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([192.228.203.229]) by smtp.gmail.com with ESMTPSA id ei32-20020a056a0080e000b006f44e64dfe3sm2310393pfb.177.2024.05.04.01.44.49 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Sat, 04 May 2024 01:44:50 -0700 (PDT) From: Amjad Alsharafi To: qemu-devel@nongnu.org Cc: Hanna Reitz , Kevin Wolf , "open list:vvfat" , Amjad Alsharafi Subject: [PATCH v2 4/5] iotests: Add `vvfat` tests Date: Sat, 4 May 2024 16:44:22 +0800 Message-ID: X-Mailer: git-send-email 2.44.0 In-Reply-To: References: MIME-Version: 1.0 Received-SPF: pass client-ip=2607:f8b0:4864:20::235; envelope-from=amjadsharafi10@gmail.com; helo=mail-oi1-x235.google.com X-Spam_score_int: -17 X-Spam_score: -1.8 X-Spam_bar: - X-Spam_report: (-1.8 / 5.0 requ) BAYES_00=-1.9, DKIM_SIGNED=0.1, DKIM_VALID=-0.1, DKIM_VALID_AU=-0.1, DKIM_VALID_EF=-0.1, FREEMAIL_ENVFROM_END_DIGIT=0.25, FREEMAIL_FROM=0.001, RCVD_IN_DNSWL_NONE=-0.0001, SPF_HELO_NONE=0.001, SPF_PASS=-0.001 autolearn=ham autolearn_force=no X-Spam_action: no action X-BeenThere: qemu-devel@nongnu.org X-Mailman-Version: 2.1.29 Precedence: list List-Id: List-Unsubscribe: , List-Archive: List-Post: List-Help: List-Subscribe: , Errors-To: qemu-devel-bounces+incoming=patchwork.ozlabs.org@nongnu.org Sender: qemu-devel-bounces+incoming=patchwork.ozlabs.org@nongnu.org Added several tests to verify the implementation of the vvfat driver. We needed a way to interact with it, so created a basic `fat16.py` driver that handled writing correct sectors for us. Signed-off-by: Amjad Alsharafi --- tests/qemu-iotests/check | 2 +- tests/qemu-iotests/fat16.py | 507 +++++++++++++++++++++++++++++ tests/qemu-iotests/tests/vvfat | 400 +++++++++++++++++++++++ tests/qemu-iotests/tests/vvfat.out | 5 + 4 files changed, 913 insertions(+), 1 deletion(-) create mode 100644 tests/qemu-iotests/fat16.py create mode 100755 tests/qemu-iotests/tests/vvfat create mode 100755 tests/qemu-iotests/tests/vvfat.out diff --git a/tests/qemu-iotests/check b/tests/qemu-iotests/check index 56d88ca423..545f9ec7bd 100755 --- a/tests/qemu-iotests/check +++ b/tests/qemu-iotests/check @@ -84,7 +84,7 @@ def make_argparser() -> argparse.ArgumentParser: p.set_defaults(imgfmt='raw', imgproto='file') format_list = ['raw', 'bochs', 'cloop', 'parallels', 'qcow', 'qcow2', - 'qed', 'vdi', 'vpc', 'vhdx', 'vmdk', 'luks', 'dmg'] + 'qed', 'vdi', 'vpc', 'vhdx', 'vmdk', 'luks', 'dmg', 'vvfat'] g_fmt = p.add_argument_group( ' image format options', 'The following options set the IMGFMT environment variable. ' diff --git a/tests/qemu-iotests/fat16.py b/tests/qemu-iotests/fat16.py new file mode 100644 index 0000000000..6ac5508d8d --- /dev/null +++ b/tests/qemu-iotests/fat16.py @@ -0,0 +1,507 @@ +# A simple FAT16 driver that is used to test the `vvfat` driver in QEMU. +# +# Copyright (C) 2024 Amjad Alsharafi +# +# This program is free software; you can redistribute it and/or modify +# it under the terms of the GNU General Public License as published by +# the Free Software Foundation; either version 2 of the License, or +# (at your option) any later version. +# +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. +# +# You should have received a copy of the GNU General Public License +# along with this program. If not, see . + +from typing import List + +SECTOR_SIZE = 512 +DIRENTRY_SIZE = 32 + + +class MBR: + def __init__(self, data: bytes): + assert len(data) == 512 + self.partition_table = [] + for i in range(4): + partition = data[446 + i * 16 : 446 + (i + 1) * 16] + self.partition_table.append( + { + "status": partition[0], + "start_head": partition[1], + "start_sector": partition[2] & 0x3F, + "start_cylinder": ((partition[2] & 0xC0) << 2) | partition[3], + "type": partition[4], + "end_head": partition[5], + "end_sector": partition[6] & 0x3F, + "end_cylinder": ((partition[6] & 0xC0) << 2) | partition[7], + "start_lba": int.from_bytes(partition[8:12], "little"), + "size": int.from_bytes(partition[12:16], "little"), + } + ) + + def __str__(self): + return "\n".join( + [f"{i}: {partition}" for i, partition in enumerate(self.partition_table)] + ) + + +class FatBootSector: + def __init__(self, data: bytes): + assert len(data) == 512 + self.bytes_per_sector = int.from_bytes(data[11:13], "little") + self.sectors_per_cluster = data[13] + self.reserved_sectors = int.from_bytes(data[14:16], "little") + self.fat_count = data[16] + self.root_entries = int.from_bytes(data[17:19], "little") + self.media_descriptor = data[21] + self.fat_size = int.from_bytes(data[22:24], "little") + self.sectors_per_fat = int.from_bytes(data[22:24], "little") + self.sectors_per_track = int.from_bytes(data[24:26], "little") + self.heads = int.from_bytes(data[26:28], "little") + self.hidden_sectors = int.from_bytes(data[28:32], "little") + self.total_sectors = int.from_bytes(data[32:36], "little") + self.drive_number = data[36] + self.volume_id = int.from_bytes(data[39:43], "little") + self.volume_label = data[43:54].decode("ascii").strip() + self.fs_type = data[54:62].decode("ascii").strip() + + def root_dir_start(self): + """ + Calculate the start sector of the root directory. + """ + return self.reserved_sectors + self.fat_count * self.sectors_per_fat + + def root_dir_size(self): + """ + Calculate the size of the root directory in sectors. + """ + return ( + self.root_entries * DIRENTRY_SIZE + self.bytes_per_sector - 1 + ) // self.bytes_per_sector + + def data_sector_start(self): + """ + Calculate the start sector of the data region. + """ + return self.root_dir_start() + self.root_dir_size() + + def first_sector_of_cluster(self, cluster: int): + """ + Calculate the first sector of the given cluster. + """ + return self.data_sector_start() + (cluster - 2) * self.sectors_per_cluster + + def cluster_bytes(self): + """ + Calculate the number of bytes in a cluster. + """ + return self.bytes_per_sector * self.sectors_per_cluster + + def __str__(self): + return ( + f"Bytes per sector: {self.bytes_per_sector}\n" + f"Sectors per cluster: {self.sectors_per_cluster}\n" + f"Reserved sectors: {self.reserved_sectors}\n" + f"FAT count: {self.fat_count}\n" + f"Root entries: {self.root_entries}\n" + f"Total sectors: {self.total_sectors}\n" + f"Media descriptor: {self.media_descriptor}\n" + f"Sectors per FAT: {self.sectors_per_fat}\n" + f"Sectors per track: {self.sectors_per_track}\n" + f"Heads: {self.heads}\n" + f"Hidden sectors: {self.hidden_sectors}\n" + f"Drive number: {self.drive_number}\n" + f"Volume ID: {self.volume_id}\n" + f"Volume label: {self.volume_label}\n" + f"FS type: {self.fs_type}\n" + ) + + +class FatDirectoryEntry: + def __init__(self, data: bytes, sector: int, offset: int): + self.name = data[0:8].decode("ascii").strip() + self.ext = data[8:11].decode("ascii").strip() + self.attributes = data[11] + self.reserved = data[12] + self.create_time_tenth = data[13] + self.create_time = int.from_bytes(data[14:16], "little") + self.create_date = int.from_bytes(data[16:18], "little") + self.last_access_date = int.from_bytes(data[18:20], "little") + high_cluster = int.from_bytes(data[20:22], "little") + self.last_mod_time = int.from_bytes(data[22:24], "little") + self.last_mod_date = int.from_bytes(data[24:26], "little") + low_cluster = int.from_bytes(data[26:28], "little") + self.cluster = (high_cluster << 16) | low_cluster + self.size_bytes = int.from_bytes(data[28:32], "little") + + # extra (to help write back to disk) + self.sector = sector + self.offset = offset + + def as_bytes(self) -> bytes: + return ( + self.name.ljust(8, " ").encode("ascii") + + self.ext.ljust(3, " ").encode("ascii") + + self.attributes.to_bytes(1, "little") + + self.reserved.to_bytes(1, "little") + + self.create_time_tenth.to_bytes(1, "little") + + self.create_time.to_bytes(2, "little") + + self.create_date.to_bytes(2, "little") + + self.last_access_date.to_bytes(2, "little") + + (self.cluster >> 16).to_bytes(2, "little") + + self.last_mod_time.to_bytes(2, "little") + + self.last_mod_date.to_bytes(2, "little") + + (self.cluster & 0xFFFF).to_bytes(2, "little") + + self.size_bytes.to_bytes(4, "little") + ) + + def whole_name(self): + if self.ext: + return f"{self.name}.{self.ext}" + else: + return self.name + + def __str__(self): + return ( + f"Name: {self.name}\n" + f"Ext: {self.ext}\n" + f"Attributes: {self.attributes}\n" + f"Reserved: {self.reserved}\n" + f"Create time tenth: {self.create_time_tenth}\n" + f"Create time: {self.create_time}\n" + f"Create date: {self.create_date}\n" + f"Last access date: {self.last_access_date}\n" + f"Last mod time: {self.last_mod_time}\n" + f"Last mod date: {self.last_mod_date}\n" + f"Cluster: {self.cluster}\n" + f"Size: {self.size_bytes}\n" + ) + + def __repr__(self): + # convert to dict + return str(vars(self)) + + +class Fat16: + def __init__( + self, + start_sector: int, + size: int, + sector_reader: callable, + sector_writer: callable, + ): + self.start_sector = start_sector + self.size_in_sectors = size + self.sector_reader = sector_reader + self.sector_writer = sector_writer + + self.boot_sector = FatBootSector(self.sector_reader(start_sector)) + + fat_size_in_sectors = self.boot_sector.fat_size * self.boot_sector.fat_count + self.fats = self.read_sectors( + self.boot_sector.reserved_sectors, fat_size_in_sectors + ) + self.fats_dirty_sectors = set() + + def read_sectors(self, start_sector: int, num_sectors: int) -> bytes: + return self.sector_reader(start_sector + self.start_sector, num_sectors) + + def write_sectors(self, start_sector: int, data: bytes): + return self.sector_writer(start_sector + self.start_sector, data) + + def directory_from_bytes( + self, data: bytes, start_sector: int + ) -> List[FatDirectoryEntry]: + """ + Convert `bytes` into a list of `FatDirectoryEntry` objects. + Will ignore long file names. + Will stop when it encounters a 0x00 byte. + """ + + entries = [] + for i in range(0, len(data), DIRENTRY_SIZE): + entry = data[i : i + DIRENTRY_SIZE] + + current_sector = start_sector + (i // SECTOR_SIZE) + current_offset = i % SECTOR_SIZE + + if entry[0] == 0: + break + elif entry[0] == 0xE5: + # Deleted file + continue + + if entry[11] & 0xF == 0xF: + # Long file name + continue + + entries.append(FatDirectoryEntry(entry, current_sector, current_offset)) + return entries + + def read_root_directory(self) -> List[FatDirectoryEntry]: + root_dir = self.read_sectors( + self.boot_sector.root_dir_start(), self.boot_sector.root_dir_size() + ) + return self.directory_from_bytes(root_dir, self.boot_sector.root_dir_start()) + + def read_fat_entry(self, cluster: int) -> int: + """ + Read the FAT entry for the given cluster. + """ + fat_offset = cluster * 2 # FAT16 + return int.from_bytes(self.fats[fat_offset : fat_offset + 2], "little") + + def write_fat_entry(self, cluster: int, value: int): + """ + Write the FAT entry for the given cluster. + """ + fat_offset = cluster * 2 + self.fats = ( + self.fats[:fat_offset] + + value.to_bytes(2, "little") + + self.fats[fat_offset + 2 :] + ) + self.fats_dirty_sectors.add(fat_offset // SECTOR_SIZE) + + def flush_fats(self): + """ + Write the FATs back to the disk. + """ + for sector in self.fats_dirty_sectors: + data = self.fats[sector * SECTOR_SIZE : (sector + 1) * SECTOR_SIZE] + sector = self.boot_sector.reserved_sectors + sector + self.write_sectors(sector, data) + self.fats_dirty_sectors = set() + + def next_cluster(self, cluster: int) -> int | None: + """ + Get the next cluster in the chain. + If its `None`, then its the last cluster. + The function will crash if the next cluster is `FREE` (unexpected) or invalid entry. + """ + fat_entry = self.read_fat_entry(cluster) + if fat_entry == 0: + raise Exception("Unexpected: FREE cluster") + elif fat_entry == 1: + raise Exception("Unexpected: RESERVED cluster") + elif fat_entry >= 0xFFF8: + return None + elif fat_entry >= 0xFFF7: + raise Exception("Invalid FAT entry") + else: + return fat_entry + + def next_free_cluster(self) -> int: + """ + Find the next free cluster. + """ + # simple linear search + for i in range(2, 0xFFFF): + if self.read_fat_entry(i) == 0: + return i + raise Exception("No free clusters") + + def read_cluster(self, cluster: int) -> bytes: + """ + Read the cluster at the given cluster. + """ + return self.read_sectors( + self.boot_sector.first_sector_of_cluster(cluster), + self.boot_sector.sectors_per_cluster, + ) + + def write_cluster(self, cluster: int, data: bytes): + """ + Write the cluster at the given cluster. + """ + assert len(data) == self.boot_sector.cluster_bytes() + return self.write_sectors( + self.boot_sector.first_sector_of_cluster(cluster), + data, + ) + + def read_directory(self, cluster: int) -> List[FatDirectoryEntry]: + """ + Read the directory at the given cluster. + """ + entries = [] + while cluster is not None: + data = self.read_cluster(cluster) + entries.extend( + self.directory_from_bytes( + data, self.boot_sector.first_sector_of_cluster(cluster) + ) + ) + cluster = self.next_cluster(cluster) + return entries + + def update_direntry(self, entry: FatDirectoryEntry): + """ + Write the directory entry back to the disk. + """ + sector = self.read_sectors(entry.sector, 1) + sector = ( + sector[: entry.offset] + + entry.as_bytes() + + sector[entry.offset + DIRENTRY_SIZE :] + ) + self.write_sectors(entry.sector, sector) + + def find_direntry(self, path: str) -> FatDirectoryEntry | None: + """ + Find the directory entry for the given path. + """ + assert path[0] == "/", "Path must start with /" + + path = path[1:] # remove the leading / + parts = path.split("/") + directory = self.read_root_directory() + + current_entry = None + + for i, part in enumerate(parts): + is_last = i == len(parts) - 1 + + for entry in directory: + if entry.whole_name() == part: + current_entry = entry + break + if current_entry is None: + return None + + if is_last: + return current_entry + else: + if current_entry.attributes & 0x10 == 0: + raise Exception(f"{current_entry.whole_name()} is not a directory") + else: + directory = self.read_directory(current_entry.cluster) + + def read_file(self, entry: FatDirectoryEntry) -> bytes: + """ + Read the content of the file at the given path. + """ + if entry is None: + return None + if entry.attributes & 0x10 != 0: + raise Exception(f"{entry.whole_name()} is a directory") + + data = b"" + cluster = entry.cluster + while cluster is not None and len(data) <= entry.size_bytes: + data += self.read_cluster(cluster) + cluster = self.next_cluster(cluster) + return data[: entry.size_bytes] + + def truncate_file(self, entry: FatDirectoryEntry, new_size: int): + """ + Truncate the file at the given path to the new size. + """ + if entry is None: + return Exception("entry is None") + if entry.attributes & 0x10 != 0: + raise Exception(f"{entry.whole_name()} is a directory") + + def clusters_from_size(size: int): + return (size + self.boot_sector.cluster_bytes() - 1) // self.boot_sector.cluster_bytes() + + + # First, allocate new FATs if we need to + required_clusters = clusters_from_size(new_size) + current_clusters = clusters_from_size(entry.size_bytes) + + affected_clusters = set() + + # Keep at least one cluster, easier to manage this way + if required_clusters == 0: + required_clusters = 1 + if current_clusters == 0: + current_clusters = 1 + + if required_clusters > current_clusters: + # Allocate new clusters + cluster = entry.cluster + to_add = required_clusters + for _ in range(current_clusters - 1): + to_add -= 1 + cluster = self.next_cluster(cluster) + assert required_clusters > 0, "No new clusters to allocate" + assert cluster is not None, "Cluster is None" + assert self.next_cluster(cluster) is None, "Cluster is not the last cluster" + + # Allocate new clusters + for _ in range(to_add - 1): + new_cluster = self.next_free_cluster() + self.write_fat_entry(cluster, new_cluster) + self.write_fat_entry(new_cluster, 0xFFFF) + cluster = new_cluster + + elif required_clusters < current_clusters: + # Truncate the file + cluster = entry.cluster + for _ in range(required_clusters - 1): + cluster = self.next_cluster(cluster) + assert cluster is not None, "Cluster is None" + + next_cluster = self.next_cluster(cluster) + # mark last as EOF + self.write_fat_entry(cluster, 0xFFFF) + # free the rest + while next_cluster is not None: + cluster = next_cluster + next_cluster = self.next_cluster(next_cluster) + self.write_fat_entry(cluster, 0) + + self.flush_fats() + + # verify number of clusters + cluster = entry.cluster + count = 0 + while cluster is not None: + count += 1 + affected_clusters.add(cluster) + cluster = self.next_cluster(cluster) + assert count == required_clusters, f"Expected {required_clusters} clusters, got {count}" + + # update the size + entry.size_bytes = new_size + self.update_direntry(entry) + + # trigger every affected cluster + for cluster in affected_clusters: + first_sector = self.boot_sector.first_sector_of_cluster(cluster) + first_sector_data = self.read_sectors(first_sector, 1) + self.write_sectors(first_sector, first_sector_data) + + def write_file(self, entry: FatDirectoryEntry, data: bytes): + """ + Write the content of the file at the given path. + """ + if entry is None: + return Exception("entry is None") + if entry.attributes & 0x10 != 0: + raise Exception(f"{entry.whole_name()} is a directory") + + data_len = len(data) + + self.truncate_file(entry, data_len) + + cluster = entry.cluster + while cluster is not None: + data_to_write = data[: self.boot_sector.cluster_bytes()] + last_data = False + if len(data_to_write) < self.boot_sector.cluster_bytes(): + last_data = True + old_data = self.read_cluster(cluster) + data_to_write += old_data[len(data_to_write) :] + + self.write_cluster(cluster, data_to_write) + data = data[self.boot_sector.cluster_bytes() :] + if len(data) == 0: + break + cluster = self.next_cluster(cluster) + + assert len(data) == 0, "Data was not written completely, clusters missing" diff --git a/tests/qemu-iotests/tests/vvfat b/tests/qemu-iotests/tests/vvfat new file mode 100755 index 0000000000..e0e23d1ab8 --- /dev/null +++ b/tests/qemu-iotests/tests/vvfat @@ -0,0 +1,400 @@ +#!/usr/bin/env python3 +# group: rw vvfat +# +# Test vvfat driver implementation +# Here, we use a simple FAT16 implementation and check the behavior of the vvfat driver. +# +# Copyright (C) 2024 Amjad Alsharafi +# +# This program is free software; you can redistribute it and/or modify +# it under the terms of the GNU General Public License as published by +# the Free Software Foundation; either version 2 of the License, or +# (at your option) any later version. +# +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. +# +# You should have received a copy of the GNU General Public License +# along with this program. If not, see . + +import os, shutil +import iotests +from iotests import imgfmt, QMPTestCase +from fat16 import MBR, Fat16, DIRENTRY_SIZE + +filesystem = os.path.join(iotests.test_dir, "filesystem") + +nbd_sock = iotests.file_path("nbd.sock", base_dir=iotests.sock_dir) +nbd_uri = "nbd+unix:///disk?socket=" + nbd_sock + +SECTOR_SIZE = 512 + + +class TestVVFatDriver(QMPTestCase): + def setUp(self) -> None: + if os.path.exists(filesystem): + if os.path.isdir(filesystem): + shutil.rmtree(filesystem) + else: + print(f"Error: {filesystem} exists and is not a directory") + exit(1) + os.mkdir(filesystem) + + # Add some text files to the filesystem + for i in range(10): + with open(os.path.join(filesystem, f"file{i}.txt"), "w") as f: + f.write(f"Hello, world! {i}\n") + + # Add 2 large files, above the cluster size (8KB) + with open(os.path.join(filesystem, "large1.txt"), "wb") as f: + # write 'A' * 1KB, 'B' * 1KB, 'C' * 1KB, ... + for i in range(8 * 2): # two clusters + f.write(bytes([0x41 + i] * 1024)) + + with open(os.path.join(filesystem, "large2.txt"), "wb") as f: + # write 'A' * 1KB, 'B' * 1KB, 'C' * 1KB, ... + for i in range(8 * 3): # 3 clusters + f.write(bytes([0x41 + i] * 1024)) + + self.vm = iotests.VM() + + self.vm.add_blockdev( + self.vm.qmp_to_opts( + { + "driver": imgfmt, + "node-name": "disk", + "rw": "true", + "fat-type": "16", + "dir": filesystem, + } + ) + ) + + self.vm.launch() + + self.vm.qmp_log("block-dirty-bitmap-add", **{"node": "disk", "name": "bitmap0"}) + + # attach nbd server + self.vm.qmp_log( + "nbd-server-start", + **{"addr": {"type": "unix", "data": {"path": nbd_sock}}}, + filters=[], + ) + + self.vm.qmp_log( + "nbd-server-add", + **{"device": "disk", "writable": True, "bitmap": "bitmap0"}, + ) + + self.qio = iotests.QemuIoInteractive("-f", "raw", nbd_uri) + + def tearDown(self) -> None: + self.qio.close() + self.vm.shutdown() + # print(self.vm.get_log()) + shutil.rmtree(filesystem) + + def read_sectors(self, sector: int, num: int = 1) -> bytes: + """ + Read `num` sectors starting from `sector` from the `disk`. + This uses `QemuIoInteractive` to read the sectors into `stdout` and then parse the output. + """ + self.assertGreater(num, 0) + # The output contains the content of the sector in hex dump format + # We need to extract the content from it + output = self.qio.cmd(f"read -v {sector * SECTOR_SIZE} {num * SECTOR_SIZE}") + # Each row is 16 bytes long, and we are writing `num` sectors + rows = num * SECTOR_SIZE // 16 + output_rows = output.split("\n")[:rows] + + hex_content = "".join( + [(row.split(": ")[1]).split(" ")[0] for row in output_rows] + ) + bytes_content = bytes.fromhex(hex_content) + + self.assertEqual(len(bytes_content), num * SECTOR_SIZE) + + return bytes_content + + def write_sectors(self, sector: int, data: bytes): + """ + Write `data` to the `disk` starting from `sector`. + This uses `QemuIoInteractive` to write the data into the disk. + """ + + self.assertGreater(len(data), 0) + self.assertEqual(len(data) % SECTOR_SIZE, 0) + + temp_file = os.path.join(iotests.test_dir, "temp.bin") + with open(temp_file, "wb") as f: + f.write(data) + + self.qio.cmd(f"write -s {temp_file} {sector * SECTOR_SIZE} {len(data)}") + + os.remove(temp_file) + + def init_fat16(self): + mbr = MBR(self.read_sectors(0)) + return Fat16( + mbr.partition_table[0]["start_lba"], + mbr.partition_table[0]["size"], + self.read_sectors, + self.write_sectors, + ) + + # Tests + + def test_fat_filesystem(self): + """ + Test that vvfat produce a valid FAT16 and MBR sectors + """ + mbr = MBR(self.read_sectors(0)) + + self.assertEqual(mbr.partition_table[0]["status"], 0x80) + self.assertEqual(mbr.partition_table[0]["type"], 6) + + fat16 = Fat16( + mbr.partition_table[0]["start_lba"], + mbr.partition_table[0]["size"], + self.read_sectors, + self.write_sectors, + ) + self.assertEqual(fat16.boot_sector.bytes_per_sector, 512) + self.assertEqual(fat16.boot_sector.volume_label, "QEMU VVFAT") + + def test_read_root_directory(self): + """ + Test the content of the root directory + """ + fat16 = self.init_fat16() + + root_dir = fat16.read_root_directory() + + self.assertEqual(len(root_dir), 13) # 12 + 1 special file + + files = { + "QEMU VVF.AT": 0, # special empty file + "FILE0.TXT": 16, + "FILE1.TXT": 16, + "FILE2.TXT": 16, + "FILE3.TXT": 16, + "FILE4.TXT": 16, + "FILE5.TXT": 16, + "FILE6.TXT": 16, + "FILE7.TXT": 16, + "FILE8.TXT": 16, + "FILE9.TXT": 16, + "LARGE1.TXT": 0x2000 * 2, + "LARGE2.TXT": 0x2000 * 3, + } + + for entry in root_dir: + self.assertIn(entry.whole_name(), files) + self.assertEqual(entry.size_bytes, files[entry.whole_name()]) + + def test_direntry_as_bytes(self): + """ + Test if we can convert Direntry back to bytes, so that we can write it back to the disk safely. + """ + fat16 = self.init_fat16() + + root_dir = fat16.read_root_directory() + first_entry_bytes = fat16.read_sectors(fat16.boot_sector.root_dir_start(), 1) + # The first entry won't be deleted, so we can compare it with the first entry in the root directory + self.assertEqual(root_dir[0].as_bytes(), first_entry_bytes[:DIRENTRY_SIZE]) + + def test_read_files(self): + """ + Test reading the content of the files + """ + fat16 = self.init_fat16() + + for i in range(10): + file = fat16.find_direntry(f"/FILE{i}.TXT") + self.assertIsNotNone(file) + self.assertEqual( + fat16.read_file(file), f"Hello, world! {i}\n".encode("ascii") + ) + + # test large files + large1 = fat16.find_direntry("/LARGE1.TXT") + with open(os.path.join(filesystem, "large1.txt"), "rb") as f: + self.assertEqual(fat16.read_file(large1), f.read()) + + large2 = fat16.find_direntry("/LARGE2.TXT") + self.assertIsNotNone(large2) + with open(os.path.join(filesystem, "large2.txt"), "rb") as f: + self.assertEqual(fat16.read_file(large2), f.read()) + + def test_write_file_same_content_direct(self): + """ + Similar to `test_write_file_in_same_content`, but we write the file directly clusters + and thus we don't go through the modification of direntry. + """ + fat16 = self.init_fat16() + + file = fat16.find_direntry("/FILE0.TXT") + self.assertIsNotNone(file) + + data = fat16.read_cluster(file.cluster) + fat16.write_cluster(file.cluster, data) + + with open(os.path.join(filesystem, "file0.txt"), "rb") as f: + self.assertEqual(fat16.read_file(file), f.read()) + + def test_write_file_in_same_content(self): + """ + Test writing the same content to the file back to it + """ + fat16 = self.init_fat16() + + file = fat16.find_direntry("/FILE0.TXT") + self.assertIsNotNone(file) + + self.assertEqual(fat16.read_file(file), b"Hello, world! 0\n") + + fat16.write_file(file, b"Hello, world! 0\n") + + self.assertEqual(fat16.read_file(file), b"Hello, world! 0\n") + + with open(os.path.join(filesystem, "file0.txt"), "rb") as f: + self.assertEqual(f.read(), b"Hello, world! 0\n") + + def test_modify_content_same_clusters(self): + """ + Test modifying the content of the file without changing the number of clusters + """ + fat16 = self.init_fat16() + + file = fat16.find_direntry("/FILE0.TXT") + self.assertIsNotNone(file) + + new_content = b"Hello, world! Modified\n" + self.assertEqual(fat16.read_file(file), b"Hello, world! 0\n") + + fat16.write_file(file, new_content) + + self.assertEqual(fat16.read_file(file), new_content) + with open(os.path.join(filesystem, "file0.txt"), "rb") as f: + self.assertEqual(f.read(), new_content) + + def test_truncate_file_same_clusters_less(self): + """ + Test truncating the file without changing number of clusters + Test decreasing the file size + """ + fat16 = self.init_fat16() + + file = fat16.find_direntry("/FILE0.TXT") + self.assertIsNotNone(file) + + self.assertEqual(fat16.read_file(file), b"Hello, world! 0\n") + + fat16.truncate_file(file, 5) + + new_content = fat16.read_file(file) + + self.assertEqual(new_content, b"Hello") + + with open(os.path.join(filesystem, "file0.txt"), "rb") as f: + self.assertEqual(f.read(), new_content) + + def test_truncate_file_same_clusters_more(self): + """ + Test truncating the file without changing number of clusters + Test increase the file size + """ + fat16 = self.init_fat16() + + file = fat16.find_direntry("/FILE0.TXT") + self.assertIsNotNone(file) + + self.assertEqual(fat16.read_file(file), b"Hello, world! 0\n") + + fat16.truncate_file(file, 20) + + new_content = fat16.read_file(file) + + # random pattern will be appended to the file, and its not always the same + self.assertEqual(new_content[:16], b"Hello, world! 0\n") + self.assertEqual(len(new_content), 20) + + with open(os.path.join(filesystem, "file0.txt"), "rb") as f: + self.assertEqual(f.read(), new_content) + + def test_write_large_file(self): + """ + Test writing a large file + """ + fat16 = self.init_fat16() + + file = fat16.find_direntry("/LARGE1.TXT") + self.assertIsNotNone(file) + + # The content of LARGE1 is A * 1KB, B * 1KB, C * 1KB, ..., P * 1KB + # Lets change it to be Z * 1KB, Y * 1KB, X * 1KB, ..., K * 1KB + # without changing the number of clusters or filesize + new_content = b"".join([bytes([0x5A - i] * 1024) for i in range(16)]) + + fat16.write_file(file, new_content) + + with open(os.path.join(filesystem, "large1.txt"), "rb") as f: + self.assertEqual(f.read(), new_content) + + def test_truncate_file_change_clusters_less(self): + """ + Test truncating a file by reducing the number of clusters + """ + fat16 = self.init_fat16() + + file = fat16.find_direntry("/LARGE1.TXT") + self.assertIsNotNone(file) + + fat16.truncate_file(file, 1) + + self.assertEqual(fat16.read_file(file), b"A") + + with open(os.path.join(filesystem, "large1.txt"), "rb") as f: + self.assertEqual(f.read(), b"A") + + + def test_write_file_change_clusters_less(self): + """ + Test truncating a file by reducing the number of clusters + """ + fat16 = self.init_fat16() + + file = fat16.find_direntry("/LARGE2.TXT") + self.assertIsNotNone(file) + + new_content = b"Hello, world! This was a large file\n" + new_content = b"Z" * 8 * 1024 * 2 + + fat16.write_file(file, new_content) + + with open(os.path.join(filesystem, "large2.txt"), "rb") as f: + self.assertEqual(f.read(), new_content) + + def test_write_file_change_clusters_more(self): + """ + Test truncating a file by increasing the number of clusters + """ + fat16 = self.init_fat16() + + file = fat16.find_direntry("/LARGE2.TXT") + self.assertIsNotNone(file) + + new_content = b"Z" * 8 * 1024 * 4 + + fat16.write_file(file, new_content) + + with open(os.path.join(filesystem, "large2.txt"), "rb") as f: + self.assertEqual(f.read(), new_content) + + + +if __name__ == "__main__": + # This is a specific test for vvfat driver + iotests.main(supported_fmts=["vvfat"], supported_protocols=["file"]) diff --git a/tests/qemu-iotests/tests/vvfat.out b/tests/qemu-iotests/tests/vvfat.out new file mode 100755 index 0000000000..fa16b5ccef --- /dev/null +++ b/tests/qemu-iotests/tests/vvfat.out @@ -0,0 +1,5 @@ +............. +---------------------------------------------------------------------- +Ran 13 tests + +OK