diff options
Diffstat (limited to 'kernel/drivers/staging/media/davinci_vpfe/dm365_ipipe_hw.c')
-rw-r--r-- | kernel/drivers/staging/media/davinci_vpfe/dm365_ipipe_hw.c | 1048 |
1 files changed, 1048 insertions, 0 deletions
diff --git a/kernel/drivers/staging/media/davinci_vpfe/dm365_ipipe_hw.c b/kernel/drivers/staging/media/davinci_vpfe/dm365_ipipe_hw.c new file mode 100644 index 000000000..2a3a56b88 --- /dev/null +++ b/kernel/drivers/staging/media/davinci_vpfe/dm365_ipipe_hw.c @@ -0,0 +1,1048 @@ +/* + * Copyright (C) 2012 Texas Instruments Inc + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License as + * published by the Free Software Foundation version 2. + * + * This program is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this program; if not, write to the Free Software + * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + * + * Contributors: + * Manjunath Hadli <manjunath.hadli@ti.com> + * Prabhakar Lad <prabhakar.lad@ti.com> + */ + +#include "dm365_ipipe_hw.h" + +#define IPIPE_MODE_CONTINUOUS 0 +#define IPIPE_MODE_SINGLE_SHOT 1 + +static void ipipe_clock_enable(void __iomem *base_addr) +{ + /* enable IPIPE MMR for register write access */ + regw_ip(base_addr, IPIPE_GCK_MMR_DEFAULT, IPIPE_GCK_MMR); + + /* enable the clock wb,cfa,dfc,d2f,pre modules */ + regw_ip(base_addr, IPIPE_GCK_PIX_DEFAULT, IPIPE_GCK_PIX); +} + +static void +rsz_set_common_params(void __iomem *rsz_base, struct resizer_params *params) +{ + struct rsz_common_params *rsz_common = ¶ms->rsz_common; + u32 val; + + /* Set mode */ + regw_rsz(rsz_base, params->oper_mode, RSZ_SRC_MODE); + + /* data source selection and bypass */ + val = (rsz_common->passthrough << RSZ_BYPASS_SHIFT) | + rsz_common->source; + regw_rsz(rsz_base, val, RSZ_SRC_FMT0); + + /* src image selection */ + val = (rsz_common->raw_flip & 1) | + (rsz_common->src_img_fmt << RSZ_SRC_IMG_FMT_SHIFT) | + ((rsz_common->y_c & 1) << RSZ_SRC_Y_C_SEL_SHIFT); + regw_rsz(rsz_base, val, RSZ_SRC_FMT1); + + regw_rsz(rsz_base, rsz_common->vps & IPIPE_RSZ_VPS_MASK, RSZ_SRC_VPS); + regw_rsz(rsz_base, rsz_common->hps & IPIPE_RSZ_HPS_MASK, RSZ_SRC_HPS); + regw_rsz(rsz_base, rsz_common->vsz & IPIPE_RSZ_VSZ_MASK, RSZ_SRC_VSZ); + regw_rsz(rsz_base, rsz_common->hsz & IPIPE_RSZ_HSZ_MASK, RSZ_SRC_HSZ); + regw_rsz(rsz_base, rsz_common->yuv_y_min, RSZ_YUV_Y_MIN); + regw_rsz(rsz_base, rsz_common->yuv_y_max, RSZ_YUV_Y_MAX); + regw_rsz(rsz_base, rsz_common->yuv_c_min, RSZ_YUV_C_MIN); + regw_rsz(rsz_base, rsz_common->yuv_c_max, RSZ_YUV_C_MAX); + /* chromatic position */ + regw_rsz(rsz_base, rsz_common->out_chr_pos, RSZ_YUV_PHS); +} + +static void +rsz_set_rsz_regs(void __iomem *rsz_base, unsigned int rsz_id, + struct resizer_params *params) +{ + struct resizer_scale_param *rsc_params; + struct rsz_ext_mem_param *ext_mem; + struct resizer_rgb *rgb; + u32 reg_base; + u32 val; + + rsc_params = ¶ms->rsz_rsc_param[rsz_id]; + rgb = ¶ms->rsz2rgb[rsz_id]; + ext_mem = ¶ms->ext_mem_param[rsz_id]; + + if (rsz_id == RSZ_A) { + val = rsc_params->h_flip << RSZA_H_FLIP_SHIFT; + val |= rsc_params->v_flip << RSZA_V_FLIP_SHIFT; + reg_base = RSZ_EN_A; + } else { + val = rsc_params->h_flip << RSZB_H_FLIP_SHIFT; + val |= rsc_params->v_flip << RSZB_V_FLIP_SHIFT; + reg_base = RSZ_EN_B; + } + /* update flip settings */ + regw_rsz(rsz_base, val, RSZ_SEQ); + + regw_rsz(rsz_base, params->oper_mode, reg_base + RSZ_MODE); + + val = (rsc_params->cen << RSZ_CEN_SHIFT) | rsc_params->yen; + regw_rsz(rsz_base, val, reg_base + RSZ_420); + + regw_rsz(rsz_base, rsc_params->i_vps & RSZ_VPS_MASK, + reg_base + RSZ_I_VPS); + regw_rsz(rsz_base, rsc_params->i_hps & RSZ_HPS_MASK, + reg_base + RSZ_I_HPS); + regw_rsz(rsz_base, rsc_params->o_vsz & RSZ_O_VSZ_MASK, + reg_base + RSZ_O_VSZ); + regw_rsz(rsz_base, rsc_params->o_hsz & RSZ_O_HSZ_MASK, + reg_base + RSZ_O_HSZ); + regw_rsz(rsz_base, rsc_params->v_phs_y & RSZ_V_PHS_MASK, + reg_base + RSZ_V_PHS_Y); + regw_rsz(rsz_base, rsc_params->v_phs_c & RSZ_V_PHS_MASK, + reg_base + RSZ_V_PHS_C); + + /* keep this additional adjustment to zero for now */ + regw_rsz(rsz_base, rsc_params->v_dif & RSZ_V_DIF_MASK, + reg_base + RSZ_V_DIF); + + val = (rsc_params->v_typ_y & 1) | + ((rsc_params->v_typ_c & 1) << RSZ_TYP_C_SHIFT); + regw_rsz(rsz_base, val, reg_base + RSZ_V_TYP); + + val = (rsc_params->v_lpf_int_y & RSZ_LPF_INT_MASK) | + ((rsc_params->v_lpf_int_c & RSZ_LPF_INT_MASK) << + RSZ_LPF_INT_C_SHIFT); + regw_rsz(rsz_base, val, reg_base + RSZ_V_LPF); + + regw_rsz(rsz_base, rsc_params->h_phs & + RSZ_H_PHS_MASK, reg_base + RSZ_H_PHS); + + regw_rsz(rsz_base, 0, reg_base + RSZ_H_PHS_ADJ); + regw_rsz(rsz_base, rsc_params->h_dif & + RSZ_H_DIF_MASK, reg_base + RSZ_H_DIF); + + val = (rsc_params->h_typ_y & 1) | + ((rsc_params->h_typ_c & 1) << RSZ_TYP_C_SHIFT); + regw_rsz(rsz_base, val, reg_base + RSZ_H_TYP); + + val = (rsc_params->h_lpf_int_y & RSZ_LPF_INT_MASK) | + ((rsc_params->h_lpf_int_c & RSZ_LPF_INT_MASK) << + RSZ_LPF_INT_C_SHIFT); + regw_rsz(rsz_base, val, reg_base + RSZ_H_LPF); + + regw_rsz(rsz_base, rsc_params->dscale_en & 1, reg_base + RSZ_DWN_EN); + + val = (rsc_params->h_dscale_ave_sz & RSZ_DWN_SCALE_AV_SZ_MASK) | + ((rsc_params->v_dscale_ave_sz & RSZ_DWN_SCALE_AV_SZ_MASK) << + RSZ_DWN_SCALE_AV_SZ_V_SHIFT); + regw_rsz(rsz_base, val, reg_base + RSZ_DWN_AV); + + /* setting rgb conversion parameters */ + regw_rsz(rsz_base, rgb->rgb_en, reg_base + RSZ_RGB_EN); + + val = (rgb->rgb_typ << RSZ_RGB_TYP_SHIFT) | + (rgb->rgb_msk0 << RSZ_RGB_MSK0_SHIFT) | + (rgb->rgb_msk1 << RSZ_RGB_MSK1_SHIFT); + regw_rsz(rsz_base, val, reg_base + RSZ_RGB_TYP); + + regw_rsz(rsz_base, rgb->rgb_alpha_val & RSZ_RGB_ALPHA_MASK, + reg_base + RSZ_RGB_BLD); + + /* setting external memory parameters */ + regw_rsz(rsz_base, ext_mem->rsz_sdr_oft_y, reg_base + RSZ_SDR_Y_OFT); + regw_rsz(rsz_base, ext_mem->rsz_sdr_ptr_s_y, + reg_base + RSZ_SDR_Y_PTR_S); + regw_rsz(rsz_base, ext_mem->rsz_sdr_ptr_e_y, + reg_base + RSZ_SDR_Y_PTR_E); + regw_rsz(rsz_base, ext_mem->rsz_sdr_oft_c, reg_base + RSZ_SDR_C_OFT); + regw_rsz(rsz_base, ext_mem->rsz_sdr_ptr_s_c, + reg_base + RSZ_SDR_C_PTR_S); + regw_rsz(rsz_base, (ext_mem->rsz_sdr_ptr_e_c >> 1), + reg_base + RSZ_SDR_C_PTR_E); +} + +/*set the registers of either RSZ0 or RSZ1 */ +static void +ipipe_setup_resizer(void __iomem *rsz_base, struct resizer_params *params) +{ + /* enable MMR gate to write to Resizer */ + regw_rsz(rsz_base, 1, RSZ_GCK_MMR); + + /* Enable resizer if it is not in bypass mode */ + if (params->rsz_common.passthrough) + regw_rsz(rsz_base, 0, RSZ_GCK_SDR); + else + regw_rsz(rsz_base, 1, RSZ_GCK_SDR); + + rsz_set_common_params(rsz_base, params); + + regw_rsz(rsz_base, params->rsz_en[RSZ_A], RSZ_EN_A); + + if (params->rsz_en[RSZ_A]) + /*setting rescale parameters */ + rsz_set_rsz_regs(rsz_base, RSZ_A, params); + + regw_rsz(rsz_base, params->rsz_en[RSZ_B], RSZ_EN_B); + + if (params->rsz_en[RSZ_B]) + rsz_set_rsz_regs(rsz_base, RSZ_B, params); +} + +static u32 ipipe_get_color_pat(u32 pix) +{ + switch (pix) { + case MEDIA_BUS_FMT_SGRBG10_ALAW8_1X8: + case MEDIA_BUS_FMT_SGRBG10_DPCM8_1X8: + case MEDIA_BUS_FMT_SGRBG12_1X12: + return ipipe_sgrbg_pattern; + + default: + return ipipe_srggb_pattern; + } +} + +static int ipipe_get_data_path(struct vpfe_ipipe_device *ipipe) +{ + u32 temp_pix_fmt; + + switch (ipipe->formats[IPIPE_PAD_SINK].code) { + case MEDIA_BUS_FMT_SBGGR8_1X8: + case MEDIA_BUS_FMT_SGRBG10_ALAW8_1X8: + case MEDIA_BUS_FMT_SGRBG10_DPCM8_1X8: + case MEDIA_BUS_FMT_SGRBG12_1X12: + temp_pix_fmt = MEDIA_BUS_FMT_SGRBG12_1X12; + break; + + default: + temp_pix_fmt = MEDIA_BUS_FMT_UYVY8_2X8; + } + + if (temp_pix_fmt == MEDIA_BUS_FMT_SGRBG12_1X12) { + if (ipipe->formats[IPIPE_PAD_SOURCE].code == + MEDIA_BUS_FMT_SGRBG12_1X12) + return IPIPE_RAW2RAW; + return IPIPE_RAW2YUV; + } + + return IPIPE_YUV2YUV; +} + +static int get_ipipe_mode(struct vpfe_ipipe_device *ipipe) +{ + struct vpfe_device *vpfe_dev = to_vpfe_device(ipipe); + u16 ipipeif_sink = vpfe_dev->vpfe_ipipeif.input; + + if (ipipeif_sink == IPIPEIF_INPUT_MEMORY) + return IPIPE_MODE_SINGLE_SHOT; + else if (ipipeif_sink == IPIPEIF_INPUT_ISIF) + return IPIPE_MODE_CONTINUOUS; + + return -EINVAL; +} + +int config_ipipe_hw(struct vpfe_ipipe_device *ipipe) +{ + struct vpfe_ipipe_input_config *config = &ipipe->config.input_config; + void __iomem *ipipe_base = ipipe->base_addr; + struct v4l2_mbus_framefmt *outformat; + u32 color_pat; + u32 ipipe_mode; + u32 data_path; + + /* enable clock to IPIPE */ + vpss_enable_clock(VPSS_IPIPE_CLOCK, 1); + ipipe_clock_enable(ipipe_base); + + if (ipipe->input == IPIPE_INPUT_NONE) { + regw_ip(ipipe_base, 0, IPIPE_SRC_EN); + return 0; + } + + ipipe_mode = get_ipipe_mode(ipipe); + if (ipipe_mode < 0) { + pr_err("Failed to get ipipe mode"); + return -EINVAL; + } + regw_ip(ipipe_base, ipipe_mode, IPIPE_SRC_MODE); + + data_path = ipipe_get_data_path(ipipe); + regw_ip(ipipe_base, data_path, IPIPE_SRC_FMT); + + regw_ip(ipipe_base, config->vst & IPIPE_RSZ_VPS_MASK, IPIPE_SRC_VPS); + regw_ip(ipipe_base, config->hst & IPIPE_RSZ_HPS_MASK, IPIPE_SRC_HPS); + + outformat = &ipipe->formats[IPIPE_PAD_SOURCE]; + regw_ip(ipipe_base, (outformat->height + 1) & IPIPE_RSZ_VSZ_MASK, + IPIPE_SRC_VSZ); + regw_ip(ipipe_base, (outformat->width + 1) & IPIPE_RSZ_HSZ_MASK, + IPIPE_SRC_HSZ); + + if (data_path == IPIPE_RAW2YUV || + data_path == IPIPE_RAW2RAW) { + color_pat = + ipipe_get_color_pat(ipipe->formats[IPIPE_PAD_SINK].code); + regw_ip(ipipe_base, color_pat, IPIPE_SRC_COL); + } + + return 0; +} + +/* + * config_rsz_hw() - Performs hardware setup of resizer. + */ +int config_rsz_hw(struct vpfe_resizer_device *resizer, + struct resizer_params *config) +{ + struct vpfe_device *vpfe_dev = to_vpfe_device(resizer); + void __iomem *ipipe_base = vpfe_dev->vpfe_ipipe.base_addr; + void __iomem *rsz_base = vpfe_dev->vpfe_resizer.base_addr; + + /* enable VPSS clock */ + vpss_enable_clock(VPSS_IPIPE_CLOCK, 1); + ipipe_clock_enable(ipipe_base); + + ipipe_setup_resizer(rsz_base, config); + + return 0; +} + +static void +rsz_set_y_address(void __iomem *rsz_base, unsigned int address, + unsigned int offset) +{ + u32 val; + + val = address & SET_LOW_ADDR; + regw_rsz(rsz_base, val, offset + RSZ_SDR_Y_BAD_L); + regw_rsz(rsz_base, val, offset + RSZ_SDR_Y_SAD_L); + + val = (address & SET_HIGH_ADDR) >> 16; + regw_rsz(rsz_base, val, offset + RSZ_SDR_Y_BAD_H); + regw_rsz(rsz_base, val, offset + RSZ_SDR_Y_SAD_H); +} + +static void +rsz_set_c_address(void __iomem *rsz_base, unsigned int address, + unsigned int offset) +{ + u32 val; + + val = address & SET_LOW_ADDR; + regw_rsz(rsz_base, val, offset + RSZ_SDR_C_BAD_L); + regw_rsz(rsz_base, val, offset + RSZ_SDR_C_SAD_L); + + val = (address & SET_HIGH_ADDR) >> 16; + regw_rsz(rsz_base, val, offset + RSZ_SDR_C_BAD_H); + regw_rsz(rsz_base, val, offset + RSZ_SDR_C_SAD_H); +} + +/* + * resizer_set_outaddr() - set the address for given resize_no + * @rsz_base: resizer base address + * @params: pointer to ipipe_params structure + * @resize_no: 0 - Resizer-A, 1 - Resizer B + * @address: the address to set + */ +int +resizer_set_outaddr(void __iomem *rsz_base, struct resizer_params *params, + int resize_no, unsigned int address) +{ + struct resizer_scale_param *rsc_param; + struct rsz_ext_mem_param *mem_param; + struct rsz_common_params *rsz_common; + unsigned int rsz_start_add; + unsigned int val; + + if (resize_no != RSZ_A && resize_no != RSZ_B) + return -EINVAL; + + mem_param = ¶ms->ext_mem_param[resize_no]; + rsc_param = ¶ms->rsz_rsc_param[resize_no]; + rsz_common = ¶ms->rsz_common; + + if (resize_no == RSZ_A) + rsz_start_add = RSZ_EN_A; + else + rsz_start_add = RSZ_EN_B; + + /* y_c = 0 for y, = 1 for c */ + if (rsz_common->src_img_fmt == RSZ_IMG_420) { + if (rsz_common->y_c) { + /* C channel */ + val = address + mem_param->flip_ofst_c; + rsz_set_c_address(rsz_base, val, rsz_start_add); + } else { + val = address + mem_param->flip_ofst_y; + rsz_set_y_address(rsz_base, val, rsz_start_add); + } + } else { + if (rsc_param->cen && rsc_param->yen) { + /* 420 */ + val = address + mem_param->c_offset + + mem_param->flip_ofst_c + + mem_param->user_y_ofst + + mem_param->user_c_ofst; + if (resize_no == RSZ_B) + val += + params->ext_mem_param[RSZ_A].user_y_ofst + + params->ext_mem_param[RSZ_A].user_c_ofst; + /* set C address */ + rsz_set_c_address(rsz_base, val, rsz_start_add); + } + val = address + mem_param->flip_ofst_y + mem_param->user_y_ofst; + if (resize_no == RSZ_B) + val += params->ext_mem_param[RSZ_A].user_y_ofst + + params->ext_mem_param[RSZ_A].user_c_ofst; + /* set Y address */ + rsz_set_y_address(rsz_base, val, rsz_start_add); + } + /* resizer must be enabled */ + regw_rsz(rsz_base, params->rsz_en[resize_no], rsz_start_add); + + return 0; +} + +void +ipipe_set_lutdpc_regs(void __iomem *base_addr, void __iomem *isp5_base_addr, + struct vpfe_ipipe_lutdpc *dpc) +{ + u32 max_tbl_size = LUT_DPC_MAX_SIZE >> 1; + u32 lut_start_addr = DPC_TB0_START_ADDR; + u32 val; + u32 count; + + ipipe_clock_enable(base_addr); + regw_ip(base_addr, dpc->en, DPC_LUT_EN); + + if (dpc->en != 1) + return; + + val = LUTDPC_TBL_256_EN | (dpc->repl_white & 1); + regw_ip(base_addr, val, DPC_LUT_SEL); + regw_ip(base_addr, LUT_DPC_START_ADDR, DPC_LUT_ADR); + regw_ip(base_addr, dpc->dpc_size, DPC_LUT_SIZ & LUT_DPC_SIZE_MASK); + + if (dpc->table == NULL) + return; + + for (count = 0; count < dpc->dpc_size; count++) { + if (count >= max_tbl_size) + lut_start_addr = DPC_TB1_START_ADDR; + val = (dpc->table[count].horz_pos & LUT_DPC_H_POS_MASK) | + ((dpc->table[count].vert_pos & LUT_DPC_V_POS_MASK) << + LUT_DPC_V_POS_SHIFT) | (dpc->table[count].method << + LUT_DPC_CORR_METH_SHIFT); + w_ip_table(isp5_base_addr, val, (lut_start_addr + + ((count % max_tbl_size) << 2))); + } +} + +static void +set_dpc_thresholds(void __iomem *base_addr, + struct vpfe_ipipe_otfdpc_2_0_cfg *dpc_thr) +{ + regw_ip(base_addr, dpc_thr->corr_thr.r & OTFDPC_DPC2_THR_MASK, + DPC_OTF_2C_THR_R); + regw_ip(base_addr, dpc_thr->corr_thr.gr & OTFDPC_DPC2_THR_MASK, + DPC_OTF_2C_THR_GR); + regw_ip(base_addr, dpc_thr->corr_thr.gb & OTFDPC_DPC2_THR_MASK, + DPC_OTF_2C_THR_GB); + regw_ip(base_addr, dpc_thr->corr_thr.b & OTFDPC_DPC2_THR_MASK, + DPC_OTF_2C_THR_B); + regw_ip(base_addr, dpc_thr->det_thr.r & OTFDPC_DPC2_THR_MASK, + DPC_OTF_2D_THR_R); + regw_ip(base_addr, dpc_thr->det_thr.gr & OTFDPC_DPC2_THR_MASK, + DPC_OTF_2D_THR_GR); + regw_ip(base_addr, dpc_thr->det_thr.gb & OTFDPC_DPC2_THR_MASK, + DPC_OTF_2D_THR_GB); + regw_ip(base_addr, dpc_thr->det_thr.b & OTFDPC_DPC2_THR_MASK, + DPC_OTF_2D_THR_B); +} + +void ipipe_set_otfdpc_regs(void __iomem *base_addr, + struct vpfe_ipipe_otfdpc *otfdpc) +{ + struct vpfe_ipipe_otfdpc_2_0_cfg *dpc_2_0 = &otfdpc->alg_cfg.dpc_2_0; + struct vpfe_ipipe_otfdpc_3_0_cfg *dpc_3_0 = &otfdpc->alg_cfg.dpc_3_0; + u32 val; + + ipipe_clock_enable(base_addr); + + regw_ip(base_addr, (otfdpc->en & 1), DPC_OTF_EN); + if (!otfdpc->en) + return; + + /* dpc enabled */ + val = (otfdpc->det_method << OTF_DET_METHOD_SHIFT) | otfdpc->alg; + regw_ip(base_addr, val, DPC_OTF_TYP); + + if (otfdpc->det_method == VPFE_IPIPE_DPC_OTF_MIN_MAX) { + /* ALG= 0, TYP = 0, DPC_OTF_2D_THR_[x]=0 + * DPC_OTF_2C_THR_[x] = Maximum thresohld + * MinMax method + */ + dpc_2_0->det_thr.r = dpc_2_0->det_thr.gb = + dpc_2_0->det_thr.gr = dpc_2_0->det_thr.b = 0; + set_dpc_thresholds(base_addr, dpc_2_0); + return; + } + /* MinMax2 */ + if (otfdpc->alg == VPFE_IPIPE_OTFDPC_2_0) { + set_dpc_thresholds(base_addr, dpc_2_0); + return; + } + regw_ip(base_addr, dpc_3_0->act_adj_shf & + OTF_DPC3_0_SHF_MASK, DPC_OTF_3_SHF); + /* Detection thresholds */ + regw_ip(base_addr, ((dpc_3_0->det_thr & OTF_DPC3_0_THR_MASK) << + OTF_DPC3_0_THR_SHIFT), DPC_OTF_3D_THR); + regw_ip(base_addr, dpc_3_0->det_slp & + OTF_DPC3_0_SLP_MASK, DPC_OTF_3D_SLP); + regw_ip(base_addr, dpc_3_0->det_thr_min & + OTF_DPC3_0_DET_MASK, DPC_OTF_3D_MIN); + regw_ip(base_addr, dpc_3_0->det_thr_max & + OTF_DPC3_0_DET_MASK, DPC_OTF_3D_MAX); + /* Correction thresholds */ + regw_ip(base_addr, ((dpc_3_0->corr_thr & OTF_DPC3_0_THR_MASK) << + OTF_DPC3_0_THR_SHIFT), DPC_OTF_3C_THR); + regw_ip(base_addr, dpc_3_0->corr_slp & + OTF_DPC3_0_SLP_MASK, DPC_OTF_3C_SLP); + regw_ip(base_addr, dpc_3_0->corr_thr_min & + OTF_DPC3_0_CORR_MASK, DPC_OTF_3C_MIN); + regw_ip(base_addr, dpc_3_0->corr_thr_max & + OTF_DPC3_0_CORR_MASK, DPC_OTF_3C_MAX); +} + +/* 2D Noise filter */ +void +ipipe_set_d2f_regs(void __iomem *base_addr, unsigned int id, + struct vpfe_ipipe_nf *noise_filter) +{ + + u32 offset = D2F_1ST; + int count; + u32 val; + + if (id == IPIPE_D2F_2ND) + offset = D2F_2ND; + + ipipe_clock_enable(base_addr); + regw_ip(base_addr, noise_filter->en & 1, offset + D2F_EN); + if (!noise_filter->en) + return; + + /*noise filter enabled */ + /* Combine all the fields to make D2F_CFG register of IPIPE */ + val = ((noise_filter->spread_val & D2F_SPR_VAL_MASK) << + D2F_SPR_VAL_SHIFT) | ((noise_filter->shft_val & + D2F_SHFT_VAL_MASK) << D2F_SHFT_VAL_SHIFT) | + (noise_filter->gr_sample_meth << D2F_SAMPLE_METH_SHIFT) | + ((noise_filter->apply_lsc_gain & 1) << + D2F_APPLY_LSC_GAIN_SHIFT) | D2F_USE_SPR_REG_VAL; + regw_ip(base_addr, val, offset + D2F_TYP); + + /* edge detection minimum */ + regw_ip(base_addr, noise_filter->edge_det_min_thr & + D2F_EDGE_DET_THR_MASK, offset + D2F_EDG_MIN); + + /* edge detection maximum */ + regw_ip(base_addr, noise_filter->edge_det_max_thr & + D2F_EDGE_DET_THR_MASK, offset + D2F_EDG_MAX); + + for (count = 0; count < VPFE_IPIPE_NF_STR_TABLE_SIZE; count++) + regw_ip(base_addr, + (noise_filter->str[count] & D2F_STR_VAL_MASK), + offset + D2F_STR + count * 4); + + for (count = 0; count < VPFE_IPIPE_NF_THR_TABLE_SIZE; count++) + regw_ip(base_addr, noise_filter->thr[count] & D2F_THR_VAL_MASK, + offset + D2F_THR + count * 4); +} + +#define IPIPE_U8Q5(decimal, integer) \ + (((decimal & 0x1f) | ((integer & 0x7) << 5))) + +/* Green Imbalance Correction */ +void ipipe_set_gic_regs(void __iomem *base_addr, struct vpfe_ipipe_gic *gic) +{ + u32 val; + + ipipe_clock_enable(base_addr); + regw_ip(base_addr, gic->en & 1, GIC_EN); + + if (!gic->en) + return; + + /*gic enabled */ + val = (gic->wt_fn_type << GIC_TYP_SHIFT) | + (gic->thr_sel << GIC_THR_SEL_SHIFT) | + ((gic->apply_lsc_gain & 1) << GIC_APPLY_LSC_GAIN_SHIFT); + regw_ip(base_addr, val, GIC_TYP); + + regw_ip(base_addr, gic->gain & GIC_GAIN_MASK, GIC_GAN); + + if (gic->gic_alg != VPFE_IPIPE_GIC_ALG_ADAPT_GAIN) { + /* Constant Gain. Set threshold to maximum */ + regw_ip(base_addr, GIC_THR_MASK, GIC_THR); + return; + } + + if (gic->thr_sel == VPFE_IPIPE_GIC_THR_REG) { + regw_ip(base_addr, gic->thr & GIC_THR_MASK, GIC_THR); + regw_ip(base_addr, gic->slope & GIC_SLOPE_MASK, GIC_SLP); + } else { + /* Use NF thresholds */ + val = IPIPE_U8Q5(gic->nf2_thr_gain.decimal, + gic->nf2_thr_gain.integer); + regw_ip(base_addr, val, GIC_NFGAN); + } +} + +#define IPIPE_U13Q9(decimal, integer) \ + (((decimal & 0x1ff) | ((integer & 0xf) << 9))) +/* White balance */ +void ipipe_set_wb_regs(void __iomem *base_addr, struct vpfe_ipipe_wb *wb) +{ + u32 val; + + ipipe_clock_enable(base_addr); + /* Ofsets. S12 */ + regw_ip(base_addr, wb->ofst_r & WB_OFFSET_MASK, WB2_OFT_R); + regw_ip(base_addr, wb->ofst_gr & WB_OFFSET_MASK, WB2_OFT_GR); + regw_ip(base_addr, wb->ofst_gb & WB_OFFSET_MASK, WB2_OFT_GB); + regw_ip(base_addr, wb->ofst_b & WB_OFFSET_MASK, WB2_OFT_B); + + /* Gains. U13Q9 */ + val = IPIPE_U13Q9(wb->gain_r.decimal, wb->gain_r.integer); + regw_ip(base_addr, val, WB2_WGN_R); + + val = IPIPE_U13Q9(wb->gain_gr.decimal, wb->gain_gr.integer); + regw_ip(base_addr, val, WB2_WGN_GR); + + val = IPIPE_U13Q9(wb->gain_gb.decimal, wb->gain_gb.integer); + regw_ip(base_addr, val, WB2_WGN_GB); + + val = IPIPE_U13Q9(wb->gain_b.decimal, wb->gain_b.integer); + regw_ip(base_addr, val, WB2_WGN_B); +} + +/* CFA */ +void ipipe_set_cfa_regs(void __iomem *base_addr, struct vpfe_ipipe_cfa *cfa) +{ + ipipe_clock_enable(base_addr); + + regw_ip(base_addr, cfa->alg, CFA_MODE); + regw_ip(base_addr, cfa->hpf_thr_2dir & CFA_HPF_THR_2DIR_MASK, + CFA_2DIR_HPF_THR); + regw_ip(base_addr, cfa->hpf_slp_2dir & CFA_HPF_SLOPE_2DIR_MASK, + CFA_2DIR_HPF_SLP); + regw_ip(base_addr, cfa->hp_mix_thr_2dir & CFA_HPF_MIX_THR_2DIR_MASK, + CFA_2DIR_MIX_THR); + regw_ip(base_addr, cfa->hp_mix_slope_2dir & CFA_HPF_MIX_SLP_2DIR_MASK, + CFA_2DIR_MIX_SLP); + regw_ip(base_addr, cfa->dir_thr_2dir & CFA_DIR_THR_2DIR_MASK, + CFA_2DIR_DIR_THR); + regw_ip(base_addr, cfa->dir_slope_2dir & CFA_DIR_SLP_2DIR_MASK, + CFA_2DIR_DIR_SLP); + regw_ip(base_addr, cfa->nd_wt_2dir & CFA_ND_WT_2DIR_MASK, + CFA_2DIR_NDWT); + regw_ip(base_addr, cfa->hue_fract_daa & CFA_DAA_HUE_FRA_MASK, + CFA_MONO_HUE_FRA); + regw_ip(base_addr, cfa->edge_thr_daa & CFA_DAA_EDG_THR_MASK, + CFA_MONO_EDG_THR); + regw_ip(base_addr, cfa->thr_min_daa & CFA_DAA_THR_MIN_MASK, + CFA_MONO_THR_MIN); + regw_ip(base_addr, cfa->thr_slope_daa & CFA_DAA_THR_SLP_MASK, + CFA_MONO_THR_SLP); + regw_ip(base_addr, cfa->slope_min_daa & CFA_DAA_SLP_MIN_MASK, + CFA_MONO_SLP_MIN); + regw_ip(base_addr, cfa->slope_slope_daa & CFA_DAA_SLP_SLP_MASK, + CFA_MONO_SLP_SLP); + regw_ip(base_addr, cfa->lp_wt_daa & CFA_DAA_LP_WT_MASK, + CFA_MONO_LPWT); +} + +void +ipipe_set_rgb2rgb_regs(void __iomem *base_addr, unsigned int id, + struct vpfe_ipipe_rgb2rgb *rgb) +{ + u32 offset_mask = RGB2RGB_1_OFST_MASK; + u32 offset = RGB1_MUL_BASE; + u32 integ_mask = 0xf; + u32 val; + + ipipe_clock_enable(base_addr); + + if (id == IPIPE_RGB2RGB_2) { + /* For second RGB module, gain integer is 3 bits instead + of 4, offset has 11 bits insread of 13 */ + offset = RGB2_MUL_BASE; + integ_mask = 0x7; + offset_mask = RGB2RGB_2_OFST_MASK; + } + /* Gains */ + val = (rgb->coef_rr.decimal & 0xff) | + ((rgb->coef_rr.integer & integ_mask) << 8); + regw_ip(base_addr, val, offset + RGB_MUL_RR); + val = (rgb->coef_gr.decimal & 0xff) | + ((rgb->coef_gr.integer & integ_mask) << 8); + regw_ip(base_addr, val, offset + RGB_MUL_GR); + val = (rgb->coef_br.decimal & 0xff) | + ((rgb->coef_br.integer & integ_mask) << 8); + regw_ip(base_addr, val, offset + RGB_MUL_BR); + val = (rgb->coef_rg.decimal & 0xff) | + ((rgb->coef_rg.integer & integ_mask) << 8); + regw_ip(base_addr, val, offset + RGB_MUL_RG); + val = (rgb->coef_gg.decimal & 0xff) | + ((rgb->coef_gg.integer & integ_mask) << 8); + regw_ip(base_addr, val, offset + RGB_MUL_GG); + val = (rgb->coef_bg.decimal & 0xff) | + ((rgb->coef_bg.integer & integ_mask) << 8); + regw_ip(base_addr, val, offset + RGB_MUL_BG); + val = (rgb->coef_rb.decimal & 0xff) | + ((rgb->coef_rb.integer & integ_mask) << 8); + regw_ip(base_addr, val, offset + RGB_MUL_RB); + val = (rgb->coef_gb.decimal & 0xff) | + ((rgb->coef_gb.integer & integ_mask) << 8); + regw_ip(base_addr, val, offset + RGB_MUL_GB); + val = (rgb->coef_bb.decimal & 0xff) | + ((rgb->coef_bb.integer & integ_mask) << 8); + regw_ip(base_addr, val, offset + RGB_MUL_BB); + + /* Offsets */ + regw_ip(base_addr, rgb->out_ofst_r & offset_mask, offset + RGB_OFT_OR); + regw_ip(base_addr, rgb->out_ofst_g & offset_mask, offset + RGB_OFT_OG); + regw_ip(base_addr, rgb->out_ofst_b & offset_mask, offset + RGB_OFT_OB); +} + +static void +ipipe_update_gamma_tbl(void __iomem *isp5_base_addr, + struct vpfe_ipipe_gamma_entry *table, int size, u32 addr) +{ + int count; + u32 val; + + for (count = 0; count < size; count++) { + val = table[count].slope & GAMMA_MASK; + val |= (table[count].offset & GAMMA_MASK) << GAMMA_SHIFT; + w_ip_table(isp5_base_addr, val, (addr + (count * 4))); + } +} + +void +ipipe_set_gamma_regs(void __iomem *base_addr, void __iomem *isp5_base_addr, + struct vpfe_ipipe_gamma *gamma) +{ + int table_size; + u32 val; + + ipipe_clock_enable(base_addr); + val = (gamma->bypass_r << GAMMA_BYPR_SHIFT) | + (gamma->bypass_b << GAMMA_BYPG_SHIFT) | + (gamma->bypass_g << GAMMA_BYPB_SHIFT) | + (gamma->tbl_sel << GAMMA_TBL_SEL_SHIFT) | + (gamma->tbl_size << GAMMA_TBL_SIZE_SHIFT); + + regw_ip(base_addr, val, GMM_CFG); + + if (gamma->tbl_sel != VPFE_IPIPE_GAMMA_TBL_RAM) + return; + + table_size = gamma->tbl_size; + + if (!gamma->bypass_r && gamma->table_r != NULL) + ipipe_update_gamma_tbl(isp5_base_addr, gamma->table_r, + table_size, GAMMA_R_START_ADDR); + if (!gamma->bypass_b && gamma->table_b != NULL) + ipipe_update_gamma_tbl(isp5_base_addr, gamma->table_b, + table_size, GAMMA_B_START_ADDR); + if (!gamma->bypass_g && gamma->table_g != NULL) + ipipe_update_gamma_tbl(isp5_base_addr, gamma->table_g, + table_size, GAMMA_G_START_ADDR); +} + +void +ipipe_set_3d_lut_regs(void __iomem *base_addr, void __iomem *isp5_base_addr, + struct vpfe_ipipe_3d_lut *lut_3d) +{ + struct vpfe_ipipe_3d_lut_entry *tbl; + u32 bnk_index; + u32 tbl_index; + u32 val; + u32 i; + + ipipe_clock_enable(base_addr); + regw_ip(base_addr, lut_3d->en, D3LUT_EN); + + if (!lut_3d->en) + return; + + /* lut_3d enabled */ + if (!lut_3d->table) + return; + + /* valied table */ + tbl = lut_3d->table; + for (i = 0; i < VPFE_IPIPE_MAX_SIZE_3D_LUT; i++) { + /* Each entry has 0-9 (B), 10-19 (G) and + 20-29 R values */ + val = tbl[i].b & D3_LUT_ENTRY_MASK; + val |= (tbl[i].g & D3_LUT_ENTRY_MASK) << + D3_LUT_ENTRY_G_SHIFT; + val |= (tbl[i].r & D3_LUT_ENTRY_MASK) << + D3_LUT_ENTRY_R_SHIFT; + bnk_index = i % 4; + tbl_index = i >> 2; + tbl_index <<= 2; + if (bnk_index == 0) + w_ip_table(isp5_base_addr, val, + tbl_index + D3L_TB0_START_ADDR); + else if (bnk_index == 1) + w_ip_table(isp5_base_addr, val, + tbl_index + D3L_TB1_START_ADDR); + else if (bnk_index == 2) + w_ip_table(isp5_base_addr, val, + tbl_index + D3L_TB2_START_ADDR); + else + w_ip_table(isp5_base_addr, val, + tbl_index + D3L_TB3_START_ADDR); + } +} + +/* Lumina adjustments */ +void +ipipe_set_lum_adj_regs(void __iomem *base_addr, struct ipipe_lum_adj *lum_adj) +{ + u32 val; + + ipipe_clock_enable(base_addr); + + /* combine fields of YUV_ADJ to set brightness and contrast */ + val = lum_adj->contrast << LUM_ADJ_CONTR_SHIFT | + lum_adj->brightness << LUM_ADJ_BRIGHT_SHIFT; + regw_ip(base_addr, val, YUV_ADJ); +} + +#define IPIPE_S12Q8(decimal, integer) \ + (((decimal & 0xff) | ((integer & 0xf) << 8))) + +void ipipe_set_rgb2ycbcr_regs(void __iomem *base_addr, + struct vpfe_ipipe_rgb2yuv *yuv) +{ + u32 val; + + /* S10Q8 */ + ipipe_clock_enable(base_addr); + val = IPIPE_S12Q8(yuv->coef_ry.decimal, yuv->coef_ry.integer); + regw_ip(base_addr, val, YUV_MUL_RY); + val = IPIPE_S12Q8(yuv->coef_gy.decimal, yuv->coef_gy.integer); + regw_ip(base_addr, val, YUV_MUL_GY); + val = IPIPE_S12Q8(yuv->coef_by.decimal, yuv->coef_by.integer); + regw_ip(base_addr, val, YUV_MUL_BY); + val = IPIPE_S12Q8(yuv->coef_rcb.decimal, yuv->coef_rcb.integer); + regw_ip(base_addr, val, YUV_MUL_RCB); + val = IPIPE_S12Q8(yuv->coef_gcb.decimal, yuv->coef_gcb.integer); + regw_ip(base_addr, val, YUV_MUL_GCB); + val = IPIPE_S12Q8(yuv->coef_bcb.decimal, yuv->coef_bcb.integer); + regw_ip(base_addr, val, YUV_MUL_BCB); + val = IPIPE_S12Q8(yuv->coef_rcr.decimal, yuv->coef_rcr.integer); + regw_ip(base_addr, val, YUV_MUL_RCR); + val = IPIPE_S12Q8(yuv->coef_gcr.decimal, yuv->coef_gcr.integer); + regw_ip(base_addr, val, YUV_MUL_GCR); + val = IPIPE_S12Q8(yuv->coef_bcr.decimal, yuv->coef_bcr.integer); + regw_ip(base_addr, val, YUV_MUL_BCR); + regw_ip(base_addr, yuv->out_ofst_y & RGB2YCBCR_OFST_MASK, YUV_OFT_Y); + regw_ip(base_addr, yuv->out_ofst_cb & RGB2YCBCR_OFST_MASK, YUV_OFT_CB); + regw_ip(base_addr, yuv->out_ofst_cr & RGB2YCBCR_OFST_MASK, YUV_OFT_CR); +} + +/* YUV 422 conversion */ +void +ipipe_set_yuv422_conv_regs(void __iomem *base_addr, + struct vpfe_ipipe_yuv422_conv *conv) +{ + u32 val; + + ipipe_clock_enable(base_addr); + + /* Combine all the fields to make YUV_PHS register of IPIPE */ + val = (conv->chrom_pos << 0) | (conv->en_chrom_lpf << 1); + regw_ip(base_addr, val, YUV_PHS); +} + +void +ipipe_set_gbce_regs(void __iomem *base_addr, void __iomem *isp5_base_addr, + struct vpfe_ipipe_gbce *gbce) +{ + unsigned int count; + u32 mask = GBCE_Y_VAL_MASK; + + if (gbce->type == VPFE_IPIPE_GBCE_GAIN_TBL) + mask = GBCE_GAIN_VAL_MASK; + + ipipe_clock_enable(base_addr); + regw_ip(base_addr, gbce->en & 1, GBCE_EN); + + if (!gbce->en) + return; + + regw_ip(base_addr, gbce->type, GBCE_TYP); + + if (!gbce->table) + return; + + for (count = 0; count < VPFE_IPIPE_MAX_SIZE_GBCE_LUT; count += 2) + w_ip_table(isp5_base_addr, ((gbce->table[count + 1] & mask) << + GBCE_ENTRY_SHIFT) | (gbce->table[count] & mask), + ((count/2) << 2) + GBCE_TB_START_ADDR); +} + +void +ipipe_set_ee_regs(void __iomem *base_addr, void __iomem *isp5_base_addr, + struct vpfe_ipipe_yee *ee) +{ + unsigned int count; + u32 val; + + ipipe_clock_enable(base_addr); + regw_ip(base_addr, ee->en, YEE_EN); + + if (!ee->en) + return; + + val = ee->en_halo_red & 1; + val |= ee->merge_meth << YEE_HALO_RED_EN_SHIFT; + regw_ip(base_addr, val, YEE_TYP); + + regw_ip(base_addr, ee->hpf_shft, YEE_SHF); + regw_ip(base_addr, ee->hpf_coef_00 & YEE_COEF_MASK, YEE_MUL_00); + regw_ip(base_addr, ee->hpf_coef_01 & YEE_COEF_MASK, YEE_MUL_01); + regw_ip(base_addr, ee->hpf_coef_02 & YEE_COEF_MASK, YEE_MUL_02); + regw_ip(base_addr, ee->hpf_coef_10 & YEE_COEF_MASK, YEE_MUL_10); + regw_ip(base_addr, ee->hpf_coef_11 & YEE_COEF_MASK, YEE_MUL_11); + regw_ip(base_addr, ee->hpf_coef_12 & YEE_COEF_MASK, YEE_MUL_12); + regw_ip(base_addr, ee->hpf_coef_20 & YEE_COEF_MASK, YEE_MUL_20); + regw_ip(base_addr, ee->hpf_coef_21 & YEE_COEF_MASK, YEE_MUL_21); + regw_ip(base_addr, ee->hpf_coef_22 & YEE_COEF_MASK, YEE_MUL_22); + regw_ip(base_addr, ee->yee_thr & YEE_THR_MASK, YEE_THR); + regw_ip(base_addr, ee->es_gain & YEE_ES_GAIN_MASK, YEE_E_GAN); + regw_ip(base_addr, ee->es_thr1 & YEE_ES_THR1_MASK, YEE_E_THR1); + regw_ip(base_addr, ee->es_thr2 & YEE_THR_MASK, YEE_E_THR2); + regw_ip(base_addr, ee->es_gain_grad & YEE_THR_MASK, YEE_G_GAN); + regw_ip(base_addr, ee->es_ofst_grad & YEE_THR_MASK, YEE_G_OFT); + + if (ee->table == NULL) + return; + + for (count = 0; count < VPFE_IPIPE_MAX_SIZE_YEE_LUT; count += 2) + w_ip_table(isp5_base_addr, ((ee->table[count + 1] & + YEE_ENTRY_MASK) << YEE_ENTRY_SHIFT) | + (ee->table[count] & YEE_ENTRY_MASK), + ((count/2) << 2) + YEE_TB_START_ADDR); +} + +/* Chromatic Artifact Correction. CAR */ +static void ipipe_set_mf(void __iomem *base_addr) +{ + /* typ to dynamic switch */ + regw_ip(base_addr, VPFE_IPIPE_CAR_DYN_SWITCH, CAR_TYP); + /* Set SW0 to maximum */ + regw_ip(base_addr, CAR_MF_THR, CAR_SW); +} + +static void +ipipe_set_gain_ctrl(void __iomem *base_addr, struct vpfe_ipipe_car *car) +{ + regw_ip(base_addr, VPFE_IPIPE_CAR_CHR_GAIN_CTRL, CAR_TYP); + regw_ip(base_addr, car->hpf, CAR_HPF_TYP); + regw_ip(base_addr, car->hpf_shft & CAR_HPF_SHIFT_MASK, CAR_HPF_SHF); + regw_ip(base_addr, car->hpf_thr, CAR_HPF_THR); + regw_ip(base_addr, car->gain1.gain, CAR_GN1_GAN); + regw_ip(base_addr, car->gain1.shft & CAR_GAIN1_SHFT_MASK, CAR_GN1_SHF); + regw_ip(base_addr, car->gain1.gain_min & CAR_GAIN_MIN_MASK, + CAR_GN1_MIN); + regw_ip(base_addr, car->gain2.gain, CAR_GN2_GAN); + regw_ip(base_addr, car->gain2.shft & CAR_GAIN2_SHFT_MASK, CAR_GN2_SHF); + regw_ip(base_addr, car->gain2.gain_min & CAR_GAIN_MIN_MASK, + CAR_GN2_MIN); +} + +void ipipe_set_car_regs(void __iomem *base_addr, struct vpfe_ipipe_car *car) +{ + u32 val; + + ipipe_clock_enable(base_addr); + regw_ip(base_addr, car->en, CAR_EN); + + if (!car->en) + return; + + switch (car->meth) { + case VPFE_IPIPE_CAR_MED_FLTR: + ipipe_set_mf(base_addr); + break; + + case VPFE_IPIPE_CAR_CHR_GAIN_CTRL: + ipipe_set_gain_ctrl(base_addr, car); + break; + + default: + /* Dynamic switch between MF and Gain Ctrl. */ + ipipe_set_mf(base_addr); + ipipe_set_gain_ctrl(base_addr, car); + /* Set the threshold for switching between + * the two Here we overwrite the MF SW0 value + */ + regw_ip(base_addr, VPFE_IPIPE_CAR_DYN_SWITCH, CAR_TYP); + val = car->sw1; + val <<= CAR_SW1_SHIFT; + val |= car->sw0; + regw_ip(base_addr, val, CAR_SW); + } +} + +/* Chromatic Gain Suppression */ +void ipipe_set_cgs_regs(void __iomem *base_addr, struct vpfe_ipipe_cgs *cgs) +{ + ipipe_clock_enable(base_addr); + regw_ip(base_addr, cgs->en, CGS_EN); + + if (!cgs->en) + return; + + /* Set the bright side parameters */ + regw_ip(base_addr, cgs->h_thr, CGS_GN1_H_THR); + regw_ip(base_addr, cgs->h_slope, CGS_GN1_H_GAN); + regw_ip(base_addr, cgs->h_shft & CAR_SHIFT_MASK, CGS_GN1_H_SHF); + regw_ip(base_addr, cgs->h_min, CGS_GN1_H_MIN); +} + +void rsz_src_enable(void __iomem *rsz_base, int enable) +{ + regw_rsz(rsz_base, enable, RSZ_SRC_EN); +} + +int rsz_enable(void __iomem *rsz_base, int rsz_id, int enable) +{ + if (rsz_id == RSZ_A) { + regw_rsz(rsz_base, enable, RSZ_EN_A); + /* We always enable RSZ_A. RSZ_B is enable upon request from + * application. So enable RSZ_SRC_EN along with RSZ_A + */ + regw_rsz(rsz_base, enable, RSZ_SRC_EN); + } else if (rsz_id == RSZ_B) { + regw_rsz(rsz_base, enable, RSZ_EN_B); + } else { + BUG(); + } + + return 0; +} |