/* Copyright (C) 2001-2023 Artifex Software, Inc. All Rights Reserved. This software is provided AS-IS with no warranty, either express or implied. This software is distributed under license and may not be copied, modified or distributed except as expressly authorized under the terms of the license contained in the file LICENSE in this distribution. Refer to licensing information at http://www.artifex.com or contact Artifex Software, Inc., 39 Mesa Street, Suite 108A, San Francisco, CA 94129, USA, for further information. */ /* Default device parameters for Ghostscript library */ #include "memory_.h" /* for memcpy */ #include "string_.h" /* for strlen */ #include "gx.h" #include "gserrors.h" #include "gsdevice.h" /* for prototypes */ #include "gsparam.h" #include "gsparamx.h" /* for param_put_enum */ #include "gxdevice.h" #include "gxdevsop.h" #include "gxfixed.h" #include "gsicc_manage.h" #include "gdevnup.h" /* to install N-up subclass device */ #include "gp_utf8.h" extern gx_device_nup gs_nup_device; /* Define whether we accept PageSize as a synonym for MediaSize. */ /* This is for backward compatibility only. */ #define PAGESIZE_IS_MEDIASIZE #define BLACKTHRESHOLDL 90 #define BLACKTHRESHOLDC 3 /* Names corresponding to gs_overprint_control_t enum */ static const char *const overprint_control_names[] = { gs_overprint_control_names, 0 }; /* ================ Getting parameters ================ */ /* Forward references */ static bool param_HWColorMap(gx_device *, byte *); /* Get the device parameters. */ int gs_get_device_or_hw_params(gx_device * orig_dev, gs_param_list * plist, bool is_hardware) { /* * We must be prepared to copy the device if it is the read-only * prototype. */ gx_device *dev; int code = 0; if (orig_dev->memory) dev = orig_dev; else { code = gs_copydevice(&dev, orig_dev, plist->memory); if (code < 0) return code; } fill_dev_proc(dev, get_params, gx_default_get_params); fill_dev_proc(dev, get_page_device, gx_default_get_page_device); fill_dev_proc(dev, get_alpha_bits, gx_default_get_alpha_bits); if (is_hardware) { if (dev_proc(dev, get_hardware_params) != NULL) code = (*dev_proc(dev, get_hardware_params)) (dev, plist); } else { if (dev_proc(dev, get_params) != NULL) code = (*dev_proc(dev, get_params)) (dev, plist); } if (dev != orig_dev) gx_device_retain(dev, false); /* frees the copy */ return code; } static int get_dev_icccolorants_utf8(gs_memory_t *mem, cmm_dev_profile_t *dev_profile, char **putf8) { char *colorants = gsicc_get_dev_icccolorants(dev_profile); char *utf8; unsigned char *s; unsigned short *unicode, *u; size_t len; if (colorants == NULL) { *putf8 = NULL; return 0; } len = strlen(colorants); /* Convert our 8 bit raw bytes into 16 bit raw. */ unicode = (unsigned short *)gs_alloc_bytes(mem, (len+1)*sizeof(unsigned short), "get_dev_icccolorants_utf8"); if (unicode == NULL) return_error(gs_error_VMerror); u = unicode; s = (unsigned char *)colorants; while ((*u++ = *s++) != 0); /* Now utf-8 encode that. */ len = gp_uint16_to_utf8(NULL, unicode); utf8 = (char *)gs_alloc_bytes(mem, len, "get_dev_icccolorants_utf8"); if (utf8 == NULL) { gs_free_object(mem, unicode, "get_dev_icccolorants_utf8"); return_error(gs_error_VMerror); } gp_uint16_to_utf8(utf8, unicode); gs_free_object(mem, unicode, "get_dev_icccolorants_utf8"); *putf8 = utf8; return 0; } int gx_default_get_param(gx_device *dev, char *Param, void *list) { gs_param_list * plist = (gs_param_list *)list; int k, colors = dev->color_info.num_components; gs_param_string profile_array[NUM_DEVICE_PROFILES]; gs_param_string postren_profile, blend_profile; gs_param_string proof_profile, link_profile, icc_colorants; gsicc_rendering_intents_t profile_intents[NUM_DEVICE_PROFILES]; gsicc_blackptcomp_t blackptcomps[NUM_DEVICE_PROFILES]; gsicc_blackpreserve_t blackpreserve[NUM_DEVICE_PROFILES]; int color_accuracy = MAX_COLOR_ACCURACY; int depth = dev->color_info.depth; cmm_dev_profile_t *dev_profile; char null_str[1]={'\0'}; #define set_param_array(a, d, s)\ (a.data = d, a.size = s, a.persistent = false); bool devicegraytok = true; /* Default if device profile stuct not set */ bool graydetection = false; bool usefastcolor = false; /* set for unmanaged color */ bool blacktext = false; bool blackvector = false; float blackthresholdL = BLACKTHRESHOLDL; float blackthresholdC = BLACKTHRESHOLDC; /* By default overprinting only valid with cmyk devices */ gs_overprint_control_t overprint_control = gs_overprint_control_enable; bool prebandthreshold = true, temp_bool = false; if(strcmp(Param, "OutputDevice") == 0){ gs_param_string dns; param_string_from_string(dns, dev->dname); return param_write_name(plist, "OutputDevice", &dns); } #ifdef PAGESIZE_IS_MEDIASIZE if (strcmp(Param, "PageSize") == 0) { gs_param_float_array msa; set_param_array(msa, dev->MediaSize, 2); return param_write_float_array(plist, "PageSize", &msa); } #endif if (strcmp(Param, "ProcessColorModel") == 0) { const char *cms = get_process_color_model_name(dev); /* We might have an uninitialized device with */ /* color_info.num_components = 0.... */ if ((cms != NULL) && (*cms != '\0')) { gs_param_string pcms; param_string_from_string(pcms, cms); return param_write_name(plist, "ProcessColorModel", &pcms); } } if (strcmp(Param, "HWResolution") == 0) { gs_param_float_array hwra; set_param_array(hwra, dev->HWResolution, 2); return param_write_float_array(plist, "HWResolution", &hwra); } if (strcmp(Param, "ImagingBBox") == 0) { gs_param_float_array ibba; set_param_array(ibba, dev->ImagingBBox, 4); if (dev->ImagingBBox_set) return param_write_float_array(plist, "ImagingBBox", &ibba); else return param_write_null(plist, "ImagingBBox"); } if (strcmp(Param, "Margins") == 0) { gs_param_float_array ma; set_param_array(ma, dev->Margins, 2); return param_write_float_array(plist, "Margins", &ma); } if (strcmp(Param, "MaxSeparations") == 0) { int max_sep = dev->color_info.max_components; return param_write_int(plist, "MaxSeparations", &max_sep); } if (strcmp(Param, "NumCopies") == 0) { if (dev->NumCopies_set < 0 || (*dev_proc(dev, get_page_device))(dev) == 0) { return_error(gs_error_undefined); } else { if (dev->NumCopies_set) return param_write_int(plist, "NumCopies", &dev->NumCopies); else return param_write_null(plist, "NumCopies"); } } if (strcmp(Param, "SeparationColorNames") == 0) { gs_param_string_array scna; set_param_array(scna, NULL, 0); return param_write_name_array(plist, "SeparationColorNames", &scna); } if (strcmp(Param, "Separations") == 0) { bool seprs = false; return param_write_bool(plist, "Separations", &seprs); } if (strcmp(Param, "UseCIEColor") == 0) { return param_write_bool(plist, "UseCIEColor", &dev->UseCIEColor); } /* Non-standard parameters */ if (strcmp(Param, "HWSize") == 0) { int HWSize[2]; gs_param_int_array hwsa; HWSize[0] = dev->width; HWSize[1] = dev->height; set_param_array(hwsa, HWSize, 2); return param_write_int_array(plist, "HWSize", &hwsa); } if (strcmp(Param, ".HWMargins") == 0) { gs_param_float_array hwma; set_param_array(hwma, dev->HWMargins, 4); return param_write_float_array(plist, ".HWMargins", &hwma); } if (strcmp(Param, ".MediaSize") == 0) { gs_param_float_array msa; set_param_array(msa, dev->MediaSize, 2); return param_write_float_array(plist, ".MediaSize", &msa); } if (strcmp(Param, "Name") == 0) { gs_param_string dns; param_string_from_string(dns, dev->dname); return param_write_string(plist, "Name", &dns); } if (strcmp(Param, "Colors") == 0) { int colors = dev->color_info.num_components; return param_write_int(plist, "Colors", &colors); } if (strcmp(Param, "BitsPerPixel") == 0) { return param_write_int(plist, "BitsPerPixel", &depth); } if (strcmp(Param, "GrayValues") == 0) { int GrayValues = dev->color_info.max_gray + 1; return param_write_int(plist, "GrayValues", &GrayValues); } if (strcmp(Param, "PageCount") == 0) { return param_write_long(plist, "PageCount", &dev->PageCount); } if (strcmp(Param, ".IgnoreNumCopies") == 0) { return param_write_bool(plist, ".IgnoreNumCopies", &dev->IgnoreNumCopies); } if (strcmp(Param, "TextAlphaBits") == 0) { return param_write_int(plist, "TextAlphaBits", &dev->color_info.anti_alias.text_bits); } if (strcmp(Param, "GraphicsAlphaBits") == 0) { return param_write_int(plist, "GraphicsAlphaBits", &dev->color_info.anti_alias.graphics_bits); } if (strcmp(Param, "AntidropoutDownscaler") == 0) { return param_write_bool(plist, "AntidropoutDownscaler", &dev->color_info.use_antidropout_downscaler); } if (strcmp(Param, ".LockSafetyParams") == 0) { return param_write_bool(plist, ".LockSafetyParams", &dev->LockSafetyParams); } if (strcmp(Param, "MaxPatternBitmap") == 0) { return param_write_size_t(plist, "MaxPatternBitmap", &dev->MaxPatternBitmap); } if (strcmp(Param, "PageUsesTransparency") == 0) { return param_write_bool(plist, "PageUsesTransparency", &dev->page_uses_transparency); } if (strcmp(Param, "PageUsesOverprint") == 0) { return param_write_bool(plist, "PageUsesOverprint", &dev->page_uses_overprint); } if (strcmp(Param, "MaxBitmap") == 0) { return param_write_size_t(plist, "MaxBitmap", &(dev->space_params.MaxBitmap)); } if (strcmp(Param, "BandBufferSpace") == 0) { return param_write_size_t(plist, "BandBufferSpace", &dev->space_params.band.BandBufferSpace); } if (strcmp(Param, "BandHeight") == 0) { return param_write_int(plist, "BandHeight", &dev->space_params.band.BandHeight); } if (strcmp(Param, "BandWidth") == 0) { return param_write_int(plist, "BandWidth", &dev->space_params.band.BandWidth); } if (strcmp(Param, "BufferSpace") == 0) { return param_write_size_t(plist, "BufferSpace", &dev->space_params.BufferSpace); } if (strcmp(Param, "InterpolateControl") == 0) { int interpolate_control = dev->interpolate_control; return param_write_int(plist, "InterpolateControl", &interpolate_control); } if (strcmp(Param, "LeadingEdge") == 0) { if (dev->LeadingEdge & LEADINGEDGE_SET_MASK) { int leadingedge = dev->LeadingEdge & LEADINGEDGE_MASK; return param_write_int(plist, "LeadingEdge", &leadingedge); } else return param_write_null(plist, "LeadingEdge"); } if (dev->color_info.num_components > 1) { int RGBValues = dev->color_info.max_color + 1; long ColorValues = (depth >= 32 ? -1 : 1L << depth); /* value can only be 32 bits */ if (strcmp(Param, "RedValues") == 0) { return param_write_int(plist, "RedValues", &RGBValues); } if (strcmp(Param, "GreenValues") == 0) { return param_write_int(plist, "GreenValues", &RGBValues); } if (strcmp(Param, "BlueValues") == 0) { return param_write_int(plist, "BlueValues", &RGBValues); } if (strcmp(Param, "ColorValues") == 0) { return param_write_long(plist, "ColorValues", &ColorValues); } } if (strcmp(Param, "HWColorMap") == 0) { byte palette[3 << 8]; if (param_HWColorMap(dev, palette)) { gs_param_string hwcms; hwcms.data = palette, hwcms.size = colors << depth, hwcms.persistent = false; return param_write_string(plist, "HWColorMap", &hwcms); } } /* ICC profiles */ /* Check if the device profile is null. If it is, then we need to go ahead and get it set up at this time. If the proc is not set up yet then we are not going to do anything yet */ /* Although device methods should not be NULL, they are not completely filled in until * gx_device_fill_in_procs is called, and its possible for us to get here before this * happens, so we *must* make sure the method is not NULL before we use it. */ if (dev_proc(dev, get_profile) != NULL) { int code; code = dev_proc(dev, get_profile)(dev, &dev_profile); if (code < 0) return code; if (dev_profile == NULL) { code = gsicc_init_device_profile_struct(dev, NULL, 0); if (code < 0) return code; code = dev_proc(dev, get_profile)(dev, &dev_profile); if (code < 0) return code; } for (k = 0; k < NUM_DEVICE_PROFILES; k++) { if (dev_profile->device_profile[k] == NULL || dev_profile->device_profile[k]->name == NULL) { param_string_from_string(profile_array[k], null_str); profile_intents[k] = gsRINOTSPECIFIED; blackptcomps[k] = gsBPNOTSPECIFIED; blackpreserve[k] = gsBKPRESNOTSPECIFIED; } else { param_string_from_transient_string(profile_array[k], dev_profile->device_profile[k]->name); profile_intents[k] = dev_profile->rendercond[k].rendering_intent; blackptcomps[k] = dev_profile->rendercond[k].black_point_comp; blackpreserve[k] = dev_profile->rendercond[k].preserve_black; } } if (dev_profile->blend_profile == NULL) { param_string_from_string(blend_profile, null_str); } else { param_string_from_transient_string(blend_profile, dev_profile->blend_profile->name); } if (dev_profile->postren_profile == NULL) { param_string_from_string(postren_profile, null_str); } else { param_string_from_transient_string(postren_profile, dev_profile->postren_profile->name); } if (dev_profile->proof_profile == NULL) { param_string_from_string(proof_profile, null_str); } else { param_string_from_transient_string(proof_profile, dev_profile->proof_profile->name); } if (dev_profile->link_profile == NULL) { param_string_from_string(link_profile, null_str); } else { param_string_from_transient_string(link_profile, dev_profile->link_profile->name); } devicegraytok = dev_profile->devicegraytok; graydetection = dev_profile->graydetection; usefastcolor = dev_profile->usefastcolor; blacktext = dev_profile->blacktext; blackvector = dev_profile->blackvector; blackthresholdC = dev_profile->blackthresholdC; blackthresholdL = dev_profile->blackthresholdL; overprint_control = dev_profile->overprint_control; prebandthreshold = dev_profile->prebandthreshold; /* With respect to Output profiles that have non-standard colorants, we rely upon the default profile to give us the colorants if they do exist. */ if (dev_profile->spotnames == NULL) { param_string_from_string(icc_colorants, null_str); } else { char *colorant_names; code = get_dev_icccolorants_utf8(dev->memory, dev_profile, &colorant_names); if (code < 0) return code; if (colorant_names != NULL) { param_string_from_transient_string(icc_colorants, colorant_names); gs_free_object(dev->memory, colorant_names, "gx_default_get_param"); } else { param_string_from_string(icc_colorants, null_str); } } } else { for (k = 0; k < NUM_DEVICE_PROFILES; k++) { param_string_from_string(profile_array[k], null_str); profile_intents[k] = gsRINOTSPECIFIED; blackptcomps[k] = gsBPNOTSPECIFIED; blackpreserve[k] = gsBKPRESNOTSPECIFIED; } param_string_from_string(blend_profile, null_str); param_string_from_string(postren_profile, null_str); param_string_from_string(proof_profile, null_str); param_string_from_string(link_profile, null_str); param_string_from_string(icc_colorants, null_str); } if (strcmp(Param, "DeviceGrayToK") == 0) { return param_write_bool(plist, "DeviceGrayToK", &devicegraytok); } if (strcmp(Param, "GrayDetection") == 0) { return param_write_bool(plist, "GrayDetection", &graydetection); } if (strcmp(Param, "UseFastColor") == 0) { return param_write_bool(plist, "UseFastColor", &usefastcolor); } if (strcmp(Param, "BlackText") == 0) { return param_write_bool(plist, "BlackText", &blacktext); } if (strcmp(Param, "BlackVector") == 0) { return param_write_bool(plist, "BlackVector", &blackvector); } if (strcmp(Param, "BlackThresholdL") == 0) { return param_write_float(plist, "BlackThresholdL", &blackthresholdL); } if (strcmp(Param, "BlackThresholdC") == 0) { return param_write_float(plist, "BlackThresholdC", &blackthresholdC); } if (strcmp(Param, "Overprint") == 0) { gs_param_string opc_name; const char *s = overprint_control_names[(int)overprint_control]; param_string_from_string(opc_name, s); return param_write_name(plist, "Overprint", &opc_name); } if (strcmp(Param, "PreBandThreshold") == 0) { return param_write_bool(plist, "PreBandThreshold", &prebandthreshold); } if (strcmp(Param, "PostRenderProfile") == 0) { return param_write_string(plist, "PostRenderProfile", &(postren_profile)); } if (strcmp(Param, "BlendColorProfile") == 0) { return param_write_string(plist, "BlendColorProfile", &(blend_profile)); } if (strcmp(Param, "ProofProfile") == 0) { return param_write_string(plist,"ProofProfile", &(proof_profile)); } if (strcmp(Param, "DeviceLinkProfile") == 0) { return param_write_string(plist,"DeviceLinkProfile", &(link_profile)); } if (strcmp(Param, "ICCOutputColors") == 0) { return param_write_string(plist,"ICCOutputColors", &(icc_colorants)); } if (strcmp(Param, "OutputICCProfile") == 0) { return param_write_string(plist,"OutputICCProfile", &(profile_array[0])); } if (strcmp(Param, "VectorICCProfile") == 0) { return param_write_string(plist,"VectorICCProfile", &(profile_array[1])); } if (strcmp(Param, "ImageICCProfile") == 0) { return param_write_string(plist,"ImageICCProfile", &(profile_array[2])); } if (strcmp(Param, "TextICCProfile") == 0) { return param_write_string(plist,"TextICCProfile", &(profile_array[3])); } if (strcmp(Param, "ColorAccuracy") == 0) { return param_write_int(plist, "ColorAccuracy", (const int *)(&(color_accuracy))); } if (strcmp(Param, "RenderIntent") == 0) { return param_write_int(plist,"RenderIntent", (const int *) (&(profile_intents[0]))); } if (strcmp(Param, "VectorIntent") == 0) { return param_write_int(plist,"VectorIntent", (const int *) &(profile_intents[1])); } if (strcmp(Param, "ImageIntent") == 0) { return param_write_int(plist,"ImageIntent", (const int *) &(profile_intents[2])); } if (strcmp(Param, "TextIntent") == 0) { return param_write_int(plist,"TextIntent", (const int *) &(profile_intents[3])); } if (strcmp(Param, "BlackPtComp") == 0) { return param_write_int(plist,"BlackPtComp", (const int *) (&(blackptcomps[0]))); } if (strcmp(Param, "VectorBlackPt") == 0) { return param_write_int(plist,"VectorBlackPt", (const int *) &(blackptcomps[1])); } if (strcmp(Param, "ImageBlackPt") == 0) { return param_write_int(plist,"ImageBlackPt", (const int *) &(blackptcomps[2])); } if (strcmp(Param, "TextBlackPt") == 0) { return param_write_int(plist,"TextBlackPt", (const int *) &(blackptcomps[3])); } if (strcmp(Param, "KPreserve") == 0) { return param_write_int(plist,"KPreserve", (const int *) (&(blackpreserve[0]))); } if (strcmp(Param, "VectorKPreserve") == 0) { return param_write_int(plist,"VectorKPreserve", (const int *) &(blackpreserve[1])); } if (strcmp(Param, "ImageKPreserve") == 0) { return param_write_int(plist,"ImageKPreserve", (const int *) &(blackpreserve[2])); } if (strcmp(Param, "TextKPreserve") == 0) { return param_write_int(plist,"TextKPreserve", (const int *) &(blackpreserve[3])); } if (strcmp(Param, "FirstPage") == 0) { return param_write_int(plist, "FirstPage", &dev->FirstPage); } if (strcmp(Param, "LastPage") == 0) { return param_write_int(plist, "LastPage", &dev->LastPage); } if (strcmp(Param, "DisablePageHandler") == 0) { temp_bool = dev->DisablePageHandler; return param_write_bool(plist, "DisablePageHandler", &temp_bool); } if (strcmp(Param, "NupControl") == 0){ gs_param_string nupcontrol; if (dev->NupControl) { gdev_nupcontrol *p = (gdev_nupcontrol *)dev->NupControl; param_string_from_string(nupcontrol, p->nupcontrol_str); } else param_string_from_string(nupcontrol, null_str); return param_write_string(plist, "NupControl", &nupcontrol); } if (strcmp(Param, "PageList") == 0){ gs_param_string pagelist; if (dev->PageList) { gdev_pagelist *p = (gdev_pagelist *)dev->PageList; param_string_from_string(pagelist, p->Pages); } else param_string_from_string(pagelist, null_str); return param_write_string(plist, "PageList", &pagelist); } if (strcmp(Param, "FILTERIMAGE") == 0) { temp_bool = dev->ObjectFilter & FILTERIMAGE; return param_write_bool(plist, "FILTERIMAGE", &temp_bool); } if (strcmp(Param, "FILTERTEXT") == 0) { temp_bool = dev->ObjectFilter & FILTERTEXT; return param_write_bool(plist, "FILTERTEXT", &temp_bool); } if (strcmp(Param, "FILTERVECTOR") == 0) { temp_bool = dev->ObjectFilter & FILTERVECTOR; return param_write_bool(plist, "FILTERVECTOR", &temp_bool); } return_error(gs_error_undefined); } /* Get standard parameters. */ int gx_default_get_params(gx_device * dev, gs_param_list * plist) { int code; /* Standard page device parameters: */ bool seprs = false; gs_param_string dns, pcms, profile_array[NUM_DEVICE_PROFILES]; gs_param_string blend_profile, postren_profile, pagelist, nuplist; gs_param_string proof_profile, link_profile, icc_colorants; gsicc_rendering_intents_t profile_intents[NUM_DEVICE_PROFILES]; gsicc_blackptcomp_t blackptcomps[NUM_DEVICE_PROFILES]; gsicc_blackpreserve_t blackpreserve[NUM_DEVICE_PROFILES]; bool devicegraytok = true; /* Default if device profile stuct not set */ bool graydetection = false; bool usefastcolor = false; /* set for unmanaged color */ bool blacktext = false; bool blackvector = false; float blackthresholdL = BLACKTHRESHOLDL; float blackthresholdC = BLACKTHRESHOLDC; /* By default, only overprint if the device supports it */ gs_overprint_control_t overprint_control = gs_overprint_control_enable; bool prebandthreshold = true, temp_bool; int k; int color_accuracy = MAX_COLOR_ACCURACY; gs_param_float_array msa, ibba, hwra, ma; gs_param_string_array scna; char null_str[1]={'\0'}; #define set_param_array(a, d, s)\ (a.data = d, a.size = s, a.persistent = false); /* Non-standard parameters: */ int colors = dev->color_info.num_components; int mns = dev->color_info.max_components; int depth = dev->color_info.depth; int GrayValues = dev->color_info.max_gray + 1; int HWSize[2]; gs_param_int_array hwsa; gs_param_float_array hwma; cmm_dev_profile_t *dev_profile; /* Fill in page device parameters. */ param_string_from_string(dns, dev->dname); { const char *cms = get_process_color_model_name(dev); /* We might have an uninitialized device with */ /* color_info.num_components = 0.... */ if ((cms != NULL) && (*cms != '\0')) param_string_from_string(pcms, cms); else pcms.data = 0; } set_param_array(hwra, dev->HWResolution, 2); set_param_array(msa, dev->MediaSize, 2); set_param_array(ibba, dev->ImagingBBox, 4); set_param_array(ma, dev->Margins, 2); set_param_array(scna, NULL, 0); /* Fill in non-standard parameters. */ HWSize[0] = dev->width; HWSize[1] = dev->height; set_param_array(hwsa, HWSize, 2); set_param_array(hwma, dev->HWMargins, 4); /* Check if the device profile is null. If it is, then we need to go ahead and get it set up at this time. If the proc is not set up yet then we are not going to do anything yet */ /* Although device methods should not be NULL, they are not completely filled in until * gx_device_fill_in_procs is called, and its possible for us to get here before this * happens, so we *must* make sure the method is not NULL before we use it. */ if (dev_proc(dev, get_profile) != NULL) { code = dev_proc(dev, get_profile)(dev, &dev_profile); if (code < 0) return code; if (dev_profile == NULL) { code = gsicc_init_device_profile_struct(dev, NULL, 0); if (code < 0) return code; code = dev_proc(dev, get_profile)(dev, &dev_profile); if (code < 0) return code; } /* It is possible that the current device profile name is NULL if we have a pdf14 device in line with a transparency group that is in a color space specified from a source defined ICC profile. Check for that here to avoid any access violations. Bug 692558 */ for (k = 0; k < NUM_DEVICE_PROFILES; k++) { if (dev_profile->device_profile[k] == NULL || dev_profile->device_profile[k]->name == NULL) { param_string_from_string(profile_array[k], null_str); profile_intents[k] = gsRINOTSPECIFIED; blackptcomps[k] = gsBPNOTSPECIFIED; blackpreserve[k] = gsBKPRESNOTSPECIFIED; } else { param_string_from_transient_string(profile_array[k], dev_profile->device_profile[k]->name); profile_intents[k] = dev_profile->rendercond[k].rendering_intent; blackptcomps[k] = dev_profile->rendercond[k].black_point_comp; blackpreserve[k] = dev_profile->rendercond[k].preserve_black; } } /* The proof, link and post render profile */ if (dev_profile->proof_profile == NULL) { param_string_from_string(proof_profile, null_str); } else { param_string_from_transient_string(proof_profile, dev_profile->proof_profile->name); } if (dev_profile->link_profile == NULL) { param_string_from_string(link_profile, null_str); } else { param_string_from_transient_string(link_profile, dev_profile->link_profile->name); } if (dev_profile->postren_profile == NULL) { param_string_from_string(postren_profile, null_str); } else { param_string_from_transient_string(postren_profile, dev_profile->postren_profile->name); } if (dev_profile->blend_profile == NULL) { param_string_from_string(blend_profile, null_str); } else { param_string_from_transient_string(blend_profile, dev_profile->blend_profile->name); } devicegraytok = dev_profile->devicegraytok; graydetection = dev_profile->graydetection; usefastcolor = dev_profile->usefastcolor; blacktext = dev_profile->blacktext; blackvector = dev_profile->blackvector; blackthresholdC = dev_profile->blackthresholdC; blackthresholdL = dev_profile->blackthresholdL; overprint_control = dev_profile->overprint_control; prebandthreshold = dev_profile->prebandthreshold; /* With respect to Output profiles that have non-standard colorants, we rely upon the default profile to give us the colorants if they do exist. */ if (dev_profile->spotnames == NULL) { param_string_from_string(icc_colorants, null_str); } else { char *colorant_names; code = get_dev_icccolorants_utf8(dev->memory, dev_profile, &colorant_names); if (code < 0) return code; if (colorant_names != NULL) { param_string_from_transient_string(icc_colorants, colorant_names); gs_free_object(dev->memory, colorant_names, "gx_default_get_param"); } else { param_string_from_string(icc_colorants, null_str); } } } else { for (k = 0; k < NUM_DEVICE_PROFILES; k++) { param_string_from_string(profile_array[k], null_str); profile_intents[k] = gsRINOTSPECIFIED; blackptcomps[k] = gsBPNOTSPECIFIED; blackpreserve[k] = gsBKPRESNOTSPECIFIED; } param_string_from_string(proof_profile, null_str); param_string_from_string(link_profile, null_str); param_string_from_string(icc_colorants, null_str); param_string_from_string(postren_profile, null_str); param_string_from_string(blend_profile, null_str); } /* Transmit the values. */ /* Standard parameters */ if ( (code = param_write_name(plist, "OutputDevice", &dns)) < 0 || #ifdef PAGESIZE_IS_MEDIASIZE (code = param_write_float_array(plist, "PageSize", &msa)) < 0 || #endif (code = (pcms.data == 0 ? 0 : param_write_name(plist, "ProcessColorModel", &pcms))) < 0 || (code = param_write_float_array(plist, "HWResolution", &hwra)) < 0 || (code = (dev->ImagingBBox_set ? param_write_float_array(plist, "ImagingBBox", &ibba) : param_write_null(plist, "ImagingBBox"))) < 0 || (code = param_write_float_array(plist, "Margins", &ma)) < 0 || (code = param_write_int(plist, "MaxSeparations", &mns)) < 0 || (code = (dev->NumCopies_set < 0 || (*dev_proc(dev, get_page_device))(dev) == 0 ? 0: dev->NumCopies_set ? param_write_int(plist, "NumCopies", &dev->NumCopies) : param_write_null(plist, "NumCopies"))) < 0 || (code = param_write_name_array(plist, "SeparationColorNames", &scna)) < 0 || (code = param_write_bool(plist, "Separations", &seprs)) < 0 || (code = param_write_bool(plist, "UseCIEColor", &dev->UseCIEColor)) < 0 || /* Non-standard parameters */ /* Note: if change is made in NUM_DEVICE_PROFILES we need to name that profile here for the device parameter on the command line */ (code = param_write_bool(plist, "DeviceGrayToK", &devicegraytok)) < 0 || (code = param_write_bool(plist, "GrayDetection", &graydetection)) < 0 || (code = param_write_bool(plist, "UseFastColor", &usefastcolor)) < 0 || (code = param_write_bool(plist, "BlackText", &blacktext)) < 0 || (code = param_write_bool(plist, "BlackVector", &blackvector)) < 0 || (code = param_write_float(plist, "BlackThresholdL", &blackthresholdL)) < 0 || (code = param_write_float(plist, "BlackThresholdC", &blackthresholdC)) < 0 || (code = param_write_bool(plist, "PreBandThreshold", &prebandthreshold)) < 0 || (code = param_write_string(plist,"OutputICCProfile", &(profile_array[0]))) < 0 || (code = param_write_string(plist,"VectorICCProfile", &(profile_array[1]))) < 0 || (code = param_write_string(plist,"ImageICCProfile", &(profile_array[2]))) < 0 || (code = param_write_string(plist,"TextICCProfile", &(profile_array[3]))) < 0 || (code = param_write_string(plist,"ProofProfile", &(proof_profile))) < 0 || (code = param_write_string(plist, "PostRenderProfile", &(postren_profile))) < 0 || (code = param_write_string(plist, "BlendColorProfile", &(blend_profile))) < 0 || (code = param_write_string(plist,"DeviceLinkProfile", &(link_profile))) < 0 || (code = param_write_string(plist,"ICCOutputColors", &(icc_colorants))) < 0 || (code = param_write_int(plist, "RenderIntent", (const int *)(&(profile_intents[0])))) < 0 || (code = param_write_int(plist, "ColorAccuracy", (const int *)(&(color_accuracy)))) < 0 || (code = param_write_int(plist,"VectorIntent", (const int *) &(profile_intents[1]))) < 0 || (code = param_write_int(plist,"ImageIntent", (const int *) &(profile_intents[2]))) < 0 || (code = param_write_int(plist,"TextIntent", (const int *) &(profile_intents[3]))) < 0 || (code = param_write_int(plist,"BlackPtComp", (const int *) (&(blackptcomps[0])))) < 0 || (code = param_write_int(plist,"VectorBlackPt", (const int *) &(blackptcomps[1]))) < 0 || (code = param_write_int(plist,"ImageBlackPt", (const int *) &(blackptcomps[2]))) < 0 || (code = param_write_int(plist,"TextBlackPt", (const int *) &(blackptcomps[3]))) < 0 || (code = param_write_int(plist,"KPreserve", (const int *) (&(blackpreserve[0])))) < 0 || (code = param_write_int(plist,"VectorKPreserve", (const int *) &(blackpreserve[1]))) < 0 || (code = param_write_int(plist,"ImageKPreserve", (const int *) &(blackpreserve[2]))) < 0 || (code = param_write_int(plist,"TextKPreserve", (const int *) &(blackpreserve[3]))) < 0 || (code = param_write_int_array(plist, "HWSize", &hwsa)) < 0 || (code = param_write_float_array(plist, ".HWMargins", &hwma)) < 0 || (code = param_write_float_array(plist, ".MediaSize", &msa)) < 0 || (code = param_write_string(plist, "Name", &dns)) < 0 || (code = param_write_int(plist, "Colors", &colors)) < 0 || (code = param_write_int(plist, "BitsPerPixel", &depth)) < 0 || (code = param_write_int(plist, "GrayValues", &GrayValues)) < 0 || (code = param_write_long(plist, "PageCount", &dev->PageCount)) < 0 || (code = param_write_bool(plist, ".IgnoreNumCopies", &dev->IgnoreNumCopies)) < 0 || (code = param_write_int(plist, "TextAlphaBits", &dev->color_info.anti_alias.text_bits)) < 0 || (code = param_write_int(plist, "GraphicsAlphaBits", &dev->color_info.anti_alias.graphics_bits)) < 0 || (code = param_write_bool(plist, "AntidropoutDownscaler", &dev->color_info.use_antidropout_downscaler)) < 0 || (code = param_write_bool(plist, ".LockSafetyParams", &dev->LockSafetyParams)) < 0 || (code = param_write_size_t(plist, "MaxPatternBitmap", &dev->MaxPatternBitmap)) < 0 || (code = param_write_bool(plist, "PageUsesTransparency", &dev->page_uses_transparency)) < 0 || (code = param_write_bool(plist, "PageUsesOverprint", &dev->page_uses_overprint)) < 0 || (code = param_write_size_t(plist, "MaxBitmap", &(dev->space_params.MaxBitmap))) < 0 || (code = param_write_size_t(plist, "BandBufferSpace", &dev->space_params.band.BandBufferSpace)) < 0 || (code = param_write_int(plist, "BandHeight", &dev->space_params.band.BandHeight)) < 0 || (code = param_write_int(plist, "BandWidth", &dev->space_params.band.BandWidth)) < 0 || (code = param_write_size_t(plist, "BufferSpace", &dev->space_params.BufferSpace)) < 0 || (code = param_write_int(plist, "InterpolateControl", &dev->interpolate_control)) < 0 ) return code; { gs_param_string opc_name; const char *s = overprint_control_names[(int)overprint_control]; param_string_from_string(opc_name, s); param_write_name(plist, "Overprint", &opc_name); } /* If LeadingEdge was set explicitly, report it here. */ if (dev->LeadingEdge & LEADINGEDGE_SET_MASK) { int leadingedge = dev->LeadingEdge & LEADINGEDGE_MASK; code = param_write_int(plist, "LeadingEdge", &leadingedge); } else code = param_write_null(plist, "LeadingEdge"); if (code < 0) return code; if ((code = param_write_int(plist, "FirstPage", &dev->FirstPage)) < 0) return code; if ((code = param_write_int(plist, "LastPage", &dev->LastPage)) < 0) return code; temp_bool = dev->DisablePageHandler; if ((code = param_write_bool(plist, "DisablePageHandler", &temp_bool)) < 0) return code; if (dev->NupControl) { gdev_nupcontrol *p = (gdev_nupcontrol *)dev->NupControl; param_string_from_string(nuplist, p->nupcontrol_str); } else { param_string_from_string(nuplist, null_str); } if ((code = param_write_string(plist, "NupControl", &nuplist)) < 0) return code; if (dev->PageList) { gdev_pagelist *p = (gdev_pagelist *)dev->PageList; param_string_from_transient_string(pagelist, p->Pages); } else { param_string_from_string(pagelist, null_str); } if ((code = param_write_string(plist, "PageList", &pagelist)) < 0) return code; temp_bool = dev->ObjectFilter & FILTERIMAGE; if ((code = param_write_bool(plist, "FILTERIMAGE", &temp_bool)) < 0) return code; temp_bool = dev->ObjectFilter & FILTERTEXT; if ((code = param_write_bool(plist, "FILTERTEXT", &temp_bool)) < 0) return code; temp_bool = dev->ObjectFilter & FILTERVECTOR; if ((code = param_write_bool(plist, "FILTERVECTOR", &temp_bool)) < 0) return code; /* Fill in color information. */ if (colors > 1) { int RGBValues = dev->color_info.max_color + 1; long ColorValues = (depth >= 32 ? -1 : 1L << depth); /* value can only be 32 bits */ if ((code = param_write_int(plist, "RedValues", &RGBValues)) < 0 || (code = param_write_int(plist, "GreenValues", &RGBValues)) < 0 || (code = param_write_int(plist, "BlueValues", &RGBValues)) < 0 || (code = param_write_long(plist, "ColorValues", &ColorValues)) < 0 ) return code; } if (param_requested(plist, "HWColorMap")) { byte palette[3 << 8]; if (param_HWColorMap(dev, palette)) { gs_param_string hwcms; hwcms.data = palette, hwcms.size = colors << depth, hwcms.persistent = false; if ((code = param_write_string(plist, "HWColorMap", &hwcms)) < 0) return code; } } return 0; } /* Get the color map for a device. Return true if there is one. */ static bool param_HWColorMap(gx_device * dev, byte * palette /* 3 << 8 */ ) { int depth = dev->color_info.depth; int colors = dev->color_info.num_components; if (depth <= 8 && colors <= 3) { byte *p = palette; gx_color_value rgb[3]; gx_color_index i; fill_dev_proc(dev, map_color_rgb, gx_default_map_color_rgb); for (i = 0; (i >> depth) == 0; i++) { int j; if ((*dev_proc(dev, map_color_rgb)) (dev, i, rgb) < 0) return false; for (j = 0; j < colors; j++) *p++ = gx_color_value_to_byte(rgb[j]); } return true; } return false; } /* Get hardware-detected parameters. Default action is no hardware params. */ int gx_default_get_hardware_params(gx_device * dev, gs_param_list * plist) { return 0; } /* ---------------- Input and output media ---------------- */ /* Finish defining input or output media. */ static int finish_media(gs_param_list * mlist, gs_param_name key, const char *media_type) { int code = 0; if (media_type != 0) { gs_param_string as; param_string_from_string(as, media_type); code = param_write_string(mlist, key, &as); } return code; } /* Define input media. */ const gdev_input_media_t gdev_input_media_default = { gdev_input_media_default_values }; int gdev_begin_input_media(gs_param_list * mlist, gs_param_dict * pdict, int count) { pdict->size = count; return param_begin_write_dict(mlist, "InputAttributes", pdict, true); } int gdev_write_input_media(int index, gs_param_dict * pdict, const gdev_input_media_t * pim) { char key[25]; gs_param_dict mdict; int code; gs_param_string as; gs_snprintf(key, sizeof(key), "%d", index); mdict.size = 4; code = param_begin_write_dict(pdict->list, key, &mdict, false); if (code < 0) return code; if ((pim->PageSize[0] != 0 && pim->PageSize[1] != 0) || (pim->PageSize[2] != 0 && pim->PageSize[3] != 0) ) { gs_param_float_array psa; psa.data = pim->PageSize; psa.size = (pim->PageSize[0] == pim->PageSize[2] && pim->PageSize[1] == pim->PageSize[3] ? 2 : 4); psa.persistent = false; code = param_write_float_array(mdict.list, "PageSize", &psa); if (code < 0) return code; } if (pim->MediaColor != 0) { param_string_from_string(as, pim->MediaColor); code = param_write_string(mdict.list, "MediaColor", &as); if (code < 0) return code; } if (pim->MediaWeight != 0) { /* * We do the following silly thing in order to avoid * having to work around the 'const' in the arg list. */ float weight = pim->MediaWeight; code = param_write_float(mdict.list, "MediaWeight", &weight); if (code < 0) return code; } code = finish_media(mdict.list, "MediaType", pim->MediaType); if (code < 0) return code; return param_end_write_dict(pdict->list, key, &mdict); } int gdev_write_input_page_size(int index, gs_param_dict * pdict, double width_points, double height_points) { gdev_input_media_t media; media.PageSize[0] = media.PageSize[2] = (float) width_points; media.PageSize[1] = media.PageSize[3] = (float) height_points; media.MediaColor = 0; media.MediaWeight = 0; media.MediaType = 0; return gdev_write_input_media(index, pdict, &media); } int gdev_end_input_media(gs_param_list * mlist, gs_param_dict * pdict) { return param_end_write_dict(mlist, "InputAttributes", pdict); } /* Define output media. */ const gdev_output_media_t gdev_output_media_default = { gdev_output_media_default_values }; int gdev_begin_output_media(gs_param_list * mlist, gs_param_dict * pdict, int count) { pdict->size = count; return param_begin_write_dict(mlist, "OutputAttributes", pdict, true); } int gdev_write_output_media(int index, gs_param_dict * pdict, const gdev_output_media_t * pom) { char key[25]; gs_param_dict mdict; int code; gs_snprintf(key, sizeof(key), "%d", index); mdict.size = 4; code = param_begin_write_dict(pdict->list, key, &mdict, false); if (code < 0) return code; code = finish_media(mdict.list, "OutputType", pom->OutputType); if (code < 0) return code; return param_end_write_dict(pdict->list, key, &mdict); } int gdev_end_output_media(gs_param_list * mlist, gs_param_dict * pdict) { return param_end_write_dict(mlist, "OutputAttributes", pdict); } /* ================ Putting parameters ================ */ /* Forward references */ static int param_normalize_anti_alias_bits( uint max_gray, int bits ); static int param_anti_alias_bits(gs_param_list *, gs_param_name, int *); static int param_MediaSize(gs_param_list *, gs_param_name, const float *, gs_param_float_array *); static int param_check_bool(gs_param_list *, gs_param_name, bool, bool); static int param_check_long(gs_param_list *, gs_param_name, long, bool); #define param_check_int(plist, pname, ival, is_defined)\ param_check_long(plist, pname, (long)(ival), is_defined) static int param_check_bytes(gs_param_list *, gs_param_name, const byte *, uint, bool); #define param_check_string(plist, pname, str, is_defined)\ param_check_bytes(plist, pname, (const byte *)(str), \ (is_defined) ? strlen(str) : 0, is_defined) /* Set the device parameters. */ /* If the device was open and the put_params procedure closed it, */ /* return 1; otherwise, return 0 or an error code as usual. */ int gs_putdeviceparams(gx_device * dev, gs_param_list * plist) { bool was_open = dev->is_open; int code; /* gs_param_list_dump(plist); */ fill_dev_proc(dev, put_params, gx_default_put_params); fill_dev_proc(dev, get_alpha_bits, gx_default_get_alpha_bits); code = (*dev_proc(dev, put_params)) (dev, plist); return (code < 0 ? code : was_open && !dev->is_open ? 1 : code); } static int gx_default_put_graydetection(bool graydetection, gx_device * dev) { int code = 0; cmm_dev_profile_t *profile_struct; /* Although device methods should not be NULL, they are not completely filled in until * gx_device_fill_in_procs is called, and its possible for us to get here before this * happens, so we *must* make sure the method is not NULL before we use it. */ if (dev_proc(dev, get_profile) == NULL) { /* This is an odd case where the device has not yet fully been set up with its procedures yet. We want to make sure that we catch this so we assume here that we are dealing with the target device. For now allocate the profile structure but do not intialize the profile yet as the color info may not be fully set up at this time. */ if (dev->icc_struct == NULL) { /* Allocate at this time the structure */ dev->icc_struct = gsicc_new_device_profile_array(dev); } dev->icc_struct->graydetection = graydetection; dev->icc_struct->pageneutralcolor = graydetection; } else { code = dev_proc(dev, get_profile)(dev, &profile_struct); if (profile_struct == NULL) { /* Create now */ dev->icc_struct = gsicc_new_device_profile_array(dev); profile_struct = dev->icc_struct; } profile_struct->graydetection = graydetection; profile_struct->pageneutralcolor = graydetection; } return code; } static int gx_default_put_graytok(bool graytok, gx_device * dev) { int code = 0; cmm_dev_profile_t *profile_struct; /* Although device methods should not be NULL, they are not completely filled in until * gx_device_fill_in_procs is called, and its possible for us to get here before this * happens, so we *must* make sure the method is not NULL before we use it. */ if (dev_proc(dev, get_profile) == NULL) { /* This is an odd case where the device has not yet fully been set up with its procedures yet. We want to make sure that we catch this so we assume here that we are dealing with the target device. For now allocate the profile structure but do not intialize the profile yet as the color info may not be fully set up at this time. */ if (dev->icc_struct == NULL) { /* Allocate at this time the structure */ dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } dev->icc_struct->devicegraytok = graytok; } else { code = dev_proc(dev, get_profile)(dev, &profile_struct); if (profile_struct == NULL) { /* Create now */ dev->icc_struct = gsicc_new_device_profile_array(dev); profile_struct = dev->icc_struct; if (profile_struct == NULL) return_error(gs_error_VMerror); } profile_struct->devicegraytok = graytok; } return code; } static int gx_default_put_prebandthreshold(bool prebandthreshold, gx_device * dev) { int code = 0; cmm_dev_profile_t *profile_struct; /* Although device methods should not be NULL, they are not completely filled in until * gx_device_fill_in_procs is called, and its possible for us to get here before this * happens, so we *must* make sure the method is not NULL before we use it. */ if (dev_proc(dev, get_profile) == NULL) { /* This is an odd case where the device has not yet fully been set up with its procedures yet. We want to make sure that we catch this so we assume here that we are dealing with the target device. For now allocate the profile structure but do not intialize the profile yet as the color info may not be fully set up at this time. */ if (dev->icc_struct == NULL) { /* Allocate at this time the structure */ dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } dev->icc_struct->prebandthreshold = prebandthreshold; } else { code = dev_proc(dev, get_profile)(dev, &profile_struct); if (profile_struct == NULL) { /* Create now */ dev->icc_struct = gsicc_new_device_profile_array(dev); profile_struct = dev->icc_struct; if (profile_struct == NULL) return_error(gs_error_VMerror); } profile_struct->prebandthreshold = prebandthreshold; } return code; } static int gx_default_put_usefastcolor(bool fastcolor, gx_device * dev) { int code = 0; cmm_dev_profile_t *profile_struct; /* Although device methods should not be NULL, they are not completely filled in until * gx_device_fill_in_procs is called, and its possible for us to get here before this * happens, so we *must* make sure the method is not NULL before we use it. */ if (dev_proc(dev, get_profile) == NULL) { /* This is an odd case where the device has not yet fully been set up with its procedures yet. We want to make sure that we catch this so we assume here that we are dealing with the target device. For now allocate the profile structure but do not intialize the profile yet as the color info may not be fully set up at this time. */ if (dev->icc_struct == NULL) { /* Allocate at this time the structure */ dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } dev->icc_struct->usefastcolor = fastcolor; } else { code = dev_proc(dev, get_profile)(dev, &profile_struct); if (profile_struct == NULL) { /* Create now */ dev->icc_struct = gsicc_new_device_profile_array(dev); profile_struct = dev->icc_struct; if (profile_struct == NULL) return_error(gs_error_VMerror); } profile_struct->usefastcolor = fastcolor; } return code; } static int gx_default_put_blacktext(bool blacktext, gx_device* dev) { int code = 0; cmm_dev_profile_t* profile_struct; if (dev_proc(dev, get_profile) == NULL) { if (dev->icc_struct == NULL) { dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } dev->icc_struct->blacktext = blacktext; } else { code = dev_proc(dev, get_profile)(dev, &profile_struct); if (profile_struct == NULL) { /* Create now */ dev->icc_struct = gsicc_new_device_profile_array(dev); profile_struct = dev->icc_struct; if (profile_struct == NULL) return_error(gs_error_VMerror); } profile_struct->blacktext = blacktext; } return code; } static int gx_default_put_blackthresholds(float blackthresholdL, float blackthresholdC, gx_device *dev) { int code = 0; cmm_dev_profile_t* profile_struct; if (dev_proc(dev, get_profile) == NULL) { if (dev->icc_struct == NULL) { dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } dev->icc_struct->blackthresholdL = blackthresholdL; dev->icc_struct->blackthresholdC = blackthresholdC; } else { code = dev_proc(dev, get_profile)(dev, &profile_struct); if (profile_struct == NULL) { /* Create now */ dev->icc_struct = gsicc_new_device_profile_array(dev); profile_struct = dev->icc_struct; if (profile_struct == NULL) return_error(gs_error_VMerror); } profile_struct->blackthresholdL = blackthresholdL; profile_struct->blackthresholdC = blackthresholdC; } return code; } static int gx_default_put_blackvector(bool blackvector, gx_device* dev) { int code = 0; cmm_dev_profile_t* profile_struct; if (dev_proc(dev, get_profile) == NULL) { if (dev->icc_struct == NULL) { dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } dev->icc_struct->blackvector = blackvector; } else { code = dev_proc(dev, get_profile)(dev, &profile_struct); if (profile_struct == NULL) { /* Create now */ dev->icc_struct = gsicc_new_device_profile_array(dev); profile_struct = dev->icc_struct; if (profile_struct == NULL) return_error(gs_error_VMerror); } profile_struct->blackvector = blackvector; } return code; } static int gx_default_put_overprint_control(gs_overprint_control_t overprint_control, gx_device * dev) { int code = 0; cmm_dev_profile_t *profile_struct; /* Although device methods should not be NULL, they are not completely filled in until * gx_device_fill_in_procs is called, and its possible for us to get here before this * happens, so we *must* make sure the method is not NULL before we use it. */ if (dev_proc(dev, get_profile) == NULL) { /* This is an odd case where the device has not yet fully been set up with its procedures yet. We want to make sure that we catch this so we assume here that we are dealing with the target device. For now allocate the profile structure but do not intialize the profile yet as the color info may not be fully set up at this time. */ if (dev->icc_struct == NULL) { /* Allocate at this time the structure */ dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } dev->icc_struct->overprint_control = overprint_control; } else { code = dev_proc(dev, get_profile)(dev, &profile_struct); if (profile_struct == NULL) { /* Create now */ dev->icc_struct = gsicc_new_device_profile_array(dev); profile_struct = dev->icc_struct; if (profile_struct == NULL) return_error(gs_error_VMerror); } profile_struct->overprint_control = overprint_control; } return code; } static int gx_default_put_intent(gsicc_rendering_intents_t icc_intent, gx_device * dev, gsicc_profile_types_t index) { int code; cmm_dev_profile_t *profile_struct; /* Although device methods should not be NULL, they are not completely filled in until * gx_device_fill_in_procs is called, and its possible for us to get here before this * happens, so we *must* make sure the method is not NULL before we use it. */ if (dev_proc(dev, get_profile) == NULL) { /* This is an odd case where the device has not yet fully been set up with its procedures yet. We want to make sure that we catch this so we assume here that we are dealing with the target device */ if (dev->icc_struct == NULL) { /* Intializes the device structure. Not the profile though for index */ dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } code = gsicc_set_device_profile_intent(dev, icc_intent, index); } else { code = dev_proc(dev, get_profile)(dev, &profile_struct); if (code < 0) return code; if (profile_struct == NULL) { /* Create now */ dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } code = gsicc_set_device_profile_intent(dev, icc_intent, index); } return code; } static int gx_default_put_blackpreserve(gsicc_blackpreserve_t blackpreserve, gx_device * dev, gsicc_profile_types_t index) { int code; cmm_dev_profile_t *profile_struct; /* Although device methods should not be NULL, they are not completely filled in until * gx_device_fill_in_procs is called, and its possible for us to get here before this * happens, so we *must* make sure the method is not NULL before we use it. */ if (dev_proc(dev, get_profile) == NULL) { /* This is an odd case where the device has not yet fully been set up with its procedures yet. We want to make sure that we catch this so we assume here that we are dealing with the target device */ if (dev->icc_struct == NULL) { /* Intializes the device structure. Not the profile though for index */ dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } code = gsicc_set_device_blackpreserve(dev, blackpreserve, index); } else { code = dev_proc(dev, get_profile)(dev, &profile_struct); if (code < 0) return code; if (profile_struct == NULL) { /* Create now */ dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } code = gsicc_set_device_blackpreserve(dev, blackpreserve, index); } return code; } static int gx_default_put_blackptcomp(gsicc_blackptcomp_t blackptcomp, gx_device * dev, gsicc_profile_types_t index) { int code; cmm_dev_profile_t *profile_struct; /* Although device methods should not be NULL, they are not completely filled in until * gx_device_fill_in_procs is called, and its possible for us to get here before this * happens, so we *must* make sure the method is not NULL before we use it. */ if (dev_proc(dev, get_profile) == NULL) { /* This is an odd case where the device has not yet fully been set up with its procedures yet. We want to make sure that we catch this so we assume here that we are dealing with the target device */ if (dev->icc_struct == NULL) { /* Intializes the device structure. Not the profile though for index */ dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } code = gsicc_set_device_blackptcomp(dev, blackptcomp, index); } else { code = dev_proc(dev, get_profile)(dev, &profile_struct); if (code < 0) return code; if (profile_struct == NULL) { /* Create now */ dev->icc_struct = gsicc_new_device_profile_array(dev); if (dev->icc_struct == NULL) return_error(gs_error_VMerror); } code = gsicc_set_device_blackptcomp(dev, blackptcomp, index); } return code; } static int gx_default_put_icc_colorants(gs_param_string *colorants, gx_device * dev) { char *tempstr; int code; int len; unsigned short *tempstr2; unsigned short *s; char *d; if (colorants->size == 0) return 0; /* See below about this device fill proc */ fill_dev_proc(dev, get_profile, gx_default_get_profile); tempstr = (char *) gs_alloc_bytes(dev->memory, colorants->size+1, "gx_default_put_icc_colorants"); if (tempstr == NULL) return_error(gs_error_VMerror); memcpy(tempstr, colorants->data, colorants->size); /* Set last position to NULL. */ tempstr[colorants->size] = 0; /* The input colorants string is UTF-8 encoded. We want it to be put into the * device as 8-bit 'raw' values. We therefore need to decode it here. Any * UTF-8 chars that do not decode to 8 bits will be flagged up as a rangecheck. */ len = gp_utf8_to_uint16(NULL, tempstr); tempstr2 = (unsigned short *)gs_alloc_bytes(dev->memory, len * sizeof(unsigned short), "gx_default_put_icc_colorants"); if (tempstr2 == NULL) { gs_free_object(dev->memory, tempstr, "gx_default_put_icc_colorants"); return_error(gs_error_VMerror); } len = gp_utf8_to_uint16(tempstr2, tempstr); /* Now convert down to 8 bits. Reuse tempstr here, because we know it will * be large enough. */ code = 0; for (s = tempstr2, d = tempstr; *s; s++, d++) { unsigned short v = *s; if (v & 0xff00) code = gs_note_error(gs_error_rangecheck); *d = v & 0xff; } if (code < 0) emprintf(dev->memory, "ICCColorants must fit (unencoded) in 8 bits"); else code = gsicc_set_device_profile_colorants(dev, tempstr); gs_free_object(dev->memory, tempstr, "gx_default_put_icc_colorants"); gs_free_object(dev->memory, tempstr2, "gx_default_put_icc_colorants"); return code; } static int gx_default_put_icc(gs_param_string *icc_pro, gx_device * dev, gsicc_profile_types_t index) { char *tempstr; int code = 0; if (icc_pro->size == 0) return 0; /* If this has not yet been set, then set it to the default. I don't like doing this here but if we are in here trying to set a profile for our device and if the proc for this has not yet been set, we are going to lose the chance to set the profile. Much like open, this proc should be set early on. I leave that exercise to the device start-up experts */ fill_dev_proc(dev, get_profile, gx_default_get_profile); if (icc_pro->size < gp_file_name_sizeof) { tempstr = (char *) gs_alloc_bytes(dev->memory, icc_pro->size+1, "gx_default_put_icc"); if (tempstr == NULL) return_error(gs_error_VMerror); memcpy(tempstr, icc_pro->data, icc_pro->size); /* Set last position to NULL. */ tempstr[icc_pro->size] = 0; code = gsicc_init_device_profile_struct(dev, tempstr, index); gs_free_object(dev->memory, tempstr, "gx_default_put_icc"); } return code; } void rc_free_NupControl(gs_memory_t * mem, void *ptr_in, client_name_t cname); /* silence warning */ /* Exported for use by nup_put_params in gdevnup.c */ void rc_free_NupControl(gs_memory_t * mem, void *ptr_in, client_name_t cname) { gdev_nupcontrol *pnupc = (gdev_nupcontrol *)ptr_in; if (pnupc->rc.ref_count <= 1) { gs_free(mem->non_gc_memory, pnupc->nupcontrol_str, 1, strlen(pnupc->nupcontrol_str), "free nupcontrol string"); gs_free(mem->non_gc_memory, pnupc, 1, sizeof(gdev_nupcontrol), "free structure to hold nupcontrol string"); } } static void rc_free_pages_list(gs_memory_t * mem, void *ptr_in, client_name_t cname) { gdev_pagelist *PageList = (gdev_pagelist *)ptr_in; if (PageList->rc.ref_count <= 1) { gs_free(mem->non_gc_memory, PageList->Pages, 1, strlen(PageList->Pages), "free page list"); gs_free(mem->non_gc_memory, PageList, 1, sizeof(gdev_pagelist), "free structure to hold page list"); } } /* Set standard parameters. */ /* Note that setting the size or resolution closes the device. */ /* Window devices that don't want this to happen must temporarily */ /* set is_open to false before calling gx_default_put_params, */ /* and then taking appropriate action afterwards. */ int gx_default_put_params(gx_device * dev, gs_param_list * plist) { int ecode = 0; int code; gs_param_name param_name; gs_param_float_array hwra; gs_param_int_array hwsa; gs_param_float_array msa; gs_param_float_array ma; gs_param_float_array hwma; gs_param_string_array scna; int nci = dev->NumCopies; int ncset = dev->NumCopies_set; bool ignc = dev->IgnoreNumCopies; bool ucc = dev->UseCIEColor; gs_param_string icc_pro; bool locksafe = dev->LockSafetyParams; gs_param_float_array ibba; bool ibbnull = false; int colors = dev->color_info.num_components; int depth = dev->color_info.depth; int GrayValues = dev->color_info.max_gray + 1; int RGBValues = dev->color_info.max_color + 1; long ColorValues = (depth >= 32 ? -1 : 1L << depth); int tab = dev->color_info.anti_alias.text_bits; int gab = dev->color_info.anti_alias.graphics_bits; size_t mpbm = dev->MaxPatternBitmap; int ic = dev->interpolate_control; bool page_uses_transparency = dev->page_uses_transparency; bool page_uses_overprint = dev->page_uses_overprint; gdev_space_params sp = dev->space_params; gdev_space_params save_sp = dev->space_params; int rend_intent[NUM_DEVICE_PROFILES]; int blackptcomp[NUM_DEVICE_PROFILES]; int blackpreserve[NUM_DEVICE_PROFILES]; gs_param_string cms, pagelist, nuplist; int leadingedge = dev->LeadingEdge; int k; int color_accuracy; bool devicegraytok = true; bool graydetection = false; bool usefastcolor = false; bool blacktext = false; bool blackvector = false; float blackthresholdL = BLACKTHRESHOLDL; float blackthresholdC = BLACKTHRESHOLDC; gs_overprint_control_t overprint_control = gs_overprint_control_enable; bool prebandthreshold = false; bool use_antidropout = dev->color_info.use_antidropout_downscaler; bool temp_bool; int profile_types[NUM_DEVICE_PROFILES] = {gsDEFAULTPROFILE, gsGRAPHICPROFILE, gsIMAGEPROFILE, gsTEXTPROFILE}; color_accuracy = gsicc_currentcoloraccuracy(dev->memory); if (dev->icc_struct != NULL) { for (k = 0; k < NUM_DEVICE_PROFILES; k++) { rend_intent[k] = dev->icc_struct->rendercond[k].rendering_intent; blackptcomp[k] = dev->icc_struct->rendercond[k].black_point_comp; blackpreserve[k] = dev->icc_struct->rendercond[k].preserve_black; } graydetection = dev->icc_struct->graydetection; devicegraytok = dev->icc_struct->devicegraytok; usefastcolor = dev->icc_struct->usefastcolor; blacktext = dev->icc_struct->blacktext; blackvector = dev->icc_struct->blackvector; blackthresholdL = dev->icc_struct->blackthresholdL; blackthresholdC = dev->icc_struct->blackthresholdC; prebandthreshold = dev->icc_struct->prebandthreshold; overprint_control = dev->icc_struct->overprint_control; } else { for (k = 0; k < NUM_DEVICE_PROFILES; k++) { rend_intent[k] = gsRINOTSPECIFIED; blackptcomp[k] = gsBPNOTSPECIFIED; blackpreserve[k] = gsBKPRESNOTSPECIFIED; } } /* * Template: * BEGIN_ARRAY_PARAM(param_read_xxx_array, "pname", pxxa, size, pxxe) { * ... check value if desired ... * if (success) * break; * ... set ecode ... * } END_ARRAY_PARAM(pxxa, pxxe); */ #define BEGIN_ARRAY_PARAM(pread, pname, pa, psize, e)\ BEGIN\ switch (code = pread(plist, (param_name = pname), &(pa))) {\ case 0:\ if ((pa).size != psize) {\ ecode = gs_note_error(gs_error_rangecheck);\ (pa).data = 0; /* mark as not filled */\ } else #define END_ARRAY_PARAM(pa, e)\ goto e;\ default:\ ecode = code;\ e: param_signal_error(plist, param_name, ecode);\ case 1:\ (pa).data = 0; /* mark as not filled */\ }\ END /* * The actual value of LeadingEdge must be changed inside this routine, * so that we can detect that it has been changed. Thus, instead of a * device setting the value itself, it signals a request, which is * now executed. */ if (leadingedge & LEADINGEDGE_REQ_BIT) { leadingedge = (leadingedge & LEADINGEDGE_SET_MASK) | ((leadingedge >> LEADINGEDGE_REQ_VAL_SHIFT) & LEADINGEDGE_MASK); } /* * The HWResolution, HWSize, and MediaSize parameters interact in * the following way: * 1. Setting HWResolution recomputes HWSize from MediaSize. * 2. Setting HWSize recomputes MediaSize from HWResolution. * 3. Setting MediaSize recomputes HWSize from HWResolution. * If more than one parameter is being set, we apply these rules * in the order 1, 2, 3. This does the right thing in the most * common case of setting more than one parameter, namely, * setting both HWResolution and HWSize. * * Changing of LeadingEdge is treated exactly the same as a * change in HWResolution. In typical usage, MediaSize is * short-edge (MediaSize[0] < MediaSize[1]), so if LeadingEdge * is 1 or 3, then HWSize will become long-edge. For nonsquare * resolutions, HWResolution[0] always corresponds with width * (scan length), and [1] with height (number of scans). */ BEGIN_ARRAY_PARAM(param_read_float_array, "HWResolution", hwra, 2, hwre) { if (hwra.data[0] <= 0 || hwra.data[1] <= 0) ecode = gs_note_error(gs_error_rangecheck); else break; } END_ARRAY_PARAM(hwra, hwre); BEGIN_ARRAY_PARAM(param_read_int_array, "HWSize", hwsa, 2, hwsa) { /* We need a special check to handle the nullpage device, */ /* whose size is legitimately [0 0]. */ if ((hwsa.data[0] <= 0 && hwsa.data[0] != dev->width) || (hwsa.data[1] <= 0 && hwsa.data[1] != dev->height) ) ecode = gs_note_error(gs_error_rangecheck); #define max_coord (max_fixed / fixed_1) #if max_coord < max_int else if (hwsa.data[0] > max_coord || hwsa.data[1] > max_coord) ecode = gs_note_error(gs_error_limitcheck); #endif #undef max_coord else break; } END_ARRAY_PARAM(hwsa, hwse); { int t; code = param_read_int(plist, "LeadingEdge", &t); if (code < 0) { if (param_read_null(plist, "LeadingEdge") == 0) { /* if param is null, clear explicitly-set flag */ leadingedge &= ~LEADINGEDGE_SET_MASK; } else { ecode = code; } } else if (code == 0) { if (t < 0 || t > 3) param_signal_error(plist, "LeadingEdge", ecode = gs_error_rangecheck); else leadingedge = LEADINGEDGE_SET_MASK | t; } } { const float *res = (hwra.data == 0 ? dev->HWResolution : hwra.data); #ifdef PAGESIZE_IS_MEDIASIZE const float *data; /* .MediaSize takes precedence over PageSize, so */ /* we read PageSize first. */ code = param_MediaSize(plist, "PageSize", res, &msa); if (code < 0) ecode = code; /* Prevent data from being set to 0 if PageSize is specified */ /* but .MediaSize is not. */ data = msa.data; code = param_MediaSize(plist, ".MediaSize", res, &msa); if (code < 0) ecode = code; else if (msa.data == 0) msa.data = data; #else code = param_MediaSize(plist, ".MediaSize", res, &msa); if (code < 0) ecode = code; #endif } BEGIN_ARRAY_PARAM(param_read_float_array, "Margins", ma, 2, me) { break; } END_ARRAY_PARAM(ma, me); BEGIN_ARRAY_PARAM(param_read_float_array, ".HWMargins", hwma, 4, hwme) { break; } END_ARRAY_PARAM(hwma, hwme); switch (code = param_read_bool(plist, (param_name = ".IgnoreNumCopies"), &ignc)) { default: ecode = code; param_signal_error(plist, param_name, ecode); case 0: case 1: break; } if (dev->NumCopies_set >= 0 && (*dev_proc(dev, get_page_device))(dev) != 0 ) { switch (code = param_read_int(plist, (param_name = "NumCopies"), &nci)) { case 0: if (nci < 0) ecode = gs_error_rangecheck; else { ncset = 1; break; } goto nce; default: if ((code = param_read_null(plist, param_name)) == 0) { ncset = 0; break; } ecode = code; /* can't be 1 */ nce: param_signal_error(plist, param_name, ecode); case 1: break; } } /* Set the ICC output colors first */ if ((code = param_read_string(plist, "ICCOutputColors", &icc_pro)) != 1) { if ((code = gx_default_put_icc_colorants(&icc_pro, dev)) < 0) { ecode = code; param_signal_error(plist, "ICCOutputColors", ecode); } } if ((code = param_read_string(plist, "DeviceLinkProfile", &icc_pro)) != 1) { if ((code = gx_default_put_icc(&icc_pro, dev, gsLINKPROFILE)) < 0) { ecode = code; param_signal_error(plist, "DeviceLinkProfile", ecode); } } if ((code = param_read_string(plist, "PostRenderProfile", &icc_pro)) != 1) { if ((code = gx_default_put_icc(&icc_pro, dev, gsPRPROFILE)) < 0) { ecode = code; param_signal_error(plist, "PostRenderProfile", ecode); } } if ((code = param_read_string(plist, "OutputICCProfile", &icc_pro)) != 1) { if ((code = gx_default_put_icc(&icc_pro, dev, gsDEFAULTPROFILE)) < 0) { ecode = code; param_signal_error(plist, "OutputICCProfile", ecode); } } /* Note, if a change is made to NUM_DEVICE_PROFILES we need to update this with the name of the profile */ if ((code = param_read_string(plist, "VectorICCProfile", &icc_pro)) != 1) { if ((code = gx_default_put_icc(&icc_pro, dev, gsGRAPHICPROFILE)) < 0) { ecode = code; param_signal_error(plist, "VectorICCProfile", ecode); } } if ((code = param_read_string(plist, "ImageICCProfile", &icc_pro)) != 1) { if ((code = gx_default_put_icc(&icc_pro, dev, gsIMAGEPROFILE)) < 0) { ecode = code; param_signal_error(plist, "ImageICCProfile", ecode); } } if ((code = param_read_string(plist, "TextICCProfile", &icc_pro)) != 1) { if ((code = gx_default_put_icc(&icc_pro, dev, gsTEXTPROFILE)) < 0) { ecode = code; param_signal_error(plist, "TextICCProfile", ecode); } } if ((code = param_read_string(plist, "ProofProfile", &icc_pro)) != 1) { if ((code = gx_default_put_icc(&icc_pro, dev, gsPROOFPROFILE)) < 0) { ecode = code; param_signal_error(plist, "ProofProfile", ecode); } } if ((code = param_read_string(plist, "BlendColorProfile", &icc_pro)) != 1) { if ((code = gx_default_put_icc(&icc_pro, dev, gsBLENDPROFILE)) < 0) { ecode = code; param_signal_error(plist, "BlendColorProfile", ecode); } } if ((code = param_read_int(plist, (param_name = "RenderIntent"), &(rend_intent[0]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "VectorIntent"), &(rend_intent[1]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "ImageIntent"), &(rend_intent[2]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "TextIntent"), &(rend_intent[3]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "BlackPtComp"), &(blackptcomp[0]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "VectorBlackPt"), &(blackptcomp[1]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "ImageBlackPt"), &(blackptcomp[2]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "TextBlackPt"), &(blackptcomp[3]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "KPreserve"), &(blackpreserve[0]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "VectorKPreserve"), &(blackpreserve[1]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "ImageKPreserve"), &(blackpreserve[2]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "TextKPreserve"), &(blackpreserve[3]))) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_int(plist, (param_name = "ColorAccuracy"), &color_accuracy)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_bool(plist, (param_name = "DeviceGrayToK"), &devicegraytok)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_bool(plist, (param_name = "GrayDetection"), &graydetection)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_bool(plist, (param_name = "UseFastColor"), &usefastcolor)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_bool(plist, (param_name = "BlackText"), &blacktext)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_bool(plist, (param_name = "BlackVector"), &blackvector)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_float(plist, (param_name = "BlackThresholdL"), &blackthresholdL)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_float(plist, (param_name = "BlackThresholdC"), &blackthresholdC)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_put_enum(plist, "Overprint", (int*)&overprint_control, overprint_control_names, ecode)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_bool(plist, (param_name = "PreBandThreshold"), &prebandthreshold)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_bool(plist, (param_name = "UseCIEColor"), &ucc)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_anti_alias_bits(plist, "TextAlphaBits", &tab)) < 0) ecode = code; if ((code = param_anti_alias_bits(plist, "GraphicsAlphaBits", &gab)) < 0) ecode = code; if ((code = param_read_bool(plist, "AntidropoutDownscaler", &use_antidropout)) < 0) ecode = code; if ((code = param_read_size_t(plist, "MaxPatternBitmap", &mpbm)) < 0) ecode = code; if ((code = param_read_int(plist, "InterpolateControl", &ic)) < 0) ecode = code; if ((code = param_read_bool(plist, (param_name = "PageUsesTransparency"), &page_uses_transparency)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_bool(plist, (param_name = "PageUsesOverprint"), &page_uses_overprint)) < 0) { ecode = code; param_signal_error(plist, param_name, ecode); } if ((code = param_read_size_t(plist, "MaxBitmap", &sp.MaxBitmap)) < 0) ecode = code; #define CHECK_PARAM_CASES(member, bad, label)\ case 0:\ if ((sp.params_are_read_only ? sp.member != save_sp.member : bad))\ ecode = gs_error_rangecheck;\ else\ break;\ goto label;\ default:\ ecode = code;\ label:\ param_signal_error(plist, param_name, ecode);\ case 1:\ break switch (code = param_read_size_t(plist, (param_name = "BufferSpace"), &sp.BufferSpace)) { CHECK_PARAM_CASES(BufferSpace, sp.BufferSpace < 10000, bse); } switch (code = param_read_int(plist, (param_name = "BandWidth"), &sp.band.BandWidth)) { CHECK_PARAM_CASES(band.BandWidth, sp.band.BandWidth < 0, bwe); } switch (code = param_read_int(plist, (param_name = "BandHeight"), &sp.band.BandHeight)) { CHECK_PARAM_CASES(band.BandHeight, sp.band.BandHeight < -1, bhe); } if (sp.band.BandHeight == -1) sp.band.BandHeight = dev->height; /* 1 band for the page requested */ switch (code = param_read_size_t(plist, (param_name = "BandBufferSpace"), &sp.band.BandBufferSpace)) { CHECK_PARAM_CASES(band.BandBufferSpace, 0, bbse); } switch (code = param_read_bool(plist, (param_name = ".LockSafetyParams"), &locksafe)) { case 0: if (dev->LockSafetyParams && !locksafe) code = gs_note_error(gs_error_invalidaccess); else break; default: ecode = code; param_signal_error(plist, param_name, ecode); case 1: break; } /* Ignore parameters that only have meaning for printers. */ #define IGNORE_INT_PARAM(pname)\ { int igni;\ switch ( code = param_read_int(plist, (param_name = pname), &igni) )\ { default:\ ecode = code;\ param_signal_error(plist, param_name, ecode);\ case 0:\ case 1:\ break;\ }\ } IGNORE_INT_PARAM("%MediaSource") IGNORE_INT_PARAM("%MediaDestination") switch (code = param_read_float_array(plist, (param_name = "ImagingBBox"), &ibba)) { case 0: if (ibba.size != 4 || ibba.data[2] < ibba.data[0] || ibba.data[3] < ibba.data[1] ) ecode = gs_note_error(gs_error_rangecheck); else break; goto ibbe; default: if ((code = param_read_null(plist, param_name)) == 0) { ibbnull = true; ibba.data = 0; break; } ecode = code; /* can't be 1 */ ibbe:param_signal_error(plist, param_name, ecode); case 1: ibba.data = 0; break; } /* Separation, DeviceN Color, and ProcessColorModel related parameters. */ { const char * pcms = get_process_color_model_name(dev); /* the device should have set a process model name at this point */ if ((code = param_check_string(plist, "ProcessColorModel", pcms, (pcms != NULL))) < 0) ecode = code; } IGNORE_INT_PARAM("MaxSeparations") if ((code = param_check_bool(plist, "Separations", false, true)) < 0) ecode = code; BEGIN_ARRAY_PARAM(param_read_name_array, "SeparationColorNames", scna, scna.size, scne) { break; } END_ARRAY_PARAM(scna, scne); /* Now check nominally read-only parameters. */ if ((code = param_check_string(plist, "OutputDevice", dev->dname, true)) < 0) ecode = code; if ((code = param_check_string(plist, "Name", dev->dname, true)) < 0) ecode = code; if ((code = param_check_int(plist, "Colors", colors, true)) < 0) ecode = code; if ((code = param_check_int(plist, "BitsPerPixel", depth, true)) < 0) ecode = code; if ((code = param_check_int(plist, "GrayValues", GrayValues, true)) < 0) ecode = code; /* with saved-pages, PageCount can't be checked. No harm in letting it change */ IGNORE_INT_PARAM("PageCount") if ((code = param_check_int(plist, "RedValues", RGBValues, true)) < 0) ecode = code; if ((code = param_check_int(plist, "GreenValues", RGBValues, true)) < 0) ecode = code; if ((code = param_check_int(plist, "BlueValues", RGBValues, true)) < 0) ecode = code; if ((code = param_check_long(plist, "ColorValues", ColorValues, true)) < 0) ecode = code; if (param_read_string(plist, "HWColorMap", &cms) != 1) { byte palette[3 << 8]; if (param_HWColorMap(dev, palette)) code = param_check_bytes(plist, "HWColorMap", palette, colors << depth, true); else code = param_check_bytes(plist, "HWColorMap", 0, 0, false); if (code < 0) ecode = code; } code = param_read_int(plist, "FirstPage", &dev->FirstPage); if (code < 0) ecode = code; code = param_read_int(plist, "LastPage", &dev->LastPage); if (code < 0) ecode = code; code = param_read_bool(plist, "DisablePageHandler", &temp_bool); if (code < 0) ecode = code; if (code == 0) dev->DisablePageHandler = temp_bool; /* If we have an NupControl subclass device (N-up) installed, this param will have */ /* been handled there, so the check for different will be false, meaning that this */ /* code won't end up doing anything. This will catch the first occurence and needs */ /* to install the N-up subclass device. */ code = param_read_string(plist, "NupControl", &nuplist); if (code < 0) ecode = code; if (code == 0) { if (dev->NupControl && ( nuplist.size == 0 || (strncmp(dev->NupControl->nupcontrol_str, (const char *)nuplist.data, nuplist.size) != 0))) { /* There was a NupControl, but this one is different -- no longer use the old one */ rc_decrement(dev->NupControl, "default put_params NupControl"); dev->NupControl = NULL; } } if (dev->NupControl == NULL && code == 0 && nuplist.size > 0) { gx_device *next_dev; dev->NupControl = (gdev_nupcontrol *)gs_alloc_bytes(dev->memory->non_gc_memory, sizeof(gdev_nupcontrol), "structure to hold nupcontrol_str"); if (dev->NupControl == NULL) return gs_note_error(gs_error_VMerror); dev->NupControl->nupcontrol_str = (void *)gs_alloc_bytes(dev->memory->non_gc_memory, nuplist.size + 1, "nupcontrol string"); if (dev->NupControl->nupcontrol_str == NULL){ gs_free(dev->memory->non_gc_memory, dev->NupControl, 1, sizeof(gdev_nupcontrol), "free structure to hold nupcontrol string"); dev->NupControl = 0; return gs_note_error(gs_error_VMerror); } memset(dev->NupControl->nupcontrol_str, 0x00, nuplist.size + 1); memcpy(dev->NupControl->nupcontrol_str, nuplist.data, nuplist.size); rc_init_free(dev->NupControl, dev->memory->non_gc_memory, 1, rc_free_NupControl); /* Propagate the new NupControl struct to children */ next_dev = dev->child; while (next_dev != NULL) { if (next_dev->NupControl) rc_decrement(next_dev->NupControl, "nup_put_params"); next_dev->NupControl = dev->NupControl; rc_increment(dev->NupControl); next_dev = next_dev->child; } /* Propagate the new NupControl struct to parents */ next_dev = dev->parent; while (next_dev != NULL) { if (next_dev->NupControl) rc_decrement(next_dev->NupControl, "nup_put_params"); next_dev->NupControl = dev->NupControl; rc_increment(dev->NupControl); next_dev = next_dev->parent; } } code = param_read_string(plist, "PageList", &pagelist); if (code < 0) ecode = code; if (code == 0) { if (dev->PageList) rc_decrement(dev->PageList, "default put_params PageList"); dev->PageList = NULL; } if (code == 0 && pagelist.size > 0) { dev->PageList = (gdev_pagelist *)gs_alloc_bytes(dev->memory->non_gc_memory, sizeof(gdev_pagelist), "structure to hold page list"); if (!dev->PageList) return gs_note_error(gs_error_VMerror); dev->PageList->Pages = (void *)gs_alloc_bytes(dev->memory->non_gc_memory, pagelist.size + 1, "String to hold page list"); if (!dev->PageList->Pages){ gs_free(dev->memory->non_gc_memory, dev->PageList, 1, sizeof(gdev_pagelist), "free structure to hold page list"); dev->PageList = 0; return gs_note_error(gs_error_VMerror); } memset(dev->PageList->Pages, 0x00, pagelist.size + 1); memcpy(dev->PageList->Pages, pagelist.data, pagelist.size); rc_init_free(dev->PageList, dev->memory->non_gc_memory, 1, rc_free_pages_list); } code = param_read_bool(plist, "FILTERIMAGE", &temp_bool); if (code < 0) ecode = code; if (code == 0) { if (temp_bool) dev->ObjectFilter |= FILTERIMAGE; else dev->ObjectFilter &= ~FILTERIMAGE; } code = param_read_bool(plist, "FILTERTEXT", &temp_bool); if (code < 0) ecode = code; if (code == 0) { if (temp_bool) dev->ObjectFilter |= FILTERTEXT; else dev->ObjectFilter &= ~FILTERTEXT; } code = param_read_bool(plist, "FILTERVECTOR", &temp_bool); if (code < 0) ecode = code; if (code == 0) { if (temp_bool) dev->ObjectFilter |= FILTERVECTOR; else dev->ObjectFilter &= ~FILTERVECTOR; } /* We must 'commit', in order to detect unknown parameters, */ /* even if there were errors. */ code = param_commit(plist); if (ecode < 0) { /* restore_page_device (zdevice2.c) will turn off LockSafetyParams, and relies on putparams * to put it back if we are restoring a device. The locksafe value is picked up above from the * device we are restoring to, and we *must* make sure it is preserved, even if setting the * params failed. Otherwise an attacker can use a failed grestore to reset LockSafetyParams. * See bug #699687. */ dev->LockSafetyParams = locksafe; return ecode; } if (code < 0) { dev->LockSafetyParams = locksafe; return code; } /* * Now actually make the changes. Changing resolution, rotation * (through LeadingEdge) or page size requires closing the device, * but changing margins or ImagingBBox does not. In order not to * close and reopen the device unnecessarily, we check for * replacing the values with the same ones. */ dev->color_info.use_antidropout_downscaler = use_antidropout; if (hwra.data != 0 && (dev->HWResolution[0] != hwra.data[0] || dev->HWResolution[1] != hwra.data[1]) ) { if (dev->is_open) gs_closedevice(dev); gx_device_set_resolution(dev, hwra.data[0], hwra.data[1]); } if ((leadingedge & LEADINGEDGE_MASK) != (dev->LeadingEdge & LEADINGEDGE_MASK)) { /* If the LeadingEdge_set flag changes but the value of LeadingEdge itself does not, don't close device and recompute page size. */ dev->LeadingEdge = leadingedge; if (dev->is_open) gs_closedevice(dev); gx_device_set_resolution(dev, dev->HWResolution[0], dev->HWResolution[1]); } /* clear leadingedge request, preserve "set" flag */ dev->LeadingEdge &= LEADINGEDGE_MASK; dev->LeadingEdge |= (leadingedge & LEADINGEDGE_SET_MASK); if (hwsa.data != 0 && (dev->width != hwsa.data[0] || dev->height != hwsa.data[1]) ) { if (dev->is_open) gs_closedevice(dev); gx_device_set_width_height(dev, hwsa.data[0], hwsa.data[1]); } if (msa.data != 0 && (dev->MediaSize[0] != msa.data[0] || dev->MediaSize[1] != msa.data[1]) ) { if (dev->is_open) gs_closedevice(dev); gx_device_set_page_size(dev, msa.data[0], msa.data[1]); } if (ma.data != 0) { dev->Margins[0] = ma.data[0]; dev->Margins[1] = ma.data[1]; } if (hwma.data != 0) { dev->HWMargins[0] = hwma.data[0]; dev->HWMargins[1] = hwma.data[1]; dev->HWMargins[2] = hwma.data[2]; dev->HWMargins[3] = hwma.data[3]; } dev->NumCopies = nci; dev->NumCopies_set = ncset; dev->IgnoreNumCopies = ignc; if (ibba.data != 0) { dev->ImagingBBox[0] = ibba.data[0]; dev->ImagingBBox[1] = ibba.data[1]; dev->ImagingBBox[2] = ibba.data[2]; dev->ImagingBBox[3] = ibba.data[3]; dev->ImagingBBox_set = true; } else if (ibbnull) { dev->ImagingBBox_set = false; } dev->UseCIEColor = ucc; dev->color_info.anti_alias.text_bits = param_normalize_anti_alias_bits(max(dev->color_info.max_gray, dev->color_info.max_color), tab); dev->color_info.anti_alias.graphics_bits = param_normalize_anti_alias_bits(max(dev->color_info.max_gray, dev->color_info.max_color), gab); dev->LockSafetyParams = locksafe; dev->MaxPatternBitmap = mpbm; dev->interpolate_control = ic; dev->space_params = sp; dev->page_uses_transparency = page_uses_transparency; dev->page_uses_overprint = page_uses_overprint; gx_device_decache_colors(dev); /* Take care of the rendering intents and blackpts. For those that are not set special, the default provides an override */ /* Set the default object */ code = gx_default_put_intent(rend_intent[0], dev, gsDEFAULTPROFILE); if (code < 0) return code; code = gx_default_put_blackptcomp(blackptcomp[0], dev, gsDEFAULTPROFILE); if (code < 0) return code; code = gx_default_put_blackpreserve(blackpreserve[0], dev, gsDEFAULTPROFILE); if (code < 0) return code; /* If the default was specified and not a specialized one (e.g. graphic image or text) then the special one will get set to the default. */ for (k = 1; k < NUM_DEVICE_PROFILES; k++) { if (rend_intent[0] != gsRINOTSPECIFIED && rend_intent[k] == gsRINOTSPECIFIED) { code = gx_default_put_intent(rend_intent[0], dev, profile_types[k]); } else { code = gx_default_put_intent(rend_intent[k], dev, profile_types[k]); } if (code < 0) return code; if (blackptcomp[0] != gsBPNOTSPECIFIED && blackptcomp[k] == gsBPNOTSPECIFIED) { code = gx_default_put_blackptcomp(blackptcomp[0], dev, profile_types[k]); } else { code = gx_default_put_blackptcomp(blackptcomp[k], dev, profile_types[k]); } if (code < 0) return code; if (blackpreserve[0] != gsBKPRESNOTSPECIFIED && blackpreserve[k] == gsBKPRESNOTSPECIFIED) { code = gx_default_put_blackpreserve(blackpreserve[0], dev, profile_types[k]); } else { code = gx_default_put_blackpreserve(blackpreserve[k], dev, profile_types[k]); } if (code < 0) return code; } gsicc_setcoloraccuracy(dev->memory, color_accuracy); code = gx_default_put_graytok(devicegraytok, dev); if (code < 0) return code; code = gx_default_put_usefastcolor(usefastcolor, dev); if (code < 0) return code; code = gx_default_put_blacktext(blacktext, dev); if (code < 0) return code; code = gx_default_put_blackvector(blackvector, dev); if (code < 0) return code; code = gx_default_put_blackthresholds(blackthresholdL, blackthresholdC, dev); if (code < 0) return code; code = gx_default_put_overprint_control(overprint_control, dev); if (code < 0) return code; code = gx_default_put_graydetection(graydetection, dev); if (code < 0) return code; return gx_default_put_prebandthreshold(prebandthreshold, dev); } void gx_device_request_leadingedge(gx_device *dev, int le_req) { dev->LeadingEdge = (dev->LeadingEdge & ~LEADINGEDGE_REQ_VAL) | ((le_req << LEADINGEDGE_REQ_VAL_SHIFT) & LEADINGEDGE_REQ_VAL) | LEADINGEDGE_REQ_BIT; } /* Limit the anti-alias bit values to the maximum legal value for the * current color depth. */ static int param_normalize_anti_alias_bits( uint max_gray, int bits ) { int max_bits = ilog2( max_gray + 1); return (bits > max_bits ? max_bits : bits); } /* Read TextAlphaBits or GraphicsAlphaBits. */ static int param_anti_alias_bits(gs_param_list * plist, gs_param_name param_name, int *pa) { int code = param_read_int(plist, param_name, pa); switch (code) { case 0: switch (*pa) { case 1: case 2: case 4: return 0; default: code = gs_error_rangecheck; } /* fall through */ default: param_signal_error(plist, param_name, code); case 1: ; } return code; } /* Read .MediaSize or, if supported as a synonym, PageSize. */ static int param_MediaSize(gs_param_list * plist, gs_param_name pname, const float *res, gs_param_float_array * pa) { gs_param_name param_name; int ecode = 0; int code; BEGIN_ARRAY_PARAM(param_read_float_array, pname, *pa, 2, mse) { float width_new = pa->data[0] * res[0] / 72; float height_new = pa->data[1] * res[1] / 72; if (width_new < 0 || height_new < 0) ecode = gs_note_error(gs_error_rangecheck); #define max_coord (max_fixed / fixed_1) #if max_coord < max_int else if (width_new > (long)max_coord || height_new > (long)max_coord) ecode = gs_note_error(gs_error_limitcheck); #endif #undef max_coord else break; } END_ARRAY_PARAM(*pa, mse); return ecode; } /* Check that a nominally read-only parameter is being set to */ /* its existing value. */ static int param_check_bool(gs_param_list * plist, gs_param_name pname, bool value, bool is_defined) { int code; bool new_value; switch (code = param_read_bool(plist, pname, &new_value)) { case 0: if (is_defined && new_value == value) break; code = gs_note_error(gs_error_rangecheck); goto e; default: if (param_read_null(plist, pname) == 0) return 1; e:param_signal_error(plist, pname, code); case 1: ; } return code; } static int param_check_long(gs_param_list * plist, gs_param_name pname, long value, bool is_defined) { int code; long new_value; switch (code = param_read_long(plist, pname, &new_value)) { case 0: if (is_defined && new_value == value) break; code = gs_note_error(gs_error_rangecheck); goto e; default: if (param_read_null(plist, pname) == 0) return 1; e:param_signal_error(plist, pname, code); case 1: ; } return code; } static int param_check_bytes(gs_param_list * plist, gs_param_name pname, const byte * str, uint size, bool is_defined) { int code; gs_param_string new_value; switch (code = param_read_string(plist, pname, &new_value)) { case 0: if (is_defined && new_value.size == size && !memcmp((const char *)str, (const char *)new_value.data, size) ) break; code = gs_note_error(gs_error_rangecheck); goto e; default: if (param_read_null(plist, pname) == 0) return 1; e:param_signal_error(plist, pname, code); case 1: ; } return code; }