diff --git a/.github/ISSUE_TEMPLATE/issue_template.yml b/.github/ISSUE_TEMPLATE/issue_template.yml index 23430c8df3f..fbd3f76c0f3 100644 --- a/.github/ISSUE_TEMPLATE/issue_template.yml +++ b/.github/ISSUE_TEMPLATE/issue_template.yml @@ -21,7 +21,7 @@ body: attributes: label: Ventoy Version description: What version of ventoy are you running? - placeholder: 1.0.59 + placeholder: 1.0.60 validations: required: true - type: dropdown diff --git a/INSTALL/Ventoy2Disk.exe b/INSTALL/Ventoy2Disk.exe index 76c1080d72e..92a77d70ced 100644 Binary files a/INSTALL/Ventoy2Disk.exe and b/INSTALL/Ventoy2Disk.exe differ diff --git a/INSTALL/Ventoy2Disk.sh b/INSTALL/Ventoy2Disk.sh index d8440d055df..2692b5ae3b0 100644 --- a/INSTALL/Ventoy2Disk.sh +++ b/INSTALL/Ventoy2Disk.sh @@ -23,6 +23,8 @@ else fi export PATH="./tool/$TOOLDIR:$PATH" +rm -f ./log.txt + echo '' echo '**********************************************' diff --git a/INSTALL/Ventoy2Disk_ARM.exe b/INSTALL/Ventoy2Disk_ARM.exe index 55fd765229f..d1398f64a7e 100644 Binary files a/INSTALL/Ventoy2Disk_ARM.exe and b/INSTALL/Ventoy2Disk_ARM.exe differ diff --git a/INSTALL/Ventoy2Disk_ARM64.exe b/INSTALL/Ventoy2Disk_ARM64.exe index 47727bd0a37..18a02ae70a6 100644 Binary files a/INSTALL/Ventoy2Disk_ARM64.exe and b/INSTALL/Ventoy2Disk_ARM64.exe differ diff --git a/INSTALL/Ventoy2Disk_X64.exe b/INSTALL/Ventoy2Disk_X64.exe index 88fd2520288..c6cf57cc447 100644 Binary files a/INSTALL/Ventoy2Disk_X64.exe and b/INSTALL/Ventoy2Disk_X64.exe differ diff --git a/INSTALL/all_in_one.sh b/INSTALL/all_in_one.sh index 14163f38535..827c80bac14 100644 --- a/INSTALL/all_in_one.sh +++ b/INSTALL/all_in_one.sh @@ -38,13 +38,10 @@ sh buildedk.sh >> $LOG 2>&1 || exit 1 #cd $VTOY_PATH/VtoyTool #sh build.sh || exit 1 -#cd $VTOY_PATH/vtoyfat/fat_io_lib +#cd $VTOY_PATH/vtoycli/fat_io_lib #sh buildlib.sh -#cd $VTOY_PATH/vtoyfat -#sh build.sh || exit 1 - -#cd $VTOY_PATH/vtoygpt +#cd $VTOY_PATH/vtoycli #sh build.sh || exit 1 #cd $VTOY_PATH/FUSEISO diff --git a/INSTALL/tool/VentoyWorker.sh b/INSTALL/tool/VentoyWorker.sh index 543ac69717d..22c3de0508b 100644 --- a/INSTALL/tool/VentoyWorker.sh +++ b/INSTALL/tool/VentoyWorker.sh @@ -16,6 +16,7 @@ print_usage() { echo ' -s/-S enable/disable secure boot support (default is disabled)' echo ' -g use GPT partition style, default is MBR (only for install)' echo ' -L Label of the 1st exfat partition (default is Ventoy)' + echo ' -n try non-destructive installation (only for install)' echo '' } @@ -28,6 +29,8 @@ while [ -n "$1" ]; do elif [ "$1" = "-I" ]; then MODE="install" FORCE="Y" + elif [ "$1" = "-n" ]; then + NONDESTRUCTIVE="Y" elif [ "$1" = "-u" ]; then MODE="update" elif [ "$1" = "-l" ]; then @@ -162,7 +165,7 @@ if [ -d ./tmp_mnt ]; then fi -if [ "$MODE" = "install" ]; then +if [ "$MODE" = "install" -a -z "$NONDESTRUCTIVE" ]; then vtdebug "install Ventoy ..." if [ -n "$VTGPT" ]; then @@ -255,7 +258,10 @@ if [ "$MODE" = "install" ]; then exit 1 fi - if ! dd if=/dev/zero of=$DISK bs=1 count=512 status=none conv=fsync; then + # check and umount + check_umount_disk "$DISK" + + if ! dd if=/dev/zero of=$DISK bs=64 count=512 status=none conv=fsync; then vterr "Write data to $DISK failed, please check whether it's in use." exit 1 fi @@ -281,10 +287,14 @@ if [ "$MODE" = "install" ]; then PART1=$(get_disk_part_name $DISK 1) PART2=$(get_disk_part_name $DISK 2) + #clean part2 + dd status=none conv=fsync if=/dev/zero of=$DISK bs=512 count=32 seek=$part2_start_sector + + #format part1 + vtinfo "Format partition 1 ..." mkexfatfs -n "$VTNEW_LABEL" -s $cluster_sectors ${PART1} - vtinfo "writing data to disk ..." - + vtinfo "writing data to disk ..." dd status=none conv=fsync if=./boot/boot.img of=$DISK bs=1 count=446 if [ -n "$VTGPT" ]; then @@ -314,51 +324,181 @@ if [ "$MODE" = "install" ]; then sync vtinfo "esp partition processing ..." + if [ "$SECUREBOOT" != "YES" ]; then + sleep 2 + check_umount_disk "$DISK" + vtoycli partresize -s $DISK $part2_start_sector + fi + + echo "" + vtinfo "Install Ventoy to $DISK successfully finished." + echo "" + +elif [ "$MODE" = "install" -a -n "$NONDESTRUCTIVE" ]; then + vtdebug "non-destructive install Ventoy ..." + + version=$(get_disk_ventoy_version $DISK) + if [ $? -eq 0 ]; then + if [ -z "$FORCE" ]; then + vtwarn "$DISK already contains a Ventoy with version $version." + vtwarn "You can not do and don not need non-destructive installation." + vtwarn "" + exit 1 + fi + fi - sleep 1 - check_umount_disk "$DISK" + disk_sector_num=$(cat /sys/block/${DISK#/dev/}/size) + disk_size_gb=$(expr $disk_sector_num / 2097152) + + if vtoycli partresize -t $DISK; then + OldStyle="GPT" + else + OldStyle="MBR" + fi + + #Print disk info + echo "Disk : $DISK" + parted -s $DISK p 2>&1 | grep Model + echo "Size : $disk_size_gb GB" + echo "Style: $OldStyle" + echo '' + + vtwarn "Attention:" + vtwarn "Ventoy will try non-destructive installation on $DISK if possible." + echo "" + + read -p 'Continue? (y/n) ' Answer + if [ "$Answer" != "y" ]; then + if [ "$Answer" != "Y" ]; then + exit 0 + fi + fi + + if [ $disk_sector_num -le $VENTOY_SECTOR_NUM ]; then + vterr "No enough space in disk $DISK" + exit 1 + fi + + PART1=$(get_disk_part_name $DISK 1) + PART2=$(get_disk_part_name $DISK 2) + + #Part1 size in MB aligned with 4KB + PART1_SECTORS=$(cat /sys/class/block/${PART1#/dev/}/size) + PART1_4K=$(expr $PART1_SECTORS / 8) + PART1_MB=$(expr $PART1_4K / 256) + PART1_NEW_MB=$(expr $PART1_MB - 32) + + echo "$PART1 is ${PART1_MB}MB" + + #check partition layout + echo "check partition layout ..." + vtoycli partresize -c $DISK + vtRet=$? + if [ $vtRet -eq 0 ]; then + exit 1 + else + # check and umount + check_umount_disk "$DISK" + sleep 1 + check_umount_disk "$DISK" - if [ "$SECUREBOOT" != "YES" ]; then - mkdir ./tmp_mnt - - vtdebug "mounting part2 ...." - for tt in 1 2 3 4 5; do - if mount ${PART2} ./tmp_mnt > /dev/null 2>&1; then - vtdebug "mounting part2 success" - break - fi + if [ $vtRet -eq 1 ]; then + echo "Free space enough, start install..." + part2_start_sector=$(expr $PART1_SECTORS + 2048) + elif [ $vtRet -eq 2 ]; then + echo "We need to shrink partition 1 firstly ..." - check_umount_disk "$DISK" - sleep 2 - done - - rm -f ./tmp_mnt/EFI/BOOT/BOOTX64.EFI - rm -f ./tmp_mnt/EFI/BOOT/grubx64.efi - rm -f ./tmp_mnt/EFI/BOOT/BOOTIA32.EFI - rm -f ./tmp_mnt/EFI/BOOT/grubia32.efi - rm -f ./tmp_mnt/EFI/BOOT/MokManager.efi - rm -f ./tmp_mnt/EFI/BOOT/mmia32.efi - rm -f ./tmp_mnt/ENROLL_THIS_KEY_IN_MOKMANAGER.cer - mv ./tmp_mnt/EFI/BOOT/grubx64_real.efi ./tmp_mnt/EFI/BOOT/BOOTX64.EFI - mv ./tmp_mnt/EFI/BOOT/grubia32_real.efi ./tmp_mnt/EFI/BOOT/BOOTIA32.EFI - - sync - - for tt in 1 2 3; do - if umount ./tmp_mnt; then - vtdebug "umount part2 success" - rm -rf ./tmp_mnt - break + PART1_BLKID=$(blkid $PART1) + blkid $PART1 + + if echo $PART1_BLKID | egrep -q -i 'TYPE=ntfs|TYPE=.ntfs'; then + echo "Partition 1 contains NTFS filesystem" + + which ntfsresize + if [ $? -ne 0 ]; then + echo "###[FAIL] ntfsresize not found. Please install ntfs-3g package." + exit 1 + fi + + echo "ntfsfix -b -d $PART1 ..." + ntfsfix -b -d $PART1 + + echo "ntfsresize --size ${PART1_NEW_MB}Mi $PART1 ..." + ntfsresize -f --size ${PART1_NEW_MB}Mi $PART1 + if [ $? -ne 0 ]; then + echo "###[FAIL] ntfsresize failed." + exit 1 + fi + elif echo $PART1_BLKID | egrep -q -i 'TYPE=ext[2-4]|TYPE=.ext[2-4]'; then + echo "Partition 1 contains EXT filesystem" + + which resize2fs + if [ $? -ne 0 ]; then + echo "###[FAIL] resize2fs not found. Please install e2fsprogs package." + exit 1 + fi + + echo "e2fsck -f $PART1 ..." + e2fsck -f $PART1 + + echo "resize2fs $PART1 ${PART1_NEW_MB}M ..." + resize2fs $PART1 ${PART1_NEW_MB}M + if [ $? -ne 0 ]; then + echo "###[FAIL] resize2fs failed." + exit 1 + fi else - vtdebug "umount part2 failed, now retry..." - sleep 1 + echo "###[FAIL] Unsupported filesystem in partition 1." + exit 1 fi - done + + sync + PART1_NEW_END_MB=$(expr $PART1_NEW_MB + 1) + part2_start_sector=$(expr $PART1_NEW_END_MB \* 2048) + fi fi - echo "" - vtinfo "Install Ventoy to $DISK successfully finished." - echo "" + vtinfo "writing data to disk part2_start=$part2_start_sector ..." + + dd status=none conv=fsync if=./boot/boot.img of=$DISK bs=1 count=440 + + if [ "$OldStyle" = "GPT" ]; then + echo -en '\x22' | dd status=none of=$DISK conv=fsync bs=1 count=1 seek=92 + xzcat ./boot/core.img.xz | dd status=none conv=fsync of=$DISK bs=512 count=2014 seek=34 + echo -en '\x23' | dd of=$DISK conv=fsync bs=1 count=1 seek=17908 status=none + else + xzcat ./boot/core.img.xz | dd status=none conv=fsync of=$DISK bs=512 count=2047 seek=1 + fi + + xzcat ./ventoy/ventoy.disk.img.xz | dd status=none conv=fsync of=$DISK bs=512 count=$VENTOY_SECTOR_NUM seek=$part2_start_sector + + #test UUID + testUUIDStr=$(vtoy_gen_uuid | hexdump -C) + vtdebug "test uuid: $testUUIDStr" + + #disk uuid + vtoy_gen_uuid | dd status=none conv=fsync of=${DISK} seek=384 bs=1 count=16 + + vtinfo "sync data ..." + sync + + vtinfo "esp partition processing ..." + if [ "$SECUREBOOT" != "YES" ]; then + vtoycli partresize -s $DISK $part2_start_sector + fi + + vtinfo "update partition table $DISK $part2_start_sector ..." + vtoycli partresize -p $DISK $part2_start_sector + if [ $? -eq 0 ]; then + sync + echo "" + vtinfo "Ventoy non-destructive installation on $DISK successfully finished." + echo "" + else + echo "" + vterr "Ventoy non-destructive installation on $DISK failed." + echo "" + fi else vtdebug "update Ventoy ..." @@ -441,47 +581,13 @@ else check_umount_disk "$DISK" xzcat ./ventoy/ventoy.disk.img.xz | dd status=none conv=fsync of=$DISK bs=512 count=$VENTOY_SECTOR_NUM seek=$part2_start - sync + vtinfo "esp partition processing ..." if [ "$SECUREBOOT" != "YES" ]; then - mkdir ./tmp_mnt - - vtdebug "mounting part2 ...." - for tt in 1 2 3 4 5; do - check_umount_disk "$DISK" - - if mount ${PART2} ./tmp_mnt > /dev/null 2>&1; then - vtdebug "mounting part2 success" - break - else - vtdebug "mounting part2 failed, now wait and retry..." - fi - sleep 2 - done - - rm -f ./tmp_mnt/EFI/BOOT/BOOTX64.EFI - rm -f ./tmp_mnt/EFI/BOOT/grubx64.efi - rm -f ./tmp_mnt/EFI/BOOT/BOOTIA32.EFI - rm -f ./tmp_mnt/EFI/BOOT/grubia32.efi - rm -f ./tmp_mnt/EFI/BOOT/MokManager.efi - rm -f ./tmp_mnt/EFI/BOOT/mmia32.efi - rm -f ./tmp_mnt/ENROLL_THIS_KEY_IN_MOKMANAGER.cer - mv ./tmp_mnt/EFI/BOOT/grubx64_real.efi ./tmp_mnt/EFI/BOOT/BOOTX64.EFI - mv ./tmp_mnt/EFI/BOOT/grubia32_real.efi ./tmp_mnt/EFI/BOOT/BOOTIA32.EFI - - sync - - for tt in 1 2 3; do - if umount ./tmp_mnt > /dev/null 2>&1; then - vtdebug "umount part2 success" - rm -rf ./tmp_mnt - break - else - vtdebug "umount part2 failed, now retry..." - sleep 1 - fi - done + sleep 2 + check_umount_disk "$DISK" + vtoycli partresize -s $DISK $part2_start fi echo "" diff --git a/INSTALL/tool/aarch64/V2DServer b/INSTALL/tool/aarch64/V2DServer index 26b4cbb3a10..f4e4873374b 100644 Binary files a/INSTALL/tool/aarch64/V2DServer and b/INSTALL/tool/aarch64/V2DServer differ diff --git a/INSTALL/tool/aarch64/Ventoy2Disk.gtk3 b/INSTALL/tool/aarch64/Ventoy2Disk.gtk3 index 5692a5d7f9d..db03db5ec09 100644 Binary files a/INSTALL/tool/aarch64/Ventoy2Disk.gtk3 and b/INSTALL/tool/aarch64/Ventoy2Disk.gtk3 differ diff --git a/INSTALL/tool/aarch64/Ventoy2Disk.qt5 b/INSTALL/tool/aarch64/Ventoy2Disk.qt5 index eb26488a0a4..4b8493966a8 100644 Binary files a/INSTALL/tool/aarch64/Ventoy2Disk.qt5 and b/INSTALL/tool/aarch64/Ventoy2Disk.qt5 differ diff --git a/INSTALL/tool/aarch64/vtoyfat b/INSTALL/tool/aarch64/vtoycli similarity index 54% rename from INSTALL/tool/aarch64/vtoyfat rename to INSTALL/tool/aarch64/vtoycli index f1ff74858d5..7cc072b2728 100644 Binary files a/INSTALL/tool/aarch64/vtoyfat and b/INSTALL/tool/aarch64/vtoycli differ diff --git a/INSTALL/tool/aarch64/vtoygpt b/INSTALL/tool/aarch64/vtoygpt deleted file mode 100644 index 420aefca511..00000000000 Binary files a/INSTALL/tool/aarch64/vtoygpt and /dev/null differ diff --git a/INSTALL/tool/i386/V2DServer b/INSTALL/tool/i386/V2DServer index 9e1322e0d1d..fe154acd106 100644 Binary files a/INSTALL/tool/i386/V2DServer and b/INSTALL/tool/i386/V2DServer differ diff --git a/INSTALL/tool/i386/Ventoy2Disk.gtk2 b/INSTALL/tool/i386/Ventoy2Disk.gtk2 index 9360d8b848f..f7317c5918c 100644 Binary files a/INSTALL/tool/i386/Ventoy2Disk.gtk2 and b/INSTALL/tool/i386/Ventoy2Disk.gtk2 differ diff --git a/INSTALL/tool/i386/Ventoy2Disk.gtk3 b/INSTALL/tool/i386/Ventoy2Disk.gtk3 index 90a52077abf..938d6808e41 100644 Binary files a/INSTALL/tool/i386/Ventoy2Disk.gtk3 and b/INSTALL/tool/i386/Ventoy2Disk.gtk3 differ diff --git a/INSTALL/tool/i386/Ventoy2Disk.qt5 b/INSTALL/tool/i386/Ventoy2Disk.qt5 index 0b64ecc7c26..e46494e632e 100644 Binary files a/INSTALL/tool/i386/Ventoy2Disk.qt5 and b/INSTALL/tool/i386/Ventoy2Disk.qt5 differ diff --git a/INSTALL/tool/i386/vtoycli b/INSTALL/tool/i386/vtoycli new file mode 100644 index 00000000000..b6a91107e86 Binary files /dev/null and b/INSTALL/tool/i386/vtoycli differ diff --git a/INSTALL/tool/i386/vtoyfat b/INSTALL/tool/i386/vtoyfat deleted file mode 100644 index b372e626764..00000000000 Binary files a/INSTALL/tool/i386/vtoyfat and /dev/null differ diff --git a/INSTALL/tool/i386/vtoygpt b/INSTALL/tool/i386/vtoygpt deleted file mode 100644 index 127f080c5bd..00000000000 Binary files a/INSTALL/tool/i386/vtoygpt and /dev/null differ diff --git a/INSTALL/tool/mips64el/V2DServer b/INSTALL/tool/mips64el/V2DServer index 4d36cb86370..14be9acf0e5 100644 Binary files a/INSTALL/tool/mips64el/V2DServer and b/INSTALL/tool/mips64el/V2DServer differ diff --git a/INSTALL/tool/mips64el/Ventoy2Disk.gtk3 b/INSTALL/tool/mips64el/Ventoy2Disk.gtk3 index 0e1d81bfb1f..540a93bac80 100644 Binary files a/INSTALL/tool/mips64el/Ventoy2Disk.gtk3 and b/INSTALL/tool/mips64el/Ventoy2Disk.gtk3 differ diff --git a/INSTALL/tool/mips64el/Ventoy2Disk.qt5 b/INSTALL/tool/mips64el/Ventoy2Disk.qt5 index 5e7c6a58e84..03cc6bfb47c 100644 Binary files a/INSTALL/tool/mips64el/Ventoy2Disk.qt5 and b/INSTALL/tool/mips64el/Ventoy2Disk.qt5 differ diff --git a/INSTALL/tool/mips64el/vtoycli b/INSTALL/tool/mips64el/vtoycli new file mode 100644 index 00000000000..c087f3d90e1 Binary files /dev/null and b/INSTALL/tool/mips64el/vtoycli differ diff --git a/INSTALL/tool/mips64el/vtoyfat b/INSTALL/tool/mips64el/vtoyfat deleted file mode 100644 index 2ff2eaf8866..00000000000 Binary files a/INSTALL/tool/mips64el/vtoyfat and /dev/null differ diff --git a/INSTALL/tool/mips64el/vtoygpt b/INSTALL/tool/mips64el/vtoygpt deleted file mode 100644 index 074d6f09c8d..00000000000 Binary files a/INSTALL/tool/mips64el/vtoygpt and /dev/null differ diff --git a/INSTALL/tool/ventoy_lib.sh b/INSTALL/tool/ventoy_lib.sh index 709ce2c0e4b..ef047f35b34 100644 --- a/INSTALL/tool/ventoy_lib.sh +++ b/INSTALL/tool/ventoy_lib.sh @@ -68,10 +68,10 @@ check_tool_work_ok() { return fi - if vtoyfat -T; then - vtdebug "vtoyfat test ok ..." + if vtoycli fat -T; then + vtdebug "vtoycli fat test ok ..." else - vtdebug "vtoyfat test fail ..." + vtdebug "vtoycli fat test fail ..." ventoy_false return fi @@ -183,7 +183,7 @@ check_disk_secure_boot() { PART2=$(get_disk_part_name $1 2) - vtoyfat -s $PART2 + vtoycli fat -s $PART2 } get_disk_ventoy_version() { @@ -195,7 +195,7 @@ get_disk_ventoy_version() { PART2=$(get_disk_part_name $1 2) - ParseVer=$(vtoyfat $PART2) + ParseVer=$(vtoycli fat $PART2) if [ $? -eq 0 ]; then vtdebug "Ventoy version in $PART2 is $ParseVer" echo $ParseVer @@ -391,7 +391,7 @@ format_ventoy_disk_gpt() { sync - vtoygpt -f $DISK + vtoycli gpt -f $DISK sync udevadm trigger --name-match=$DISK >/dev/null 2>&1 diff --git a/INSTALL/tool/x86_64/V2DServer b/INSTALL/tool/x86_64/V2DServer index 19010a41d6a..492a0e97260 100644 Binary files a/INSTALL/tool/x86_64/V2DServer and b/INSTALL/tool/x86_64/V2DServer differ diff --git a/INSTALL/tool/x86_64/Ventoy2Disk.gtk2 b/INSTALL/tool/x86_64/Ventoy2Disk.gtk2 index 717db106e99..7180adcecd5 100644 Binary files a/INSTALL/tool/x86_64/Ventoy2Disk.gtk2 and b/INSTALL/tool/x86_64/Ventoy2Disk.gtk2 differ diff --git a/INSTALL/tool/x86_64/Ventoy2Disk.gtk3 b/INSTALL/tool/x86_64/Ventoy2Disk.gtk3 index 6e70312373b..8e4b11449f8 100644 Binary files a/INSTALL/tool/x86_64/Ventoy2Disk.gtk3 and b/INSTALL/tool/x86_64/Ventoy2Disk.gtk3 differ diff --git a/INSTALL/tool/x86_64/Ventoy2Disk.qt5 b/INSTALL/tool/x86_64/Ventoy2Disk.qt5 index 8bd405b4c23..3bef337bfe6 100644 Binary files a/INSTALL/tool/x86_64/Ventoy2Disk.qt5 and b/INSTALL/tool/x86_64/Ventoy2Disk.qt5 differ diff --git a/INSTALL/tool/x86_64/vtoycli b/INSTALL/tool/x86_64/vtoycli new file mode 100644 index 00000000000..edb4f2af5f6 Binary files /dev/null and b/INSTALL/tool/x86_64/vtoycli differ diff --git a/INSTALL/tool/x86_64/vtoyfat b/INSTALL/tool/x86_64/vtoyfat deleted file mode 100644 index 26e020c62ae..00000000000 Binary files a/INSTALL/tool/x86_64/vtoyfat and /dev/null differ diff --git a/INSTALL/tool/x86_64/vtoygpt b/INSTALL/tool/x86_64/vtoygpt deleted file mode 100644 index 068aaf6e62c..00000000000 Binary files a/INSTALL/tool/x86_64/vtoygpt and /dev/null differ diff --git a/INSTALL/ventoy_pack.sh b/INSTALL/ventoy_pack.sh index a1f10059552..00a4b2fe22a 100644 --- a/INSTALL/ventoy_pack.sh +++ b/INSTALL/ventoy_pack.sh @@ -89,9 +89,9 @@ mkdir -p $tmpmnt/tool # cp $OPT ./tool/x86_64/mount.exfat-fuse $tmpmnt/tool/mount.exfat-fuse_x86_64 # cp $OPT ./tool/aarch64/mount.exfat-fuse $tmpmnt/tool/mount.exfat-fuse_aarch64 # to save space -cp $OPT ./tool/i386/vtoygpt $tmpmnt/tool/mount.exfat-fuse_i386 -cp $OPT ./tool/x86_64/vtoygpt $tmpmnt/tool/mount.exfat-fuse_x86_64 -cp $OPT ./tool/aarch64/vtoygpt $tmpmnt/tool/mount.exfat-fuse_aarch64 +dd status=none bs=1024 count=16 if=./tool/i386/vtoycli of=$tmpmnt/tool/mount.exfat-fuse_i386 +dd status=none bs=1024 count=16 if=./tool/x86_64/vtoycli of=$tmpmnt/tool/mount.exfat-fuse_x86_64 +dd status=none bs=1024 count=16 if=./tool/aarch64/vtoycli of=$tmpmnt/tool/mount.exfat-fuse_aarch64 rm -f $tmpmnt/grub/i386-pc/*.img diff --git a/vtoycli/build.sh b/vtoycli/build.sh new file mode 100644 index 00000000000..a5468b53cfa --- /dev/null +++ b/vtoycli/build.sh @@ -0,0 +1,37 @@ +#!/bin/sh + +rm -f vtoycli_64 +rm -f vtoycli_32 +rm -f vtoycli_aa64 +rm -f vtoycli_m64e + +SRCS="vtoycli.c vtoyfat.c vtoygpt.c crc32.c partresize.c" + +gcc -specs "/usr/local/musl/lib/musl-gcc.specs" -Os -static -D_FILE_OFFSET_BITS=64 $SRCS -Ifat_io_lib/include fat_io_lib/lib/libfat_io_64.a -o vtoycli_64 + +/opt/diet32/bin/diet -Os gcc -D_FILE_OFFSET_BITS=64 -m32 $SRCS -Ifat_io_lib/include fat_io_lib/lib/libfat_io_32.a -o vtoycli_32 + + +#gcc -O2 -D_FILE_OFFSET_BITS=64 $SRCS -Ifat_io_lib/include fat_io_lib/lib/libfat_io_64.a -o vtoycli_64 +#gcc -m32 -O2 -D_FILE_OFFSET_BITS=64 $SRCS -Ifat_io_lib/include fat_io_lib/lib/libfat_io_32.a -o vtoycli_32 + +aarch64-buildroot-linux-uclibc-gcc -static -O2 -D_FILE_OFFSET_BITS=64 $SRCS -Ifat_io_lib/include fat_io_lib/lib/libfat_io_aa64.a -o vtoycli_aa64 +mips64el-linux-musl-gcc -mips64r2 -mabi=64 -static -O2 -D_FILE_OFFSET_BITS=64 $SRCS -Ifat_io_lib/include fat_io_lib/lib/libfat_io_m64e.a -o vtoycli_m64e + + +if [ -e vtoycli_64 ] && [ -e vtoycli_32 ] && [ -e vtoycli_aa64 ] && [ -e vtoycli_m64e ]; then + echo -e "\n===== success $name =======\n" + + strip --strip-all vtoycli_32 + strip --strip-all vtoycli_64 + aarch64-buildroot-linux-uclibc-strip --strip-all vtoycli_aa64 + mips64el-linux-musl-strip --strip-all vtoycli_m64e + + [ -d ../INSTALL/tool/i386/ ] && mv vtoycli_32 ../INSTALL/tool/i386/vtoycli + [ -d ../INSTALL/tool/x86_64/ ] && mv vtoycli_64 ../INSTALL/tool/x86_64/vtoycli + [ -d ../INSTALL/tool/aarch64/ ] && mv vtoycli_aa64 ../INSTALL/tool/aarch64/vtoycli + [ -d ../INSTALL/tool/mips64el/ ] && mv vtoycli_m64e ../INSTALL/tool/mips64el/vtoycli +else + echo -e "\n===== failed =======\n" + exit 1 +fi diff --git a/vtoycli/crc32.c b/vtoycli/crc32.c new file mode 100644 index 00000000000..5f0f777836d --- /dev/null +++ b/vtoycli/crc32.c @@ -0,0 +1,305 @@ +/****************************************************************************** + * vtoygpt.c ---- ventoy gpt util + * + * Copyright (c) 2020, longpanda + * + * 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 3 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 . + * + */ +#include +#include +#include +#include + +#define VOID void +#define CHAR char +#define UINT64 unsigned long long +#define UINT32 unsigned int +#define UINT16 unsigned short +#define CHAR16 unsigned short +#define UINT8 unsigned char + +UINT32 g_crc_table[256] = { + 0x00000000, + 0x77073096, + 0xEE0E612C, + 0x990951BA, + 0x076DC419, + 0x706AF48F, + 0xE963A535, + 0x9E6495A3, + 0x0EDB8832, + 0x79DCB8A4, + 0xE0D5E91E, + 0x97D2D988, + 0x09B64C2B, + 0x7EB17CBD, + 0xE7B82D07, + 0x90BF1D91, + 0x1DB71064, + 0x6AB020F2, + 0xF3B97148, + 0x84BE41DE, + 0x1ADAD47D, + 0x6DDDE4EB, + 0xF4D4B551, + 0x83D385C7, + 0x136C9856, + 0x646BA8C0, + 0xFD62F97A, + 0x8A65C9EC, + 0x14015C4F, + 0x63066CD9, + 0xFA0F3D63, + 0x8D080DF5, + 0x3B6E20C8, + 0x4C69105E, + 0xD56041E4, + 0xA2677172, + 0x3C03E4D1, + 0x4B04D447, + 0xD20D85FD, + 0xA50AB56B, + 0x35B5A8FA, + 0x42B2986C, + 0xDBBBC9D6, + 0xACBCF940, + 0x32D86CE3, + 0x45DF5C75, + 0xDCD60DCF, + 0xABD13D59, + 0x26D930AC, + 0x51DE003A, + 0xC8D75180, + 0xBFD06116, + 0x21B4F4B5, + 0x56B3C423, + 0xCFBA9599, + 0xB8BDA50F, + 0x2802B89E, + 0x5F058808, + 0xC60CD9B2, + 0xB10BE924, + 0x2F6F7C87, + 0x58684C11, + 0xC1611DAB, + 0xB6662D3D, + 0x76DC4190, + 0x01DB7106, + 0x98D220BC, + 0xEFD5102A, + 0x71B18589, + 0x06B6B51F, + 0x9FBFE4A5, + 0xE8B8D433, + 0x7807C9A2, + 0x0F00F934, + 0x9609A88E, + 0xE10E9818, + 0x7F6A0DBB, + 0x086D3D2D, + 0x91646C97, + 0xE6635C01, + 0x6B6B51F4, + 0x1C6C6162, + 0x856530D8, + 0xF262004E, + 0x6C0695ED, + 0x1B01A57B, + 0x8208F4C1, + 0xF50FC457, + 0x65B0D9C6, + 0x12B7E950, + 0x8BBEB8EA, + 0xFCB9887C, + 0x62DD1DDF, + 0x15DA2D49, + 0x8CD37CF3, + 0xFBD44C65, + 0x4DB26158, + 0x3AB551CE, + 0xA3BC0074, + 0xD4BB30E2, + 0x4ADFA541, + 0x3DD895D7, + 0xA4D1C46D, + 0xD3D6F4FB, + 0x4369E96A, + 0x346ED9FC, + 0xAD678846, + 0xDA60B8D0, + 0x44042D73, + 0x33031DE5, + 0xAA0A4C5F, + 0xDD0D7CC9, + 0x5005713C, + 0x270241AA, + 0xBE0B1010, + 0xC90C2086, + 0x5768B525, + 0x206F85B3, + 0xB966D409, + 0xCE61E49F, + 0x5EDEF90E, + 0x29D9C998, + 0xB0D09822, + 0xC7D7A8B4, + 0x59B33D17, + 0x2EB40D81, + 0xB7BD5C3B, + 0xC0BA6CAD, + 0xEDB88320, + 0x9ABFB3B6, + 0x03B6E20C, + 0x74B1D29A, + 0xEAD54739, + 0x9DD277AF, + 0x04DB2615, + 0x73DC1683, + 0xE3630B12, + 0x94643B84, + 0x0D6D6A3E, + 0x7A6A5AA8, + 0xE40ECF0B, + 0x9309FF9D, + 0x0A00AE27, + 0x7D079EB1, + 0xF00F9344, + 0x8708A3D2, + 0x1E01F268, + 0x6906C2FE, + 0xF762575D, + 0x806567CB, + 0x196C3671, + 0x6E6B06E7, + 0xFED41B76, + 0x89D32BE0, + 0x10DA7A5A, + 0x67DD4ACC, + 0xF9B9DF6F, + 0x8EBEEFF9, + 0x17B7BE43, + 0x60B08ED5, + 0xD6D6A3E8, + 0xA1D1937E, + 0x38D8C2C4, + 0x4FDFF252, + 0xD1BB67F1, + 0xA6BC5767, + 0x3FB506DD, + 0x48B2364B, + 0xD80D2BDA, + 0xAF0A1B4C, + 0x36034AF6, + 0x41047A60, + 0xDF60EFC3, + 0xA867DF55, + 0x316E8EEF, + 0x4669BE79, + 0xCB61B38C, + 0xBC66831A, + 0x256FD2A0, + 0x5268E236, + 0xCC0C7795, + 0xBB0B4703, + 0x220216B9, + 0x5505262F, + 0xC5BA3BBE, + 0xB2BD0B28, + 0x2BB45A92, + 0x5CB36A04, + 0xC2D7FFA7, + 0xB5D0CF31, + 0x2CD99E8B, + 0x5BDEAE1D, + 0x9B64C2B0, + 0xEC63F226, + 0x756AA39C, + 0x026D930A, + 0x9C0906A9, + 0xEB0E363F, + 0x72076785, + 0x05005713, + 0x95BF4A82, + 0xE2B87A14, + 0x7BB12BAE, + 0x0CB61B38, + 0x92D28E9B, + 0xE5D5BE0D, + 0x7CDCEFB7, + 0x0BDBDF21, + 0x86D3D2D4, + 0xF1D4E242, + 0x68DDB3F8, + 0x1FDA836E, + 0x81BE16CD, + 0xF6B9265B, + 0x6FB077E1, + 0x18B74777, + 0x88085AE6, + 0xFF0F6A70, + 0x66063BCA, + 0x11010B5C, + 0x8F659EFF, + 0xF862AE69, + 0x616BFFD3, + 0x166CCF45, + 0xA00AE278, + 0xD70DD2EE, + 0x4E048354, + 0x3903B3C2, + 0xA7672661, + 0xD06016F7, + 0x4969474D, + 0x3E6E77DB, + 0xAED16A4A, + 0xD9D65ADC, + 0x40DF0B66, + 0x37D83BF0, + 0xA9BCAE53, + 0xDEBB9EC5, + 0x47B2CF7F, + 0x30B5FFE9, + 0xBDBDF21C, + 0xCABAC28A, + 0x53B39330, + 0x24B4A3A6, + 0xBAD03605, + 0xCDD70693, + 0x54DE5729, + 0x23D967BF, + 0xB3667A2E, + 0xC4614AB8, + 0x5D681B02, + 0x2A6F2B94, + 0xB40BBE37, + 0xC30C8EA1, + 0x5A05DF1B, + 0x2D02EF8D +}; + +UINT32 VtoyCrc32(VOID *Buffer, UINT32 Length) +{ + UINT32 i; + UINT8 *Ptr = Buffer; + UINT32 Crc = 0xFFFFFFFF; + + for (i = 0; i < Length; i++, Ptr++) + { + Crc = (Crc >> 8) ^ g_crc_table[(UINT8) Crc ^ *Ptr]; + } + + return Crc ^ 0xffffffff; +} + diff --git a/vtoycli/fat_io_lib/buildlib.sh b/vtoycli/fat_io_lib/buildlib.sh new file mode 100644 index 00000000000..fe6bb2f450e --- /dev/null +++ b/vtoycli/fat_io_lib/buildlib.sh @@ -0,0 +1,35 @@ +#!/bin/sh + +rm -rf include +rm -rf lib + +cd release +#/opt/diet64/bin/diet -Os gcc -O2 -D_FILE_OFFSET_BITS=64 fat*.c -c +gcc -specs "/usr/local/musl/lib/musl-gcc.specs" -O2 -D_FILE_OFFSET_BITS=64 fat*.c -c +ar -rc libfat_io_64.a *.o +rm -f *.o + + +gcc -m32 -O2 -D_FILE_OFFSET_BITS=64 fat*.c -c +ar -rc libfat_io_32.a *.o +rm -f *.o + + +aarch64-linux-gnu-gcc -O2 -D_FILE_OFFSET_BITS=64 fat*.c -c +ar -rc libfat_io_aa64.a *.o +rm -f *.o + + +mips64el-linux-musl-gcc -mips64r2 -mabi=64 -O2 -D_FILE_OFFSET_BITS=64 fat*.c -c +ar -rc libfat_io_m64e.a *.o +rm -f *.o + +cd - + + +mkdir lib +mkdir include + +mv release/*.a lib/ +cp -a release/*.h include/ + diff --git a/vtoycli/fat_io_lib/include/fat_access.h b/vtoycli/fat_io_lib/include/fat_access.h new file mode 100644 index 00000000000..175238785a4 --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_access.h @@ -0,0 +1,133 @@ +#ifndef __FAT_ACCESS_H__ +#define __FAT_ACCESS_H__ + +#include "fat_defs.h" +#include "fat_opts.h" + +//----------------------------------------------------------------------------- +// Defines +//----------------------------------------------------------------------------- +#define FAT_INIT_OK 0 +#define FAT_INIT_MEDIA_ACCESS_ERROR (-1) +#define FAT_INIT_INVALID_SECTOR_SIZE (-2) +#define FAT_INIT_INVALID_SIGNATURE (-3) +#define FAT_INIT_ENDIAN_ERROR (-4) +#define FAT_INIT_WRONG_FILESYS_TYPE (-5) +#define FAT_INIT_WRONG_PARTITION_TYPE (-6) +#define FAT_INIT_STRUCT_PACKING (-7) + +#define FAT_DIR_ENTRIES_PER_SECTOR (FAT_SECTOR_SIZE / FAT_DIR_ENTRY_SIZE) + +//----------------------------------------------------------------------------- +// Function Pointers +//----------------------------------------------------------------------------- +typedef int (*fn_diskio_read) (uint32 sector, uint8 *buffer, uint32 sector_count); +typedef int (*fn_diskio_write)(uint32 sector, uint8 *buffer, uint32 sector_count); + +//----------------------------------------------------------------------------- +// Structures +//----------------------------------------------------------------------------- +struct disk_if +{ + // User supplied function pointers for disk IO + fn_diskio_read read_media; + fn_diskio_write write_media; +}; + +// Forward declaration +struct fat_buffer; + +struct fat_buffer +{ + uint8 sector[FAT_SECTOR_SIZE * FAT_BUFFER_SECTORS]; + uint32 address; + int dirty; + uint8 * ptr; + + // Next in chain of sector buffers + struct fat_buffer *next; +}; + +typedef enum eFatType +{ + FAT_TYPE_16, + FAT_TYPE_32 +} tFatType; + +struct fatfs +{ + // Filesystem globals + uint8 sectors_per_cluster; + uint32 cluster_begin_lba; + uint32 rootdir_first_cluster; + uint32 rootdir_first_sector; + uint32 rootdir_sectors; + uint32 fat_begin_lba; + uint16 fs_info_sector; + uint32 lba_begin; + uint32 fat_sectors; + uint32 next_free_cluster; + uint16 root_entry_count; + uint16 reserved_sectors; + uint8 num_of_fats; + tFatType fat_type; + + // Disk/Media API + struct disk_if disk_io; + + // [Optional] Thread Safety + void (*fl_lock)(void); + void (*fl_unlock)(void); + + // Working buffer + struct fat_buffer currentsector; + + // FAT Buffer + struct fat_buffer *fat_buffer_head; + struct fat_buffer fat_buffers[FAT_BUFFERS]; +}; + +struct fs_dir_list_status +{ + uint32 sector; + uint32 cluster; + uint8 offset; +}; + +struct fs_dir_ent +{ + char filename[FATFS_MAX_LONG_FILENAME]; + uint8 is_dir; + uint32 cluster; + uint32 size; + +#if FATFS_INC_TIME_DATE_SUPPORT + uint16 access_date; + uint16 write_time; + uint16 write_date; + uint16 create_date; + uint16 create_time; +#endif +}; + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +int fatfs_init(struct fatfs *fs); +uint32 fatfs_lba_of_cluster(struct fatfs *fs, uint32 Cluster_Number); +int fatfs_sector_reader(struct fatfs *fs, uint32 Startcluster, uint32 offset, uint8 *target); +int fatfs_sector_read(struct fatfs *fs, uint32 lba, uint8 *target, uint32 count); +int fatfs_sector_write(struct fatfs *fs, uint32 lba, uint8 *target, uint32 count); +int fatfs_read_sector(struct fatfs *fs, uint32 cluster, uint32 sector, uint8 *target); +int fatfs_write_sector(struct fatfs *fs, uint32 cluster, uint32 sector, uint8 *target); +void fatfs_show_details(struct fatfs *fs); +uint32 fatfs_get_root_cluster(struct fatfs *fs); +uint32 fatfs_get_file_entry(struct fatfs *fs, uint32 Cluster, char *nametofind, struct fat_dir_entry *sfEntry); +int fatfs_sfn_exists(struct fatfs *fs, uint32 Cluster, char *shortname); +int fatfs_update_file_length(struct fatfs *fs, uint32 Cluster, char *shortname, uint32 fileLength); +int fatfs_mark_file_deleted(struct fatfs *fs, uint32 Cluster, char *shortname); +void fatfs_list_directory_start(struct fatfs *fs, struct fs_dir_list_status *dirls, uint32 StartCluster); +int fatfs_list_directory_next(struct fatfs *fs, struct fs_dir_list_status *dirls, struct fs_dir_ent *entry); +int fatfs_update_timestamps(struct fat_dir_entry *directoryEntry, int create, int modify, int access); + +#endif diff --git a/vtoycli/fat_io_lib/include/fat_cache.h b/vtoycli/fat_io_lib/include/fat_cache.h new file mode 100644 index 00000000000..348d5d38408 --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_cache.h @@ -0,0 +1,13 @@ +#ifndef __FAT_CACHE_H__ +#define __FAT_CACHE_H__ + +#include "fat_filelib.h" + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +int fatfs_cache_init(struct fatfs *fs, FL_FILE *file); +int fatfs_cache_get_next_cluster(struct fatfs *fs, FL_FILE *file, uint32 clusterIdx, uint32 *pNextCluster); +int fatfs_cache_set_next_cluster(struct fatfs *fs, FL_FILE *file, uint32 clusterIdx, uint32 nextCluster); + +#endif diff --git a/vtoycli/fat_io_lib/include/fat_defs.h b/vtoycli/fat_io_lib/include/fat_defs.h new file mode 100644 index 00000000000..5fe8d6a4d13 --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_defs.h @@ -0,0 +1,128 @@ +#ifndef __FAT_DEFS_H__ +#define __FAT_DEFS_H__ + +#include "fat_opts.h" +#include "fat_types.h" + +//----------------------------------------------------------------------------- +// FAT32 Offsets +// Name Offset +//----------------------------------------------------------------------------- + +// Boot Sector +#define BS_JMPBOOT 0 // Length = 3 +#define BS_OEMNAME 3 // Length = 8 +#define BPB_BYTSPERSEC 11 // Length = 2 +#define BPB_SECPERCLUS 13 // Length = 1 +#define BPB_RSVDSECCNT 14 // Length = 2 +#define BPB_NUMFATS 16 // Length = 1 +#define BPB_ROOTENTCNT 17 // Length = 2 +#define BPB_TOTSEC16 19 // Length = 2 +#define BPB_MEDIA 21 // Length = 1 +#define BPB_FATSZ16 22 // Length = 2 +#define BPB_SECPERTRK 24 // Length = 2 +#define BPB_NUMHEADS 26 // Length = 2 +#define BPB_HIDDSEC 28 // Length = 4 +#define BPB_TOTSEC32 32 // Length = 4 + +// FAT 12/16 +#define BS_FAT_DRVNUM 36 // Length = 1 +#define BS_FAT_BOOTSIG 38 // Length = 1 +#define BS_FAT_VOLID 39 // Length = 4 +#define BS_FAT_VOLLAB 43 // Length = 11 +#define BS_FAT_FILSYSTYPE 54 // Length = 8 + +// FAT 32 +#define BPB_FAT32_FATSZ32 36 // Length = 4 +#define BPB_FAT32_EXTFLAGS 40 // Length = 2 +#define BPB_FAT32_FSVER 42 // Length = 2 +#define BPB_FAT32_ROOTCLUS 44 // Length = 4 +#define BPB_FAT32_FSINFO 48 // Length = 2 +#define BPB_FAT32_BKBOOTSEC 50 // Length = 2 +#define BS_FAT32_DRVNUM 64 // Length = 1 +#define BS_FAT32_BOOTSIG 66 // Length = 1 +#define BS_FAT32_VOLID 67 // Length = 4 +#define BS_FAT32_VOLLAB 71 // Length = 11 +#define BS_FAT32_FILSYSTYPE 82 // Length = 8 + +//----------------------------------------------------------------------------- +// FAT Types +//----------------------------------------------------------------------------- +#define FAT_TYPE_FAT12 1 +#define FAT_TYPE_FAT16 2 +#define FAT_TYPE_FAT32 3 + +//----------------------------------------------------------------------------- +// FAT32 Specific Statics +//----------------------------------------------------------------------------- +#define SIGNATURE_POSITION 510 +#define SIGNATURE_VALUE 0xAA55 +#define PARTITION1_TYPECODE_LOCATION 450 +#define FAT32_TYPECODE1 0x0B +#define FAT32_TYPECODE2 0x0C +#define PARTITION1_LBA_BEGIN_LOCATION 454 +#define PARTITION1_SIZE_LOCATION 458 + +#define FAT_DIR_ENTRY_SIZE 32 +#define FAT_SFN_SIZE_FULL 11 +#define FAT_SFN_SIZE_PARTIAL 8 + +//----------------------------------------------------------------------------- +// FAT32 File Attributes and Types +//----------------------------------------------------------------------------- +#define FILE_ATTR_READ_ONLY 0x01 +#define FILE_ATTR_HIDDEN 0x02 +#define FILE_ATTR_SYSTEM 0x04 +#define FILE_ATTR_SYSHID 0x06 +#define FILE_ATTR_VOLUME_ID 0x08 +#define FILE_ATTR_DIRECTORY 0x10 +#define FILE_ATTR_ARCHIVE 0x20 +#define FILE_ATTR_LFN_TEXT 0x0F +#define FILE_HEADER_BLANK 0x00 +#define FILE_HEADER_DELETED 0xE5 +#define FILE_TYPE_DIR 0x10 +#define FILE_TYPE_FILE 0x20 + +//----------------------------------------------------------------------------- +// Time / Date details +//----------------------------------------------------------------------------- +#define FAT_TIME_HOURS_SHIFT 11 +#define FAT_TIME_HOURS_MASK 0x1F +#define FAT_TIME_MINUTES_SHIFT 5 +#define FAT_TIME_MINUTES_MASK 0x3F +#define FAT_TIME_SECONDS_SHIFT 0 +#define FAT_TIME_SECONDS_MASK 0x1F +#define FAT_TIME_SECONDS_SCALE 2 +#define FAT_DATE_YEAR_SHIFT 9 +#define FAT_DATE_YEAR_MASK 0x7F +#define FAT_DATE_MONTH_SHIFT 5 +#define FAT_DATE_MONTH_MASK 0xF +#define FAT_DATE_DAY_SHIFT 0 +#define FAT_DATE_DAY_MASK 0x1F +#define FAT_DATE_YEAR_OFFSET 1980 + +//----------------------------------------------------------------------------- +// Other Defines +//----------------------------------------------------------------------------- +#define FAT32_LAST_CLUSTER 0xFFFFFFFF +#define FAT32_INVALID_CLUSTER 0xFFFFFFFF + +STRUCT_PACK_BEGIN +struct fat_dir_entry STRUCT_PACK +{ + uint8 Name[11]; + uint8 Attr; + uint8 NTRes; + uint8 CrtTimeTenth; + uint8 CrtTime[2]; + uint8 CrtDate[2]; + uint8 LstAccDate[2]; + uint16 FstClusHI; + uint8 WrtTime[2]; + uint8 WrtDate[2]; + uint16 FstClusLO; + uint32 FileSize; +} STRUCT_PACKED; +STRUCT_PACK_END + +#endif diff --git a/vtoycli/fat_io_lib/include/fat_filelib.h b/vtoycli/fat_io_lib/include/fat_filelib.h new file mode 100644 index 00000000000..a40a28ff65a --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_filelib.h @@ -0,0 +1,146 @@ +#ifndef __FAT_FILELIB_H__ +#define __FAT_FILELIB_H__ + +#include "fat_opts.h" +#include "fat_access.h" +#include "fat_list.h" + +//----------------------------------------------------------------------------- +// Defines +//----------------------------------------------------------------------------- +#ifndef SEEK_CUR + #define SEEK_CUR 1 +#endif + +#ifndef SEEK_END + #define SEEK_END 2 +#endif + +#ifndef SEEK_SET + #define SEEK_SET 0 +#endif + +#ifndef EOF + #define EOF (-1) +#endif + +//----------------------------------------------------------------------------- +// Structures +//----------------------------------------------------------------------------- +struct sFL_FILE; + +struct cluster_lookup +{ + uint32 ClusterIdx; + uint32 CurrentCluster; +}; + +typedef struct sFL_FILE +{ + uint32 parentcluster; + uint32 startcluster; + uint32 bytenum; + uint32 filelength; + int filelength_changed; + char path[FATFS_MAX_LONG_FILENAME]; + char filename[FATFS_MAX_LONG_FILENAME]; + uint8 shortfilename[11]; + +#ifdef FAT_CLUSTER_CACHE_ENTRIES + uint32 cluster_cache_idx[FAT_CLUSTER_CACHE_ENTRIES]; + uint32 cluster_cache_data[FAT_CLUSTER_CACHE_ENTRIES]; +#endif + + // Cluster Lookup + struct cluster_lookup last_fat_lookup; + + // Read/Write sector buffer + uint8 file_data_sector[FAT_SECTOR_SIZE]; + uint32 file_data_address; + int file_data_dirty; + + // File fopen flags + uint8 flags; +#define FILE_READ (1 << 0) +#define FILE_WRITE (1 << 1) +#define FILE_APPEND (1 << 2) +#define FILE_BINARY (1 << 3) +#define FILE_ERASE (1 << 4) +#define FILE_CREATE (1 << 5) + + struct fat_node list_node; +} FL_FILE; + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- + +// External +void fl_init(void); +void fl_attach_locks(void (*lock)(void), void (*unlock)(void)); +int fl_attach_media(fn_diskio_read rd, fn_diskio_write wr); +void fl_shutdown(void); + +// Standard API +void* fl_fopen(const char *path, const char *modifiers); +void fl_fclose(void *file); +int fl_fflush(void *file); +int fl_fgetc(void *file); +char * fl_fgets(char *s, int n, void *f); +int fl_fputc(int c, void *file); +int fl_fputs(const char * str, void *file); +int fl_fwrite(const void * data, int size, int count, void *file ); +int fl_fread(void * data, int size, int count, void *file ); +int fl_fseek(void *file , long offset , int origin ); +int fl_fgetpos(void *file , uint32 * position); +long fl_ftell(void *f); +int fl_feof(void *f); +int fl_remove(const char * filename); + +// Equivelant dirent.h +typedef struct fs_dir_list_status FL_DIR; +typedef struct fs_dir_ent fl_dirent; + +FL_DIR* fl_opendir(const char* path, FL_DIR *dir); +int fl_readdir(FL_DIR *dirls, fl_dirent *entry); +int fl_closedir(FL_DIR* dir); + +// Extensions +void fl_listdirectory(const char *path); +int fl_createdirectory(const char *path); +int fl_is_dir(const char *path); + +int fl_format(uint32 volume_sectors, const char *name); + +// Test hooks +#ifdef FATFS_INC_TEST_HOOKS +struct fatfs* fl_get_fs(void); +#endif + +//----------------------------------------------------------------------------- +// Stdio file I/O names +//----------------------------------------------------------------------------- +#ifdef USE_FILELIB_STDIO_COMPAT_NAMES + +#define FILE FL_FILE + +#define fopen(a,b) fl_fopen(a, b) +#define fclose(a) fl_fclose(a) +#define fflush(a) fl_fflush(a) +#define fgetc(a) fl_fgetc(a) +#define fgets(a,b,c) fl_fgets(a, b, c) +#define fputc(a,b) fl_fputc(a, b) +#define fputs(a,b) fl_fputs(a, b) +#define fwrite(a,b,c,d) fl_fwrite(a, b, c, d) +#define fread(a,b,c,d) fl_fread(a, b, c, d) +#define fseek(a,b,c) fl_fseek(a, b, c) +#define fgetpos(a,b) fl_fgetpos(a, b) +#define ftell(a) fl_ftell(a) +#define feof(a) fl_feof(a) +#define remove(a) fl_remove(a) +#define mkdir(a) fl_createdirectory(a) +#define rmdir(a) 0 + +#endif + +#endif diff --git a/vtoycli/fat_io_lib/include/fat_format.h b/vtoycli/fat_io_lib/include/fat_format.h new file mode 100644 index 00000000000..a8a6bbaf1b8 --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_format.h @@ -0,0 +1,15 @@ +#ifndef __FAT_FORMAT_H__ +#define __FAT_FORMAT_H__ + +#include "fat_defs.h" +#include "fat_opts.h" +#include "fat_access.h" + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +int fatfs_format(struct fatfs *fs, uint32 volume_sectors, const char *name); +int fatfs_format_fat16(struct fatfs *fs, uint32 volume_sectors, const char *name); +int fatfs_format_fat32(struct fatfs *fs, uint32 volume_sectors, const char *name); + +#endif diff --git a/vtoycli/fat_io_lib/include/fat_list.h b/vtoycli/fat_io_lib/include/fat_list.h new file mode 100644 index 00000000000..bd386ef6a6a --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_list.h @@ -0,0 +1,161 @@ +#ifndef __FAT_LIST_H__ +#define __FAT_LIST_H__ + +#ifndef FAT_ASSERT + #define FAT_ASSERT(x) +#endif + +#ifndef FAT_INLINE + #define FAT_INLINE +#endif + +//----------------------------------------------------------------- +// Types +//----------------------------------------------------------------- +struct fat_list; + +struct fat_node +{ + struct fat_node *previous; + struct fat_node *next; +}; + +struct fat_list +{ + struct fat_node *head; + struct fat_node *tail; +}; + +//----------------------------------------------------------------- +// Macros +//----------------------------------------------------------------- +#define fat_list_entry(p, t, m) p ? ((t *)((char *)(p)-(char*)(&((t *)0)->m))) : 0 +#define fat_list_next(l, p) (p)->next +#define fat_list_prev(l, p) (p)->previous +#define fat_list_first(l) (l)->head +#define fat_list_last(l) (l)->tail +#define fat_list_for_each(l, p) for ((p) = (l)->head; (p); (p) = (p)->next) + +//----------------------------------------------------------------- +// Inline Functions +//----------------------------------------------------------------- + +//----------------------------------------------------------------- +// fat_list_init: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_init(struct fat_list *list) +{ + FAT_ASSERT(list); + + list->head = list->tail = 0; +} +//----------------------------------------------------------------- +// fat_list_remove: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_remove(struct fat_list *list, struct fat_node *node) +{ + FAT_ASSERT(list); + FAT_ASSERT(node); + + if(!node->previous) + list->head = node->next; + else + node->previous->next = node->next; + + if(!node->next) + list->tail = node->previous; + else + node->next->previous = node->previous; +} +//----------------------------------------------------------------- +// fat_list_insert_after: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_insert_after(struct fat_list *list, struct fat_node *node, struct fat_node *new_node) +{ + FAT_ASSERT(list); + FAT_ASSERT(node); + FAT_ASSERT(new_node); + + new_node->previous = node; + new_node->next = node->next; + if (!node->next) + list->tail = new_node; + else + node->next->previous = new_node; + node->next = new_node; +} +//----------------------------------------------------------------- +// fat_list_insert_before: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_insert_before(struct fat_list *list, struct fat_node *node, struct fat_node *new_node) +{ + FAT_ASSERT(list); + FAT_ASSERT(node); + FAT_ASSERT(new_node); + + new_node->previous = node->previous; + new_node->next = node; + if (!node->previous) + list->head = new_node; + else + node->previous->next = new_node; + node->previous = new_node; +} +//----------------------------------------------------------------- +// fat_list_insert_first: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_insert_first(struct fat_list *list, struct fat_node *node) +{ + FAT_ASSERT(list); + FAT_ASSERT(node); + + if (!list->head) + { + list->head = node; + list->tail = node; + node->previous = 0; + node->next = 0; + } + else + fat_list_insert_before(list, list->head, node); +} +//----------------------------------------------------------------- +// fat_list_insert_last: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_insert_last(struct fat_list *list, struct fat_node *node) +{ + FAT_ASSERT(list); + FAT_ASSERT(node); + + if (!list->tail) + fat_list_insert_first(list, node); + else + fat_list_insert_after(list, list->tail, node); +} +//----------------------------------------------------------------- +// fat_list_is_empty: +//----------------------------------------------------------------- +static FAT_INLINE int fat_list_is_empty(struct fat_list *list) +{ + FAT_ASSERT(list); + + return !list->head; +} +//----------------------------------------------------------------- +// fat_list_pop_head: +//----------------------------------------------------------------- +static FAT_INLINE struct fat_node * fat_list_pop_head(struct fat_list *list) +{ + struct fat_node * node; + + FAT_ASSERT(list); + + node = fat_list_first(list); + if (node) + fat_list_remove(list, node); + + return node; +} + +#endif + diff --git a/vtoycli/fat_io_lib/include/fat_misc.h b/vtoycli/fat_io_lib/include/fat_misc.h new file mode 100644 index 00000000000..0c026343f4c --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_misc.h @@ -0,0 +1,63 @@ +#ifndef __FAT_MISC_H__ +#define __FAT_MISC_H__ + +#include "fat_defs.h" +#include "fat_opts.h" + +//----------------------------------------------------------------------------- +// Defines +//----------------------------------------------------------------------------- +#define MAX_LONGFILENAME_ENTRIES 20 +#define MAX_LFN_ENTRY_LENGTH 13 + +//----------------------------------------------------------------------------- +// Macros +//----------------------------------------------------------------------------- +#define GET_32BIT_WORD(buffer, location) ( ((uint32)buffer[location+3]<<24) + ((uint32)buffer[location+2]<<16) + ((uint32)buffer[location+1]<<8) + (uint32)buffer[location+0] ) +#define GET_16BIT_WORD(buffer, location) ( ((uint16)buffer[location+1]<<8) + (uint16)buffer[location+0] ) + +#define SET_32BIT_WORD(buffer, location, value) { buffer[location+0] = (uint8)((value)&0xFF); \ + buffer[location+1] = (uint8)((value>>8)&0xFF); \ + buffer[location+2] = (uint8)((value>>16)&0xFF); \ + buffer[location+3] = (uint8)((value>>24)&0xFF); } + +#define SET_16BIT_WORD(buffer, location, value) { buffer[location+0] = (uint8)((value)&0xFF); \ + buffer[location+1] = (uint8)((value>>8)&0xFF); } + +//----------------------------------------------------------------------------- +// Structures +//----------------------------------------------------------------------------- +struct lfn_cache +{ +#if FATFS_INC_LFN_SUPPORT + // Long File Name Structure (max 260 LFN length) + uint8 String[MAX_LONGFILENAME_ENTRIES][MAX_LFN_ENTRY_LENGTH]; + uint8 Null; +#endif + uint8 no_of_strings; +}; + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +void fatfs_lfn_cache_init(struct lfn_cache *lfn, int wipeTable); +void fatfs_lfn_cache_entry(struct lfn_cache *lfn, uint8 *entryBuffer); +char* fatfs_lfn_cache_get(struct lfn_cache *lfn); +int fatfs_entry_lfn_text(struct fat_dir_entry *entry); +int fatfs_entry_lfn_invalid(struct fat_dir_entry *entry); +int fatfs_entry_lfn_exists(struct lfn_cache *lfn, struct fat_dir_entry *entry); +int fatfs_entry_sfn_only(struct fat_dir_entry *entry); +int fatfs_entry_is_dir(struct fat_dir_entry *entry); +int fatfs_entry_is_file(struct fat_dir_entry *entry); +int fatfs_lfn_entries_required(char *filename); +void fatfs_filename_to_lfn(char *filename, uint8 *buffer, int entry, uint8 sfnChk); +void fatfs_sfn_create_entry(char *shortfilename, uint32 size, uint32 startCluster, struct fat_dir_entry *entry, int dir); +int fatfs_lfn_create_sfn(char *sfn_output, char *filename); +int fatfs_lfn_generate_tail(char *sfn_output, char *sfn_input, uint32 tailNum); +void fatfs_convert_from_fat_time(uint16 fat_time, int *hours, int *minutes, int *seconds); +void fatfs_convert_from_fat_date(uint16 fat_date, int *day, int *month, int *year); +uint16 fatfs_convert_to_fat_time(int hours, int minutes, int seconds); +uint16 fatfs_convert_to_fat_date(int day, int month, int year); +void fatfs_print_sector(uint32 sector, uint8 *data); + +#endif diff --git a/vtoycli/fat_io_lib/include/fat_opts.h b/vtoycli/fat_io_lib/include/fat_opts.h new file mode 100644 index 00000000000..ac4dc860acd --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_opts.h @@ -0,0 +1,90 @@ +#ifndef __FAT_OPTS_H__ +#define __FAT_OPTS_H__ + +#ifdef FATFS_USE_CUSTOM_OPTS_FILE + #include "fat_custom.h" +#endif + +//------------------------------------------------------------- +// Configuration +//------------------------------------------------------------- + +// Is the processor little endian (1) or big endian (0) +#ifndef FATFS_IS_LITTLE_ENDIAN + #define FATFS_IS_LITTLE_ENDIAN 1 +#endif + +// Max filename Length +#ifndef FATFS_MAX_LONG_FILENAME + #define FATFS_MAX_LONG_FILENAME 260 +#endif + +// Max open files (reduce to lower memory requirements) +#ifndef FATFS_MAX_OPEN_FILES + #define FATFS_MAX_OPEN_FILES 2 +#endif + +// Number of sectors per FAT_BUFFER (min 1) +#ifndef FAT_BUFFER_SECTORS + #define FAT_BUFFER_SECTORS 1 +#endif + +// Max FAT sectors to buffer (min 1) +// (mem used is FAT_BUFFERS * FAT_BUFFER_SECTORS * FAT_SECTOR_SIZE) +#ifndef FAT_BUFFERS + #define FAT_BUFFERS 1 +#endif + +// Size of cluster chain cache (can be undefined) +// Mem used = FAT_CLUSTER_CACHE_ENTRIES * 4 * 2 +// Improves access speed considerably +//#define FAT_CLUSTER_CACHE_ENTRIES 128 + +// Include support for writing files (1 / 0)? +#ifndef FATFS_INC_WRITE_SUPPORT + #define FATFS_INC_WRITE_SUPPORT 1 +#endif + +// Support long filenames (1 / 0)? +// (if not (0) only 8.3 format is supported) +#ifndef FATFS_INC_LFN_SUPPORT + #define FATFS_INC_LFN_SUPPORT 1 +#endif + +// Support directory listing (1 / 0)? +#ifndef FATFS_DIR_LIST_SUPPORT + #define FATFS_DIR_LIST_SUPPORT 1 +#endif + +// Support time/date (1 / 0)? +#ifndef FATFS_INC_TIME_DATE_SUPPORT + #define FATFS_INC_TIME_DATE_SUPPORT 0 +#endif + +// Include support for formatting disks (1 / 0)? +#ifndef FATFS_INC_FORMAT_SUPPORT + #define FATFS_INC_FORMAT_SUPPORT 1 +#endif + +// Sector size used +#define FAT_SECTOR_SIZE 512 + +// Printf output (directory listing / debug) +#ifndef FAT_PRINTF + // Don't include stdio, but there is a printf function available + #ifdef FAT_PRINTF_NOINC_STDIO + extern int printf(const char* ctrl1, ... ); + #define FAT_PRINTF(a) printf a + // Include stdio to use printf + #else + #include + #define FAT_PRINTF(a) printf a + #endif +#endif + +// Time/Date support requires time.h +#if FATFS_INC_TIME_DATE_SUPPORT + #include +#endif + +#endif diff --git a/vtoycli/fat_io_lib/include/fat_string.h b/vtoycli/fat_io_lib/include/fat_string.h new file mode 100644 index 00000000000..90ca8e052b7 --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_string.h @@ -0,0 +1,20 @@ +#ifndef __FILESTRING_H__ +#define __FILESTRING_H__ + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +int fatfs_total_path_levels(char *path); +int fatfs_get_substring(char *Path, int levelreq, char *output, int max_len); +int fatfs_split_path(char *FullPath, char *Path, int max_path, char *FileName, int max_filename); +int fatfs_compare_names(char* strA, char* strB); +int fatfs_string_ends_with_slash(char *path); +int fatfs_get_sfn_display_name(char* out, char* in); +int fatfs_get_extension(char* filename, char* out, int maxlen); +int fatfs_create_path_string(char* path, char *filename, char* out, int maxlen); + +#ifndef NULL + #define NULL 0 +#endif + +#endif diff --git a/vtoycli/fat_io_lib/include/fat_table.h b/vtoycli/fat_io_lib/include/fat_table.h new file mode 100644 index 00000000000..ead75f322cc --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_table.h @@ -0,0 +1,20 @@ +#ifndef __FAT_TABLE_H__ +#define __FAT_TABLE_H__ + +#include "fat_opts.h" +#include "fat_misc.h" + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +void fatfs_fat_init(struct fatfs *fs); +int fatfs_fat_purge(struct fatfs *fs); +uint32 fatfs_find_next_cluster(struct fatfs *fs, uint32 current_cluster); +void fatfs_set_fs_info_next_free_cluster(struct fatfs *fs, uint32 newValue); +int fatfs_find_blank_cluster(struct fatfs *fs, uint32 start_cluster, uint32 *free_cluster); +int fatfs_fat_set_cluster(struct fatfs *fs, uint32 cluster, uint32 next_cluster); +int fatfs_fat_add_cluster_to_chain(struct fatfs *fs, uint32 start_cluster, uint32 newEntry); +int fatfs_free_cluster_chain(struct fatfs *fs, uint32 start_cluster); +uint32 fatfs_count_free_clusters(struct fatfs *fs); + +#endif diff --git a/vtoycli/fat_io_lib/include/fat_types.h b/vtoycli/fat_io_lib/include/fat_types.h new file mode 100644 index 00000000000..5e2cca8a852 --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_types.h @@ -0,0 +1,69 @@ +#ifndef __FAT_TYPES_H__ +#define __FAT_TYPES_H__ + +// Detect 64-bit compilation on GCC +#if defined(__GNUC__) && defined(__SIZEOF_LONG__) + #if __SIZEOF_LONG__ == 8 + #define FATFS_DEF_UINT32_AS_INT + #endif +#endif + +//------------------------------------------------------------- +// System specific types +//------------------------------------------------------------- +#ifndef FATFS_NO_DEF_TYPES + typedef unsigned char uint8; + typedef unsigned short uint16; + + // If compiling on a 64-bit machine, use int as 32-bits + #ifdef FATFS_DEF_UINT32_AS_INT + typedef unsigned int uint32; + // Else for 32-bit machines & embedded systems, use long... + #else + typedef unsigned long uint32; + #endif +#endif + +#ifndef NULL + #define NULL 0 +#endif + +//------------------------------------------------------------- +// Endian Macros +//------------------------------------------------------------- +// FAT is little endian so big endian systems need to swap words + +// Little Endian - No swap required +#if FATFS_IS_LITTLE_ENDIAN == 1 + + #define FAT_HTONS(n) (n) + #define FAT_HTONL(n) (n) + +// Big Endian - Swap required +#else + + #define FAT_HTONS(n) ((((uint16)((n) & 0xff)) << 8) | (((n) & 0xff00) >> 8)) + #define FAT_HTONL(n) (((((uint32)(n) & 0xFF)) << 24) | \ + ((((uint32)(n) & 0xFF00)) << 8) | \ + ((((uint32)(n) & 0xFF0000)) >> 8) | \ + ((((uint32)(n) & 0xFF000000)) >> 24)) + +#endif + +//------------------------------------------------------------- +// Structure Packing Compile Options +//------------------------------------------------------------- +#ifdef __GNUC__ + #define STRUCT_PACK + #define STRUCT_PACK_BEGIN + #define STRUCT_PACK_END + #define STRUCT_PACKED __attribute__ ((packed)) +#else + // Other compilers may require other methods of packing structures + #define STRUCT_PACK + #define STRUCT_PACK_BEGIN + #define STRUCT_PACK_END + #define STRUCT_PACKED +#endif + +#endif diff --git a/vtoycli/fat_io_lib/include/fat_write.h b/vtoycli/fat_io_lib/include/fat_write.h new file mode 100644 index 00000000000..5558a86e6d1 --- /dev/null +++ b/vtoycli/fat_io_lib/include/fat_write.h @@ -0,0 +1,14 @@ +#ifndef __FAT_WRITE_H__ +#define __FAT_WRITE_H__ + +#include "fat_defs.h" +#include "fat_opts.h" + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +int fatfs_add_file_entry(struct fatfs *fs, uint32 dirCluster, char *filename, char *shortfilename, uint32 startCluster, uint32 size, int dir); +int fatfs_add_free_space(struct fatfs *fs, uint32 *startCluster, uint32 clusters); +int fatfs_allocate_free_space(struct fatfs *fs, int newFile, uint32 *startCluster, uint32 size); + +#endif diff --git a/vtoycli/fat_io_lib/lib/libfat_io_32.a b/vtoycli/fat_io_lib/lib/libfat_io_32.a new file mode 100644 index 00000000000..cd58131a439 Binary files /dev/null and b/vtoycli/fat_io_lib/lib/libfat_io_32.a differ diff --git a/vtoycli/fat_io_lib/lib/libfat_io_64.a b/vtoycli/fat_io_lib/lib/libfat_io_64.a new file mode 100644 index 00000000000..9c06eb5ff59 Binary files /dev/null and b/vtoycli/fat_io_lib/lib/libfat_io_64.a differ diff --git a/vtoycli/fat_io_lib/lib/libfat_io_aa64.a b/vtoycli/fat_io_lib/lib/libfat_io_aa64.a new file mode 100644 index 00000000000..8c1179dc38c Binary files /dev/null and b/vtoycli/fat_io_lib/lib/libfat_io_aa64.a differ diff --git a/vtoycli/fat_io_lib/lib/libfat_io_m64e.a b/vtoycli/fat_io_lib/lib/libfat_io_m64e.a new file mode 100644 index 00000000000..eacfdfe9b67 Binary files /dev/null and b/vtoycli/fat_io_lib/lib/libfat_io_m64e.a differ diff --git a/vtoycli/fat_io_lib/release/API.txt b/vtoycli/fat_io_lib/release/API.txt new file mode 100644 index 00000000000..61fc1647496 --- /dev/null +++ b/vtoycli/fat_io_lib/release/API.txt @@ -0,0 +1,22 @@ +File IO Lib API +-=-=-=-=-=-=-=-=- + +void fl_init(void) + + Called to initialize FAT IO library. + This should be called prior to any other functions. + +void fl_attach_locks(void (*lock)(void), void (*unlock)(void)) + + [Optional] File system thread safety locking functions. + For thread safe operation, you should provide lock() and unlock() functions. + Note that locking primitive used must support recursive locking, i.e lock() called within an already ‘locked’ region. + +int fl_attach_media(fn_diskio_read rd, fn_diskio_write wr) + + This function is used to attach system specific disk/media access functions. + This should be done subsequent to calling fl_init() and fl_attach_locks() (if locking required). + +void fl_shutdown(void) + + Shutdown the FAT IO library. This purges any un-saved data back to disk. diff --git a/vtoycli/fat_io_lib/release/COPYRIGHT.txt b/vtoycli/fat_io_lib/release/COPYRIGHT.txt new file mode 100644 index 00000000000..4335f7fb0ce --- /dev/null +++ b/vtoycli/fat_io_lib/release/COPYRIGHT.txt @@ -0,0 +1,345 @@ + GNU GENERAL PUBLIC LICENSE + Version 2, June 1991 + + Copyright (C) 1989, 1991 Free Software Foundation, Inc. + 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + Everyone is permitted to copy and distribute verbatim copies + of this license document, but changing it is not allowed. + + Preamble + + The licenses for most software are designed to take away your +freedom to share and change it. By contrast, the GNU General Public +License is intended to guarantee your freedom to share and change free +software--to make sure the software is free for all its users. This +General Public License applies to most of the Free Software +Foundation's software and to any other program whose authors commit to +using it. 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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, write to the Free Software + Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA + + +Also add information on how to contact you by electronic and paper mail. + +If the program is interactive, make it output a short notice like this +when it starts in an interactive mode: + + Gnomovision version 69, Copyright (C) year name of author + Gnomovision comes with ABSOLUTELY NO WARRANTY; for details type `show w'. + This is free software, and you are welcome to redistribute it + under certain conditions; type `show c' for details. + +The hypothetical commands `show w' and `show c' should show the appropriate +parts of the General Public License. Of course, the commands you use may +be called something other than `show w' and `show c'; they could even be +mouse-clicks or menu items--whatever suits your program. + +You should also get your employer (if you work as a programmer) or your +school, if any, to sign a "copyright disclaimer" for the program, if +necessary. Here is a sample; alter the names: + + Yoyodyne, Inc., hereby disclaims all copyright interest in the program + `Gnomovision' (which makes passes at compilers) written by James Hacker. + + , 1 April 1989 + Ty Coon, President of Vice + +This General Public License does not permit incorporating your program into +proprietary programs. If your program is a subroutine library, you may +consider it more useful to permit linking proprietary applications with the +library. If this is what you want to do, use the GNU Library General +Public License instead of this License. diff --git a/vtoycli/fat_io_lib/release/Configuration.txt b/vtoycli/fat_io_lib/release/Configuration.txt new file mode 100644 index 00000000000..9ec576e4ce0 --- /dev/null +++ b/vtoycli/fat_io_lib/release/Configuration.txt @@ -0,0 +1,53 @@ +File IO Lib Options +-=-=-=-=-=-=-=-=-=- + +See defines in fat_opts.h: + +FATFS_IS_LITTLE_ENDIAN [1/0] + Which endian is your system? Set to 1 for little endian, 0 for big endian. + +FATFS_MAX_LONG_FILENAME [260] + By default, 260 characters (max LFN length). Increase this to support greater path depths. + +FATFS_MAX_OPEN_FILES + The more files you wish to have concurrently open, the greater this number should be. + This increases the number of FL_FILE file structures in the library, each of these is around 1K in size (assuming 512 byte sectors). + +FAT_BUFFER_SECTORS + Minimum is 1, more increases performance. + This defines how many FAT sectors can be buffered per FAT_BUFFER entry. + +FAT_BUFFERS + Minimum is 1, more increases performance. + This defines how many FAT buffer entries are available. + Memory usage is FAT_BUFFERS * FAT_BUFFER_SECTORS * FAT_SECTOR_SIZE + +FATFS_INC_WRITE_SUPPORT + Support file write functionality. + +FAT_SECTOR_SIZE + Sector size used by buffers. Most likely to be 512 bytes (standard for ATA/IDE). + +FAT_PRINTF + A define that allows the File IO library to print to console/stdout. + Provide your own printf function if printf not available. + +FAT_CLUSTER_CACHE_ENTRIES + Size of cluster chain cache (can be undefined if not required). + Mem used = FAT_CLUSTER_CACHE_ENTRIES * 4 * 2 + Improves access speed considerably. + +FATFS_INC_LFN_SUPPORT [1/0] + Enable/Disable support for long filenames. + +FATFS_DIR_LIST_SUPPORT [1/0] + Include support for directory listing. + +FATFS_INC_TIME_DATE_SUPPORT [1/0] + Use time/date functions provided by time.h to update creation & modification timestamps. + +FATFS_INC_FORMAT_SUPPORT + Include support for formatting disks (FAT16 only). + +FAT_PRINTF_NOINC_STDIO + Disable use of printf & inclusion of stdio.h diff --git a/vtoycli/fat_io_lib/release/History.txt b/vtoycli/fat_io_lib/release/History.txt new file mode 100644 index 00000000000..58958f417c0 --- /dev/null +++ b/vtoycli/fat_io_lib/release/History.txt @@ -0,0 +1,24 @@ +Revision History +-=-=-=-=-=-=-=-=- +v2.6.11 - Fix compilation with GCC on 64-bit machines +v2.6.10 - Added support for FAT32 format. +V2.6.9 - Added support for time & date handling. +V2.6.8 - Fixed error with FSINFO sector write. +V2.6.7 - Added fgets(). + Fixed C warnings, removed dependancy on some string.h functions. +V2.6.6 – Massive read + write performance improvements. +V2.6.5 – Bug fixes for big endian systems. +V2.6.4 – Further bug fixes and performance improvements for write operations. +V2.6.3 – Peformance improvements, FAT16 formatting support. Various bug fixes. +V2.6 - Basic support for FAT16 added (18-04-10). +V2.5 - Code cleaned up. Many bugs fixed. Thread safety functions added. +V2.x - Write support added as well as better stdio like API. +V1.0 - Rewrite of all code to enable multiple files to be opened and provides a + better file API. + Also better string matching, and generally better C code than origonal + version. +V0.1c - Fetch_ID_Max_LBA() function added to retrieve Drive infomation and stoping + the drive reads from addressing a sector that is out of range. +V0.1b - fopen(), fgetc(), fopenDIR() using new software stack for IDE and FAT32 + access. +V0.1a - First release (27/12/03); fopen(), fgetc() unbuffered reads. diff --git a/vtoycli/fat_io_lib/release/License.txt b/vtoycli/fat_io_lib/release/License.txt new file mode 100644 index 00000000000..c7fb0cc7ba6 --- /dev/null +++ b/vtoycli/fat_io_lib/release/License.txt @@ -0,0 +1,10 @@ +FAT File IO Library License +-=-=-=-=-=-=-=-=-=-=-=-=-=- + +This versions license: GPL + +If you include GPL software in your project, you must release the source code of that project too. + +If you would like a version with a more permissive license for use in closed source commercial applications please contact me for details. + +Email: admin@ultra-embedded.com diff --git a/vtoycli/fat_io_lib/release/Media Access API.txt b/vtoycli/fat_io_lib/release/Media Access API.txt new file mode 100644 index 00000000000..45eede0fa68 --- /dev/null +++ b/vtoycli/fat_io_lib/release/Media Access API.txt @@ -0,0 +1,40 @@ +Media Access API +-=-=-=-=-=-=-=-=- + +int media_read(uint32 sector, uint8 *buffer, uint32 sector_count) + +Params: + Sector: 32-bit sector number + Buffer: Target buffer to read n sectors of data into. + Sector_count: Number of sectors to read. + +Return: + int, 1 = success, 0 = failure. + +Description: + Application/target specific disk/media read function. + Sector number (sectors are usually 512 byte pages) to read. + +Media Write API + +int media_write(uint32 sector, uint8 *buffer, uint32 sector_count) + +Params: + Sector: 32-bit sector number + Buffer: Target buffer to write n sectors of data from. + Sector_count: Number of sectors to write. + +Return: + int, 1 = success, 0 = failure. + +Description: + Application/target specific disk/media write function. + Sector number (sectors are usually 512 byte pages) to write to. + +File IO Library Linkage + Use the following API to attach the media IO functions to the File IO library. + + int fl_attach_media(fn_diskio_read rd, fn_diskio_write wr) + + + diff --git a/vtoycli/fat_io_lib/release/example.c b/vtoycli/fat_io_lib/release/example.c new file mode 100644 index 00000000000..5d30e5b6d8e --- /dev/null +++ b/vtoycli/fat_io_lib/release/example.c @@ -0,0 +1,87 @@ +#include +#include "fat_filelib.h" + +int media_init() +{ + // ... + return 1; +} + +int media_read(unsigned long sector, unsigned char *buffer, unsigned long sector_count) +{ + unsigned long i; + + for (i=0;i +#include "fat_defs.h" +#include "fat_access.h" +#include "fat_table.h" +#include "fat_write.h" +#include "fat_string.h" +#include "fat_misc.h" + +//----------------------------------------------------------------------------- +// fatfs_init: Load FAT Parameters +//----------------------------------------------------------------------------- +int fatfs_init(struct fatfs *fs) +{ + uint8 num_of_fats; + uint16 reserved_sectors; + uint32 FATSz; + uint32 root_dir_sectors; + uint32 total_sectors; + uint32 data_sectors; + uint32 count_of_clusters; + uint8 valid_partition = 0; + + fs->currentsector.address = FAT32_INVALID_CLUSTER; + fs->currentsector.dirty = 0; + + fs->next_free_cluster = 0; // Invalid + + fatfs_fat_init(fs); + + // Make sure we have a read function (write function is optional) + if (!fs->disk_io.read_media) + return FAT_INIT_MEDIA_ACCESS_ERROR; + + // MBR: Sector 0 on the disk + // NOTE: Some removeable media does not have this. + + // Load MBR (LBA 0) into the 512 byte buffer + if (!fs->disk_io.read_media(0, fs->currentsector.sector, 1)) + return FAT_INIT_MEDIA_ACCESS_ERROR; + + // Make Sure 0x55 and 0xAA are at end of sector + // (this should be the case regardless of the MBR or boot sector) + if (fs->currentsector.sector[SIGNATURE_POSITION] != 0x55 || fs->currentsector.sector[SIGNATURE_POSITION+1] != 0xAA) + return FAT_INIT_INVALID_SIGNATURE; + + // Now check again using the access function to prove endian conversion function + if (GET_16BIT_WORD(fs->currentsector.sector, SIGNATURE_POSITION) != SIGNATURE_VALUE) + return FAT_INIT_ENDIAN_ERROR; + + // Verify packed structures + if (sizeof(struct fat_dir_entry) != FAT_DIR_ENTRY_SIZE) + return FAT_INIT_STRUCT_PACKING; + + // Check the partition type code + switch(fs->currentsector.sector[PARTITION1_TYPECODE_LOCATION]) + { + case 0x0B: + case 0x06: + case 0x0C: + case 0x0E: + case 0x0F: + case 0x05: + valid_partition = 1; + break; + case 0x00: + valid_partition = 0; + break; + default: + if (fs->currentsector.sector[PARTITION1_TYPECODE_LOCATION] <= 0x06) + valid_partition = 1; + break; + } + + // Read LBA Begin for the file system + if (valid_partition) + fs->lba_begin = GET_32BIT_WORD(fs->currentsector.sector, PARTITION1_LBA_BEGIN_LOCATION); + // Else possibly MBR less disk + else + fs->lba_begin = 0; + + // Load Volume 1 table into sector buffer + // (We may already have this in the buffer if MBR less drive!) + if (!fs->disk_io.read_media(fs->lba_begin, fs->currentsector.sector, 1)) + return FAT_INIT_MEDIA_ACCESS_ERROR; + + // Make sure there are 512 bytes per cluster + if (GET_16BIT_WORD(fs->currentsector.sector, 0x0B) != FAT_SECTOR_SIZE) + return FAT_INIT_INVALID_SECTOR_SIZE; + + // Load Parameters of FAT partition + fs->sectors_per_cluster = fs->currentsector.sector[BPB_SECPERCLUS]; + reserved_sectors = GET_16BIT_WORD(fs->currentsector.sector, BPB_RSVDSECCNT); + num_of_fats = fs->currentsector.sector[BPB_NUMFATS]; + fs->root_entry_count = GET_16BIT_WORD(fs->currentsector.sector, BPB_ROOTENTCNT); + + if(GET_16BIT_WORD(fs->currentsector.sector, BPB_FATSZ16) != 0) + fs->fat_sectors = GET_16BIT_WORD(fs->currentsector.sector, BPB_FATSZ16); + else + fs->fat_sectors = GET_32BIT_WORD(fs->currentsector.sector, BPB_FAT32_FATSZ32); + + // For FAT32 (which this may be) + fs->rootdir_first_cluster = GET_32BIT_WORD(fs->currentsector.sector, BPB_FAT32_ROOTCLUS); + fs->fs_info_sector = GET_16BIT_WORD(fs->currentsector.sector, BPB_FAT32_FSINFO); + + // For FAT16 (which this may be), rootdir_first_cluster is actuall rootdir_first_sector + fs->rootdir_first_sector = reserved_sectors + (num_of_fats * fs->fat_sectors); + fs->rootdir_sectors = ((fs->root_entry_count * 32) + (FAT_SECTOR_SIZE - 1)) / FAT_SECTOR_SIZE; + + // First FAT LBA address + fs->fat_begin_lba = fs->lba_begin + reserved_sectors; + + // The address of the first data cluster on this volume + fs->cluster_begin_lba = fs->fat_begin_lba + (num_of_fats * fs->fat_sectors); + + if (GET_16BIT_WORD(fs->currentsector.sector, 0x1FE) != 0xAA55) // This signature should be AA55 + return FAT_INIT_INVALID_SIGNATURE; + + // Calculate the root dir sectors + root_dir_sectors = ((GET_16BIT_WORD(fs->currentsector.sector, BPB_ROOTENTCNT) * 32) + (GET_16BIT_WORD(fs->currentsector.sector, BPB_BYTSPERSEC) - 1)) / GET_16BIT_WORD(fs->currentsector.sector, BPB_BYTSPERSEC); + + if(GET_16BIT_WORD(fs->currentsector.sector, BPB_FATSZ16) != 0) + FATSz = GET_16BIT_WORD(fs->currentsector.sector, BPB_FATSZ16); + else + FATSz = GET_32BIT_WORD(fs->currentsector.sector, BPB_FAT32_FATSZ32); + + if(GET_16BIT_WORD(fs->currentsector.sector, BPB_TOTSEC16) != 0) + total_sectors = GET_16BIT_WORD(fs->currentsector.sector, BPB_TOTSEC16); + else + total_sectors = GET_32BIT_WORD(fs->currentsector.sector, BPB_TOTSEC32); + + data_sectors = total_sectors - (GET_16BIT_WORD(fs->currentsector.sector, BPB_RSVDSECCNT) + (fs->currentsector.sector[BPB_NUMFATS] * FATSz) + root_dir_sectors); + + // Find out which version of FAT this is... + if (fs->sectors_per_cluster != 0) + { + count_of_clusters = data_sectors / fs->sectors_per_cluster; + + if(count_of_clusters < 4085) + // Volume is FAT12 + return FAT_INIT_WRONG_FILESYS_TYPE; + else if(count_of_clusters < 65525) + { + // Clear this FAT32 specific param + fs->rootdir_first_cluster = 0; + + // Volume is FAT16 + fs->fat_type = FAT_TYPE_16; + return FAT_INIT_OK; + } + else + { + // Volume is FAT32 + fs->fat_type = FAT_TYPE_32; + return FAT_INIT_OK; + } + } + else + return FAT_INIT_WRONG_FILESYS_TYPE; +} +//----------------------------------------------------------------------------- +// fatfs_lba_of_cluster: This function converts a cluster number into a sector / +// LBA number. +//----------------------------------------------------------------------------- +uint32 fatfs_lba_of_cluster(struct fatfs *fs, uint32 Cluster_Number) +{ + if (fs->fat_type == FAT_TYPE_16) + return (fs->cluster_begin_lba + (fs->root_entry_count * 32 / FAT_SECTOR_SIZE) + ((Cluster_Number-2) * fs->sectors_per_cluster)); + else + return ((fs->cluster_begin_lba + ((Cluster_Number-2)*fs->sectors_per_cluster))); +} +//----------------------------------------------------------------------------- +// fatfs_sector_read: +//----------------------------------------------------------------------------- +int fatfs_sector_read(struct fatfs *fs, uint32 lba, uint8 *target, uint32 count) +{ + return fs->disk_io.read_media(lba, target, count); +} +//----------------------------------------------------------------------------- +// fatfs_sector_write: +//----------------------------------------------------------------------------- +int fatfs_sector_write(struct fatfs *fs, uint32 lba, uint8 *target, uint32 count) +{ + return fs->disk_io.write_media(lba, target, count); +} +//----------------------------------------------------------------------------- +// fatfs_sector_reader: From the provided startcluster and sector offset +// Returns True if success, returns False if not (including if read out of range) +//----------------------------------------------------------------------------- +int fatfs_sector_reader(struct fatfs *fs, uint32 start_cluster, uint32 offset, uint8 *target) +{ + uint32 sector_to_read = 0; + uint32 cluster_to_read = 0; + uint32 cluster_chain = 0; + uint32 i; + uint32 lba; + + // FAT16 Root directory + if (fs->fat_type == FAT_TYPE_16 && start_cluster == 0) + { + if (offset < fs->rootdir_sectors) + lba = fs->lba_begin + fs->rootdir_first_sector + offset; + else + return 0; + } + // FAT16/32 Other + else + { + // Set start of cluster chain to initial value + cluster_chain = start_cluster; + + // Find parameters + cluster_to_read = offset / fs->sectors_per_cluster; + sector_to_read = offset - (cluster_to_read*fs->sectors_per_cluster); + + // Follow chain to find cluster to read + for (i=0; idisk_io.read_media(lba, target, 1); + // Else read sector if not already loaded + else if (lba != fs->currentsector.address) + { + fs->currentsector.address = lba; + return fs->disk_io.read_media(fs->currentsector.address, fs->currentsector.sector, 1); + } + else + return 1; +} +//----------------------------------------------------------------------------- +// fatfs_read_sector: Read from the provided cluster and sector offset +// Returns True if success, returns False if not +//----------------------------------------------------------------------------- +int fatfs_read_sector(struct fatfs *fs, uint32 cluster, uint32 sector, uint8 *target) +{ + // FAT16 Root directory + if (fs->fat_type == FAT_TYPE_16 && cluster == 0) + { + uint32 lba; + + // In FAT16, there are a limited amount of sectors in root dir! + if (sector < fs->rootdir_sectors) + lba = fs->lba_begin + fs->rootdir_first_sector + sector; + else + return 0; + + // User target buffer passed in + if (target) + { + // Read from disk + return fs->disk_io.read_media(lba, target, 1); + } + else + { + // Calculate read address + fs->currentsector.address = lba; + + // Read from disk + return fs->disk_io.read_media(fs->currentsector.address, fs->currentsector.sector, 1); + } + } + // FAT16/32 Other + else + { + // User target buffer passed in + if (target) + { + // Calculate read address + uint32 lba = fatfs_lba_of_cluster(fs, cluster) + sector; + + // Read from disk + return fs->disk_io.read_media(lba, target, 1); + } + else + { + // Calculate write address + fs->currentsector.address = fatfs_lba_of_cluster(fs, cluster)+sector; + + // Read from disk + return fs->disk_io.read_media(fs->currentsector.address, fs->currentsector.sector, 1); + } + } +} +//----------------------------------------------------------------------------- +// fatfs_write_sector: Write to the provided cluster and sector offset +// Returns True if success, returns False if not +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fatfs_write_sector(struct fatfs *fs, uint32 cluster, uint32 sector, uint8 *target) +{ + // No write access? + if (!fs->disk_io.write_media) + return 0; + + // FAT16 Root directory + if (fs->fat_type == FAT_TYPE_16 && cluster == 0) + { + uint32 lba; + + // In FAT16 we cannot extend the root dir! + if (sector < fs->rootdir_sectors) + lba = fs->lba_begin + fs->rootdir_first_sector + sector; + else + return 0; + + // User target buffer passed in + if (target) + { + // Write to disk + return fs->disk_io.write_media(lba, target, 1); + } + else + { + // Calculate write address + fs->currentsector.address = lba; + + // Write to disk + return fs->disk_io.write_media(fs->currentsector.address, fs->currentsector.sector, 1); + } + } + // FAT16/32 Other + else + { + // User target buffer passed in + if (target) + { + // Calculate write address + uint32 lba = fatfs_lba_of_cluster(fs, cluster) + sector; + + // Write to disk + return fs->disk_io.write_media(lba, target, 1); + } + else + { + // Calculate write address + fs->currentsector.address = fatfs_lba_of_cluster(fs, cluster)+sector; + + // Write to disk + return fs->disk_io.write_media(fs->currentsector.address, fs->currentsector.sector, 1); + } + } +} +#endif +//----------------------------------------------------------------------------- +// fatfs_show_details: Show the details about the filesystem +//----------------------------------------------------------------------------- +void fatfs_show_details(struct fatfs *fs) +{ + FAT_PRINTF(("FAT details:\r\n")); + FAT_PRINTF((" Type =%s", (fs->fat_type == FAT_TYPE_32) ? "FAT32": "FAT16")); + FAT_PRINTF((" Root Dir First Cluster = %x\r\n", fs->rootdir_first_cluster)); + FAT_PRINTF((" FAT Begin LBA = 0x%x\r\n",fs->fat_begin_lba)); + FAT_PRINTF((" Cluster Begin LBA = 0x%x\r\n",fs->cluster_begin_lba)); + FAT_PRINTF((" Sectors Per Cluster = %d\r\n", fs->sectors_per_cluster)); +} +//----------------------------------------------------------------------------- +// fatfs_get_root_cluster: Get the root dir cluster +//----------------------------------------------------------------------------- +uint32 fatfs_get_root_cluster(struct fatfs *fs) +{ + // NOTE: On FAT16 this will be 0 which has a special meaning... + return fs->rootdir_first_cluster; +} +//------------------------------------------------------------- +// fatfs_get_file_entry: Find the file entry for a filename +//------------------------------------------------------------- +uint32 fatfs_get_file_entry(struct fatfs *fs, uint32 Cluster, char *name_to_find, struct fat_dir_entry *sfEntry) +{ + uint8 item=0; + uint16 recordoffset = 0; + uint8 i=0; + int x=0; + char *long_filename = NULL; + char short_filename[13]; + struct lfn_cache lfn; + int dotRequired = 0; + struct fat_dir_entry *directoryEntry; + + fatfs_lfn_cache_init(&lfn, 1); + + // Main cluster following loop + while (1) + { + // Read sector + if (fatfs_sector_reader(fs, Cluster, x++, 0)) // If sector read was successfull + { + // Analyse Sector + for (item = 0; item < FAT_DIR_ENTRIES_PER_SECTOR; item++) + { + // Create the multiplier for sector access + recordoffset = FAT_DIR_ENTRY_SIZE * item; + + // Overlay directory entry over buffer + directoryEntry = (struct fat_dir_entry*)(fs->currentsector.sector+recordoffset); + +#if FATFS_INC_LFN_SUPPORT + // Long File Name Text Found + if (fatfs_entry_lfn_text(directoryEntry) ) + fatfs_lfn_cache_entry(&lfn, fs->currentsector.sector+recordoffset); + + // If Invalid record found delete any long file name information collated + else if (fatfs_entry_lfn_invalid(directoryEntry) ) + fatfs_lfn_cache_init(&lfn, 0); + + // Normal SFN Entry and Long text exists + else if (fatfs_entry_lfn_exists(&lfn, directoryEntry) ) + { + long_filename = fatfs_lfn_cache_get(&lfn); + + // Compare names to see if they match + if (fatfs_compare_names(long_filename, name_to_find)) + { + memcpy(sfEntry,directoryEntry,sizeof(struct fat_dir_entry)); + return 1; + } + + fatfs_lfn_cache_init(&lfn, 0); + } + else +#endif + // Normal Entry, only 8.3 Text + if (fatfs_entry_sfn_only(directoryEntry) ) + { + memset(short_filename, 0, sizeof(short_filename)); + + // Copy name to string + for (i=0; i<8; i++) + short_filename[i] = directoryEntry->Name[i]; + + // Extension + dotRequired = 0; + for (i=8; i<11; i++) + { + short_filename[i+1] = directoryEntry->Name[i]; + if (directoryEntry->Name[i] != ' ') + dotRequired = 1; + } + + // Dot only required if extension present + if (dotRequired) + { + // If not . or .. entry + if (short_filename[0]!='.') + short_filename[8] = '.'; + else + short_filename[8] = ' '; + } + else + short_filename[8] = ' '; + + // Compare names to see if they match + if (fatfs_compare_names(short_filename, name_to_find)) + { + memcpy(sfEntry,directoryEntry,sizeof(struct fat_dir_entry)); + return 1; + } + + fatfs_lfn_cache_init(&lfn, 0); + } + } // End of if + } + else + break; + } // End of while loop + + return 0; +} +//------------------------------------------------------------- +// fatfs_sfn_exists: Check if a short filename exists. +// NOTE: shortname is XXXXXXXXYYY not XXXXXXXX.YYY +//------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fatfs_sfn_exists(struct fatfs *fs, uint32 Cluster, char *shortname) +{ + uint8 item=0; + uint16 recordoffset = 0; + int x=0; + struct fat_dir_entry *directoryEntry; + + // Main cluster following loop + while (1) + { + // Read sector + if (fatfs_sector_reader(fs, Cluster, x++, 0)) // If sector read was successfull + { + // Analyse Sector + for (item = 0; item < FAT_DIR_ENTRIES_PER_SECTOR; item++) + { + // Create the multiplier for sector access + recordoffset = FAT_DIR_ENTRY_SIZE * item; + + // Overlay directory entry over buffer + directoryEntry = (struct fat_dir_entry*)(fs->currentsector.sector+recordoffset); + +#if FATFS_INC_LFN_SUPPORT + // Long File Name Text Found + if (fatfs_entry_lfn_text(directoryEntry) ) + ; + + // If Invalid record found delete any long file name information collated + else if (fatfs_entry_lfn_invalid(directoryEntry) ) + ; + else +#endif + // Normal Entry, only 8.3 Text + if (fatfs_entry_sfn_only(directoryEntry) ) + { + if (strncmp((const char*)directoryEntry->Name, shortname, 11)==0) + return 1; + } + } // End of if + } + else + break; + } // End of while loop + + return 0; +} +#endif +//------------------------------------------------------------- +// fatfs_update_timestamps: Update date/time details +//------------------------------------------------------------- +#if FATFS_INC_TIME_DATE_SUPPORT +int fatfs_update_timestamps(struct fat_dir_entry *directoryEntry, int create, int modify, int access) +{ + time_t time_now; + struct tm * time_info; + uint16 fat_time; + uint16 fat_date; + + // Get system time + time(&time_now); + + // Convert to local time + time_info = localtime(&time_now); + + // Convert time to FAT format + fat_time = fatfs_convert_to_fat_time(time_info->tm_hour, time_info->tm_min, time_info->tm_sec); + + // Convert date to FAT format + fat_date = fatfs_convert_to_fat_date(time_info->tm_mday, time_info->tm_mon + 1, time_info->tm_year + 1900); + + // Update requested fields + if (create) + { + directoryEntry->CrtTime[1] = fat_time >> 8; + directoryEntry->CrtTime[0] = fat_time >> 0; + directoryEntry->CrtDate[1] = fat_date >> 8; + directoryEntry->CrtDate[0] = fat_date >> 0; + } + + if (modify) + { + directoryEntry->WrtTime[1] = fat_time >> 8; + directoryEntry->WrtTime[0] = fat_time >> 0; + directoryEntry->WrtDate[1] = fat_date >> 8; + directoryEntry->WrtDate[0] = fat_date >> 0; + } + + if (access) + { + directoryEntry->LstAccDate[1] = fat_time >> 8; + directoryEntry->LstAccDate[0] = fat_time >> 0; + directoryEntry->LstAccDate[1] = fat_date >> 8; + directoryEntry->LstAccDate[0] = fat_date >> 0; + } + + return 1; +} +#endif +//------------------------------------------------------------- +// fatfs_update_file_length: Find a SFN entry and update it +// NOTE: shortname is XXXXXXXXYYY not XXXXXXXX.YYY +//------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fatfs_update_file_length(struct fatfs *fs, uint32 Cluster, char *shortname, uint32 fileLength) +{ + uint8 item=0; + uint16 recordoffset = 0; + int x=0; + struct fat_dir_entry *directoryEntry; + + // No write access? + if (!fs->disk_io.write_media) + return 0; + + // Main cluster following loop + while (1) + { + // Read sector + if (fatfs_sector_reader(fs, Cluster, x++, 0)) // If sector read was successfull + { + // Analyse Sector + for (item = 0; item < FAT_DIR_ENTRIES_PER_SECTOR; item++) + { + // Create the multiplier for sector access + recordoffset = FAT_DIR_ENTRY_SIZE * item; + + // Overlay directory entry over buffer + directoryEntry = (struct fat_dir_entry*)(fs->currentsector.sector+recordoffset); + +#if FATFS_INC_LFN_SUPPORT + // Long File Name Text Found + if (fatfs_entry_lfn_text(directoryEntry) ) + ; + + // If Invalid record found delete any long file name information collated + else if (fatfs_entry_lfn_invalid(directoryEntry) ) + ; + + // Normal Entry, only 8.3 Text + else +#endif + if (fatfs_entry_sfn_only(directoryEntry) ) + { + if (strncmp((const char*)directoryEntry->Name, shortname, 11)==0) + { + directoryEntry->FileSize = FAT_HTONL(fileLength); + +#if FATFS_INC_TIME_DATE_SUPPORT + // Update access / modify time & date + fatfs_update_timestamps(directoryEntry, 0, 1, 1); +#endif + + // Update sfn entry + memcpy((uint8*)(fs->currentsector.sector+recordoffset), (uint8*)directoryEntry, sizeof(struct fat_dir_entry)); + + // Write sector back + return fs->disk_io.write_media(fs->currentsector.address, fs->currentsector.sector, 1); + } + } + } // End of if + } + else + break; + } // End of while loop + + return 0; +} +#endif +//------------------------------------------------------------- +// fatfs_mark_file_deleted: Find a SFN entry and mark if as deleted +// NOTE: shortname is XXXXXXXXYYY not XXXXXXXX.YYY +//------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fatfs_mark_file_deleted(struct fatfs *fs, uint32 Cluster, char *shortname) +{ + uint8 item=0; + uint16 recordoffset = 0; + int x=0; + struct fat_dir_entry *directoryEntry; + + // No write access? + if (!fs->disk_io.write_media) + return 0; + + // Main cluster following loop + while (1) + { + // Read sector + if (fatfs_sector_reader(fs, Cluster, x++, 0)) // If sector read was successfull + { + // Analyse Sector + for (item = 0; item < FAT_DIR_ENTRIES_PER_SECTOR; item++) + { + // Create the multiplier for sector access + recordoffset = FAT_DIR_ENTRY_SIZE * item; + + // Overlay directory entry over buffer + directoryEntry = (struct fat_dir_entry*)(fs->currentsector.sector+recordoffset); + +#if FATFS_INC_LFN_SUPPORT + // Long File Name Text Found + if (fatfs_entry_lfn_text(directoryEntry) ) + ; + + // If Invalid record found delete any long file name information collated + else if (fatfs_entry_lfn_invalid(directoryEntry) ) + ; + + // Normal Entry, only 8.3 Text + else +#endif + if (fatfs_entry_sfn_only(directoryEntry) ) + { + if (strncmp((const char *)directoryEntry->Name, shortname, 11)==0) + { + // Mark as deleted + directoryEntry->Name[0] = FILE_HEADER_DELETED; + +#if FATFS_INC_TIME_DATE_SUPPORT + // Update access / modify time & date + fatfs_update_timestamps(directoryEntry, 0, 1, 1); +#endif + + // Update sfn entry + memcpy((uint8*)(fs->currentsector.sector+recordoffset), (uint8*)directoryEntry, sizeof(struct fat_dir_entry)); + + // Write sector back + return fs->disk_io.write_media(fs->currentsector.address, fs->currentsector.sector, 1); + } + } + } // End of if + } + else + break; + } // End of while loop + + return 0; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_list_directory_start: Initialise a directory listing procedure +//----------------------------------------------------------------------------- +#if FATFS_DIR_LIST_SUPPORT +void fatfs_list_directory_start(struct fatfs *fs, struct fs_dir_list_status *dirls, uint32 StartCluster) +{ + dirls->cluster = StartCluster; + dirls->sector = 0; + dirls->offset = 0; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_list_directory_next: Get the next entry in the directory. +// Returns: 1 = found, 0 = end of listing +//----------------------------------------------------------------------------- +#if FATFS_DIR_LIST_SUPPORT +int fatfs_list_directory_next(struct fatfs *fs, struct fs_dir_list_status *dirls, struct fs_dir_ent *entry) +{ + uint8 i,item; + uint16 recordoffset; + struct fat_dir_entry *directoryEntry; + char *long_filename = NULL; + char short_filename[13]; + struct lfn_cache lfn; + int dotRequired = 0; + int result = 0; + + // Initialise LFN cache first + fatfs_lfn_cache_init(&lfn, 0); + + while (1) + { + // If data read OK + if (fatfs_sector_reader(fs, dirls->cluster, dirls->sector, 0)) + { + // Maximum of 16 directory entries + for (item = dirls->offset; item < FAT_DIR_ENTRIES_PER_SECTOR; item++) + { + // Increase directory offset + recordoffset = FAT_DIR_ENTRY_SIZE * item; + + // Overlay directory entry over buffer + directoryEntry = (struct fat_dir_entry*)(fs->currentsector.sector+recordoffset); + +#if FATFS_INC_LFN_SUPPORT + // Long File Name Text Found + if ( fatfs_entry_lfn_text(directoryEntry) ) + fatfs_lfn_cache_entry(&lfn, fs->currentsector.sector+recordoffset); + + // If Invalid record found delete any long file name information collated + else if ( fatfs_entry_lfn_invalid(directoryEntry) ) + fatfs_lfn_cache_init(&lfn, 0); + + // Normal SFN Entry and Long text exists + else if (fatfs_entry_lfn_exists(&lfn, directoryEntry) ) + { + // Get text + long_filename = fatfs_lfn_cache_get(&lfn); + strncpy(entry->filename, long_filename, FATFS_MAX_LONG_FILENAME-1); + + if (fatfs_entry_is_dir(directoryEntry)) + entry->is_dir = 1; + else + entry->is_dir = 0; + +#if FATFS_INC_TIME_DATE_SUPPORT + // Get time / dates + entry->create_time = ((uint16)directoryEntry->CrtTime[1] << 8) | directoryEntry->CrtTime[0]; + entry->create_date = ((uint16)directoryEntry->CrtDate[1] << 8) | directoryEntry->CrtDate[0]; + entry->access_date = ((uint16)directoryEntry->LstAccDate[1] << 8) | directoryEntry->LstAccDate[0]; + entry->write_time = ((uint16)directoryEntry->WrtTime[1] << 8) | directoryEntry->WrtTime[0]; + entry->write_date = ((uint16)directoryEntry->WrtDate[1] << 8) | directoryEntry->WrtDate[0]; +#endif + + entry->size = FAT_HTONL(directoryEntry->FileSize); + entry->cluster = (FAT_HTONS(directoryEntry->FstClusHI)<<16) | FAT_HTONS(directoryEntry->FstClusLO); + + // Next starting position + dirls->offset = item + 1; + result = 1; + return 1; + } + // Normal Entry, only 8.3 Text + else +#endif + if ( fatfs_entry_sfn_only(directoryEntry) ) + { + fatfs_lfn_cache_init(&lfn, 0); + + memset(short_filename, 0, sizeof(short_filename)); + + // Copy name to string + for (i=0; i<8; i++) + short_filename[i] = directoryEntry->Name[i]; + + // Extension + dotRequired = 0; + for (i=8; i<11; i++) + { + short_filename[i+1] = directoryEntry->Name[i]; + if (directoryEntry->Name[i] != ' ') + dotRequired = 1; + } + + // Dot only required if extension present + if (dotRequired) + { + // If not . or .. entry + if (short_filename[0]!='.') + short_filename[8] = '.'; + else + short_filename[8] = ' '; + } + else + short_filename[8] = ' '; + + fatfs_get_sfn_display_name(entry->filename, short_filename); + + if (fatfs_entry_is_dir(directoryEntry)) + entry->is_dir = 1; + else + entry->is_dir = 0; + +#if FATFS_INC_TIME_DATE_SUPPORT + // Get time / dates + entry->create_time = ((uint16)directoryEntry->CrtTime[1] << 8) | directoryEntry->CrtTime[0]; + entry->create_date = ((uint16)directoryEntry->CrtDate[1] << 8) | directoryEntry->CrtDate[0]; + entry->access_date = ((uint16)directoryEntry->LstAccDate[1] << 8) | directoryEntry->LstAccDate[0]; + entry->write_time = ((uint16)directoryEntry->WrtTime[1] << 8) | directoryEntry->WrtTime[0]; + entry->write_date = ((uint16)directoryEntry->WrtDate[1] << 8) | directoryEntry->WrtDate[0]; +#endif + + entry->size = FAT_HTONL(directoryEntry->FileSize); + entry->cluster = (FAT_HTONS(directoryEntry->FstClusHI)<<16) | FAT_HTONS(directoryEntry->FstClusLO); + + // Next starting position + dirls->offset = item + 1; + result = 1; + return 1; + } + }// end of for + + // If reached end of the dir move onto next sector + dirls->sector++; + dirls->offset = 0; + } + else + break; + } + + return result; +} +#endif diff --git a/vtoycli/fat_io_lib/release/fat_access.h b/vtoycli/fat_io_lib/release/fat_access.h new file mode 100644 index 00000000000..175238785a4 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_access.h @@ -0,0 +1,133 @@ +#ifndef __FAT_ACCESS_H__ +#define __FAT_ACCESS_H__ + +#include "fat_defs.h" +#include "fat_opts.h" + +//----------------------------------------------------------------------------- +// Defines +//----------------------------------------------------------------------------- +#define FAT_INIT_OK 0 +#define FAT_INIT_MEDIA_ACCESS_ERROR (-1) +#define FAT_INIT_INVALID_SECTOR_SIZE (-2) +#define FAT_INIT_INVALID_SIGNATURE (-3) +#define FAT_INIT_ENDIAN_ERROR (-4) +#define FAT_INIT_WRONG_FILESYS_TYPE (-5) +#define FAT_INIT_WRONG_PARTITION_TYPE (-6) +#define FAT_INIT_STRUCT_PACKING (-7) + +#define FAT_DIR_ENTRIES_PER_SECTOR (FAT_SECTOR_SIZE / FAT_DIR_ENTRY_SIZE) + +//----------------------------------------------------------------------------- +// Function Pointers +//----------------------------------------------------------------------------- +typedef int (*fn_diskio_read) (uint32 sector, uint8 *buffer, uint32 sector_count); +typedef int (*fn_diskio_write)(uint32 sector, uint8 *buffer, uint32 sector_count); + +//----------------------------------------------------------------------------- +// Structures +//----------------------------------------------------------------------------- +struct disk_if +{ + // User supplied function pointers for disk IO + fn_diskio_read read_media; + fn_diskio_write write_media; +}; + +// Forward declaration +struct fat_buffer; + +struct fat_buffer +{ + uint8 sector[FAT_SECTOR_SIZE * FAT_BUFFER_SECTORS]; + uint32 address; + int dirty; + uint8 * ptr; + + // Next in chain of sector buffers + struct fat_buffer *next; +}; + +typedef enum eFatType +{ + FAT_TYPE_16, + FAT_TYPE_32 +} tFatType; + +struct fatfs +{ + // Filesystem globals + uint8 sectors_per_cluster; + uint32 cluster_begin_lba; + uint32 rootdir_first_cluster; + uint32 rootdir_first_sector; + uint32 rootdir_sectors; + uint32 fat_begin_lba; + uint16 fs_info_sector; + uint32 lba_begin; + uint32 fat_sectors; + uint32 next_free_cluster; + uint16 root_entry_count; + uint16 reserved_sectors; + uint8 num_of_fats; + tFatType fat_type; + + // Disk/Media API + struct disk_if disk_io; + + // [Optional] Thread Safety + void (*fl_lock)(void); + void (*fl_unlock)(void); + + // Working buffer + struct fat_buffer currentsector; + + // FAT Buffer + struct fat_buffer *fat_buffer_head; + struct fat_buffer fat_buffers[FAT_BUFFERS]; +}; + +struct fs_dir_list_status +{ + uint32 sector; + uint32 cluster; + uint8 offset; +}; + +struct fs_dir_ent +{ + char filename[FATFS_MAX_LONG_FILENAME]; + uint8 is_dir; + uint32 cluster; + uint32 size; + +#if FATFS_INC_TIME_DATE_SUPPORT + uint16 access_date; + uint16 write_time; + uint16 write_date; + uint16 create_date; + uint16 create_time; +#endif +}; + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +int fatfs_init(struct fatfs *fs); +uint32 fatfs_lba_of_cluster(struct fatfs *fs, uint32 Cluster_Number); +int fatfs_sector_reader(struct fatfs *fs, uint32 Startcluster, uint32 offset, uint8 *target); +int fatfs_sector_read(struct fatfs *fs, uint32 lba, uint8 *target, uint32 count); +int fatfs_sector_write(struct fatfs *fs, uint32 lba, uint8 *target, uint32 count); +int fatfs_read_sector(struct fatfs *fs, uint32 cluster, uint32 sector, uint8 *target); +int fatfs_write_sector(struct fatfs *fs, uint32 cluster, uint32 sector, uint8 *target); +void fatfs_show_details(struct fatfs *fs); +uint32 fatfs_get_root_cluster(struct fatfs *fs); +uint32 fatfs_get_file_entry(struct fatfs *fs, uint32 Cluster, char *nametofind, struct fat_dir_entry *sfEntry); +int fatfs_sfn_exists(struct fatfs *fs, uint32 Cluster, char *shortname); +int fatfs_update_file_length(struct fatfs *fs, uint32 Cluster, char *shortname, uint32 fileLength); +int fatfs_mark_file_deleted(struct fatfs *fs, uint32 Cluster, char *shortname); +void fatfs_list_directory_start(struct fatfs *fs, struct fs_dir_list_status *dirls, uint32 StartCluster); +int fatfs_list_directory_next(struct fatfs *fs, struct fs_dir_list_status *dirls, struct fs_dir_ent *entry); +int fatfs_update_timestamps(struct fat_dir_entry *directoryEntry, int create, int modify, int access); + +#endif diff --git a/vtoycli/fat_io_lib/release/fat_cache.c b/vtoycli/fat_io_lib/release/fat_cache.c new file mode 100644 index 00000000000..de77e6a0651 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_cache.c @@ -0,0 +1,91 @@ +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +// FAT16/32 File IO Library +// V2.6 +// Ultra-Embedded.com +// Copyright 2003 - 2012 +// +// Email: admin@ultra-embedded.com +// +// License: GPL +// If you would like a version with a more permissive license for use in +// closed source commercial applications please contact me for details. +//----------------------------------------------------------------------------- +// +// This file is part of FAT File IO Library. +// +// FAT File IO Library 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. +// +// FAT File IO Library 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 FAT File IO Library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +#include +#include "fat_cache.h" + +// Per file cluster chain caching used to improve performance. +// This does not have to be enabled for architectures with low +// memory space. + +//----------------------------------------------------------------------------- +// fatfs_cache_init: +//----------------------------------------------------------------------------- +int fatfs_cache_init(struct fatfs *fs, FL_FILE *file) +{ +#ifdef FAT_CLUSTER_CACHE_ENTRIES + int i; + + for (i=0;icluster_cache_idx[i] = 0xFFFFFFFF; // Not used + file->cluster_cache_data[i] = 0; + } +#endif + + return 1; +} +//----------------------------------------------------------------------------- +// fatfs_cache_get_next_cluster: +//----------------------------------------------------------------------------- +int fatfs_cache_get_next_cluster(struct fatfs *fs, FL_FILE *file, uint32 clusterIdx, uint32 *pNextCluster) +{ +#ifdef FAT_CLUSTER_CACHE_ENTRIES + uint32 slot = clusterIdx % FAT_CLUSTER_CACHE_ENTRIES; + + if (file->cluster_cache_idx[slot] == clusterIdx) + { + *pNextCluster = file->cluster_cache_data[slot]; + return 1; + } +#endif + + return 0; +} +//----------------------------------------------------------------------------- +// fatfs_cache_set_next_cluster: +//----------------------------------------------------------------------------- +int fatfs_cache_set_next_cluster(struct fatfs *fs, FL_FILE *file, uint32 clusterIdx, uint32 nextCluster) +{ +#ifdef FAT_CLUSTER_CACHE_ENTRIES + uint32 slot = clusterIdx % FAT_CLUSTER_CACHE_ENTRIES; + + if (file->cluster_cache_idx[slot] == clusterIdx) + file->cluster_cache_data[slot] = nextCluster; + else + { + file->cluster_cache_idx[slot] = clusterIdx; + file->cluster_cache_data[slot] = nextCluster; + } +#endif + + return 1; +} diff --git a/vtoycli/fat_io_lib/release/fat_cache.h b/vtoycli/fat_io_lib/release/fat_cache.h new file mode 100644 index 00000000000..348d5d38408 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_cache.h @@ -0,0 +1,13 @@ +#ifndef __FAT_CACHE_H__ +#define __FAT_CACHE_H__ + +#include "fat_filelib.h" + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +int fatfs_cache_init(struct fatfs *fs, FL_FILE *file); +int fatfs_cache_get_next_cluster(struct fatfs *fs, FL_FILE *file, uint32 clusterIdx, uint32 *pNextCluster); +int fatfs_cache_set_next_cluster(struct fatfs *fs, FL_FILE *file, uint32 clusterIdx, uint32 nextCluster); + +#endif diff --git a/vtoycli/fat_io_lib/release/fat_defs.h b/vtoycli/fat_io_lib/release/fat_defs.h new file mode 100644 index 00000000000..5fe8d6a4d13 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_defs.h @@ -0,0 +1,128 @@ +#ifndef __FAT_DEFS_H__ +#define __FAT_DEFS_H__ + +#include "fat_opts.h" +#include "fat_types.h" + +//----------------------------------------------------------------------------- +// FAT32 Offsets +// Name Offset +//----------------------------------------------------------------------------- + +// Boot Sector +#define BS_JMPBOOT 0 // Length = 3 +#define BS_OEMNAME 3 // Length = 8 +#define BPB_BYTSPERSEC 11 // Length = 2 +#define BPB_SECPERCLUS 13 // Length = 1 +#define BPB_RSVDSECCNT 14 // Length = 2 +#define BPB_NUMFATS 16 // Length = 1 +#define BPB_ROOTENTCNT 17 // Length = 2 +#define BPB_TOTSEC16 19 // Length = 2 +#define BPB_MEDIA 21 // Length = 1 +#define BPB_FATSZ16 22 // Length = 2 +#define BPB_SECPERTRK 24 // Length = 2 +#define BPB_NUMHEADS 26 // Length = 2 +#define BPB_HIDDSEC 28 // Length = 4 +#define BPB_TOTSEC32 32 // Length = 4 + +// FAT 12/16 +#define BS_FAT_DRVNUM 36 // Length = 1 +#define BS_FAT_BOOTSIG 38 // Length = 1 +#define BS_FAT_VOLID 39 // Length = 4 +#define BS_FAT_VOLLAB 43 // Length = 11 +#define BS_FAT_FILSYSTYPE 54 // Length = 8 + +// FAT 32 +#define BPB_FAT32_FATSZ32 36 // Length = 4 +#define BPB_FAT32_EXTFLAGS 40 // Length = 2 +#define BPB_FAT32_FSVER 42 // Length = 2 +#define BPB_FAT32_ROOTCLUS 44 // Length = 4 +#define BPB_FAT32_FSINFO 48 // Length = 2 +#define BPB_FAT32_BKBOOTSEC 50 // Length = 2 +#define BS_FAT32_DRVNUM 64 // Length = 1 +#define BS_FAT32_BOOTSIG 66 // Length = 1 +#define BS_FAT32_VOLID 67 // Length = 4 +#define BS_FAT32_VOLLAB 71 // Length = 11 +#define BS_FAT32_FILSYSTYPE 82 // Length = 8 + +//----------------------------------------------------------------------------- +// FAT Types +//----------------------------------------------------------------------------- +#define FAT_TYPE_FAT12 1 +#define FAT_TYPE_FAT16 2 +#define FAT_TYPE_FAT32 3 + +//----------------------------------------------------------------------------- +// FAT32 Specific Statics +//----------------------------------------------------------------------------- +#define SIGNATURE_POSITION 510 +#define SIGNATURE_VALUE 0xAA55 +#define PARTITION1_TYPECODE_LOCATION 450 +#define FAT32_TYPECODE1 0x0B +#define FAT32_TYPECODE2 0x0C +#define PARTITION1_LBA_BEGIN_LOCATION 454 +#define PARTITION1_SIZE_LOCATION 458 + +#define FAT_DIR_ENTRY_SIZE 32 +#define FAT_SFN_SIZE_FULL 11 +#define FAT_SFN_SIZE_PARTIAL 8 + +//----------------------------------------------------------------------------- +// FAT32 File Attributes and Types +//----------------------------------------------------------------------------- +#define FILE_ATTR_READ_ONLY 0x01 +#define FILE_ATTR_HIDDEN 0x02 +#define FILE_ATTR_SYSTEM 0x04 +#define FILE_ATTR_SYSHID 0x06 +#define FILE_ATTR_VOLUME_ID 0x08 +#define FILE_ATTR_DIRECTORY 0x10 +#define FILE_ATTR_ARCHIVE 0x20 +#define FILE_ATTR_LFN_TEXT 0x0F +#define FILE_HEADER_BLANK 0x00 +#define FILE_HEADER_DELETED 0xE5 +#define FILE_TYPE_DIR 0x10 +#define FILE_TYPE_FILE 0x20 + +//----------------------------------------------------------------------------- +// Time / Date details +//----------------------------------------------------------------------------- +#define FAT_TIME_HOURS_SHIFT 11 +#define FAT_TIME_HOURS_MASK 0x1F +#define FAT_TIME_MINUTES_SHIFT 5 +#define FAT_TIME_MINUTES_MASK 0x3F +#define FAT_TIME_SECONDS_SHIFT 0 +#define FAT_TIME_SECONDS_MASK 0x1F +#define FAT_TIME_SECONDS_SCALE 2 +#define FAT_DATE_YEAR_SHIFT 9 +#define FAT_DATE_YEAR_MASK 0x7F +#define FAT_DATE_MONTH_SHIFT 5 +#define FAT_DATE_MONTH_MASK 0xF +#define FAT_DATE_DAY_SHIFT 0 +#define FAT_DATE_DAY_MASK 0x1F +#define FAT_DATE_YEAR_OFFSET 1980 + +//----------------------------------------------------------------------------- +// Other Defines +//----------------------------------------------------------------------------- +#define FAT32_LAST_CLUSTER 0xFFFFFFFF +#define FAT32_INVALID_CLUSTER 0xFFFFFFFF + +STRUCT_PACK_BEGIN +struct fat_dir_entry STRUCT_PACK +{ + uint8 Name[11]; + uint8 Attr; + uint8 NTRes; + uint8 CrtTimeTenth; + uint8 CrtTime[2]; + uint8 CrtDate[2]; + uint8 LstAccDate[2]; + uint16 FstClusHI; + uint8 WrtTime[2]; + uint8 WrtDate[2]; + uint16 FstClusLO; + uint32 FileSize; +} STRUCT_PACKED; +STRUCT_PACK_END + +#endif diff --git a/vtoycli/fat_io_lib/release/fat_filelib.c b/vtoycli/fat_io_lib/release/fat_filelib.c new file mode 100644 index 00000000000..2c4a236feb8 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_filelib.c @@ -0,0 +1,1603 @@ +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +// FAT16/32 File IO Library +// V2.6 +// Ultra-Embedded.com +// Copyright 2003 - 2012 +// +// Email: admin@ultra-embedded.com +// +// License: GPL +// If you would like a version with a more permissive license for use in +// closed source commercial applications please contact me for details. +//----------------------------------------------------------------------------- +// +// This file is part of FAT File IO Library. +// +// FAT File IO Library 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. +// +// FAT File IO Library 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 FAT File IO Library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +#include +#include +#include "fat_defs.h" +#include "fat_access.h" +#include "fat_table.h" +#include "fat_write.h" +#include "fat_misc.h" +#include "fat_string.h" +#include "fat_filelib.h" +#include "fat_cache.h" + +//----------------------------------------------------------------------------- +// Locals +//----------------------------------------------------------------------------- +static FL_FILE _files[FATFS_MAX_OPEN_FILES]; +static int _filelib_init = 0; +static int _filelib_valid = 0; +static struct fatfs _fs; +static struct fat_list _open_file_list; +static struct fat_list _free_file_list; + +//----------------------------------------------------------------------------- +// Macros +//----------------------------------------------------------------------------- + +// Macro for checking if file lib is initialised +#define CHECK_FL_INIT() { if (_filelib_init==0) fl_init(); } + +#define FL_LOCK(a) do { if ((a)->fl_lock) (a)->fl_lock(); } while (0) +#define FL_UNLOCK(a) do { if ((a)->fl_unlock) (a)->fl_unlock(); } while (0) + +//----------------------------------------------------------------------------- +// Local Functions +//----------------------------------------------------------------------------- +static void _fl_init(); + +//----------------------------------------------------------------------------- +// _allocate_file: Find a slot in the open files buffer for a new file +//----------------------------------------------------------------------------- +static FL_FILE* _allocate_file(void) +{ + // Allocate free file + struct fat_node *node = fat_list_pop_head(&_free_file_list); + + // Add to open list + if (node) + fat_list_insert_last(&_open_file_list, node); + + return fat_list_entry(node, FL_FILE, list_node); +} +//----------------------------------------------------------------------------- +// _check_file_open: Returns true if the file is already open +//----------------------------------------------------------------------------- +static int _check_file_open(FL_FILE* file) +{ + struct fat_node *node; + + // Compare open files + fat_list_for_each(&_open_file_list, node) + { + FL_FILE* openFile = fat_list_entry(node, FL_FILE, list_node); + + // If not the current file + if (openFile != file) + { + // Compare path and name + if ( (fatfs_compare_names(openFile->path,file->path)) && (fatfs_compare_names(openFile->filename,file->filename)) ) + return 1; + } + } + + return 0; +} +//----------------------------------------------------------------------------- +// _free_file: Free open file handle +//----------------------------------------------------------------------------- +static void _free_file(FL_FILE* file) +{ + // Remove from open list + fat_list_remove(&_open_file_list, &file->list_node); + + // Add to free list + fat_list_insert_last(&_free_file_list, &file->list_node); +} + +//----------------------------------------------------------------------------- +// Low Level +//----------------------------------------------------------------------------- + +//----------------------------------------------------------------------------- +// _open_directory: Cycle through path string to find the start cluster +// address of the highest subdir. +//----------------------------------------------------------------------------- +static int _open_directory(char *path, uint32 *pathCluster) +{ + int levels; + int sublevel; + char currentfolder[FATFS_MAX_LONG_FILENAME]; + struct fat_dir_entry sfEntry; + uint32 startcluster; + + // Set starting cluster to root cluster + startcluster = fatfs_get_root_cluster(&_fs); + + // Find number of levels + levels = fatfs_total_path_levels(path); + + // Cycle through each level and get the start sector + for (sublevel=0;sublevel<(levels+1);sublevel++) + { + if (fatfs_get_substring(path, sublevel, currentfolder, sizeof(currentfolder)) == -1) + return 0; + + // Find clusteraddress for folder (currentfolder) + if (fatfs_get_file_entry(&_fs, startcluster, currentfolder,&sfEntry)) + { + // Check entry is folder + if (fatfs_entry_is_dir(&sfEntry)) + startcluster = ((FAT_HTONS((uint32)sfEntry.FstClusHI))<<16) + FAT_HTONS(sfEntry.FstClusLO); + else + return 0; + } + else + return 0; + } + + *pathCluster = startcluster; + return 1; +} +//----------------------------------------------------------------------------- +// _create_directory: Cycle through path string and create the end directory +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +static int _create_directory(char *path) +{ + FL_FILE* file; + struct fat_dir_entry sfEntry; + char shortFilename[FAT_SFN_SIZE_FULL]; + int tailNum = 0; + int i; + + // Allocate a new file handle + file = _allocate_file(); + if (!file) + return 0; + + // Clear filename + memset(file->path, '\0', sizeof(file->path)); + memset(file->filename, '\0', sizeof(file->filename)); + + // Split full path into filename and directory path + if (fatfs_split_path((char*)path, file->path, sizeof(file->path), file->filename, sizeof(file->filename)) == -1) + { + _free_file(file); + return 0; + } + + // Check if file already open + if (_check_file_open(file)) + { + _free_file(file); + return 0; + } + + // If file is in the root dir + if (file->path[0] == 0) + file->parentcluster = fatfs_get_root_cluster(&_fs); + else + { + // Find parent directory start cluster + if (!_open_directory(file->path, &file->parentcluster)) + { + _free_file(file); + return 0; + } + } + + // Check if same filename exists in directory + if (fatfs_get_file_entry(&_fs, file->parentcluster, file->filename,&sfEntry) == 1) + { + _free_file(file); + return 0; + } + + file->startcluster = 0; + + // Create the file space for the folder (at least one clusters worth!) + if (!fatfs_allocate_free_space(&_fs, 1, &file->startcluster, 1)) + { + _free_file(file); + return 0; + } + + // Erase new directory cluster + memset(file->file_data_sector, 0x00, FAT_SECTOR_SIZE); + for (i=0;i<_fs.sectors_per_cluster;i++) + { + if (!fatfs_write_sector(&_fs, file->startcluster, i, file->file_data_sector)) + { + _free_file(file); + return 0; + } + } + +#if FATFS_INC_LFN_SUPPORT + + // Generate a short filename & tail + tailNum = 0; + do + { + // Create a standard short filename (without tail) + fatfs_lfn_create_sfn(shortFilename, file->filename); + + // If second hit or more, generate a ~n tail + if (tailNum != 0) + fatfs_lfn_generate_tail((char*)file->shortfilename, shortFilename, tailNum); + // Try with no tail if first entry + else + memcpy(file->shortfilename, shortFilename, FAT_SFN_SIZE_FULL); + + // Check if entry exists already or not + if (fatfs_sfn_exists(&_fs, file->parentcluster, (char*)file->shortfilename) == 0) + break; + + tailNum++; + } + while (tailNum < 9999); + + // We reached the max number of duplicate short file names (unlikely!) + if (tailNum == 9999) + { + // Delete allocated space + fatfs_free_cluster_chain(&_fs, file->startcluster); + + _free_file(file); + return 0; + } +#else + // Create a standard short filename (without tail) + if (!fatfs_lfn_create_sfn(shortFilename, file->filename)) + { + // Delete allocated space + fatfs_free_cluster_chain(&_fs, file->startcluster); + + _free_file(file); + return 0; + } + + // Copy to SFN space + memcpy(file->shortfilename, shortFilename, FAT_SFN_SIZE_FULL); + + // Check if entry exists already + if (fatfs_sfn_exists(&_fs, file->parentcluster, (char*)file->shortfilename)) + { + // Delete allocated space + fatfs_free_cluster_chain(&_fs, file->startcluster); + + _free_file(file); + return 0; + } +#endif + + // Add file to disk + if (!fatfs_add_file_entry(&_fs, file->parentcluster, (char*)file->filename, (char*)file->shortfilename, file->startcluster, 0, 1)) + { + // Delete allocated space + fatfs_free_cluster_chain(&_fs, file->startcluster); + + _free_file(file); + return 0; + } + + // General + file->filelength = 0; + file->bytenum = 0; + file->file_data_address = 0xFFFFFFFF; + file->file_data_dirty = 0; + file->filelength_changed = 0; + + // Quick lookup for next link in the chain + file->last_fat_lookup.ClusterIdx = 0xFFFFFFFF; + file->last_fat_lookup.CurrentCluster = 0xFFFFFFFF; + + fatfs_fat_purge(&_fs); + + _free_file(file); + return 1; +} +#endif +//----------------------------------------------------------------------------- +// _open_file: Open a file for reading +//----------------------------------------------------------------------------- +static FL_FILE* _open_file(const char *path) +{ + FL_FILE* file; + struct fat_dir_entry sfEntry; + + // Allocate a new file handle + file = _allocate_file(); + if (!file) + return NULL; + + // Clear filename + memset(file->path, '\0', sizeof(file->path)); + memset(file->filename, '\0', sizeof(file->filename)); + + // Split full path into filename and directory path + if (fatfs_split_path((char*)path, file->path, sizeof(file->path), file->filename, sizeof(file->filename)) == -1) + { + _free_file(file); + return NULL; + } + + // Check if file already open + if (_check_file_open(file)) + { + _free_file(file); + return NULL; + } + + // If file is in the root dir + if (file->path[0]==0) + file->parentcluster = fatfs_get_root_cluster(&_fs); + else + { + // Find parent directory start cluster + if (!_open_directory(file->path, &file->parentcluster)) + { + _free_file(file); + return NULL; + } + } + + // Using dir cluster address search for filename + if (fatfs_get_file_entry(&_fs, file->parentcluster, file->filename,&sfEntry)) + // Make sure entry is file not dir! + if (fatfs_entry_is_file(&sfEntry)) + { + // Initialise file details + memcpy(file->shortfilename, sfEntry.Name, FAT_SFN_SIZE_FULL); + file->filelength = FAT_HTONL(sfEntry.FileSize); + file->bytenum = 0; + file->startcluster = ((FAT_HTONS((uint32)sfEntry.FstClusHI))<<16) + FAT_HTONS(sfEntry.FstClusLO); + file->file_data_address = 0xFFFFFFFF; + file->file_data_dirty = 0; + file->filelength_changed = 0; + + // Quick lookup for next link in the chain + file->last_fat_lookup.ClusterIdx = 0xFFFFFFFF; + file->last_fat_lookup.CurrentCluster = 0xFFFFFFFF; + + fatfs_cache_init(&_fs, file); + + fatfs_fat_purge(&_fs); + + return file; + } + + _free_file(file); + return NULL; +} +//----------------------------------------------------------------------------- +// _create_file: Create a new file +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +static FL_FILE* _create_file(const char *filename) +{ + FL_FILE* file; + struct fat_dir_entry sfEntry; + char shortFilename[FAT_SFN_SIZE_FULL]; + int tailNum = 0; + + // No write access? + if (!_fs.disk_io.write_media) + return NULL; + + // Allocate a new file handle + file = _allocate_file(); + if (!file) + return NULL; + + // Clear filename + memset(file->path, '\0', sizeof(file->path)); + memset(file->filename, '\0', sizeof(file->filename)); + + // Split full path into filename and directory path + if (fatfs_split_path((char*)filename, file->path, sizeof(file->path), file->filename, sizeof(file->filename)) == -1) + { + _free_file(file); + return NULL; + } + + // Check if file already open + if (_check_file_open(file)) + { + _free_file(file); + return NULL; + } + + // If file is in the root dir + if (file->path[0] == 0) + file->parentcluster = fatfs_get_root_cluster(&_fs); + else + { + // Find parent directory start cluster + if (!_open_directory(file->path, &file->parentcluster)) + { + _free_file(file); + return NULL; + } + } + + // Check if same filename exists in directory + if (fatfs_get_file_entry(&_fs, file->parentcluster, file->filename,&sfEntry) == 1) + { + _free_file(file); + return NULL; + } + + file->startcluster = 0; + + // Create the file space for the file (at least one clusters worth!) + if (!fatfs_allocate_free_space(&_fs, 1, &file->startcluster, 1)) + { + _free_file(file); + return NULL; + } + +#if FATFS_INC_LFN_SUPPORT + // Generate a short filename & tail + tailNum = 0; + do + { + // Create a standard short filename (without tail) + fatfs_lfn_create_sfn(shortFilename, file->filename); + + // If second hit or more, generate a ~n tail + if (tailNum != 0) + fatfs_lfn_generate_tail((char*)file->shortfilename, shortFilename, tailNum); + // Try with no tail if first entry + else + memcpy(file->shortfilename, shortFilename, FAT_SFN_SIZE_FULL); + + // Check if entry exists already or not + if (fatfs_sfn_exists(&_fs, file->parentcluster, (char*)file->shortfilename) == 0) + break; + + tailNum++; + } + while (tailNum < 9999); + + // We reached the max number of duplicate short file names (unlikely!) + if (tailNum == 9999) + { + // Delete allocated space + fatfs_free_cluster_chain(&_fs, file->startcluster); + + _free_file(file); + return NULL; + } +#else + // Create a standard short filename (without tail) + if (!fatfs_lfn_create_sfn(shortFilename, file->filename)) + { + // Delete allocated space + fatfs_free_cluster_chain(&_fs, file->startcluster); + + _free_file(file); + return NULL; + } + + // Copy to SFN space + memcpy(file->shortfilename, shortFilename, FAT_SFN_SIZE_FULL); + + // Check if entry exists already + if (fatfs_sfn_exists(&_fs, file->parentcluster, (char*)file->shortfilename)) + { + // Delete allocated space + fatfs_free_cluster_chain(&_fs, file->startcluster); + + _free_file(file); + return NULL; + } +#endif + + // Add file to disk + if (!fatfs_add_file_entry(&_fs, file->parentcluster, (char*)file->filename, (char*)file->shortfilename, file->startcluster, 0, 0)) + { + // Delete allocated space + fatfs_free_cluster_chain(&_fs, file->startcluster); + + _free_file(file); + return NULL; + } + + // General + file->filelength = 0; + file->bytenum = 0; + file->file_data_address = 0xFFFFFFFF; + file->file_data_dirty = 0; + file->filelength_changed = 0; + + // Quick lookup for next link in the chain + file->last_fat_lookup.ClusterIdx = 0xFFFFFFFF; + file->last_fat_lookup.CurrentCluster = 0xFFFFFFFF; + + fatfs_cache_init(&_fs, file); + + fatfs_fat_purge(&_fs); + + return file; +} +#endif +//----------------------------------------------------------------------------- +// _read_sectors: Read sector(s) from disk to file +//----------------------------------------------------------------------------- +static uint32 _read_sectors(FL_FILE* file, uint32 offset, uint8 *buffer, uint32 count) +{ + uint32 Sector = 0; + uint32 ClusterIdx = 0; + uint32 Cluster = 0; + uint32 i; + uint32 lba; + + // Find cluster index within file & sector with cluster + ClusterIdx = offset / _fs.sectors_per_cluster; + Sector = offset - (ClusterIdx * _fs.sectors_per_cluster); + + // Limit number of sectors read to the number remaining in this cluster + if ((Sector + count) > _fs.sectors_per_cluster) + count = _fs.sectors_per_cluster - Sector; + + // Quick lookup for next link in the chain + if (ClusterIdx == file->last_fat_lookup.ClusterIdx) + Cluster = file->last_fat_lookup.CurrentCluster; + // Else walk the chain + else + { + // Starting from last recorded cluster? + if (ClusterIdx && ClusterIdx == file->last_fat_lookup.ClusterIdx + 1) + { + i = file->last_fat_lookup.ClusterIdx; + Cluster = file->last_fat_lookup.CurrentCluster; + } + // Start searching from the beginning.. + else + { + // Set start of cluster chain to initial value + i = 0; + Cluster = file->startcluster; + } + + // Follow chain to find cluster to read + for ( ;ilast_fat_lookup.CurrentCluster = Cluster; + file->last_fat_lookup.ClusterIdx = ClusterIdx; + } + } + + // If end of cluster chain then return false + if (Cluster == FAT32_LAST_CLUSTER) + return 0; + + // Calculate sector address + lba = fatfs_lba_of_cluster(&_fs, Cluster) + Sector; + + // Read sector of file + if (fatfs_sector_read(&_fs, lba, buffer, count)) + return count; + else + return 0; +} + +//----------------------------------------------------------------------------- +// External API +//----------------------------------------------------------------------------- + +//----------------------------------------------------------------------------- +// fl_init: Initialise library +//----------------------------------------------------------------------------- +void fl_init(void) +{ + int i; + + fat_list_init(&_free_file_list); + fat_list_init(&_open_file_list); + + // Add all file objects to free list + for (i=0;iflags = flags; + + FL_UNLOCK(&_fs); + return file; +} +//----------------------------------------------------------------------------- +// _write_sectors: Write sector(s) to disk +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +static uint32 _write_sectors(FL_FILE* file, uint32 offset, uint8 *buf, uint32 count) +{ + uint32 SectorNumber = 0; + uint32 ClusterIdx = 0; + uint32 Cluster = 0; + uint32 LastCluster = FAT32_LAST_CLUSTER; + uint32 i; + uint32 lba; + uint32 TotalWriteCount = count; + + // Find values for Cluster index & sector within cluster + ClusterIdx = offset / _fs.sectors_per_cluster; + SectorNumber = offset - (ClusterIdx * _fs.sectors_per_cluster); + + // Limit number of sectors written to the number remaining in this cluster + if ((SectorNumber + count) > _fs.sectors_per_cluster) + count = _fs.sectors_per_cluster - SectorNumber; + + // Quick lookup for next link in the chain + if (ClusterIdx == file->last_fat_lookup.ClusterIdx) + Cluster = file->last_fat_lookup.CurrentCluster; + // Else walk the chain + else + { + // Starting from last recorded cluster? + if (ClusterIdx && ClusterIdx == file->last_fat_lookup.ClusterIdx + 1) + { + i = file->last_fat_lookup.ClusterIdx; + Cluster = file->last_fat_lookup.CurrentCluster; + } + // Start searching from the beginning.. + else + { + // Set start of cluster chain to initial value + i = 0; + Cluster = file->startcluster; + } + + // Follow chain to find cluster to read + for ( ;ilast_fat_lookup.CurrentCluster = Cluster; + file->last_fat_lookup.ClusterIdx = ClusterIdx; + } + + // Calculate write address + lba = fatfs_lba_of_cluster(&_fs, Cluster) + SectorNumber; + + if (fatfs_sector_write(&_fs, lba, buf, count)) + return count; + else + return 0; +} +#endif +//----------------------------------------------------------------------------- +// fl_fflush: Flush un-written data to the file +//----------------------------------------------------------------------------- +int fl_fflush(void *f) +{ +#if FATFS_INC_WRITE_SUPPORT + FL_FILE *file = (FL_FILE *)f; + + // If first call to library, initialise + CHECK_FL_INIT(); + + if (file) + { + FL_LOCK(&_fs); + + // If some write data still in buffer + if (file->file_data_dirty) + { + // Write back current sector before loading next + if (_write_sectors(file, file->file_data_address, file->file_data_sector, 1)) + file->file_data_dirty = 0; + } + + FL_UNLOCK(&_fs); + } +#endif + return 0; +} +//----------------------------------------------------------------------------- +// fl_fclose: Close an open file +//----------------------------------------------------------------------------- +void fl_fclose(void *f) +{ + FL_FILE *file = (FL_FILE *)f; + + // If first call to library, initialise + CHECK_FL_INIT(); + + if (file) + { + FL_LOCK(&_fs); + + // Flush un-written data to file + fl_fflush(f); + + // File size changed? + if (file->filelength_changed) + { +#if FATFS_INC_WRITE_SUPPORT + // Update filesize in directory + fatfs_update_file_length(&_fs, file->parentcluster, (char*)file->shortfilename, file->filelength); +#endif + file->filelength_changed = 0; + } + + file->bytenum = 0; + file->filelength = 0; + file->startcluster = 0; + file->file_data_address = 0xFFFFFFFF; + file->file_data_dirty = 0; + file->filelength_changed = 0; + + // Free file handle + _free_file(file); + + fatfs_fat_purge(&_fs); + + FL_UNLOCK(&_fs); + } +} +//----------------------------------------------------------------------------- +// fl_fgetc: Get a character in the stream +//----------------------------------------------------------------------------- +int fl_fgetc(void *f) +{ + int res; + uint8 data = 0; + + res = fl_fread(&data, 1, 1, f); + if (res == 1) + return (int)data; + else + return res; +} +//----------------------------------------------------------------------------- +// fl_fgets: Get a string from a stream +//----------------------------------------------------------------------------- +char *fl_fgets(char *s, int n, void *f) +{ + int idx = 0; + + // Space for null terminator? + if (n > 0) + { + // While space (+space for null terminator) + while (idx < (n-1)) + { + int ch = fl_fgetc(f); + + // EOF / Error? + if (ch < 0) + break; + + // Store character read from stream + s[idx++] = (char)ch; + + // End of line? + if (ch == '\n') + break; + } + + if (idx > 0) + s[idx] = '\0'; + } + + return (idx > 0) ? s : 0; +} +//----------------------------------------------------------------------------- +// fl_fread: Read a block of data from the file +//----------------------------------------------------------------------------- +int fl_fread(void * buffer, int size, int length, void *f ) +{ + uint32 sector; + uint32 offset; + int copyCount; + int count = size * length; + int bytesRead = 0; + + FL_FILE *file = (FL_FILE *)f; + + // If first call to library, initialise + CHECK_FL_INIT(); + + if (buffer==NULL || file==NULL) + return -1; + + // No read permissions + if (!(file->flags & FILE_READ)) + return -1; + + // Nothing to be done + if (!count) + return 0; + + // Check if read starts past end of file + if (file->bytenum >= file->filelength) + return -1; + + // Limit to file size + if ( (file->bytenum + count) > file->filelength ) + count = file->filelength - file->bytenum; + + // Calculate start sector + sector = file->bytenum / FAT_SECTOR_SIZE; + + // Offset to start copying data from first sector + offset = file->bytenum % FAT_SECTOR_SIZE; + + while (bytesRead < count) + { + // Read whole sector, read from media directly into target buffer + if ((offset == 0) && ((count - bytesRead) >= FAT_SECTOR_SIZE)) + { + // Read as many sectors as possible into target buffer + uint32 sectorsRead = _read_sectors(file, sector, (uint8*)((uint8*)buffer + bytesRead), (count - bytesRead) / FAT_SECTOR_SIZE); + if (sectorsRead) + { + // We have upto one sector to copy + copyCount = FAT_SECTOR_SIZE * sectorsRead; + + // Move onto next sector and reset copy offset + sector+= sectorsRead; + offset = 0; + } + else + break; + } + else + { + // Do we need to re-read the sector? + if (file->file_data_address != sector) + { + // Flush un-written data to file + if (file->file_data_dirty) + fl_fflush(file); + + // Get LBA of sector offset within file + if (!_read_sectors(file, sector, file->file_data_sector, 1)) + // Read failed - out of range (probably) + break; + + file->file_data_address = sector; + file->file_data_dirty = 0; + } + + // We have upto one sector to copy + copyCount = FAT_SECTOR_SIZE - offset; + + // Only require some of this sector? + if (copyCount > (count - bytesRead)) + copyCount = (count - bytesRead); + + // Copy to application buffer + memcpy( (uint8*)((uint8*)buffer + bytesRead), (uint8*)(file->file_data_sector + offset), copyCount); + + // Move onto next sector and reset copy offset + sector++; + offset = 0; + } + + // Increase total read count + bytesRead += copyCount; + + // Increment file pointer + file->bytenum += copyCount; + } + + return bytesRead; +} +//----------------------------------------------------------------------------- +// fl_fseek: Seek to a specific place in the file +//----------------------------------------------------------------------------- +int fl_fseek( void *f, long offset, int origin ) +{ + FL_FILE *file = (FL_FILE *)f; + int res = -1; + + // If first call to library, initialise + CHECK_FL_INIT(); + + if (!file) + return -1; + + if (origin == SEEK_END && offset != 0) + return -1; + + FL_LOCK(&_fs); + + // Invalidate file buffer + file->file_data_address = 0xFFFFFFFF; + file->file_data_dirty = 0; + + if (origin == SEEK_SET) + { + file->bytenum = (uint32)offset; + + if (file->bytenum > file->filelength) + file->bytenum = file->filelength; + + res = 0; + } + else if (origin == SEEK_CUR) + { + // Positive shift + if (offset >= 0) + { + file->bytenum += offset; + + if (file->bytenum > file->filelength) + file->bytenum = file->filelength; + } + // Negative shift + else + { + // Make shift positive + offset = -offset; + + // Limit to negative shift to start of file + if ((uint32)offset > file->bytenum) + file->bytenum = 0; + else + file->bytenum-= offset; + } + + res = 0; + } + else if (origin == SEEK_END) + { + file->bytenum = file->filelength; + res = 0; + } + else + res = -1; + + FL_UNLOCK(&_fs); + + return res; +} +//----------------------------------------------------------------------------- +// fl_fgetpos: Get the current file position +//----------------------------------------------------------------------------- +int fl_fgetpos(void *f , uint32 * position) +{ + FL_FILE *file = (FL_FILE *)f; + + if (!file) + return -1; + + FL_LOCK(&_fs); + + // Get position + *position = file->bytenum; + + FL_UNLOCK(&_fs); + + return 0; +} +//----------------------------------------------------------------------------- +// fl_ftell: Get the current file position +//----------------------------------------------------------------------------- +long fl_ftell(void *f) +{ + uint32 pos = 0; + + fl_fgetpos(f, &pos); + + return (long)pos; +} +//----------------------------------------------------------------------------- +// fl_feof: Is the file pointer at the end of the stream? +//----------------------------------------------------------------------------- +int fl_feof(void *f) +{ + FL_FILE *file = (FL_FILE *)f; + int res; + + if (!file) + return -1; + + FL_LOCK(&_fs); + + if (file->bytenum == file->filelength) + res = EOF; + else + res = 0; + + FL_UNLOCK(&_fs); + + return res; +} +//----------------------------------------------------------------------------- +// fl_fputc: Write a character to the stream +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fl_fputc(int c, void *f) +{ + uint8 data = (uint8)c; + int res; + + res = fl_fwrite(&data, 1, 1, f); + if (res == 1) + return c; + else + return res; +} +#endif +//----------------------------------------------------------------------------- +// fl_fwrite: Write a block of data to the stream +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fl_fwrite(const void * data, int size, int count, void *f ) +{ + FL_FILE *file = (FL_FILE *)f; + uint32 sector; + uint32 offset; + uint32 length = (size*count); + uint8 *buffer = (uint8 *)data; + uint32 bytesWritten = 0; + uint32 copyCount; + + // If first call to library, initialise + CHECK_FL_INIT(); + + if (!file) + return -1; + + FL_LOCK(&_fs); + + // No write permissions + if (!(file->flags & FILE_WRITE)) + { + FL_UNLOCK(&_fs); + return -1; + } + + // Append writes to end of file + if (file->flags & FILE_APPEND) + file->bytenum = file->filelength; + // Else write to current position + + // Calculate start sector + sector = file->bytenum / FAT_SECTOR_SIZE; + + // Offset to start copying data from first sector + offset = file->bytenum % FAT_SECTOR_SIZE; + + while (bytesWritten < length) + { + // Whole sector or more to be written? + if ((offset == 0) && ((length - bytesWritten) >= FAT_SECTOR_SIZE)) + { + uint32 sectorsWrote; + + // Buffered sector, flush back to disk + if (file->file_data_address != 0xFFFFFFFF) + { + // Flush un-written data to file + if (file->file_data_dirty) + fl_fflush(file); + + file->file_data_address = 0xFFFFFFFF; + file->file_data_dirty = 0; + } + + // Write as many sectors as possible + sectorsWrote = _write_sectors(file, sector, (uint8*)(buffer + bytesWritten), (length - bytesWritten) / FAT_SECTOR_SIZE); + copyCount = FAT_SECTOR_SIZE * sectorsWrote; + + // Increase total read count + bytesWritten += copyCount; + + // Increment file pointer + file->bytenum += copyCount; + + // Move onto next sector and reset copy offset + sector+= sectorsWrote; + offset = 0; + + if (!sectorsWrote) + break; + } + else + { + // We have upto one sector to copy + copyCount = FAT_SECTOR_SIZE - offset; + + // Only require some of this sector? + if (copyCount > (length - bytesWritten)) + copyCount = (length - bytesWritten); + + // Do we need to read a new sector? + if (file->file_data_address != sector) + { + // Flush un-written data to file + if (file->file_data_dirty) + fl_fflush(file); + + // If we plan to overwrite the whole sector, we don't need to read it first! + if (copyCount != FAT_SECTOR_SIZE) + { + // NOTE: This does not have succeed; if last sector of file + // reached, no valid data will be read in, but write will + // allocate some more space for new data. + + // Get LBA of sector offset within file + if (!_read_sectors(file, sector, file->file_data_sector, 1)) + memset(file->file_data_sector, 0x00, FAT_SECTOR_SIZE); + } + + file->file_data_address = sector; + file->file_data_dirty = 0; + } + + // Copy from application buffer into sector buffer + memcpy((uint8*)(file->file_data_sector + offset), (uint8*)(buffer + bytesWritten), copyCount); + + // Mark buffer as dirty + file->file_data_dirty = 1; + + // Increase total read count + bytesWritten += copyCount; + + // Increment file pointer + file->bytenum += copyCount; + + // Move onto next sector and reset copy offset + sector++; + offset = 0; + } + } + + // Write increased extent of the file? + if (file->bytenum > file->filelength) + { + // Increase file size to new point + file->filelength = file->bytenum; + + // We are changing the file length and this + // will need to be writen back at some point + file->filelength_changed = 1; + } + +#if FATFS_INC_TIME_DATE_SUPPORT + // If time & date support is enabled, always force directory entry to be + // written in-order to update file modify / access time & date. + file->filelength_changed = 1; +#endif + + FL_UNLOCK(&_fs); + + return (size*count); +} +#endif +//----------------------------------------------------------------------------- +// fl_fputs: Write a character string to the stream +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fl_fputs(const char * str, void *f) +{ + int len = (int)strlen(str); + int res = fl_fwrite(str, 1, len, f); + + if (res == len) + return len; + else + return res; +} +#endif +//----------------------------------------------------------------------------- +// fl_remove: Remove a file from the filesystem +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fl_remove( const char * filename ) +{ + FL_FILE* file; + int res = -1; + + FL_LOCK(&_fs); + + // Use read_file as this will check if the file is already open! + file = fl_fopen((char*)filename, "r"); + if (file) + { + // Delete allocated space + if (fatfs_free_cluster_chain(&_fs, file->startcluster)) + { + // Remove directory entries + if (fatfs_mark_file_deleted(&_fs, file->parentcluster, (char*)file->shortfilename)) + { + // Close the file handle (this should not write anything to the file + // as we have not changed the file since opening it!) + fl_fclose(file); + + res = 0; + } + } + } + + FL_UNLOCK(&_fs); + + return res; +} +#endif +//----------------------------------------------------------------------------- +// fl_createdirectory: Create a directory based on a path +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fl_createdirectory(const char *path) +{ + int res; + + // If first call to library, initialise + CHECK_FL_INIT(); + + FL_LOCK(&_fs); + res =_create_directory((char*)path); + FL_UNLOCK(&_fs); + + return res; +} +#endif +//----------------------------------------------------------------------------- +// fl_listdirectory: List a directory based on a path +//----------------------------------------------------------------------------- +#if FATFS_DIR_LIST_SUPPORT +void fl_listdirectory(const char *path) +{ + FL_DIR dirstat; + + // If first call to library, initialise + CHECK_FL_INIT(); + + FL_LOCK(&_fs); + + FAT_PRINTF(("\r\nDirectory %s\r\n", path)); + + if (fl_opendir(path, &dirstat)) + { + struct fs_dir_ent dirent; + + while (fl_readdir(&dirstat, &dirent) == 0) + { +#if FATFS_INC_TIME_DATE_SUPPORT + int d,m,y,h,mn,s; + fatfs_convert_from_fat_time(dirent.write_time, &h,&m,&s); + fatfs_convert_from_fat_date(dirent.write_date, &d,&mn,&y); + FAT_PRINTF(("%02d/%02d/%04d %02d:%02d ", d,mn,y,h,m)); +#endif + + if (dirent.is_dir) + { + FAT_PRINTF(("%s \r\n", dirent.filename)); + } + else + { + FAT_PRINTF(("%s [%d bytes]\r\n", dirent.filename, dirent.size)); + } + } + + fl_closedir(&dirstat); + } + + FL_UNLOCK(&_fs); +} +#endif +//----------------------------------------------------------------------------- +// fl_opendir: Opens a directory for listing +//----------------------------------------------------------------------------- +#if FATFS_DIR_LIST_SUPPORT +FL_DIR* fl_opendir(const char* path, FL_DIR *dir) +{ + int levels; + int res = 1; + uint32 cluster = FAT32_INVALID_CLUSTER; + + // If first call to library, initialise + CHECK_FL_INIT(); + + FL_LOCK(&_fs); + + levels = fatfs_total_path_levels((char*)path) + 1; + + // If path is in the root dir + if (levels == 0) + cluster = fatfs_get_root_cluster(&_fs); + // Find parent directory start cluster + else + res = _open_directory((char*)path, &cluster); + + if (res) + fatfs_list_directory_start(&_fs, dir, cluster); + + FL_UNLOCK(&_fs); + + return cluster != FAT32_INVALID_CLUSTER ? dir : 0; +} +#endif +//----------------------------------------------------------------------------- +// fl_readdir: Get next item in directory +//----------------------------------------------------------------------------- +#if FATFS_DIR_LIST_SUPPORT +int fl_readdir(FL_DIR *dirls, fl_dirent *entry) +{ + int res = 0; + + // If first call to library, initialise + CHECK_FL_INIT(); + + FL_LOCK(&_fs); + + res = fatfs_list_directory_next(&_fs, dirls, entry); + + FL_UNLOCK(&_fs); + + return res ? 0 : -1; +} +#endif +//----------------------------------------------------------------------------- +// fl_closedir: Close directory after listing +//----------------------------------------------------------------------------- +#if FATFS_DIR_LIST_SUPPORT +int fl_closedir(FL_DIR* dir) +{ + // Not used + return 0; +} +#endif +//----------------------------------------------------------------------------- +// fl_is_dir: Is this a directory? +//----------------------------------------------------------------------------- +#if FATFS_DIR_LIST_SUPPORT +int fl_is_dir(const char *path) +{ + int res = 0; + FL_DIR dir; + + if (fl_opendir(path, &dir)) + { + res = 1; + fl_closedir(&dir); + } + + return res; +} +#endif +//----------------------------------------------------------------------------- +// fl_format: Format a partition with either FAT16 or FAT32 based on size +//----------------------------------------------------------------------------- +#if FATFS_INC_FORMAT_SUPPORT +int fl_format(uint32 volume_sectors, const char *name) +{ + return fatfs_format(&_fs, volume_sectors, name); +} +#endif /*FATFS_INC_FORMAT_SUPPORT*/ +//----------------------------------------------------------------------------- +// fl_get_fs: +//----------------------------------------------------------------------------- +#ifdef FATFS_INC_TEST_HOOKS +struct fatfs* fl_get_fs(void) +{ + return &_fs; +} +#endif diff --git a/vtoycli/fat_io_lib/release/fat_filelib.h b/vtoycli/fat_io_lib/release/fat_filelib.h new file mode 100644 index 00000000000..a40a28ff65a --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_filelib.h @@ -0,0 +1,146 @@ +#ifndef __FAT_FILELIB_H__ +#define __FAT_FILELIB_H__ + +#include "fat_opts.h" +#include "fat_access.h" +#include "fat_list.h" + +//----------------------------------------------------------------------------- +// Defines +//----------------------------------------------------------------------------- +#ifndef SEEK_CUR + #define SEEK_CUR 1 +#endif + +#ifndef SEEK_END + #define SEEK_END 2 +#endif + +#ifndef SEEK_SET + #define SEEK_SET 0 +#endif + +#ifndef EOF + #define EOF (-1) +#endif + +//----------------------------------------------------------------------------- +// Structures +//----------------------------------------------------------------------------- +struct sFL_FILE; + +struct cluster_lookup +{ + uint32 ClusterIdx; + uint32 CurrentCluster; +}; + +typedef struct sFL_FILE +{ + uint32 parentcluster; + uint32 startcluster; + uint32 bytenum; + uint32 filelength; + int filelength_changed; + char path[FATFS_MAX_LONG_FILENAME]; + char filename[FATFS_MAX_LONG_FILENAME]; + uint8 shortfilename[11]; + +#ifdef FAT_CLUSTER_CACHE_ENTRIES + uint32 cluster_cache_idx[FAT_CLUSTER_CACHE_ENTRIES]; + uint32 cluster_cache_data[FAT_CLUSTER_CACHE_ENTRIES]; +#endif + + // Cluster Lookup + struct cluster_lookup last_fat_lookup; + + // Read/Write sector buffer + uint8 file_data_sector[FAT_SECTOR_SIZE]; + uint32 file_data_address; + int file_data_dirty; + + // File fopen flags + uint8 flags; +#define FILE_READ (1 << 0) +#define FILE_WRITE (1 << 1) +#define FILE_APPEND (1 << 2) +#define FILE_BINARY (1 << 3) +#define FILE_ERASE (1 << 4) +#define FILE_CREATE (1 << 5) + + struct fat_node list_node; +} FL_FILE; + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- + +// External +void fl_init(void); +void fl_attach_locks(void (*lock)(void), void (*unlock)(void)); +int fl_attach_media(fn_diskio_read rd, fn_diskio_write wr); +void fl_shutdown(void); + +// Standard API +void* fl_fopen(const char *path, const char *modifiers); +void fl_fclose(void *file); +int fl_fflush(void *file); +int fl_fgetc(void *file); +char * fl_fgets(char *s, int n, void *f); +int fl_fputc(int c, void *file); +int fl_fputs(const char * str, void *file); +int fl_fwrite(const void * data, int size, int count, void *file ); +int fl_fread(void * data, int size, int count, void *file ); +int fl_fseek(void *file , long offset , int origin ); +int fl_fgetpos(void *file , uint32 * position); +long fl_ftell(void *f); +int fl_feof(void *f); +int fl_remove(const char * filename); + +// Equivelant dirent.h +typedef struct fs_dir_list_status FL_DIR; +typedef struct fs_dir_ent fl_dirent; + +FL_DIR* fl_opendir(const char* path, FL_DIR *dir); +int fl_readdir(FL_DIR *dirls, fl_dirent *entry); +int fl_closedir(FL_DIR* dir); + +// Extensions +void fl_listdirectory(const char *path); +int fl_createdirectory(const char *path); +int fl_is_dir(const char *path); + +int fl_format(uint32 volume_sectors, const char *name); + +// Test hooks +#ifdef FATFS_INC_TEST_HOOKS +struct fatfs* fl_get_fs(void); +#endif + +//----------------------------------------------------------------------------- +// Stdio file I/O names +//----------------------------------------------------------------------------- +#ifdef USE_FILELIB_STDIO_COMPAT_NAMES + +#define FILE FL_FILE + +#define fopen(a,b) fl_fopen(a, b) +#define fclose(a) fl_fclose(a) +#define fflush(a) fl_fflush(a) +#define fgetc(a) fl_fgetc(a) +#define fgets(a,b,c) fl_fgets(a, b, c) +#define fputc(a,b) fl_fputc(a, b) +#define fputs(a,b) fl_fputs(a, b) +#define fwrite(a,b,c,d) fl_fwrite(a, b, c, d) +#define fread(a,b,c,d) fl_fread(a, b, c, d) +#define fseek(a,b,c) fl_fseek(a, b, c) +#define fgetpos(a,b) fl_fgetpos(a, b) +#define ftell(a) fl_ftell(a) +#define feof(a) fl_feof(a) +#define remove(a) fl_remove(a) +#define mkdir(a) fl_createdirectory(a) +#define rmdir(a) 0 + +#endif + +#endif diff --git a/vtoycli/fat_io_lib/release/fat_format.c b/vtoycli/fat_io_lib/release/fat_format.c new file mode 100644 index 00000000000..d067f37709d --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_format.c @@ -0,0 +1,532 @@ +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +// FAT16/32 File IO Library +// V2.6 +// Ultra-Embedded.com +// Copyright 2003 - 2012 +// +// Email: admin@ultra-embedded.com +// +// License: GPL +// If you would like a version with a more permissive license for use in +// closed source commercial applications please contact me for details. +//----------------------------------------------------------------------------- +// +// This file is part of FAT File IO Library. +// +// FAT File IO Library 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. +// +// FAT File IO Library 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 FAT File IO Library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +#include +#include "fat_defs.h" +#include "fat_access.h" +#include "fat_table.h" +#include "fat_write.h" +#include "fat_string.h" +#include "fat_misc.h" +#include "fat_format.h" + +#if FATFS_INC_FORMAT_SUPPORT + +//----------------------------------------------------------------------------- +// Tables +//----------------------------------------------------------------------------- +struct sec_per_clus_table +{ + uint32 sectors; + uint8 sectors_per_cluster; +}; + +struct sec_per_clus_table _cluster_size_table16[] = +{ + { 32680, 2}, // 16MB - 1K + { 262144, 4}, // 128MB - 2K + { 524288, 8}, // 256MB - 4K + { 1048576, 16}, // 512MB - 8K + { 2097152, 32}, // 1GB - 16K + { 4194304, 64}, // 2GB - 32K + { 8388608, 128},// 2GB - 64K [Warning only supported by Windows XP onwards] + { 0 , 0 } // Invalid +}; + +struct sec_per_clus_table _cluster_size_table32[] = +{ + { 532480, 1}, // 260MB - 512b + { 16777216, 8}, // 8GB - 4K + { 33554432, 16}, // 16GB - 8K + { 67108864, 32}, // 32GB - 16K + { 0xFFFFFFFF, 64},// >32GB - 32K + { 0 , 0 } // Invalid +}; + +//----------------------------------------------------------------------------- +// fatfs_calc_cluster_size: Calculate what cluster size should be used +//----------------------------------------------------------------------------- +static uint8 fatfs_calc_cluster_size(uint32 sectors, int is_fat32) +{ + int i; + + if (!is_fat32) + { + for (i=0; _cluster_size_table16[i].sectors_per_cluster != 0;i++) + if (sectors <= _cluster_size_table16[i].sectors) + return _cluster_size_table16[i].sectors_per_cluster; + } + else + { + for (i=0; _cluster_size_table32[i].sectors_per_cluster != 0;i++) + if (sectors <= _cluster_size_table32[i].sectors) + return _cluster_size_table32[i].sectors_per_cluster; + } + + return 0; +} +//----------------------------------------------------------------------------- +// fatfs_erase_sectors: Erase a number of sectors +//----------------------------------------------------------------------------- +static int fatfs_erase_sectors(struct fatfs *fs, uint32 lba, int count) +{ + int i; + + // Zero sector first + memset(fs->currentsector.sector, 0, FAT_SECTOR_SIZE); + + for (i=0;idisk_io.write_media(lba + i, fs->currentsector.sector, 1)) + return 0; + + return 1; +} +//----------------------------------------------------------------------------- +// fatfs_create_boot_sector: Create the boot sector +//----------------------------------------------------------------------------- +static int fatfs_create_boot_sector(struct fatfs *fs, uint32 boot_sector_lba, uint32 vol_sectors, const char *name, int is_fat32) +{ + uint32 total_clusters; + int i; + + // Zero sector initially + memset(fs->currentsector.sector, 0, FAT_SECTOR_SIZE); + + // OEM Name & Jump Code + fs->currentsector.sector[0] = 0xEB; + fs->currentsector.sector[1] = 0x3C; + fs->currentsector.sector[2] = 0x90; + fs->currentsector.sector[3] = 0x4D; + fs->currentsector.sector[4] = 0x53; + fs->currentsector.sector[5] = 0x44; + fs->currentsector.sector[6] = 0x4F; + fs->currentsector.sector[7] = 0x53; + fs->currentsector.sector[8] = 0x35; + fs->currentsector.sector[9] = 0x2E; + fs->currentsector.sector[10] = 0x30; + + // Bytes per sector + fs->currentsector.sector[11] = (FAT_SECTOR_SIZE >> 0) & 0xFF; + fs->currentsector.sector[12] = (FAT_SECTOR_SIZE >> 8) & 0xFF; + + // Get sectors per cluster size for the disk + fs->sectors_per_cluster = fatfs_calc_cluster_size(vol_sectors, is_fat32); + if (!fs->sectors_per_cluster) + return 0; // Invalid disk size + + // Sectors per cluster + fs->currentsector.sector[13] = fs->sectors_per_cluster; + + // Reserved Sectors + if (!is_fat32) + fs->reserved_sectors = 8; + else + fs->reserved_sectors = 32; + fs->currentsector.sector[14] = (fs->reserved_sectors >> 0) & 0xFF; + fs->currentsector.sector[15] = (fs->reserved_sectors >> 8) & 0xFF; + + // Number of FATS + fs->num_of_fats = 2; + fs->currentsector.sector[16] = fs->num_of_fats; + + // Max entries in root dir (FAT16 only) + if (!is_fat32) + { + fs->root_entry_count = 512; + fs->currentsector.sector[17] = (fs->root_entry_count >> 0) & 0xFF; + fs->currentsector.sector[18] = (fs->root_entry_count >> 8) & 0xFF; + } + else + { + fs->root_entry_count = 0; + fs->currentsector.sector[17] = 0; + fs->currentsector.sector[18] = 0; + } + + // [FAT16] Total sectors (use FAT32 count instead) + fs->currentsector.sector[19] = 0x00; + fs->currentsector.sector[20] = 0x00; + + // Media type + fs->currentsector.sector[21] = 0xF8; + + + // FAT16 BS Details + if (!is_fat32) + { + // Count of sectors used by the FAT table (FAT16 only) + total_clusters = (vol_sectors / fs->sectors_per_cluster) + 1; + fs->fat_sectors = (total_clusters/(FAT_SECTOR_SIZE/2)) + 1; + fs->currentsector.sector[22] = (uint8)((fs->fat_sectors >> 0) & 0xFF); + fs->currentsector.sector[23] = (uint8)((fs->fat_sectors >> 8) & 0xFF); + + // Sectors per track + fs->currentsector.sector[24] = 0x00; + fs->currentsector.sector[25] = 0x00; + + // Heads + fs->currentsector.sector[26] = 0x00; + fs->currentsector.sector[27] = 0x00; + + // Hidden sectors + fs->currentsector.sector[28] = 0x20; + fs->currentsector.sector[29] = 0x00; + fs->currentsector.sector[30] = 0x00; + fs->currentsector.sector[31] = 0x00; + + // Total sectors for this volume + fs->currentsector.sector[32] = (uint8)((vol_sectors>>0)&0xFF); + fs->currentsector.sector[33] = (uint8)((vol_sectors>>8)&0xFF); + fs->currentsector.sector[34] = (uint8)((vol_sectors>>16)&0xFF); + fs->currentsector.sector[35] = (uint8)((vol_sectors>>24)&0xFF); + + // Drive number + fs->currentsector.sector[36] = 0x00; + + // Reserved + fs->currentsector.sector[37] = 0x00; + + // Boot signature + fs->currentsector.sector[38] = 0x29; + + // Volume ID + fs->currentsector.sector[39] = 0x12; + fs->currentsector.sector[40] = 0x34; + fs->currentsector.sector[41] = 0x56; + fs->currentsector.sector[42] = 0x78; + + // Volume name + for (i=0;i<11;i++) + { + if (i < (int)strlen(name)) + fs->currentsector.sector[i+43] = name[i]; + else + fs->currentsector.sector[i+43] = ' '; + } + + // File sys type + fs->currentsector.sector[54] = 'F'; + fs->currentsector.sector[55] = 'A'; + fs->currentsector.sector[56] = 'T'; + fs->currentsector.sector[57] = '1'; + fs->currentsector.sector[58] = '6'; + fs->currentsector.sector[59] = ' '; + fs->currentsector.sector[60] = ' '; + fs->currentsector.sector[61] = ' '; + + // Signature + fs->currentsector.sector[510] = 0x55; + fs->currentsector.sector[511] = 0xAA; + } + // FAT32 BS Details + else + { + // Count of sectors used by the FAT table (FAT16 only) + fs->currentsector.sector[22] = 0; + fs->currentsector.sector[23] = 0; + + // Sectors per track (default) + fs->currentsector.sector[24] = 0x3F; + fs->currentsector.sector[25] = 0x00; + + // Heads (default) + fs->currentsector.sector[26] = 0xFF; + fs->currentsector.sector[27] = 0x00; + + // Hidden sectors + fs->currentsector.sector[28] = 0x00; + fs->currentsector.sector[29] = 0x00; + fs->currentsector.sector[30] = 0x00; + fs->currentsector.sector[31] = 0x00; + + // Total sectors for this volume + fs->currentsector.sector[32] = (uint8)((vol_sectors>>0)&0xFF); + fs->currentsector.sector[33] = (uint8)((vol_sectors>>8)&0xFF); + fs->currentsector.sector[34] = (uint8)((vol_sectors>>16)&0xFF); + fs->currentsector.sector[35] = (uint8)((vol_sectors>>24)&0xFF); + + total_clusters = (vol_sectors / fs->sectors_per_cluster) + 1; + fs->fat_sectors = (total_clusters/(FAT_SECTOR_SIZE/4)) + 1; + + // BPB_FATSz32 + fs->currentsector.sector[36] = (uint8)((fs->fat_sectors>>0)&0xFF); + fs->currentsector.sector[37] = (uint8)((fs->fat_sectors>>8)&0xFF); + fs->currentsector.sector[38] = (uint8)((fs->fat_sectors>>16)&0xFF); + fs->currentsector.sector[39] = (uint8)((fs->fat_sectors>>24)&0xFF); + + // BPB_ExtFlags + fs->currentsector.sector[40] = 0; + fs->currentsector.sector[41] = 0; + + // BPB_FSVer + fs->currentsector.sector[42] = 0; + fs->currentsector.sector[43] = 0; + + // BPB_RootClus + fs->currentsector.sector[44] = (uint8)((fs->rootdir_first_cluster>>0)&0xFF); + fs->currentsector.sector[45] = (uint8)((fs->rootdir_first_cluster>>8)&0xFF); + fs->currentsector.sector[46] = (uint8)((fs->rootdir_first_cluster>>16)&0xFF); + fs->currentsector.sector[47] = (uint8)((fs->rootdir_first_cluster>>24)&0xFF); + + // BPB_FSInfo + fs->currentsector.sector[48] = (uint8)((fs->fs_info_sector>>0)&0xFF); + fs->currentsector.sector[49] = (uint8)((fs->fs_info_sector>>8)&0xFF); + + // BPB_BkBootSec + fs->currentsector.sector[50] = 6; + fs->currentsector.sector[51] = 0; + + // Drive number + fs->currentsector.sector[64] = 0x00; + + // Boot signature + fs->currentsector.sector[66] = 0x29; + + // Volume ID + fs->currentsector.sector[67] = 0x12; + fs->currentsector.sector[68] = 0x34; + fs->currentsector.sector[69] = 0x56; + fs->currentsector.sector[70] = 0x78; + + // Volume name + for (i=0;i<11;i++) + { + if (i < (int)strlen(name)) + fs->currentsector.sector[i+71] = name[i]; + else + fs->currentsector.sector[i+71] = ' '; + } + + // File sys type + fs->currentsector.sector[82] = 'F'; + fs->currentsector.sector[83] = 'A'; + fs->currentsector.sector[84] = 'T'; + fs->currentsector.sector[85] = '3'; + fs->currentsector.sector[86] = '2'; + fs->currentsector.sector[87] = ' '; + fs->currentsector.sector[88] = ' '; + fs->currentsector.sector[89] = ' '; + + // Signature + fs->currentsector.sector[510] = 0x55; + fs->currentsector.sector[511] = 0xAA; + } + + if (fs->disk_io.write_media(boot_sector_lba, fs->currentsector.sector, 1)) + return 1; + else + return 0; +} +//----------------------------------------------------------------------------- +// fatfs_create_fsinfo_sector: Create the FSInfo sector (FAT32) +//----------------------------------------------------------------------------- +static int fatfs_create_fsinfo_sector(struct fatfs *fs, uint32 sector_lba) +{ + // Zero sector initially + memset(fs->currentsector.sector, 0, FAT_SECTOR_SIZE); + + // FSI_LeadSig + fs->currentsector.sector[0] = 0x52; + fs->currentsector.sector[1] = 0x52; + fs->currentsector.sector[2] = 0x61; + fs->currentsector.sector[3] = 0x41; + + // FSI_StrucSig + fs->currentsector.sector[484] = 0x72; + fs->currentsector.sector[485] = 0x72; + fs->currentsector.sector[486] = 0x41; + fs->currentsector.sector[487] = 0x61; + + // FSI_Free_Count + fs->currentsector.sector[488] = 0xFF; + fs->currentsector.sector[489] = 0xFF; + fs->currentsector.sector[490] = 0xFF; + fs->currentsector.sector[491] = 0xFF; + + // FSI_Nxt_Free + fs->currentsector.sector[492] = 0xFF; + fs->currentsector.sector[493] = 0xFF; + fs->currentsector.sector[494] = 0xFF; + fs->currentsector.sector[495] = 0xFF; + + // Signature + fs->currentsector.sector[510] = 0x55; + fs->currentsector.sector[511] = 0xAA; + + if (fs->disk_io.write_media(sector_lba, fs->currentsector.sector, 1)) + return 1; + else + return 0; +} +//----------------------------------------------------------------------------- +// fatfs_erase_fat: Erase FAT table using fs details in fs struct +//----------------------------------------------------------------------------- +static int fatfs_erase_fat(struct fatfs *fs, int is_fat32) +{ + uint32 i; + + // Zero sector initially + memset(fs->currentsector.sector, 0, FAT_SECTOR_SIZE); + + // Initialise default allocate / reserved clusters + if (!is_fat32) + { + SET_16BIT_WORD(fs->currentsector.sector, 0, 0xFFF8); + SET_16BIT_WORD(fs->currentsector.sector, 2, 0xFFFF); + } + else + { + SET_32BIT_WORD(fs->currentsector.sector, 0, 0x0FFFFFF8); + SET_32BIT_WORD(fs->currentsector.sector, 4, 0xFFFFFFFF); + SET_32BIT_WORD(fs->currentsector.sector, 8, 0x0FFFFFFF); + } + + if (!fs->disk_io.write_media(fs->fat_begin_lba + 0, fs->currentsector.sector, 1)) + return 0; + + // Zero remaining FAT sectors + memset(fs->currentsector.sector, 0, FAT_SECTOR_SIZE); + for (i=1;ifat_sectors*fs->num_of_fats;i++) + if (!fs->disk_io.write_media(fs->fat_begin_lba + i, fs->currentsector.sector, 1)) + return 0; + + return 1; +} +//----------------------------------------------------------------------------- +// fatfs_format_fat16: Format a FAT16 partition +//----------------------------------------------------------------------------- +int fatfs_format_fat16(struct fatfs *fs, uint32 volume_sectors, const char *name) +{ + fs->currentsector.address = FAT32_INVALID_CLUSTER; + fs->currentsector.dirty = 0; + + fs->next_free_cluster = 0; // Invalid + + fatfs_fat_init(fs); + + // Make sure we have read + write functions + if (!fs->disk_io.read_media || !fs->disk_io.write_media) + return FAT_INIT_MEDIA_ACCESS_ERROR; + + // Volume is FAT16 + fs->fat_type = FAT_TYPE_16; + + // Not valid for FAT16 + fs->fs_info_sector = 0; + fs->rootdir_first_cluster = 0; + + // Sector 0: Boot sector + // NOTE: We don't need an MBR, it is a waste of a good sector! + fs->lba_begin = 0; + if (!fatfs_create_boot_sector(fs, fs->lba_begin, volume_sectors, name, 0)) + return 0; + + // For FAT16 (which this may be), rootdir_first_cluster is actuall rootdir_first_sector + fs->rootdir_first_sector = fs->reserved_sectors + (fs->num_of_fats * fs->fat_sectors); + fs->rootdir_sectors = ((fs->root_entry_count * 32) + (FAT_SECTOR_SIZE - 1)) / FAT_SECTOR_SIZE; + + // First FAT LBA address + fs->fat_begin_lba = fs->lba_begin + fs->reserved_sectors; + + // The address of the first data cluster on this volume + fs->cluster_begin_lba = fs->fat_begin_lba + (fs->num_of_fats * fs->fat_sectors); + + // Initialise FAT sectors + if (!fatfs_erase_fat(fs, 0)) + return 0; + + // Erase Root directory + if (!fatfs_erase_sectors(fs, fs->lba_begin + fs->rootdir_first_sector, fs->rootdir_sectors)) + return 0; + + return 1; +} +//----------------------------------------------------------------------------- +// fatfs_format_fat32: Format a FAT32 partition +//----------------------------------------------------------------------------- +int fatfs_format_fat32(struct fatfs *fs, uint32 volume_sectors, const char *name) +{ + fs->currentsector.address = FAT32_INVALID_CLUSTER; + fs->currentsector.dirty = 0; + + fs->next_free_cluster = 0; // Invalid + + fatfs_fat_init(fs); + + // Make sure we have read + write functions + if (!fs->disk_io.read_media || !fs->disk_io.write_media) + return FAT_INIT_MEDIA_ACCESS_ERROR; + + // Volume is FAT32 + fs->fat_type = FAT_TYPE_32; + + // Basic defaults for normal FAT32 partitions + fs->fs_info_sector = 1; + fs->rootdir_first_cluster = 2; + + // Sector 0: Boot sector + // NOTE: We don't need an MBR, it is a waste of a good sector! + fs->lba_begin = 0; + if (!fatfs_create_boot_sector(fs, fs->lba_begin, volume_sectors, name, 1)) + return 0; + + // First FAT LBA address + fs->fat_begin_lba = fs->lba_begin + fs->reserved_sectors; + + // The address of the first data cluster on this volume + fs->cluster_begin_lba = fs->fat_begin_lba + (fs->num_of_fats * fs->fat_sectors); + + // Initialise FSInfo sector + if (!fatfs_create_fsinfo_sector(fs, fs->fs_info_sector)) + return 0; + + // Initialise FAT sectors + if (!fatfs_erase_fat(fs, 1)) + return 0; + + // Erase Root directory + if (!fatfs_erase_sectors(fs, fatfs_lba_of_cluster(fs, fs->rootdir_first_cluster), fs->sectors_per_cluster)) + return 0; + + return 1; +} +//----------------------------------------------------------------------------- +// fatfs_format: Format a partition with either FAT16 or FAT32 based on size +//----------------------------------------------------------------------------- +int fatfs_format(struct fatfs *fs, uint32 volume_sectors, const char *name) +{ + // 2GB - 32K limit for safe behaviour for FAT16 + if (volume_sectors <= 4194304) + return fatfs_format_fat16(fs, volume_sectors, name); + else + return fatfs_format_fat32(fs, volume_sectors, name); +} +#endif /*FATFS_INC_FORMAT_SUPPORT*/ diff --git a/vtoycli/fat_io_lib/release/fat_format.h b/vtoycli/fat_io_lib/release/fat_format.h new file mode 100644 index 00000000000..a8a6bbaf1b8 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_format.h @@ -0,0 +1,15 @@ +#ifndef __FAT_FORMAT_H__ +#define __FAT_FORMAT_H__ + +#include "fat_defs.h" +#include "fat_opts.h" +#include "fat_access.h" + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +int fatfs_format(struct fatfs *fs, uint32 volume_sectors, const char *name); +int fatfs_format_fat16(struct fatfs *fs, uint32 volume_sectors, const char *name); +int fatfs_format_fat32(struct fatfs *fs, uint32 volume_sectors, const char *name); + +#endif diff --git a/vtoycli/fat_io_lib/release/fat_list.h b/vtoycli/fat_io_lib/release/fat_list.h new file mode 100644 index 00000000000..bd386ef6a6a --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_list.h @@ -0,0 +1,161 @@ +#ifndef __FAT_LIST_H__ +#define __FAT_LIST_H__ + +#ifndef FAT_ASSERT + #define FAT_ASSERT(x) +#endif + +#ifndef FAT_INLINE + #define FAT_INLINE +#endif + +//----------------------------------------------------------------- +// Types +//----------------------------------------------------------------- +struct fat_list; + +struct fat_node +{ + struct fat_node *previous; + struct fat_node *next; +}; + +struct fat_list +{ + struct fat_node *head; + struct fat_node *tail; +}; + +//----------------------------------------------------------------- +// Macros +//----------------------------------------------------------------- +#define fat_list_entry(p, t, m) p ? ((t *)((char *)(p)-(char*)(&((t *)0)->m))) : 0 +#define fat_list_next(l, p) (p)->next +#define fat_list_prev(l, p) (p)->previous +#define fat_list_first(l) (l)->head +#define fat_list_last(l) (l)->tail +#define fat_list_for_each(l, p) for ((p) = (l)->head; (p); (p) = (p)->next) + +//----------------------------------------------------------------- +// Inline Functions +//----------------------------------------------------------------- + +//----------------------------------------------------------------- +// fat_list_init: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_init(struct fat_list *list) +{ + FAT_ASSERT(list); + + list->head = list->tail = 0; +} +//----------------------------------------------------------------- +// fat_list_remove: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_remove(struct fat_list *list, struct fat_node *node) +{ + FAT_ASSERT(list); + FAT_ASSERT(node); + + if(!node->previous) + list->head = node->next; + else + node->previous->next = node->next; + + if(!node->next) + list->tail = node->previous; + else + node->next->previous = node->previous; +} +//----------------------------------------------------------------- +// fat_list_insert_after: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_insert_after(struct fat_list *list, struct fat_node *node, struct fat_node *new_node) +{ + FAT_ASSERT(list); + FAT_ASSERT(node); + FAT_ASSERT(new_node); + + new_node->previous = node; + new_node->next = node->next; + if (!node->next) + list->tail = new_node; + else + node->next->previous = new_node; + node->next = new_node; +} +//----------------------------------------------------------------- +// fat_list_insert_before: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_insert_before(struct fat_list *list, struct fat_node *node, struct fat_node *new_node) +{ + FAT_ASSERT(list); + FAT_ASSERT(node); + FAT_ASSERT(new_node); + + new_node->previous = node->previous; + new_node->next = node; + if (!node->previous) + list->head = new_node; + else + node->previous->next = new_node; + node->previous = new_node; +} +//----------------------------------------------------------------- +// fat_list_insert_first: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_insert_first(struct fat_list *list, struct fat_node *node) +{ + FAT_ASSERT(list); + FAT_ASSERT(node); + + if (!list->head) + { + list->head = node; + list->tail = node; + node->previous = 0; + node->next = 0; + } + else + fat_list_insert_before(list, list->head, node); +} +//----------------------------------------------------------------- +// fat_list_insert_last: +//----------------------------------------------------------------- +static FAT_INLINE void fat_list_insert_last(struct fat_list *list, struct fat_node *node) +{ + FAT_ASSERT(list); + FAT_ASSERT(node); + + if (!list->tail) + fat_list_insert_first(list, node); + else + fat_list_insert_after(list, list->tail, node); +} +//----------------------------------------------------------------- +// fat_list_is_empty: +//----------------------------------------------------------------- +static FAT_INLINE int fat_list_is_empty(struct fat_list *list) +{ + FAT_ASSERT(list); + + return !list->head; +} +//----------------------------------------------------------------- +// fat_list_pop_head: +//----------------------------------------------------------------- +static FAT_INLINE struct fat_node * fat_list_pop_head(struct fat_list *list) +{ + struct fat_node * node; + + FAT_ASSERT(list); + + node = fat_list_first(list); + if (node) + fat_list_remove(list, node); + + return node; +} + +#endif + diff --git a/vtoycli/fat_io_lib/release/fat_misc.c b/vtoycli/fat_io_lib/release/fat_misc.c new file mode 100644 index 00000000000..cbf6f08d388 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_misc.c @@ -0,0 +1,505 @@ +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +// FAT16/32 File IO Library +// V2.6 +// Ultra-Embedded.com +// Copyright 2003 - 2012 +// +// Email: admin@ultra-embedded.com +// +// License: GPL +// If you would like a version with a more permissive license for use in +// closed source commercial applications please contact me for details. +//----------------------------------------------------------------------------- +// +// This file is part of FAT File IO Library. +// +// FAT File IO Library 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. +// +// FAT File IO Library 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 FAT File IO Library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +#include +#include +#include "fat_misc.h" + +//----------------------------------------------------------------------------- +// fatfs_lfn_cache_init: Clear long file name cache +//----------------------------------------------------------------------------- +void fatfs_lfn_cache_init(struct lfn_cache *lfn, int wipeTable) +{ + int i = 0; + + lfn->no_of_strings = 0; + +#if FATFS_INC_LFN_SUPPORT + + // Zero out buffer also + if (wipeTable) + for (i=0;iString[i], 0x00, MAX_LFN_ENTRY_LENGTH); +#endif +} +//----------------------------------------------------------------------------- +// fatfs_lfn_cache_entry - Function extracts long file name text from sector +// at a specific offset +//----------------------------------------------------------------------------- +#if FATFS_INC_LFN_SUPPORT +void fatfs_lfn_cache_entry(struct lfn_cache *lfn, uint8 *entryBuffer) +{ + uint8 LFNIndex, i; + LFNIndex = entryBuffer[0] & 0x1F; + + // Limit file name to cache size! + if (LFNIndex > MAX_LONGFILENAME_ENTRIES) + return ; + + // This is an error condition + if (LFNIndex == 0) + return ; + + if (lfn->no_of_strings == 0) + lfn->no_of_strings = LFNIndex; + + lfn->String[LFNIndex-1][0] = entryBuffer[1]; + lfn->String[LFNIndex-1][1] = entryBuffer[3]; + lfn->String[LFNIndex-1][2] = entryBuffer[5]; + lfn->String[LFNIndex-1][3] = entryBuffer[7]; + lfn->String[LFNIndex-1][4] = entryBuffer[9]; + lfn->String[LFNIndex-1][5] = entryBuffer[0x0E]; + lfn->String[LFNIndex-1][6] = entryBuffer[0x10]; + lfn->String[LFNIndex-1][7] = entryBuffer[0x12]; + lfn->String[LFNIndex-1][8] = entryBuffer[0x14]; + lfn->String[LFNIndex-1][9] = entryBuffer[0x16]; + lfn->String[LFNIndex-1][10] = entryBuffer[0x18]; + lfn->String[LFNIndex-1][11] = entryBuffer[0x1C]; + lfn->String[LFNIndex-1][12] = entryBuffer[0x1E]; + + for (i=0; iString[LFNIndex-1][i]==0xFF) + lfn->String[LFNIndex-1][i] = 0x20; // Replace with spaces +} +#endif +//----------------------------------------------------------------------------- +// fatfs_lfn_cache_get: Get a reference to the long filename +//----------------------------------------------------------------------------- +#if FATFS_INC_LFN_SUPPORT +char* fatfs_lfn_cache_get(struct lfn_cache *lfn) +{ + // Null terminate long filename + if (lfn->no_of_strings == MAX_LONGFILENAME_ENTRIES) + lfn->Null = '\0'; + else if (lfn->no_of_strings) + lfn->String[lfn->no_of_strings][0] = '\0'; + else + lfn->String[0][0] = '\0'; + + return (char*)&lfn->String[0][0]; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_entry_lfn_text: If LFN text entry found +//----------------------------------------------------------------------------- +#if FATFS_INC_LFN_SUPPORT +int fatfs_entry_lfn_text(struct fat_dir_entry *entry) +{ + if ((entry->Attr & FILE_ATTR_LFN_TEXT) == FILE_ATTR_LFN_TEXT) + return 1; + else + return 0; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_entry_lfn_invalid: If SFN found not relating to LFN +//----------------------------------------------------------------------------- +#if FATFS_INC_LFN_SUPPORT +int fatfs_entry_lfn_invalid(struct fat_dir_entry *entry) +{ + if ( (entry->Name[0]==FILE_HEADER_BLANK) || + (entry->Name[0]==FILE_HEADER_DELETED)|| + (entry->Attr==FILE_ATTR_VOLUME_ID) || + (entry->Attr & FILE_ATTR_SYSHID) ) + return 1; + else + return 0; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_entry_lfn_exists: If LFN exists and correlation SFN found +//----------------------------------------------------------------------------- +#if FATFS_INC_LFN_SUPPORT +int fatfs_entry_lfn_exists(struct lfn_cache *lfn, struct fat_dir_entry *entry) +{ + if ( (entry->Attr!=FILE_ATTR_LFN_TEXT) && + (entry->Name[0]!=FILE_HEADER_BLANK) && + (entry->Name[0]!=FILE_HEADER_DELETED) && + (entry->Attr!=FILE_ATTR_VOLUME_ID) && + (!(entry->Attr&FILE_ATTR_SYSHID)) && + (lfn->no_of_strings) ) + return 1; + else + return 0; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_entry_sfn_only: If SFN only exists +//----------------------------------------------------------------------------- +int fatfs_entry_sfn_only(struct fat_dir_entry *entry) +{ + if ( (entry->Attr!=FILE_ATTR_LFN_TEXT) && + (entry->Name[0]!=FILE_HEADER_BLANK) && + (entry->Name[0]!=FILE_HEADER_DELETED) && + (entry->Attr!=FILE_ATTR_VOLUME_ID) && + (!(entry->Attr&FILE_ATTR_SYSHID)) ) + return 1; + else + return 0; +} +// TODO: FILE_ATTR_SYSHID ?!?!??! +//----------------------------------------------------------------------------- +// fatfs_entry_is_dir: Returns 1 if a directory +//----------------------------------------------------------------------------- +int fatfs_entry_is_dir(struct fat_dir_entry *entry) +{ + if (entry->Attr & FILE_TYPE_DIR) + return 1; + else + return 0; +} +//----------------------------------------------------------------------------- +// fatfs_entry_is_file: Returns 1 is a file entry +//----------------------------------------------------------------------------- +int fatfs_entry_is_file(struct fat_dir_entry *entry) +{ + if (entry->Attr & FILE_TYPE_FILE) + return 1; + else + return 0; +} +//----------------------------------------------------------------------------- +// fatfs_lfn_entries_required: Calculate number of 13 characters entries +//----------------------------------------------------------------------------- +#if FATFS_INC_LFN_SUPPORT +int fatfs_lfn_entries_required(char *filename) +{ + int length = (int)strlen(filename); + + if (length) + return (length + MAX_LFN_ENTRY_LENGTH - 1) / MAX_LFN_ENTRY_LENGTH; + else + return 0; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_filename_to_lfn: +//----------------------------------------------------------------------------- +#if FATFS_INC_LFN_SUPPORT +void fatfs_filename_to_lfn(char *filename, uint8 *buffer, int entry, uint8 sfnChk) +{ + int i; + int nameIndexes[MAX_LFN_ENTRY_LENGTH] = {1,3,5,7,9,0x0E,0x10,0x12,0x14,0x16,0x18,0x1C,0x1E}; + + // 13 characters entries + int length = (int)strlen(filename); + int entriesRequired = fatfs_lfn_entries_required(filename); + + // Filename offset + int start = entry * MAX_LFN_ENTRY_LENGTH; + + // Initialise to zeros + memset(buffer, 0x00, FAT_DIR_ENTRY_SIZE); + + // LFN entry number + buffer[0] = (uint8)(((entriesRequired-1)==entry)?(0x40|(entry+1)):(entry+1)); + + // LFN flag + buffer[11] = 0x0F; + + // Checksum of short filename + buffer[13] = sfnChk; + + // Copy to buffer + for (i=0;iName[i] = shortfilename[i]; + + // Unless we have a RTC we might as well set these to 1980 + entry->CrtTimeTenth = 0x00; + entry->CrtTime[1] = entry->CrtTime[0] = 0x00; + entry->CrtDate[1] = 0x00; + entry->CrtDate[0] = 0x20; + entry->LstAccDate[1] = 0x00; + entry->LstAccDate[0] = 0x20; + entry->WrtTime[1] = entry->WrtTime[0] = 0x00; + entry->WrtDate[1] = 0x00; + entry->WrtDate[0] = 0x20; + + if (!dir) + entry->Attr = FILE_TYPE_FILE; + else + entry->Attr = FILE_TYPE_DIR; + + entry->NTRes = 0x00; + + entry->FstClusHI = FAT_HTONS((uint16)((startCluster>>16) & 0xFFFF)); + entry->FstClusLO = FAT_HTONS((uint16)((startCluster>>0) & 0xFFFF)); + entry->FileSize = FAT_HTONL(size); +} +#endif +//----------------------------------------------------------------------------- +// fatfs_lfn_create_sfn: Create a padded SFN +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fatfs_lfn_create_sfn(char *sfn_output, char *filename) +{ + int i; + int dotPos = -1; + char ext[3]; + int pos; + int len = (int)strlen(filename); + + // Invalid to start with . + if (filename[0]=='.') + return 0; + + memset(sfn_output, ' ', FAT_SFN_SIZE_FULL); + memset(ext, ' ', 3); + + // Find dot seperator + for (i = 0; i< len; i++) + { + if (filename[i]=='.') + dotPos = i; + } + + // Extract extensions + if (dotPos!=-1) + { + // Copy first three chars of extension + for (i = (dotPos+1); i < (dotPos+1+3); i++) + if (i= 'a' && filename[i] <= 'z') + sfn_output[pos++] = filename[i] - 'a' + 'A'; + else + sfn_output[pos++] = filename[i]; + } + + // Fill upto 8 characters + if (pos==FAT_SFN_SIZE_PARTIAL) + break; + } + + // Add extension part + for (i=FAT_SFN_SIZE_PARTIAL;i= 'a' && ext[i-FAT_SFN_SIZE_PARTIAL] <= 'z') + sfn_output[i] = ext[i-FAT_SFN_SIZE_PARTIAL] - 'a' + 'A'; + else + sfn_output[i] = ext[i-FAT_SFN_SIZE_PARTIAL]; + } + + return 1; +} +//----------------------------------------------------------------------------- +// fatfs_itoa: +//----------------------------------------------------------------------------- +static void fatfs_itoa(uint32 num, char *s) +{ + char* cp; + char outbuf[12]; + const char digits[] = "0123456789ABCDEF"; + + // Build string backwards + cp = outbuf; + do + { + *cp++ = digits[(int)(num % 10)]; + } + while ((num /= 10) > 0); + + *cp-- = 0; + + // Copy in forwards + while (cp >= outbuf) + *s++ = *cp--; + + *s = 0; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_lfn_generate_tail: +// sfn_input = Input short filename, spaced format & in upper case +// sfn_output = Output short filename with tail +//----------------------------------------------------------------------------- +#if FATFS_INC_LFN_SUPPORT +#if FATFS_INC_WRITE_SUPPORT +int fatfs_lfn_generate_tail(char *sfn_output, char *sfn_input, uint32 tailNum) +{ + int tail_chars; + char tail_str[12]; + + if (tailNum > 99999) + return 0; + + // Convert to number + memset(tail_str, 0x00, sizeof(tail_str)); + tail_str[0] = '~'; + fatfs_itoa(tailNum, tail_str+1); + + // Copy in base filename + memcpy(sfn_output, sfn_input, FAT_SFN_SIZE_FULL); + + // Overwrite with tail + tail_chars = (int)strlen(tail_str); + memcpy(sfn_output+(FAT_SFN_SIZE_PARTIAL-tail_chars), tail_str, tail_chars); + + return 1; +} +#endif +#endif +//----------------------------------------------------------------------------- +// fatfs_convert_from_fat_time: Convert FAT time to h/m/s +//----------------------------------------------------------------------------- +#if FATFS_INC_TIME_DATE_SUPPORT +void fatfs_convert_from_fat_time(uint16 fat_time, int *hours, int *minutes, int *seconds) +{ + *hours = (fat_time >> FAT_TIME_HOURS_SHIFT) & FAT_TIME_HOURS_MASK; + *minutes = (fat_time >> FAT_TIME_MINUTES_SHIFT) & FAT_TIME_MINUTES_MASK; + *seconds = (fat_time >> FAT_TIME_SECONDS_SHIFT) & FAT_TIME_SECONDS_MASK; + *seconds = *seconds * FAT_TIME_SECONDS_SCALE; +} +//----------------------------------------------------------------------------- +// fatfs_convert_from_fat_date: Convert FAT date to d/m/y +//----------------------------------------------------------------------------- +void fatfs_convert_from_fat_date(uint16 fat_date, int *day, int *month, int *year) +{ + *day = (fat_date >> FAT_DATE_DAY_SHIFT) & FAT_DATE_DAY_MASK; + *month = (fat_date >> FAT_DATE_MONTH_SHIFT) & FAT_DATE_MONTH_MASK; + *year = (fat_date >> FAT_DATE_YEAR_SHIFT) & FAT_DATE_YEAR_MASK; + *year = *year + FAT_DATE_YEAR_OFFSET; +} +//----------------------------------------------------------------------------- +// fatfs_convert_to_fat_time: Convert h/m/s to FAT time +//----------------------------------------------------------------------------- +uint16 fatfs_convert_to_fat_time(int hours, int minutes, int seconds) +{ + uint16 fat_time = 0; + + // Most FAT times are to a resolution of 2 seconds + seconds /= FAT_TIME_SECONDS_SCALE; + + fat_time = (hours & FAT_TIME_HOURS_MASK) << FAT_TIME_HOURS_SHIFT; + fat_time|= (minutes & FAT_TIME_MINUTES_MASK) << FAT_TIME_MINUTES_SHIFT; + fat_time|= (seconds & FAT_TIME_SECONDS_MASK) << FAT_TIME_SECONDS_SHIFT; + + return fat_time; +} +//----------------------------------------------------------------------------- +// fatfs_convert_to_fat_date: Convert d/m/y to FAT date +//----------------------------------------------------------------------------- +uint16 fatfs_convert_to_fat_date(int day, int month, int year) +{ + uint16 fat_date = 0; + + // FAT dates are relative to 1980 + if (year >= FAT_DATE_YEAR_OFFSET) + year -= FAT_DATE_YEAR_OFFSET; + + fat_date = (day & FAT_DATE_DAY_MASK) << FAT_DATE_DAY_SHIFT; + fat_date|= (month & FAT_DATE_MONTH_MASK) << FAT_DATE_MONTH_SHIFT; + fat_date|= (year & FAT_DATE_YEAR_MASK) << FAT_DATE_YEAR_SHIFT; + + return fat_date; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_print_sector: +//----------------------------------------------------------------------------- +#ifdef FATFS_DEBUG +void fatfs_print_sector(uint32 sector, uint8 *data) +{ + int i; + int j; + + FAT_PRINTF(("Sector %d:\n", sector)); + + for (i=0;i 31 && ch < 127) + { + FAT_PRINTF(("%c", ch)); + } + else + { + FAT_PRINTF((".")); + } + } + + FAT_PRINTF(("\n")); + } + } +} +#endif diff --git a/vtoycli/fat_io_lib/release/fat_misc.h b/vtoycli/fat_io_lib/release/fat_misc.h new file mode 100644 index 00000000000..0c026343f4c --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_misc.h @@ -0,0 +1,63 @@ +#ifndef __FAT_MISC_H__ +#define __FAT_MISC_H__ + +#include "fat_defs.h" +#include "fat_opts.h" + +//----------------------------------------------------------------------------- +// Defines +//----------------------------------------------------------------------------- +#define MAX_LONGFILENAME_ENTRIES 20 +#define MAX_LFN_ENTRY_LENGTH 13 + +//----------------------------------------------------------------------------- +// Macros +//----------------------------------------------------------------------------- +#define GET_32BIT_WORD(buffer, location) ( ((uint32)buffer[location+3]<<24) + ((uint32)buffer[location+2]<<16) + ((uint32)buffer[location+1]<<8) + (uint32)buffer[location+0] ) +#define GET_16BIT_WORD(buffer, location) ( ((uint16)buffer[location+1]<<8) + (uint16)buffer[location+0] ) + +#define SET_32BIT_WORD(buffer, location, value) { buffer[location+0] = (uint8)((value)&0xFF); \ + buffer[location+1] = (uint8)((value>>8)&0xFF); \ + buffer[location+2] = (uint8)((value>>16)&0xFF); \ + buffer[location+3] = (uint8)((value>>24)&0xFF); } + +#define SET_16BIT_WORD(buffer, location, value) { buffer[location+0] = (uint8)((value)&0xFF); \ + buffer[location+1] = (uint8)((value>>8)&0xFF); } + +//----------------------------------------------------------------------------- +// Structures +//----------------------------------------------------------------------------- +struct lfn_cache +{ +#if FATFS_INC_LFN_SUPPORT + // Long File Name Structure (max 260 LFN length) + uint8 String[MAX_LONGFILENAME_ENTRIES][MAX_LFN_ENTRY_LENGTH]; + uint8 Null; +#endif + uint8 no_of_strings; +}; + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +void fatfs_lfn_cache_init(struct lfn_cache *lfn, int wipeTable); +void fatfs_lfn_cache_entry(struct lfn_cache *lfn, uint8 *entryBuffer); +char* fatfs_lfn_cache_get(struct lfn_cache *lfn); +int fatfs_entry_lfn_text(struct fat_dir_entry *entry); +int fatfs_entry_lfn_invalid(struct fat_dir_entry *entry); +int fatfs_entry_lfn_exists(struct lfn_cache *lfn, struct fat_dir_entry *entry); +int fatfs_entry_sfn_only(struct fat_dir_entry *entry); +int fatfs_entry_is_dir(struct fat_dir_entry *entry); +int fatfs_entry_is_file(struct fat_dir_entry *entry); +int fatfs_lfn_entries_required(char *filename); +void fatfs_filename_to_lfn(char *filename, uint8 *buffer, int entry, uint8 sfnChk); +void fatfs_sfn_create_entry(char *shortfilename, uint32 size, uint32 startCluster, struct fat_dir_entry *entry, int dir); +int fatfs_lfn_create_sfn(char *sfn_output, char *filename); +int fatfs_lfn_generate_tail(char *sfn_output, char *sfn_input, uint32 tailNum); +void fatfs_convert_from_fat_time(uint16 fat_time, int *hours, int *minutes, int *seconds); +void fatfs_convert_from_fat_date(uint16 fat_date, int *day, int *month, int *year); +uint16 fatfs_convert_to_fat_time(int hours, int minutes, int seconds); +uint16 fatfs_convert_to_fat_date(int day, int month, int year); +void fatfs_print_sector(uint32 sector, uint8 *data); + +#endif diff --git a/vtoycli/fat_io_lib/release/fat_opts.h b/vtoycli/fat_io_lib/release/fat_opts.h new file mode 100644 index 00000000000..ac4dc860acd --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_opts.h @@ -0,0 +1,90 @@ +#ifndef __FAT_OPTS_H__ +#define __FAT_OPTS_H__ + +#ifdef FATFS_USE_CUSTOM_OPTS_FILE + #include "fat_custom.h" +#endif + +//------------------------------------------------------------- +// Configuration +//------------------------------------------------------------- + +// Is the processor little endian (1) or big endian (0) +#ifndef FATFS_IS_LITTLE_ENDIAN + #define FATFS_IS_LITTLE_ENDIAN 1 +#endif + +// Max filename Length +#ifndef FATFS_MAX_LONG_FILENAME + #define FATFS_MAX_LONG_FILENAME 260 +#endif + +// Max open files (reduce to lower memory requirements) +#ifndef FATFS_MAX_OPEN_FILES + #define FATFS_MAX_OPEN_FILES 2 +#endif + +// Number of sectors per FAT_BUFFER (min 1) +#ifndef FAT_BUFFER_SECTORS + #define FAT_BUFFER_SECTORS 1 +#endif + +// Max FAT sectors to buffer (min 1) +// (mem used is FAT_BUFFERS * FAT_BUFFER_SECTORS * FAT_SECTOR_SIZE) +#ifndef FAT_BUFFERS + #define FAT_BUFFERS 1 +#endif + +// Size of cluster chain cache (can be undefined) +// Mem used = FAT_CLUSTER_CACHE_ENTRIES * 4 * 2 +// Improves access speed considerably +//#define FAT_CLUSTER_CACHE_ENTRIES 128 + +// Include support for writing files (1 / 0)? +#ifndef FATFS_INC_WRITE_SUPPORT + #define FATFS_INC_WRITE_SUPPORT 1 +#endif + +// Support long filenames (1 / 0)? +// (if not (0) only 8.3 format is supported) +#ifndef FATFS_INC_LFN_SUPPORT + #define FATFS_INC_LFN_SUPPORT 1 +#endif + +// Support directory listing (1 / 0)? +#ifndef FATFS_DIR_LIST_SUPPORT + #define FATFS_DIR_LIST_SUPPORT 1 +#endif + +// Support time/date (1 / 0)? +#ifndef FATFS_INC_TIME_DATE_SUPPORT + #define FATFS_INC_TIME_DATE_SUPPORT 0 +#endif + +// Include support for formatting disks (1 / 0)? +#ifndef FATFS_INC_FORMAT_SUPPORT + #define FATFS_INC_FORMAT_SUPPORT 1 +#endif + +// Sector size used +#define FAT_SECTOR_SIZE 512 + +// Printf output (directory listing / debug) +#ifndef FAT_PRINTF + // Don't include stdio, but there is a printf function available + #ifdef FAT_PRINTF_NOINC_STDIO + extern int printf(const char* ctrl1, ... ); + #define FAT_PRINTF(a) printf a + // Include stdio to use printf + #else + #include + #define FAT_PRINTF(a) printf a + #endif +#endif + +// Time/Date support requires time.h +#if FATFS_INC_TIME_DATE_SUPPORT + #include +#endif + +#endif diff --git a/vtoycli/fat_io_lib/release/fat_string.c b/vtoycli/fat_io_lib/release/fat_string.c new file mode 100644 index 00000000000..f7206ce77e9 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_string.c @@ -0,0 +1,514 @@ +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +// FAT16/32 File IO Library +// V2.6 +// Ultra-Embedded.com +// Copyright 2003 - 2012 +// +// Email: admin@ultra-embedded.com +// +// License: GPL +// If you would like a version with a more permissive license for use in +// closed source commercial applications please contact me for details. +//----------------------------------------------------------------------------- +// +// This file is part of FAT File IO Library. +// +// FAT File IO Library 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. +// +// FAT File IO Library 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 FAT File IO Library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +#include +#include +#include "fat_string.h" + +//----------------------------------------------------------------------------- +// fatfs_total_path_levels: Take a filename and path and count the sub levels +// of folders. E.g. C:\folder\file.zip = 1 level +// Acceptable input formats are: +// c:\folder\file.zip +// /dev/etc/samba.conf +// Returns: -1 = Error, 0 or more = Ok +//----------------------------------------------------------------------------- +int fatfs_total_path_levels(char *path) +{ + int levels = 0; + char expectedchar; + + if (!path) + return -1; + + // Acceptable formats: + // c:\folder\file.zip + // /dev/etc/samba.conf + if (*path == '/') + { + expectedchar = '/'; + path++; + } + else if (path[1] == ':' || path[2] == '\\') + { + expectedchar = '\\'; + path += 3; + } + else + return -1; + + // Count levels in path string + while (*path) + { + // Fast forward through actual subdir text to next slash + for (; *path; ) + { + // If slash detected escape from for loop + if (*path == expectedchar) { path++; break; } + path++; + } + + // Increase number of subdirs founds + levels++; + } + + // Subtract the file itself + return levels-1; +} +//----------------------------------------------------------------------------- +// fatfs_get_substring: Get a substring from 'path' which contains the folder +// (or file) at the specified level. +// E.g. C:\folder\file.zip : Level 0 = C:\folder, Level 1 = file.zip +// Returns: -1 = Error, 0 = Ok +//----------------------------------------------------------------------------- +int fatfs_get_substring(char *path, int levelreq, char *output, int max_len) +{ + int i; + int pathlen=0; + int levels=0; + int copypnt=0; + char expectedchar; + + if (!path || max_len <= 0) + return -1; + + // Acceptable formats: + // c:\folder\file.zip + // /dev/etc/samba.conf + if (*path == '/') + { + expectedchar = '/'; + path++; + } + else if (path[1] == ':' || path[2] == '\\') + { + expectedchar = '\\'; + path += 3; + } + else + return -1; + + // Get string length of path + pathlen = (int)strlen (path); + + // Loop through the number of times as characters in 'path' + for (i = 0; i path = C:\folder filename = file.zip +// E.g. C:\file.zip -> path = [blank] filename = file.zip +//----------------------------------------------------------------------------- +int fatfs_split_path(char *full_path, char *path, int max_path, char *filename, int max_filename) +{ + int strindex; + + // Count the levels to the filepath + int levels = fatfs_total_path_levels(full_path); + if (levels == -1) + return -1; + + // Get filename part of string + if (fatfs_get_substring(full_path, levels, filename, max_filename) != 0) + return -1; + + // If root file + if (levels == 0) + path[0] = '\0'; + else + { + strindex = (int)strlen(full_path) - (int)strlen(filename); + if (strindex > max_path) + strindex = max_path; + + memcpy(path, full_path, strindex); + path[strindex-1] = '\0'; + } + + return 0; +} +//----------------------------------------------------------------------------- +// FileString_StrCmpNoCase: Compare two strings case with case sensitivity +//----------------------------------------------------------------------------- +static int FileString_StrCmpNoCase(char *s1, char *s2, int n) +{ + int diff; + char a,b; + + while (n--) + { + a = *s1; + b = *s2; + + // Make lower case if uppercase + if ((a>='A') && (a<='Z')) + a+= 32; + if ((b>='A') && (b<='Z')) + b+= 32; + + diff = a - b; + + // If different + if (diff) + return diff; + + // If run out of strings + if ( (*s1 == 0) || (*s2 == 0) ) + break; + + s1++; + s2++; + } + return 0; +} +//----------------------------------------------------------------------------- +// FileString_GetExtension: Get index to extension within filename +// Returns -1 if not found or index otherwise +//----------------------------------------------------------------------------- +static int FileString_GetExtension(char *str) +{ + int dotPos = -1; + char *strSrc = str; + + // Find last '.' in string (if at all) + while (*strSrc) + { + if (*strSrc=='.') + dotPos = (int)(strSrc-str); + + strSrc++; + } + + return dotPos; +} +//----------------------------------------------------------------------------- +// FileString_TrimLength: Get length of string excluding trailing spaces +// Returns -1 if not found or index otherwise +//----------------------------------------------------------------------------- +static int FileString_TrimLength(char *str, int strLen) +{ + int length = strLen; + char *strSrc = str+strLen-1; + + // Find last non white space + while (strLen != 0) + { + if (*strSrc == ' ') + length = (int)(strSrc - str); + else + break; + + strSrc--; + strLen--; + } + + return length; +} +//----------------------------------------------------------------------------- +// fatfs_compare_names: Compare two filenames (without copying or changing origonals) +// Returns 1 if match, 0 if not +//----------------------------------------------------------------------------- +int fatfs_compare_names(char* strA, char* strB) +{ + char *ext1 = NULL; + char *ext2 = NULL; + int ext1Pos, ext2Pos; + int file1Len, file2Len; + + // Get both files extension + ext1Pos = FileString_GetExtension(strA); + ext2Pos = FileString_GetExtension(strB); + + // NOTE: Extension position can be different for matching + // filename if trailing space are present before it! + // Check that if one has an extension, so does the other + if ((ext1Pos==-1) && (ext2Pos!=-1)) + return 0; + if ((ext2Pos==-1) && (ext1Pos!=-1)) + return 0; + + // If they both have extensions, compare them + if (ext1Pos!=-1) + { + // Set pointer to start of extension + ext1 = strA+ext1Pos+1; + ext2 = strB+ext2Pos+1; + + // Verify that the file extension lengths match! + if (strlen(ext1) != strlen(ext2)) + return 0; + + // If they dont match + if (FileString_StrCmpNoCase(ext1, ext2, (int)strlen(ext1))!=0) + return 0; + + // Filelength is upto extensions + file1Len = ext1Pos; + file2Len = ext2Pos; + } + // No extensions + else + { + // Filelength is actual filelength + file1Len = (int)strlen(strA); + file2Len = (int)strlen(strB); + } + + // Find length without trailing spaces (before ext) + file1Len = FileString_TrimLength(strA, file1Len); + file2Len = FileString_TrimLength(strB, file2Len); + + // Check the file lengths match + if (file1Len!=file2Len) + return 0; + + // Compare main part of filenames + if (FileString_StrCmpNoCase(strA, strB, file1Len)!=0) + return 0; + else + return 1; +} +//----------------------------------------------------------------------------- +// fatfs_string_ends_with_slash: Does the string end with a slash (\ or /) +//----------------------------------------------------------------------------- +int fatfs_string_ends_with_slash(char *path) +{ + if (path) + { + while (*path) + { + // Last character? + if (!(*(path+1))) + { + if (*path == '\\' || *path == '/') + return 1; + } + + path++; + } + } + + return 0; +} +//----------------------------------------------------------------------------- +// fatfs_get_sfn_display_name: Get display name for SFN entry +//----------------------------------------------------------------------------- +int fatfs_get_sfn_display_name(char* out, char* in) +{ + int len = 0; + while (*in && len <= 11) + { + char a = *in++; + + if (a == ' ') + continue; + // Make lower case if uppercase + else if ((a>='A') && (a<='Z')) + a+= 32; + + *out++ = a; + len++; + } + + *out = '\0'; + return 1; +} +//----------------------------------------------------------------------------- +// fatfs_get_extension: Get extension of filename passed in 'filename'. +// Returned extension is always lower case. +// Returns: 1 if ok, 0 if not. +//----------------------------------------------------------------------------- +int fatfs_get_extension(char* filename, char* out, int maxlen) +{ + int len = 0; + + // Get files extension offset + int ext_pos = FileString_GetExtension(filename); + + if (ext_pos > 0 && out && maxlen) + { + filename += ext_pos + 1; + + while (*filename && len < (maxlen-1)) + { + char a = *filename++; + + // Make lowercase if uppercase + if ((a>='A') && (a<='Z')) + a+= 32; + + *out++ = a; + len++; + } + + *out = '\0'; + return 1; + } + + return 0; +} +//----------------------------------------------------------------------------- +// fatfs_create_path_string: Append path & filename to create file path string. +// Returns: 1 if ok, 0 if not. +//----------------------------------------------------------------------------- +int fatfs_create_path_string(char* path, char *filename, char* out, int maxlen) +{ + int len = 0; + char last = 0; + char seperator = '/'; + + if (path && filename && out && maxlen > 0) + { + while (*path && len < (maxlen-2)) + { + last = *path++; + if (last == '\\') + seperator = '\\'; + *out++ = last; + len++; + } + + // Add a seperator if trailing one not found + if (last != '\\' && last != '/') + *out++ = seperator; + + while (*filename && len < (maxlen-1)) + { + *out++ = *filename++; + len++; + } + + *out = '\0'; + + return 1; + } + + return 0; +} +//----------------------------------------------------------------------------- +// Test Bench +//----------------------------------------------------------------------------- +#ifdef FAT_STRING_TESTBENCH +void main(void) +{ + char output[255]; + char output2[255]; + + assert(fatfs_total_path_levels("C:\\folder\\file.zip") == 1); + assert(fatfs_total_path_levels("C:\\file.zip") == 0); + assert(fatfs_total_path_levels("C:\\folder\\folder2\\file.zip") == 2); + assert(fatfs_total_path_levels("C:\\") == -1); + assert(fatfs_total_path_levels("") == -1); + assert(fatfs_total_path_levels("/dev/etc/file.zip") == 2); + assert(fatfs_total_path_levels("/dev/file.zip") == 1); + + assert(fatfs_get_substring("C:\\folder\\file.zip", 0, output, sizeof(output)) == 0); + assert(strcmp(output, "folder") == 0); + + assert(fatfs_get_substring("C:\\folder\\file.zip", 1, output, sizeof(output)) == 0); + assert(strcmp(output, "file.zip") == 0); + + assert(fatfs_get_substring("/dev/etc/file.zip", 0, output, sizeof(output)) == 0); + assert(strcmp(output, "dev") == 0); + + assert(fatfs_get_substring("/dev/etc/file.zip", 1, output, sizeof(output)) == 0); + assert(strcmp(output, "etc") == 0); + + assert(fatfs_get_substring("/dev/etc/file.zip", 2, output, sizeof(output)) == 0); + assert(strcmp(output, "file.zip") == 0); + + assert(fatfs_split_path("C:\\folder\\file.zip", output, sizeof(output), output2, sizeof(output2)) == 0); + assert(strcmp(output, "C:\\folder") == 0); + assert(strcmp(output2, "file.zip") == 0); + + assert(fatfs_split_path("C:\\file.zip", output, sizeof(output), output2, sizeof(output2)) == 0); + assert(output[0] == 0); + assert(strcmp(output2, "file.zip") == 0); + + assert(fatfs_split_path("/dev/etc/file.zip", output, sizeof(output), output2, sizeof(output2)) == 0); + assert(strcmp(output, "/dev/etc") == 0); + assert(strcmp(output2, "file.zip") == 0); + + assert(FileString_GetExtension("C:\\file.zip") == strlen("C:\\file")); + assert(FileString_GetExtension("C:\\file.zip.ext") == strlen("C:\\file.zip")); + assert(FileString_GetExtension("C:\\file.zip.") == strlen("C:\\file.zip")); + + assert(FileString_TrimLength("C:\\file.zip", strlen("C:\\file.zip")) == strlen("C:\\file.zip")); + assert(FileString_TrimLength("C:\\file.zip ", strlen("C:\\file.zip ")) == strlen("C:\\file.zip")); + assert(FileString_TrimLength(" ", strlen(" ")) == 0); + + assert(fatfs_compare_names("C:\\file.ext", "C:\\file.ext") == 1); + assert(fatfs_compare_names("C:\\file2.ext", "C:\\file.ext") == 0); + assert(fatfs_compare_names("C:\\file .ext", "C:\\file.ext") == 1); + assert(fatfs_compare_names("C:\\file .ext", "C:\\file2.ext") == 0); + + assert(fatfs_string_ends_with_slash("C:\\folder") == 0); + assert(fatfs_string_ends_with_slash("C:\\folder\\") == 1); + assert(fatfs_string_ends_with_slash("/path") == 0); + assert(fatfs_string_ends_with_slash("/path/a") == 0); + assert(fatfs_string_ends_with_slash("/path/") == 1); + + assert(fatfs_get_extension("/mypath/file.wav", output, 4) == 1); + assert(strcmp(output, "wav") == 0); + assert(fatfs_get_extension("/mypath/file.WAV", output, 4) == 1); + assert(strcmp(output, "wav") == 0); + assert(fatfs_get_extension("/mypath/file.zip", output, 4) == 1); + assert(strcmp(output, "ext") != 0); + + assert(fatfs_create_path_string("/mydir1", "myfile.txt", output, sizeof(output)) == 1); + assert(strcmp(output, "/mydir1/myfile.txt") == 0); + assert(fatfs_create_path_string("/mydir2/", "myfile2.txt", output, sizeof(output)) == 1); + assert(strcmp(output, "/mydir2/myfile2.txt") == 0); + assert(fatfs_create_path_string("C:\\mydir3", "myfile3.txt", output, sizeof(output)) == 1); + assert(strcmp(output, "C:\\mydir3\\myfile3.txt") == 0); +} +#endif diff --git a/vtoycli/fat_io_lib/release/fat_string.h b/vtoycli/fat_io_lib/release/fat_string.h new file mode 100644 index 00000000000..90ca8e052b7 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_string.h @@ -0,0 +1,20 @@ +#ifndef __FILESTRING_H__ +#define __FILESTRING_H__ + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +int fatfs_total_path_levels(char *path); +int fatfs_get_substring(char *Path, int levelreq, char *output, int max_len); +int fatfs_split_path(char *FullPath, char *Path, int max_path, char *FileName, int max_filename); +int fatfs_compare_names(char* strA, char* strB); +int fatfs_string_ends_with_slash(char *path); +int fatfs_get_sfn_display_name(char* out, char* in); +int fatfs_get_extension(char* filename, char* out, int maxlen); +int fatfs_create_path_string(char* path, char *filename, char* out, int maxlen); + +#ifndef NULL + #define NULL 0 +#endif + +#endif diff --git a/vtoycli/fat_io_lib/release/fat_table.c b/vtoycli/fat_io_lib/release/fat_table.c new file mode 100644 index 00000000000..8d05d3bf0c1 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_table.c @@ -0,0 +1,478 @@ +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +// FAT16/32 File IO Library +// V2.6 +// Ultra-Embedded.com +// Copyright 2003 - 2012 +// +// Email: admin@ultra-embedded.com +// +// License: GPL +// If you would like a version with a more permissive license for use in +// closed source commercial applications please contact me for details. +//----------------------------------------------------------------------------- +// +// This file is part of FAT File IO Library. +// +// FAT File IO Library 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. +// +// FAT File IO Library 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 FAT File IO Library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +#include +#include "fat_defs.h" +#include "fat_access.h" +#include "fat_table.h" + +#ifndef FAT_BUFFERS + #define FAT_BUFFERS 1 +#endif + +#ifndef FAT_BUFFER_SECTORS + #define FAT_BUFFER_SECTORS 1 +#endif + +#if FAT_BUFFERS < 1 || FAT_BUFFER_SECTORS < 1 + #error "FAT_BUFFERS & FAT_BUFFER_SECTORS must be at least 1" +#endif + +//----------------------------------------------------------------------------- +// FAT Sector Buffer +//----------------------------------------------------------------------------- +#define FAT32_GET_32BIT_WORD(pbuf, location) ( GET_32BIT_WORD(pbuf->ptr, location) ) +#define FAT32_SET_32BIT_WORD(pbuf, location, value) { SET_32BIT_WORD(pbuf->ptr, location, value); pbuf->dirty = 1; } +#define FAT16_GET_16BIT_WORD(pbuf, location) ( GET_16BIT_WORD(pbuf->ptr, location) ) +#define FAT16_SET_16BIT_WORD(pbuf, location, value) { SET_16BIT_WORD(pbuf->ptr, location, value); pbuf->dirty = 1; } + +//----------------------------------------------------------------------------- +// fatfs_fat_init: +//----------------------------------------------------------------------------- +void fatfs_fat_init(struct fatfs *fs) +{ + int i; + + // FAT buffer chain head + fs->fat_buffer_head = NULL; + + for (i=0;ifat_buffers[i].address = FAT32_INVALID_CLUSTER; + fs->fat_buffers[i].dirty = 0; + memset(fs->fat_buffers[i].sector, 0x00, sizeof(fs->fat_buffers[i].sector)); + fs->fat_buffers[i].ptr = NULL; + + // Add to head of queue + fs->fat_buffers[i].next = fs->fat_buffer_head; + fs->fat_buffer_head = &fs->fat_buffers[i]; + } +} +//----------------------------------------------------------------------------- +// fatfs_fat_writeback: Writeback 'dirty' FAT sectors to disk +//----------------------------------------------------------------------------- +static int fatfs_fat_writeback(struct fatfs *fs, struct fat_buffer *pcur) +{ + if (pcur) + { + // Writeback sector if changed + if (pcur->dirty) + { + if (fs->disk_io.write_media) + { + uint32 sectors = FAT_BUFFER_SECTORS; + uint32 offset = pcur->address - fs->fat_begin_lba; + + // Limit to sectors used for the FAT + if ((offset + FAT_BUFFER_SECTORS) <= fs->fat_sectors) + sectors = FAT_BUFFER_SECTORS; + else + sectors = fs->fat_sectors - offset; + + if (!fs->disk_io.write_media(pcur->address, pcur->sector, sectors)) + return 0; + } + + pcur->dirty = 0; + } + + return 1; + } + else + return 0; +} +//----------------------------------------------------------------------------- +// fatfs_fat_read_sector: Read a FAT sector +//----------------------------------------------------------------------------- +static struct fat_buffer *fatfs_fat_read_sector(struct fatfs *fs, uint32 sector) +{ + struct fat_buffer *last = NULL; + struct fat_buffer *pcur = fs->fat_buffer_head; + + // Itterate through sector buffer list + while (pcur) + { + // Sector within this buffer? + if ((sector >= pcur->address) && (sector < (pcur->address + FAT_BUFFER_SECTORS))) + break; + + // End of list? + if (pcur->next == NULL) + { + // Remove buffer from list + if (last) + last->next = NULL; + // We the first and last buffer in the chain? + else + fs->fat_buffer_head = NULL; + } + + last = pcur; + pcur = pcur->next; + } + + // We found the sector already in FAT buffer chain + if (pcur) + { + pcur->ptr = (uint8 *)(pcur->sector + ((sector - pcur->address) * FAT_SECTOR_SIZE)); + return pcur; + } + + // Else, we removed the last item from the list + pcur = last; + + // Add to start of sector buffer list (now newest sector) + pcur->next = fs->fat_buffer_head; + fs->fat_buffer_head = pcur; + + // Writeback sector if changed + if (pcur->dirty) + if (!fatfs_fat_writeback(fs, pcur)) + return 0; + + // Address is now new sector + pcur->address = sector; + + // Read next sector + if (!fs->disk_io.read_media(pcur->address, pcur->sector, FAT_BUFFER_SECTORS)) + { + // Read failed, invalidate buffer address + pcur->address = FAT32_INVALID_CLUSTER; + return NULL; + } + + pcur->ptr = pcur->sector; + return pcur; +} +//----------------------------------------------------------------------------- +// fatfs_fat_purge: Purge 'dirty' FAT sectors to disk +//----------------------------------------------------------------------------- +int fatfs_fat_purge(struct fatfs *fs) +{ + struct fat_buffer *pcur = fs->fat_buffer_head; + + // Itterate through sector buffer list + while (pcur) + { + // Writeback sector if changed + if (pcur->dirty) + if (!fatfs_fat_writeback(fs, pcur)) + return 0; + + pcur = pcur->next; + } + + return 1; +} + +//----------------------------------------------------------------------------- +// General FAT Table Operations +//----------------------------------------------------------------------------- + +//----------------------------------------------------------------------------- +// fatfs_find_next_cluster: Return cluster number of next cluster in chain by +// reading FAT table and traversing it. Return 0xffffffff for end of chain. +//----------------------------------------------------------------------------- +uint32 fatfs_find_next_cluster(struct fatfs *fs, uint32 current_cluster) +{ + uint32 fat_sector_offset, position; + uint32 nextcluster; + struct fat_buffer *pbuf; + + // Why is '..' labelled with cluster 0 when it should be 2 ?? + if (current_cluster == 0) + current_cluster = 2; + + // Find which sector of FAT table to read + if (fs->fat_type == FAT_TYPE_16) + fat_sector_offset = current_cluster / 256; + else + fat_sector_offset = current_cluster / 128; + + // Read FAT sector into buffer + pbuf = fatfs_fat_read_sector(fs, fs->fat_begin_lba+fat_sector_offset); + if (!pbuf) + return (FAT32_LAST_CLUSTER); + + if (fs->fat_type == FAT_TYPE_16) + { + // Find 32 bit entry of current sector relating to cluster number + position = (current_cluster - (fat_sector_offset * 256)) * 2; + + // Read Next Clusters value from Sector Buffer + nextcluster = FAT16_GET_16BIT_WORD(pbuf, (uint16)position); + + // If end of chain found + if (nextcluster >= 0xFFF8 && nextcluster <= 0xFFFF) + return (FAT32_LAST_CLUSTER); + } + else + { + // Find 32 bit entry of current sector relating to cluster number + position = (current_cluster - (fat_sector_offset * 128)) * 4; + + // Read Next Clusters value from Sector Buffer + nextcluster = FAT32_GET_32BIT_WORD(pbuf, (uint16)position); + + // Mask out MS 4 bits (its 28bit addressing) + nextcluster = nextcluster & 0x0FFFFFFF; + + // If end of chain found + if (nextcluster >= 0x0FFFFFF8 && nextcluster <= 0x0FFFFFFF) + return (FAT32_LAST_CLUSTER); + } + + // Else return next cluster + return (nextcluster); +} +//----------------------------------------------------------------------------- +// fatfs_set_fs_info_next_free_cluster: Write the next free cluster to the FSINFO table +//----------------------------------------------------------------------------- +void fatfs_set_fs_info_next_free_cluster(struct fatfs *fs, uint32 newValue) +{ + if (fs->fat_type == FAT_TYPE_16) + ; + else + { + // Load sector to change it + struct fat_buffer *pbuf = fatfs_fat_read_sector(fs, fs->lba_begin+fs->fs_info_sector); + if (!pbuf) + return ; + + // Change + FAT32_SET_32BIT_WORD(pbuf, 492, newValue); + fs->next_free_cluster = newValue; + + // Write back FSINFO sector to disk + if (fs->disk_io.write_media) + fs->disk_io.write_media(pbuf->address, pbuf->sector, 1); + + // Invalidate cache entry + pbuf->address = FAT32_INVALID_CLUSTER; + pbuf->dirty = 0; + } +} +//----------------------------------------------------------------------------- +// fatfs_find_blank_cluster: Find a free cluster entry by reading the FAT +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fatfs_find_blank_cluster(struct fatfs *fs, uint32 start_cluster, uint32 *free_cluster) +{ + uint32 fat_sector_offset, position; + uint32 nextcluster; + uint32 current_cluster = start_cluster; + struct fat_buffer *pbuf; + + do + { + // Find which sector of FAT table to read + if (fs->fat_type == FAT_TYPE_16) + fat_sector_offset = current_cluster / 256; + else + fat_sector_offset = current_cluster / 128; + + if ( fat_sector_offset < fs->fat_sectors) + { + // Read FAT sector into buffer + pbuf = fatfs_fat_read_sector(fs, fs->fat_begin_lba+fat_sector_offset); + if (!pbuf) + return 0; + + if (fs->fat_type == FAT_TYPE_16) + { + // Find 32 bit entry of current sector relating to cluster number + position = (current_cluster - (fat_sector_offset * 256)) * 2; + + // Read Next Clusters value from Sector Buffer + nextcluster = FAT16_GET_16BIT_WORD(pbuf, (uint16)position); + } + else + { + // Find 32 bit entry of current sector relating to cluster number + position = (current_cluster - (fat_sector_offset * 128)) * 4; + + // Read Next Clusters value from Sector Buffer + nextcluster = FAT32_GET_32BIT_WORD(pbuf, (uint16)position); + + // Mask out MS 4 bits (its 28bit addressing) + nextcluster = nextcluster & 0x0FFFFFFF; + } + + if (nextcluster !=0 ) + current_cluster++; + } + else + // Otherwise, run out of FAT sectors to check... + return 0; + } + while (nextcluster != 0x0); + + // Found blank entry + *free_cluster = current_cluster; + return 1; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_fat_set_cluster: Set a cluster link in the chain. NOTE: Immediate +// write (slow). +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fatfs_fat_set_cluster(struct fatfs *fs, uint32 cluster, uint32 next_cluster) +{ + struct fat_buffer *pbuf; + uint32 fat_sector_offset, position; + + // Find which sector of FAT table to read + if (fs->fat_type == FAT_TYPE_16) + fat_sector_offset = cluster / 256; + else + fat_sector_offset = cluster / 128; + + // Read FAT sector into buffer + pbuf = fatfs_fat_read_sector(fs, fs->fat_begin_lba+fat_sector_offset); + if (!pbuf) + return 0; + + if (fs->fat_type == FAT_TYPE_16) + { + // Find 16 bit entry of current sector relating to cluster number + position = (cluster - (fat_sector_offset * 256)) * 2; + + // Write Next Clusters value to Sector Buffer + FAT16_SET_16BIT_WORD(pbuf, (uint16)position, ((uint16)next_cluster)); + } + else + { + // Find 32 bit entry of current sector relating to cluster number + position = (cluster - (fat_sector_offset * 128)) * 4; + + // Write Next Clusters value to Sector Buffer + FAT32_SET_32BIT_WORD(pbuf, (uint16)position, next_cluster); + } + + return 1; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_free_cluster_chain: Follow a chain marking each element as free +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fatfs_free_cluster_chain(struct fatfs *fs, uint32 start_cluster) +{ + uint32 last_cluster; + uint32 next_cluster = start_cluster; + + // Loop until end of chain + while ( (next_cluster != FAT32_LAST_CLUSTER) && (next_cluster != 0x00000000) ) + { + last_cluster = next_cluster; + + // Find next link + next_cluster = fatfs_find_next_cluster(fs, next_cluster); + + // Clear last link + fatfs_fat_set_cluster(fs, last_cluster, 0x00000000); + } + + return 1; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_fat_add_cluster_to_chain: Follow a chain marking and then add a new entry +// to the current tail. +//----------------------------------------------------------------------------- +#if FATFS_INC_WRITE_SUPPORT +int fatfs_fat_add_cluster_to_chain(struct fatfs *fs, uint32 start_cluster, uint32 newEntry) +{ + uint32 last_cluster = FAT32_LAST_CLUSTER; + uint32 next_cluster = start_cluster; + + if (start_cluster == FAT32_LAST_CLUSTER) + return 0; + + // Loop until end of chain + while ( next_cluster != FAT32_LAST_CLUSTER ) + { + last_cluster = next_cluster; + + // Find next link + next_cluster = fatfs_find_next_cluster(fs, next_cluster); + if (!next_cluster) + return 0; + } + + // Add link in for new cluster + fatfs_fat_set_cluster(fs, last_cluster, newEntry); + + // Mark new cluster as end of chain + fatfs_fat_set_cluster(fs, newEntry, FAT32_LAST_CLUSTER); + + return 1; +} +#endif +//----------------------------------------------------------------------------- +// fatfs_count_free_clusters: +//----------------------------------------------------------------------------- +uint32 fatfs_count_free_clusters(struct fatfs *fs) +{ + uint32 i,j; + uint32 count = 0; + struct fat_buffer *pbuf; + + for (i = 0; i < fs->fat_sectors; i++) + { + // Read FAT sector into buffer + pbuf = fatfs_fat_read_sector(fs, fs->fat_begin_lba + i); + if (!pbuf) + break; + + for (j = 0; j < FAT_SECTOR_SIZE; ) + { + if (fs->fat_type == FAT_TYPE_16) + { + if (FAT16_GET_16BIT_WORD(pbuf, (uint16)j) == 0) + count++; + + j += 2; + } + else + { + if (FAT32_GET_32BIT_WORD(pbuf, (uint16)j) == 0) + count++; + + j += 4; + } + } + } + + return count; +} diff --git a/vtoycli/fat_io_lib/release/fat_table.h b/vtoycli/fat_io_lib/release/fat_table.h new file mode 100644 index 00000000000..ead75f322cc --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_table.h @@ -0,0 +1,20 @@ +#ifndef __FAT_TABLE_H__ +#define __FAT_TABLE_H__ + +#include "fat_opts.h" +#include "fat_misc.h" + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +void fatfs_fat_init(struct fatfs *fs); +int fatfs_fat_purge(struct fatfs *fs); +uint32 fatfs_find_next_cluster(struct fatfs *fs, uint32 current_cluster); +void fatfs_set_fs_info_next_free_cluster(struct fatfs *fs, uint32 newValue); +int fatfs_find_blank_cluster(struct fatfs *fs, uint32 start_cluster, uint32 *free_cluster); +int fatfs_fat_set_cluster(struct fatfs *fs, uint32 cluster, uint32 next_cluster); +int fatfs_fat_add_cluster_to_chain(struct fatfs *fs, uint32 start_cluster, uint32 newEntry); +int fatfs_free_cluster_chain(struct fatfs *fs, uint32 start_cluster); +uint32 fatfs_count_free_clusters(struct fatfs *fs); + +#endif diff --git a/vtoycli/fat_io_lib/release/fat_types.h b/vtoycli/fat_io_lib/release/fat_types.h new file mode 100644 index 00000000000..5e2cca8a852 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_types.h @@ -0,0 +1,69 @@ +#ifndef __FAT_TYPES_H__ +#define __FAT_TYPES_H__ + +// Detect 64-bit compilation on GCC +#if defined(__GNUC__) && defined(__SIZEOF_LONG__) + #if __SIZEOF_LONG__ == 8 + #define FATFS_DEF_UINT32_AS_INT + #endif +#endif + +//------------------------------------------------------------- +// System specific types +//------------------------------------------------------------- +#ifndef FATFS_NO_DEF_TYPES + typedef unsigned char uint8; + typedef unsigned short uint16; + + // If compiling on a 64-bit machine, use int as 32-bits + #ifdef FATFS_DEF_UINT32_AS_INT + typedef unsigned int uint32; + // Else for 32-bit machines & embedded systems, use long... + #else + typedef unsigned long uint32; + #endif +#endif + +#ifndef NULL + #define NULL 0 +#endif + +//------------------------------------------------------------- +// Endian Macros +//------------------------------------------------------------- +// FAT is little endian so big endian systems need to swap words + +// Little Endian - No swap required +#if FATFS_IS_LITTLE_ENDIAN == 1 + + #define FAT_HTONS(n) (n) + #define FAT_HTONL(n) (n) + +// Big Endian - Swap required +#else + + #define FAT_HTONS(n) ((((uint16)((n) & 0xff)) << 8) | (((n) & 0xff00) >> 8)) + #define FAT_HTONL(n) (((((uint32)(n) & 0xFF)) << 24) | \ + ((((uint32)(n) & 0xFF00)) << 8) | \ + ((((uint32)(n) & 0xFF0000)) >> 8) | \ + ((((uint32)(n) & 0xFF000000)) >> 24)) + +#endif + +//------------------------------------------------------------- +// Structure Packing Compile Options +//------------------------------------------------------------- +#ifdef __GNUC__ + #define STRUCT_PACK + #define STRUCT_PACK_BEGIN + #define STRUCT_PACK_END + #define STRUCT_PACKED __attribute__ ((packed)) +#else + // Other compilers may require other methods of packing structures + #define STRUCT_PACK + #define STRUCT_PACK_BEGIN + #define STRUCT_PACK_END + #define STRUCT_PACKED +#endif + +#endif diff --git a/vtoycli/fat_io_lib/release/fat_write.c b/vtoycli/fat_io_lib/release/fat_write.c new file mode 100644 index 00000000000..0718cb13ea6 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_write.c @@ -0,0 +1,373 @@ +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +// FAT16/32 File IO Library +// V2.6 +// Ultra-Embedded.com +// Copyright 2003 - 2012 +// +// Email: admin@ultra-embedded.com +// +// License: GPL +// If you would like a version with a more permissive license for use in +// closed source commercial applications please contact me for details. +//----------------------------------------------------------------------------- +// +// This file is part of FAT File IO Library. +// +// FAT File IO Library 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. +// +// FAT File IO Library 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 FAT File IO Library; if not, write to the Free Software +// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA +//----------------------------------------------------------------------------- +//----------------------------------------------------------------------------- +#include +#include "fat_defs.h" +#include "fat_access.h" +#include "fat_table.h" +#include "fat_write.h" +#include "fat_string.h" +#include "fat_misc.h" + +#if FATFS_INC_WRITE_SUPPORT +//----------------------------------------------------------------------------- +// fatfs_add_free_space: Allocate another cluster of free space to the end +// of a files cluster chain. +//----------------------------------------------------------------------------- +int fatfs_add_free_space(struct fatfs *fs, uint32 *startCluster, uint32 clusters) +{ + uint32 i; + uint32 nextcluster; + uint32 start = *startCluster; + + // Set the next free cluster hint to unknown + if (fs->next_free_cluster != FAT32_LAST_CLUSTER) + fatfs_set_fs_info_next_free_cluster(fs, FAT32_LAST_CLUSTER); + + for (i=0;irootdir_first_cluster, &nextcluster)) + { + // Point last to this + fatfs_fat_set_cluster(fs, start, nextcluster); + + // Point this to end of file + fatfs_fat_set_cluster(fs, nextcluster, FAT32_LAST_CLUSTER); + + // Adjust argument reference + start = nextcluster; + if (i == 0) + *startCluster = nextcluster; + } + else + return 0; + } + + return 1; +} +//----------------------------------------------------------------------------- +// fatfs_allocate_free_space: Add an ammount of free space to a file either from +// 'startCluster' if newFile = false, or allocating a new start to the chain if +// newFile = true. +//----------------------------------------------------------------------------- +int fatfs_allocate_free_space(struct fatfs *fs, int newFile, uint32 *startCluster, uint32 size) +{ + uint32 clusterSize; + uint32 clusterCount; + uint32 nextcluster; + + if (size==0) + return 0; + + // Set the next free cluster hint to unknown + if (fs->next_free_cluster != FAT32_LAST_CLUSTER) + fatfs_set_fs_info_next_free_cluster(fs, FAT32_LAST_CLUSTER); + + // Work out size and clusters + clusterSize = fs->sectors_per_cluster * FAT_SECTOR_SIZE; + clusterCount = (size / clusterSize); + + // If any left over + if (size-(clusterSize*clusterCount)) + clusterCount++; + + // Allocated first link in the chain if a new file + if (newFile) + { + if (!fatfs_find_blank_cluster(fs, fs->rootdir_first_cluster, &nextcluster)) + return 0; + + // If this is all that is needed then all done + if (clusterCount==1) + { + fatfs_fat_set_cluster(fs, nextcluster, FAT32_LAST_CLUSTER); + *startCluster = nextcluster; + return 1; + } + } + // Allocate from end of current chain (startCluster is end of chain) + else + nextcluster = *startCluster; + + if (!fatfs_add_free_space(fs, &nextcluster, clusterCount)) + return 0; + + return 1; +} +//----------------------------------------------------------------------------- +// fatfs_find_free_dir_offset: Find a free space in the directory for a new entry +// which takes up 'entryCount' blocks (or allocate some more) +//----------------------------------------------------------------------------- +static int fatfs_find_free_dir_offset(struct fatfs *fs, uint32 dirCluster, int entryCount, uint32 *pSector, uint8 *pOffset) +{ + struct fat_dir_entry *directoryEntry; + uint8 item=0; + uint16 recordoffset = 0; + uint8 i=0; + int x=0; + int possible_spaces = 0; + int start_recorded = 0; + + // No entries required? + if (entryCount == 0) + return 0; + + // Main cluster following loop + while (1) + { + // Read sector + if (fatfs_sector_reader(fs, dirCluster, x++, 0)) + { + // Analyse Sector + for (item = 0; item < FAT_DIR_ENTRIES_PER_SECTOR; item++) + { + // Create the multiplier for sector access + recordoffset = FAT_DIR_ENTRY_SIZE * item; + + // Overlay directory entry over buffer + directoryEntry = (struct fat_dir_entry*)(fs->currentsector.sector+recordoffset); + + // LFN Entry + if (fatfs_entry_lfn_text(directoryEntry)) + { + // First entry? + if (possible_spaces == 0) + { + // Store start + *pSector = x-1; + *pOffset = item; + start_recorded = 1; + } + + // Increment the count in-case the file turns + // out to be deleted... + possible_spaces++; + } + // SFN Entry + else + { + // Has file been deleted? + if (fs->currentsector.sector[recordoffset] == FILE_HEADER_DELETED) + { + // First entry? + if (possible_spaces == 0) + { + // Store start + *pSector = x-1; + *pOffset = item; + start_recorded = 1; + } + + possible_spaces++; + + // We have found enough space? + if (possible_spaces >= entryCount) + return 1; + + // Else continue counting until we find a valid entry! + } + // Is the file entry empty? + else if (fs->currentsector.sector[recordoffset] == FILE_HEADER_BLANK) + { + // First entry? + if (possible_spaces == 0) + { + // Store start + *pSector = x-1; + *pOffset = item; + start_recorded = 1; + } + + // Increment the blank entries count + possible_spaces++; + + // We have found enough space? + if (possible_spaces >= entryCount) + return 1; + } + // File entry is valid + else + { + // Reset all flags + possible_spaces = 0; + start_recorded = 0; + } + } + } // End of for + } // End of if + // Run out of free space in the directory, allocate some more + else + { + uint32 newCluster; + + // Get a new cluster for directory + if (!fatfs_find_blank_cluster(fs, fs->rootdir_first_cluster, &newCluster)) + return 0; + + // Add cluster to end of directory tree + if (!fatfs_fat_add_cluster_to_chain(fs, dirCluster, newCluster)) + return 0; + + // Erase new directory cluster + memset(fs->currentsector.sector, 0x00, FAT_SECTOR_SIZE); + for (i=0;isectors_per_cluster;i++) + { + if (!fatfs_write_sector(fs, newCluster, i, 0)) + return 0; + } + + // If non of the name fitted on previous sectors + if (!start_recorded) + { + // Store start + *pSector = (x-1); + *pOffset = 0; + start_recorded = 1; + } + + return 1; + } + } // End of while loop + + return 0; +} +//----------------------------------------------------------------------------- +// fatfs_add_file_entry: Add a directory entry to a location found by FindFreeOffset +//----------------------------------------------------------------------------- +int fatfs_add_file_entry(struct fatfs *fs, uint32 dirCluster, char *filename, char *shortfilename, uint32 startCluster, uint32 size, int dir) +{ + uint8 item=0; + uint16 recordoffset = 0; + uint8 i=0; + uint32 x=0; + int entryCount; + struct fat_dir_entry shortEntry; + int dirtySector = 0; + + uint32 dirSector = 0; + uint8 dirOffset = 0; + int foundEnd = 0; + + uint8 checksum; + uint8 *pSname; + + // No write access? + if (!fs->disk_io.write_media) + return 0; + +#if FATFS_INC_LFN_SUPPORT + // How many LFN entries are required? + // NOTE: We always request one LFN even if it would fit in a SFN! + entryCount = fatfs_lfn_entries_required(filename); + if (!entryCount) + return 0; +#else + entryCount = 0; +#endif + + // Find space in the directory for this filename (or allocate some more) + // NOTE: We need to find space for at least the LFN + SFN (or just the SFN if LFNs not supported). + if (!fatfs_find_free_dir_offset(fs, dirCluster, entryCount + 1, &dirSector, &dirOffset)) + return 0; + + // Generate checksum of short filename + pSname = (uint8*)shortfilename; + checksum = 0; + for (i=11; i!=0; i--) checksum = ((checksum & 1) ? 0x80 : 0) + (checksum >> 1) + *pSname++; + + // Start from current sector where space was found! + x = dirSector; + + // Main cluster following loop + while (1) + { + // Read sector + if (fatfs_sector_reader(fs, dirCluster, x++, 0)) + { + // Analyse Sector + for (item = 0; item < FAT_DIR_ENTRIES_PER_SECTOR; item++) + { + // Create the multiplier for sector access + recordoffset = FAT_DIR_ENTRY_SIZE * item; + + // If the start position for the entry has been found + if (foundEnd==0) + if ( (dirSector==(x-1)) && (dirOffset==item) ) + foundEnd = 1; + + // Start adding filename + if (foundEnd) + { + if (entryCount==0) + { + // Short filename + fatfs_sfn_create_entry(shortfilename, size, startCluster, &shortEntry, dir); + +#if FATFS_INC_TIME_DATE_SUPPORT + // Update create, access & modify time & date + fatfs_update_timestamps(&shortEntry, 1, 1, 1); +#endif + + memcpy(&fs->currentsector.sector[recordoffset], &shortEntry, sizeof(shortEntry)); + + // Writeback + return fs->disk_io.write_media(fs->currentsector.address, fs->currentsector.sector, 1); + } +#if FATFS_INC_LFN_SUPPORT + else + { + entryCount--; + + // Copy entry to directory buffer + fatfs_filename_to_lfn(filename, &fs->currentsector.sector[recordoffset], entryCount, checksum); + dirtySector = 1; + } +#endif + } + } // End of if + + // Write back to disk before loading another sector + if (dirtySector) + { + if (!fs->disk_io.write_media(fs->currentsector.address, fs->currentsector.sector, 1)) + return 0; + + dirtySector = 0; + } + } + else + return 0; + } // End of while loop + + return 0; +} +#endif diff --git a/vtoycli/fat_io_lib/release/fat_write.h b/vtoycli/fat_io_lib/release/fat_write.h new file mode 100644 index 00000000000..5558a86e6d1 --- /dev/null +++ b/vtoycli/fat_io_lib/release/fat_write.h @@ -0,0 +1,14 @@ +#ifndef __FAT_WRITE_H__ +#define __FAT_WRITE_H__ + +#include "fat_defs.h" +#include "fat_opts.h" + +//----------------------------------------------------------------------------- +// Prototypes +//----------------------------------------------------------------------------- +int fatfs_add_file_entry(struct fatfs *fs, uint32 dirCluster, char *filename, char *shortfilename, uint32 startCluster, uint32 size, int dir); +int fatfs_add_free_space(struct fatfs *fs, uint32 *startCluster, uint32 clusters); +int fatfs_allocate_free_space(struct fatfs *fs, int newFile, uint32 *startCluster, uint32 size); + +#endif diff --git a/vtoycli/fat_io_lib/release/version.txt b/vtoycli/fat_io_lib/release/version.txt new file mode 100644 index 00000000000..5a00a98ca7b --- /dev/null +++ b/vtoycli/fat_io_lib/release/version.txt @@ -0,0 +1 @@ +2.6.11 diff --git a/vtoycli/partresize.c b/vtoycli/partresize.c new file mode 100644 index 00000000000..4452205e034 --- /dev/null +++ b/vtoycli/partresize.c @@ -0,0 +1,682 @@ +/****************************************************************************** + * partresize.c ---- ventoy part resize util + * + * Copyright (c) 2021, longpanda + * + * 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 3 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 . + * + */ +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include "vtoycli.h" + +static int g_disk_fd = 0; +static UINT64 g_disk_offset = 0; +static GUID g_ZeroGuid = {0}; +static GUID g_WindowsDataPartGuid = { 0xebd0a0a2, 0xb9e5, 0x4433, { 0x87, 0xc0, 0x68, 0xb6, 0xb7, 0x26, 0x99, 0xc7 } }; + +static int vtoy_disk_read(uint32 sector, uint8 *buffer, uint32 sector_count) +{ + UINT64 offset = sector * 512ULL; + + lseek(g_disk_fd, g_disk_offset + offset, SEEK_SET); + read(g_disk_fd, buffer, sector_count * 512); + + return 1; +} + +static int vtoy_disk_write(uint32 sector, uint8 *buffer, uint32 sector_count) +{ + UINT64 offset = sector * 512ULL; + + lseek(g_disk_fd, g_disk_offset + offset, SEEK_SET); + write(g_disk_fd, buffer, sector_count * 512); + + return 1; +} + + +static int gpt_check(const char *disk) +{ + int fd = -1; + int rc = 1; + VTOY_GPT_INFO *pGPT = NULL; + + fd = open(disk, O_RDONLY); + if (fd < 0) + { + printf("Failed to open %s\n", disk); + goto out; + } + + pGPT = malloc(sizeof(VTOY_GPT_INFO)); + if (NULL == pGPT) + { + goto out; + } + memset(pGPT, 0, sizeof(VTOY_GPT_INFO)); + + read(fd, pGPT, sizeof(VTOY_GPT_INFO)); + + if (pGPT->MBR.PartTbl[0].FsFlag == 0xEE && memcmp(pGPT->Head.Signature, "EFI PART", 8) == 0) + { + rc = 0; + } + +out: + check_close(fd); + check_free(pGPT); + return rc; +} + +static int part_check(const char *disk) +{ + int i; + int fd = -1; + int rc = 0; + int Index = 0; + int Count = 0; + int PartStyle = 0; + UINT64 Part1Start; + UINT64 Part1End; + UINT64 NextPartStart; + UINT64 DiskSizeInBytes; + VTOY_GPT_INFO *pGPT = NULL; + + DiskSizeInBytes = get_disk_size_in_byte(disk); + if (DiskSizeInBytes == 0) + { + printf("Failed to get disk size of %s\n", disk); + goto out; + } + + fd = open(disk, O_RDONLY); + if (fd < 0) + { + printf("Failed to open %s\n", disk); + goto out; + } + + pGPT = malloc(sizeof(VTOY_GPT_INFO)); + if (NULL == pGPT) + { + goto out; + } + memset(pGPT, 0, sizeof(VTOY_GPT_INFO)); + + read(fd, pGPT, sizeof(VTOY_GPT_INFO)); + + if (pGPT->MBR.PartTbl[0].FsFlag == 0xEE && memcmp(pGPT->Head.Signature, "EFI PART", 8) == 0) + { + PartStyle = 1; + } + else + { + PartStyle = 0; + } + + if (PartStyle == 0) + { + PART_TABLE *PartTbl = pGPT->MBR.PartTbl; + + for (Count = 0, i = 0; i < 4; i++) + { + if (PartTbl[i].SectorCount > 0) + { + printf("MBR Part%d SectorStart:%u SectorCount:%u\n", i + 1, PartTbl[i].StartSectorId, PartTbl[i].SectorCount); + Count++; + } + } + + //We must have a free partition table for VTOYEFI partition + if (Count >= 4) + { + printf("###[FAIL] 4 MBR partition tables are all used.\n"); + goto out; + } + + if (PartTbl[0].SectorCount > 0) + { + Part1Start = PartTbl[0].StartSectorId; + Part1End = PartTbl[0].SectorCount + Part1Start; + } + else + { + printf("###[FAIL] MBR Partition 1 is invalid\n"); + goto out; + } + + Index = -1; + NextPartStart = DiskSizeInBytes / 512ULL; + for (i = 1; i < 4; i++) + { + if (PartTbl[i].SectorCount > 0 && NextPartStart > PartTbl[i].StartSectorId) + { + Index = i; + NextPartStart = PartTbl[i].StartSectorId; + } + } + + NextPartStart *= 512ULL; + printf("DiskSize:%llu NextPartStart:%llu(LBA:%llu) Index:%d\n", + DiskSizeInBytes, NextPartStart, NextPartStart / 512ULL, Index); + } + else + { + VTOY_GPT_PART_TBL *PartTbl = pGPT->PartTbl; + + for (Count = 0, i = 0; i < 128; i++) + { + if (memcmp(&(PartTbl[i].PartGuid), &g_ZeroGuid, sizeof(GUID))) + { + printf("GPT Part%d StartLBA:%llu LastLBA:%llu\n", i + 1, PartTbl[i].StartLBA, PartTbl[i].LastLBA); + Count++; + } + } + + if (Count >= 128) + { + printf("###[FAIL] 128 GPT partition tables are all used.\n"); + goto out; + } + + if (memcmp(&(PartTbl[0].PartGuid), &g_ZeroGuid, sizeof(GUID))) + { + Part1Start = PartTbl[0].StartLBA; + Part1End = PartTbl[0].LastLBA + 1; + } + else + { + printf("###[FAIL] GPT Partition 1 is invalid\n"); + goto out; + } + + Index = -1; + NextPartStart = (pGPT->Head.PartAreaEndLBA + 1); + for (i = 1; i < 128; i++) + { + if (memcmp(&(PartTbl[i].PartGuid), &g_ZeroGuid, sizeof(GUID)) && NextPartStart > PartTbl[i].StartLBA) + { + Index = i; + NextPartStart = PartTbl[i].StartLBA; + } + } + + NextPartStart *= 512ULL; + printf("DiskSize:%llu NextPartStart:%llu(LBA:%llu) Index:%d\n", + DiskSizeInBytes, NextPartStart, NextPartStart / 512ULL, Index); + } + + printf("Valid partition table (%s): Valid partition count:%d\n", (PartStyle == 0) ? "MBR" : "GPT", Count); + + //Partition 1 MUST start at 1MB + Part1Start *= 512ULL; + Part1End *= 512ULL; + + printf("Partition 1 start at: %llu %lluKB, end:%llu, NextPartStart:%llu\n", + Part1Start, Part1Start / 1024, Part1End, NextPartStart); + if (Part1Start != SIZE_1MB) + { + printf("###[FAIL] Partition 1 is not start at 1MB\n"); + goto out; + } + + + //If we have free space after partition 1 + if (NextPartStart - Part1End >= VENTOY_EFI_PART_SIZE) + { + printf("Free space after partition 1 (%llu) is enough for VTOYEFI part\n", NextPartStart - Part1End); + rc = 1; + } + else if (NextPartStart == Part1End) + { + printf("There is no free space after partition 1\n"); + rc = 2; + } + else + { + printf("The free space after partition 1 is not enough\n"); + rc = 2; + } + +out: + check_close(fd); + check_free(pGPT); + return rc; +} + +static int secureboot_proc(char *disk, UINT64 part2start) +{ + int rc = 0; + int size; + int fd = -1; + char *filebuf = NULL; + void *file = NULL; + + fd = open(disk, O_RDWR); + if (fd < 0) + { + printf("Failed to open %s\n", disk); + return 1; + } + + g_disk_fd = fd; + g_disk_offset = part2start * 512ULL; + + fl_init(); + + if (0 == fl_attach_media(vtoy_disk_read, vtoy_disk_write)) + { + file = fl_fopen("/EFI/BOOT/grubx64_real.efi", "rb"); + printf("Open ventoy efi file %p\n", file); + if (file) + { + fl_fseek(file, 0, SEEK_END); + size = (int)fl_ftell(file); + fl_fseek(file, 0, SEEK_SET); + + printf("ventoy x64 efi file size %d ...\n", size); + + filebuf = (char *)malloc(size); + if (filebuf) + { + fl_fread(filebuf, 1, size, file); + } + + fl_fclose(file); + + fl_remove("/EFI/BOOT/BOOTX64.EFI"); + fl_remove("/EFI/BOOT/grubx64.efi"); + fl_remove("/EFI/BOOT/grubx64_real.efi"); + fl_remove("/EFI/BOOT/MokManager.efi"); + fl_remove("/ENROLL_THIS_KEY_IN_MOKMANAGER.cer"); + + file = fl_fopen("/EFI/BOOT/BOOTX64.EFI", "wb"); + printf("Open bootx64 efi file %p\n", file); + if (file) + { + if (filebuf) + { + fl_fwrite(filebuf, 1, size, file); + } + + fl_fflush(file); + fl_fclose(file); + } + + if (filebuf) + { + free(filebuf); + } + } + + file = fl_fopen("/EFI/BOOT/grubia32_real.efi", "rb"); + printf("Open ventoy ia32 efi file %p\n", file); + if (file) + { + fl_fseek(file, 0, SEEK_END); + size = (int)fl_ftell(file); + fl_fseek(file, 0, SEEK_SET); + + printf("ventoy efi file size %d ...\n", size); + + filebuf = (char *)malloc(size); + if (filebuf) + { + fl_fread(filebuf, 1, size, file); + } + + fl_fclose(file); + + fl_remove("/EFI/BOOT/BOOTIA32.EFI"); + fl_remove("/EFI/BOOT/grubia32.efi"); + fl_remove("/EFI/BOOT/grubia32_real.efi"); + fl_remove("/EFI/BOOT/mmia32.efi"); + + file = fl_fopen("/EFI/BOOT/BOOTIA32.EFI", "wb"); + printf("Open bootia32 efi file %p\n", file); + if (file) + { + if (filebuf) + { + fl_fwrite(filebuf, 1, size, file); + } + + fl_fflush(file); + fl_fclose(file); + } + + if (filebuf) + { + free(filebuf); + } + } + + } + else + { + rc = 1; + } + + fl_shutdown(); + fsync(fd); + + return rc; +} + +static int VentoyFillMBRLocation(UINT64 DiskSizeInBytes, UINT32 StartSectorId, UINT32 SectorCount, PART_TABLE *Table) +{ + UINT8 Head; + UINT8 Sector; + UINT8 nSector = 63; + UINT8 nHead = 8; + UINT32 Cylinder; + UINT32 EndSectorId; + + while (nHead != 0 && (DiskSizeInBytes / 512 / nSector / nHead) > 1024) + { + nHead = (UINT8)nHead * 2; + } + + if (nHead == 0) + { + nHead = 255; + } + + Cylinder = StartSectorId / nSector / nHead; + Head = StartSectorId / nSector % nHead; + Sector = StartSectorId % nSector + 1; + + Table->StartHead = Head; + Table->StartSector = Sector; + Table->StartCylinder = Cylinder; + + EndSectorId = StartSectorId + SectorCount - 1; + Cylinder = EndSectorId / nSector / nHead; + Head = EndSectorId / nSector % nHead; + Sector = EndSectorId % nSector + 1; + + Table->EndHead = Head; + Table->EndSector = Sector; + Table->EndCylinder = Cylinder; + + Table->StartSectorId = StartSectorId; + Table->SectorCount = SectorCount; + + return 0; +} + + +static int WriteDataToPhyDisk(int fd, UINT64 offset, void *buffer, int len) +{ + ssize_t wrlen; + off_t newseek; + + newseek = lseek(fd, offset, SEEK_SET); + if (newseek != offset) + { + printf("Failed to lseek %llu %lld %d\n", offset, (long long)newseek, errno); + return 0; + } + + wrlen = write(fd, buffer, len); + if ((int)wrlen != len) + { + printf("Failed to write %d %d %d\n", len, (int)wrlen, errno); + return 0; + } + + return 1; +} + +static int VentoyFillBackupGptHead(VTOY_GPT_INFO *pInfo, VTOY_GPT_HDR *pHead) +{ + UINT64 LBA; + UINT64 BackupLBA; + + memcpy(pHead, &pInfo->Head, sizeof(VTOY_GPT_HDR)); + + LBA = pHead->EfiStartLBA; + BackupLBA = pHead->EfiBackupLBA; + + pHead->EfiStartLBA = BackupLBA; + pHead->EfiBackupLBA = LBA; + pHead->PartTblStartLBA = BackupLBA + 1 - 33; + + pHead->Crc = 0; + pHead->Crc = VtoyCrc32(pHead, pHead->Length); + + return 0; +} + +static int update_part_table(char *disk, UINT64 part2start) +{ + int i; + int j; + int fd = -1; + int rc = 1; + int PartStyle = 0; + ssize_t len = 0; + UINT64 DiskSizeInBytes; + VTOY_GPT_INFO *pGPT = NULL; + VTOY_GPT_HDR *pBack = NULL; + + DiskSizeInBytes = get_disk_size_in_byte(disk); + if (DiskSizeInBytes == 0) + { + printf("Failed to get disk size of %s\n", disk); + goto out; + } + + fd = open(disk, O_RDWR); + if (fd < 0) + { + printf("Failed to open %s\n", disk); + goto out; + } + + pGPT = malloc(sizeof(VTOY_GPT_INFO) + sizeof(VTOY_GPT_HDR)); + if (NULL == pGPT) + { + goto out; + } + memset(pGPT, 0, sizeof(VTOY_GPT_INFO) + sizeof(VTOY_GPT_HDR)); + + pBack = (VTOY_GPT_HDR *)(pGPT + 1); + + len = read(fd, pGPT, sizeof(VTOY_GPT_INFO)); + if (len != (ssize_t)sizeof(VTOY_GPT_INFO)) + { + printf("Failed to read partition table %d err:%d\n", (int)len, errno); + goto out; + } + + if (pGPT->MBR.PartTbl[0].FsFlag == 0xEE && memcmp(pGPT->Head.Signature, "EFI PART", 8) == 0) + { + PartStyle = 1; + } + else + { + PartStyle = 0; + } + + if (PartStyle == 0) + { + PART_TABLE *PartTbl = pGPT->MBR.PartTbl; + + for (i = 1; i < 4; i++) + { + if (PartTbl[i].SectorCount == 0) + { + break; + } + } + + if (i >= 4) + { + printf("###[FAIL] Can not find a free MBR partition table.\n"); + goto out; + } + + for (j = i - 1; j > 0; j--) + { + printf("Move MBR partition table %d --> %d\n", j + 1, j + 2); + memcpy(PartTbl + (j + 1), PartTbl + j, sizeof(PART_TABLE)); + } + + memset(PartTbl + 1, 0, sizeof(PART_TABLE)); + VentoyFillMBRLocation(DiskSizeInBytes, (UINT32)part2start, VENTOY_EFI_PART_SIZE / 512, PartTbl + 1); + PartTbl[1].Active = 0x00; + PartTbl[1].FsFlag = 0xEF; // EFI System Partition + + PartTbl[0].Active = 0x80; // bootable + PartTbl[0].SectorCount = (UINT32)part2start - 2048; + + if (!WriteDataToPhyDisk(fd, 0, &(pGPT->MBR), 512)) + { + printf("MBR write MBR failed\n"); + goto out; + } + + fsync(fd); + printf("MBR update partition table success.\n"); + rc = 0; + } + else + { + VTOY_GPT_PART_TBL *PartTbl = pGPT->PartTbl; + + for (i = 1; i < 128; i++) + { + if (memcmp(&(PartTbl[i].PartGuid), &g_ZeroGuid, sizeof(GUID)) == 0) + { + break; + } + } + + if (i >= 128) + { + printf("###[FAIL] Can not find a free GPT partition table.\n"); + goto out; + } + + for (j = i - 1; j > 0; j--) + { + printf("Move GPT partition table %d --> %d\n", j + 1, j + 2); + memcpy(PartTbl + (j + 1), PartTbl + j, sizeof(VTOY_GPT_PART_TBL)); + } + + // to fix windows issue + memset(PartTbl + 1, 0, sizeof(VTOY_GPT_PART_TBL)); + memcpy(&(PartTbl[1].PartType), &g_WindowsDataPartGuid, sizeof(GUID)); + ventoy_gen_preudo_uuid(&(PartTbl[1].PartGuid)); + + PartTbl[0].LastLBA = part2start - 1; + + PartTbl[1].StartLBA = PartTbl[0].LastLBA + 1; + PartTbl[1].LastLBA = PartTbl[1].StartLBA + VENTOY_EFI_PART_SIZE / 512 - 1; + PartTbl[1].Attr = 0xC000000000000001ULL; + PartTbl[1].Name[0] = 'V'; + PartTbl[1].Name[1] = 'T'; + PartTbl[1].Name[2] = 'O'; + PartTbl[1].Name[3] = 'Y'; + PartTbl[1].Name[4] = 'E'; + PartTbl[1].Name[5] = 'F'; + PartTbl[1].Name[6] = 'I'; + PartTbl[1].Name[7] = 0; + + //Update CRC + pGPT->Head.PartTblCrc = VtoyCrc32(pGPT->PartTbl, sizeof(pGPT->PartTbl)); + pGPT->Head.Crc = 0; + pGPT->Head.Crc = VtoyCrc32(&(pGPT->Head), pGPT->Head.Length); + + printf("pGPT->Head.EfiStartLBA=%llu\n", pGPT->Head.EfiStartLBA); + printf("pGPT->Head.EfiBackupLBA=%llu\n", pGPT->Head.EfiBackupLBA); + + VentoyFillBackupGptHead(pGPT, pBack); + if (!WriteDataToPhyDisk(fd, pGPT->Head.EfiBackupLBA * 512, pBack, 512)) + { + printf("GPT write backup head failed\n"); + goto out; + } + + if (!WriteDataToPhyDisk(fd, (pGPT->Head.EfiBackupLBA - 32) * 512, pGPT->PartTbl, 512 * 32)) + { + printf("GPT write backup partition table failed\n"); + goto out; + } + + if (!WriteDataToPhyDisk(fd, 0, pGPT, 512 * 34)) + { + printf("GPT write MBR & Main partition table failed\n"); + goto out; + } + + fsync(fd); + printf("GPT update partition table success.\n"); + rc = 0; + } + +out: + check_close(fd); + check_free(pGPT); + return rc; +} + +int partresize_main(int argc, char **argv) +{ + UINT64 sector; + + if (argc != 3 && argc != 4) + { + printf("usage: partresize -c/-f /dev/sdb\n"); + return 1; + } + + if (strcmp(argv[1], "-c") == 0) + { + return part_check(argv[2]); + } + else if (strcmp(argv[1], "-s") == 0) + { + sector = strtoull(argv[3], NULL, 10); + return secureboot_proc(argv[2], sector); + } + else if (strcmp(argv[1], "-p") == 0) + { + sector = strtoull(argv[3], NULL, 10); + return update_part_table(argv[2], sector); + } + else if (strcmp(argv[1], "-t") == 0) + { + return gpt_check(argv[2]); + } + else + { + return 1; + } +} + diff --git a/vtoycli/vtoycli.c b/vtoycli/vtoycli.c new file mode 100644 index 00000000000..3a9291764de --- /dev/null +++ b/vtoycli/vtoycli.c @@ -0,0 +1,120 @@ +/****************************************************************************** + * vtoycli.c + * + * Copyright (c) 2021, longpanda + * + * 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 3 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 . + * + */ + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +#include "vtoycli.h" + +void ventoy_gen_preudo_uuid(void *uuid) +{ + int i; + int fd; + + fd = open("/dev/urandom", O_RDONLY); + if (fd < 0) + { + srand(time(NULL)); + for (i = 0; i < 8; i++) + { + *((uint16_t *)uuid + i) = (uint16_t)(rand() & 0xFFFF); + } + } + else + { + read(fd, uuid, 16); + close(fd); + } +} + +UINT64 get_disk_size_in_byte(const char *disk) +{ + int fd; + int rc; + const char *pos = disk; + unsigned long long size = 0; + char diskpath[256] = {0}; + char sizebuf[64] = {0}; + + if (strncmp(disk, "/dev/", 5) == 0) + { + pos = disk + 5; + } + + // Try 1: get size from sysfs + snprintf(diskpath, sizeof(diskpath) - 1, "/sys/block/%s/size", pos); + if (access(diskpath, F_OK) >= 0) + { + fd = open(diskpath, O_RDONLY); + if (fd >= 0) + { + read(fd, sizebuf, sizeof(sizebuf)); + size = strtoull(sizebuf, NULL, 10); + close(fd); + return (size * 512); + } + } + else + { + printf("%s not exist \n", diskpath); + } + + printf("disk %s size %llu bytes\n", disk, (unsigned long long)size); + return size; +} + + +int main(int argc, char **argv) +{ + if (argc < 2) + { + return 1; + } + else if (strcmp(argv[1], "fat") == 0) + { + return vtoyfat_main(argc - 1, argv + 1); + } + else if (strcmp(argv[1], "gpt") == 0) + { + return vtoygpt_main(argc - 1, argv + 1); + } + else if (strcmp(argv[1], "partresize") == 0) + { + return partresize_main(argc - 1, argv + 1); + } + else + { + return 1; + } +} + diff --git a/vtoycli/vtoycli.h b/vtoycli/vtoycli.h new file mode 100644 index 00000000000..1a6667ffe12 --- /dev/null +++ b/vtoycli/vtoycli.h @@ -0,0 +1,138 @@ +/****************************************************************************** + * vtoycli.h + * + * Copyright (c) 2021, longpanda + * + * 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 3 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 . + * + */ + +#ifndef __VTOYCLI_H__ +#define __VTOYCLI_H__ + +#define VENTOY_EFI_PART_ATTR 0xC000000000000001ULL + +#define SIZE_1MB (1024 * 1024) +#define VENTOY_EFI_PART_SIZE (32 * SIZE_1MB) + +#define check_free(p) if (p) free(p) +#define check_close(fd) if (fd >= 0) close(fd) + +#define VOID void +#define CHAR char +#define UINT64 unsigned long long +#define UINT32 unsigned int +#define UINT16 unsigned short +#define CHAR16 unsigned short +#define UINT8 unsigned char + +UINT32 VtoyCrc32(VOID *Buffer, UINT32 Length); + +#define COMPILE_ASSERT(expr) extern char __compile_assert[(expr) ? 1 : -1] + +#pragma pack(1) + +typedef struct PART_TABLE +{ + UINT8 Active; + + UINT8 StartHead; + UINT16 StartSector : 6; + UINT16 StartCylinder : 10; + + UINT8 FsFlag; + + UINT8 EndHead; + UINT16 EndSector : 6; + UINT16 EndCylinder : 10; + + UINT32 StartSectorId; + UINT32 SectorCount; +}PART_TABLE; + +typedef struct MBR_HEAD +{ + UINT8 BootCode[446]; + PART_TABLE PartTbl[4]; + UINT8 Byte55; + UINT8 ByteAA; +}MBR_HEAD; + +typedef struct GUID +{ + UINT32 data1; + UINT16 data2; + UINT16 data3; + UINT8 data4[8]; +}GUID; + +typedef struct VTOY_GPT_HDR +{ + CHAR Signature[8]; /* EFI PART */ + UINT8 Version[4]; + UINT32 Length; + UINT32 Crc; + UINT8 Reserved1[4]; + UINT64 EfiStartLBA; + UINT64 EfiBackupLBA; + UINT64 PartAreaStartLBA; + UINT64 PartAreaEndLBA; + GUID DiskGuid; + UINT64 PartTblStartLBA; + UINT32 PartTblTotNum; + UINT32 PartTblEntryLen; + UINT32 PartTblCrc; + UINT8 Reserved2[420]; +}VTOY_GPT_HDR; + +COMPILE_ASSERT(sizeof(VTOY_GPT_HDR) == 512); + +typedef struct VTOY_GPT_PART_TBL +{ + GUID PartType; + GUID PartGuid; + UINT64 StartLBA; + UINT64 LastLBA; + UINT64 Attr; + CHAR16 Name[36]; +}VTOY_GPT_PART_TBL; +COMPILE_ASSERT(sizeof(VTOY_GPT_PART_TBL) == 128); + +typedef struct VTOY_GPT_INFO +{ + MBR_HEAD MBR; + VTOY_GPT_HDR Head; + VTOY_GPT_PART_TBL PartTbl[128]; +}VTOY_GPT_INFO; + +typedef struct VTOY_BK_GPT_INFO +{ + VTOY_GPT_PART_TBL PartTbl[128]; + VTOY_GPT_HDR Head; +}VTOY_BK_GPT_INFO; + +COMPILE_ASSERT(sizeof(VTOY_GPT_INFO) == 512 * 34); +COMPILE_ASSERT(sizeof(VTOY_BK_GPT_INFO) == 512 * 33); + +#pragma pack() + +UINT32 VtoyCrc32(VOID *Buffer, UINT32 Length); +int vtoygpt_main(int argc, char **argv); +int vtoyfat_main(int argc, char **argv); +int partresize_main(int argc, char **argv); +void ventoy_gen_preudo_uuid(void *uuid); +UINT64 get_disk_size_in_byte(const char *disk); + +#endif /* __VTOYCLI_H__ */ + diff --git a/vtoycli/vtoyfat.c b/vtoycli/vtoyfat.c new file mode 100644 index 00000000000..8f3225f326b --- /dev/null +++ b/vtoycli/vtoyfat.c @@ -0,0 +1,159 @@ +/****************************************************************************** + * vtoyfat.c ---- Parse fat file system + * + * Copyright (c) 2021, longpanda + * + * 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 3 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 . + * + */ + +#include +#include +#include +#include +#include +#include +#include + +#include + +static int g_disk_fd = 0; + +static int vtoy_disk_read(uint32 sector, uint8 *buffer, uint32 sector_count) +{ + lseek(g_disk_fd, sector * 512, SEEK_SET); + read(g_disk_fd, buffer, sector_count * 512); + + return 1; +} + +static int check_secure_boot(void) +{ + void *flfile = NULL; + + flfile = fl_fopen("/EFI/BOOT/grubx64_real.efi", "rb"); + if (flfile) + { + fl_fclose(flfile); + return 0; + } + + return 1; +} + +static int get_ventoy_version(void) +{ + int rc = 1; + int size = 0; + char *buf = NULL; + char *pos = NULL; + char *end = NULL; + void *flfile = NULL; + + flfile = fl_fopen("/grub/grub.cfg", "rb"); + if (flfile) + { + fl_fseek(flfile, 0, SEEK_END); + size = (int)fl_ftell(flfile); + + fl_fseek(flfile, 0, SEEK_SET); + + buf = malloc(size + 1); + if (buf) + { + fl_fread(buf, 1, size, flfile); + buf[size] = 0; + + pos = strstr(buf, "VENTOY_VERSION="); + if (pos) + { + pos += strlen("VENTOY_VERSION="); + if (*pos == '"') + { + pos++; + } + + end = pos; + while (*end != 0 && *end != '"' && *end != '\r' && *end != '\n') + { + end++; + } + + *end = 0; + + printf("%s\n", pos); + rc = 0; + } + free(buf); + } + + fl_fclose(flfile); + } + + return rc; +} + +int vtoyfat_main(int argc, char **argv) +{ + int op = 0; + int rc = 1; + char *disk; + + if (argc != 2 && argc != 3) + { + printf("Usage: vtoyfat /dev/sdbs \n"); + printf("Usage: vtoyfat -s /dev/sdbs \n"); + return 1; + } + + if (argv[1][0] == '-' && argv[1][1] == 'T') + { + return 0; + } + + disk = argv[1]; + if (argv[1][0] == '-' && argv[1][1] == 's') + { + op = 1; + disk = argv[2]; + } + + g_disk_fd = open(disk, O_RDONLY); + if (g_disk_fd < 0) + { + printf("Failed to open %s\n", disk); + return 1; + } + + fl_init(); + + if (0 == fl_attach_media(vtoy_disk_read, NULL)) + { + if (op == 0) + { + rc = get_ventoy_version(); + } + else + { + rc = check_secure_boot(); + } + } + + fl_shutdown(); + + close(g_disk_fd); + + return rc; +} + diff --git a/vtoycli/vtoygpt.c b/vtoycli/vtoygpt.c new file mode 100644 index 00000000000..1d9d262161b --- /dev/null +++ b/vtoycli/vtoygpt.c @@ -0,0 +1,220 @@ +/****************************************************************************** + * vtoygpt.c ---- ventoy gpt util + * + * Copyright (c) 2021, longpanda + * + * 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 3 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 . + * + */ +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include "vtoycli.h" + +void DumpGuid(const char *prefix, GUID *guid) +{ + printf("%s: %08x-%04x-%04x-%02x-%02x-%02x-%02x-%02x-%02x-%02x-%02x\n", + prefix, + guid->data1, guid->data2, guid->data3, + guid->data4[0], guid->data4[1], guid->data4[2], guid->data4[3], + guid->data4[4], guid->data4[5], guid->data4[6], guid->data4[7] + ); +} + +void DumpHead(VTOY_GPT_HDR *pHead) +{ + UINT32 CrcRead; + UINT32 CrcCalc; + + printf("Signature:<%s>\n", pHead->Signature); + printf("Version:<%02x %02x %02x %02x>\n", pHead->Version[0], pHead->Version[1], pHead->Version[2], pHead->Version[3]); + printf("Length:%u\n", pHead->Length); + printf("Crc:0x%08x\n", pHead->Crc); + printf("EfiStartLBA:%lu\n", pHead->EfiStartLBA); + printf("EfiBackupLBA:%lu\n", pHead->EfiBackupLBA); + printf("PartAreaStartLBA:%lu\n", pHead->PartAreaStartLBA); + printf("PartAreaEndLBA:%lu\n", pHead->PartAreaEndLBA); + DumpGuid("DiskGuid", &pHead->DiskGuid); + + printf("PartTblStartLBA:%lu\n", pHead->PartTblStartLBA); + printf("PartTblTotNum:%u\n", pHead->PartTblTotNum); + printf("PartTblEntryLen:%u\n", pHead->PartTblEntryLen); + printf("PartTblCrc:0x%08x\n", pHead->PartTblCrc); + + CrcRead = pHead->Crc; + pHead->Crc = 0; + CrcCalc = VtoyCrc32(pHead, pHead->Length); + + if (CrcCalc != CrcRead) + { + printf("Head CRC Check Failed\n"); + } + else + { + printf("Head CRC Check SUCCESS [%x] [%x]\n", CrcCalc, CrcRead); + } + + CrcRead = pHead->PartTblCrc; + CrcCalc = VtoyCrc32(pHead + 1, pHead->PartTblEntryLen * pHead->PartTblTotNum); + if (CrcCalc != CrcRead) + { + printf("Part Table CRC Check Failed\n"); + } + else + { + printf("Part Table CRC Check SUCCESS [%x] [%x]\n", CrcCalc, CrcRead); + } +} + +void DumpPartTable(VTOY_GPT_PART_TBL *Tbl) +{ + int i; + + DumpGuid("PartType", &Tbl->PartType); + DumpGuid("PartGuid", &Tbl->PartGuid); + printf("StartLBA:%lu\n", Tbl->StartLBA); + printf("LastLBA:%lu\n", Tbl->LastLBA); + printf("Attr:0x%lx\n", Tbl->Attr); + printf("Name:"); + + for (i = 0; i < 36 && Tbl->Name[i]; i++) + { + printf("%c", (CHAR)(Tbl->Name[i])); + } + printf("\n"); +} + +void DumpMBR(MBR_HEAD *pMBR) +{ + int i; + + for (i = 0; i < 4; i++) + { + printf("=========== Partition Table %d ============\n", i + 1); + printf("PartTbl.Active = 0x%x\n", pMBR->PartTbl[i].Active); + printf("PartTbl.FsFlag = 0x%x\n", pMBR->PartTbl[i].FsFlag); + printf("PartTbl.StartSectorId = %u\n", pMBR->PartTbl[i].StartSectorId); + printf("PartTbl.SectorCount = %u\n", pMBR->PartTbl[i].SectorCount); + printf("PartTbl.StartHead = %u\n", pMBR->PartTbl[i].StartHead); + printf("PartTbl.StartSector = %u\n", pMBR->PartTbl[i].StartSector); + printf("PartTbl.StartCylinder = %u\n", pMBR->PartTbl[i].StartCylinder); + printf("PartTbl.EndHead = %u\n", pMBR->PartTbl[i].EndHead); + printf("PartTbl.EndSector = %u\n", pMBR->PartTbl[i].EndSector); + printf("PartTbl.EndCylinder = %u\n", pMBR->PartTbl[i].EndCylinder); + } +} + +int DumpGptInfo(VTOY_GPT_INFO *pGptInfo) +{ + int i; + + DumpMBR(&pGptInfo->MBR); + DumpHead(&pGptInfo->Head); + + for (i = 0; i < 128; i++) + { + if (pGptInfo->PartTbl[i].StartLBA == 0) + { + break; + } + + printf("=====Part %d=====\n", i); + DumpPartTable(pGptInfo->PartTbl + i); + } + + return 0; +} + +int vtoygpt_main(int argc, char **argv) +{ + int i; + int fd; + UINT64 DiskSize; + CHAR16 *Name = NULL; + VTOY_GPT_INFO *pMainGptInfo = NULL; + VTOY_BK_GPT_INFO *pBackGptInfo = NULL; + + if (argc != 3) + { + printf("usage: vtoygpt -f /dev/sdb\n"); + return 1; + } + + fd = open(argv[2], O_RDWR); + if (fd < 0) + { + printf("Failed to open %s\n", argv[2]); + return 1; + } + + pMainGptInfo = malloc(sizeof(VTOY_GPT_INFO)); + pBackGptInfo = malloc(sizeof(VTOY_BK_GPT_INFO)); + if (NULL == pMainGptInfo || NULL == pBackGptInfo) + { + close(fd); + return 1; + } + + read(fd, pMainGptInfo, sizeof(VTOY_GPT_INFO)); + + if (argv[1][0] == '-' && argv[1][1] == 'd') + { + DumpGptInfo(pMainGptInfo); + } + else + { + DiskSize = lseek(fd, 0, SEEK_END); + lseek(fd, DiskSize - 33 * 512, SEEK_SET); + read(fd, pBackGptInfo, sizeof(VTOY_BK_GPT_INFO)); + + Name = pMainGptInfo->PartTbl[1].Name; + if (Name[0] == 'V' && Name[1] == 'T' && Name[2] == 'O' && Name[3] == 'Y') + { + pMainGptInfo->PartTbl[1].Attr = VENTOY_EFI_PART_ATTR; + pMainGptInfo->Head.PartTblCrc = VtoyCrc32(pMainGptInfo->PartTbl, sizeof(pMainGptInfo->PartTbl)); + pMainGptInfo->Head.Crc = 0; + pMainGptInfo->Head.Crc = VtoyCrc32(&pMainGptInfo->Head, pMainGptInfo->Head.Length); + + pBackGptInfo->PartTbl[1].Attr = VENTOY_EFI_PART_ATTR; + pBackGptInfo->Head.PartTblCrc = VtoyCrc32(pBackGptInfo->PartTbl, sizeof(pBackGptInfo->PartTbl)); + pBackGptInfo->Head.Crc = 0; + pBackGptInfo->Head.Crc = VtoyCrc32(&pBackGptInfo->Head, pBackGptInfo->Head.Length); + + lseek(fd, 512, SEEK_SET); + write(fd, (UINT8 *)pMainGptInfo + 512, sizeof(VTOY_GPT_INFO) - 512); + + lseek(fd, DiskSize - 33 * 512, SEEK_SET); + write(fd, pBackGptInfo, sizeof(VTOY_BK_GPT_INFO)); + + fsync(fd); + } + } + + free(pMainGptInfo); + free(pBackGptInfo); + close(fd); + + return 0; +} +