/* * Copyright (c) 2013-2016 ARM Limited. All rights reserved. * Copyright (c) 2016, Freescale Semiconductor, Inc. Not a Contribution. * Copyright 2016-2020,2022 NXP. Not a Contribution. * * SPDX-License-Identifier: Apache-2.0 * * Licensed under the Apache License, Version 2.0 (the License); you may * not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an AS IS BASIS, WITHOUT * WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "fsl_i2c_cmsis.h" /* Component ID definition, used by tools. */ #ifndef FSL_COMPONENT_ID #define FSL_COMPONENT_ID "platform.drivers.flexcomm_i2c_cmsis" #endif #if ((defined(RTE_I2C0) && RTE_I2C0) || (defined(RTE_I2C1) && RTE_I2C1) || (defined(RTE_I2C2) && RTE_I2C2) || \ (defined(RTE_I2C3) && RTE_I2C3) || (defined(RTE_I2C4) && RTE_I2C4) || (defined(RTE_I2C5) && RTE_I2C5) || \ (defined(RTE_I2C6) && RTE_I2C6) || (defined(RTE_I2C7) && RTE_I2C7) || (defined(RTE_I2C8) && RTE_I2C8) || \ (defined(RTE_I2C9) && RTE_I2C9) || (defined(RTE_I2C10) && RTE_I2C10) || (defined(RTE_I2C11) && RTE_I2C11) || \ (defined(RTE_I2C12) && RTE_I2C12) || (defined(RTE_I2C13) && RTE_I2C13)) #define ARM_I2C_DRV_VERSION ARM_DRIVER_VERSION_MAJOR_MINOR((2), (3)) /* * ARMCC does not support split the data section automatically, so the driver * needs to split the data to separate sections explicitly, to reduce codesize. */ #if defined(__CC_ARM) || defined(__ARMCC_VERSION) #define ARMCC_SECTION(section_name) __attribute__((section(section_name))) #endif typedef const struct _cmsis_i2c_resource { I2C_Type *base; /*!< I2C peripheral base address. */ uint32_t (*GetFreq)(void); /*!< Function to get the clock frequency. */ } cmsis_i2c_resource_t; typedef union _cmsis_i2c_handle { i2c_master_handle_t master_handle; /*!< master Interupt transfer handle. */ i2c_slave_handle_t slave_handle; /*!< slave Interupt transfer handle. */ } cmsis_i2c_handle_t; typedef struct _cmsis_i2c_interrupt_driver_state { cmsis_i2c_resource_t *resource; /*!< Basic I2C resource. */ cmsis_i2c_handle_t *handle; ARM_I2C_SignalEvent_t cb_event; /*!< Callback function. */ uint8_t flags; /*!< Control and state flags. */ } cmsis_i2c_interrupt_driver_state_t; #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) typedef const struct _cmsis_i2c_dma_resource { DMA_Type *i2cDmaBase; /*!< DMA peripheral base address for i2c. */ uint32_t i2cDmaChannel; /*!< DMA channel for i2c. */ } cmsis_i2c_dma_resource_t; typedef struct _cmsis_i2c_dma_driver_state { cmsis_i2c_resource_t *resource; /*!< i2c basic resource. */ cmsis_i2c_dma_resource_t *dmaResource; /*!< i2c DMA resource. */ i2c_master_dma_handle_t *master_dma_handle; /*!< i2c DMA transfer handle. */ dma_handle_t *dmaHandle; /*!< DMA i2c handle. */ uint8_t flags; /*!< Control and state flags. */ } cmsis_i2c_dma_driver_state_t; #endif static const ARM_DRIVER_VERSION s_i2cDriverVersion = {ARM_I2C_API_VERSION, ARM_I2C_DRV_VERSION}; static const ARM_I2C_CAPABILITIES s_i2cDriverCapabilities = { 0, /*< supports 10-bit addressing*/ }; static ARM_DRIVER_VERSION I2Cx_GetVersion(void) { return s_i2cDriverVersion; } static ARM_I2C_CAPABILITIES I2Cx_GetCapabilities(void) { return s_i2cDriverCapabilities; } #endif #if ((defined(RTE_I2C0_DMA_EN) && RTE_I2C0_DMA_EN) || (defined(RTE_I2C1_DMA_EN) && RTE_I2C1_DMA_EN) || \ (defined(RTE_I2C2_DMA_EN) && RTE_I2C2_DMA_EN) || (defined(RTE_I2C3_DMA_EN) && RTE_I2C3_DMA_EN) || \ (defined(RTE_I2C4_DMA_EN) && RTE_I2C4_DMA_EN) || (defined(RTE_I2C5_DMA_EN) && RTE_I2C5_DMA_EN) || \ (defined(RTE_I2C6_DMA_EN) && RTE_I2C6_DMA_EN) || (defined(RTE_I2C7_DMA_EN) && RTE_I2C7_DMA_EN) || \ (defined(RTE_I2C8_DMA_EN) && RTE_I2C8_DMA_EN) || (defined(RTE_I2C9_DMA_EN) && RTE_I2C9_DMA_EN) || \ (defined(RTE_I2C10_DMA_EN) && RTE_I2C10_DMA_EN) || (defined(RTE_I2C11_DMA_EN) && RTE_I2C11_DMA_EN) || \ (defined(RTE_I2C12_DMA_EN) && RTE_I2C12_DMA_EN) || (defined(RTE_I2C13_DMA_EN) && RTE_I2C13_DMA_EN)) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static void KSDK_I2C_MASTER_DmaCallback(I2C_Type *base, i2c_master_dma_handle_t *handle, status_t status, void *userData) { uint32_t event = 0U; if (status == kStatus_Success) /* Occurs after Master Transmit/Receive operation has finished. */ { event = ARM_I2C_EVENT_TRANSFER_DONE; } else if (status == kStatus_I2C_Nak) /* Slave nacks master before all data are transmitted */ { event = ARM_I2C_EVENT_TRANSFER_INCOMPLETE; } else if (status == kStatus_I2C_Addr_Nak) /* Failed during slave probing */ { event = ARM_I2C_EVENT_ADDRESS_NACK; } else if (status == kStatus_I2C_ArbitrationLost) /* Arbitration lost */ { event = ARM_I2C_EVENT_ARBITRATION_LOST; } else /* kStatus_I2C_UnexpectedState, kStatus_I2C_Busy and kStatus_I2C_StartStopError */ { event = ARM_I2C_EVENT_BUS_ERROR; } if (userData != NULL) { ((ARM_I2C_SignalEvent_t)userData)(event); } } static int32_t I2C_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event, cmsis_i2c_dma_driver_state_t *i2c) { if (0U == (i2c->flags & (uint8_t)I2C_FLAG_INIT)) { DMA_EnableChannel(i2c->dmaResource->i2cDmaBase, i2c->dmaResource->i2cDmaChannel); DMA_CreateHandle(i2c->dmaHandle, i2c->dmaResource->i2cDmaBase, i2c->dmaResource->i2cDmaChannel); I2C_MasterTransferCreateHandleDMA(i2c->resource->base, i2c->master_dma_handle, KSDK_I2C_MASTER_DmaCallback, (void *)cb_event, i2c->dmaHandle); i2c->flags = (uint8_t)I2C_FLAG_INIT; } return ARM_DRIVER_OK; } static int32_t I2C_Master_DmaUninitialize(cmsis_i2c_dma_driver_state_t *i2c) { i2c->flags = (uint8_t)I2C_FLAG_UNINIT; return ARM_DRIVER_OK; } static int32_t I2C_Master_DmaTransmit( uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending, cmsis_i2c_dma_driver_state_t *i2c) { int32_t status; int32_t ret; i2c_master_transfer_t masterXfer; /* Check if the I2C bus is idle - if not return busy status. */ if (i2c->master_dma_handle->state != 0U) { return ARM_DRIVER_ERROR_BUSY; } masterXfer.slaveAddress = (uint8_t)addr; /*7-bit slave address.*/ masterXfer.direction = kI2C_Write; /*Transfer direction.*/ masterXfer.subaddress = 0U; /*Sub address*/ masterXfer.subaddressSize = 0U; /*Size of command buffer.*/ masterXfer.data = (void *)data; /*Transfer buffer.*/ masterXfer.dataSize = num; /*Transfer size.*/ masterXfer.flags = (uint32_t)kI2C_TransferDefaultFlag; /*Transfer flag which controls the transfer.*/ if (xfer_pending) { masterXfer.flags |= (uint32_t)kI2C_TransferNoStopFlag; } status = I2C_MasterTransferDMA(i2c->resource->base, i2c->master_dma_handle, &masterXfer); switch (status) { case kStatus_Success: ret = ARM_DRIVER_OK; break; case kStatus_I2C_Busy: ret = ARM_DRIVER_ERROR_BUSY; break; default: ret = ARM_DRIVER_ERROR; break; } return ret; } static int32_t I2C_Master_DmaReceive( uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending, cmsis_i2c_dma_driver_state_t *i2c) { int32_t status; int32_t ret; i2c_master_transfer_t masterXfer; /* Check if the I2C bus is idle - if not return busy status. */ if (i2c->master_dma_handle->state != 0U) { return ARM_DRIVER_ERROR_BUSY; } masterXfer.slaveAddress = (uint8_t)addr; /*7-bit slave address.*/ masterXfer.direction = kI2C_Read; /*Transfer direction.*/ masterXfer.subaddress = 0U; /*Sub address*/ masterXfer.subaddressSize = 0U; /*Size of command buffer.*/ masterXfer.data = (uint8_t *)data; /*Transfer buffer.*/ masterXfer.dataSize = num; /*Transfer size.*/ masterXfer.flags = (uint32_t)kI2C_TransferDefaultFlag; /*Transfer flag which controls the transfer.*/ if (xfer_pending) { masterXfer.flags |= (uint32_t)kI2C_TransferNoStopFlag; } status = I2C_MasterTransferDMA(i2c->resource->base, i2c->master_dma_handle, &masterXfer); switch (status) { case kStatus_Success: ret = ARM_DRIVER_OK; break; case kStatus_I2C_Busy: ret = ARM_DRIVER_ERROR_BUSY; break; default: ret = ARM_DRIVER_ERROR; break; } return ret; } static int32_t I2C_Master_DmaGetDataCount(cmsis_i2c_dma_driver_state_t *i2c) { size_t cnt; /*the number of currently transferred data bytes*/ (void)I2C_MasterTransferGetCountDMA(i2c->resource->base, i2c->master_dma_handle, &cnt); return (int32_t)cnt; } static int32_t I2C_Master_DmaControl(uint32_t control, uint32_t arg, cmsis_i2c_dma_driver_state_t *i2c) { uint32_t baudRate_Bps = 0; int32_t result = ARM_DRIVER_OK; switch (control) { /* Not supported */ case ARM_I2C_OWN_ADDRESS: result = ARM_DRIVER_ERROR_UNSUPPORTED; break; /*Set Bus Speed; arg = bus speed*/ case ARM_I2C_BUS_SPEED: switch (arg) { case ARM_I2C_BUS_SPEED_STANDARD: baudRate_Bps = 100000; break; case ARM_I2C_BUS_SPEED_FAST: baudRate_Bps = 400000; break; case ARM_I2C_BUS_SPEED_FAST_PLUS: baudRate_Bps = 1000000; break; default: result = ARM_DRIVER_ERROR_UNSUPPORTED; break; } I2C_MasterSetBaudRate(i2c->resource->base, baudRate_Bps, i2c->resource->GetFreq()); break; /* Not supported */ case ARM_I2C_BUS_CLEAR: result = ARM_DRIVER_ERROR_UNSUPPORTED; break; /*Aborts the data transfer when Master for Transmit or Receive*/ case ARM_I2C_ABORT_TRANSFER: /*disable dma*/ I2C_MasterTransferAbortDMA(i2c->resource->base, i2c->master_dma_handle); i2c->master_dma_handle->transferCount = 0; i2c->master_dma_handle->transfer.data = NULL; i2c->master_dma_handle->transfer.dataSize = 0; break; default: result = ARM_DRIVER_ERROR_UNSUPPORTED; break; } return result; } static int32_t I2C_Master_DmaPowerControl(ARM_POWER_STATE state, cmsis_i2c_dma_driver_state_t *i2c) { int32_t result = ARM_DRIVER_OK; switch (state) { /*terminates any pending data transfers, disable i2c moduole and i2c clock and related dma*/ case ARM_POWER_OFF: if ((i2c->flags & (uint8_t)I2C_FLAG_POWER) != 0U) { (void)I2C_Master_DmaControl(ARM_I2C_ABORT_TRANSFER, 0, i2c); I2C_MasterDeinit(i2c->resource->base); DMA_DisableChannel(i2c->dmaResource->i2cDmaBase, i2c->dmaResource->i2cDmaChannel); i2c->flags = (uint8_t)I2C_FLAG_INIT; } break; /* Not supported */ case ARM_POWER_LOW: result = ARM_DRIVER_ERROR_UNSUPPORTED; break; /*enable i2c moduole and i2c clock*/ case ARM_POWER_FULL: if (i2c->flags == (uint8_t)I2C_FLAG_UNINIT) { return ARM_DRIVER_ERROR; } if ((i2c->flags & (uint8_t)I2C_FLAG_POWER) != 0U) { /* Driver already powered */ break; } (void)FLEXCOMM_Init(i2c->resource->base, FLEXCOMM_PERIPH_I2C); I2C_MasterEnable(i2c->resource->base, true); i2c->flags |= (uint8_t)I2C_FLAG_POWER; break; default: result = ARM_DRIVER_ERROR_UNSUPPORTED; break; } return result; } static ARM_I2C_STATUS I2C_Master_DmaGetStatus(cmsis_i2c_dma_driver_state_t *i2c) { ARM_I2C_STATUS stat = {0}; uint32_t ksdk_i2c_status = I2C_GetStatusFlags(i2c->resource->base); stat.busy = (uint32_t)(0UL == (ksdk_i2c_status & (uint32_t)I2C_STAT_MSTPENDING_MASK)); /*Busy flag.*/ stat.direction = (uint32_t)i2c->master_dma_handle->transfer.direction; /*Direction: 0=Transmitter, 1=Receiver.*/ stat.mode = 1UL; /*Mode: 0=Slave, 1=Master.*/ stat.arbitration_lost = (uint32_t)((ksdk_i2c_status & (uint32_t)I2C_STAT_MSTARBLOSS_MASK) != 0U); /*Master lost arbitration (cleared on start of next Master operation)*/ return stat; } #endif #endif #if ((defined(RTE_I2C0) && RTE_I2C0 && !(defined(RTE_I2C0_DMA_EN) && RTE_I2C0_DMA_EN)) || \ (defined(RTE_I2C1) && RTE_I2C1 && !(defined(RTE_I2C1_DMA_EN) && RTE_I2C1_DMA_EN)) || \ (defined(RTE_I2C2) && RTE_I2C2 && !(defined(RTE_I2C2_DMA_EN) && RTE_I2C2_DMA_EN)) || \ (defined(RTE_I2C3) && RTE_I2C3 && !(defined(RTE_I2C3_DMA_EN) && RTE_I2C3_DMA_EN)) || \ (defined(RTE_I2C4) && RTE_I2C4 && !(defined(RTE_I2C4_DMA_EN) && RTE_I2C4_DMA_EN)) || \ (defined(RTE_I2C5) && RTE_I2C5 && !(defined(RTE_I2C5_DMA_EN) && RTE_I2C5_DMA_EN)) || \ (defined(RTE_I2C6) && RTE_I2C6 && !(defined(RTE_I2C6_DMA_EN) && RTE_I2C6_DMA_EN)) || \ (defined(RTE_I2C7) && RTE_I2C7 && !(defined(RTE_I2C7_DMA_EN) && RTE_I2C7_DMA_EN)) || \ (defined(RTE_I2C8) && RTE_I2C8 && !(defined(RTE_I2C8_DMA_EN) && RTE_I2C8_DMA_EN)) || \ (defined(RTE_I2C9) && RTE_I2C9 && !(defined(RTE_I2C9_DMA_EN) && RTE_I2C9_DMA_EN)) || \ (defined(RTE_I2C10) && RTE_I2C10 && !(defined(RTE_I2C10_DMA_EN) && RTE_I2C10_DMA_EN)) || \ (defined(RTE_I2C11) && RTE_I2C11 && !(defined(RTE_I2C11_DMA_EN) && RTE_I2C11_DMA_EN)) || \ (defined(RTE_I2C12) && RTE_I2C12 && !(defined(RTE_I2C12_DMA_EN) && RTE_I2C12_DMA_EN)) || \ (defined(RTE_I2C13) && RTE_I2C13 && !(defined(RTE_I2C13_DMA_EN) && RTE_I2C13_DMA_EN))) static void KSDK_I2C_SLAVE_InterruptCallback(I2C_Type *base, volatile i2c_slave_transfer_t *xfer, void *param) { uint32_t event; switch (xfer->event) { case kI2C_SlaveCompletionEvent: /* Occurs after Slave Transmit/Receive operation has finished. */ event = ARM_I2C_EVENT_TRANSFER_DONE; break; default: event = ARM_I2C_EVENT_TRANSFER_INCOMPLETE; break; } if (param != NULL) { ((ARM_I2C_SignalEvent_t)param)(event); } } static void KSDK_I2C_MASTER_InterruptCallback(I2C_Type *base, i2c_master_handle_t *handle, status_t status, void *userData) { uint32_t event; switch (status) { case kStatus_Success: /* Occurs after Master Transmit/Receive operation has finished. */ event = ARM_I2C_EVENT_TRANSFER_DONE; break; case kStatus_I2C_ArbitrationLost: /*Occurs in master mode when arbitration is lost.*/ event = ARM_I2C_EVENT_ARBITRATION_LOST; break; case kStatus_I2C_Nak: /* Slave nacks master before all data are transmitted */ event = ARM_I2C_EVENT_TRANSFER_INCOMPLETE; break; case kStatus_I2C_Addr_Nak: /* Failed during slave probing */ event = ARM_I2C_EVENT_ADDRESS_NACK; break; default: event = ARM_I2C_EVENT_BUS_ERROR; break; } /* User data is actually CMSIS driver callback. */ if (userData != NULL) { ((ARM_I2C_SignalEvent_t)userData)(event); } } static int32_t I2C_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event, cmsis_i2c_interrupt_driver_state_t *i2c) { if (0U == (i2c->flags & (uint8_t)I2C_FLAG_INIT)) { i2c->cb_event = cb_event; /* cb_event is CMSIS driver callback. */ i2c->flags = (uint8_t)I2C_FLAG_INIT; } return ARM_DRIVER_OK; } static int32_t I2C_InterruptUninitialize(cmsis_i2c_interrupt_driver_state_t *i2c) { i2c->flags = (uint8_t)I2C_FLAG_UNINIT; return ARM_DRIVER_OK; } static int32_t I2C_Master_InterruptTransmit( uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending, cmsis_i2c_interrupt_driver_state_t *i2c) { int32_t status; int32_t ret; i2c_master_transfer_t masterXfer; /* Check if the I2C bus is idle - if not return busy status. */ if (i2c->handle->master_handle.state != 0U) { return ARM_DRIVER_ERROR_BUSY; } I2C_MasterEnable(i2c->resource->base, true); /*create master_handle*/ I2C_MasterTransferCreateHandle(i2c->resource->base, &(i2c->handle->master_handle), KSDK_I2C_MASTER_InterruptCallback, (void *)i2c->cb_event); masterXfer.slaveAddress = (uint8_t)addr; /*7-bit slave address.*/ masterXfer.direction = kI2C_Write; /*Transfer direction.*/ masterXfer.subaddress = 0U; /*Sub address*/ masterXfer.subaddressSize = 0U; /*Size of command buffer.*/ masterXfer.data = (uint8_t *)data; /*Transfer buffer.*/ masterXfer.dataSize = num; /*Transfer size.*/ masterXfer.flags = (uint32_t)kI2C_TransferDefaultFlag; /*Transfer flag which controls the transfer.*/ if (xfer_pending) { masterXfer.flags |= (uint32_t)kI2C_TransferNoStopFlag; } status = I2C_MasterTransferNonBlocking(i2c->resource->base, &(i2c->handle->master_handle), &masterXfer); switch (status) { case kStatus_Success: ret = ARM_DRIVER_OK; break; case kStatus_I2C_Busy: ret = ARM_DRIVER_ERROR_BUSY; break; default: ret = ARM_DRIVER_ERROR; break; } return ret; } static int32_t I2C_Master_InterruptReceive( uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending, cmsis_i2c_interrupt_driver_state_t *i2c) { int32_t status; int32_t ret; i2c_master_transfer_t masterXfer; /* Check if the I2C bus is idle - if not return busy status. */ if (i2c->handle->master_handle.state != 0U) { return ARM_DRIVER_ERROR_BUSY; } I2C_MasterEnable(i2c->resource->base, true); /*create master_handle*/ I2C_MasterTransferCreateHandle(i2c->resource->base, &(i2c->handle->master_handle), KSDK_I2C_MASTER_InterruptCallback, (void *)i2c->cb_event); masterXfer.slaveAddress = (uint8_t)addr; /*7-bit slave address.*/ masterXfer.direction = kI2C_Read; /*Transfer direction.*/ masterXfer.subaddress = 0U; /*Sub address*/ masterXfer.subaddressSize = 0U; /*Size of command buffer.*/ masterXfer.data = data; /*Transfer buffer.*/ masterXfer.dataSize = num; /*Transfer size.*/ masterXfer.flags = (uint32_t)kI2C_TransferDefaultFlag; /*Transfer flag which controls the transfer.*/ if (xfer_pending) { masterXfer.flags |= (uint32_t)kI2C_TransferNoStopFlag; } status = I2C_MasterTransferNonBlocking(i2c->resource->base, &(i2c->handle->master_handle), &masterXfer); switch (status) { case kStatus_Success: ret = ARM_DRIVER_OK; break; case kStatus_I2C_Busy: ret = ARM_DRIVER_ERROR_BUSY; break; default: ret = ARM_DRIVER_ERROR; break; } return ret; } static int32_t I2C_Slave_InterruptTransmit(const uint8_t *data, uint32_t num, cmsis_i2c_interrupt_driver_state_t *i2c) { int32_t status; int32_t ret; /* set Slave enable */ I2C_SlaveEnable(i2c->resource->base, true); /*create slave_handle*/ I2C_SlaveTransferCreateHandle(i2c->resource->base, &(i2c->handle->slave_handle), KSDK_I2C_SLAVE_InterruptCallback, (void *)i2c->cb_event); status = I2C_SlaveTransferNonBlocking(i2c->resource->base, &(i2c->handle->slave_handle), (uint32_t)kI2C_SlaveCompletionEvent); i2c->handle->slave_handle.transfer.txData = (uint8_t *)data; /*Pointer to buffer with data to transmit to I2C Master*/ i2c->handle->slave_handle.transfer.txSize = num; /*Number of data bytes to transmit*/ i2c->handle->slave_handle.transfer.transferredCount = 0U; /*Number of bytes actually transferred since start or last repeated start. */ switch (status) { case kStatus_Success: ret = ARM_DRIVER_OK; break; case kStatus_I2C_Busy: ret = ARM_DRIVER_ERROR_BUSY; break; default: ret = ARM_DRIVER_ERROR; break; } return ret; } static int32_t I2C_Slave_InterruptReceive(uint8_t *data, uint32_t num, cmsis_i2c_interrupt_driver_state_t *i2c) { int32_t status; int32_t ret; /* set Slave enable */ I2C_SlaveEnable(i2c->resource->base, true); /*create slave_handle*/ I2C_SlaveTransferCreateHandle(i2c->resource->base, &(i2c->handle->slave_handle), KSDK_I2C_SLAVE_InterruptCallback, (void *)i2c->cb_event); status = I2C_SlaveTransferNonBlocking(i2c->resource->base, &(i2c->handle->slave_handle), (uint32_t)kI2C_SlaveCompletionEvent); i2c->handle->slave_handle.transfer.rxData = data; /*Pointer to buffer with data to transmit to I2C Master*/ i2c->handle->slave_handle.transfer.rxSize = num; /*Number of data bytes to transmit*/ i2c->handle->slave_handle.transfer.transferredCount = 0U; /*Number of bytes actually transferred since start or last repeated start. */ switch (status) { case kStatus_Success: ret = ARM_DRIVER_OK; break; case kStatus_I2C_Busy: ret = ARM_DRIVER_ERROR_BUSY; break; default: ret = ARM_DRIVER_ERROR; break; } return ret; } static int32_t I2C_InterruptGetDataCount(cmsis_i2c_interrupt_driver_state_t *i2c) { uint32_t cnt = 0; /*the number of currently transferred data bytes*/ if ((i2c->resource->base->CFG & (uint8_t)I2C_CFG_MSTEN_MASK) != 0U) { cnt = i2c->handle->master_handle.transferCount; } else { cnt = i2c->handle->slave_handle.transfer.transferredCount; } return (int32_t)cnt; } static int32_t I2C_InterruptControl(uint32_t control, uint32_t arg, cmsis_i2c_interrupt_driver_state_t *i2c) { uint32_t baudRate_Bps; uint32_t clkDiv; int32_t result = ARM_DRIVER_OK; switch (control) { /*Set Own Slave Address; arg = slave address*/ case ARM_I2C_OWN_ADDRESS: /* Use as slave, set CLKDIV for clock stretching, ensure data set up time for standard mode 250ns. */ /* divVal = (sourceClock_Hz / 1000000) * (dataSetupTime_ns / 1000) */ clkDiv = i2c->resource->GetFreq() / 1000U; clkDiv = (clkDiv * 250U) / 1000000U; i2c->resource->base->CLKDIV = clkDiv & I2C_CLKDIV_DIVVAL_MASK; /* Set slave address. */ I2C_SlaveSetAddress(i2c->resource->base, kI2C_SlaveAddressRegister0, (uint8_t)arg, false); /* set Slave address 0 qual */ i2c->resource->base->SLVQUAL0 = I2C_SLVQUAL0_QUALMODE0(0) | I2C_SLVQUAL0_SLVQUAL0(0); break; /*Set Bus Speed; arg = bus speed*/ case ARM_I2C_BUS_SPEED: switch (arg) { case ARM_I2C_BUS_SPEED_STANDARD: baudRate_Bps = 100000; break; case ARM_I2C_BUS_SPEED_FAST: baudRate_Bps = 400000; break; case ARM_I2C_BUS_SPEED_FAST_PLUS: baudRate_Bps = 1000000; break; default: result = ARM_DRIVER_ERROR_UNSUPPORTED; break; } if (result == ARM_DRIVER_OK) { I2C_MasterSetBaudRate(i2c->resource->base, baudRate_Bps, i2c->resource->GetFreq()); } break; // Not supported case ARM_I2C_BUS_CLEAR: result = ARM_DRIVER_ERROR_UNSUPPORTED; break; /*Aborts the data transfer between Master and Slave for Transmit or Receive*/ case ARM_I2C_ABORT_TRANSFER: if ((i2c->resource->base->CFG & (uint8_t)I2C_CFG_MSTEN_MASK) != 0U) { /*disable master interrupt and send STOP signal*/ (void)I2C_MasterTransferAbort(i2c->resource->base, &(i2c->handle->master_handle)); i2c->handle->master_handle.transferCount = 0; i2c->handle->master_handle.transfer.data = NULL; i2c->handle->master_handle.transfer.dataSize = 0; } /*if slave receive*/ if (((i2c->resource->base->CFG & (uint32_t)I2C_CFG_SLVEN_MASK) != 0U) && ((i2c->handle->slave_handle.slaveFsm) == kI2C_SlaveFsmReceive)) { /*disable slave interrupt*/ I2C_SlaveTransferAbort(i2c->resource->base, &(i2c->handle->slave_handle)); i2c->handle->slave_handle.transfer.transferredCount = 0; i2c->handle->slave_handle.transfer.txData = NULL; i2c->handle->slave_handle.transfer.rxData = NULL; } break; default: result = ARM_DRIVER_ERROR_UNSUPPORTED; break; } return result; } static int32_t I2C_InterruptPowerControl(ARM_POWER_STATE state, cmsis_i2c_interrupt_driver_state_t *i2c) { int32_t result = ARM_DRIVER_OK; switch (state) { /*terminates any pending data transfers, disable i2c moduole and i2c clock*/ case ARM_POWER_OFF: if ((i2c->flags & (uint8_t)I2C_FLAG_POWER) != 0U) { (void)I2C_InterruptControl(ARM_I2C_ABORT_TRANSFER, 0, i2c); I2C_MasterDeinit(i2c->resource->base); I2C_SlaveDeinit(i2c->resource->base); i2c->flags = (uint8_t)I2C_FLAG_INIT; } break; /* Not supported */ case ARM_POWER_LOW: result = ARM_DRIVER_ERROR_UNSUPPORTED; break; /*enable i2c moduole and i2c clock*/ case ARM_POWER_FULL: if (i2c->flags == (uint8_t)I2C_FLAG_UNINIT) { return ARM_DRIVER_ERROR; } if ((i2c->flags & (uint8_t)I2C_FLAG_POWER) != 0U) { /* Driver already powered */ break; } (void)FLEXCOMM_Init(i2c->resource->base, FLEXCOMM_PERIPH_I2C); i2c->flags |= (uint8_t)I2C_FLAG_POWER; break; default: result = ARM_DRIVER_ERROR_UNSUPPORTED; break; } return result; } static ARM_I2C_STATUS I2C_InterruptGetStatus(cmsis_i2c_interrupt_driver_state_t *i2c) { ARM_I2C_STATUS stat = {0}; uint32_t ksdk_i2c_status = I2C_GetStatusFlags(i2c->resource->base); if ((i2c->resource->base->CFG & (uint32_t)I2C_CFG_MSTEN_MASK) != 0U) { stat.busy = (uint32_t)(0UL == (ksdk_i2c_status & (uint32_t)I2C_STAT_MSTPENDING_MASK)); /*Busy flag.*/ stat.direction = (uint32_t)i2c->handle->master_handle.transfer.direction; /*Direction: 0=Transmitter, 1=Receiver.*/ stat.mode = 1UL; /*Mode: 0=Slave, 1=Master.*/ stat.arbitration_lost = (uint32_t)((ksdk_i2c_status & (uint32_t)I2C_STAT_MSTARBLOSS_MASK) != 0U); /*Master lost arbitration (cleared on start of next Master operation)*/ } if ((i2c->resource->base->CFG & (uint32_t)I2C_CFG_SLVEN_MASK) != 0U) { stat.busy = (uint32_t)(0UL == (ksdk_i2c_status & (uint32_t)I2C_STAT_SLVPENDING_MASK)); /*Busy flag.*/ if (i2c->handle->slave_handle.slaveFsm == kI2C_SlaveFsmReceive) { stat.direction = 1; /*Direction: 0=Transmitter, 1=Receiver.*/ } else { stat.direction = 0; /*Direction: 0=Transmitter, 1=Receiver.*/ } stat.mode = 0; /*Mode: 0=Slave, 1=Master.*/ } return stat; } #endif #if defined(I2C0) && defined(RTE_I2C0) && RTE_I2C0 /* User needs to provide the implementation for I2C0_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C0_GetFreq(void); static cmsis_i2c_resource_t I2C0_Resource = {I2C0, I2C0_GetFreq}; #if (defined(RTE_I2C0_DMA_EN) && RTE_I2C0_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C0_DmaResource = {RTE_I2C0_Master_DMA_BASE, RTE_I2C0_Master_DMA_CH}; static i2c_master_dma_handle_t I2C0_DmaHandle; static dma_handle_t I2C0_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c0_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C0_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C0_DmaDriverState = { #endif &I2C0_Resource, &I2C0_DmaResource, &I2C0_DmaHandle, &I2C0_DmaTxRxHandle, }; static int32_t I2C0_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C0_PIN_INIT RTE_I2C0_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C0_DmaDriverState); } static int32_t I2C0_Master_DmaUninitialize(void) { #ifdef RTE_I2C0_PIN_DEINIT RTE_I2C0_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C0_DmaDriverState); } static int32_t I2C0_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C0_DmaDriverState); } static int32_t I2C0_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C0_DmaDriverState); } static int32_t I2C0_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C0_DmaDriverState); } static int32_t I2C0_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C0_DmaDriverState); } static int32_t I2C0_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C0_DmaDriverState); } static ARM_I2C_STATUS I2C0_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C0_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C0_handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c0_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C0_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C0_InterruptDriverState = { #endif &I2C0_Resource, &I2C0_handle, }; static int32_t I2C0_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C0_PIN_INIT RTE_I2C0_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C0_InterruptDriverState); } static int32_t I2C0_InterruptUninitialize(void) { #ifdef RTE_I2C0_PIN_DEINIT RTE_I2C0_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C0_InterruptDriverState); } static int32_t I2C0_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C0_InterruptDriverState); } static int32_t I2C0_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C0_InterruptDriverState); } static int32_t I2C0_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C0_InterruptDriverState); } static int32_t I2C0_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C0_InterruptDriverState); } static int32_t I2C0_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C0_InterruptDriverState); } static int32_t I2C0_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C0_InterruptDriverState); } static int32_t I2C0_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C0_InterruptDriverState); } static ARM_I2C_STATUS I2C0_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C0_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C0 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C0_DMA_EN) && RTE_I2C0_DMA_EN I2C0_Master_DmaInitialize, I2C0_Master_DmaUninitialize, I2C0_Master_DmaPowerControl, I2C0_Master_DmaTransmit, I2C0_Master_DmaReceive, NULL, NULL, I2C0_Master_DmaGetDataCount, I2C0_Master_DmaControl, I2C0_Master_DmaGetStatus #else I2C0_InterruptInitialize, I2C0_InterruptUninitialize, I2C0_InterruptPowerControl, I2C0_Master_InterruptTransmit, I2C0_Master_InterruptReceive, I2C0_Slave_InterruptTransmit, I2C0_Slave_InterruptReceive, I2C0_InterruptGetDataCount, I2C0_InterruptControl, I2C0_InterruptGetStatus #endif }; #endif #if defined(I2C1) && defined(RTE_I2C1) && RTE_I2C1 /* User needs to provide the implementation for I2C1_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C1_GetFreq(void); static cmsis_i2c_resource_t I2C1_Resource = {I2C1, I2C1_GetFreq}; #if (defined(RTE_I2C1_DMA_EN) && RTE_I2C1_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C1_DmaResource = {RTE_I2C1_Master_DMA_BASE, RTE_I2C1_Master_DMA_CH}; static i2c_master_dma_handle_t I2C1_DmaHandle; static dma_handle_t I2C1_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c1_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C1_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C1_DmaDriverState = { #endif &I2C1_Resource, &I2C1_DmaResource, &I2C1_DmaHandle, &I2C1_DmaTxRxHandle, }; static int32_t I2C1_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C1_PIN_INIT RTE_I2C1_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C1_DmaDriverState); } static int32_t I2C1_Master_DmaUninitialize(void) { #ifdef RTE_I2C1_PIN_DEINIT RTE_I2C1_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C1_DmaDriverState); } static int32_t I2C1_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C1_DmaDriverState); } static int32_t I2C1_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C1_DmaDriverState); } static int32_t I2C1_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C1_DmaDriverState); } static int32_t I2C1_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C1_DmaDriverState); } static int32_t I2C1_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C1_DmaDriverState); } static ARM_I2C_STATUS I2C1_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C1_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C1_Handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c1_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C1_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C1_InterruptDriverState = { #endif &I2C1_Resource, &I2C1_Handle, }; static int32_t I2C1_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C1_PIN_INIT RTE_I2C1_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C1_InterruptDriverState); } static int32_t I2C1_InterruptUninitialize(void) { #ifdef RTE_I2C1_PIN_DEINIT RTE_I2C1_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C1_InterruptDriverState); } static int32_t I2C1_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C1_InterruptDriverState); } static int32_t I2C1_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C1_InterruptDriverState); } static int32_t I2C1_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C1_InterruptDriverState); } static int32_t I2C1_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C1_InterruptDriverState); } static int32_t I2C1_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C1_InterruptDriverState); } static int32_t I2C1_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C1_InterruptDriverState); } static int32_t I2C1_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C1_InterruptDriverState); } static ARM_I2C_STATUS I2C1_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C1_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C1 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C1_DMA_EN) && RTE_I2C1_DMA_EN I2C1_Master_DmaInitialize, I2C1_Master_DmaUninitialize, I2C1_Master_DmaPowerControl, I2C1_Master_DmaTransmit, I2C1_Master_DmaReceive, NULL, NULL, I2C1_Master_DmaGetDataCount, I2C1_Master_DmaControl, I2C1_Master_DmaGetStatus #else I2C1_InterruptInitialize, I2C1_InterruptUninitialize, I2C1_InterruptPowerControl, I2C1_Master_InterruptTransmit, I2C1_Master_InterruptReceive, I2C1_Slave_InterruptTransmit, I2C1_Slave_InterruptReceive, I2C1_InterruptGetDataCount, I2C1_InterruptControl, I2C1_InterruptGetStatus #endif }; #endif #if defined(I2C2) && defined(RTE_I2C2) && RTE_I2C2 /* User needs to provide the implementation for I2C2_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C2_GetFreq(void); static cmsis_i2c_resource_t I2C2_Resource = {I2C2, I2C2_GetFreq}; #if (defined(RTE_I2C2_DMA_EN) && RTE_I2C2_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C2_DmaResource = {RTE_I2C2_Master_DMA_BASE, RTE_I2C2_Master_DMA_CH}; static i2c_master_dma_handle_t I2C2_DmaHandle; static dma_handle_t I2C2_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c2_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C2_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C2_DmaDriverState = { #endif &I2C2_Resource, &I2C2_DmaResource, &I2C2_DmaHandle, &I2C2_DmaTxRxHandle, }; static int32_t I2C2_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C2_PIN_INIT RTE_I2C2_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C2_DmaDriverState); } static int32_t I2C2_Master_DmaUninitialize(void) { #ifdef RTE_I2C2_PIN_DEINIT RTE_I2C2_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C2_DmaDriverState); } static int32_t I2C2_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C2_DmaDriverState); } static int32_t I2C2_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C2_DmaDriverState); } static int32_t I2C2_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C2_DmaDriverState); } static int32_t I2C2_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C2_DmaDriverState); } static int32_t I2C2_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C2_DmaDriverState); } static ARM_I2C_STATUS I2C2_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C2_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C2_Handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c2_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C2_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C2_InterruptDriverState = { #endif &I2C2_Resource, &I2C2_Handle, }; static int32_t I2C2_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C2_PIN_INIT RTE_I2C2_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C2_InterruptDriverState); } static int32_t I2C2_InterruptUninitialize(void) { #ifdef RTE_I2C2_PIN_DEINIT RTE_I2C2_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C2_InterruptDriverState); } static int32_t I2C2_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C2_InterruptDriverState); } static int32_t I2C2_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C2_InterruptDriverState); } static int32_t I2C2_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C2_InterruptDriverState); } static int32_t I2C2_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C2_InterruptDriverState); } static int32_t I2C2_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C2_InterruptDriverState); } static int32_t I2C2_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C2_InterruptDriverState); } static int32_t I2C2_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C2_InterruptDriverState); } static ARM_I2C_STATUS I2C2_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C2_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C2 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C2_DMA_EN) && (RTE_I2C2_DMA_EN) I2C2_Master_DmaInitialize, I2C2_Master_DmaUninitialize, I2C2_Master_DmaPowerControl, I2C2_Master_DmaTransmit, I2C2_Master_DmaReceive, NULL, NULL, I2C2_Master_DmaGetDataCount, I2C2_Master_DmaControl, I2C2_Master_DmaGetStatus #else I2C2_InterruptInitialize, I2C2_InterruptUninitialize, I2C2_InterruptPowerControl, I2C2_Master_InterruptTransmit, I2C2_Master_InterruptReceive, I2C2_Slave_InterruptTransmit, I2C2_Slave_InterruptReceive, I2C2_InterruptGetDataCount, I2C2_InterruptControl, I2C2_InterruptGetStatus #endif }; #endif #if defined(I2C3) && defined(RTE_I2C3) && RTE_I2C3 /* User needs to provide the implementation for I2C3_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C3_GetFreq(void); static cmsis_i2c_resource_t I2C3_Resource = {I2C3, I2C3_GetFreq}; #if (defined(RTE_I2C3_DMA_EN) && RTE_I2C3_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C3_DmaResource = {RTE_I2C3_Master_DMA_BASE, RTE_I2C3_Master_DMA_CH}; static i2c_master_dma_handle_t I2C3_DmaHandle; static dma_handle_t I2C3_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c3_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C3_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C3_DmaDriverState = { #endif &I2C3_Resource, &I2C3_DmaResource, &I2C3_DmaHandle, &I2C3_DmaTxRxHandle, }; static int32_t I2C3_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C3_PIN_INIT RTE_I2C3_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C3_DmaDriverState); } static int32_t I2C3_Master_DmaUninitialize(void) { #ifdef RTE_I2C3_PIN_DEINIT RTE_I2C3_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C3_DmaDriverState); } static int32_t I2C3_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C3_DmaDriverState); } static int32_t I2C3_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C3_DmaDriverState); } static int32_t I2C3_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C3_DmaDriverState); } static int32_t I2C3_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C3_DmaDriverState); } static int32_t I2C3_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C3_DmaDriverState); } static ARM_I2C_STATUS I2C3_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C3_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C3_Handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c3_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C3_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C3_InterruptDriverState = { #endif &I2C3_Resource, &I2C3_Handle, }; static int32_t I2C3_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C3_PIN_INIT RTE_I2C3_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C3_InterruptDriverState); } static int32_t I2C3_InterruptUninitialize(void) { #ifdef RTE_I2C3_PIN_DEINIT RTE_I2C3_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C3_InterruptDriverState); } static int32_t I2C3_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C3_InterruptDriverState); } static int32_t I2C3_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C3_InterruptDriverState); } static int32_t I2C3_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C3_InterruptDriverState); } static int32_t I2C3_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C3_InterruptDriverState); } static int32_t I2C3_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C3_InterruptDriverState); } static int32_t I2C3_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C3_InterruptDriverState); } static int32_t I2C3_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C3_InterruptDriverState); } static ARM_I2C_STATUS I2C3_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C3_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C3 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C3_DMA_EN) && RTE_I2C3_DMA_EN I2C3_Master_DmaInitialize, I2C3_Master_DmaUninitialize, I2C3_Master_DmaPowerControl, I2C3_Master_DmaTransmit, I2C3_Master_DmaReceive, NULL, NULL, I2C3_Master_DmaGetDataCount, I2C3_Master_DmaControl, I2C3_Master_DmaGetStatus #else I2C3_InterruptInitialize, I2C3_InterruptUninitialize, I2C3_InterruptPowerControl, I2C3_Master_InterruptTransmit, I2C3_Master_InterruptReceive, I2C3_Slave_InterruptTransmit, I2C3_Slave_InterruptReceive, I2C3_InterruptGetDataCount, I2C3_InterruptControl, I2C3_InterruptGetStatus #endif }; #endif #if defined(I2C4) && defined(RTE_I2C4) && RTE_I2C4 /* User needs to provide the implementation for I2C4_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C4_GetFreq(void); static cmsis_i2c_resource_t I2C4_Resource = {I2C4, I2C4_GetFreq}; #if (defined(RTE_I2C4_DMA_EN) && RTE_I2C4_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C4_DmaResource = {RTE_I2C4_Master_DMA_BASE, RTE_I2C4_Master_DMA_CH}; static i2c_master_dma_handle_t I2C4_DmaHandle; static dma_handle_t I2C4_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c4_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C4_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C4_DmaDriverState = { #endif &I2C4_Resource, &I2C4_DmaResource, &I2C4_DmaHandle, &I2C4_DmaTxRxHandle, }; static int32_t I2C4_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C4_PIN_INIT RTE_I2C4_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C4_DmaDriverState); } static int32_t I2C4_Master_DmaUninitialize(void) { #ifdef RTE_I2C4_PIN_DEINIT RTE_I2C4_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C4_DmaDriverState); } static int32_t I2C4_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C4_DmaDriverState); } static int32_t I2C4_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C4_DmaDriverState); } static int32_t I2C4_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C4_DmaDriverState); } static int32_t I2C4_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C4_DmaDriverState); } static int32_t I2C4_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C4_DmaDriverState); } static ARM_I2C_STATUS I2C4_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C4_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C4_handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c4_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C4_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C4_InterruptDriverState = { #endif &I2C4_Resource, &I2C4_handle, }; static int32_t I2C4_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C4_PIN_INIT RTE_I2C4_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C4_InterruptDriverState); } static int32_t I2C4_InterruptUninitialize(void) { #ifdef RTE_I2C4_PIN_DEINIT RTE_I2C4_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C4_InterruptDriverState); } static int32_t I2C4_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C4_InterruptDriverState); } static int32_t I2C4_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C4_InterruptDriverState); } static int32_t I2C4_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C4_InterruptDriverState); } static int32_t I2C4_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C4_InterruptDriverState); } static int32_t I2C4_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C4_InterruptDriverState); } static int32_t I2C4_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C4_InterruptDriverState); } static int32_t I2C4_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C4_InterruptDriverState); } static ARM_I2C_STATUS I2C4_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C4_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C4 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C4_DMA_EN) && RTE_I2C4_DMA_EN I2C4_Master_DmaInitialize, I2C4_Master_DmaUninitialize, I2C4_Master_DmaPowerControl, I2C4_Master_DmaTransmit, I2C4_Master_DmaReceive, NULL, NULL, I2C4_Master_DmaGetDataCount, I2C4_Master_DmaControl, I2C4_Master_DmaGetStatus #else I2C4_InterruptInitialize, I2C4_InterruptUninitialize, I2C4_InterruptPowerControl, I2C4_Master_InterruptTransmit, I2C4_Master_InterruptReceive, I2C4_Slave_InterruptTransmit, I2C4_Slave_InterruptReceive, I2C4_InterruptGetDataCount, I2C4_InterruptControl, I2C4_InterruptGetStatus #endif }; #endif #if defined(I2C5) && defined(RTE_I2C5) && RTE_I2C5 /* User needs to provide the implementation for I2C5_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C5_GetFreq(void); static cmsis_i2c_resource_t I2C5_Resource = {I2C5, I2C5_GetFreq}; #if (defined(RTE_I2C5_DMA_EN) && RTE_I2C5_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C5_DmaResource = {RTE_I2C5_Master_DMA_BASE, RTE_I2C5_Master_DMA_CH}; static i2c_master_dma_handle_t I2C5_DmaHandle; static dma_handle_t I2C5_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c5_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C5_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C5_DmaDriverState = { #endif &I2C5_Resource, &I2C5_DmaResource, &I2C5_DmaHandle, &I2C5_DmaTxRxHandle, }; static int32_t I2C5_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C5_PIN_INIT RTE_I2C5_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C5_DmaDriverState); } static int32_t I2C5_Master_DmaUninitialize(void) { #ifdef RTE_I2C5_PIN_DEINIT RTE_I2C5_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C5_DmaDriverState); } static int32_t I2C5_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C5_DmaDriverState); } static int32_t I2C5_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C5_DmaDriverState); } static int32_t I2C5_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C5_DmaDriverState); } static int32_t I2C5_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C5_DmaDriverState); } static int32_t I2C5_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C5_DmaDriverState); } static ARM_I2C_STATUS I2C5_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C5_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C5_handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c5_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C5_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C5_InterruptDriverState = { #endif &I2C5_Resource, &I2C5_handle, }; static int32_t I2C5_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C5_PIN_INIT RTE_I2C5_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C5_InterruptDriverState); } static int32_t I2C5_InterruptUninitialize(void) { #ifdef RTE_I2C5_PIN_DEINIT RTE_I2C5_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C5_InterruptDriverState); } static int32_t I2C5_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C5_InterruptDriverState); } static int32_t I2C5_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C5_InterruptDriverState); } static int32_t I2C5_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C5_InterruptDriverState); } static int32_t I2C5_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C5_InterruptDriverState); } static int32_t I2C5_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C5_InterruptDriverState); } static int32_t I2C5_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C5_InterruptDriverState); } static int32_t I2C5_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C5_InterruptDriverState); } static ARM_I2C_STATUS I2C5_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C5_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C5 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C5_DMA_EN) && RTE_I2C5_DMA_EN I2C5_Master_DmaInitialize, I2C5_Master_DmaUninitialize, I2C5_Master_DmaPowerControl, I2C5_Master_DmaTransmit, I2C5_Master_DmaReceive, NULL, NULL, I2C5_Master_DmaGetDataCount, I2C5_Master_DmaControl, I2C5_Master_DmaGetStatus #else I2C5_InterruptInitialize, I2C5_InterruptUninitialize, I2C5_InterruptPowerControl, I2C5_Master_InterruptTransmit, I2C5_Master_InterruptReceive, I2C5_Slave_InterruptTransmit, I2C5_Slave_InterruptReceive, I2C5_InterruptGetDataCount, I2C5_InterruptControl, I2C5_InterruptGetStatus #endif }; #endif #if defined(I2C6) && defined(RTE_I2C6) && RTE_I2C6 /* User needs to provide the implementation for I2C6_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C6_GetFreq(void); static cmsis_i2c_resource_t I2C6_Resource = {I2C6, I2C6_GetFreq}; #if (defined(RTE_I2C6_DMA_EN) && RTE_I2C6_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C6_DmaResource = {RTE_I2C6_Master_DMA_BASE, RTE_I2C6_Master_DMA_CH}; static i2c_master_dma_handle_t I2C6_DmaHandle; static dma_handle_t I2C6_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c6_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C6_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C6_DmaDriverState = { #endif &I2C6_Resource, &I2C6_DmaResource, &I2C6_DmaHandle, &I2C6_DmaTxRxHandle, }; static int32_t I2C6_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C6_PIN_INIT RTE_I2C6_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C6_DmaDriverState); } static int32_t I2C6_Master_DmaUninitialize(void) { #ifdef RTE_I2C6_PIN_DEINIT RTE_I2C6_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C6_DmaDriverState); } static int32_t I2C6_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C6_DmaDriverState); } static int32_t I2C6_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C6_DmaDriverState); } static int32_t I2C6_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C6_DmaDriverState); } static int32_t I2C6_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C6_DmaDriverState); } static int32_t I2C6_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C6_DmaDriverState); } static ARM_I2C_STATUS I2C6_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C6_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C6_handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c6_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C6_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C6_InterruptDriverState = { #endif &I2C6_Resource, &I2C6_handle, }; static int32_t I2C6_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C6_PIN_INIT RTE_I2C6_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C6_InterruptDriverState); } static int32_t I2C6_InterruptUninitialize(void) { #ifdef RTE_I2C6_PIN_DEINIT RTE_I2C6_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C6_InterruptDriverState); } static int32_t I2C6_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C6_InterruptDriverState); } static int32_t I2C6_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C6_InterruptDriverState); } static int32_t I2C6_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C6_InterruptDriverState); } static int32_t I2C6_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C6_InterruptDriverState); } static int32_t I2C6_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C6_InterruptDriverState); } static int32_t I2C6_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C6_InterruptDriverState); } static int32_t I2C6_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C6_InterruptDriverState); } static ARM_I2C_STATUS I2C6_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C6_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C6 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C6_DMA_EN) && RTE_I2C6_DMA_EN I2C6_Master_DmaInitialize, I2C6_Master_DmaUninitialize, I2C6_Master_DmaPowerControl, I2C6_Master_DmaTransmit, I2C6_Master_DmaReceive, NULL, NULL, I2C6_Master_DmaGetDataCount, I2C6_Master_DmaControl, I2C6_Master_DmaGetStatus #else I2C6_InterruptInitialize, I2C6_InterruptUninitialize, I2C6_InterruptPowerControl, I2C6_Master_InterruptTransmit, I2C6_Master_InterruptReceive, I2C6_Slave_InterruptTransmit, I2C6_Slave_InterruptReceive, I2C6_InterruptGetDataCount, I2C6_InterruptControl, I2C6_InterruptGetStatus #endif }; #endif #if defined(I2C7) && defined(RTE_I2C7) && RTE_I2C7 /* User needs to provide the implementation for I2C7_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C7_GetFreq(void); static cmsis_i2c_resource_t I2C7_Resource = {I2C7, I2C7_GetFreq}; #if (defined(RTE_I2C7_DMA_EN) && RTE_I2C7_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C7_DmaResource = {RTE_I2C7_Master_DMA_BASE, RTE_I2C7_Master_DMA_CH}; static i2c_master_dma_handle_t I2C7_DmaHandle; static dma_handle_t I2C7_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c7_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C7_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C7_DmaDriverState = { #endif &I2C7_Resource, &I2C7_DmaResource, &I2C7_DmaHandle, &I2C7_DmaTxRxHandle, }; static int32_t I2C7_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C7_PIN_INIT RTE_I2C7_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C7_DmaDriverState); } static int32_t I2C7_Master_DmaUninitialize(void) { #ifdef RTE_I2C7_PIN_DEINIT RTE_I2C7_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C7_DmaDriverState); } static int32_t I2C7_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C7_DmaDriverState); } static int32_t I2C7_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C7_DmaDriverState); } static int32_t I2C7_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C7_DmaDriverState); } static int32_t I2C7_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C7_DmaDriverState); } static int32_t I2C7_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C7_DmaDriverState); } static ARM_I2C_STATUS I2C7_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C7_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C7_handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c7_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C7_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C7_InterruptDriverState = { #endif &I2C7_Resource, &I2C7_handle, }; static int32_t I2C7_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C7_PIN_INIT RTE_I2C7_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C7_InterruptDriverState); } static int32_t I2C7_InterruptUninitialize(void) { #ifdef RTE_I2C7_PIN_DEINIT RTE_I2C7_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C7_InterruptDriverState); } static int32_t I2C7_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C7_InterruptDriverState); } static int32_t I2C7_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C7_InterruptDriverState); } static int32_t I2C7_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C7_InterruptDriverState); } static int32_t I2C7_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C7_InterruptDriverState); } static int32_t I2C7_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C7_InterruptDriverState); } static int32_t I2C7_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C7_InterruptDriverState); } static int32_t I2C7_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C7_InterruptDriverState); } static ARM_I2C_STATUS I2C7_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C7_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C7 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C7_DMA_EN) && RTE_I2C7_DMA_EN I2C7_Master_DmaInitialize, I2C7_Master_DmaUninitialize, I2C7_Master_DmaPowerControl, I2C7_Master_DmaTransmit, I2C7_Master_DmaReceive, NULL, NULL, I2C7_Master_DmaGetDataCount, I2C7_Master_DmaControl, I2C7_Master_DmaGetStatus #else I2C7_InterruptInitialize, I2C7_InterruptUninitialize, I2C7_InterruptPowerControl, I2C7_Master_InterruptTransmit, I2C7_Master_InterruptReceive, I2C7_Slave_InterruptTransmit, I2C7_Slave_InterruptReceive, I2C7_InterruptGetDataCount, I2C7_InterruptControl, I2C7_InterruptGetStatus #endif }; #endif #if defined(I2C8) && defined(RTE_I2C8) && RTE_I2C8 /* User needs to provide the implementation for I2C8_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C8_GetFreq(void); static cmsis_i2c_resource_t I2C8_Resource = {I2C8, I2C8_GetFreq}; #if (defined(RTE_I2C8_DMA_EN) && RTE_I2C8_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C8_DmaResource = {RTE_I2C8_Master_DMA_BASE, RTE_I2C8_Master_DMA_CH}; static i2c_master_dma_handle_t I2C8_DmaHandle; static dma_handle_t I2C8_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c8_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C8_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C8_DmaDriverState = { #endif &I2C8_Resource, &I2C8_DmaResource, &I2C8_DmaHandle, &I2C8_DmaTxRxHandle, }; static int32_t I2C8_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C8_PIN_INIT RTE_I2C8_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C8_DmaDriverState); } static int32_t I2C8_Master_DmaUninitialize(void) { #ifdef RTE_I2C8_PIN_DEINIT RTE_I2C8_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C8_DmaDriverState); } static int32_t I2C8_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C8_DmaDriverState); } static int32_t I2C8_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C8_DmaDriverState); } static int32_t I2C8_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C8_DmaDriverState); } static int32_t I2C8_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C8_DmaDriverState); } static int32_t I2C8_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C8_DmaDriverState); } static ARM_I2C_STATUS I2C8_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C8_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C8_handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c8_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C8_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C8_InterruptDriverState = { #endif &I2C8_Resource, &I2C8_handle, }; static int32_t I2C8_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C8_PIN_INIT RTE_I2C8_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C8_InterruptDriverState); } static int32_t I2C8_InterruptUninitialize(void) { #ifdef RTE_I2C8_PIN_DEINIT RTE_I2C8_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C8_InterruptDriverState); } static int32_t I2C8_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C8_InterruptDriverState); } static int32_t I2C8_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C8_InterruptDriverState); } static int32_t I2C8_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C8_InterruptDriverState); } static int32_t I2C8_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C8_InterruptDriverState); } static int32_t I2C8_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C8_InterruptDriverState); } static int32_t I2C8_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C8_InterruptDriverState); } static int32_t I2C8_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C8_InterruptDriverState); } static ARM_I2C_STATUS I2C8_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C8_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C8 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C8_DMA_EN) && RTE_I2C8_DMA_EN I2C8_Master_DmaInitialize, I2C8_Master_DmaUninitialize, I2C8_Master_DmaPowerControl, I2C8_Master_DmaTransmit, I2C8_Master_DmaReceive, NULL, NULL, I2C8_Master_DmaGetDataCount, I2C8_Master_DmaControl, I2C8_Master_DmaGetStatus #else I2C8_InterruptInitialize, I2C8_InterruptUninitialize, I2C8_InterruptPowerControl, I2C8_Master_InterruptTransmit, I2C8_Master_InterruptReceive, I2C8_Slave_InterruptTransmit, I2C8_Slave_InterruptReceive, I2C8_InterruptGetDataCount, I2C8_InterruptControl, I2C8_InterruptGetStatus #endif }; #endif #if defined(I2C9) && defined(RTE_I2C9) && RTE_I2C9 /* User needs to provide the implementation for I2C9_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C9_GetFreq(void); static cmsis_i2c_resource_t I2C9_Resource = {I2C9, I2C9_GetFreq}; #if (defined(RTE_I2C9_DMA_EN) && RTE_I2C9_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C9_DmaResource = {RTE_I2C9_Master_DMA_BASE, RTE_I2C9_Master_DMA_CH}; static i2c_master_dma_handle_t I2C9_DmaHandle; static dma_handle_t I2C9_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c9_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C9_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C9_DmaDriverState = { #endif &I2C9_Resource, &I2C9_DmaResource, &I2C9_DmaHandle, &I2C9_DmaTxRxHandle, }; static int32_t I2C9_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C9_PIN_INIT RTE_I2C9_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C9_DmaDriverState); } static int32_t I2C9_Master_DmaUninitialize(void) { #ifdef RTE_I2C9_PIN_DEINIT RTE_I2C9_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C9_DmaDriverState); } static int32_t I2C9_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C9_DmaDriverState); } static int32_t I2C9_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C9_DmaDriverState); } static int32_t I2C9_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C9_DmaDriverState); } static int32_t I2C9_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C9_DmaDriverState); } static int32_t I2C9_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C9_DmaDriverState); } static ARM_I2C_STATUS I2C9_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C9_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C9_handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c9_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C9_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C9_InterruptDriverState = { #endif &I2C9_Resource, &I2C9_handle, }; static int32_t I2C9_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C9_PIN_INIT RTE_I2C9_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C9_InterruptDriverState); } static int32_t I2C9_InterruptUninitialize(void) { #ifdef RTE_I2C9_PIN_DEINIT RTE_I2C9_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C9_InterruptDriverState); } static int32_t I2C9_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C9_InterruptDriverState); } static int32_t I2C9_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C9_InterruptDriverState); } static int32_t I2C9_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C9_InterruptDriverState); } static int32_t I2C9_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C9_InterruptDriverState); } static int32_t I2C9_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C9_InterruptDriverState); } static int32_t I2C9_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C9_InterruptDriverState); } static int32_t I2C9_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C9_InterruptDriverState); } static ARM_I2C_STATUS I2C9_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C9_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C9 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C9_DMA_EN) && RTE_I2C9_DMA_EN I2C9_Master_DmaInitialize, I2C9_Master_DmaUninitialize, I2C9_Master_DmaPowerControl, I2C9_Master_DmaTransmit, I2C9_Master_DmaReceive, NULL, NULL, I2C9_Master_DmaGetDataCount, I2C9_Master_DmaControl, I2C9_Master_DmaGetStatus #else I2C9_InterruptInitialize, I2C9_InterruptUninitialize, I2C9_InterruptPowerControl, I2C9_Master_InterruptTransmit, I2C9_Master_InterruptReceive, I2C9_Slave_InterruptTransmit, I2C9_Slave_InterruptReceive, I2C9_InterruptGetDataCount, I2C9_InterruptControl, I2C9_InterruptGetStatus #endif }; #endif #if defined(I2C10) && defined(RTE_I2C10) && RTE_I2C10 /* User needs to provide the implementation for I2C10_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C10_GetFreq(void); static cmsis_i2c_resource_t I2C10_Resource = {I2C10, I2C10_GetFreq}; #if (defined(RTE_I2C10_DMA_EN) && RTE_I2C10_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C10_DmaResource = {RTE_I2C10_Master_DMA_BASE, RTE_I2C10_Master_DMA_CH}; static i2c_master_dma_handle_t I2C10_DmaHandle; static dma_handle_t I2C10_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c10_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C10_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C10_DmaDriverState = { #endif &I2C10_Resource, &I2C10_DmaResource, &I2C10_DmaHandle, &I2C10_DmaTxRxHandle, }; static int32_t I2C10_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C10_PIN_INIT RTE_I2C10_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C10_DmaDriverState); } static int32_t I2C10_Master_DmaUninitialize(void) { #ifdef RTE_I2C10_PIN_DEINIT RTE_I2C10_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C10_DmaDriverState); } static int32_t I2C10_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C10_DmaDriverState); } static int32_t I2C10_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C10_DmaDriverState); } static int32_t I2C10_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C10_DmaDriverState); } static int32_t I2C10_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C10_DmaDriverState); } static int32_t I2C10_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C10_DmaDriverState); } static ARM_I2C_STATUS I2C10_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C10_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C10_Handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c10_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C10_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C10_InterruptDriverState = { #endif &I2C10_Resource, &I2C10_Handle, }; static int32_t I2C10_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C10_PIN_INIT RTE_I2C10_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C10_InterruptDriverState); } static int32_t I2C10_InterruptUninitialize(void) { #ifdef RTE_I2C10_PIN_DEINIT RTE_I2C10_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C10_InterruptDriverState); } static int32_t I2C10_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C10_InterruptDriverState); } static int32_t I2C10_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C10_InterruptDriverState); } static int32_t I2C10_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C10_InterruptDriverState); } static int32_t I2C10_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C10_InterruptDriverState); } static int32_t I2C10_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C10_InterruptDriverState); } static int32_t I2C10_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C10_InterruptDriverState); } static int32_t I2C10_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C10_InterruptDriverState); } static ARM_I2C_STATUS I2C10_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C10_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C10 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C10_DMA_EN) && RTE_I2C10_DMA_EN I2C10_Master_DmaInitialize, I2C10_Master_DmaUninitialize, I2C10_Master_DmaPowerControl, I2C10_Master_DmaTransmit, I2C10_Master_DmaReceive, NULL, NULL, I2C10_Master_DmaGetDataCount, I2C10_Master_DmaControl, I2C10_Master_DmaGetStatus #else I2C10_InterruptInitialize, I2C10_InterruptUninitialize, I2C10_InterruptPowerControl, I2C10_Master_InterruptTransmit, I2C10_Master_InterruptReceive, I2C10_Slave_InterruptTransmit, I2C10_Slave_InterruptReceive, I2C10_InterruptGetDataCount, I2C10_InterruptControl, I2C10_InterruptGetStatus #endif }; #endif #if defined(I2C11) && defined(RTE_I2C11) && RTE_I2C11 /* User needs to provide the implementation for I2C1_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C11_GetFreq(void); static cmsis_i2c_resource_t I2C11_Resource = {I2C11, I2C11_GetFreq}; #if (defined(RTE_I2C11_DMA_EN) && RTE_I2C11_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C11_DmaResource = {RTE_I2C11_Master_DMA_BASE, RTE_I2C11_Master_DMA_CH}; static i2c_master_dma_handle_t I2C11_DmaHandle; static dma_handle_t I2C11_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c11_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C11_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C11_DmaDriverState = { #endif &I2C11_Resource, &I2C11_DmaResource, &I2C11_DmaHandle, &I2C11_DmaTxRxHandle, }; static int32_t I2C11_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C11_PIN_INIT RTE_I2C11_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C11_DmaDriverState); } static int32_t I2C11_Master_DmaUninitialize(void) { #ifdef RTE_I2C11_PIN_DEINIT RTE_I2C11_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C11_DmaDriverState); } static int32_t I2C11_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C11_DmaDriverState); } static int32_t I2C11_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C11_DmaDriverState); } static int32_t I2C11_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C11_DmaDriverState); } static int32_t I2C11_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C11_DmaDriverState); } static int32_t I2C11_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C11_DmaDriverState); } static ARM_I2C_STATUS I2C11_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C11_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C11_Handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c11_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C11_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C11_InterruptDriverState = { #endif &I2C11_Resource, &I2C11_Handle, }; static int32_t I2C11_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C11_PIN_INIT RTE_I2C11_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C11_InterruptDriverState); } static int32_t I2C11_InterruptUninitialize(void) { #ifdef RTE_I2C11_PIN_DEINIT RTE_I2C11_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C11_InterruptDriverState); } static int32_t I2C11_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C11_InterruptDriverState); } static int32_t I2C11_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C11_InterruptDriverState); } static int32_t I2C11_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C11_InterruptDriverState); } static int32_t I2C11_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C11_InterruptDriverState); } static int32_t I2C11_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C11_InterruptDriverState); } static int32_t I2C11_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C11_InterruptDriverState); } static int32_t I2C11_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C11_InterruptDriverState); } static ARM_I2C_STATUS I2C11_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C11_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C11 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C11_DMA_EN) && RTE_I2C11_DMA_EN I2C11_Master_DmaInitialize, I2C11_Master_DmaUninitialize, I2C11_Master_DmaPowerControl, I2C11_Master_DmaTransmit, I2C11_Master_DmaReceive, NULL, NULL, I2C11_Master_DmaGetDataCount, I2C11_Master_DmaControl, I2C11_Master_DmaGetStatus #else I2C11_InterruptInitialize, I2C11_InterruptUninitialize, I2C11_InterruptPowerControl, I2C11_Master_InterruptTransmit, I2C11_Master_InterruptReceive, I2C11_Slave_InterruptTransmit, I2C11_Slave_InterruptReceive, I2C11_InterruptGetDataCount, I2C11_InterruptControl, I2C11_InterruptGetStatus #endif }; #endif #if defined(I2C12) && defined(RTE_I2C12) && RTE_I2C12 /* User needs to provide the implementation for I2C1_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C12_GetFreq(void); static cmsis_i2c_resource_t I2C12_Resource = {I2C12, I2C12_GetFreq}; #if (defined(RTE_I2C12_DMA_EN) && RTE_I2C12_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C12_DmaResource = {RTE_I2C12_Master_DMA_BASE, RTE_I2C12_Master_DMA_CH}; static i2c_master_dma_handle_t I2C12_DmaHandle; static dma_handle_t I2C12_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c12_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C12_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C12_DmaDriverState = { #endif &I2C12_Resource, &I2C12_DmaResource, &I2C12_DmaHandle, &I2C12_DmaTxRxHandle, }; static int32_t I2C12_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C12_PIN_INIT RTE_I2C12_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C12_DmaDriverState); } static int32_t I2C12_Master_DmaUninitialize(void) { #ifdef RTE_I2C12_PIN_DEINIT RTE_I2C12_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C12_DmaDriverState); } static int32_t I2C12_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C12_DmaDriverState); } static int32_t I2C12_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C12_DmaDriverState); } static int32_t I2C12_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C12_DmaDriverState); } static int32_t I2C12_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C12_DmaDriverState); } static int32_t I2C12_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C12_DmaDriverState); } static ARM_I2C_STATUS I2C12_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C12_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C12_Handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c12_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C12_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C12_InterruptDriverState = { #endif &I2C12_Resource, &I2C12_Handle, }; static int32_t I2C12_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C12_PIN_INIT RTE_I2C12_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C12_InterruptDriverState); } static int32_t I2C12_InterruptUninitialize(void) { #ifdef RTE_I2C12_PIN_DEINIT RTE_I2C12_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C12_InterruptDriverState); } static int32_t I2C12_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C12_InterruptDriverState); } static int32_t I2C12_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C12_InterruptDriverState); } static int32_t I2C12_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C12_InterruptDriverState); } static int32_t I2C12_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C12_InterruptDriverState); } static int32_t I2C12_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C12_InterruptDriverState); } static int32_t I2C12_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C12_InterruptDriverState); } static int32_t I2C12_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C12_InterruptDriverState); } static ARM_I2C_STATUS I2C12_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C12_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C12 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C12_DMA_EN) && RTE_I2C12_DMA_EN I2C12_Master_DmaInitialize, I2C12_Master_DmaUninitialize, I2C12_Master_DmaPowerControl, I2C12_Master_DmaTransmit, I2C12_Master_DmaReceive, NULL, NULL, I2C12_Master_DmaGetDataCount, I2C12_Master_DmaControl, I2C12_Master_DmaGetStatus #else I2C12_InterruptInitialize, I2C12_InterruptUninitialize, I2C12_InterruptPowerControl, I2C12_Master_InterruptTransmit, I2C12_Master_InterruptReceive, I2C12_Slave_InterruptTransmit, I2C12_Slave_InterruptReceive, I2C12_InterruptGetDataCount, I2C12_InterruptControl, I2C12_InterruptGetStatus #endif }; #endif #if defined(I2C13) && defined(RTE_I2C13) && RTE_I2C13 /* User needs to provide the implementation for I2C1_GetFreq/InitPins/DeinitPins in the application for enabling according instance. */ extern uint32_t I2C13_GetFreq(void); static cmsis_i2c_resource_t I2C13_Resource = {I2C13, I2C13_GetFreq}; #if (defined(RTE_I2C13_DMA_EN) && RTE_I2C13_DMA_EN) #if (defined(FSL_FEATURE_SOC_DMA_COUNT) && FSL_FEATURE_SOC_DMA_COUNT) static cmsis_i2c_dma_resource_t I2C13_DmaResource = {RTE_I2C13_Master_DMA_BASE, RTE_I2C13_Master_DMA_CH}; static i2c_master_dma_handle_t I2C13_DmaHandle; static dma_handle_t I2C13_DmaTxRxHandle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c13_dma_driver_state") static cmsis_i2c_dma_driver_state_t I2C13_DmaDriverState = { #else static cmsis_i2c_dma_driver_state_t I2C13_DmaDriverState = { #endif &I2C13_Resource, &I2C13_DmaResource, &I2C13_DmaHandle, &I2C13_DmaTxRxHandle, }; static int32_t I2C13_Master_DmaInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C13_PIN_INIT RTE_I2C13_PIN_INIT(); #endif return I2C_Master_DmaInitialize(cb_event, &I2C13_DmaDriverState); } static int32_t I2C13_Master_DmaUninitialize(void) { #ifdef RTE_I2C13_PIN_DEINIT RTE_I2C13_PIN_DEINIT(); #endif return I2C_Master_DmaUninitialize(&I2C13_DmaDriverState); } static int32_t I2C13_Master_DmaPowerControl(ARM_POWER_STATE state) { return I2C_Master_DmaPowerControl(state, &I2C13_DmaDriverState); } static int32_t I2C13_Master_DmaTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaTransmit(addr, data, num, xfer_pending, &I2C13_DmaDriverState); } static int32_t I2C13_Master_DmaReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_DmaReceive(addr, data, num, xfer_pending, &I2C13_DmaDriverState); } static int32_t I2C13_Master_DmaGetDataCount(void) { return I2C_Master_DmaGetDataCount(&I2C13_DmaDriverState); } static int32_t I2C13_Master_DmaControl(uint32_t control, uint32_t arg) { return I2C_Master_DmaControl(control, arg, &I2C13_DmaDriverState); } static ARM_I2C_STATUS I2C13_Master_DmaGetStatus(void) { return I2C_Master_DmaGetStatus(&I2C13_DmaDriverState); } #endif #else static cmsis_i2c_handle_t I2C13_Handle; #if defined(__CC_ARM) || defined(__ARMCC_VERSION) ARMCC_SECTION("i2c13_interrupt_driver_state") static cmsis_i2c_interrupt_driver_state_t I2C13_InterruptDriverState = { #else static cmsis_i2c_interrupt_driver_state_t I2C13_InterruptDriverState = { #endif &I2C13_Resource, &I2C13_Handle, }; static int32_t I2C13_InterruptInitialize(ARM_I2C_SignalEvent_t cb_event) { #ifdef RTE_I2C13_PIN_INIT RTE_I2C13_PIN_INIT(); #endif return I2C_InterruptInitialize(cb_event, &I2C13_InterruptDriverState); } static int32_t I2C13_InterruptUninitialize(void) { #ifdef RTE_I2C13_PIN_DEINIT RTE_I2C13_PIN_DEINIT(); #endif return I2C_InterruptUninitialize(&I2C13_InterruptDriverState); } static int32_t I2C13_InterruptPowerControl(ARM_POWER_STATE state) { return I2C_InterruptPowerControl(state, &I2C13_InterruptDriverState); } static int32_t I2C13_Master_InterruptTransmit(uint32_t addr, const uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptTransmit(addr, data, num, xfer_pending, &I2C13_InterruptDriverState); } static int32_t I2C13_Master_InterruptReceive(uint32_t addr, uint8_t *data, uint32_t num, bool xfer_pending) { return I2C_Master_InterruptReceive(addr, data, num, xfer_pending, &I2C13_InterruptDriverState); } static int32_t I2C13_Slave_InterruptTransmit(const uint8_t *data, uint32_t num) { return I2C_Slave_InterruptTransmit(data, num, &I2C13_InterruptDriverState); } static int32_t I2C13_Slave_InterruptReceive(uint8_t *data, uint32_t num) { return I2C_Slave_InterruptReceive(data, num, &I2C13_InterruptDriverState); } static int32_t I2C13_InterruptGetDataCount(void) { return I2C_InterruptGetDataCount(&I2C13_InterruptDriverState); } static int32_t I2C13_InterruptControl(uint32_t control, uint32_t arg) { return I2C_InterruptControl(control, arg, &I2C13_InterruptDriverState); } static ARM_I2C_STATUS I2C13_InterruptGetStatus(void) { return I2C_InterruptGetStatus(&I2C13_InterruptDriverState); } #endif ARM_DRIVER_I2C Driver_I2C13 = {I2Cx_GetVersion, I2Cx_GetCapabilities, #if defined(RTE_I2C13_DMA_EN) && RTE_I2C13_DMA_EN I2C13_Master_DmaInitialize, I2C13_Master_DmaUninitialize, I2C13_Master_DmaPowerControl, I2C13_Master_DmaTransmit, I2C13_Master_DmaReceive, NULL, NULL, I2C13_Master_DmaGetDataCount, I2C13_Master_DmaControl, I2C13_Master_DmaGetStatus #else I2C13_InterruptInitialize, I2C13_InterruptUninitialize, I2C13_InterruptPowerControl, I2C13_Master_InterruptTransmit, I2C13_Master_InterruptReceive, I2C13_Slave_InterruptTransmit, I2C13_Slave_InterruptReceive, I2C13_InterruptGetDataCount, I2C13_InterruptControl, I2C13_InterruptGetStatus #endif }; #endif