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https://github.com/Atmosphere-NX/Atmosphere
synced 2024-11-09 22:56:35 +00:00
[stage2] raw_mmc_dev.c: fix various bugs
This commit is contained in:
parent
3273cc5357
commit
20c225c829
1 changed files with 49 additions and 67 deletions
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@ -185,8 +185,8 @@ static int rawmmcdev_open(struct _reent *r, void *fileStruct, const char *path,
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return -1;
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}
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/* Only allow R/W flags, and O_CREAT which is no-op in this case. */
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if (flags & ~(O_ACCMODE | O_CREAT)) {
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/* Forbid some flags that we explicitely don't support.*/
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if (flags & (O_APPEND | O_TRUNC | O_EXCL)) {
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r->_errno = EINVAL;
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return -1;
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}
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@ -205,14 +205,15 @@ static int rawmmcdev_close(struct _reent *r, void *fd) {
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return 0;
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}
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static ssize_t rawmmcdev_write(struct _reent *r, void *fd, const char *ptr, size_t len) {
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static __attribute__((aligned(16))) uint8_t crypt_buf[4096] = {0};
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/* Keep this <= the size of the DMA bounce buffer in sdmmc.c */
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static __attribute__((aligned(16))) uint8_t g_crypto_buffer[4096 * 4] = {0};
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static ssize_t rawmmcdev_write(struct _reent *r, void *fd, const char *ptr, size_t len) {
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rawmmcdev_file_t *f = (rawmmcdev_file_t *)fd;
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rawmmcdev_device_t *device = f->device;
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uint32_t device_sector_offset = (uint32_t)(device->offset / 512);
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uint32_t sector_begin = (uint32_t)((device->offset + f->offset) / 512); /* NAND offset */
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uint32_t sector_end = (uint32_t)(512 * (device->offset + f->offset + len + 511) / 512);
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uint32_t sector_end = (uint32_t)((device->offset + f->offset + len + 511) / 512);
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uint32_t sector_end_aligned = sector_end - ((f->offset + len) % 512 != 0 ? 1 : 0);
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uint32_t current_sector = sector_begin;
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const uint8_t *data = (const uint8_t *)ptr;
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@ -232,19 +233,19 @@ static ssize_t rawmmcdev_write(struct _reent *r, void *fd, const char *ptr, size
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/* Unaligned at the start, we need to read the sector and incorporate the data. */
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if (f->offset % 512 != 0) {
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no = sdmmc_read(device->mmc, crypt_buf, sector_begin, 1);
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no = sdmmc_read(device->mmc, g_crypto_buffer, sector_begin, 1);
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if (no != 0) {
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r->_errno = no;
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return -1;
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}
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if (device->encrypted) {
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device->read_crypt_func(crypt_buf, crypt_buf, 512 * (sector_begin - device_sector_offset), 512, device->iv, device->crypt_flags);
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device->read_crypt_func(g_crypto_buffer, g_crypto_buffer, 512 * (sector_begin - device_sector_offset), 512, device->iv, device->crypt_flags);
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}
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memcpy(crypt_buf, data, len <= (512 - (f->offset % 512)) ? len : 512 - (f->offset % 512));
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memcpy(g_crypto_buffer, data, len <= (512 - (f->offset % 512)) ? len : 512 - (f->offset % 512));
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if (device->encrypted) {
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device->write_crypt_func(crypt_buf, crypt_buf, 512 * (sector_begin - device_sector_offset), 512, device->iv, device->crypt_flags);
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device->write_crypt_func(g_crypto_buffer, g_crypto_buffer, 512 * (sector_begin - device_sector_offset), 512, device->iv, device->crypt_flags);
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}
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no = sdmmc_write(device->mmc, crypt_buf, sector_begin, 1);
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no = sdmmc_write(device->mmc, g_crypto_buffer, sector_begin, 1);
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if (no != 0) {
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r->_errno = no;
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return -1;
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@ -261,52 +262,42 @@ static ssize_t rawmmcdev_write(struct _reent *r, void *fd, const char *ptr, size
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return len;
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}
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if (device->encrypted) {
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size_t sectors_remaining = sector_end_aligned - current_sector;
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for (size_t i = 0; i < len; i += sizeof(crypt_buf)/512) {
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size_t n = sectors_remaining <= sizeof(crypt_buf)/512 ? sectors_remaining : sizeof(crypt_buf)/512;
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for (size_t i = 0; i < len; i += sizeof(g_crypto_buffer)/512) {
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size_t n = sectors_remaining <= sizeof(g_crypto_buffer)/512 ? sectors_remaining : sizeof(g_crypto_buffer)/512;
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memcpy(crypt_buf, data, 512 * n);
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device->write_crypt_func(crypt_buf, crypt_buf, current_sector - device_sector_offset, 512 * n, device->iv, device->crypt_flags);
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if (device->encrypted) {
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memcpy(g_crypto_buffer, data, 512 * n);
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device->write_crypt_func(g_crypto_buffer, g_crypto_buffer, current_sector - device_sector_offset, 512 * n, device->iv, device->crypt_flags);
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no = sdmmc_write(device->mmc, g_crypto_buffer, current_sector, n);
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} else {
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no = sdmmc_write(device->mmc, data, current_sector, n);
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}
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no = sdmmc_write(device->mmc, crypt_buf, current_sector, n);
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if (no != 0) {
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r->_errno = no;
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return -1;
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}
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data += 512 * n;
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current_sector++;
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}
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} else {
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/* We can write everything aligned at once. */
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size_t sectors_remaining = sector_end_aligned - current_sector;
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no = sdmmc_write(device->mmc, data, current_sector, sectors_remaining);
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if (no != 0) {
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r->_errno = no;
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return -1;
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}
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data += 512 * sectors_remaining;
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current_sector += sectors_remaining;
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current_sector += n;
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}
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/* Unaligned at the end, we need to read the sector and incorporate the data. */
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if (sector_end != sector_end_aligned) {
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no = sdmmc_read(device->mmc, crypt_buf, sector_end_aligned, 1);
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no = sdmmc_read(device->mmc, g_crypto_buffer, sector_end_aligned, 1);
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if (no != 0) {
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r->_errno = no;
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return -1;
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}
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if (device->encrypted) {
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device->read_crypt_func(crypt_buf, crypt_buf, 512 * (sector_end_aligned - device_sector_offset), 512, device->iv, device->crypt_flags);
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device->read_crypt_func(g_crypto_buffer, g_crypto_buffer, 512 * (sector_end_aligned - device_sector_offset), 512, device->iv, device->crypt_flags);
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}
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memcpy(crypt_buf, data, (f->offset + len) % 512);
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memcpy(g_crypto_buffer, data, (f->offset + len) % 512);
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if (device->encrypted) {
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device->write_crypt_func(crypt_buf, crypt_buf, 512 * (sector_end_aligned - device_sector_offset), 512, device->iv, device->crypt_flags);
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device->write_crypt_func(g_crypto_buffer, g_crypto_buffer, 512 * (sector_end_aligned - device_sector_offset), 512, device->iv, device->crypt_flags);
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}
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no = sdmmc_write(device->mmc, crypt_buf, sector_end_aligned, 1);
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no = sdmmc_write(device->mmc, g_crypto_buffer, sector_end_aligned, 1);
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if (no != 0) {
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r->_errno = no;
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return -1;
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@ -322,13 +313,11 @@ static ssize_t rawmmcdev_write(struct _reent *r, void *fd, const char *ptr, size
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}
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static ssize_t rawmmcdev_read(struct _reent *r, void *fd, char *ptr, size_t len) {
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static __attribute__((aligned(16))) uint8_t crypt_buf[4096] = {0};
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rawmmcdev_file_t *f = (rawmmcdev_file_t *)fd;
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rawmmcdev_device_t *device = f->device;
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uint32_t device_sector_offset = (uint32_t)(device->offset / 512);
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uint32_t sector_begin = (uint32_t)((device->offset + f->offset) / 512); /* NAND offset */
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uint32_t sector_end = (uint32_t)(512 * (device->offset + f->offset + len + 511) / 512);
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uint32_t sector_end = (uint32_t)((device->offset + f->offset + len + 511) / 512);
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uint32_t sector_end_aligned = sector_end - ((f->offset + len) % 512 != 0 ? 1 : 0);
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uint32_t current_sector = sector_begin;
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uint8_t *data = (uint8_t *)ptr;
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@ -348,15 +337,15 @@ static ssize_t rawmmcdev_read(struct _reent *r, void *fd, char *ptr, size_t len)
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/* Unaligned at the start. */
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if (f->offset % 512 != 0) {
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no = sdmmc_read(device->mmc, crypt_buf, sector_begin, 1);
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no = sdmmc_read(device->mmc, g_crypto_buffer, sector_begin, 1);
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if (no != 0) {
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r->_errno = no;
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return -1;
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}
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if (device->encrypted) {
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device->read_crypt_func(crypt_buf, crypt_buf, 512 * (sector_begin - device_sector_offset), 512, device->iv, device->crypt_flags);
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device->read_crypt_func(g_crypto_buffer, g_crypto_buffer, 512 * (sector_begin - device_sector_offset), 512, device->iv, device->crypt_flags);
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}
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memcpy(data, crypt_buf + (f->offset % 512), len <= (512 - (f->offset % 512)) ? len : 512 - (f->offset % 512));
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memcpy(data, g_crypto_buffer + (f->offset % 512), len <= (512 - (f->offset % 512)) ? len : 512 - (f->offset % 512));
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/* Advance */
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data += 512 - (f->offset % 512);
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@ -368,48 +357,41 @@ static ssize_t rawmmcdev_read(struct _reent *r, void *fd, char *ptr, size_t len)
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return 0;
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}
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if (device->encrypted) {
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size_t sectors_remaining = sector_end_aligned - current_sector;
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for (size_t i = 0; i < sectors_remaining; i += sizeof(crypt_buf)/512) {
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size_t n = sectors_remaining <= sizeof(crypt_buf)/512 ? sectors_remaining : sizeof(crypt_buf)/512;
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for (size_t i = 0; i < len; i += sizeof(g_crypto_buffer)/512) {
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size_t n = sectors_remaining <= sizeof(g_crypto_buffer)/512 ? sectors_remaining : sizeof(g_crypto_buffer)/512;
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no = sdmmc_read(device->mmc, crypt_buf, current_sector, n);
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if (device->encrypted) {
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no = sdmmc_read(device->mmc, g_crypto_buffer, current_sector, n);
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if (no != 0) {
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r->_errno = no;
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return -1;
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}
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device->read_crypt_func(crypt_buf, crypt_buf, current_sector - device_sector_offset, 512 * n, device->iv, device->crypt_flags);
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memcpy(data, crypt_buf, 512 * n);
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device->read_crypt_func(g_crypto_buffer, g_crypto_buffer, current_sector - device_sector_offset, 512 * n, device->iv, device->crypt_flags);
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memcpy(data, g_crypto_buffer, 512 * n);
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} else {
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no = sdmmc_read(device->mmc, data, current_sector, n);
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if (no != 0) {
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r->_errno = no;
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return -1;
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}
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}
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data += 512 * n;
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current_sector++;
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}
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} else {
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/* We can read everything aligned at once. */
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size_t sectors_remaining = sector_end_aligned - current_sector;
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no = sdmmc_read(device->mmc, data, current_sector, sectors_remaining);
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if (no != 0) {
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r->_errno = no;
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return -1;
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}
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data += 512 * sectors_remaining;
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current_sector += sectors_remaining;
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current_sector += n;
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}
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/* Unaligned at the end, we need to read the sector and incorporate the data. */
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if (sector_end != sector_end_aligned) {
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no = sdmmc_read(device->mmc, crypt_buf, sector_end_aligned, 1);
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no = sdmmc_read(device->mmc, g_crypto_buffer, sector_end_aligned, 1);
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if (no != 0) {
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r->_errno = no;
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return -1;
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}
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if (device->encrypted) {
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device->read_crypt_func(crypt_buf, crypt_buf, 512 * (sector_end_aligned - device_sector_offset), 512, device->iv, device->crypt_flags);
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device->read_crypt_func(g_crypto_buffer, g_crypto_buffer, 512 * (sector_end_aligned - device_sector_offset), 512, device->iv, device->crypt_flags);
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}
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memcpy(data, crypt_buf, (f->offset + len) % 512);
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memcpy(data, g_crypto_buffer, (f->offset + len) % 512);
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/* Advance */
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data += 512 - (f->offset % 512);
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