u32 intpend_mask = 1ul << intpend_pos; return (int)((__g_module_variables[module_index].pregister->dpcctrl0 & intpend_mask) >> intpend_pos); } void nx_dpc_clear_interrupt_pending_all(u32 module_index) { const u32 intpend_pos = 10; register struct nx_dpc_register_set *pregister; register u32 regvalue; pregister = __g_module_variables[module_index].pregister; regvalue = pregister->dpcctrl0; regvalue |= 1ul << intpend_pos; writel(regvalue, &pregister->dpcctrl0); } int32_t nx_dpc_get_interrupt_pending_number(u32 module_index) { const u32 intenb_pos = 11; const u32 intpend_pos = 10; register struct nx_dpc_register_set *pregister; register u32 pend; pregister = __g_module_variables[module_index].pregister; pend = ((pregister->dpcctrl0 >> intenb_pos) && (pregister->dpcctrl0 >> intpend_pos)); if (pend & 0x01) return 0; return -1; } void nx_dpc_set_clock_pclk_mode(u32 module_index, enum nx_pclkmode mode) { const u32 pclkmode_pos = 3; register u32 regvalue; register struct nx_dpc_register_set *pregister; u32 clkmode = 0; pregister = __g_module_variables[module_index].pregister; switch (mode) { case nx_pclkmode_dynamic: clkmode = 0; break; case nx_pclkmode_always: clkmode = 1; break; default: break; } regvalue = pregister->dpcclkenb; regvalue &= ~(1ul << pclkmode_pos); regvalue |= (clkmode & 0x01) << pclkmode_pos; writel(regvalue, &pregister->dpcclkenb); } enum nx_pclkmode nx_dpc_get_clock_pclk_mode(u32 module_index) { const u32 pclkmode_pos = 3; if (__g_module_variables[module_index].pregister->dpcclkenb & (1ul << pclkmode_pos)) { return nx_pclkmode_always; } return nx_pclkmode_dynamic; } void nx_dpc_set_clock_source(u32 module_index, u32 index, u32 clk_src) { const u32 clksrcsel_pos = 2; const u32 clksrcsel_mask = 0x07 << clksrcsel_pos; register struct nx_dpc_register_set *pregister; register u32 read_value; pregister = __g_module_variables[module_index].pregister; read_value = pregister->dpcclkgen[index][0]; read_value &= ~clksrcsel_mask; read_value |= clk_src << clksrcsel_pos; writel(read_value, &pregister->dpcclkgen[index][0]); } u32 nx_dpc_get_clock_source(u32 module_index, u32 index) { const u32 clksrcsel_pos = 2; const u32 clksrcsel_mask = 0x07 << clksrcsel_pos; return (__g_module_variables[module_index] .pregister->dpcclkgen[index][0] & clksrcsel_mask) >> clksrcsel_pos; } void nx_dpc_set_clock_divisor(u32 module_index, u32 index, u32 divisor) { const u32 clkdiv_pos = 5; const u32 clkdiv_mask = ((1 << 8) - 1) << clkdiv_pos; register struct nx_dpc_register_set *pregister; register u32 read_value; pregister = __g_module_variables[module_index].pregister; read_value = pregister->dpcclkgen[index][0]; read_value &= ~clkdiv_mask; read_value |= (divisor - 1) << clkdiv_pos; writel(read_value, &pregister->dpcclkgen[index][0]); } u32 nx_dpc_get_clock_divisor(u32 module_index, u32 index) { const u32 clkdiv_pos = 5; const u32 clkdiv_mask = ((1 << 8) - 1) << clkdiv_pos; return ((__g_module_variables[module_index] .pregister->dpcclkgen[index][0] & clkdiv_mask) >> clkdiv_pos) + 1; } void nx_dpc_set_clock_out_inv(u32 module_index, u32 index, int out_clk_inv) { const u32 outclkinv_pos = 1; const u32 outclkinv_mask = 1ul << outclkinv_pos; register struct nx_dpc_register_set *pregister; register u32 read_value; pregister = __g_module_variables[module_index].pregister; read_value = pregister->dpcclkgen[index][0]; read_value &= ~outclkinv_mask; read_value |= out_clk_inv << outclkinv_pos; writel(read_value, &pregister->dpcclkgen[index][0]); } int nx_dpc_get_clock_out_inv(u32 module_index, u32 index) { const u32 outclkinv_pos = 1; const u32 outclkinv_mask = 1ul << outclkinv_pos; return (int)((__g_module_variables[module_index] .pregister->dpcclkgen[index][0] & outclkinv_mask) >> outclkinv_pos); } void nx_dpc_set_clock_out_select(u32 module_index, u32 index, int bbypass) { const u32 outclksel_pos = 0; const u32 outclksel_mask = 1ul << outclksel_pos; register struct nx_dpc_register_set *pregister; register u32 read_value; pregister = __g_module_variables[module_index].pregister; read_value = pregister->dpcclkgen[index][0]; read_value &= ~outclksel_mask; if (bbypass == 0) read_value |= outclksel_mask; writel(read_value, &pregister->dpcclkgen[index][0]); } int nx_dpc_get_clock_out_select(u32 module_index, u32 index) { const u32 outclksel_pos = 0; const u32 outclksel_mask = 1ul << outclksel_pos; if (__g_module_variables[module_index].pregister->dpcclkgen[index][0] & outclksel_mask) { return 0; } else { return 1; } } void nx_dpc_set_clock_polarity(u32 module_index, int bpolarity) { const u32 clkpol_pos = 2; const u32 clkpol_mask = 1ul << clkpol_pos; register struct nx_dpc_register_set *pregister; register u32 read_value; pregister = __g_module_variables[module_index].pregister; read_value = pregister->dpcctrl1; read_value &= ~clkpol_mask; if (bpolarity == 1) read_value |= clkpol_mask; writel(read_value, &pregister->dpcctrl1); } int nx_dpc_get_clock_polarity(u32 module_index) { const u32 clkpol_pos = 2; const u32 clkpol_mask = 1ul << clkpol_pos; if (__g_module_variables[module_index].pregister->dpcctrl1 & clkpol_mask) { return 1; } else { return 0; } } void nx_dpc_set_clock_out_enb(u32 module_index, u32 index, int out_clk_enb) { const u32 outclkenb_pos = 15; const u32 outclkenb_mask = 1ul << outclkenb_pos; register struct nx_dpc_register_set *pregister; register u32 read_value; pregister = __g_module_variables[module_index].pregister; read_value = pregister->dpcclkgen[index][0]; read_value &= ~outclkenb_mask; if (out_clk_enb == 1) read_value |= outclkenb_mask; writel(read_value, &pregister->dpcclkgen[index][0]); } int nx_dpc_get_clock_out_enb(u32 module_index, u32 index) { const u32 outclkenb_pos = 15; const u32 outclkenb_mask = 1ul << outclkenb_pos; if (__g_module_variables[module_index].pregister->dpcclkgen[index][0] & outclkenb_mask) { return 1; } else { return 0; } } void nx_dpc_set_clock_out_delay(u32 module_index, u32 index, u32 delay) { const u32 outclkdelay_pos = 0; const u32 outclkdelay_mask = 0x1f << outclkdelay_pos; register struct nx_dpc_register_set *pregister; register u32 read_value; pregister = __g_module_variables[module_index].pregister; read_value = pregister->dpcclkgen[index][1]; read_value &= ~outclkdelay_mask; read_value |= (u32)delay << outclkdelay_pos; writel(read_value, &pregister->dpcclkgen[index][1]); } u32 nx_dpc_get_clock_out_delay(u32 module_index, u32 index) { register struct nx_dpc_register_set *pregister; const u32 outclkdelay_pos = 0; const u32 outclkdelay_mask = 0x1f << outclkdelay_pos; pregister = __g_module_variables[module_index].pregister; return (u32)((pregister->dpcclkgen[index][1] & outclkdelay_mask) >> outclkdelay_pos); } void nx_dpc_set_clock_divisor_enable(u32 module_index, int enable) { const u32 clkgenenb_pos = 2; const u32 clkgenenb_mask = 1ul << clkgenenb_pos; register struct nx_dpc_register_set *pregister; register u32 read_value; pregister = __g_module_variables[module_index].pregister; read_value = pregister->dpcclkenb; read_value &= ~clkgenenb_mask; read_value |= (u32)enable << clkgenenb_pos; writel(read_value, &pregister->dpcclkenb); } int nx_dpc_get_clock_divisor_enable(u32 module_index) { const u32 clkgenenb_pos = 2; const u32 clkgenenb_mask = 1ul << clkgenenb_pos; return (int)((__g_module_variables[module_index].pregister->dpcclkenb & clkgenenb_mask) >> clkgenenb_pos); } void nx_dpc_set_dpc_enable(u32 module_index, int benb) { const u32 intpend_pos = 10; const u32 intpend_mask = 1ul << intpend_pos; const u32 dpcenb_pos = 15; const u32 dpcenb_mask = 1ul << dpcenb_pos; register struct nx_dpc_register_set *pregister; register u32 read_value; pregister = __g_module_variables[module_index].pregister; read_value = pregister->dpcctrl0; read_value &= ~(intpend_mask | dpcenb_mask); read_value |= (u32)benb << dpcenb_pos; writel(read_value, &pregister->dpcctrl0); } int nx_dpc_get_dpc_enable(u32 module_index) { const u32 dpcenb_pos = 15; const u32 dpcenb_mask = 1ul << dpcenb_pos; return (int)((__g_module_variables[module_index].pregister->dpcctrl0 & dpcenb_mask) >> dpcenb_pos); } void nx_dpc_set_delay(u32 module_index, u32 delay_rgb_pvd, u32 delay_hs_cp1, u32 delay_vs_fram, u32 delay_de_cp2) { const u32 intpend_mask = 1u << 10; const u32 delayrgb_pos = 4; const u32 delayrgb_mask = 0xfu << delayrgb_pos; register u32 temp; const u32 delayde_pos = 0; const u32 delayvs_pos = 8; const u32 delayhs_pos = 0; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; temp = pregister->dpcctrl0; temp &= (u32)~(intpend_mask | delayrgb_mask); temp = (u32)(temp | (delay_rgb_pvd << delayrgb_pos)); writel(temp, &pregister->dpcctrl0); writel((u32)((delay_vs_fram << delayvs_pos) | (delay_hs_cp1 << delayhs_pos)), &pregister->dpcdelay0); writel((u32)(delay_de_cp2 << delayde_pos), &pregister->dpcdelay1); } void nx_dpc_get_delay(u32 module_index, u32 *pdelayrgb_pvd, u32 *pdelayhs_cp1, u32 *pdelayvs_fram, u32 *pdelayde_cp2) { const u32 delayrgb_pos = 4; const u32 delayrgb_mask = 0xfu << delayrgb_pos; const u32 delayde_pos = 0; const u32 delayde_mask = 0x3fu << delayde_pos; const u32 delayvs_pos = 8; const u32 delayvs_mask = 0x3fu << delayvs_pos; const u32 delayhs_pos = 0; const u32 delayhs_mask = 0x3fu << delayhs_pos; register u32 temp; temp = __g_module_variables[module_index].pregister->dpcctrl0; if (pdelayrgb_pvd) *pdelayrgb_pvd = (u32)((temp & delayrgb_mask) >> delayrgb_pos); temp = __g_module_variables[module_index].pregister->dpcdelay0; if (pdelayhs_cp1) *pdelayhs_cp1 = (u32)((temp & delayhs_mask) >> delayhs_pos); if (pdelayvs_fram) *pdelayvs_fram = (u32)((temp & delayvs_mask) >> delayvs_pos); temp = __g_module_variables[module_index].pregister->dpcdelay1; if (pdelayde_cp2) *pdelayde_cp2 = (u32)((temp & delayde_mask) >> delayde_pos); } void nx_dpc_set_dither(u32 module_index, enum nx_dpc_dither dither_r, enum nx_dpc_dither dither_g, enum nx_dpc_dither dither_b) { const u32 dither_mask = 0x3fu; const u32 rdither_pos = 0; const u32 gdither_pos = 2; const u32 bdither_pos = 4; register u32 temp; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; temp = pregister->dpcctrl1; temp &= (u32)~dither_mask; temp = (u32)(temp | ((dither_b << bdither_pos) | (dither_g << gdither_pos) | (dither_r << rdither_pos))); writel(temp, &pregister->dpcctrl1); } void nx_dpc_get_dither(u32 module_index, enum nx_dpc_dither *pditherr, enum nx_dpc_dither *pditherg, enum nx_dpc_dither *pditherb) { const u32 rdither_pos = 0; const u32 rdither_mask = 0x3u << rdither_pos; const u32 gdither_pos = 2; const u32 gdither_mask = 0x3u << gdither_pos; const u32 bdither_pos = 4; const u32 bdither_mask = 0x3u << bdither_pos; register u32 temp; temp = __g_module_variables[module_index].pregister->dpcctrl1; if (pditherr) *pditherr = (enum nx_dpc_dither)((temp & rdither_mask) >> rdither_pos); if (pditherg) *pditherg = (enum nx_dpc_dither)((temp & gdither_mask) >> gdither_pos); if (pditherb) *pditherb = (enum nx_dpc_dither)((temp & bdither_mask) >> bdither_pos); } void nx_dpc_set_mode(u32 module_index, enum nx_dpc_format format, int binterlace, int binvertfield, int brgbmode, int bswaprb, enum nx_dpc_ycorder ycorder, int bclipyc, int bembeddedsync, enum nx_dpc_padclk clock, int binvertclock, int bdualview) { const u32 polfield_pos = 2; const u32 seavenb_pos = 8; const u32 scanmode_pos = 9; const u32 intpend_pos = 10; const u32 rgbmode_pos = 12; const u32 dither_mask = 0x3f; const u32 ycorder_pos = 6; const u32 format_pos = 8; const u32 ycrange_pos = 13; const u32 swaprb_pos = 15; const u32 padclksel_pos = 0; const u32 padclksel_mask = 3u << padclksel_pos; const u32 lcdtype_pos = 7; const u32 lcdtype_mask = 3u << lcdtype_pos; register struct nx_dpc_register_set *pregister; register u32 temp; pregister = __g_module_variables[module_index].pregister; temp = pregister->dpcctrl0; temp &= (u32)~(1u << intpend_pos); if (binterlace) temp |= (u32)(1u << scanmode_pos); else temp &= (u32)~(1u << scanmode_pos); if (binvertfield) temp |= (u32)(1u << polfield_pos); else temp &= (u32)~(1u << polfield_pos); if (brgbmode) temp |= (u32)(1u << rgbmode_pos); else temp &= (u32)~(1u << rgbmode_pos); if (bembeddedsync) temp |= (u32)(1u << seavenb_pos); else temp &= (u32)~(1u << seavenb_pos); writel(temp, &pregister->dpcctrl0); temp = pregister->dpcctrl1; temp &= (u32)dither_mask; temp = (u32)(temp | (ycorder << ycorder_pos)); if (format >= 16) { register u32 temp1; temp1 = pregister->dpcctrl2; temp1 = temp1 | (1 << 4); writel(temp1, &pregister->dpcctrl2); } else { register u32 temp1; temp1 = pregister->dpcctrl2; temp1 = temp1 & ~(1 << 4); writel(temp1, &pregister->dpcctrl2); } temp = (u32)(temp | ((format & 0xf) << format_pos)); if (!bclipyc) temp |= (u32)(1u << ycrange_pos); if (bswaprb) temp |= (u32)(1u << swaprb_pos); writel(temp, &pregister->dpcctrl1); temp = pregister->dpcctrl2; temp &= (u32)~(padclksel_mask | lcdtype_mask); temp = (u32)(temp | (clock << padclksel_pos)); writel(temp, &pregister->dpcctrl2); nx_dpc_set_clock_out_inv(module_index, 0, binvertclock); nx_dpc_set_clock_out_inv(module_index, 1, binvertclock); } void nx_dpc_get_mode(u32 module_index, enum nx_dpc_format *pformat, int *pbinterlace, int *pbinvertfield, int *pbrgbmode, int *pbswaprb, enum nx_dpc_ycorder *pycorder, int *pbclipyc, int *pbembeddedsync, enum nx_dpc_padclk *pclock, int *pbinvertclock, int *pbdualview) { const u32 polfield = 1u << 2; const u32 seavenb = 1u << 8; const u32 scanmode = 1u << 9; const u32 rgbmode = 1u << 12; const u32 ycorder_pos = 6; const u32 ycorder_mask = 0x3u << ycorder_pos; const u32 format_pos = 8; const u32 format_mask = 0xfu << format_pos; const u32 ycrange = 1u << 13; const u32 swaprb = 1u << 15; const u32 padclksel_pos = 0; const u32 padclksel_mask = 3u << padclksel_pos; const u32 lcdtype_pos = 7; const u32 lcdtype_mask = 3u << lcdtype_pos; register u32 temp; temp = __g_module_variables[module_index].pregister->dpcctrl0; if (pbinterlace) *pbinterlace = (temp & scanmode) ? 1 : 0; if (pbinvertfield) *pbinvertfield = (temp & polfield) ? 1 : 0; if (pbrgbmode) *pbrgbmode = (temp & rgbmode) ? 1 : 0; if (pbembeddedsync) *pbembeddedsync = (temp & seavenb) ? 1 : 0; temp = __g_module_variables[module_index].pregister->dpcctrl1; if (pycorder) *pycorder = (enum nx_dpc_ycorder)((temp & ycorder_mask) >> ycorder_pos); if (pformat) *pformat = (enum nx_dpc_format)((temp & format_mask) >> format_pos); if (pbclipyc) *pbclipyc = (temp & ycrange) ? 0 : 1; if (pbswaprb) *pbswaprb = (temp & swaprb) ? 1 : 0; temp = __g_module_variables[module_index].pregister->dpcctrl2; if (pclock) *pclock = (enum nx_dpc_padclk)((temp & padclksel_mask) >> padclksel_pos); if (pbdualview) *pbdualview = (2 == ((temp & lcdtype_mask) >> lcdtype_pos)) ? 1 : 0; if (pbinvertclock) *pbinvertclock = nx_dpc_get_clock_out_inv(module_index, 1); } void nx_dpc_set_hsync(u32 module_index, u32 avwidth, u32 hsw, u32 hfp, u32 hbp, int binvhsync) { const u32 intpend = 1u << 10; const u32 polhsync = 1u << 0; register u32 temp; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u32)(hsw + hbp + avwidth + hfp - 1), &pregister->dpchtotal); writel((u32)(hsw - 1), &pregister->dpchswidth); writel((u32)(hsw + hbp - 1), &pregister->dpchastart); writel((u32)(hsw + hbp + avwidth - 1), &pregister->dpchaend); temp = pregister->dpcctrl0; temp &= ~intpend; if (binvhsync) temp |= (u32)polhsync; else temp &= (u32)~polhsync; writel(temp, &pregister->dpcctrl0); } void nx_dpc_get_hsync(u32 module_index, u32 *pavwidth, u32 *phsw, u32 *phfp, u32 *phbp, int *pbinvhsync) { const u32 polhsync = 1u << 0; u32 htotal, hsw, hab, hae; u32 avw, hfp, hbp; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; htotal = (u32)pregister->dpchtotal + 1; hsw = (u32)pregister->dpchswidth + 1; hab = (u32)pregister->dpchastart + 1; hae = (u32)pregister->dpchaend + 1; hbp = hab - hsw; avw = hae - hab; hfp = htotal - hae; if (pavwidth) *pavwidth = avw; if (phsw) *phsw = hsw; if (phfp) *phfp = hfp; if (phbp) *phbp = hbp; if (pbinvhsync) *pbinvhsync = (pregister->dpcctrl0 & polhsync) ? 1 : 0; } void nx_dpc_set_vsync(u32 module_index, u32 avheight, u32 vsw, u32 vfp, u32 vbp, int binvvsync, u32 eavheight, u32 evsw, u32 evfp, u32 evbp) { const u32 intpend = 1u << 10; const u32 polvsync = 1u << 1; register u32 temp; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u32)(vsw + vbp + avheight + vfp - 1), &pregister->dpcvtotal); writel((u32)(vsw - 1), &pregister->dpcvswidth); writel((u32)(vsw + vbp - 1), &pregister->dpcvastart); writel((u32)(vsw + vbp + avheight - 1), &pregister->dpcvaend); writel((u32)(evsw + evbp + eavheight + evfp - 1), &pregister->dpcevtotal); writel((u32)(evsw - 1), &pregister->dpcevswidth); writel((u32)(evsw + evbp - 1), &pregister->dpcevastart); writel((u32)(evsw + evbp + eavheight - 1), &pregister->dpcevaend); temp = pregister->dpcctrl0; temp &= ~intpend; if (binvvsync) temp |= (u32)polvsync; else temp &= (u32)~polvsync; writel(temp, &pregister->dpcctrl0); } void nx_dpc_get_vsync(u32 module_index, u32 *pavheight, u32 *pvsw, u32 *pvfp, u32 *pvbp, int *pbinvvsync, u32 *peavheight, u32 *pevsw, u32 *pevfp, u32 *pevbp) { const u32 polvsync = 1u << 1; u32 vtotal, vsw, vab, vae; u32 avh, vfp, vbp; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; vtotal = (u32)pregister->dpcvtotal + 1; vsw = (u32)pregister->dpcvswidth + 1; vab = (u32)pregister->dpcvastart + 1; vae = (u32)pregister->dpcvaend + 1; vbp = vab - vsw; avh = vae - vab; vfp = vtotal - vae; if (pavheight) *pavheight = avh; if (pvsw) *pvsw = vsw; if (pvfp) *pvfp = vfp; if (pvbp) *pvbp = vbp; vtotal = (u32)pregister->dpcevtotal + 1; vsw = (u32)pregister->dpcevswidth + 1; vab = (u32)pregister->dpcevastart + 1; vae = (u32)pregister->dpcevaend + 1; vbp = vab - vsw; avh = vae - vab; vfp = vtotal - vae; if (peavheight) *peavheight = avh; if (pevsw) *pevsw = vsw; if (pevfp) *pevfp = vfp; if (pevbp) *pevbp = vbp; if (pbinvvsync) *pbinvvsync = (pregister->dpcctrl0 & polvsync) ? 1 : 0; } void nx_dpc_set_vsync_offset(u32 module_index, u32 vssoffset, u32 vseoffset, u32 evssoffset, u32 evseoffset) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u32)vseoffset, &pregister->dpcvseoffset); writel((u32)vssoffset, &pregister->dpcvssoffset); writel((u32)evseoffset, &pregister->dpcevseoffset); writel((u32)evssoffset, &pregister->dpcevssoffset); } void nx_dpc_get_vsync_offset(u32 module_index, u32 *pvssoffset, u32 *pvseoffset, u32 *pevssoffset, u32 *pevseoffset) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; if (pvseoffset) *pvseoffset = (u32)pregister->dpcvseoffset; if (pvssoffset) *pvssoffset = (u32)pregister->dpcvssoffset; if (pevseoffset) *pevseoffset = (u32)pregister->dpcevseoffset; if (pevssoffset) *pevssoffset = (u32)pregister->dpcevssoffset; } void nx_dpc_set_horizontal_up_scaler(u32 module_index, int benb, u32 sourcewidth, u32 destwidth) { const u32 upscalel_pos = 8; const u32 upscaleh_pos = 0; const u32 upscaleh_mask = ((1 << 15) - 1) << upscaleh_pos; const u32 upscalerenb_pos = 0; register struct nx_dpc_register_set *pregister; register u32 regvalue; register u32 up_scale; pregister = __g_module_variables[module_index].pregister; up_scale = ((sourcewidth - 1) * (1 << 11)) / (destwidth - 1); regvalue = 0; regvalue |= (((u32)benb << upscalerenb_pos) | (up_scale & 0xff) << upscalel_pos); writel(regvalue, &pregister->dpcupscalecon0); writel((up_scale >> 0x08) & upscaleh_mask, &pregister->dpcupscalecon1); writel(sourcewidth - 1, &pregister->dpcupscalecon2); } void nx_dpc_get_horizontal_up_scaler(u32 module_index, int *pbenb, u32 *psourcewidth, u32 *pdestwidth) { const u32 upscalerenb_pos = 0; const u32 upscalerenb_mask = 1u << upscalerenb_pos; register struct nx_dpc_register_set *pregister; u32 up_scale; u32 destwidth, srcwidth; pregister = __g_module_variables[module_index].pregister; up_scale = ((u32)(pregister->dpcupscalecon1 & 0x7fff) << 8) | ((u32)(pregister->dpcupscalecon0 >> 8) & 0xff); srcwidth = pregister->dpcupscalecon2; destwidth = (srcwidth * (1 << 11)) / up_scale; if (pbenb) *pbenb = (pregister->dpcupscalecon0 & upscalerenb_mask); if (psourcewidth) *psourcewidth = srcwidth + 1; if (pdestwidth) *pdestwidth = destwidth + 1; } void nx_dpc_set_sync(u32 module_index, enum syncgenmode sync_gen_mode, u32 avwidth, u32 avheight, u32 hsw, u32 hfp, u32 hbp, u32 vsw, u32 vfp, u32 vbp, enum polarity field_polarity, enum polarity hsyncpolarity, enum polarity vsyncpolarity, u32 even_vsw, u32 even_vfp, u32 even_vbp, u32 vsetpixel, u32 vsclrpixel, u32 evenvsetpixel, u32 evenvsclrpixel) { register struct nx_dpc_register_set *pregister; u32 regvalue = 0; pregister = __g_module_variables[module_index].pregister; writel((u32)(hfp + hsw + hbp + avwidth - 1), &pregister->dpchtotal); writel((u32)(hsw - 1), &pregister->dpchswidth); writel((u32)(hsw + hbp - 1), &pregister->dpchastart); writel((u32)(hsw + hbp + avwidth - 1), &pregister->dpchaend); writel((u32)(vfp + vsw + vbp + avheight - 1), &pregister->dpcvtotal); writel((u32)(vsw - 1), &pregister->dpcvswidth); writel((u32)(vsw + vbp - 1), &pregister->dpcvastart); writel((u32)(vsw + vbp + avheight - 1), &pregister->dpcvaend); writel((u32)vsetpixel, &pregister->dpcvseoffset); writel((u32)(hfp + hsw + hbp + avwidth - vsclrpixel - 1), &pregister->dpcvssoffset); writel((u32)evenvsetpixel, &pregister->dpcevseoffset); writel((u32)(hfp + hsw + hbp + avwidth - evenvsclrpixel - 1), &pregister->dpcevssoffset); if (sync_gen_mode == 1) { writel((u32)(even_vfp + even_vsw + even_vbp + avheight - 1), &pregister->dpcevtotal); writel((u32)(even_vsw - 1), &pregister->dpcevswidth); writel((u32)(even_vsw + even_vbp - 1), &pregister->dpcevastart); writel((u32)(even_vsw + even_vbp + avheight - 1), &pregister->dpcevaend); } regvalue = readl(&pregister->dpcctrl0) & 0xfff0ul; regvalue |= (((u32)field_polarity << 2) | ((u32)vsyncpolarity << 1) | ((u32)hsyncpolarity << 0)); writel((u32)regvalue, &pregister->dpcctrl0); } void nx_dpc_set_output_format(u32 module_index, enum outputformat output_format, u8 output_video_config) { const u32 format_table[] = { (0 << 0), (1 << 0), (2 << 0), (3 << 0), (4 << 0), (5 << 0), (6 << 0), (7 << 0), (8 << 0), (9 << 0), (0 << 0) | (1 << 7), (1 << 0) | (1 << 7), (2 << 0) | (1 << 7), (3 << 0) | (1 << 7), (4 << 0) | (1 << 7), (5 << 0) | (1 << 7), (6 << 0) | (1 << 7), (7 << 0) | (1 << 7), (8 << 0) | (1 << 7), (9 << 0) | (1 << 7), (10 << 0), (11 << 0), (12 << 0), (13 << 0), (14 << 0), (15 << 0) }; u32 regvalue; u32 regvalue0; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; regvalue = readl(&pregister->dpcctrl1) & 0x30fful; regvalue |= (format_table[output_format] << 8); writel((u32)regvalue, &pregister->dpcctrl1); regvalue0 = (u32)(readl(&pregister->dpcctrl1) & 0xff3f); regvalue0 = (u32)((output_video_config << 6) | regvalue0); writel((u32)regvalue0, &pregister->dpcctrl1); } void nx_dpc_set_quantization_mode(u32 module_index, enum qmode rgb2yc, enum qmode yc2rgb) { register struct nx_dpc_register_set *pregister; u32 regvalue; pregister = __g_module_variables[module_index].pregister; regvalue = readl(&pregister->dpcctrl1) & 0x8ffful; regvalue |= ((u32)rgb2yc << 13) | ((u32)yc2rgb << 12); writel((u32)regvalue, &pregister->dpcctrl1); } void nx_dpc_set_enable(u32 module_index, int enable, int rgbmode, int use_ntscsync, int use_analog_output, int seavenable) { u32 regvalue; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; regvalue = readl(&pregister->dpcctrl0) & 0x0efful; regvalue |= ((u32)enable << 15) | ((u32)use_ntscsync << 14) | ((u32)seavenable << 8) | ((u32)use_analog_output << 13) | ((u32)rgbmode << 12); writel((u32)regvalue, &pregister->dpcctrl0); } void nx_dpc_set_out_video_clk_select(u32 module_index, enum outpadclksel out_pad_vclk_sel) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u32)((readl(&pregister->dpcctrl2)) | (out_pad_vclk_sel & 0x3)), &pregister->dpcctrl2); } void nx_dpc_set_reg_flush(u32 module_index) { u32 reg; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; reg = readl(&pregister->dpcdataflush); writel((u32)(reg | (1ul << 4)), &pregister->dpcdataflush); } void nx_dpc_set_sramon(u32 module_index) { u32 reg; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; reg = (u32)(readl(&pregister->dpcctrl2) & 0xf3ff); writel((u32)(reg | (1ul << 10)), &pregister->dpcctrl2); reg = (u32)(readl(&pregister->dpcctrl2) & 0xf7ff); writel((u32)(reg | (1ul << 11)), &pregister->dpcctrl2); } void nx_dpc_set_sync_lcdtype(u32 module_index, int stnlcd, int dual_view_enb, int bit_widh, u8 cpcycle) { u32 reg; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; reg = (u32)(readl(&pregister->dpcctrl2) & 0xc0f); writel((u32)(reg | (cpcycle << 12) | (bit_widh << 9) | (dual_view_enb << 8) | (stnlcd << 7)), &pregister->dpcctrl2); } void nx_dpc_set_up_scale_control(u32 module_index, int up_scale_enb, int filter_enb, u32 hscale, u16 source_width) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u32)((hscale << 8) | ((u32)filter_enb << 1) | (up_scale_enb)), &pregister->dpcupscalecon0); writel((u32)(hscale >> 8), &pregister->dpcupscalecon1); writel(source_width, &pregister->dpcupscalecon2); } void nx_dpc_set_mputime(u32 module_index, u8 setup, u8 hold, u8 acc) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u32)((setup << 8) | (hold & 0xff)), &pregister->dpcmputime0); writel((u32)(acc), &pregister->dpcmputime1); } void nx_dpc_set_index(u32 module_index, u32 index) { u32 regvalue; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u32)(index & 0xffff), &pregister->dpcmpuwrdatal); writel((u32)((index >> 16) & 0xff), &pregister->dpcmpuindex); if (index == 0x22) { regvalue = readl(&pregister->dpcctrl2); writel((regvalue | 0x10), &pregister->dpcctrl2); } } void nx_dpc_set_data(u32 module_index, u32 data) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u32)(data & 0xffff), &pregister->dpcmpuwrdatal); writel((u32)((data >> 16) & 0xff), &pregister->dpcmpudatah); } void nx_dpc_set_cmd_buffer_flush(u32 module_index) { u32 reg; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; reg = readl(&pregister->dpcdataflush); writel((u32)(reg | (1 << 1)), &pregister->dpcdataflush); } void nx_dpc_set_cmd_buffer_clear(u32 module_index) { u32 reg; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; reg = readl(&pregister->dpcdataflush); writel((u32)(reg | (1 << 0)), &pregister->dpcdataflush); } void nx_dpc_set_cmd_buffer_write(u32 module_index, u32 cmd_data) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u32)(cmd_data & 0xffff), &pregister->dpccmdbufferdatal); writel((u32)(cmd_data >> 16), &pregister->dpccmdbufferdatah); } void nx_dpc_set(u32 module_index) { u32 reg; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; reg = readl(&pregister->dpcpolctrl); writel((u32)(reg | 0x1), &pregister->dpcpolctrl); } u32 nx_dpc_get_data(u32 module_index) { u32 reg = 0; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; reg = readl(&pregister->dpcmpudatah); reg = (reg << 16) | readl(&pregister->dpcmpurdatal); return reg; } u32 nx_dpc_get_status(u32 module_index) { u32 reg = 0; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; reg = readl(&pregister->dpcmpustatus); reg = (reg << 16) | readl(&pregister->dpcmpurdatal); return reg; } void nx_dpc_rgbmask(u32 module_index, u32 rgbmask) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((rgbmask >> 0) & 0xffff, &pregister->dpcrgbmask[0]); writel((rgbmask >> 16) & 0x00ff, &pregister->dpcrgbmask[1]); } void nx_dpc_set_pad_location(u32 module_index, u32 index, u32 regvalue) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel(regvalue, &pregister->dpcpadposition[index]); } u32 nx_dpc_get_field_flag(u32 module_index) { register struct nx_dpc_register_set *pregister; u32 regvalue; pregister = __g_module_variables[module_index].pregister; regvalue = readl(&pregister->dpcrgbshift); return (u32)((regvalue >> 5) & 0x01); } void nx_dpc_set_enable_with_interlace(u32 module_index, int enable, int rgbmode, int use_ntscsync, int use_analog_output, int seavenable) { u32 regvalue; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; regvalue = readl(&pregister->dpcctrl0) & 0x0eff; regvalue = readl(&pregister->dpcctrl0) & 0x0eff; regvalue |= ((u32)enable << 15) | ((u32)use_ntscsync << 14) | ((u32)seavenable << 8) | ((u32)use_analog_output << 13) | ((u32)rgbmode << 12); regvalue |= (1 << 9); writel((u16)regvalue, &pregister->dpcctrl0); } void nx_dpc_set_encoder_control_reg(u32 module_index, u32 param_a, u32 param_b, u32 param_c) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel(param_a, &pregister->ntsc_ecmda); writel(param_b, &pregister->ntsc_ecmdb); writel(param_c, &pregister->ntsc_ecmdc); } void nx_dpc_set_encoder_shcphase_control(u32 module_index, u32 chroma_param) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel(chroma_param, &pregister->ntsc_sch); } void nx_dpc_set_encoder_timing_config_reg(u32 module_index, u32 icntl) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel(icntl, &pregister->ntsc_icntl); } void nx_dpc_set_encoder_dacoutput_select(u32 module_index, u8 dacsel0, u8 dacsel1, u8 dacsel2, u8 dacsel3, u8 dacsel4, u8 dacsel5) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel(((dacsel1 & 0xf) << 4) | (dacsel0 & 0xf), &pregister->ntsc_dacsel10); writel(((dacsel3 & 0xf) << 4) | (dacsel2 & 0xf), &pregister->ntsc_dacsel32); writel(((dacsel5 & 0xf) << 4) | (dacsel4 & 0xf), &pregister->ntsc_dacsel54); } void nx_dpc_set_encoder_sync_location(u32 module_index, u16 hsoe, u16 hsob, u16 vsob, u16 vsoe, u8 vsost, int novrst) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u16)((((vsob & 0x100) >> 2) | ((hsob & 0x700) >> 5) | (hsoe & 0x700) >> 8)), &pregister->ntsc_hsvso); writel((u16)(hsoe & 0xff), &pregister->ntsc_hsoe); writel((u16)(hsob & 0xff), &pregister->ntsc_hsob); writel((u16)(vsob & 0xff), &pregister->ntsc_vsob); writel((u16)(((vsost & 0x3) << 6) | (novrst << 5) | (vsoe & 0x1f)), &pregister->ntsc_vsoe); } void nx_dpc_set_encoder_dacpower_enable(u32 module_index, u8 dacpd) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel(dacpd, &pregister->ntsc_dacpd); } void nx_dpc_set_ycorder(u32 module_index, enum nx_dpc_ycorder ycorder) { const u16 ycorder_pos = 6; register struct nx_dpc_register_set *pregister; u32 temp; pregister = __g_module_variables[module_index].pregister; temp = pregister->dpcctrl1 & (~(0xf << ycorder_pos)); temp = (u16)(temp | (ycorder << ycorder_pos)); writel(temp, &pregister->dpcctrl1); } void nx_dpc_set_luma_gain(u32 module_index, u32 luma_gain) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel(luma_gain, &pregister->ntsc_cont); } void nx_dpc_set_encenable(u32 module_index, int benb) { const u16 encmode = 1u << 14; const u16 encrst = 1u << 13; const u16 intpend = 1u << 10; register struct nx_dpc_register_set *pregister; register u16 temp; pregister = __g_module_variables[module_index].pregister; temp = readl(&pregister->dpcctrl0); temp &= (u16)~intpend; if (benb) temp |= (u16)encrst; else temp &= (u16)~encrst; writel((temp | encmode), &pregister->dpcctrl0); writel(7, &pregister->ntsc_icntl); } int nx_dpc_get_encenable(u32 module_index) { const u16 encrst = 1u << 13; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; return (readl(&pregister->dpcctrl0) & encrst) ? 1 : 0; } void nx_dpc_set_video_encoder_power_down(u32 module_index, int benb) { const u16 pwdenc = 1u << 7; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; if (benb) { writel(readl(&pregister->ntsc_ecmda) | (u16)pwdenc, &pregister->ntsc_ecmda); writel(0, &pregister->ntsc_dacsel10); } else { writel(1, &pregister->ntsc_dacsel10); writel(readl(&pregister->ntsc_ecmda) & (u16)~pwdenc, &pregister->ntsc_ecmda); } } int nx_dpc_get_video_encoder_power_down(u32 module_index) { const u16 pwdenc = 1u << 7; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; return (readl(&pregister->ntsc_ecmda) & pwdenc) ? 1 : 0; } void nx_dpc_set_video_encoder_mode(u32 module_index, enum nx_dpc_vbs vbs, int bpedestal) { register struct nx_dpc_register_set *pregister; #define phalt (1u << 0) #define ifmt (1u << 1) #define ped (1u << 3) #define fscsel_ntsc (0u << 4) #define fscsel_pal (1u << 4) #define fscsel_palm (2u << 4) #define fscsel_paln (3u << 4) #define fdrst (1u << 6) #define pwdenc (1u << 7) register u16 temp; static const u8 ntsc_ecmda_table[] = { (u8)(fscsel_ntsc | fdrst), (u8)(ifmt | fscsel_ntsc), (u8)(fscsel_pal), (u8)(fscsel_palm | phalt), (u8)(ifmt | fscsel_paln | phalt), (u8)(ifmt | fscsel_pal | phalt | fdrst), (u8)(fscsel_pal | phalt), (u8)(ifmt | fscsel_ntsc) }; pregister = __g_module_variables[module_index].pregister; temp = readl(&pregister->ntsc_ecmda); temp &= (u16)pwdenc; temp = (u16)(temp | (u16)ntsc_ecmda_table[vbs]); if (bpedestal) temp |= (u16)ped; writel(temp, &pregister->ntsc_ecmda); #undef phalt #undef ifmt #undef ped #undef fscsel_ntsc #undef fscsel_pal #undef fscsel_palm #undef fscsel_paln #undef fdrst #undef pwdenc } void nx_dpc_set_video_encoder_schlock_control(u32 module_index, int bfreerun) { const u16 fdrst = 1u << 6; register struct nx_dpc_register_set *pregister; register u16 temp; pregister = __g_module_variables[module_index].pregister; temp = readl(&pregister->ntsc_ecmda); if (bfreerun) temp |= (u16)fdrst; else temp &= (u16)~fdrst; writel(temp, &pregister->ntsc_ecmda); } int nx_dpc_get_video_encoder_schlock_control(u32 module_index) { const u16 fdrst = 1u << 6; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; return (readl(&pregister->ntsc_ecmda) & fdrst) ? 1 : 0; } void nx_dpc_set_video_encoder_bandwidth(u32 module_index, enum nx_dpc_bandwidth luma, enum nx_dpc_bandwidth chroma) { const u16 ybw_pos = 0; const u16 cbw_pos = 2; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u16)((chroma << cbw_pos) | (luma << ybw_pos)), &pregister->ntsc_ecmdb); } void nx_dpc_get_video_encoder_bandwidth(u32 module_index, enum nx_dpc_bandwidth *pluma, enum nx_dpc_bandwidth *pchroma) { const u16 ybw_pos = 0; const u16 ybw_mask = 3u << ybw_pos; const u16 cbw_pos = 2; const u16 cbw_mask = 3u << cbw_pos; register struct nx_dpc_register_set *pregister; register u16 temp; pregister = __g_module_variables[module_index].pregister; temp = readl(&pregister->ntsc_ecmdb); if (pluma) *pluma = (enum nx_dpc_bandwidth)((temp & ybw_mask) >> ybw_pos); if (pchroma) *pchroma = (enum nx_dpc_bandwidth)((temp & cbw_mask) >> cbw_pos); } void nx_dpc_set_video_encoder_color_control(u32 module_index, s8 sch, s8 hue, s8 sat, s8 crt, s8 brt) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u16)sch, &pregister->ntsc_sch); writel((u16)hue, &pregister->ntsc_hue); writel((u16)sat, &pregister->ntsc_sat); writel((u16)crt, &pregister->ntsc_cont); writel((u16)brt, &pregister->ntsc_bright); } void nx_dpc_get_video_encoder_color_control(u32 module_index, s8 *psch, s8 *phue, s8 *psat, s8 *pcrt, s8 *pbrt) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; if (psch) *psch = (s8)readl(&pregister->ntsc_sch); if (phue) *phue = (s8)readl(&pregister->ntsc_hue); if (psat) *psat = (s8)readl(&pregister->ntsc_sat); if (pcrt) *pcrt = (s8)readl(&pregister->ntsc_cont); if (pbrt) *pbrt = (s8)readl(&pregister->ntsc_bright); } void nx_dpc_set_video_encoder_fscadjust(u32 module_index, int16_t adjust) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; writel((u16)(adjust >> 8), &pregister->ntsc_fsc_adjh); writel((u16)(adjust & 0xff), &pregister->ntsc_fsc_adjl); } u16 nx_dpc_get_video_encoder_fscadjust(u32 module_index) { register u32 temp; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; temp = (u32)readl(&pregister->ntsc_fsc_adjh); temp <<= 8; temp |= (((u32)readl(&pregister->ntsc_fsc_adjl)) & 0xff); return (u16)temp; } void nx_dpc_set_video_encoder_timing(u32 module_index, u32 hsos, u32 hsoe, u32 vsos, u32 vsoe) { register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; hsos -= 1; hsoe -= 1; writel((u16)((((vsos >> 8) & 1u) << 6) | (((hsos >> 8) & 7u) << 3) | (((hsoe >> 8) & 7u) << 0)), &pregister->ntsc_hsvso); writel((u16)(hsos & 0xffu), &pregister->ntsc_hsob); writel((u16)(hsoe & 0xffu), &pregister->ntsc_hsoe); writel((u16)(vsos & 0xffu), &pregister->ntsc_vsob); writel((u16)(vsoe & 0x1fu), &pregister->ntsc_vsoe); } void nx_dpc_get_video_encoder_timing(u32 module_index, u32 *phsos, u32 *phsoe, u32 *pvsos, u32 *pvsoe) { register u16 hsvso; register struct nx_dpc_register_set *pregister; pregister = __g_module_variables[module_index].pregister; hsvso = readl(&pregister->ntsc_hsvso); if (phsos) *phsos = (u32)((((hsvso >> 3) & 7u) << 8) | (readl(&pregister->ntsc_hsob) & 0xffu)) + 1; if (phsoe) *phsoe = (u32)((((hsvso >> 0) & 7u) << 8) | (readl(&pregister->ntsc_hsoe) & 0xffu)) + 1; if (pvsos) *pvsos = (u32)((((hsvso >> 6) & 1u) << 8) | (readl(&pregister->ntsc_vsob) & 0xffu)); if (pvsoe) *pvsoe = (u32)(readl(&pregister->ntsc_vsoe) & 0x1fu); }