update example
This commit is contained in:
hathach
@@ -28,8 +28,13 @@
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#if CFG_TUD_MSC
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#if CFG_EXAMPLE_MSC_ASYNC_IO
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// Use async IO in example or not
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#define CFG_EXAMPLE_MSC_ASYNC_IO 1
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// Simulate read/write operation delay
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#define CFG_EXAMPLE_MSC_IO_DELAY_MS 0
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#if CFG_EXAMPLE_MSC_ASYNC_IO
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#define IO_STACK_SIZE configMINIMAL_STACK_SIZE
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typedef struct {
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@@ -66,8 +71,7 @@ static bool ejected = false;
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If you find any bugs or get any questions, feel free to file an\r\n\
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issue at github.com/hathach/tinyusb"
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enum
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{
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enum {
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DISK_BLOCK_NUM = 16, // 8KB is the smallest size that windows allow to mount
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DISK_BLOCK_SIZE = 512
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};
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@@ -162,18 +166,20 @@ static void io_task(void *params) {
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io_ops_t io_ops;
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while (1) {
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if (xQueueReceive(io_queue, &io_ops, portMAX_DELAY)) {
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const uint8_t* addr = msc_disk[io_ops.lba] + io_ops.offset;
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int32_t nbytes = io_ops.bufsize;
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if (io_ops.is_read) {
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uint8_t const* addr = msc_disk[io_ops.lba] + io_ops.offset;
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memcpy(io_ops.buffer, addr, io_ops.bufsize);
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} else {
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#ifndef CFG_EXAMPLE_MSC_READONLY
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uint8_t* addr = msc_disk[io_ops.lba] + io_ops.offset;
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memcpy(addr, io_ops.buffer, io_ops.bufsize);
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memcpy((uint8_t*) addr, io_ops.buffer, io_ops.bufsize);
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#else
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nbytes = -1; // failed to write
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#endif
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}
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tusb_time_delay_ms_api(CFG_EXAMPLE_MSC_IO_DELAY_MS);
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tud_msc_async_io_done(io_ops.bufsize);
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tud_msc_async_io_done(nbytes, false);
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}
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}
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}
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@@ -184,14 +190,11 @@ void msc_disk_init() {}
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// Invoked when received SCSI_CMD_INQUIRY
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// Application fill vendor id, product id and revision with string up to 8, 16, 4 characters respectively
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void tud_msc_inquiry_cb(uint8_t lun, uint8_t vendor_id[8], uint8_t product_id[16], uint8_t product_rev[4])
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{
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void tud_msc_inquiry_cb(uint8_t lun, uint8_t vendor_id[8], uint8_t product_id[16], uint8_t product_rev[4]) {
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(void) lun;
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const char vid[] = "TinyUSB";
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const char pid[] = "Mass Storage";
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const char rev[] = "1.0";
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memcpy(vendor_id , vid, strlen(vid));
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memcpy(product_id , pid, strlen(pid));
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memcpy(product_rev, rev, strlen(rev));
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@@ -199,8 +202,7 @@ void tud_msc_inquiry_cb(uint8_t lun, uint8_t vendor_id[8], uint8_t product_id[16
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// Invoked when received Test Unit Ready command.
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// return true allowing host to read/write this LUN e.g SD card inserted
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bool tud_msc_test_unit_ready_cb(uint8_t lun)
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{
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bool tud_msc_test_unit_ready_cb(uint8_t lun) {
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(void) lun;
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// RAM disk is ready until ejected
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@@ -215,10 +217,8 @@ bool tud_msc_test_unit_ready_cb(uint8_t lun)
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// Invoked when received SCSI_CMD_READ_CAPACITY_10 and SCSI_CMD_READ_FORMAT_CAPACITY to determine the disk size
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// Application update block count and block size
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void tud_msc_capacity_cb(uint8_t lun, uint32_t* block_count, uint16_t* block_size)
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{
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void tud_msc_capacity_cb(uint8_t lun, uint32_t* block_count, uint16_t* block_size) {
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(void) lun;
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*block_count = DISK_BLOCK_NUM;
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*block_size = DISK_BLOCK_SIZE;
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}
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@@ -226,18 +226,14 @@ void tud_msc_capacity_cb(uint8_t lun, uint32_t* block_count, uint16_t* block_siz
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// Invoked when received Start Stop Unit command
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// - Start = 0 : stopped power mode, if load_eject = 1 : unload disk storage
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// - Start = 1 : active mode, if load_eject = 1 : load disk storage
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bool tud_msc_start_stop_cb(uint8_t lun, uint8_t power_condition, bool start, bool load_eject)
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{
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bool tud_msc_start_stop_cb(uint8_t lun, uint8_t power_condition, bool start, bool load_eject) {
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(void) lun;
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(void) power_condition;
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if ( load_eject )
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{
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if (start)
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{
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if (load_eject) {
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if (start) {
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// load disk storage
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}else
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{
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} else {
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// unload disk storage
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ejected = true;
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}
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@@ -248,116 +244,107 @@ bool tud_msc_start_stop_cb(uint8_t lun, uint8_t power_condition, bool start, boo
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// Callback invoked when received READ10 command.
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// Copy disk's data to buffer (up to bufsize) and return number of copied bytes.
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int32_t tud_msc_read10_cb(uint8_t lun, uint32_t lba, uint32_t offset, void* buffer, uint32_t bufsize)
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{
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int32_t tud_msc_read10_cb(uint8_t lun, uint32_t lba, uint32_t offset, void* buffer, uint32_t bufsize) {
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(void) lun;
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// out of ramdisk
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if ( lba >= DISK_BLOCK_NUM ) {
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if (lba >= DISK_BLOCK_NUM) {
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return TUD_MSC_RET_ERROR;
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}
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// Check for overflow of offset + bufsize
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if ( lba * DISK_BLOCK_SIZE + offset + bufsize > DISK_BLOCK_NUM * DISK_BLOCK_SIZE ) {
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if (lba * DISK_BLOCK_SIZE + offset + bufsize > DISK_BLOCK_NUM * DISK_BLOCK_SIZE) {
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return TUD_MSC_RET_ERROR;
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}
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#if CFG_EXAMPLE_MSC_ASYNC_IO
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io_ops_t io_ops = { .is_read = true, .lun = lun, .lba = lba, .offset = offset, .buffer = buffer, .bufsize = bufsize };
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#if CFG_EXAMPLE_MSC_ASYNC_IO
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io_ops_t io_ops = {.is_read = true, .lun = lun, .lba = lba, .offset = offset, .buffer = buffer, .bufsize = bufsize};
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// Send IO operation to IO task
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TU_ASSERT(xQueueSend(io_queue, &io_ops, 0) == pdPASS);
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return TUD_MSC_RET_ASYNC;
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#else
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uint8_t const* addr = msc_disk[lba] + offset;
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#else
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uint8_t const *addr = msc_disk[lba] + offset;
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memcpy(buffer, addr, bufsize);
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tusb_time_delay_ms_api(CFG_EXAMPLE_MSC_IO_DELAY_MS);
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return bufsize;
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#endif
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#endif
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}
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bool tud_msc_is_writable_cb (uint8_t lun)
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{
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bool tud_msc_is_writable_cb (uint8_t lun) {
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(void) lun;
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#ifdef CFG_EXAMPLE_MSC_READONLY
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#ifdef CFG_EXAMPLE_MSC_READONLY
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return false;
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#else
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#else
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return true;
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#endif
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#endif
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}
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// Callback invoked when received WRITE10 command.
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// Process data in buffer to disk's storage and return number of written bytes
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int32_t tud_msc_write10_cb(uint8_t lun, uint32_t lba, uint32_t offset, uint8_t* buffer, uint32_t bufsize)
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{
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int32_t tud_msc_write10_cb(uint8_t lun, uint32_t lba, uint32_t offset, uint8_t* buffer, uint32_t bufsize) {
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// out of ramdisk
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if ( lba >= DISK_BLOCK_NUM ) {
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if (lba >= DISK_BLOCK_NUM) {
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return TUD_MSC_RET_ERROR;
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}
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// Check for overflow of offset + bufsize
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if ( lba * DISK_BLOCK_SIZE + offset + bufsize > DISK_BLOCK_NUM * DISK_BLOCK_SIZE ) {
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if (lba * DISK_BLOCK_SIZE + offset + bufsize > DISK_BLOCK_NUM * DISK_BLOCK_SIZE) {
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return TUD_MSC_RET_ERROR;
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}
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#ifdef CFG_EXAMPLE_MSC_READONLY
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(void) lun; (void) buffer;
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#ifdef CFG_EXAMPLE_MSC_READONLY
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(void) lun;
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(void) buffer;
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return bufsize;
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#endif
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#endif
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#if CFG_EXAMPLE_MSC_ASYNC_IO
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io_ops_t io_ops = { .is_read = false, .lun = lun, .lba = lba, .offset = offset, .buffer = buffer, .bufsize = bufsize };
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#if CFG_EXAMPLE_MSC_ASYNC_IO
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io_ops_t io_ops = {.is_read = false, .lun = lun, .lba = lba, .offset = offset, .buffer = buffer, .bufsize = bufsize};
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// Send IO operation to IO task
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TU_ASSERT(xQueueSend(io_queue, &io_ops, 0) == pdPASS);
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return TUD_MSC_RET_ASYNC;
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#else
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uint8_t* addr = msc_disk[lba] + offset;
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#else
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uint8_t *addr = msc_disk[lba] + offset;
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memcpy(addr, buffer, bufsize);
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tusb_time_delay_ms_api(CFG_EXAMPLE_MSC_IO_DELAY_MS);
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return bufsize;
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#endif
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#endif
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}
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// Callback invoked when received an SCSI command not in built-in list below
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// - READ_CAPACITY10, READ_FORMAT_CAPACITY, INQUIRY, MODE_SENSE6, REQUEST_SENSE
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// - READ10 and WRITE10 has their own callbacks
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int32_t tud_msc_scsi_cb (uint8_t lun, uint8_t const scsi_cmd[16], void* buffer, uint16_t bufsize)
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{
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int32_t tud_msc_scsi_cb (uint8_t lun, uint8_t const scsi_cmd[16], void* buffer, uint16_t bufsize) {
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// read10 & write10 has their own callback and MUST not be handled here
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void const* response = NULL;
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void const *response = NULL;
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int32_t resplen = 0;
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// most scsi handled is input
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bool in_xfer = true;
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switch (scsi_cmd[0])
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{
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switch (scsi_cmd[0]) {
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default:
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// Set Sense = Invalid Command Operation
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tud_msc_set_sense(lun, SCSI_SENSE_ILLEGAL_REQUEST, 0x20, 0x00);
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// negative means error -> tinyusb could stall and/or response with failed status
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resplen = -1;
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break;
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break;
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}
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// return resplen must not larger than bufsize
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if ( resplen > bufsize ) resplen = bufsize;
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if (resplen > bufsize) { resplen = bufsize; }
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if ( response && (resplen > 0) )
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{
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if(in_xfer)
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{
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if (response && (resplen > 0)) {
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if (in_xfer) {
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memcpy(buffer, response, (size_t) resplen);
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}else
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{
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} else {
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// SCSI output
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}
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}
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@@ -114,12 +114,6 @@
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// MSC Buffer size of Device Mass storage
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#define CFG_TUD_MSC_EP_BUFSIZE 512
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// Use async IO in example or not
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#define CFG_EXAMPLE_MSC_ASYNC_IO 1
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// Simulate read/write operation delay
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#define CFG_EXAMPLE_MSC_IO_DELAY_MS 0
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#ifdef __cplusplus
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}
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#endif
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