/** * @file * * @ingroup mpc55xx * * @brief Enhanced Direct Memory Access (eDMA). */ /* * Copyright (c) 2008-2013 embedded brains GmbH. All rights reserved. * * embedded brains GmbH * Dornierstr. 4 * 82178 Puchheim * Germany * * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.rtems.org/license/LICENSE. */ #ifndef LIBCPU_POWERPC_MPC55XX_EDMA_H #define LIBCPU_POWERPC_MPC55XX_EDMA_H #include #include #include #ifdef __cplusplus extern "C" { #endif /* __cplusplus */ #if MPC55XX_CHIP_FAMILY == 551 #define EDMA_CHANNEL_COUNT 16U #elif MPC55XX_CHIP_FAMILY == 564 #define EDMA_CHANNEL_COUNT 16U #elif MPC55XX_CHIP_FAMILY == 567 #define EDMA_CHANNEL_COUNT 96U #else #define EDMA_CHANNEL_COUNT 64U #endif #define EDMA_MODULE_COUNT ((EDMA_CHANNEL_COUNT + 63U) / 64U) #define EDMA_CHANNELS_PER_MODULE 64U #if EDMA_MODULE_COUNT == 1 #define EDMA_TCD_BY_CHANNEL_INDEX(channel_index) \ (&EDMA.TCD[(channel_index)]) #elif EDMA_MODULE_COUNT == 2 #define EDMA_TCD_BY_CHANNEL_INDEX(channel_index) \ ((channel_index) < EDMA_CHANNELS_PER_MODULE ? \ &EDMA_A.TCD[(channel_index)] \ : &EDMA_B.TCD[(channel_index) - EDMA_CHANNELS_PER_MODULE]) #else #error "unsupported module count" #endif /* FIXME: These values are only valid for the MPC5566 and MPC5674F */ typedef enum { EDMA_EQADC_A_FISR0_CFFF0 = 0, EDMA_EQADC_A_FISR0_RFDF0 = 1, EDMA_EQADC_A_FISR1_CFFF1 = 2, EDMA_EQADC_A_FISR1_RFDF1 = 3, EDMA_EQADC_A_FISR2_CFFF2 = 4, EDMA_EQADC_A_FISR2_RFDF2 = 5, EDMA_EQADC_A_FISR3_CFFF3 = 6, EDMA_EQADC_A_FISR3_RFDF3 = 7, EDMA_EQADC_A_FISR4_CFFF4 = 8, EDMA_EQADC_A_FISR4_RFDF4 = 9, EDMA_EQADC_A_FISR5_CFFF5 = 10, EDMA_EQADC_A_FISR5_RFDF5 = 11, EDMA_DSPI_B_SR_TFFF = 12, EDMA_DSPI_B_SR_RFDF = 13, EDMA_DSPI_C_SR_TFFF = 14, EDMA_DSPI_C_SR_RFDF = 15, EDMA_DSPI_D_SR_TFFF = 16, EDMA_DSPI_D_SR_RFDF = 17, EDMA_ESCI_A_COMBTX = 18, EDMA_ESCI_A_COMBRX = 19, EDMA_EMIOS_GFR_F0 = 20, EDMA_EMIOS_GFR_F1 = 21, EDMA_EMIOS_GFR_F2 = 22, EDMA_EMIOS_GFR_F3 = 23, EDMA_EMIOS_GFR_F4 = 24, EDMA_EMIOS_GFR_F8 = 25, EDMA_EMIOS_GFR_F9 = 26, EDMA_ETPU_CDTRSR_A_DTRS0 = 27, EDMA_ETPU_CDTRSR_A_DTRS1 = 28, EDMA_ETPU_CDTRSR_A_DTRS2 = 29, EDMA_ETPU_CDTRSR_A_DTRS14 = 30, EDMA_ETPU_CDTRSR_A_DTRS15 = 31, EDMA_DSPI_A_SR_TFFF = 32, EDMA_DSPI_A_SR_RFDF = 33, EDMA_ESCI_B_COMBTX = 34, EDMA_ESCI_B_COMBRX = 35, EDMA_EMIOS_GFR_F6 = 36, EDMA_EMIOS_GFR_F7 = 37, EDMA_EMIOS_GFR_F10 = 38, EDMA_EMIOS_GFR_F11 = 39, EDMA_EMIOS_GFR_F16 = 40, EDMA_EMIOS_GFR_F17 = 41, EDMA_EMIOS_GFR_F18 = 42, EDMA_EMIOS_GFR_F19 = 43, EDMA_ETPU_CDTRSR_A_DTRS12 = 44, EDMA_ETPU_CDTRSR_A_DTRS13 = 45, EDMA_ETPU_CDTRSR_A_DTRS28 = 46, EDMA_ETPU_CDTRSR_A_DTRS29 = 47, EDMA_SIU_EISR_EIF0 = 48, EDMA_SIU_EISR_EIF1 = 49, EDMA_SIU_EISR_EIF2 = 50, EDMA_SIU_EISR_EIF3 = 51, EDMA_ETPU_CDTRSR_B_DTRS0 = 52, EDMA_ETPU_CDTRSR_B_DTRS1 = 53, EDMA_ETPU_CDTRSR_B_DTRS2 = 54, EDMA_ETPU_CDTRSR_B_DTRS3 = 55, EDMA_ETPU_CDTRSR_B_DTRS12 = 56, EDMA_ETPU_CDTRSR_B_DTRS13 = 57, EDMA_ETPU_CDTRSR_B_DTRS14 = 58, EDMA_ETPU_CDTRSR_B_DTRS15 = 59, EDMA_ETPU_CDTRSR_B_DTRS28 = 60, EDMA_ETPU_CDTRSR_B_DTRS29 = 61, EDMA_ETPU_CDTRSR_B_DTRS30 = 62, EDMA_ETPU_CDTRSR_B_DTRS31 = 63 #if MPC55XX_CHIP_FAMILY == 567 , EDMA_EQADC_B_FISR0_CFFF0 = 64 + 0, EDMA_EQADC_B_FISR0_RFDF0 = 64 + 1, EDMA_EQADC_B_FISR1_CFFF1 = 64 + 2, EDMA_EQADC_B_FISR1_RFDF1 = 64 + 3, EDMA_EQADC_B_FISR2_CFFF2 = 64 + 4, EDMA_EQADC_B_FISR2_RFDF2 = 64 + 5, EDMA_EQADC_B_FISR3_CFFF3 = 64 + 6, EDMA_EQADC_B_FISR3_RFDF3 = 64 + 7, EDMA_EQADC_B_FISR4_CFFF4 = 64 + 8, EDMA_EQADC_B_FISR4_RFDF4 = 64 + 9, EDMA_EQADC_B_FISR5_CFFF5 = 64 + 10, EDMA_EQADC_B_FISR5_RFDF5 = 64 + 11, EDMA_DECFILTER_A_IB = 64 + 12, EDMA_DECFILTER_A_OB = 64 + 13, EDMA_DECFILTER_B_IB = 64 + 14, EDMA_DECFILTER_B_OB = 64 + 15, EDMA_DECFILTER_C_IB = 64 + 16, EDMA_DECFILTER_C_OB = 64 + 17, EDMA_DECFILTER_D_IB = 64 + 18, EDMA_DECFILTER_D_OB = 64 + 19, EDMA_DECFILTER_E_IB = 64 + 20, EDMA_DECFILTER_E_OB = 64 + 21, EDMA_DECFILTER_F_IB = 64 + 22, EDMA_DECFILTER_F_OB = 64 + 23, EDMA_DECFILTER_G_IB = 64 + 24, EDMA_DECFILTER_G_OB = 64 + 25, EDMA_DECFILTER_H_IB = 64 + 26, EDMA_DECFILTER_H_OB = 64 + 27 #endif } edma_channel; typedef struct edma_channel_context { rtems_chain_node node; volatile struct tcd_t *edma_tcd; void (*done)(struct edma_channel_context *, uint32_t); } edma_channel_context; void mpc55xx_edma_init(void); /** * @brief Obtains an eDMA channel. * * @retval RTEMS_SUCCESSFUL Successful operation. * @retval RTEMS_RESOURCE_IN_USE The channel is already in use. */ rtems_status_code mpc55xx_edma_obtain_channel_by_tcd( volatile struct tcd_t *edma_tcd ); void mpc55xx_edma_release_channel_by_tcd(volatile struct tcd_t *edma_tcd); /** * @brief Obtains an eDMA channel and registers the channel context. * * The done handler of the channel context will be called * - during minor or major loop completions if interrupts are enabled in the * corresponding TCD, or * - in case a channel error occurs. * * An error status value not equal to zero indicates an error. * * @retval RTEMS_SUCCESSFUL Successful operation. * @retval RTEMS_RESOURCE_IN_USE The channel is already in use. * @retval RTEMS_IO_ERROR Unable to install interrupt handler for this channel. */ rtems_status_code mpc55xx_edma_obtain_channel( edma_channel_context *ctx, unsigned irq_priority ); void mpc55xx_edma_release_channel(edma_channel_context *ctx); /** * @brief Copies a source TCD to an eDMA TCD. * * The DONE flag of the eDMA TCD is cleared before the actual copy operation. * This enables the setting of channel link or scatter/gather options. * * This function can be used to start the channel if the START flags is * set in the source TCD. */ void mpc55xx_edma_copy( volatile struct tcd_t *edma_tcd, const struct tcd_t *source_tcd ); /** * @brief Copies a source TCD to an eDMA TCD and enables hardware requests. * * The DONE flag of the eDMA TCD is cleared before the actual copy operation. * This enables the setting of channel link or scatter/gather options. */ void mpc55xx_edma_copy_and_enable_hardware_requests( volatile struct tcd_t *edma_tcd, const struct tcd_t *source_tcd ); void mpc55xx_edma_sg_link( volatile struct tcd_t *edma_tcd, const struct tcd_t *source_tcd ); static inline volatile struct EDMA_tag *mpc55xx_edma_by_tcd( volatile struct tcd_t *edma_tcd ) { return (volatile struct EDMA_tag *) ((uintptr_t) edma_tcd & ~(uintptr_t) 0x1fff); } static inline unsigned mpc55xx_edma_channel_by_tcd( volatile struct tcd_t *edma_tcd ) { volatile struct EDMA_tag *edma = mpc55xx_edma_by_tcd(edma_tcd); return edma_tcd - &edma->TCD[0]; } static inline void mpc55xx_edma_enable_hardware_requests( volatile struct tcd_t *edma_tcd ) { volatile struct EDMA_tag *edma = mpc55xx_edma_by_tcd(edma_tcd); unsigned channel = edma_tcd - &edma->TCD[0]; edma->SERQR.R = (uint8_t) channel; } static inline void mpc55xx_edma_disable_hardware_requests( volatile struct tcd_t *edma_tcd ) { volatile struct EDMA_tag *edma = mpc55xx_edma_by_tcd(edma_tcd); unsigned channel = edma_tcd - &edma->TCD[0]; edma->CERQR.R = (uint8_t) channel; } static inline void mpc55xx_edma_enable_error_interrupts( volatile struct tcd_t *edma_tcd ) { volatile struct EDMA_tag *edma = mpc55xx_edma_by_tcd(edma_tcd); unsigned channel = edma_tcd - &edma->TCD[0]; edma->SEEIR.R = (uint8_t) channel; } static inline void mpc55xx_edma_disable_error_interrupts( volatile struct tcd_t *edma_tcd ) { volatile struct EDMA_tag *edma = mpc55xx_edma_by_tcd(edma_tcd); unsigned channel = edma_tcd - &edma->TCD[0]; edma->CEEIR.R = (uint8_t) channel; } static inline void mpc55xx_edma_set_start( volatile struct tcd_t *edma_tcd ) { volatile struct EDMA_tag *edma = mpc55xx_edma_by_tcd(edma_tcd); unsigned channel = edma_tcd - &edma->TCD[0]; edma->SSBR.R = (uint8_t) channel; } static inline void mpc55xx_edma_clear_done( volatile struct tcd_t *edma_tcd ) { volatile struct EDMA_tag *edma = mpc55xx_edma_by_tcd(edma_tcd); unsigned channel = edma_tcd - &edma->TCD[0]; edma->CDSBR.R = (uint8_t) channel; } static inline void mpc55xx_edma_clear_interrupts( volatile struct tcd_t *edma_tcd ) { volatile struct EDMA_tag *edma = mpc55xx_edma_by_tcd(edma_tcd); unsigned channel = edma_tcd - &edma->TCD[0]; edma->CIRQR.R = (uint8_t) channel; } static inline bool mpc55xx_edma_is_done( volatile struct tcd_t *edma_tcd ) { return edma_tcd->BMF.B.DONE; } #ifdef __cplusplus } #endif /* __cplusplus */ #endif /* LIBCPU_POWERPC_MPC55XX_EDMA_H */