//--------------------------------------------------------------------------- // // SCSI Target Emulator RaSCSI Reloaded // for Raspberry Pi // // Copyright (C) 2022 Uwe Seimet // //--------------------------------------------------------------------------- #include "mocks.h" #include "rascsi_exceptions.h" #include "devices/scsihd.h" void ScsiHdTest_SetUpModePages(map>& pages) { EXPECT_EQ(5, pages.size()) << "Unexpected number of mode pages"; EXPECT_EQ(12, pages[1].size()); EXPECT_EQ(24, pages[3].size()); EXPECT_EQ(24, pages[4].size()); EXPECT_EQ(12, pages[8].size()); EXPECT_EQ(30, pages[48].size()); } TEST(ScsiHdTest, Inquiry) { TestInquiry(SCHD, device_type::DIRECT_ACCESS, scsi_level::SCSI_2, "RaSCSI ", 0x1f, false); TestInquiry(SCHD, device_type::DIRECT_ACCESS, scsi_level::SCSI_1_CCS, "RaSCSI ", 0x1f, false, ".hd1"); } TEST(ScsiHdTest, SupportsSaveParameters) { const unordered_set sector_sizes; MockSCSIHD hd(0, sector_sizes, false); EXPECT_TRUE(hd.SupportsSaveParameters()); } TEST(ScsiHdTest, FinalizeSetup) { const unordered_set sector_sizes; MockSCSIHD hd(0, sector_sizes, false); hd.SetSectorSizeInBytes(1024); EXPECT_THROW(hd.FinalizeSetup(0), io_exception) << "Device has 0 blocks"; } TEST(ScsiHdTest, GetProductData) { const unordered_set sector_sizes; MockSCSIHD hd_kb(0, sector_sizes, false); MockSCSIHD hd_mb(0, sector_sizes, false); MockSCSIHD hd_gb(0, sector_sizes, false); const path filename = CreateTempFile(1); hd_kb.SetFilename(string(filename)); hd_kb.SetSectorSizeInBytes(1024); hd_kb.SetBlockCount(1); hd_kb.FinalizeSetup(0); string s = hd_kb.GetProduct(); EXPECT_NE(string::npos, s.find("1 KiB")); hd_mb.SetFilename(string(filename)); hd_mb.SetSectorSizeInBytes(1024); hd_mb.SetBlockCount(1'048'576 / 1024); hd_mb.FinalizeSetup(0); s = hd_mb.GetProduct(); EXPECT_NE(string::npos, s.find("1 MiB")); hd_gb.SetFilename(string(filename)); hd_gb.SetSectorSizeInBytes(1024); hd_gb.SetBlockCount(1'099'511'627'776 / 1024); hd_gb.FinalizeSetup(0); s = hd_gb.GetProduct(); EXPECT_NE(string::npos, s.find("1 GiB")); remove(filename); } TEST(ScsiHdTest, SetUpModePages) { map> pages; const unordered_set sector_sizes; MockSCSIHD hd(0, sector_sizes, false); // Non changeable hd.SetUpModePages(pages, 0x3f, false); ScsiHdTest_SetUpModePages(pages); // Changeable pages.clear(); hd.SetUpModePages(pages, 0x3f, true); ScsiHdTest_SetUpModePages(pages); } TEST(ScsiHdTest, ModeSelect) { const unordered_set sector_sizes = { 512 }; MockSCSIHD hd(0, sector_sizes, false); vector cmd(10); vector buf(255); hd.SetSectorSizeInBytes(512); // PF cmd[1] = 0x10; // Page 3 (Device Format Page) buf[4] = 0x03; // 512 bytes per sector buf[16] = 0x02; EXPECT_NO_THROW(hd.ModeSelect(scsi_command::eCmdModeSelect6, cmd, buf, 255)) << "MODE SELECT(6) is supported"; buf[4] = 0; buf[16] = 0; // Page 3 (Device Format Page) buf[8] = 0x03; // 512 bytes per sector buf[20] = 0x02; EXPECT_NO_THROW(hd.ModeSelect(scsi_command::eCmdModeSelect10, cmd, buf, 255)) << "MODE SELECT(10) is supported"; }