/* * Copyright (C) 2016 The Android Open Source Project * Copyright (C) 2016 Mopria Alliance, Inc. * Copyright (C) 2013 Hewlett-Packard Development Company, L.P. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include #include #include #include #include #include "lib_pcl.h" #include "wprint_image.h" #include "media.h" #define TAG "lib_pwg" cups_raster_t *ras_out = NULL; cups_page_header2_t header_pwg; /* * Write the PWG header */ static void _write_header_pwg(int pixel_width, int pixel_height, cups_page_header2_t *h, bool monochrome) { if (h != NULL) { strcpy(h->MediaClass, "PwgRaster"); strcpy(h->MediaColor, ""); strcpy(h->MediaType, ""); strcpy(h->OutputType, ""); h->AdvanceDistance = 0; h->AdvanceMedia = CUPS_ADVANCE_FILE; h->Collate = CUPS_FALSE; h->CutMedia = CUPS_CUT_NONE; h->cupsPageSize[0] = (float) ((pixel_width * STANDARD_SCALE_FOR_PDF) / h->HWResolution[0]); h->cupsPageSize[1] = (float) ((pixel_height * STANDARD_SCALE_FOR_PDF) / h->HWResolution[1]); h->ImagingBoundingBox[0] = 0; h->ImagingBoundingBox[1] = 0; h->ImagingBoundingBox[2] = h->cupsPageSize[0]; h->ImagingBoundingBox[3] = h->cupsPageSize[1]; h->cupsBorderlessScalingFactor = 1.0; h->InsertSheet = CUPS_FALSE; h->Jog = CUPS_JOG_NONE; h->LeadingEdge = CUPS_EDGE_TOP; h->Margins[0] = 0; h->Margins[1] = 0; h->ManualFeed = CUPS_TRUE; h->MediaPosition = 0; h->MediaWeight = 0; h->MirrorPrint = CUPS_FALSE; h->NegativePrint = CUPS_FALSE; h->NumCopies = 1; h->Orientation = CUPS_ORIENT_0; h->PageSize[0] = (int) h->cupsPageSize[0]; h->PageSize[1] = (int) h->cupsPageSize[1]; h->Separations = CUPS_TRUE; h->TraySwitch = CUPS_TRUE; h->cupsWidth = pixel_width; h->cupsHeight = pixel_height; h->cupsBitsPerPixel = (monochrome ? 8 : 24); h->cupsBitsPerColor = 8; h->cupsColorSpace = (monochrome ? CUPS_CSPACE_SW : CUPS_CSPACE_SRGB); h->cupsBytesPerLine = (h->cupsBitsPerPixel * pixel_width + 7) / 8; h->cupsColorOrder = CUPS_ORDER_CHUNKED; h->cupsCompression = 0; h->cupsRowCount = 1; h->cupsRowFeed = 1; h->cupsRowStep = 1; h->cupsNumColors = 0; h->cupsImagingBBox[0] = 0.0; h->cupsImagingBBox[1] = 0.0; h->cupsImagingBBox[2] = 0.0; h->cupsImagingBBox[3] = 0.0; strcpy(h->cupsMarkerType, "Marker Type"); strcpy(h->cupsRenderingIntent, "Rendering Intent"); strcpy(h->cupsPageSizeName, "Letter"); } } /* * Store the supplied media size into job_info */ static void _get_pwg_media_size(pcl_job_info_t *job_info, media_size_t media_size, PCLmPageSetup *myPageInfo) { int i = 0; do { if (myPageInfo == NULL) { continue; } for (i = 0; i < SUPPORTED_MEDIA_SIZE_COUNT; i++) { if (media_size == SupportedMediaSizes[i].media_size) { strncpy(myPageInfo->mediaSizeName, SupportedMediaSizes[i].PCL6Name, sizeof(myPageInfo->mediaSizeName) - 1); myPageInfo->mediaWidth = floorf( _MI_TO_POINTS(SupportedMediaSizes[i].WidthInInches)); myPageInfo->mediaHeight = floorf( _MI_TO_POINTS(SupportedMediaSizes[i].HeightInInches)); LOGD(" _get_pwg_media_size(): match found: %d, %s, width=%f, height=%f", media_size, SupportedMediaSizes[i].PCL6Name, myPageInfo->mediaWidth, myPageInfo->mediaHeight); break; // we found a match, so break out of loop } } } while (0); if (i == SUPPORTED_MEDIA_SIZE_COUNT) { // media size not found, defaulting to letter LOGD("_get_pwg_media_size(): media size, %d, NOT FOUND, setting to letter", media_size); _get_pwg_media_size(job_info, US_LETTER, myPageInfo); } } /* * Write a buffer to the output stream */ static ssize_t _pwg_io_write(void *ctx, unsigned char *buf, size_t bytes) { pcl_job_info_t *pwg_job_info = (pcl_job_info_t *) ctx; _WRITE(pwg_job_info, (const char *) buf, bytes); return bytes; } static wJob_t _start_job(wJob_t job_handle, pcl_job_info_t *job_info, media_size_t media_size, media_type_t media_type, int resolution, duplex_t duplex, duplex_dry_time_t dry_time, color_space_t color_space, media_tray_t media_tray, float top_margin, float left_margin) { if (job_info == NULL) { return _WJOBH_NONE; } if (job_info->job_handle != _WJOBH_NONE) { if (job_info->wprint_ifc != NULL) { LOGE("_start_job() required cleanup"); } job_info->job_handle = _WJOBH_NONE; } if ((job_info->wprint_ifc == NULL) || (job_info->print_ifc == NULL)) { return _WJOBH_NONE; } LOGD("_start_job(), media_size %d, media_type %d, dt %d, %s, media_tray %d", media_size, media_type, dry_time, (duplex == DUPLEX_MODE_NONE) ? "simplex" : "duplex", media_tray); job_info->job_handle = job_handle; _START_JOB(job_info, "pwg"); header_pwg.HWResolution[0] = resolution; header_pwg.HWResolution[1] = resolution; job_info->resolution = resolution; job_info->media_size = media_size; job_info->standard_scale = (float) resolution / (float) 72; // initialize static variables job_info->pclm_output_buffer = NULL; job_info->seed_row = job_info->pcl_buff = NULL; // unused job_info->pixel_width = job_info->pixel_height = job_info->page_number = job_info->num_rows = 0; memset((void *) &job_info->pclm_page_info, 0x0, sizeof(PCLmPageSetup)); _get_pwg_media_size(job_info, media_size, &job_info->pclm_page_info); if (left_margin < 0.0f || top_margin < 0.0f) { job_info->pclm_page_info.mediaWidthOffset = 0.0f; job_info->pclm_page_info.mediaHeightOffset = 0.0f; } else { job_info->pclm_page_info.mediaWidthOffset = left_margin; job_info->pclm_page_info.mediaHeightOffset = top_margin; } header_pwg.cupsMediaType = media_size; job_info->pclm_page_info.pageOrigin = top_left; // REVISIT job_info->monochrome = (color_space == COLOR_SPACE_MONO); job_info->pclm_page_info.dstColorSpaceSpefication = deviceRGB; if (color_space == COLOR_SPACE_MONO) { header_pwg.cupsColorSpace = CUPS_CSPACE_SW; job_info->pclm_page_info.dstColorSpaceSpefication = deviceRGB; } else if (color_space == COLOR_SPACE_COLOR) { job_info->pclm_page_info.dstColorSpaceSpefication = deviceRGB; header_pwg.cupsColorSpace = CUPS_CSPACE_SRGB; } else if (color_space == COLOR_SPACE_ADOBE_RGB) { job_info->pclm_page_info.dstColorSpaceSpefication = adobeRGB; header_pwg.cupsColorSpace = CUPS_CSPACE_SRGB; } job_info->pclm_page_info.stripHeight = job_info->strip_height; job_info->pclm_page_info.destinationResolution = res600; if (resolution == 300) { job_info->pclm_page_info.destinationResolution = res300; } else if (resolution == 600) { job_info->pclm_page_info.destinationResolution = res600; } else if (resolution == 1200) { job_info->pclm_page_info.destinationResolution = res1200; } if (duplex == DUPLEX_MODE_BOOK) { job_info->pclm_page_info.duplexDisposition = duplex_longEdge; header_pwg.Duplex = CUPS_TRUE; header_pwg.Tumble = CUPS_FALSE; } else if (duplex == DUPLEX_MODE_TABLET) { job_info->pclm_page_info.duplexDisposition = duplex_shortEdge; header_pwg.Duplex = CUPS_TRUE; header_pwg.Tumble = CUPS_TRUE; } else { job_info->pclm_page_info.duplexDisposition = simplex; header_pwg.Duplex = CUPS_FALSE; header_pwg.Tumble = CUPS_FALSE; } job_info->pclm_page_info.mirrorBackside = false; header_pwg.OutputFaceUp = CUPS_FALSE; header_pwg.cupsBitsPerColor = BITS_PER_CHANNEL; ras_out = cupsRasterOpenIO(_pwg_io_write, (void *) job_info, CUPS_RASTER_WRITE_PWG); return job_info->job_handle; } static int _start_page(pcl_job_info_t *job_info, int pixel_width, int pixel_height) { PCLmPageSetup *page_info = &job_info->pclm_page_info; _START_PAGE(job_info, pixel_width, pixel_height); page_info->sourceHeight = (float) pixel_height / job_info->standard_scale; page_info->sourceWidth = (float) pixel_width / job_info->standard_scale; LOGI("_start_page(), strip height=%d, image width=%d, image height=%d, scaled width=%f, " "scaled height=%f", page_info->stripHeight, pixel_width, pixel_height, page_info->sourceWidth, page_info->sourceHeight); if (job_info->num_components == 3) { page_info->colorContent = color_content; page_info->srcColorSpaceSpefication = deviceRGB; } else { page_info->colorContent = gray_content; page_info->srcColorSpaceSpefication = grayScale; } page_info->colorContent = color_content; page_info->srcColorSpaceSpefication = deviceRGB; // REVISIT: possibly get this value dynamically from device via IPP (ePCL) // however, current ink devices report RLE as the default compression type, which compresses // much worse than JPEG or FLATE page_info->compTypeRequested = compressDCT; job_info->scan_line_width = BYTES_PER_PIXEL(pixel_width); // Fill up the pwg header _write_header_pwg(pixel_width, pixel_height, &header_pwg, job_info->monochrome); LOGI("cupsWidth = %d", header_pwg.cupsWidth); LOGI("cupsHeight = %d", header_pwg.cupsHeight); LOGI("cupsPageWidth = %f", header_pwg.cupsPageSize[0]); LOGI("cupsPageHeight = %f", header_pwg.cupsPageSize[1]); LOGI("cupsBitsPerColor = %d", header_pwg.cupsBitsPerColor); LOGI("cupsBitsPerPixel = %d", header_pwg.cupsBitsPerPixel); LOGI("cupsBytesPerLine = %d", header_pwg.cupsBytesPerLine); LOGI("cupsColorOrder = %d", header_pwg.cupsColorOrder); LOGI("cupsColorSpace = %d", header_pwg.cupsColorSpace); cupsRasterWriteHeader2(ras_out, &header_pwg); job_info->page_number++; return job_info->page_number; } static int _print_swath(pcl_job_info_t *job_info, char *rgb_pixels, int start_row, int num_rows, int bytes_per_row) { int outBuffSize; _PAGE_DATA(job_info, (const unsigned char *) rgb_pixels, (num_rows * bytes_per_row)); if (job_info->monochrome) { unsigned char *buff = (unsigned char *) rgb_pixels; int nbytes = (num_rows * bytes_per_row); int readIndex, writeIndex; for (readIndex = writeIndex = 0; readIndex < nbytes; readIndex += BYTES_PER_PIXEL(1)) { unsigned char gray = SP_GRAY(buff[readIndex + 0], buff[readIndex + 1], buff[readIndex + 2]); buff[writeIndex++] = gray; } outBuffSize = writeIndex; } else { outBuffSize = num_rows * bytes_per_row; } LOGD("_print_swath(): page #%d, buffSize=%d, rows %d - %d (%d rows), bytes per row %d", job_info->page_number, job_info->strip_height * job_info->scan_line_width, start_row, start_row + num_rows - 1, num_rows, bytes_per_row); /* If the inBufferSize is ever used in genPCLm, change the input parameter to pass in * image_info->printable_width*num_components*strip_height. it is currently pixel_width * (from _start_page()) * num_components * strip_height */ if (ras_out != NULL) { unsigned result = cupsRasterWritePixels(ras_out, (unsigned char *) rgb_pixels, outBuffSize); LOGD("cupsRasterWritePixels return %d", result); } else { LOGD("cupsRasterWritePixels raster is null"); } return OK; } /* * Allocate and fill a blank page of PackBits data. Writes size into buffer_size. The buffer * must be free'd by the caller. */ unsigned char *_generate_blank_data(int pixel_width, int pixel_height, uint8 monochrome, size_t *buffer_size) { if (pixel_width == 0 || pixel_height == 0) return NULL; /* PWG Raster's PackBits-like algorithm allows for a maximum of: * 256 repeating rows and is encoded using a single octet containing (count - 1) * 128 repeating color value and is run length encoded using a single octet containing (count - 1) */ int rows_full = pixel_height / 256; int columns_full = pixel_width / 128; int row_fraction = ((pixel_height % 256) != 0) ? 1 : 0; int column_fraction = ((pixel_width % 128) != 0) ? 1 : 0; int column_data_size = 1 + (columns_full + column_fraction) * (monochrome ? 2 : 4); *buffer_size = (size_t) ((rows_full + row_fraction) * column_data_size); unsigned char *buffer = (unsigned char *) malloc(*buffer_size); if (buffer == NULL) return NULL; int i = 0; for (int y = 0; y < rows_full + row_fraction; y++) { // Add row-repeat command if (y < rows_full) { buffer[i++] = 0xFF; } else { buffer[i++] = (unsigned char) ((pixel_height % 256) - 1); } for (int x = 0; x < columns_full + column_fraction; x++) { // Add column-repeat command if (x < columns_full) { buffer[i++] = 0x7F; } else { buffer[i++] = (unsigned char) ((pixel_width % 128) - 1); } // Pixel color to repeat buffer[i++] = 0xFF; if (!monochrome) { // Add rest of RGB for color output buffer[i++] = 0xFF; buffer[i++] = 0xFF; } } } return buffer; } static int _end_page(pcl_job_info_t *job_info, int page_number) { if (page_number == -1) { LOGD("lib_pclm: _end_page(): writing blank page"); size_t buffer_size; unsigned char *buffer; _start_page(job_info, header_pwg.cupsWidth, header_pwg.cupsHeight); buffer = _generate_blank_data(header_pwg.cupsWidth, header_pwg.cupsHeight, job_info->monochrome, &buffer_size); if (buffer == NULL) { return ERROR; } else { _pwg_io_write(job_info, buffer, buffer_size); free(buffer); } } LOGI("lib_pcwg: _end_page()"); _END_PAGE(job_info); return OK; } static int _end_job(pcl_job_info_t *job_info) { LOGI("_end_job()"); _END_JOB(job_info); cupsRasterClose(ras_out); return OK; } static bool _canCancelMidPage(void) { return false; } static const ifc_pcl_t _pcl_ifc = { _start_job, _end_job, _start_page, _end_page, _print_swath, _canCancelMidPage }; ifc_pcl_t *pwg_connect(void) { return ((ifc_pcl_t *) &_pcl_ifc); }