// Copyright 2018 The PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "samples/pdfium_test_write_helper.h" #include #include #include #include "public/cpp/fpdf_scopers.h" #include "public/fpdf_annot.h" #include "public/fpdf_attachment.h" #include "public/fpdf_edit.h" #include "testing/image_diff/image_diff_png.h" #include "testing/test_support.h" #include "third_party/base/logging.h" namespace { bool CheckDimensions(int stride, int width, int height) { if (stride < 0 || width < 0 || height < 0) return false; if (height > 0 && width > INT_MAX / height) return false; return true; } const char* AnnotSubtypeToCString(FPDF_ANNOTATION_SUBTYPE subtype) { if (subtype == FPDF_ANNOT_TEXT) return "Text"; if (subtype == FPDF_ANNOT_LINK) return "Link"; if (subtype == FPDF_ANNOT_FREETEXT) return "FreeText"; if (subtype == FPDF_ANNOT_LINE) return "Line"; if (subtype == FPDF_ANNOT_SQUARE) return "Square"; if (subtype == FPDF_ANNOT_CIRCLE) return "Circle"; if (subtype == FPDF_ANNOT_POLYGON) return "Polygon"; if (subtype == FPDF_ANNOT_POLYLINE) return "PolyLine"; if (subtype == FPDF_ANNOT_HIGHLIGHT) return "Highlight"; if (subtype == FPDF_ANNOT_UNDERLINE) return "Underline"; if (subtype == FPDF_ANNOT_SQUIGGLY) return "Squiggly"; if (subtype == FPDF_ANNOT_STRIKEOUT) return "StrikeOut"; if (subtype == FPDF_ANNOT_STAMP) return "Stamp"; if (subtype == FPDF_ANNOT_CARET) return "Caret"; if (subtype == FPDF_ANNOT_INK) return "Ink"; if (subtype == FPDF_ANNOT_POPUP) return "Popup"; if (subtype == FPDF_ANNOT_FILEATTACHMENT) return "FileAttachment"; if (subtype == FPDF_ANNOT_SOUND) return "Sound"; if (subtype == FPDF_ANNOT_MOVIE) return "Movie"; if (subtype == FPDF_ANNOT_WIDGET) return "Widget"; if (subtype == FPDF_ANNOT_SCREEN) return "Screen"; if (subtype == FPDF_ANNOT_PRINTERMARK) return "PrinterMark"; if (subtype == FPDF_ANNOT_TRAPNET) return "TrapNet"; if (subtype == FPDF_ANNOT_WATERMARK) return "Watermark"; if (subtype == FPDF_ANNOT_THREED) return "3D"; if (subtype == FPDF_ANNOT_RICHMEDIA) return "RichMedia"; if (subtype == FPDF_ANNOT_XFAWIDGET) return "XFAWidget"; NOTREACHED(); return ""; } void AppendFlagString(const char* flag, std::string* output) { if (!output->empty()) *output += ", "; *output += flag; } std::string AnnotFlagsToString(int flags) { std::string str; if (flags & FPDF_ANNOT_FLAG_INVISIBLE) AppendFlagString("Invisible", &str); if (flags & FPDF_ANNOT_FLAG_HIDDEN) AppendFlagString("Hidden", &str); if (flags & FPDF_ANNOT_FLAG_PRINT) AppendFlagString("Print", &str); if (flags & FPDF_ANNOT_FLAG_NOZOOM) AppendFlagString("NoZoom", &str); if (flags & FPDF_ANNOT_FLAG_NOROTATE) AppendFlagString("NoRotate", &str); if (flags & FPDF_ANNOT_FLAG_NOVIEW) AppendFlagString("NoView", &str); if (flags & FPDF_ANNOT_FLAG_READONLY) AppendFlagString("ReadOnly", &str); if (flags & FPDF_ANNOT_FLAG_LOCKED) AppendFlagString("Locked", &str); if (flags & FPDF_ANNOT_FLAG_TOGGLENOVIEW) AppendFlagString("ToggleNoView", &str); return str; } const char* PageObjectTypeToCString(int type) { if (type == FPDF_PAGEOBJ_TEXT) return "Text"; if (type == FPDF_PAGEOBJ_PATH) return "Path"; if (type == FPDF_PAGEOBJ_IMAGE) return "Image"; if (type == FPDF_PAGEOBJ_SHADING) return "Shading"; if (type == FPDF_PAGEOBJ_FORM) return "Form"; NOTREACHED(); return ""; } #ifdef _WIN32 int CALLBACK EnhMetaFileProc(HDC hdc, HANDLETABLE* handle_table, const ENHMETARECORD* record, int objects_count, LPARAM param) { std::vector& items = *reinterpret_cast*>(param); items.push_back(record); return 1; } #endif // _WIN32 } // namespace std::string WritePpm(const char* pdf_name, int num, const void* buffer_void, int stride, int width, int height) { const auto* buffer = reinterpret_cast(buffer_void); if (!CheckDimensions(stride, width, height)) return ""; int out_len = width * height; if (out_len > INT_MAX / 3) return ""; out_len *= 3; char filename[256]; snprintf(filename, sizeof(filename), "%s.%d.ppm", pdf_name, num); FILE* fp = fopen(filename, "wb"); if (!fp) return ""; fprintf(fp, "P6\n# PDF test render\n%d %d\n255\n", width, height); // Source data is B, G, R, unused. // Dest data is R, G, B. std::vector result(out_len); for (int h = 0; h < height; ++h) { const char* src_line = buffer + (stride * h); char* dest_line = result.data() + (width * h * 3); for (int w = 0; w < width; ++w) { // R dest_line[w * 3] = src_line[(w * 4) + 2]; // G dest_line[(w * 3) + 1] = src_line[(w * 4) + 1]; // B dest_line[(w * 3) + 2] = src_line[w * 4]; } } if (fwrite(result.data(), out_len, 1, fp) != 1) fprintf(stderr, "Failed to write to %s\n", filename); fclose(fp); return std::string(filename); } void WriteText(FPDF_PAGE page, const char* pdf_name, int num) { char filename[256]; int chars_formatted = snprintf(filename, sizeof(filename), "%s.%d.txt", pdf_name, num); if (chars_formatted < 0 || static_cast(chars_formatted) >= sizeof(filename)) { fprintf(stderr, "Filename %s is too long\n", filename); return; } FILE* fp = fopen(filename, "w"); if (!fp) { fprintf(stderr, "Failed to open %s for output\n", filename); return; } // Output in UTF32-LE. uint32_t bom = 0x0000FEFF; if (fwrite(&bom, sizeof(bom), 1, fp) != 1) { fprintf(stderr, "Failed to write to %s\n", filename); (void)fclose(fp); return; } ScopedFPDFTextPage textpage(FPDFText_LoadPage(page)); for (int i = 0; i < FPDFText_CountChars(textpage.get()); i++) { uint32_t c = FPDFText_GetUnicode(textpage.get(), i); if (fwrite(&c, sizeof(c), 1, fp) != 1) { fprintf(stderr, "Failed to write to %s\n", filename); break; } } (void)fclose(fp); } void WriteAnnot(FPDF_PAGE page, const char* pdf_name, int num) { // Open the output text file. char filename[256]; int chars_formatted = snprintf(filename, sizeof(filename), "%s.%d.annot.txt", pdf_name, num); if (chars_formatted < 0 || static_cast(chars_formatted) >= sizeof(filename)) { fprintf(stderr, "Filename %s is too long\n", filename); return; } FILE* fp = fopen(filename, "w"); if (!fp) { fprintf(stderr, "Failed to open %s for output\n", filename); return; } int annot_count = FPDFPage_GetAnnotCount(page); fprintf(fp, "Number of annotations: %d\n\n", annot_count); // Iterate through all annotations on this page. for (int i = 0; i < annot_count; ++i) { // Retrieve the annotation object and its subtype. fprintf(fp, "Annotation #%d:\n", i + 1); ScopedFPDFAnnotation annot(FPDFPage_GetAnnot(page, i)); if (!annot) { fprintf(fp, "Failed to retrieve annotation!\n\n"); continue; } FPDF_ANNOTATION_SUBTYPE subtype = FPDFAnnot_GetSubtype(annot.get()); fprintf(fp, "Subtype: %s\n", AnnotSubtypeToCString(subtype)); // Retrieve the annotation flags. fprintf(fp, "Flags set: %s\n", AnnotFlagsToString(FPDFAnnot_GetFlags(annot.get())).c_str()); // Retrieve the annotation's object count and object types. const int obj_count = FPDFAnnot_GetObjectCount(annot.get()); fprintf(fp, "Number of objects: %d\n", obj_count); if (obj_count > 0) { fprintf(fp, "Object types: "); for (int j = 0; j < obj_count; ++j) { const char* type = PageObjectTypeToCString( FPDFPageObj_GetType(FPDFAnnot_GetObject(annot.get(), j))); fprintf(fp, "%s ", type); } fprintf(fp, "\n"); } // Retrieve the annotation's color and interior color. unsigned int R; unsigned int G; unsigned int B; unsigned int A; if (FPDFAnnot_GetColor(annot.get(), FPDFANNOT_COLORTYPE_Color, &R, &G, &B, &A)) { fprintf(fp, "Color in RGBA: %d %d %d %d\n", R, G, B, A); } else { fprintf(fp, "Failed to retrieve color.\n"); } if (FPDFAnnot_GetColor(annot.get(), FPDFANNOT_COLORTYPE_InteriorColor, &R, &G, &B, &A)) { fprintf(fp, "Interior color in RGBA: %d %d %d %d\n", R, G, B, A); } else { fprintf(fp, "Failed to retrieve interior color.\n"); } // Retrieve the annotation's contents and author. static constexpr char kContentsKey[] = "Contents"; static constexpr char kAuthorKey[] = "T"; unsigned long len = FPDFAnnot_GetStringValue(annot.get(), kContentsKey, nullptr, 0); std::vector buf(len); FPDFAnnot_GetStringValue(annot.get(), kContentsKey, buf.data(), len); fprintf(fp, "Content: %ls\n", GetPlatformWString(reinterpret_cast(buf.data())) .c_str()); len = FPDFAnnot_GetStringValue(annot.get(), kAuthorKey, nullptr, 0); buf.clear(); buf.resize(len); FPDFAnnot_GetStringValue(annot.get(), kAuthorKey, buf.data(), len); fprintf(fp, "Author: %ls\n", GetPlatformWString(reinterpret_cast(buf.data())) .c_str()); // Retrieve the annotation's quadpoints if it is a markup annotation. if (FPDFAnnot_HasAttachmentPoints(annot.get())) { size_t qp_count = FPDFAnnot_CountAttachmentPoints(annot.get()); fprintf(fp, "Number of quadpoints sets: %zu\n", qp_count); // Iterate through all quadpoints of the current annotation for (size_t j = 0; j < qp_count; ++j) { FS_QUADPOINTSF quadpoints; if (FPDFAnnot_GetAttachmentPoints(annot.get(), j, &quadpoints)) { fprintf(fp, "Quadpoints set #%zu: (%.3f, %.3f), (%.3f, %.3f), " "(%.3f, %.3f), (%.3f, %.3f)\n", j + 1, quadpoints.x1, quadpoints.y1, quadpoints.x2, quadpoints.y2, quadpoints.x3, quadpoints.y3, quadpoints.x4, quadpoints.y4); } else { fprintf(fp, "Failed to retrieve quadpoints set #%zu.\n", j + 1); } } } // Retrieve the annotation's rectangle coordinates. FS_RECTF rect; if (FPDFAnnot_GetRect(annot.get(), &rect)) { fprintf(fp, "Rectangle: l - %.3f, b - %.3f, r - %.3f, t - %.3f\n\n", rect.left, rect.bottom, rect.right, rect.top); } else { fprintf(fp, "Failed to retrieve annotation rectangle.\n"); } } (void)fclose(fp); } std::string WritePng(const char* pdf_name, int num, const void* buffer_void, int stride, int width, int height) { if (!CheckDimensions(stride, width, height)) return ""; std::vector png_encoding; const auto* buffer = static_cast(buffer_void); if (!image_diff_png::EncodeBGRAPNG(buffer, width, height, stride, false, &png_encoding)) { fprintf(stderr, "Failed to convert bitmap to PNG\n"); return ""; } char filename[256]; int chars_formatted = snprintf(filename, sizeof(filename), "%s.%d.png", pdf_name, num); if (chars_formatted < 0 || static_cast(chars_formatted) >= sizeof(filename)) { fprintf(stderr, "Filename %s is too long\n", filename); return ""; } FILE* fp = fopen(filename, "wb"); if (!fp) { fprintf(stderr, "Failed to open %s for output\n", filename); return ""; } size_t bytes_written = fwrite(&png_encoding.front(), 1, png_encoding.size(), fp); if (bytes_written != png_encoding.size()) fprintf(stderr, "Failed to write to %s\n", filename); (void)fclose(fp); return std::string(filename); } #ifdef _WIN32 std::string WriteBmp(const char* pdf_name, int num, const void* buffer, int stride, int width, int height) { if (!CheckDimensions(stride, width, height)) return ""; int out_len = stride * height; if (out_len > INT_MAX / 3) return ""; char filename[256]; snprintf(filename, sizeof(filename), "%s.%d.bmp", pdf_name, num); FILE* fp = fopen(filename, "wb"); if (!fp) return ""; BITMAPINFO bmi = {}; bmi.bmiHeader.biSize = sizeof(bmi) - sizeof(RGBQUAD); bmi.bmiHeader.biWidth = width; bmi.bmiHeader.biHeight = -height; // top-down image bmi.bmiHeader.biPlanes = 1; bmi.bmiHeader.biBitCount = 32; bmi.bmiHeader.biCompression = BI_RGB; bmi.bmiHeader.biSizeImage = 0; BITMAPFILEHEADER file_header = {}; file_header.bfType = 0x4d42; file_header.bfSize = sizeof(file_header) + bmi.bmiHeader.biSize + out_len; file_header.bfOffBits = file_header.bfSize - out_len; if (fwrite(&file_header, sizeof(file_header), 1, fp) != 1 || fwrite(&bmi, bmi.bmiHeader.biSize, 1, fp) != 1 || fwrite(buffer, out_len, 1, fp) != 1) { fprintf(stderr, "Failed to write to %s\n", filename); } fclose(fp); return std::string(filename); } void WriteEmf(FPDF_PAGE page, const char* pdf_name, int num) { char filename[256]; snprintf(filename, sizeof(filename), "%s.%d.emf", pdf_name, num); HDC dc = CreateEnhMetaFileA(nullptr, filename, nullptr, nullptr); int width = static_cast(FPDF_GetPageWidth(page)); int height = static_cast(FPDF_GetPageHeight(page)); HRGN rgn = CreateRectRgn(0, 0, width, height); SelectClipRgn(dc, rgn); DeleteObject(rgn); SelectObject(dc, GetStockObject(NULL_PEN)); SelectObject(dc, GetStockObject(WHITE_BRUSH)); // If a PS_NULL pen is used, the dimensions of the rectangle are 1 pixel less. Rectangle(dc, 0, 0, width + 1, height + 1); FPDF_RenderPage(dc, page, 0, 0, width, height, 0, FPDF_ANNOT | FPDF_PRINTING | FPDF_NO_CATCH); DeleteEnhMetaFile(CloseEnhMetaFile(dc)); } void WritePS(FPDF_PAGE page, const char* pdf_name, int num) { char filename[256]; snprintf(filename, sizeof(filename), "%s.%d.ps", pdf_name, num); FILE* fp = fopen(filename, "wb"); if (!fp) return; HDC dc = CreateEnhMetaFileA(nullptr, nullptr, nullptr, nullptr); int width = static_cast(FPDF_GetPageWidth(page)); int height = static_cast(FPDF_GetPageHeight(page)); FPDF_RenderPage(dc, page, 0, 0, width, height, 0, FPDF_ANNOT | FPDF_PRINTING | FPDF_NO_CATCH); HENHMETAFILE emf = CloseEnhMetaFile(dc); std::vector items; EnumEnhMetaFile(nullptr, emf, &EnhMetaFileProc, &items, nullptr); for (const ENHMETARECORD* record : items) { if (record->iType != EMR_GDICOMMENT) continue; const auto* comment = reinterpret_cast(record); const char* data = reinterpret_cast(comment->Data); uint16_t size = *reinterpret_cast(data); if (fwrite(data + sizeof(uint16_t), size, 1, fp) != 1) { fprintf(stderr, "Failed to write to %s\n", filename); break; } } fclose(fp); DeleteEnhMetaFile(emf); } #endif // _WIN32 #ifdef PDF_ENABLE_SKIA std::string WriteSkp(const char* pdf_name, int num, SkPictureRecorder* recorder) { char filename[256]; int chars_formatted = snprintf(filename, sizeof(filename), "%s.%d.skp", pdf_name, num); if (chars_formatted < 0 || static_cast(chars_formatted) >= sizeof(filename)) { fprintf(stderr, "Filename %s is too long\n", filename); return ""; } sk_sp picture(recorder->finishRecordingAsPicture()); SkFILEWStream wStream(filename); picture->serialize(&wStream); return std::string(filename); } #endif void WriteAttachments(FPDF_DOCUMENT doc, const std::string& name) { for (int i = 0; i < FPDFDoc_GetAttachmentCount(doc); ++i) { FPDF_ATTACHMENT attachment = FPDFDoc_GetAttachment(doc, i); // Retrieve the attachment file name. std::string attachment_name; unsigned long len = FPDFAttachment_GetName(attachment, nullptr, 0); if (len) { std::vector buf(len); unsigned long actual_len = FPDFAttachment_GetName(attachment, buf.data(), len); if (actual_len == len) { attachment_name = GetPlatformString(reinterpret_cast(buf.data())); } } if (attachment_name.empty()) { fprintf(stderr, "Attachment #%d has an empty file name.\n", i + 1); continue; } // Calculate the full attachment file name. char save_name[256]; int chars_formatted = snprintf(save_name, sizeof(save_name), "%s.attachment.%s", name.c_str(), attachment_name.c_str()); if (chars_formatted < 0 || static_cast(chars_formatted) >= sizeof(save_name)) { fprintf(stderr, "Filename %s is too long\n", save_name); continue; } // Retrieve the attachment. len = FPDFAttachment_GetFile(attachment, nullptr, 0); std::vector data_buf(len); if (len) { unsigned long actual_len = FPDFAttachment_GetFile(attachment, data_buf.data(), len); if (actual_len != len) data_buf.clear(); } if (data_buf.empty()) { fprintf(stderr, "Attachment \"%s\" is empty.\n", attachment_name.c_str()); continue; } // Write the attachment file. FILE* fp = fopen(save_name, "wb"); if (!fp) { fprintf(stderr, "Failed to open %s for saving attachment.\n", save_name); continue; } size_t written_len = fwrite(data_buf.data(), 1, len, fp); if (written_len == len) { fprintf(stderr, "Saved attachment \"%s\" as: %s.\n", attachment_name.c_str(), save_name); } else { fprintf(stderr, "Failed to write to %s\n", save_name); } fclose(fp); } } void WriteImages(FPDF_PAGE page, const char* pdf_name, int page_num) { for (int i = 0; i < FPDFPage_CountObjects(page); ++i) { FPDF_PAGEOBJECT obj = FPDFPage_GetObject(page, i); if (FPDFPageObj_GetType(obj) != FPDF_PAGEOBJ_IMAGE) continue; ScopedFPDFBitmap bitmap(FPDFImageObj_GetBitmap(obj)); if (!bitmap) { fprintf(stderr, "Image object #%d on page #%d has an empty bitmap.\n", i + 1, page_num + 1); continue; } int format = FPDFBitmap_GetFormat(bitmap.get()); if (format == FPDFBitmap_Unknown) { fprintf(stderr, "Image object #%d on page #%d has a bitmap of unknown format.\n", i + 1, page_num + 1); continue; } std::vector png_encoding; const unsigned char* buffer = static_cast(FPDFBitmap_GetBuffer(bitmap.get())); int width = FPDFBitmap_GetWidth(bitmap.get()); int height = FPDFBitmap_GetHeight(bitmap.get()); int stride = FPDFBitmap_GetStride(bitmap.get()); bool ret = false; switch (format) { case FPDFBitmap_Gray: ret = image_diff_png::EncodeGrayPNG(buffer, width, height, stride, &png_encoding); break; case FPDFBitmap_BGR: ret = image_diff_png::EncodeBGRPNG(buffer, width, height, stride, &png_encoding); break; case FPDFBitmap_BGRx: ret = image_diff_png::EncodeBGRAPNG(buffer, width, height, stride, true, &png_encoding); break; case FPDFBitmap_BGRA: ret = image_diff_png::EncodeBGRAPNG(buffer, width, height, stride, false, &png_encoding); break; default: NOTREACHED(); } if (!ret) { fprintf(stderr, "Failed to convert image object #%d on page #%d to png.\n", i + 1, page_num + 1); continue; } char filename[256]; int chars_formatted = snprintf(filename, sizeof(filename), "%s.%d.%d.png", pdf_name, page_num, i); if (chars_formatted < 0 || static_cast(chars_formatted) >= sizeof(filename)) { fprintf(stderr, "Filename %s for saving image is too long\n", filename); continue; } FILE* fp = fopen(filename, "wb"); if (!fp) { fprintf(stderr, "Failed to open %s for saving image.\n", filename); continue; } size_t bytes_written = fwrite(&png_encoding.front(), 1, png_encoding.size(), fp); if (bytes_written != png_encoding.size()) fprintf(stderr, "Failed to write to %s.\n", filename); else fprintf(stderr, "Successfully wrote embedded image %s.\n", filename); (void)fclose(fp); } }