// Copyright 2014 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 #include #include "core/fxcodec/codec/codec_int.h" #include "testing/fx_string_testhelpers.h" #include "testing/gtest/include/gtest/gtest.h" static const OPJ_OFF_T kSkipError = static_cast(-1); static const OPJ_SIZE_T kReadError = static_cast(-1); static const OPJ_SIZE_T kWriteError = static_cast(-1); static unsigned char stream_data[] = { 0x00, 0x01, 0x02, 0x03, 0x84, 0x85, 0x86, 0x87, // Include some hi-bytes, too. }; TEST(fxcodec, DecodeDataNullDecodeData) { unsigned char buffer[16]; DecodeData* ptr = nullptr; // Error codes, not segvs, should callers pass us a nullptr pointer. EXPECT_EQ(kReadError, opj_read_from_memory(buffer, sizeof(buffer), ptr)); EXPECT_EQ(kWriteError, opj_write_from_memory(buffer, sizeof(buffer), ptr)); EXPECT_EQ(kSkipError, opj_skip_from_memory(1, ptr)); EXPECT_FALSE(opj_seek_from_memory(1, ptr)); } TEST(fxcodec, DecodeDataNullStream) { DecodeData dd(nullptr, 0); unsigned char buffer[16]; // Reads of size 0 do nothing but return an error code. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 0, &dd)); EXPECT_EQ(0xbd, buffer[0]); // Reads of nonzero size do nothing but return an error code. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(kReadError, opj_read_from_memory(buffer, sizeof(buffer), &dd)); EXPECT_EQ(0xbd, buffer[0]); // writes of size 0 do nothing but return an error code. EXPECT_EQ(kWriteError, opj_write_from_memory(buffer, 0, &dd)); // writes of nonzero size do nothing but return an error code. EXPECT_EQ(kWriteError, opj_write_from_memory(buffer, sizeof(buffer), &dd)); // Skips of size 0 always return an error code. EXPECT_EQ(kSkipError, opj_skip_from_memory(0, &dd)); // Skips of nonzero size always return an error code. EXPECT_EQ(kSkipError, opj_skip_from_memory(1, &dd)); // Seeks to 0 offset return in error. EXPECT_FALSE(opj_seek_from_memory(0, &dd)); // Seeks to non-zero offsets return in error. EXPECT_FALSE(opj_seek_from_memory(1, &dd)); } TEST(fxcodec, DecodeDataZeroSize) { DecodeData dd(stream_data, 0); unsigned char buffer[16]; // Reads of size 0 do nothing but return an error code. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 0, &dd)); EXPECT_EQ(0xbd, buffer[0]); // Reads of nonzero size do nothing but return an error code. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(kReadError, opj_read_from_memory(buffer, sizeof(buffer), &dd)); EXPECT_EQ(0xbd, buffer[0]); // writes of size 0 do nothing but return an error code. EXPECT_EQ(kWriteError, opj_write_from_memory(buffer, 0, &dd)); // writes of nonzero size do nothing but return an error code. EXPECT_EQ(kWriteError, opj_write_from_memory(buffer, sizeof(buffer), &dd)); // Skips of size 0 always return an error code. EXPECT_EQ(kSkipError, opj_skip_from_memory(0, &dd)); // Skips of nonzero size always return an error code. EXPECT_EQ(kSkipError, opj_skip_from_memory(1, &dd)); // Seeks to 0 offset return in error. EXPECT_FALSE(opj_seek_from_memory(0, &dd)); // Seeks to non-zero offsets return in error. EXPECT_FALSE(opj_seek_from_memory(1, &dd)); } TEST(fxcodec, DecodeDataReadInBounds) { unsigned char buffer[16]; { DecodeData dd(stream_data, sizeof(stream_data)); // Exact sized read in a single call. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(8u, opj_read_from_memory(buffer, sizeof(buffer), &dd)); EXPECT_EQ(0x00, buffer[0]); EXPECT_EQ(0x01, buffer[1]); EXPECT_EQ(0x02, buffer[2]); EXPECT_EQ(0x03, buffer[3]); EXPECT_EQ(0x84, buffer[4]); EXPECT_EQ(0x85, buffer[5]); EXPECT_EQ(0x86, buffer[6]); EXPECT_EQ(0x87, buffer[7]); EXPECT_EQ(0xbd, buffer[8]); } { DecodeData dd(stream_data, sizeof(stream_data)); // Simple read. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(2u, opj_read_from_memory(buffer, 2, &dd)); EXPECT_EQ(0x00, buffer[0]); EXPECT_EQ(0x01, buffer[1]); EXPECT_EQ(0xbd, buffer[2]); // Read of size 0 doesn't affect things. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(0u, opj_read_from_memory(buffer, 0, &dd)); EXPECT_EQ(0xbd, buffer[0]); // Read exactly up to end of data. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(6u, opj_read_from_memory(buffer, 6, &dd)); EXPECT_EQ(0x02, buffer[0]); EXPECT_EQ(0x03, buffer[1]); EXPECT_EQ(0x84, buffer[2]); EXPECT_EQ(0x85, buffer[3]); EXPECT_EQ(0x86, buffer[4]); EXPECT_EQ(0x87, buffer[5]); EXPECT_EQ(0xbd, buffer[6]); // Read of size 0 at EOF is still an error. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 0, &dd)); EXPECT_EQ(0xbd, buffer[0]); } } TEST(fxcodec, DecodeDataReadBeyondBounds) { unsigned char buffer[16]; { DecodeData dd(stream_data, sizeof(stream_data)); // Read beyond bounds in a single step. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(8u, opj_read_from_memory(buffer, sizeof(buffer) + 1, &dd)); EXPECT_EQ(0x00, buffer[0]); EXPECT_EQ(0x01, buffer[1]); EXPECT_EQ(0x02, buffer[2]); EXPECT_EQ(0x03, buffer[3]); EXPECT_EQ(0x84, buffer[4]); EXPECT_EQ(0x85, buffer[5]); EXPECT_EQ(0x86, buffer[6]); EXPECT_EQ(0x87, buffer[7]); EXPECT_EQ(0xbd, buffer[8]); } { DecodeData dd(stream_data, sizeof(stream_data)); // Read well beyond bounds in a single step. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(8u, opj_read_from_memory( buffer, std::numeric_limits::max(), &dd)); EXPECT_EQ(0x00, buffer[0]); EXPECT_EQ(0x01, buffer[1]); EXPECT_EQ(0x02, buffer[2]); EXPECT_EQ(0x03, buffer[3]); EXPECT_EQ(0x84, buffer[4]); EXPECT_EQ(0x85, buffer[5]); EXPECT_EQ(0x86, buffer[6]); EXPECT_EQ(0x87, buffer[7]); EXPECT_EQ(0xbd, buffer[8]); } { DecodeData dd(stream_data, sizeof(stream_data)); // Read of size 6 gets first 6 bytes. // rest of buffer intact. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(6u, opj_read_from_memory(buffer, 6, &dd)); EXPECT_EQ(0x00, buffer[0]); EXPECT_EQ(0x01, buffer[1]); EXPECT_EQ(0x02, buffer[2]); EXPECT_EQ(0x03, buffer[3]); EXPECT_EQ(0x84, buffer[4]); EXPECT_EQ(0x85, buffer[5]); EXPECT_EQ(0xbd, buffer[6]); // Read of size 6 gets remaining two bytes. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(2u, opj_read_from_memory(buffer, 6, &dd)); EXPECT_EQ(0x86, buffer[0]); EXPECT_EQ(0x87, buffer[1]); EXPECT_EQ(0xbd, buffer[2]); // Read of 6 more gets nothing and leaves rest of buffer intact. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 6, &dd)); EXPECT_EQ(0xbd, buffer[0]); } } TEST(fxcodec, DecodeDataWriteInBounds) { unsigned char stream[16]; static unsigned char buffer_data[] = { 0x00, 0x01, 0x02, 0x03, 0x80, 0x80, 0x81, 0x82, 0x83, 0x84, }; { // Pretend the stream can only hold 4 bytes. DecodeData dd(stream, 4); memset(stream, 0xbd, sizeof(stream)); EXPECT_EQ(4u, opj_write_from_memory(buffer_data, 4, &dd)); EXPECT_EQ(0x00, stream[0]); EXPECT_EQ(0x01, stream[1]); EXPECT_EQ(0x02, stream[2]); EXPECT_EQ(0x03, stream[3]); EXPECT_EQ(0xbd, stream[4]); } { // Pretend the stream can only hold 4 bytes. DecodeData dd(stream, 4); memset(stream, 0xbd, sizeof(stream)); EXPECT_EQ(2u, opj_write_from_memory(buffer_data, 2, &dd)); EXPECT_EQ(2u, opj_write_from_memory(buffer_data, 2, &dd)); EXPECT_EQ(0x00, stream[0]); EXPECT_EQ(0x01, stream[1]); EXPECT_EQ(0x00, stream[2]); EXPECT_EQ(0x01, stream[3]); EXPECT_EQ(0xbd, stream[4]); } } TEST(fxcodec, DecodeDataWriteBeyondBounds) { unsigned char stream[16]; static unsigned char buffer_data[] = { 0x10, 0x11, 0x12, 0x13, 0x94, 0x95, 0x96, 0x97, }; { // Pretend the stream can only hold 4 bytes. DecodeData dd(stream, 4); // Write ending past EOF transfers up til EOF. memset(stream, 0xbd, sizeof(stream)); EXPECT_EQ(4u, opj_write_from_memory(buffer_data, 5, &dd)); EXPECT_EQ(0x10, stream[0]); EXPECT_EQ(0x11, stream[1]); EXPECT_EQ(0x12, stream[2]); EXPECT_EQ(0x13, stream[3]); EXPECT_EQ(0xbd, stream[4]); // Subsequent writes fail. memset(stream, 0xbd, sizeof(stream)); EXPECT_EQ(kWriteError, opj_write_from_memory(buffer_data, 5, &dd)); EXPECT_EQ(0xbd, stream[0]); } { // Pretend the stream can only hold 4 bytes. DecodeData dd(stream, 4); // Write ending past EOF (two steps) transfers up til EOF. memset(stream, 0xbd, sizeof(stream)); EXPECT_EQ(2u, opj_write_from_memory(buffer_data, 2, &dd)); EXPECT_EQ(2u, opj_write_from_memory(buffer_data, 4, &dd)); EXPECT_EQ(0x10, stream[0]); EXPECT_EQ(0x11, stream[1]); EXPECT_EQ(0x10, stream[2]); EXPECT_EQ(0x11, stream[3]); EXPECT_EQ(0xbd, stream[4]); // Subsequent writes fail. memset(stream, 0xbd, sizeof(stream)); EXPECT_EQ(kWriteError, opj_write_from_memory(buffer_data, 5, &dd)); EXPECT_EQ(0xbd, stream[0]); } } // Note: Some care needs to be taken here because the skip/seek functions // take OPJ_OFF_T's as arguments, which are typically a signed type. TEST(fxcodec, DecodeDataSkip) { unsigned char buffer[16]; { DecodeData dd(stream_data, sizeof(stream_data)); // Skiping within buffer is allowed. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(1u, opj_skip_from_memory(1, &dd)); EXPECT_EQ(1u, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0x01, buffer[0]); EXPECT_EQ(0xbd, buffer[1]); // Skiping 0 bytes changes nothing. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(0, opj_skip_from_memory(0, &dd)); EXPECT_EQ(1u, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0x02, buffer[0]); EXPECT_EQ(0xbd, buffer[1]); // Skiping to EOS-1 is possible. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(4u, opj_skip_from_memory(4, &dd)); EXPECT_EQ(1u, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0x87, buffer[0]); EXPECT_EQ(0xbd, buffer[1]); // Next read fails. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0xbd, buffer[0]); } { DecodeData dd(stream_data, sizeof(stream_data)); // Skiping directly to EOS is allowed. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(8u, opj_skip_from_memory(8, &dd)); // Next read fails. EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0xbd, buffer[0]); } { DecodeData dd(stream_data, sizeof(stream_data)); // Skipping beyond end of stream is allowed and returns full distance. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(9u, opj_skip_from_memory(9, &dd)); // Next read fails. EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0xbd, buffer[0]); } { DecodeData dd(stream_data, sizeof(stream_data)); // Skipping way beyond EOS is allowd, doesn't wrap, and returns // full distance. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(4u, opj_skip_from_memory(4, &dd)); EXPECT_EQ(std::numeric_limits::max(), opj_skip_from_memory(std::numeric_limits::max(), &dd)); // Next read fails. If it succeeds, it may mean we wrapped. EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0xbd, buffer[0]); } { DecodeData dd(stream_data, sizeof(stream_data)); // Negative skip within buffer not is allowed, position unchanged. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(4u, opj_skip_from_memory(4, &dd)); EXPECT_EQ(kSkipError, opj_skip_from_memory(-2, &dd)); // Next read succeeds as if nothing has happenned. EXPECT_EQ(1u, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0x84, buffer[0]); EXPECT_EQ(0xbd, buffer[1]); // Negative skip before buffer is not allowed, position unchanged. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(kSkipError, opj_skip_from_memory(-4, &dd)); // Next read succeeds as if nothing has happenned. EXPECT_EQ(1u, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0x85, buffer[0]); EXPECT_EQ(0xbd, buffer[1]); } { DecodeData dd(stream_data, sizeof(stream_data)); // Negative skip way before buffer is not allowed, doesn't wrap memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(4u, opj_skip_from_memory(4, &dd)); EXPECT_EQ(kSkipError, opj_skip_from_memory(std::numeric_limits::min(), &dd)); // Next read succeeds. If it fails, it may mean we wrapped. EXPECT_EQ(1u, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0x84, buffer[0]); EXPECT_EQ(0xbd, buffer[1]); } { DecodeData dd(stream_data, sizeof(stream_data)); // Negative skip after EOS isn't alowed, still EOS. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_EQ(8u, opj_skip_from_memory(8, &dd)); EXPECT_EQ(kSkipError, opj_skip_from_memory(-4, &dd)); // Next read fails. EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0xbd, buffer[0]); } } TEST(fxcodec, DecodeDataSeek) { unsigned char buffer[16]; DecodeData dd(stream_data, sizeof(stream_data)); // Seeking within buffer is allowed and read succeeds memset(buffer, 0xbd, sizeof(buffer)); EXPECT_TRUE(opj_seek_from_memory(1, &dd)); EXPECT_EQ(1u, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0x01, buffer[0]); EXPECT_EQ(0xbd, buffer[1]); // Seeking before start returns error leaving position unchanged. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_FALSE(opj_seek_from_memory(-1, &dd)); EXPECT_EQ(1u, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0x02, buffer[0]); EXPECT_EQ(0xbd, buffer[1]); // Seeking way before start returns error leaving position unchanged. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_FALSE( opj_seek_from_memory(std::numeric_limits::min(), &dd)); EXPECT_EQ(1u, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0x03, buffer[0]); EXPECT_EQ(0xbd, buffer[1]); // Seeking exactly to EOS is allowed but read fails. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_TRUE(opj_seek_from_memory(8, &dd)); EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0xbd, buffer[0]); // Seeking back to zero offset is allowed and read succeeds. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_TRUE(opj_seek_from_memory(0, &dd)); EXPECT_EQ(1u, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0x00, buffer[0]); EXPECT_EQ(0xbd, buffer[1]); // Seeking beyond end of stream is allowed but read fails. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_TRUE(opj_seek_from_memory(16, &dd)); EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0xbd, buffer[0]); // Seeking within buffer after seek past EOF restores good state. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_TRUE(opj_seek_from_memory(4, &dd)); EXPECT_EQ(1u, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0x84, buffer[0]); EXPECT_EQ(0xbd, buffer[1]); // Seeking way beyond EOS is allowed, doesn't wrap, and read fails. memset(buffer, 0xbd, sizeof(buffer)); EXPECT_TRUE(opj_seek_from_memory(std::numeric_limits::max(), &dd)); EXPECT_EQ(kReadError, opj_read_from_memory(buffer, 1, &dd)); EXPECT_EQ(0xbd, buffer[0]); } TEST(fxcodec, YUV420ToRGB) { opj_image_comp_t u; memset(&u, 0, sizeof(u)); u.dx = 1; u.dy = 1; u.w = 16; u.h = 16; u.prec = 8; u.bpp = 8; opj_image_comp_t v; memset(&v, 0, sizeof(v)); v.dx = 1; v.dy = 1; v.w = 16; v.h = 16; v.prec = 8; v.bpp = 8; opj_image_comp_t y; memset(&y, 0, sizeof(y)); y.dx = 1; y.dy = 1; y.prec = 8; y.bpp = 8; opj_image_t img; memset(&img, 0, sizeof(img)); img.numcomps = 3; img.color_space = OPJ_CLRSPC_SYCC; img.comps = FX_Alloc(opj_image_comp_t, 3); const struct { OPJ_UINT32 w; bool expected; } cases[] = {{0, false}, {1, false}, {30, false}, {31, true}, {32, true}, {33, false}, {34, false}, {UINT_MAX, false}}; for (size_t i = 0; i < sizeof(cases) / sizeof(cases[0]); ++i) { y.w = cases[i].w; y.h = y.w; img.x1 = y.w; img.y1 = y.h; y.data = FX_Alloc(OPJ_INT32, y.w * y.h); memset(y.data, 1, y.w * y.h * sizeof(OPJ_INT32)); u.data = FX_Alloc(OPJ_INT32, u.w * u.h); memset(u.data, 0, u.w * u.h * sizeof(OPJ_INT32)); v.data = FX_Alloc(OPJ_INT32, v.w * v.h); memset(v.data, 0, v.w * v.h * sizeof(OPJ_INT32)); img.comps[0] = y; img.comps[1] = u; img.comps[2] = v; sycc420_to_rgb(&img); if (cases[i].expected) { EXPECT_EQ(img.comps[0].w, img.comps[1].w); EXPECT_EQ(img.comps[0].h, img.comps[1].h); EXPECT_EQ(img.comps[0].w, img.comps[2].w); EXPECT_EQ(img.comps[0].h, img.comps[2].h); } else { EXPECT_NE(img.comps[0].w, img.comps[1].w); EXPECT_NE(img.comps[0].h, img.comps[1].h); EXPECT_NE(img.comps[0].w, img.comps[2].w); EXPECT_NE(img.comps[0].h, img.comps[2].h); } FX_Free(img.comps[0].data); FX_Free(img.comps[1].data); FX_Free(img.comps[2].data); } FX_Free(img.comps); }