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@@ -31,7 +31,7 @@ |
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#define println USBHost::println_ |
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// Uncomment this to display function usage and sequencing. |
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//#define DBGprint 1 |
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#define DBGprint 1 |
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// Big Endian/Little Endian |
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#define swap32(x) ((x >> 24) & 0xff) | \ |
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@@ -115,8 +115,10 @@ bool msController::claim(Device_t *dev, int type, const uint8_t *descriptors, ui |
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msDriveInfo.initialized = false; |
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msDriveInfo.connected = true; |
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#ifdef DBGprint |
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Serial.printf(" connected %d\n",msDriveInfo.connected); |
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Serial.printf(" initialized %d\n",msDriveInfo.initialized); |
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print(" connected = "); |
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println(msDriveInfo.connected); |
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print(" initialized = "); |
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println(msDriveInfo.initialized); |
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#endif |
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return true; |
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} |
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@@ -130,8 +132,10 @@ void msController::disconnect() |
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memset(&msDriveInfo, 0, sizeof(msDriveInfo_t)); |
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#ifdef DBGprint |
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Serial.printf(" connected %d\n",msDriveInfo.connected); |
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Serial.printf(" initialized %d\n",msDriveInfo.initialized); |
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print(" connected "); |
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println(msDriveInfo.connected); |
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print(" initialized "); |
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println(msDriveInfo.initialized); |
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#endif |
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} |
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@@ -182,7 +186,7 @@ void msController::new_dataIn(const Transfer_t *transfer) |
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// Initialize Mass Storage Device |
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uint8_t msController::mscInit(void) { |
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#ifdef DBGprint |
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Serial.printf("mscIint()\n"); |
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println("mscIint()"); |
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#endif |
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uint8_t msResult = MS_CBW_PASS; |
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@@ -197,14 +201,15 @@ uint8_t msController::mscInit(void) { |
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} while(!available()); |
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msReset(0); // Assume bNumInterfaces = 1 for now. |
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delay(500); |
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// delay(500); // Not needed any more. |
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maxLUN = msGetMaxLun(0); // Assume bNumInterfaces = 1 for now |
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// msResult = msReportLUNs(&maxLUN); |
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//Serial.printf("maxLUN = %d\n",maxLUN); |
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//println("maxLUN = "); |
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//println(maxLUN); |
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// delay(150); |
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//------------------------------------------------------- |
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// msResult = msStartStopUnit(1); |
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msResult = msStartStopUnit(1); |
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msResult = WaitMediaReady(); |
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if(msResult) |
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return msResult; |
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@@ -231,7 +236,7 @@ uint8_t msController::mscInit(void) { |
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// Perform Mass Storage Reset |
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void msController::msReset(uint32_t interfaceNumber) { |
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#ifdef DBGprint |
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Serial.printf("msReset()\n"); |
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println("msReset()"); |
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#endif |
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mk_setup(setup, 0x21, 0xff, 0, interfaceNumber, 0); |
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queue_Control_Transfer(device, &setup, NULL, this); |
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@@ -243,7 +248,7 @@ void msController::msReset(uint32_t interfaceNumber) { |
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// Get MAX LUN |
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uint8_t msController::msGetMaxLun(uint32_t interfaceNumber) { |
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#ifdef DBGprint |
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Serial.printf("msGetMaxLun()\n"); |
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println("msGetMaxLun()"); |
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#endif |
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report[0] = 0; |
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mk_setup(setup, 0xa1, 0xfe, 0, interfaceNumber, 1); |
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@@ -258,7 +263,7 @@ uint8_t msController::WaitMediaReady() { |
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uint8_t msResult; |
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uint32_t start = millis(); |
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#ifdef DBGprint |
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Serial.printf("WaitMediaReady()\n"); |
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println("WaitMediaReady()"); |
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#endif |
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do { |
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if((millis() - start) >= MEDIA_READY_TIMEOUT) { |
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@@ -274,7 +279,7 @@ uint8_t msController::WaitMediaReady() { |
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uint8_t msController::checkConnectedInitialized(void) { |
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uint8_t msResult = MS_CBW_PASS; |
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#ifdef DBGprint |
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Serial.printf("checkConnectedInitialized()\n"); |
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print("checkConnectedInitialized()"); |
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#endif |
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if(!msDriveInfo.connected) { |
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return MS_NO_MEDIA_ERR; |
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@@ -294,7 +299,7 @@ uint8_t msController::msDoCommand(msCommandBlockWrapper_t *CBW, void *buffer) |
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uint8_t CSWResult = 0; |
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mscTransferComplete = false; |
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#ifdef DBGprint |
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Serial.printf("msDoCommand():\n"); |
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println("msDoCommand()"); |
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#endif |
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if(CBWTag == 0xFFFFFFFF) CBWTag = 1; |
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queue_Data_Transfer(datapipeOut, CBW, sizeof(msCommandBlockWrapper_t), this); // Command stage. |
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@@ -328,7 +333,7 @@ uint8_t msController::msDoCommand(msCommandBlockWrapper_t *CBW, void *buffer) |
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// Get Command Status Wrapper |
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uint8_t msController::msGetCSW(void) { |
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#ifdef DBGprint |
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Serial.printf("msGetCSW()\n"); |
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println("msGetCSW()"); |
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#endif |
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msCommandStatusWrapper_t StatusBlockWrapper = (msCommandStatusWrapper_t) |
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{ |
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@@ -350,7 +355,7 @@ uint8_t msController::msGetCSW(void) { |
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// Test Unit Ready |
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uint8_t msController::msTestReady() { |
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#ifdef DBGprint |
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Serial.printf("msTestReady()\n"); |
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println("msTestReady()"); |
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#endif |
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msCommandBlockWrapper_t CommandBlockWrapper = (msCommandBlockWrapper_t) |
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{ |
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@@ -372,7 +377,7 @@ uint8_t msController::msTestReady() { |
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// Start/Stop unit |
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uint8_t msController::msStartStopUnit(uint8_t mode) { |
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#ifdef DBGprint |
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Serial.printf("msStartStopUnit()\n"); |
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println("msStartStopUnit()"); |
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#endif |
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msCommandBlockWrapper_t CommandBlockWrapper = (msCommandBlockWrapper_t) |
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{ |
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@@ -394,7 +399,7 @@ uint8_t msController::msStartStopUnit(uint8_t mode) { |
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// Read Mass Storage Device Capacity (Number of Blocks and Block Size) |
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uint8_t msController::msReadDeviceCapacity(msSCSICapacity_t * const Capacity) { |
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#ifdef DBGprint |
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Serial.printf("msReadDeviceCapacity()\n"); |
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println("msReadDeviceCapacity()"); |
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#endif |
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uint8_t result = 0; |
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msCommandBlockWrapper_t CommandBlockWrapper = (msCommandBlockWrapper_t) |
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@@ -418,7 +423,7 @@ uint8_t msController::msReadDeviceCapacity(msSCSICapacity_t * const Capacity) { |
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uint8_t msController::msDeviceInquiry(msInquiryResponse_t * const Inquiry) |
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{ |
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#ifdef DBGprint |
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Serial.printf("msDeviceInquiry()\n"); |
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println("msDeviceInquiry()"); |
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#endif |
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msCommandBlockWrapper_t CommandBlockWrapper = (msCommandBlockWrapper_t) |
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{ |
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@@ -438,7 +443,7 @@ uint8_t msController::msDeviceInquiry(msInquiryResponse_t * const Inquiry) |
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uint8_t msController::msRequestSense(msRequestSenseResponse_t * const Sense) |
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{ |
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#ifdef DBGprint |
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Serial.printf("msRequestSense()\n"); |
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println("msRequestSense()"); |
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#endif |
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msCommandBlockWrapper_t CommandBlockWrapper = (msCommandBlockWrapper_t) |
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{ |
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@@ -458,7 +463,7 @@ uint8_t msController::msRequestSense(msRequestSenseResponse_t * const Sense) |
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uint8_t msController::msReportLUNs(uint8_t *Buffer) |
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{ |
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#ifdef DBGprint |
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Serial.printf("msReportLuns()\n"); |
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println("msReportLuns()"); |
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#endif |
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msCommandBlockWrapper_t CommandBlockWrapper = (msCommandBlockWrapper_t) |
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{ |
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@@ -483,7 +488,7 @@ uint8_t msController::msReadBlocks( |
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void * sectorBuffer) |
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{ |
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#ifdef DBGprint |
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Serial.printf("msReadBlocks()\n"); |
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println("msReadBlocks()"); |
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#endif |
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uint8_t BlockHi = (Blocks >> 8) & 0xFF; |
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uint8_t BlockLo = Blocks & 0xFF; |
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@@ -515,7 +520,7 @@ uint8_t msController::msWriteBlocks( |
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const void * sectorBuffer) |
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{ |
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#ifdef DBGprint |
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Serial.printf("msWriteBlocks()\n"); |
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println("msWriteBlocks()"); |
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#endif |
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uint8_t BlockHi = (Blocks >> 8) & 0xFF; |
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uint8_t BlockLo = Blocks & 0xFF; |
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@@ -540,7 +545,7 @@ uint8_t msController::msWriteBlocks( |
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// Proccess Possible SCSI errors |
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uint8_t msController::msProcessError(uint8_t msStatus) { |
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#ifdef DBGprint |
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Serial.printf("msProcessError()\n"); |
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println("msProcessError()"); |
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#endif |
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uint8_t msResult = 0; |
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switch(msStatus) { |
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@@ -548,24 +553,30 @@ uint8_t msController::msProcessError(uint8_t msStatus) { |
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return MS_CBW_PASS; |
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break; |
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case MS_CBW_PHASE_ERROR: |
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Serial.printf("SCSI Phase Error: %d\n",msStatus); |
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print("SCSI Phase Error: "); |
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println(msStatus); |
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return MS_SCSI_ERROR; |
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break; |
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case MS_CSW_TAG_ERROR: |
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Serial.printf("CSW Tag Error: %d\n",MS_CSW_TAG_ERROR); |
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print("CSW Tag Error: "); |
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println(MS_CSW_TAG_ERROR); |
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return MS_CSW_TAG_ERROR; |
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break; |
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case MS_CSW_SIG_ERROR: |
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Serial.printf("CSW Signature Error: %d\n",MS_CSW_SIG_ERROR); |
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print("CSW Signature Error: "); |
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println(MS_CSW_SIG_ERROR); |
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return MS_CSW_SIG_ERROR; |
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break; |
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case MS_CBW_FAIL: |
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if(msResult = msRequestSense(&msSense)) |
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Serial.printf("Failed to get sense codes. Returned code: %d\n",msResult); |
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if(msResult = msRequestSense(&msSense)) { |
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print("Failed to get sense codes. Returned code: "); |
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println(msResult); |
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} |
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return MS_CBW_FAIL; |
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break; |
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default: |
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Serial.printf("SCSI Error: %d\n",msStatus); |
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print("SCSI Error: "); |
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println(msStatus); |
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return msStatus; |
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} |
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} |