/* -*- C++ -*- * Copyright 2019-2020 LibRaw LLC (info@libraw.org) * LibRaw uses code from dcraw.c -- Dave Coffin's raw photo decoder, dcraw.c is copyright 1997-2018 by Dave Coffin, dcoffin a cybercom o net. LibRaw do not use RESTRICTED code from dcraw.c LibRaw is free software; you can redistribute it and/or modify it under the terms of the one of two licenses as you choose: 1. GNU LESSER GENERAL PUBLIC LICENSE version 2.1 (See file LICENSE.LGPL provided in LibRaw distribution archive for details). 2. COMMON DEVELOPMENT AND DISTRIBUTION LICENSE (CDDL) Version 1.0 (See file LICENSE.CDDL provided in LibRaw distribution archive for details). */ #include "../../internal/dcraw_defs.h" #include "../../internal/libraw_cameraids.h" void LibRaw::parse_exif_interop(int base) { unsigned entries, tag, type, len, save; char value[4] = { 0,0,0,0 }; entries = get2(); INT64 fsize = ifp->size(); while (entries--) { tiff_get(base, &tag, &type, &len, &save); INT64 savepos = ftell(ifp); if (len > 8 && savepos + len > fsize * 2) { fseek(ifp, save, SEEK_SET); // Recover tiff-read position!! continue; } switch (tag) { case 0x0001: // InteropIndex fread(value, 1, MIN(4, len), ifp); if (strncmp(value, "R98", 3) == 0 && // Canon bug, when [Canon].ColorSpace = AdobeRGB, // but [ExifIFD].ColorSpace = Uncalibrated and // [InteropIFD].InteropIndex = "R98" imgdata.color.ExifColorSpace == LIBRAW_COLORSPACE_Unknown) imgdata.color.ExifColorSpace = LIBRAW_COLORSPACE_sRGB; else if (strncmp(value, "R03", 3) == 0) imgdata.color.ExifColorSpace = LIBRAW_COLORSPACE_AdobeRGB; break; } fseek(ifp, save, SEEK_SET); } } void LibRaw::parse_exif(int base) { unsigned entries, tag, type, len, save, c; double expo, ape; unsigned kodak = !strncmp(make, "EASTMAN", 7) && tiff_nifds < 3; entries = get2(); if (!strncmp(make, "Hasselblad", 10) && (tiff_nifds > 3) && (entries > 512)) return; INT64 fsize = ifp->size(); while (entries--) { tiff_get(base, &tag, &type, &len, &save); INT64 savepos = ftell(ifp); if (len > 8 && savepos + len > fsize * 2) { fseek(ifp, save, SEEK_SET); // Recover tiff-read position!! continue; } if (callbacks.exif_cb) { callbacks.exif_cb(callbacks.exifparser_data, tag, type, len, order, ifp, base); fseek(ifp, savepos, SEEK_SET); } switch (tag) { case 0xA005: // Interoperability IFD fseek(ifp, get4() + base, SEEK_SET); parse_exif_interop(base); break; case 0xA001: // ExifIFD.ColorSpace c = get2(); if (c == 1 && imgdata.color.ExifColorSpace == LIBRAW_COLORSPACE_Unknown) imgdata.color.ExifColorSpace = LIBRAW_COLORSPACE_sRGB; else if (c == 2) imgdata.color.ExifColorSpace = LIBRAW_COLORSPACE_AdobeRGB; break; case 0x9400: imCommon.exifAmbientTemperature = getreal(type); if ((imCommon.CameraTemperature > -273.15f) && ((OlyID == OlyID_TG_5) || (OlyID == OlyID_TG_6)) ) imCommon.CameraTemperature += imCommon.exifAmbientTemperature; break; case 0x9401: imCommon.exifHumidity = getreal(type); break; case 0x9402: imCommon.exifPressure = getreal(type); break; case 0x9403: imCommon.exifWaterDepth = getreal(type); break; case 0x9404: imCommon.exifAcceleration = getreal(type); break; case 0x9405: imCommon.exifCameraElevationAngle = getreal(type); break; case 0xa405: // FocalLengthIn35mmFormat imgdata.lens.FocalLengthIn35mmFormat = get2(); break; case 0xa431: // BodySerialNumber stmread(imgdata.shootinginfo.BodySerial, len, ifp); break; case 0xa432: // LensInfo, 42034dec, Lens Specification per EXIF standard imgdata.lens.MinFocal = getreal(type); imgdata.lens.MaxFocal = getreal(type); imgdata.lens.MaxAp4MinFocal = getreal(type); imgdata.lens.MaxAp4MaxFocal = getreal(type); break; case 0xa435: // LensSerialNumber stmread(imgdata.lens.LensSerial, len, ifp); if (!strncmp(imgdata.lens.LensSerial, "----", 4)) imgdata.lens.LensSerial[0] = '\0'; break; case 0xa420: /* 42016, ImageUniqueID */ stmread(imgdata.color.ImageUniqueID, len, ifp); break; case 0xc65d: /* 50781, RawDataUniqueID */ imgdata.color.RawDataUniqueID[16] = 0; fread(imgdata.color.RawDataUniqueID, 1, 16, ifp); break; case 0xc630: // DNG LensInfo, Lens Specification per EXIF standard imgdata.lens.dng.MinFocal = getreal(type); imgdata.lens.dng.MaxFocal = getreal(type); imgdata.lens.dng.MaxAp4MinFocal = getreal(type); imgdata.lens.dng.MaxAp4MaxFocal = getreal(type); break; case 0xc68b: /* 50827, OriginalRawFileName */ stmread(imgdata.color.OriginalRawFileName, len, ifp); break; case 0xa433: // LensMake stmread(imgdata.lens.LensMake, len, ifp); break; case 0xa434: // LensModel stmread(imgdata.lens.Lens, len, ifp); if (!strncmp(imgdata.lens.Lens, "----", 4)) imgdata.lens.Lens[0] = '\0'; break; case 0x9205: imgdata.lens.EXIF_MaxAp = libraw_powf64l(2.0f, (getreal(type) / 2.0f)); break; case 0x829a: // 33434 tiff_ifd[tiff_nifds - 1].t_shutter = shutter = getreal(type); break; case 0x829d: // 33437, FNumber aperture = getreal(type); break; case 0x8827: // 34855 iso_speed = get2(); break; case 0x8831: // 34865 if (iso_speed == 0xffff && !strncasecmp(make, "FUJI", 4)) iso_speed = getreal(type); break; case 0x8832: // 34866 if (iso_speed == 0xffff && (!strncasecmp(make, "SONY", 4) || !strncasecmp(make, "CANON", 5))) iso_speed = getreal(type); break; case 0x9003: // 36867 case 0x9004: // 36868 get_timestamp(0); break; case 0x9201: // 37377 if ((expo = -getreal(type)) < 128 && shutter == 0.) tiff_ifd[tiff_nifds - 1].t_shutter = shutter = libraw_powf64l(2.0, expo); break; case 0x9202: // 37378 ApertureValue if ((fabs(ape = getreal(type)) < 256.0) && (!aperture)) aperture = libraw_powf64l(2.0, ape / 2); break; case 0x9209: // 37385 flash_used = getreal(type); break; case 0x920a: // 37386 focal_len = getreal(type); break; case 0x927c: // 37500 if (((make[0] == '\0') && !strncmp(model, "ov5647", 6)) || (!strncmp(make, "RaspberryPi", 11) && (!strncmp(model, "RP_OV5647", 9) || !strncmp(model, "RP_imx219", 9)))) { char mn_text[512]; char *pos; char ccms[512]; ushort l; float num; fgets(mn_text, MIN(len, 511), ifp); mn_text[511] = 0; pos = strstr(mn_text, "gain_r="); if (pos) cam_mul[0] = atof(pos + 7); pos = strstr(mn_text, "gain_b="); if (pos) cam_mul[2] = atof(pos + 7); if ((cam_mul[0] > 0.001f) && (cam_mul[2] > 0.001f)) cam_mul[1] = cam_mul[3] = 1.0f; else cam_mul[0] = cam_mul[2] = 0.0f; pos = strstr(mn_text, "ccm="); if (pos) { pos += 4; char *pos2 = strstr(pos, " "); if (pos2) { l = pos2 - pos; memcpy(ccms, pos, l); ccms[l] = '\0'; #ifdef LIBRAW_WIN32_CALLS // Win32 strtok is already thread-safe pos = strtok(ccms, ","); #else char *last = 0; pos = strtok_r(ccms, ",", &last); #endif if (pos) { for (l = 0; l < 4; l++) { num = 0.0; for (c = 0; c < 3; c++) { imgdata.color.ccm[l][c] = (float)atoi(pos); num += imgdata.color.ccm[l][c]; #ifdef LIBRAW_WIN32_CALLS pos = strtok(NULL, ","); #else pos = strtok_r(NULL, ",", &last); #endif if (!pos) goto end; // broken } if (num > 0.01) FORC3 imgdata.color.ccm[l][c] = imgdata.color.ccm[l][c] / num; } } } } end:; } else if (!strncmp(make, "SONY", 4) && (!strncmp(model, "DSC-V3", 6) || !strncmp(model, "DSC-F828", 8))) { parseSonySRF(len); break; } else if ((len == 1) && !strncmp(make, "NIKON", 5)) { c = get4(); if (c) fseek(ifp, c, SEEK_SET); is_NikonTransfer = 1; } parse_makernote(base, 0); break; case 0xa002: // 40962 if (kodak) raw_width = get4(); break; case 0xa003: // 40963 if (kodak) raw_height = get4(); break; case 0xa302: // 41730 if (get4() == 0x20002) for (exif_cfa = c = 0; c < 8; c += 2) exif_cfa |= fgetc(ifp) * 0x01010101U << c; } fseek(ifp, save, SEEK_SET); } } void LibRaw::parse_gps_libraw(int base) { unsigned entries, tag, type, len, save, c; entries = get2(); if (entries > 40) return; if (entries > 0) imgdata.other.parsed_gps.gpsparsed = 1; while (entries--) { tiff_get(base, &tag, &type, &len, &save); if (len > 1024) { fseek(ifp, save, SEEK_SET); // Recover tiff-read position!! continue; // no GPS tags are 1k or larger } switch (tag) { case 0x0001: imgdata.other.parsed_gps.latref = getc(ifp); break; case 0x0003: imgdata.other.parsed_gps.longref = getc(ifp); break; case 0x0005: imgdata.other.parsed_gps.altref = getc(ifp); break; case 0x0002: if (len == 3) FORC(3) imgdata.other.parsed_gps.latitude[c] = getreal(type); break; case 0x0004: if (len == 3) FORC(3) imgdata.other.parsed_gps.longtitude[c] = getreal(type); break; case 0x0007: if (len == 3) FORC(3) imgdata.other.parsed_gps.gpstimestamp[c] = getreal(type); break; case 0x0006: imgdata.other.parsed_gps.altitude = getreal(type); break; case 0x0009: imgdata.other.parsed_gps.gpsstatus = getc(ifp); break; } fseek(ifp, save, SEEK_SET); } } void LibRaw::parse_gps(int base) { unsigned entries, tag, type, len, save, c; entries = get2(); if (entries > 40) return; while (entries--) { tiff_get(base, &tag, &type, &len, &save); if (len > 1024) { fseek(ifp, save, SEEK_SET); // Recover tiff-read position!! continue; // no GPS tags are 1k or larger } switch (tag) { case 0x0001: case 0x0003: case 0x0005: gpsdata[29 + tag / 2] = getc(ifp); break; case 0x0002: case 0x0004: case 0x0007: FORC(6) gpsdata[tag / 3 * 6 + c] = get4(); break; case 0x0006: FORC(2) gpsdata[18 + c] = get4(); break; case 0x0012: // 18 case 0x001d: // 29 fgets((char *)(gpsdata + 14 + tag / 3), MIN(len, 12), ifp); } fseek(ifp, save, SEEK_SET); } }