diff --git a/arch/arm/src/s32k1xx/Kconfig b/arch/arm/src/s32k1xx/Kconfig index 57ee616db5..a011e6002c 100644 --- a/arch/arm/src/s32k1xx/Kconfig +++ b/arch/arm/src/s32k1xx/Kconfig @@ -200,6 +200,7 @@ menu "S32K1XX Peripheral Selection" config S32K1XX_EDMA bool "eDMA" default n + select ARCH_DMA config S32K1XX_ENET bool "Ethernet" diff --git a/arch/arm/src/s32k1xx/hardware/s32k1xx_dmamux.h b/arch/arm/src/s32k1xx/hardware/s32k1xx_dmamux.h index 577bb2d0e8..23de5b8c65 100644 --- a/arch/arm/src/s32k1xx/hardware/s32k1xx_dmamux.h +++ b/arch/arm/src/s32k1xx/hardware/s32k1xx_dmamux.h @@ -36,7 +36,7 @@ #if defined(CONFIG_ARCH_CHIP_S32K11X) # define S32K1XX_NDMACH 4 -#elif defined(CONFIG_ARCH_CHIP_S32K14X +#elif defined(CONFIG_ARCH_CHIP_S32K14X) # define S32K1XX_NDMACH 16 #endif diff --git a/arch/arm/src/s32k1xx/hardware/s32k1xx_edma.h b/arch/arm/src/s32k1xx/hardware/s32k1xx_edma.h index 1d8604584c..ff9bad7d4f 100644 --- a/arch/arm/src/s32k1xx/hardware/s32k1xx_edma.h +++ b/arch/arm/src/s32k1xx/hardware/s32k1xx_edma.h @@ -34,7 +34,7 @@ #if defined(CONFIG_ARCH_CHIP_S32K11X) # define S32K1XX_EDMA_NCHANNELS 4 -#elif defined(CONFIG_ARCH_CHIP_S32K14x) +#elif defined(CONFIG_ARCH_CHIP_S32K14X) # define S32K1XX_EDMA_NCHANNELS 16 #else # error "Unknown number of DMA channels for this S32K1xx part" @@ -837,8 +837,8 @@ * Public Types ****************************************************************************/ -/* In-memory representation of the 32-byte Transfer Control Descriptor - * (TCD) +/* Hardware representation of the 32-byte Transfer + * Control Descriptor (TCD) */ struct s32k1xx_edmatcd_s diff --git a/arch/arm/src/s32k1xx/hardware/s32k1xx_memorymap.h b/arch/arm/src/s32k1xx/hardware/s32k1xx_memorymap.h index dc7e6f5b62..e12dec7a5a 100644 --- a/arch/arm/src/s32k1xx/hardware/s32k1xx_memorymap.h +++ b/arch/arm/src/s32k1xx/hardware/s32k1xx_memorymap.h @@ -34,8 +34,8 @@ #define S32K1XX_AIPS_LITE_BASE 0x40000000 /* Peripheral bridge (AIPS-Lite) */ # define S32K1XX_FLASHCFG_BASE 0x40000400 /* FLASH Configuration bytes */ # define S32K1XX_MSCM_BASE 0x40001000 /* MSCM */ -# define S32K1XX_DMAC_BASE 0x40008000 /* DMA controller */ -# define S32K1XX_DMADESC_BASE 0x40008000 /* DMA transfer control descriptors */ +# define S32K1XX_EDMA_BASE 0x40008000 /* EDMA controller */ +# define S32K1XX_EDMADESC_BASE 0x40008000 /* EDMA transfer control descriptors */ # define S32K1XX_MPU_BASE 0x4000d000 /* MPU */ # define S32K1XX_GPIOCTL_BASE 0x4000f000 /* GPIO controller */ # define S32K1XX_GPIOALIAS_BASE 0x400ff000 /* GPIO controller (alias) */ diff --git a/arch/arm/src/s32k1xx/s32k1xx_edma.c b/arch/arm/src/s32k1xx/s32k1xx_edma.c index 1236b5fd9a..e0b0493ef3 100644 --- a/arch/arm/src/s32k1xx/s32k1xx_edma.c +++ b/arch/arm/src/s32k1xx/s32k1xx_edma.c @@ -86,22 +86,16 @@ */ #ifdef CONFIG_ARMV7M_DCACHE -/* Align to the cache line size which we assume is >= 8 */ - -# define EDMA_ALIGN ARMV7M_DCACHE_LINESIZE -# define EDMA_ALIGN_MASK (EDMA_ALIGN-1) -# define EDMA_ALIGN_UP(n) (((n) + EDMA_ALIGN_MASK) & ~EDMA_ALIGN_MASK) - +# define EDMA_ALIGN ARMV7M_DCACHE_LINESIZE #else -/* Special alignment is not required in this case, - * but we will align to 8-bytes - */ +/* 32 byte alignment for TCDs is required for scatter gather */ -# define EDMA_ALIGN 8 -# define EDMA_ALIGN_MASK 7 -# define EDMA_ALIGN_UP(n) (((n) + 7) & ~7) +#define EDMA_ALIGN 32 #endif +#define EDMA_ALIGN_MASK (EDMA_ALIGN - 1) +#define EDMA_ALIGN_UP(n) (((n) + EDMA_ALIGN_MASK) & ~EDMA_ALIGN_MASK) + /**************************************************************************** * Private Types ****************************************************************************/ @@ -119,10 +113,10 @@ enum s32k1xx_dmastate_e struct s32k1xx_dmach_s { - uint8_t chan; /* DMA channel number (0-S32K1XX_EDMA_NCHANNELS) */ - bool inuse; /* true: The DMA channel is in use */ - uint8_t ttype; /* Transfer type: M2M, M2P, P2M, or P2P */ - uint8_t state; /* Channel state. See enum s32k1xx_dmastate_e */ + uint8_t chan; /* DMA channel number (0-S32K1XX_EDMA_NCHANNELS) */ + bool inuse; /* true: The DMA channel is in use */ + uint8_t state; /* Channel state. See enum s32k1xx_dmastate_e */ + uint8_t dmamux; /* The DMAMUX channel selection */ uint32_t flags; /* DMA channel flags */ edma_callback_t callback; /* Callback invoked when the DMA completes */ void *arg; /* Argument passed to callback function */ @@ -338,18 +332,13 @@ static inline void s32k1xx_tcd_chanlink(uint8_t flags, if (linkch == NULL || flags == EDMA_CONFIG_LINKTYPE_LINKNONE) { -#if 0 /* Already done */ /* No link or no link channel provided */ - /* Disable minor links */ - - tcd->citer &= ~EDMA_TCD_CITER_ELINK; - tcd->biter &= ~EDMA_TCD_BITER_ELINK; + /* Disable minor links is done in s32k1xx_tcd_configure */ /* Disable major link */ tcd->csr &= ~EDMA_TCD_CSR_MAJORELINK; -#endif } else if (flags == EDMA_CONFIG_LINKTYPE_MINORLINK) /* Minor link config */ { @@ -405,13 +394,16 @@ static inline void s32k1xx_tcd_configure(struct s32k1xx_edmatcd_s *tcd, tcd->attr = EDMA_TCD_ATTR_SSIZE(config->ssize) | /* Transfer Attributes */ EDMA_TCD_ATTR_DSIZE(config->dsize); tcd->nbytes = config->nbytes; - tcd->slast = tcd->slast; + tcd->slast = config->flags & EDMA_CONFIG_LOOPSRC ? -config->iter : 0; tcd->daddr = config->daddr; tcd->doff = config->doff; tcd->citer = config->iter & EDMA_TCD_CITER_CITER_MASK; tcd->biter = config->iter & EDMA_TCD_BITER_BITER_MASK; - tcd->csr = EDMA_TCD_CSR_DREQ; /* Assume last transfer */ - tcd->dlastsga = 0; + tcd->csr = config->flags & EDMA_CONFIG_LOOP_MASK ? + 0 : EDMA_TCD_CSR_DREQ; + tcd->csr |= config->flags & EDMA_CONFIG_INTHALF ? + EDMA_TCD_CSR_INTHALF : 0; + tcd->dlastsga = config->flags & EDMA_CONFIG_LOOPDEST ? -config->iter : 0; /* And special case flags */ @@ -440,6 +432,10 @@ static void s32k1xx_tcd_instantiate(struct s32k1xx_dmach_s *dmach, /* Push tcd into hardware TCD register */ + /* Clear DONE bit first, otherwise ESG cannot be set */ + + putreg16(0, base + S32K1XX_EDMA_TCD_CSR_OFFSET); + putreg32(tcd->saddr, base + S32K1XX_EDMA_TCD_SADDR_OFFSET); putreg16(tcd->soff, base + S32K1XX_EDMA_TCD_SOFF_OFFSET); putreg16(tcd->attr, base + S32K1XX_EDMA_TCD_ATTR_OFFSET); @@ -450,9 +446,6 @@ static void s32k1xx_tcd_instantiate(struct s32k1xx_dmach_s *dmach, putreg16(tcd->citer, base + S32K1XX_EDMA_TCD_CITER_ELINK_OFFSET); putreg32(tcd->dlastsga, base + S32K1XX_EDMA_TCD_DLASTSGA_OFFSET); - /* Clear DONE bit first, otherwise ESG cannot be set */ - - putreg16(0, base + S32K1XX_EDMA_TCD_CSR_OFFSET); putreg16(tcd->csr, base + S32K1XX_EDMA_TCD_CSR_OFFSET); putreg16(tcd->biter, base + S32K1XX_EDMA_TCD_BITER_ELINK_OFFSET); @@ -488,25 +481,25 @@ static void s32k1xx_dmaterminate(struct s32k1xx_dmach_s *dmach, int result) regval8 = EDMA_CERQ(chan); putreg8(regval8, S32K1XX_EDMA_CERQ); - /* Clear CSR to disable channel. Because if the given channel started, - * transfer CSR will be not zero. Because if it is the last transfer, DREQ - * will be set. If not, ESG will be set. - */ - regaddr = S32K1XX_EDMA_TCD_CSR(chan); putreg16(0, regaddr); /* Cancel next TCD transfer. */ regaddr = S32K1XX_EDMA_TCD_DLASTSGA(chan); - putreg16(0, regaddr); + putreg32(0, regaddr); #if CONFIG_S32K1XX_EDMA_NTCD > 0 /* Return all allocated TCDs to the free list */ for (tcd = dmach->head; tcd != NULL; tcd = next) { - next = (struct s32k1xx_edmatcd_s *)tcd->dlastsga; + /* If channel looped to itself we are done + * if not continue to free tcds in chain + */ + + next = dmach->flags & EDMA_CONFIG_LOOPDEST ? + NULL : (struct s32k1xx_edmatcd_s *)tcd->dlastsga; s32k1xx_tcd_free(tcd); } @@ -514,15 +507,6 @@ static void s32k1xx_dmaterminate(struct s32k1xx_dmach_s *dmach, int result) dmach->tail = NULL; #endif - /* Check for an Rx (memory-to-peripheral/memory-to-memory) DMA transfer */ - - if (dmach->ttype == EMDA_MEM2MEM || dmach->ttype == EMDA_PERIPH2MEM) - { - /* Invalidate the cache to force reloads from memory. */ - -#warning Missing logic - } - /* Perform the DMA complete callback */ if (dmach->callback) @@ -556,13 +540,13 @@ static int s32k1xx_edma_interrupt(int irq, void *context, void *arg) { struct s32k1xx_dmach_s *dmach; uintptr_t regaddr; - uint32_t regval32; - uint16_t regval16; - uint8_t regval8; - uint8_t chan; - int result; + uint32_t regval32; + uint16_t regval16; + uint8_t regval8; + uint8_t chan; + int result; - /* 'arg' should the DMA channel instance. */ + /* 'arg' should be the DMA channel instance. */ dmach = (struct s32k1xx_dmach_s *)arg; DEBUGASSERT(dmach != NULL); @@ -584,7 +568,7 @@ static int s32k1xx_edma_interrupt(int irq, void *context, void *arg) /* Clear the pending eDMA channel interrupt */ regval8 = EDMA_CINT(chan); - putreg32(regval8, S32K1XX_EDMA_CINT); + putreg8(regval8, S32K1XX_EDMA_CINT); /* Get the eDMA TCD Control and Status register value. */ @@ -604,7 +588,7 @@ static int s32k1xx_edma_interrupt(int irq, void *context, void *arg) else { #if CONFIG_S32K1XX_EDMA_NTCD > 0 - /* Perform the end-of-major-cycle DMA callback */ + /* Perform the half or end-of-major-cycle DMA callback */ if (dmach->callback != NULL) { @@ -612,7 +596,7 @@ static int s32k1xx_edma_interrupt(int irq, void *context, void *arg) false, OK); } - return; + return OK; #else /* Otherwise the interrupt was not expected! */ @@ -623,8 +607,18 @@ static int s32k1xx_edma_interrupt(int irq, void *context, void *arg) /* Terminate the transfer when it is done. */ - s32k1xx_dmaterminate(dmach, result); + if ((dmach->flags & EDMA_CONFIG_LOOP_MASK) == 0) + { + s32k1xx_dmaterminate(dmach, result); + } + else if (dmach->callback != NULL) + { + dmach->callback((DMACH_HANDLE)dmach, dmach->arg, + true, result); + } } + + return OK; } /**************************************************************************** @@ -661,7 +655,7 @@ static int s32k1xx_error_interrupt(int irq, void *context, void *arg) /* Clear the pending error interrupt status. */ regval8 = EDMA_CERR(chan); - putreg32(regval8, S32K1XX_EDMA_CERR); + putreg8(regval8, S32K1XX_EDMA_CERR); /* Remove the bit from the sample ERR register so that perhaps we * can exit this loop early. @@ -755,24 +749,12 @@ void weak_function arm_dma_initialize(void) /* Attach DMA interrupt vectors. */ - irq_attach(S32K1XX_IRQ_DMACH0, s32k1xx_edma_interrupt, &g_edma.dmach[0]); - irq_attach(S32K1XX_IRQ_DMACH1, s32k1xx_edma_interrupt, &g_edma.dmach[1]); - irq_attach(S32K1XX_IRQ_DMACH2, s32k1xx_edma_interrupt, &g_edma.dmach[2]); - irq_attach(S32K1XX_IRQ_DMACH3, s32k1xx_edma_interrupt, &g_edma.dmach[3]); -#if S32K1XX_EDMA_NCHANNELS > 4 - irq_attach(S32K1XX_IRQ_DMACH4, s32k1xx_edma_interrupt, &g_edma.dmach[4]); - irq_attach(S32K1XX_IRQ_DMACH5, s32k1xx_edma_interrupt, &g_edma.dmach[5]); - irq_attach(S32K1XX_IRQ_DMACH6, s32k1xx_edma_interrupt, &g_edma.dmach[6]); - irq_attach(S32K1XX_IRQ_DMACH7, s32k1xx_edma_interrupt, &g_edma.dmach[7]); - irq_attach(S32K1XX_IRQ_DMACH8, s32k1xx_edma_interrupt, &g_edma.dmach[8]); - irq_attach(S32K1XX_IRQ_DMACH9, s32k1xx_edma_interrupt, &g_edma.dmach[9]); - irq_attach(S32K1XX_IRQ_DMACH10, s32k1xx_edma_interrupt, &g_edma.dmach[10]); - irq_attach(S32K1XX_IRQ_DMACH11, s32k1xx_edma_interrupt, &g_edma.dmach[11]); - irq_attach(S32K1XX_IRQ_DMACH12, s32k1xx_edma_interrupt, &g_edma.dmach[12]); - irq_attach(S32K1XX_IRQ_DMACH13, s32k1xx_edma_interrupt, &g_edma.dmach[13]); - irq_attach(S32K1XX_IRQ_DMACH14, s32k1xx_edma_interrupt, &g_edma.dmach[14]); - irq_attach(S32K1XX_IRQ_DMACH15, s32k1xx_edma_interrupt, &g_edma.dmach[15]); -#endif + for (i = 0; i < S32K1XX_EDMA_NCHANNELS; i++) + { + irq_attach(S32K1XX_IRQ_DMACH0 + i, + s32k1xx_edma_interrupt, &g_edma.dmach[i]); + } + /* Attach the DMA error interrupt vector */ irq_attach(S32K1XX_IRQ_DMACH_ERR, s32k1xx_error_interrupt, NULL); @@ -790,6 +772,14 @@ void weak_function arm_dma_initialize(void) regaddr = S32K1XX_EDMA_TCD_CSR(i); putreg16(0, regaddr); + + /* Set all TCD entries to 0 so that biter and citer + * will be 0 when DONE is not set so that s32k1xx_dmach_getcount + * reports 0. + */ + + memset((void *)S32K1XX_EDMA_TCD_BASE(i), 0, + sizeof(struct s32k1xx_edmatcd_s)); } /* Clear all pending DMA channel interrupts */ @@ -800,24 +790,10 @@ void weak_function arm_dma_initialize(void) * controller). */ - up_enable_irq(S32K1XX_IRQ_DMACH0); - up_enable_irq(S32K1XX_IRQ_DMACH1); - up_enable_irq(S32K1XX_IRQ_DMACH2); - up_enable_irq(S32K1XX_IRQ_DMACH3); -#if S32K1XX_EDMA_NCHANNELS > 4 - up_enable_irq(S32K1XX_IRQ_DMACH4); - up_enable_irq(S32K1XX_IRQ_DMACH5); - up_enable_irq(S32K1XX_IRQ_DMACH6); - up_enable_irq(S32K1XX_IRQ_DMACH7); - up_enable_irq(S32K1XX_IRQ_DMACH8); - up_enable_irq(S32K1XX_IRQ_DMACH9); - up_enable_irq(S32K1XX_IRQ_DMACH10); - up_enable_irq(S32K1XX_IRQ_DMACH11); - up_enable_irq(S32K1XX_IRQ_DMACH12); - up_enable_irq(S32K1XX_IRQ_DMACH13); - up_enable_irq(S32K1XX_IRQ_DMACH14); - up_enable_irq(S32K1XX_IRQ_DMACH15); -#endif + for (i = 0; i < S32K1XX_EDMA_NCHANNELS; i++) + { + up_enable_irq(S32K1XX_IRQ_DMACH0 + i); + } /* Enable the DMA error interrupt */ @@ -837,7 +813,6 @@ void weak_function arm_dma_initialize(void) * Settings include: * * DMAMUX_CHCFG_SOURCE Chip-specific DMA source (required) - * DMAMUX_CHCFG_AON DMA Channel Always Enable (optional) * DMAMUX_CHCFG_TRIG DMA Channel Trigger Enable (optional) * DMAMUX_CHCFG_ENBL DMA Mux Channel Enable (required) * @@ -858,7 +833,7 @@ void weak_function arm_dma_initialize(void) * ****************************************************************************/ -DMACH_HANDLE s32k1xx_dmach_alloc(uint32_t dmamux, uint8_t dchpri) +DMACH_HANDLE s32k1xx_dmach_alloc(uint8_t dmamux, uint8_t dchpri) { struct s32k1xx_dmach_s *dmach; unsigned int chndx; @@ -884,6 +859,7 @@ DMACH_HANDLE s32k1xx_dmach_alloc(uint32_t dmamux, uint8_t dchpri) dmach = candidate; dmach->inuse = true; dmach->state = S32K1XX_DMA_IDLE; + dmach->dmamux = dmamux; /* Clear any pending interrupts on the channel */ @@ -896,10 +872,9 @@ DMACH_HANDLE s32k1xx_dmach_alloc(uint32_t dmamux, uint8_t dchpri) regval8 = EDMA_CERQ(chndx); putreg8(regval8, S32K1XX_EDMA_CERQ); - /* Set the DMAMUX register associated with this channel */ + /* Disable the associated DMAMUX for now */ - regaddr = S32K1XX_DMAMUX_CHCFG(chndx); - putreg32(dmamux, regaddr); + putreg8(0, S32K1XX_DMAMUX_CHCFG(chndx)); break; } } @@ -936,7 +911,6 @@ DMACH_HANDLE s32k1xx_dmach_alloc(uint32_t dmamux, uint8_t dchpri) void s32k1xx_dmach_free(DMACH_HANDLE handle) { struct s32k1xx_dmach_s *dmach = (struct s32k1xx_dmach_s *)handle; - uintptr_t regaddr; uint8_t regval8; dmainfo("dmach: %p\n", dmach); @@ -958,8 +932,7 @@ void s32k1xx_dmach_free(DMACH_HANDLE handle) /* Disable the associated DMAMUX */ - regaddr = S32K1XX_DMAMUX_CHCFG(dmach->chan); - putreg32(0, regaddr); + putreg8(0, S32K1XX_DMAMUX_CHCFG(dmach->chan)); } /**************************************************************************** @@ -995,12 +968,16 @@ int s32k1xx_dmach_xfrsetup(DMACH_HANDLE *handle, #if CONFIG_S32K1XX_EDMA_NTCD > 0 struct s32k1xx_edmatcd_s *tcd; struct s32k1xx_edmatcd_s *prev; + uint16_t mask = config->flags & EDMA_CONFIG_INTMAJOR ? 0 : + EDMA_TCD_CSR_INTMAJOR; #endif uintptr_t regaddr; uint16_t regval16; DEBUGASSERT(dmach != NULL); - dmainfo("dmach%u: %p config: %p\n", dmach, config); + dmainfo("dmach%u: %p config: %p\n", dmach->chan, dmach, config); + + dmach->flags = config->flags; #if CONFIG_S32K1XX_EDMA_NTCD > 0 /* Scatter/gather DMA is supported */ @@ -1029,7 +1006,6 @@ int s32k1xx_dmach_xfrsetup(DMACH_HANDLE *handle, dmach->head = tcd; dmach->tail = tcd; - dmach->ttype = config->ttype; /* And instantiate the first TCD in the DMA channel TCD registers. */ @@ -1037,11 +1013,9 @@ int s32k1xx_dmach_xfrsetup(DMACH_HANDLE *handle, } else { - /* Cannot mix transfer types (only because of cache-related operations. - * this restriction could be removed with some effort). - */ + /* Cannot mix transfer types */ - if (dmach->ttype != config->ttype) + if (dmach->flags & EDMA_CONFIG_LOOP_MASK) { s32k1xx_tcd_free(tcd); return -EINVAL; @@ -1053,8 +1027,9 @@ int s32k1xx_dmach_xfrsetup(DMACH_HANDLE *handle, prev = dmach->tail; regval16 = prev->csr; - regval16 &= ~EDMA_TCD_CSR_DREQ; + regval16 &= ~(EDMA_TCD_CSR_DREQ | mask); regval16 |= EDMA_TCD_CSR_ESG; + prev->csr = regval16; prev->dlastsga = (uint32_t)tcd; @@ -1076,7 +1051,7 @@ int s32k1xx_dmach_xfrsetup(DMACH_HANDLE *handle, regaddr = S32K1XX_EDMA_TCD_CSR(dmach->chan); regval16 = getreg16(regaddr); - regval16 &= ~EDMA_TCD_CSR_DREQ; + regval16 &= ~(EDMA_TCD_CSR_DREQ | mask); regval16 |= EDMA_TCD_CSR_ESG; putreg16(regval16, regaddr); @@ -1115,34 +1090,9 @@ int s32k1xx_dmach_xfrsetup(DMACH_HANDLE *handle, modifyreg16(regaddr, 0, EDMA_TCD_CSR_INTMAJOR); #endif - /* Check for an Rx (memory-to-peripheral/memory-to-memory) DMA transfer */ + /* Set the DMAMUX source and enable and optional trigger */ - if (dmach->ttype == EMDA_MEM2MEM || dmach->ttype == EMDA_PERIPH2MEM) - { - /* Invalidate caches associated with the destination DMA memory. - * REVISIT: nbytes is the number of bytes transferred on each - * minor loop. The following is only valid when the major loop - * is one. - */ - - up_invalidate_dcache((uintptr_t)config->daddr, - (uintptr_t)config->daddr + config->nbytes); - } - - /* Check for an Tx (peripheral-to-memory/memory-to-memory) DMA transfer */ - - if (dmach->ttype == EMDA_MEM2MEM || dmach->ttype == EMDA_MEM2PERIPH) - { - /* Clean caches associated with the source DMA memory. - * REVISIT: nbytes is the number of bytes transferred on each - * minor loop. The following is only valid when the major loop - * is one. - */ -#warning Missing logic - - up_clean_dcache((uintptr_t)config->saddr, - (uintptr_t)config->saddr + config->nbytes); - } + putreg8(dmach->dmamux, S32K1XX_DMAMUX_CHCFG(dmach->chan)); dmach->state = S32K1XX_DMA_CONFIGURED; return OK; @@ -1155,10 +1105,10 @@ int s32k1xx_dmach_xfrsetup(DMACH_HANDLE *handle, * Start the DMA transfer. This function should be called after the final * call to s32k1xx_dmach_xfrsetup() in order to avoid race conditions. * - * At the conclusion of each major DMA loop, a callback to the user - * provided function is made: |For "normal" DMAs, this will correspond to - * the DMA DONE interrupt; for scatter gather DMAs, multiple interrupts - * will be generated with the final being the DONE interrupt. + * At the conclusion of each major DMA loop, a callback to + * the user-provided function is made: For "normal" DMAs, this will + * correspond to the DMA DONE interrupt; for scatter gather DMAs, + * this will be generated with the final TCD. * * At the conclusion of the DMA, the DMA channel is reset, all TCDs are * freed, and the callback function is called with the the success/fail @@ -1191,14 +1141,13 @@ int s32k1xx_dmach_start(DMACH_HANDLE handle, edma_callback_t callback, DEBUGASSERT(dmach != NULL && dmach->state == S32K1XX_DMA_CONFIGURED); chan = dmach->chan; - dmainfo("dmach%u: %p callback: %p arg: %p\n", dmach, chan, callback, arg); + dmainfo("dmach%u: %p callback: %p arg: %p\n", chan, dmach, callback, arg); /* Save the callback info. This will be invoked when the DMA completes */ flags = spin_lock_irqsave(NULL); dmach->callback = callback; dmach->arg = arg; - dmach->state = S32K1XX_DMA_ACTIVE; #if CONFIG_S32K1XX_EDMA_NTCD > 0 /* Although it is not recommended, it might be possible to call this @@ -1208,6 +1157,8 @@ int s32k1xx_dmach_start(DMACH_HANDLE handle, edma_callback_t callback, if (dmach->state != S32K1XX_DMA_ACTIVE) #endif { + dmach->state = S32K1XX_DMA_ACTIVE; + /* Enable channel ERROR interrupts */ regval8 = EDMA_SEEI(chan); @@ -1216,7 +1167,7 @@ int s32k1xx_dmach_start(DMACH_HANDLE handle, edma_callback_t callback, /* Enable the DMA request for this channel */ regval8 = EDMA_SERQ(chan); - putreg8(regval8, S32K1XX_EDMA_SERQ_OFFSET); + putreg8(regval8, S32K1XX_EDMA_SERQ); } spin_unlock_irqrestore(NULL, flags); diff --git a/arch/arm/src/s32k1xx/s32k1xx_edma.h b/arch/arm/src/s32k1xx/s32k1xx_edma.h index cd29a6d4e2..ac85a0a03f 100644 --- a/arch/arm/src/s32k1xx/s32k1xx_edma.h +++ b/arch/arm/src/s32k1xx/s32k1xx_edma.h @@ -122,6 +122,18 @@ # define EDMA_CONFIG_LINKTYPE_MINORLINK (1 << EDMA_CONFIG_LINKTYPE_SHIFT) /* Channel link after each minor loop */ # define EDMA_CONFIG_LINKTYPE_MAJORLINK (2 << EDMA_CONFIG_LINKTYPE_SHIFT) /* Channel link when major loop count exhausted */ +#define EDMA_CONFIG_LOOP_SHIFT (2) /* Bits 2-3: Loop type */ +#define EDMA_CONFIG_LOOP_MASK (3 << EDMA_CONFIG_LOOP_SHIFT) +# define EDMA_CONFIG_LOOPNONE (0 << EDMA_CONFIG_LOOP_SHIFT) /* No looping */ +# define EDMA_CONFIG_LOOPSRC (1 << EDMA_CONFIG_LOOP_SHIFT) /* Source looping */ +# define EDMA_CONFIG_LOOPDEST (2 << EDMA_CONFIG_LOOP_SHIFT) /* Dest looping */ + +#define EDMA_CONFIG_INTHALF (1 << 4) /* Bits 4: Int on HALF */ +#define EDMA_CONFIG_INTMAJOR (1 << 5) /* Bits 5: Int on all Major completion + * Default is only on last completion + * if using scatter gather + */ + /**************************************************************************** * Public Types ****************************************************************************/ @@ -130,19 +142,19 @@ typedef void *DMACH_HANDLE; typedef void (*edma_callback_t)(DMACH_HANDLE handle, void *arg, bool done, int result); -/* eDMA transfer type */ - -enum s32k1xx_edma_xfrtype_e -{ - EDMA_MEM2MEM = 0, /* Transfer from memory to memory */ - EDMA_PERIPH2MEM, /* Transfer from peripheral to memory */ - EDMA_MEM2PERIPH, /* Transfer from memory to peripheral */ -}; - /* This structure holds the source/destination transfer attribute * configuration. */ +/* eDMA transfer sizes */ + +enum s32k1xx_edma_sizes_e +{ + EDMA_8BIT = 0, /* Transfer data size 8 */ + EDMA_16BIT = 1, /* Transfer data size 16 */ + EDMA_32BIT = 2, /* Transfer data size 32 */ +}; + struct s32k1xx_edma_xfrconfig_s { uint32_t saddr; /* Source data address. */ @@ -153,7 +165,6 @@ struct s32k1xx_edma_xfrconfig_s uint8_t flags; /* See EDMA_CONFIG_* definitions */ uint8_t ssize; /* Source data transfer size (see TCD_ATTR_SIZE_* definitions in rdware/. */ uint8_t dsize; /* Destination data transfer size. */ - uint8_t ttype; /* Transfer type (see enum s32k1xx_edma_xfrtype_e). */ #ifdef CONFIG_S32K1XX_EDMA_EMLIM uint16_t nbytes; /* Bytes to transfer in a minor loop */ #else @@ -264,7 +275,7 @@ extern "C" * ****************************************************************************/ -DMACH_HANDLE s32k1xx_dmach_alloc(uint32_t dmamux, uint8_t dchpri); +DMACH_HANDLE s32k1xx_dmach_alloc(uint8_t dmamux, uint8_t dchpri); /**************************************************************************** * Name: s32k1xx_dmach_free