//***************************************************************************** // // lpc.c - Driver for the Low Pin Count (LPC) module. // // Copyright (c) 2010-2012 Texas Instruments Incorporated. All rights reserved. // Software License Agreement // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions // are met: // // Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // // Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimer in the // documentation and/or other materials provided with the // distribution. // // Neither the name of Texas Instruments Incorporated nor the names of // its contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // // This is part of revision 9453 of the Stellaris Peripheral Driver Library. // //***************************************************************************** //***************************************************************************** // //! \addtogroup lpc_api //! @{ // //***************************************************************************** #include "inc/hw_ints.h" #include "inc/hw_memmap.h" #include "inc/hw_lpc.h" #include "inc/hw_sysctl.h" #include "inc/hw_types.h" #include "driverlib/debug.h" #include "driverlib/interrupt.h" #include "driverlib/lpc.h" //***************************************************************************** // //! \internal //! Checks an LPC Channel. //! //! \param ulChannel is the LPC channel identifier. //! //! This function determines if a channel identifier is valid. This function //! does not check for Channel 7 (COMx). //! //! \return Returns \b true if the channel identifier is valid and \b false //! otherwise. // //***************************************************************************** #ifdef DEBUG static tBoolean LPCChannelValid(unsigned long ulChannel) { return((ulChannel == LPC_CHAN_CH0) || (ulChannel == LPC_CHAN_CH1) || (ulChannel == LPC_CHAN_CH2) || (ulChannel == LPC_CHAN_CH3) || (ulChannel == LPC_CHAN_CH4) || (ulChannel == LPC_CHAN_CH5) || (ulChannel == LPC_CHAN_CH6) || (ulChannel == LPC_CHAN_CH7)); } #endif // #ifdef DEBUG //***************************************************************************** // //! Sets the configuration of the LPC module. //! //! \param ulBase is the base address of the LPC module. //! \param ulConfig specifies the configuration of the LPC module. //! //! This function configures the LPC module for basic operation. The //! configuration of individual channels is handled in a separate function. //! //! The \e ulConfig parameter is the logical OR of the following values: //! - \b LPC_CFG_WAKE - Force assertion of the LPC0CLKRUN signal when the //! LPC bus is powered down (LPC0PD is asserted). //! //! \return None. // //***************************************************************************** void LPCConfigSet(unsigned long ulBase, unsigned long ulConfig) { unsigned long ulTemp; // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT((ulConfig & ~(LPC_CFG_WAKE)) == 0); // // Configure the appropriate LPC Control Register fields. // ulTemp = HWREG(ulBase + LPC_O_CTL); ulTemp &= ~LPC_CTL_WAKE; ulTemp |= (ulConfig & LPC_CTL_WAKE); HWREG(ulBase + LPC_O_CTL) = ulTemp; } //***************************************************************************** // //! Gets the current configuration of the LPC module. //! //! \param ulBase is the base address of the LPC module. //! //! This function queries the control register of the LPC module and returns //! a bit-mapped value. //! //! \sa The description of the LPCConfigSet() function provides detailed //! information for the bit-mapped configuration values that are returned. //! //! \return Returns the bit-mapped LPC module configuration value. // //***************************************************************************** unsigned long LPCConfigGet(unsigned long ulBase) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Return the configuration value // return((HWREG(ulBase + LPC_O_CTL) & LPC_CTL_WAKE)); } //***************************************************************************** // //! Sets the Status Block Address for the LPC peripheral. //! //! \param ulBase is the base address of the LPC module. //! \param ulAddress is the host address to use for the block status. //! \param bEnabled indicates whether the block address feature should //! be enabled. //! //! This function sets the LPC block address register and optionally enables //! it. //! //! \return None. // //***************************************************************************** void LPCStatusBlockAddressSet(unsigned long ulBase, unsigned long ulAddress, tBoolean bEnabled) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT((ulAddress & ~0xFFFFFFFE) == 0); // // Set (and optionally enable) the Status Block Address // HWREG(ulBase + LPC_O_STSADDR) = (ulAddress | (bEnabled ? 1 : 0)); } //***************************************************************************** // //! Gets the Status Block Address for the LPC peripheral. //! //! \param ulBase is the base address of the LPC module. //! //! This function returns the LPC block address register. The LSB is used //! to indicate whether this feature has been enabled or not. //! //! \return None. // //***************************************************************************** unsigned LPCStatusBlockAddressGet(unsigned long ulBase) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Return the Status Block Address, including the enable bit. // return(HWREG(ulBase + LPC_O_STSADDR)); } //***************************************************************************** // //! Returns the status of the LPC module. //! //! \param ulBase is the base address of the LPC module. //! \param pulCount is a pointer to storage for the channel count. //! \param pulPoolSize is a pointer to storage for the register pool size. //! //! This function reads the value of the LPC Status register, calculates the //! number of channels and buffer pool size, and then returns the raw status //! value. //! //! \return Returns the contents of the LPC Status register. // //***************************************************************************** unsigned long LPCStatusGet(unsigned long ulBase, unsigned long *pulCount, unsigned long *pulPoolSize) { unsigned long ulStatus; // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Get a snapshot of the status register. // ulStatus = HWREG(ulBase + LPC_O_STS); // // Extract the channel count from the status, including COMx channel. // if(pulCount) { *pulCount = (((ulStatus & LPC_STS_CHCNT_M) >> LPC_STS_CHCNT_S) + 1); } // // Extract/Calculate the register pool size. // if(pulPoolSize) { *pulPoolSize = (((ulStatus & LPC_STS_POOLSZ_M) >> 16) * 256); } // // Return the raw status. // return(ulStatus); } //***************************************************************************** // //! Generates a pulse on the SCIn signal. //! //! \param ulBase is the base address of the LPC module. //! \param ulCount is the number used to generate the pulse width value. //! //! This function generates a pulse on the SCIn interrupt pin. The width of //! the pulse is (2 << \e ulCount) LPC Clock Periods, where \e ulCount can take //! on the value of 0, 1, 2, or 3. So, the pulse width is 2, 4, 8, or 16 clock //! periods. //! //! \return None. // //***************************************************************************** void LPCSCIAssert(unsigned long ulBase, unsigned long ulCount) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(ulCount <= 3); // // Wait for any previous pulse to be completed, by checking the SCI bit // (which is a self-clearing bit that is used to generate the pulse). // while(HWREG(ulBase + LPC_O_CTL) & LPC_CTL_SCI) { } // // Set the count value first, prior to enabling the pulse. // HWREG(ulBase + LPC_O_CTL) &= ~LPC_CTL_SCICNT_M; HWREG(ulBase + LPC_O_CTL) |= (ulCount << 10); // // Now, generate the pulse by setting the SCI bit. // HWREG(ulBase + LPC_O_CTL) |= LPC_CTL_SCI; } //***************************************************************************** // //! Configure the LPC IRQ operation. //! //! \param ulBase is the base address of the LPC module. //! \param bIRQPulse is a flag to indicate the manual IRQ bits should be //! cleared after they have been sent (in an SIRQ frame). //! \param bIRQOnChange is a flag to indicate that an SIRQ frame should be //! sent whenever any IRQ bits (manual/auto) change status. //! //! This function configures the LPC IRQs. If the \e bIRQPulse parameter is //! \b true, then manual IRQ values are cleared after they are sent. If the //! \e bIRQOnChange parameter is true, then IRQ values (manual and/or //! automatic) are sent when a change is detected. //! //! \return None. // //***************************************************************************** void LPCIRQConfig(unsigned long ulBase, tBoolean bIRQPulse, tBoolean bIRQOnChange) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Setup IRQ pulse configuration. // if(bIRQPulse) { HWREG(ulBase + LPC_O_IRQCTL) |= LPC_IRQCTL_PULSE; } else { HWREG(ulBase + LPC_O_IRQCTL) &= ~LPC_IRQCTL_PULSE; } // // Setup IRQ on-change configuration. // if(bIRQOnChange) { HWREG(ulBase + LPC_O_IRQCTL) |= LPC_IRQCTL_ONCHG; } else { HWREG(ulBase + LPC_O_IRQCTL) &= ~LPC_IRQCTL_ONCHG; } } //***************************************************************************** // //! Set the manual LPC IRQ bits. //! //! \param ulBase specifies the LPC module base address. //! \param ulIRQ specifies the IRQ bits that should be set. //! //! This function sets the IRQ bits that are sent in the SERIRQ frame. The //! value in the \e ulIRQ register is OR-ed into the existing manual IRQ //! setting. The value for the \e ulIRQ parameter can be any combination of //! the following values: \b LPC_IRQ15, \b LPC_IRQ14, \b LPC_IRQ13, //! \b LPC_IRQ12, \b LPC_IRQ11, \b LPC_IRQ10, \b LPC_IRQ9, \b LPC_IRQ8, //! \b LPC_IRQ7, \b LPC_IRQ6, \b LPC_IRQ5, \b LPC_IRQ4, \b LPC_IRQ3, //! \b LPC_IRQ2, \b LPC_IRQ1, or \b LPC_IRQ0. //! //! \return None. // //***************************************************************************** void LPCIRQSet(unsigned long ulBase, unsigned long ulIRQ) { unsigned long ulTemp; // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Get the current IRQ configuration, mask off the bits that we are to // be operating on, set/clear them as appropriate, then rewrite the // register. // ulTemp = HWREG(ulBase + LPC_O_IRQCTL); ulTemp |= (ulIRQ & 0xFFFF0000); HWREG(ulBase + LPC_O_IRQCTL) = ulTemp; } //***************************************************************************** // //! Clear the manual LPC IRQ bits. //! //! \param ulBase specifies the LPC module base address. //! \param ulIRQ specifies the IRQ bits that should be cleared. //! //! This function clears the IRQ bits that are sent in the SERIRQ frame. The //! value in the \e ulIRQ register is OR-ed into the existing manual IRQ //! setting. The value for the \e ulIRQ parameter can be any combination of //! the following values: \b LPC_IRQ15, \b LPC_IRQ14, \b LPC_IRQ13, //! \b LPC_IRQ12, \b LPC_IRQ11, \b LPC_IRQ10, \b LPC_IRQ9, \b LPC_IRQ8, //! \b LPC_IRQ7, \b LPC_IRQ6, \b LPC_IRQ5, \b LPC_IRQ4, \b LPC_IRQ3, //! \b LPC_IRQ2, \b LPC_IRQ1, or \b LPC_IRQ0. //! //! \return None. // //***************************************************************************** void LPCIRQClear(unsigned long ulBase, unsigned long ulIRQ) { unsigned long ulTemp; // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Get the current IRQ configuration, mask off the bits that we are to // be operating on, set/clear them as appropriate, then rewrite the // register. // ulTemp = HWREG(ulBase + LPC_O_IRQCTL); ulTemp &= ~(ulIRQ & 0xFFFF0000); HWREG(ulBase + LPC_O_IRQCTL) = ulTemp; } //***************************************************************************** // //! Get the configuration and status of the IRQ signals //! //! \param ulBase specifies the LPC module base address. //! //! This function returns the LPC module's SERIRQ status. The value returned //! is a combination of the following values: \b LPC_IRQ15, \b LPC_IRQ14, //! \b LPC_IRQ13, \b LPC_IRQ12, \b LPC_IRQ11, \b LPC_IRQ10, \b LPC_IRQ9, //! \b LPC_IRQ8, \b LPC_IRQ7, \b LPC_IRQ6, \b LPC_IRQ5, \b LPC_IRQ4, //! \b LPC_IRQ3, \b LPC_IRQ2, \b LPC_IRQ1, \b LPC_IRQ0, \b LPC_IRQ_BUSY, or //! \b LPC_IRQ_CONT. //! //! \return None. // //***************************************************************************** unsigned long LPCIRQGet(unsigned long ulBase) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Simply read the registers and return the values. // return(HWREG(ulBase + LPC_O_IRQST)); } //***************************************************************************** // //! Trigger a manual SIRQ frame. //! //! \param ulBase specifies the LPC module base address. //! //! This function forces the sending of an SIRQ frame using whatever values are //! currently set (auto and/or manual). //! //! \return None. // //***************************************************************************** void LPCIRQSend(unsigned long ulBase) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Set the bit to force the sending of an SIRQ frame. // HWREG(ulBase + LPC_O_IRQCTL) |= LPC_IRQCTL_SND; } //***************************************************************************** // //! Registers an interrupt handler for the LPC module. //! //! \param ulBase specifies the LPC module base address. //! \param pfnHandler is a pointer to the function to be called when the //! LPC interrupt occurs. //! //! This function registers the handler to be called when an LPC interrupt //! occurs. This function enables the global interrupt in the interrupt //! controller; specific LPC interrupts must be enabled via LPCIntEnable(). //! If necessary, it is the interrupt handler's responsibility to clear the //! interrupt source via LPCIntClear(). //! //! \sa IntRegister() for important information about registering interrupt //! handlers. //! //! \return None. // //***************************************************************************** void LPCIntRegister(unsigned long ulBase, void (*pfnHandler)(void)) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(pfnHandler != 0); // // Register the interrupt handler. // IntRegister(INT_LPC0, pfnHandler); // // Enable the LPC interrupt. // IntEnable(INT_LPC0); } //***************************************************************************** // //! Unregisters an interrupt handler for the LPC module. //! //! \param ulBase specifies the LPC module base address. //! //! This function unregisters the handler to be called when an LPC interrupt //! occurs. This fucntion also masks off the interrupt in the interrupt //! controller so that the interrupt handler is no longer called. //! //! \sa IntRegister() for important information about registering interrupt //! handlers. //! //! \return None. // //***************************************************************************** void LPCIntUnregister(unsigned long ulBase) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Disable the LPC interrupt. // IntDisable(INT_LPC0); // // Unregister the interrupt handler. // IntUnregister(INT_LPC0); } //***************************************************************************** // //! Enables individual LPC interrupt sources. //! //! \param ulBase specifies the LPC module base address. //! \param ulIntFlags is a bit mask of the interrupt sources to be enabled. //! //! This function enables the indicated LPC interrupt sources. Only the //! sources that are enabled can be reflected to the processor interrupt; //! disabled sources have no effect on the processor. //! //! The \e ulIntFlags parameter can be any of the following values: //! \b LPC_INT_RST, \b LPC_INT_SLEEP, \b LPC_INT_COMx, \b LPC_INT_SIRQ, //! \b LPC_INT_CHn_EP_TO_HOST, \b LPC_INT_CHn_EP_FROM_DATA, //! \b LPC_INT_CHn_EP_FROM_CMD, \b LPC_INT_CHn_MB_HOST_WON, //! \b LPC_INT_CHn_MB_HOST_WRITE, \b LPC_INT_CHn_MB_HOST_READ, or //! \b LPC_INT_CHn_MB_MCU_LOST, where \b CHn can be \b CH6, \b CH5, \b CH4, //! \b CH3, \b CH2, \b CH1, or \b CH0. //! //! \return None. // //***************************************************************************** void LPCIntEnable(unsigned long ulBase, unsigned long ulIntFlags) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Get the current mask value. // HWREG(ulBase + LPC_O_IM) |= ulIntFlags; } //***************************************************************************** // //! Disables individual LPC interrupt sources. //! //! \param ulBase specifies the LPC module base address. //! \param ulIntFlags is a bit mask of the interrupt sources to be disabled. //! //! This function disables the indicated LPC interrupt sources. Only the //! sources that are enabled can be reflected to the processor interrupt; //! disabled sources have no effect on the processor. //! //! \sa The description of the LPCIntEnable() function provides detailed //! information for the bit-mapped values in \e ulIntFlags. //! //! \return None. // //***************************************************************************** void LPCIntDisable(unsigned long ulBase, unsigned long ulIntFlags) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Disable the specified interrupts. // HWREG(ulBase + LPC_O_IM) &= ~ulIntFlags; } //***************************************************************************** // //! Gets the current interrupt status. //! //! \param ulBase specifies the LPC module base address. //! \param bMasked is \b false if the raw interrupt status is required or //! \b true if the masked interrupt status is required. //! //! This function returns the interrupt status for the LPC module. Either the //! raw interrupt status or the status of interrupts that are allowed to //! reflect to the processor can be returned. //! //! The interpretation of the LPC_INT_CHn fields varies based on the type //! value programed for the specific Channel. //! //! \sa The description of the LPCIntEnable() function provides detailed //! information for the bit-mapped values returned by this function. //! //! \return The current interrupt status. // //***************************************************************************** unsigned long LPCIntStatus(unsigned long ulBase, tBoolean bMasked) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Return either the interrupt status or the raw interrupt status as // requested. // if(bMasked) { return(HWREG(ulBase + LPC_O_MIS)); } else { return(HWREG(ulBase + LPC_O_RIS)); } } //***************************************************************************** // //! Clears LPC interrupt sources. //! //! \param ulBase specifies the LPC module base address. //! \param ulIntFlags is a bit mask of the interrupt sources to be cleared. //! //! The specified LPC interrupt sources are cleared so that they no longer //! assert. This function must be called in the interrupt handler to keep the //! interrupts from being recognized again immediately upon exit. //! //! \sa The description of the LPCIntEnable() function provides detailed //! information for the bit-mapped values in \e ulIntFlags. //! //! \note Because there is a write buffer in the Cortex-M processor, it may //! take several clock cycles before the interrupt source is actually cleared. //! Therefore, it is recommended that the interrupt source be cleared early in //! the interrupt handler (as opposed to the very last action) to avoid //! returning from the interrupt handler before the interrupt source is //! actually cleared. Failure to do so may result in the interrupt handler //! being immediately reentered (because the interrupt controller still sees //! the interrupt source asserted). //! //! \return None. // //***************************************************************************** void LPCIntClear(unsigned long ulBase, unsigned long ulIntFlags) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Clear the requested interrupt sources. // HWREG(ulBase + LPC_O_IC) = ulIntFlags; } //***************************************************************************** // //! Enables an LPC Channel. //! //! \param ulBase specifies the LPC module base address. //! \param ulChannel specifies the LPC channel to enable. //! //! The specified LPC Channel is enabled. //! //! The value for the \e ulChannel parameter can be any one of the following //! values: \b LPC_CHAN_CH0, \b LPC_CHAN_CH1, \b LPC_CHAN_CH2, //! \b LPC_CHAN_CH3, \b LPC_CHAN_CH4, \b LPC_CHAN_CH5, \b LPC_CHAN_CH6 or //! \b LPC_CHAN_CH7. //! //! \return None. // //***************************************************************************** void LPCChannelEnable(unsigned long ulBase, unsigned long ulChannel) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(LPCChannelValid(ulChannel)); // // Enable the specified channel. // HWREG(ulBase + LPC_O_CTL) |= (1 << ulChannel); } //***************************************************************************** // //! Disables an LPC Channel. //! //! \param ulBase specifies the LPC module base address. //! \param ulChannel specifies the LPC channel to disable. //! //! This function disables the specified LPC Channel. //! //! \sa The description of the LPCChannelEnable() function provides detailed //! information for the values that can be used for the \e ulChannel parameter. //! //! \return None. // //***************************************************************************** void LPCChannelDisable(unsigned long ulBase, unsigned long ulChannel) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(LPCChannelValid(ulChannel)); // // Disable the specified channel. // HWREG(ulBase + LPC_O_CTL) &= ~(1 << ulChannel); } //***************************************************************************** // //! Sets the configuration of an LPC Channel as an endpoint. //! //! \param ulBase specifies the LPC module base address. //! \param ulChannel specifies the LPC channel to configure. //! \param ulConfig specifies configuration options required for the endpoint. //! \param ulOffset specifies the offset from the beginning of the buffer pool //! for this endpoint's data. //! \param ulAddress specifies the LPC bus address (IO and/or MEM) for this //! channel. //! //! This function enables the specified LPC Channel as an endpoint. //! //! \return None. // //***************************************************************************** void LPCChannelConfigEPSet(unsigned long ulBase, unsigned long ulChannel, unsigned long ulConfig, unsigned long ulAddress, unsigned long ulOffset) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(LPCChannelValid(ulChannel)); ASSERT((ulConfig & ~(LPC_CH0CTL_IRQSEL1_M | LPC_CH0CTL_IRQSEL0_M | LPC_CH0CTL_IRQEN1 | LPC_CH0CTL_IRQEN0_M)) == 0); ASSERT((ulOffset & 3) == 0); ASSERT(ulOffset < ((((HWREG(ulBase + LPC_O_STS) & LPC_STS_POOLSZ_M) >> 16) * 256) - 4)); // // Convert the byte offset address into a half-word // offset address and add into the control word. // ulConfig |= (((ulOffset >> 1) << LPC_CH0CTL_OFFSET_S) & LPC_CH0CTL_OFFSET_M); // // Write the final control value into the control word for // the channel. // HWREG(ulBase + LPC_O_CH0CTL + (ulChannel * 0x10)) = ulConfig; // // Setup the IO and/or MEM address to match for this channel. // HWREG(ulBase + LPC_O_CH0ADR + (ulChannel * 0x10)) = ulAddress; } //***************************************************************************** // //! Sets the configuration of an LPC Channel as a mailbox. //! //! \param ulBase specifies the LPC module base address. //! \param ulChannel specifies the LPC channel to configure. //! \param ulConfig specifies configuration options required for the endpoint. //! \param ulOffset specifies the offset from the beginning of the buffer pool //! for this endpoint's data. //! \param ulAddress specifies the LPC bus address (IO and/or MEM) for this //! channel. //! //! This function enables the specified LPC Channel as a mailbox. //! //! \return None. // //***************************************************************************** void LPCChannelConfigMBSet(unsigned long ulBase, unsigned long ulChannel, unsigned long ulConfig, unsigned long ulAddress, unsigned long ulOffset) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(LPCChannelValid(ulChannel)); ASSERT((ulConfig & ~(LPC_CH0CTL_IRQSEL1_M | LPC_CH0CTL_IRQSEL1_M | LPC_CH0CTL_IRQSEL0_M | LPC_CH0CTL_IRQEN2 | LPC_CH0CTL_IRQEN1 | LPC_CH0CTL_IRQEN0_M | LPC_CH0CTL_ARBDIS | LPC_CH0CTL_AMASK_M)) == 0); ASSERT((ulOffset & 3) == 0); ASSERT(ulOffset < ((((HWREG(ulBase + LPC_O_STS) & LPC_STS_POOLSZ_M) >> 16) * 256) - 4)); // // Convert the byte offset address into a half-word // offset address and add into the control word. // ulConfig |= (((ulOffset >> 1) << LPC_CH0CTL_OFFSET_S) & LPC_CH0CTL_OFFSET_M); // // Set the configuration bit that enables Mailbox mode. // ulConfig |= LPC_CH0CTL_TYPE; // // Write the final control value into the control word for // the channel. // HWREG(ulBase + LPC_O_CH0CTL + (ulChannel * 0x10)) = ulConfig; // // Setup the IO and/or MEM address to match for this channel. // HWREG(ulBase + LPC_O_CH0ADR + (ulChannel * 0x10)) = ulAddress; } //***************************************************************************** // //! Sets the configuration of an LPC Channel as a COMx. //! //! \param ulBase specifies the LPC module base address. //! \param ulChannel specifies the LPC channel to configure. //! \param ulConfig specifies configuration options required for the endpoint. //! \param ulOffset specifies the offset from the beginning of the buffer pool //! for this endpoint's data. //! \param ulAddress specifies the LPC bus address (IO and/or MEM) for this //! channel. //! \param ulCOMxMode specifies the COMx mode to be used. //! //! The specified LPC Channel is enabled as a COMx. //! //! \return None. // //***************************************************************************** void LPCChannelConfigCOMxSet(unsigned long ulBase, unsigned long ulChannel, unsigned long ulConfig, unsigned long ulAddress, unsigned long ulOffset, unsigned long ulCOMxMode) { unsigned long ulTemp; // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(LPCChannelValid(ulChannel)); ASSERT(ulChannel == LPC_CHAN_COMx); ASSERT((ulConfig & ~(LPC_CH7CTL_IRQSEL1_M | LPC_CH7CTL_IRQSEL0_M | LPC_CH7CTL_CX | LPC_CH7CTL_IRQEN1 | LPC_CH7CTL_IRQEN0_M)) == 0); ASSERT((ulOffset & 3) == 0); ASSERT(ulOffset < ((((HWREG(ulBase + LPC_O_STS) & LPC_STS_POOLSZ_M) >> 16) * 256) - 4)); ASSERT((ulCOMxMode & ~LPC_DMACX_CXACT_M) == 0); // // Convert the byte offset address into a half-word // offset address and add into the control word. // ulConfig |= (((ulOffset >> 1) << LPC_CH0CTL_OFFSET_S) & LPC_CH0CTL_OFFSET_M); // // Write the final control value into the control word for // the channel. // HWREG(ulBase + LPC_O_CH0CTL + (ulChannel * 0x10)) = ulConfig; // // Setup the IO and/or MEM address to match for this channel. // HWREG(ulBase + LPC_O_CH0ADR + (ulChannel * 0x10)) = ulAddress; // // Configure the COMx Mode for this channel. // ulTemp = HWREG(ulBase + LPC_O_DMACX); ulTemp &= ~LPC_DMACX_CXACT_M; ulTemp |= ulCOMxMode; ulTemp |= LPC_DMACX_COMX; HWREG(ulBase + LPC_O_DMACX) = ulTemp; } //***************************************************************************** // //! Gets the configuration of an LPC Channel. //! //! \param ulBase specifies the LPC module base address. //! \param ulChannel specifies the LPC channel to configure. //! \param pulOffset is a pointer to storage for the channel pool offset. //! \param pulAddress is a pointer to storage for the channel bus address. //! \param pulCOMxMode is a pointer to storage for the channel COMx mode. //! //! This function determines and returns the configuration for the specified //! channel. //! //! \return Returns the bit-mapped channel control register value. // //***************************************************************************** unsigned long LPCChannelConfigGet(unsigned long ulBase, unsigned long ulChannel, unsigned long *pulAddress, unsigned long *pulOffset, unsigned long *pulCOMxMode) { unsigned long ulConfig; // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(LPCChannelValid(ulChannel)); // // Read the channel control register. // ulConfig = HWREG(ulBase + LPC_O_CH0CTL + (ulChannel * 0x10)); // // Get the buffer pool offset value. // if(pulOffset) { *pulOffset = ((ulConfig & LPC_CH0CTL_OFFSET_M) >> (LPC_CH0CTL_OFFSET_S - 1)); } // // Get the IO/Memory address that this endpoint responds to. // if(pulAddress) { *pulAddress = HWREG(ulBase + LPC_O_CH0ADR + (ulChannel * 0x10)); } // // Configure the COMx Mode for this channel. // if(pulCOMxMode && (ulChannel == LPC_CHAN_COMx)) { *pulCOMxMode = (HWREG(ulBase + LPC_O_DMACX) & 0x00070000); } // // Return the raw config value. // return(ulConfig); } //***************************************************************************** // //! Gets the absolute base address of the channel pool. //! //! \param ulBase specifies the LPC module base address. //! \param ulChannel specifies the LPC channel to configure. //! //! Thos function calculates the absolute address of the channel pool from the //! channel configuration setting and returns it. //! //! \return Returns the absolute base address of the channel pool. // //***************************************************************************** unsigned long LPCChannelPoolAddressGet(unsigned long ulBase, unsigned long ulChannel) { unsigned long ulAddress; // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(LPCChannelValid(ulChannel)); // // Read the channel control register. // ulAddress = HWREG(ulBase + LPC_O_CH0CTL + (ulChannel * 0x10)); // // Mask off the channel offset portion and shift it into a byte // offset (stored as half-word offset). // ulAddress = ((ulAddress & LPC_CH0CTL_OFFSET_M) >> (LPC_CH0CTL_OFFSET_S - 1)); // // Add the LPC and Buffer Pool base address to get the final // address to return. // ulAddress += (ulBase + LPC_O_POOL); // // Return the address to the calling routine. // return(ulAddress); } //***************************************************************************** // //! Reads the status word from an LPC Channel. //! //! \param ulBase specifies the LPC module base address. //! \param ulChannel specifies the LPC Channel. //! //! This function reads the status word from an LPC channel and returns it to //! the caller. //! //! \return content of the channel status register. // //***************************************************************************** unsigned long LPCChannelStatusGet(unsigned long ulBase, unsigned long ulChannel) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(LPCChannelValid(ulChannel)); // // Read the half-word status from the LPC Channel // return (HWREG(ulBase + LPC_O_CH0ST + (ulChannel * 0x10))); } //***************************************************************************** // //! Sets the user bits in the status word (16-bits) of an LPC Channel. //! //! \param ulBase specifies the LPC module base address. //! \param ulChannel specifies the LPC Channel. //! \param ulStatus is the user bit values to set. //! //! This function sets the selected user bits of the status word for an LPC //! channel. //! //! \return None // //***************************************************************************** void LPCChannelStatusSet(unsigned long ulBase, unsigned long ulChannel, unsigned long ulStatus) { unsigned long ulTemp; // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(LPCChannelValid(ulChannel)); ASSERT((ulStatus & (~LPC_CH0ST_USER_M)) == 0); // // Read the status from the LPC Channel, and set new values for // the user bits. // ulTemp = HWREG(ulBase + LPC_O_CH0ST + (ulChannel * 0x10)); ulTemp |= ulStatus; HWREG(ulBase + LPC_O_CH0ST + (ulChannel * 0x10)) = ulTemp; } //***************************************************************************** // //! Clears the user bits in the status word (16-bits) of an LPC Channel. //! //! \param ulBase specifies the LPC module base address. //! \param ulChannel specifies the LPC Channel. //! \param ulStatus is the user bit values to clear. //! //! This function sets the selected user bits of the status word for an LPC //! channel. //! //! \return None // //***************************************************************************** void LPCChannelStatusClear(unsigned long ulBase, unsigned long ulChannel, unsigned long ulStatus) { unsigned long ulTemp; // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(LPCChannelValid(ulChannel)); ASSERT((ulStatus & (~LPC_CH0ST_USER_M)) == 0); // // Read the status from the LPC Channel, and set new values for // the user bits. // ulTemp = HWREG(ulBase + LPC_O_CH0ST + (ulChannel * 0x10)); ulTemp &= ~ulStatus; HWREG(ulBase + LPC_O_CH0ST + (ulChannel * 0x10)) = ulTemp; } //***************************************************************************** // //! Sets the configuration of DMA for LPC channels. //! //! \param ulBase specifies the LPC module base address. //! \param ulConfig specifies the DMA channel configuration. //! \param ulMask specifies the configuration mask to be used. //! //! This function sets the specified DMA channel operation based on the //! \e ulConfig parameter. //! //! \return None. // //***************************************************************************** void LPCChannelDMAConfigSet(unsigned long ulBase, unsigned long ulConfig, unsigned long ulMask) { unsigned long ulTemp; // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT((ulConfig & ~0x000000FF) == 0); ASSERT((ulConfig & 0x00000003) != 0x00000003); ASSERT((ulConfig & 0x0000000C) != 0x0000000C); ASSERT((ulConfig & 0x00000030) != 0x00000030); ASSERT((ulConfig & 0x000000C0) != 0x000000C0); ASSERT((ulMask & ~0x000000FF) == 0); // // Get the current mask value. // ulTemp = HWREG(ulBase + LPC_O_DMACX); ulTemp &= ~ulMask; ulTemp |= (ulConfig & ulMask); HWREG(ulBase + LPC_O_DMACX) = ulTemp; } //***************************************************************************** // //! Gets the configuration of DMA for LPC channels. //! //! \param ulBase specifies the LPC module base address. //! //! This function returns the configuration of the LPC DMA channels. //! //! \return Returns the bit-mapped DMA channel configuration. // //***************************************************************************** unsigned long LPCChannelDMAConfigGet(unsigned long ulBase) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Get the current mask value. // return(HWREG(ulBase + LPC_O_DMACX) & 0x000000FF); } //***************************************************************************** // //! Reads a byte from the LPC channel pool. //! //! \param ulBase specifies the LPC module base address. //! \param ulOffset specifies the offset from the beginning of the LPC channel //! pool. //! //! This function reads a byte from the channel pool. //! //! \return Returns the byte read from the pool memory. // //***************************************************************************** unsigned char LPCByteRead(unsigned long ulBase, unsigned long ulOffset) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(ulOffset < (((HWREG(ulBase + LPC_O_STS) & LPC_STS_POOLSZ_M) >> 16) * 256)); // // Return the byte from the LPC Buffer Pool. // return(HWREGB(ulBase + LPC_O_POOL + ulOffset)); } //***************************************************************************** // //! Writes a byte to the LPC channel pool. //! //! \param ulBase specifies the LPC module base address. //! \param ulOffset specifies the offset from the beginning of the LPC channel //! pool. //! \param ucData specifies the byte to write. //! //! This function writes a byte to the channel pool. //! //! \return None // //***************************************************************************** void LPCByteWrite(unsigned long ulBase, unsigned long ulOffset, unsigned char ucData) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT(ulOffset < (((HWREG(ulBase + LPC_O_STS) & LPC_STS_POOLSZ_M) >> 16) * 256)); // // Write the byte to the LPC Buffer Pool. // HWREGB(ulBase + LPC_O_POOL + ulOffset) = ucData; } //***************************************************************************** // //! Reads a half-word from the LPC channel pool. //! //! \param ulBase specifies the LPC module base address. //! \param ulOffset specifies the offset from the beginning of the LPC channel //! pool. //! //! This function reads a half-word from the channel pool. The \e ulOffset //! specified must be half-word aligned. //! //! \return Returns the half-word read from the pool memory. // //***************************************************************************** unsigned short LPCHalfWordRead(unsigned long ulBase, unsigned long ulOffset) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT((ulOffset & 1) == 0); ASSERT(ulOffset < (((HWREG(ulBase + LPC_O_STS) & LPC_STS_POOLSZ_M) >> 16) * 256)); // // Return the half-word from the LPC Buffer Pool. // return(HWREGH(ulBase + LPC_O_POOL + ulOffset)); } //***************************************************************************** // //! Writes a half-word to the LPC channel pool. //! //! \param ulBase specifies the LPC module base address. //! \param ulOffset specifies the offset from the beginning of the LPC channel //! pool. //! \param usData specifies the byte to write. //! //! This function writes a half-word to the channel pool. The \e ulOffset //! specified must be half-word aligned. //! //! \return None // //***************************************************************************** void LPCHalfWordWrite(unsigned long ulBase, unsigned long ulOffset, unsigned short usData) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT((ulOffset & 1) == 0); ASSERT(ulOffset < (((HWREG(ulBase + LPC_O_STS) & LPC_STS_POOLSZ_M) >> 16) * 256)); // // Write the half-word to the LPC Buffer Pool. // HWREGH(ulBase + LPC_O_POOL + ulOffset) = usData; } //***************************************************************************** // //! Reads a word from the LPC channel pool. //! //! \param ulBase specifies the LPC module base address. //! \param ulOffset specifies the offset from the beginning of the LPC channel //! pool. //! //! This function reads a word from the channel pool. The \e ulOffset //! specified must be word aligned. //! //! \return Returns the word read from the pool memory. // //***************************************************************************** unsigned long LPCWordRead(unsigned long ulBase, unsigned long ulOffset) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT((ulOffset & 3) == 0); ASSERT(ulOffset < (((HWREG(ulBase + LPC_O_STS) & LPC_STS_POOLSZ_M) >> 16) * 256)); // // Return the word from the LPC Buffer Pool. // return(HWREG(ulBase + LPC_O_POOL + ulOffset)); } //***************************************************************************** // //! Writes a word to the LPC channel pool. //! //! \param ulBase specifies the LPC module base address. //! \param ulOffset specifies the offset from the beginning of the LPC channel //! pool. //! \param ulData specifies the word to write. //! //! This function writes a word to the channel pool. The \e ulOffset //! specified must be word aligned. //! //! \return None // //***************************************************************************** void LPCWordWrite(unsigned long ulBase, unsigned long ulOffset, unsigned long ulData) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT((ulOffset & 1) == 0); ASSERT(ulOffset < (((HWREG(ulBase + LPC_O_STS) & LPC_STS_POOLSZ_M) >> 16) * 256)); // // Write the word to the LPC Buffer Pool. // HWREG(ulBase + LPC_O_POOL + ulOffset) = ulData; } //***************************************************************************** // //! Enables individual COMx interrupt sources. //! //! \param ulBase specifies the LPC module base address. //! \param ulIntFlags is a bit mask of the interrupt sources to be enabled. //! //! This function enables the indicated COMx interrupt sources to trigger the //! COMx interrupt in the primary LPC interrupt registers. //! //! \return None. // //***************************************************************************** void LPCCOMxIntEnable(unsigned long ulBase, unsigned long ulIntFlags) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT((ulIntFlags & ~(LPC_DMACX_CXEM | LPC_DMACX_CXTXEM | LPC_DMACX_CXRXEM)) == 0); // // Get the current mask value. // HWREG(ulBase + LPC_O_DMACX) |= ulIntFlags; } //***************************************************************************** // //! Disables individual COMx interrupt sources. //! //! \param ulBase specifies the LPC module base address. //! \param ulIntFlags is a bit mask of the interrupt sources to be disabled. //! //! This function disables the indicated COMx interrupt sources from triggering //! the COMx interrupt in the primary LPC interrupt registers. //! //! \return None. // //***************************************************************************** void LPCCOMxIntDisable(unsigned long ulBase, unsigned long ulIntFlags) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT((ulIntFlags & ~(LPC_DMACX_CXEM | LPC_DMACX_CXTXEM | LPC_DMACX_CXRXEM)) == 0); // // Disable the specified interrupts. // HWREG(ulBase + LPC_O_DMACX) &= ~ulIntFlags; } //***************************************************************************** // //! Gets the current COMx interrupt status. //! //! \param ulBase specifies the LPC module base address. //! \param bMasked is \b false if the raw interrupt status is required or //! \b true if the masked interrupt status is required. //! //! This function returns the interrupt status for the COMx module. //! //! \return The current interrupt status. // //***************************************************************************** unsigned long LPCCOMxIntStatus(unsigned long ulBase, tBoolean bMasked) { unsigned long ulStatus; // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); // // Return either the interrupt status or the raw interrupt status as // requested. // ulStatus = HWREG(ulBase + LPC_O_DMACX); if(bMasked) { ulStatus = ulStatus & (ulStatus << 4); } return(ulStatus & (LPC_DMACX_CXRES | LPC_DMACX_CXTXRES | LPC_DMACX_CXRXRES)); } //***************************************************************************** // //! Clears COMx interrupt sources. //! //! \param ulBase specifies the LPC module base address. //! \param ulIntFlags is a bit mask of the interrupt sources to be cleared. //! //! This function clears the specified COMx interrupt sources so that they no //! longer assert. //! //! \return None. // //***************************************************************************** void LPCCOMxIntClear(unsigned long ulBase, unsigned long ulIntFlags) { // // Check the arguments. // ASSERT(ulBase == LPC0_BASE); ASSERT((ulIntFlags & ~(LPC_DMACX_CXRES | LPC_DMACX_CXTXRES | LPC_DMACX_CXRXRES)) == 0); // // Clear the requested interrupt sources. // HWREG(ulBase + LPC_O_DMACX) |= ulIntFlags; } //***************************************************************************** // // Close the Doxygen group. //! @} // //*****************************************************************************