/* * upstream_msc_mock.c * * Created on: 17/07/2015 * Author: Robert Fisk * * This file replaces upstream_msc.c to allow operational testing of Upstream, * without Downstream in place and communicating over SPI. * It still attempts to write downstream packets out the SPI port. */ #include #include #include #include "stm32f4xx_hal.h" //Stuff we need to save for our callbacks to use: UpstreamMSCCallbackTypeDef TestReadyCallback; UpstreamMSCCallbackUintPacketTypeDef GetCapacityCallback; UpstreamMSCCallbackPacketTypeDef GetStreamDataCallback; uint32_t ByteCount; UpstreamPacketTypeDef* ReadStreamPacket; uint8_t ReadStreamBusy; static void Upstream_MSC_TestReadyReplyCallback(UpstreamPacketTypeDef* replyPacket); static void Upstream_MSC_GetCapacityReplyCallback(UpstreamPacketTypeDef* replyPacket); static void Upstream_MSC_GetStreamDataPacketCallback(UpstreamPacketTypeDef* replyPacket); static void Upstream_MSC_BeginWriteReplyCallback(UpstreamPacketTypeDef* replyPacket); HAL_StatusTypeDef Upstream_MSC_TestReady(UpstreamMSCCallbackTypeDef callback) { UpstreamPacketTypeDef* freePacket; HAL_StatusTypeDef tempResult; TestReadyCallback = callback; freePacket = Upstream_GetFreePacketImmediately(); freePacket->Length = UPSTREAM_PACKET_HEADER_LEN; freePacket->CommandClass = COMMAND_CLASS_MASS_STORAGE; freePacket->Command = COMMAND_MSC_TEST_UNIT_READY; tempResult = Upstream_TransmitPacket(freePacket); if (tempResult != HAL_OK) { return tempResult; } //return Upstream_GetPacket(Upstream_MSC_TestReadyReplyCallback); return Upstream_GetFreePacket(Upstream_MSC_TestReadyReplyCallback); } void Upstream_MSC_TestReadyReplyCallback(UpstreamPacketTypeDef* replyPacket) { // if ((replyPacket->Length != (UPSTREAM_PACKET_HEADER_LEN + 1)) || // (replyPacket->CommandClass & COMMAND_CLASS_DATA_FLAG) || // (replyPacket->Data[0] != HAL_OK)) // { // Upstream_ReleasePacket(replyPacket); // TestReadyCallback(HAL_ERROR); // return; // } Upstream_ReleasePacket(replyPacket); TestReadyCallback(HAL_OK); } HAL_StatusTypeDef Upstream_MSC_GetCapacity(UpstreamMSCCallbackUintPacketTypeDef callback) { UpstreamPacketTypeDef* freePacket; HAL_StatusTypeDef tempResult; GetCapacityCallback = callback; freePacket = Upstream_GetFreePacketImmediately(); freePacket->Length = UPSTREAM_PACKET_HEADER_LEN; freePacket->CommandClass = COMMAND_CLASS_MASS_STORAGE; freePacket->Command = COMMAND_MSC_GET_CAPACITY; tempResult = Upstream_TransmitPacket(freePacket); if (tempResult != HAL_OK) { return tempResult; } //return Upstream_GetPacket(Upstream_MSC_GetCapacityReplyCallback); return Upstream_GetFreePacket(Upstream_MSC_GetCapacityReplyCallback); } void Upstream_MSC_GetCapacityReplyCallback(UpstreamPacketTypeDef* replyPacket) { uint32_t uint[2]; // if ((replyPacket->Length != (UPSTREAM_PACKET_HEADER_LEN + 8) || // (replyPacket->CommandClass & COMMAND_CLASS_DATA_FLAG))) // { // GetCapacityCallback(HAL_ERROR, NULL, NULL); // } *(uint32_t*)&(replyPacket->Data[0]) = 262144; //* 512B = 128MB *(uint32_t*)&(replyPacket->Data[4]) = 512; uint[0] = *(uint32_t*)&(replyPacket->Data[0]); uint[1] = *(uint32_t*)&(replyPacket->Data[4]); GetCapacityCallback(HAL_OK, uint, replyPacket); //usb_msc_scsi will use this packet, so don't release now } HAL_StatusTypeDef Upstream_MSC_BeginRead(UpstreamMSCCallbackTypeDef callback, uint64_t readBlockStart, uint32_t readBlockCount, uint32_t readByteCount) { UpstreamPacketTypeDef* freePacket; HAL_StatusTypeDef tempResult; ReadStreamPacket = NULL; //Prepare for GetStreamDataPacket's use ReadStreamBusy = 0; TestReadyCallback = callback; ByteCount = readByteCount; freePacket = Upstream_GetFreePacketImmediately(); freePacket->Length = UPSTREAM_PACKET_HEADER_LEN + (4 * 3); freePacket->CommandClass = COMMAND_CLASS_MASS_STORAGE; freePacket->Command = COMMAND_MSC_BEGIN_READ; *(uint64_t*)&(freePacket->Data[0]) = readBlockStart; *(uint32_t*)&(freePacket->Data[8]) = readBlockCount; tempResult = Upstream_TransmitPacket(freePacket); if (tempResult != HAL_OK) { TestReadyCallback(tempResult); } //return Upstream_GetPacket(Upstream_MSC_TestReadyReplyCallback); //Re-use TestReadyReplyCallback because it does exactly what we want! return Upstream_GetFreePacket(Upstream_MSC_TestReadyReplyCallback); } HAL_StatusTypeDef Upstream_MSC_GetStreamDataPacket(UpstreamMSCCallbackPacketTypeDef callback) { GetStreamDataCallback = callback; if (ReadStreamBusy != 0) { return HAL_OK; } ReadStreamBusy = 1; if (ReadStreamPacket && GetStreamDataCallback) //Do we have a stored packet and an address to send it? { Upstream_MSC_GetStreamDataPacketCallback(ReadStreamPacket); //Send it now! ReadStreamPacket = NULL; return HAL_OK; //Our callback will call us again, so we don't need to get a packet in this case. } //return Upstream_GetPacket(Upstream_MSC_GetStreamDataPacketCallback); return Upstream_GetFreePacket(Upstream_MSC_GetStreamDataPacketCallback); } void Upstream_MSC_GetStreamDataPacketCallback(UpstreamPacketTypeDef* replyPacket) { uint16_t dataLength; ReadStreamBusy = 0; if (GetStreamDataCallback == NULL) { ReadStreamPacket = replyPacket; //We used up our callback already, so save this one for later. return; } // if (((replyPacket->CommandClass & COMMAND_CLASS_DATA_FLAG) == 0) || //Any 'command' reply (as opposed to 'data' reply) is an automatic fail here // (replyPacket->Length <= UPSTREAM_PACKET_HEADER_LEN) || //Should be at least one data byte in the reply. // (replyPacket->Length > ByteCount)) // { // GetStreamDataCallback(HAL_ERROR, NULL); // return; // } replyPacket->Length = MIN((ByteCount + UPSTREAM_PACKET_HEADER_LEN), (MSC_MEDIA_PACKET + UPSTREAM_PACKET_HEADER_LEN)); dataLength = replyPacket->Length - UPSTREAM_PACKET_HEADER_LEN; ByteCount -= dataLength; GetStreamDataCallback(HAL_OK, replyPacket, dataLength); //usb_msc_scsi will use this packet, so don't release now if (ByteCount > 0) { Upstream_MSC_GetStreamDataPacket(NULL); //Try to get the next packet now, before USB asks for it } } HAL_StatusTypeDef Upstream_MSC_BeginWrite(UpstreamMSCCallbackTypeDef callback, uint64_t readBlockStart, uint32_t readBlockCount) { UpstreamPacketTypeDef* freePacket; HAL_StatusTypeDef tempResult; TestReadyCallback = callback; freePacket = Upstream_GetFreePacketImmediately(); freePacket->Length = UPSTREAM_PACKET_HEADER_LEN + (4 * 3); freePacket->CommandClass = COMMAND_CLASS_MASS_STORAGE; freePacket->Command = COMMAND_MSC_BEGIN_WRITE; *(uint64_t*)&(freePacket->Data[0]) = readBlockStart; *(uint32_t*)&(freePacket->Data[8]) = readBlockCount; tempResult = Upstream_TransmitPacket(freePacket); if (tempResult != HAL_OK) { TestReadyCallback(tempResult); } //return Upstream_GetPacket(Upstream_MSC_BeginWriteReplyCallback); return Upstream_GetFreePacket(Upstream_MSC_BeginWriteReplyCallback); } void Upstream_MSC_BeginWriteReplyCallback(UpstreamPacketTypeDef* replyPacket) { // if ((replyPacket->Length != (UPSTREAM_PACKET_HEADER_LEN + 1)) || // (replyPacket->CommandClass & COMMAND_CLASS_DATA_FLAG) || // ((replyPacket->Data[0] != HAL_OK) && (replyPacket->Data[0] != HAL_BUSY))) // { // Upstream_ReleasePacket(replyPacket); // TestReadyCallback(HAL_ERROR); // return; // } Upstream_ReleasePacket(replyPacket); TestReadyCallback(replyPacket->Data[0]); } HAL_StatusTypeDef Upstream_MSC_PutStreamDataPacket(UpstreamPacketTypeDef* packetToSend, uint32_t dataLength) { packetToSend->Length = dataLength + UPSTREAM_PACKET_HEADER_LEN; packetToSend->CommandClass = COMMAND_CLASS_MASS_STORAGE | COMMAND_CLASS_DATA_FLAG; packetToSend->Command = COMMAND_MSC_BEGIN_WRITE; return Upstream_TransmitPacket(packetToSend); }