/* Copyright 2016 The Chromium OS Authors. All rights reserved. * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "common.h" #include "console.h" #include "dma.h" #include "hooks.h" #include "registers.h" #include "task.h" #include "timer.h" #include "util.h" /* Console output macros */ #define CPUTS(outstr) cputs(CC_DMA, outstr) #define CPRINTF(format, args...) cprintf(CC_DMA, format, ## args) #define CPRINTS(format, args...) cprints(CC_DMA, format, ## args) stm32_dma_regs_t *STM32_DMA_REGS[] = { STM32_DMA1_REGS, STM32_DMA2_REGS }; /* Callback data to use when IRQ fires */ static struct { void (*cb)(void *); /* Callback function to call */ void *cb_data; /* Callback data for callback function */ } dma_irq[STM32_DMAS_TOTAL_COUNT]; /** * Return the IRQ for the DMA stream * * @param stream stream number * @return IRQ for the stream */ static int dma_get_irq(enum dma_channel stream) { if (stream < STM32_DMA1_STREAM6) return STM32_IRQ_DMA1_STREAM0 + stream; if (stream == STM32_DMA1_STREAM7) return STM32_IRQ_DMA1_STREAM7; if (stream < STM32_DMA2_STREAM5) return STM32_IRQ_DMA2_STREAM0 + stream - STM32_DMA2_STREAM0; else return STM32_IRQ_DMA2_STREAM5 + stream - STM32_DMA2_STREAM5; } stm32_dma_regs_t *dma_get_ctrl(enum dma_channel stream) { return STM32_DMA_REGS[stream / STM32_DMAS_COUNT]; } stm32_dma_stream_t *dma_get_channel(enum dma_channel stream) { stm32_dma_regs_t *dma = dma_get_ctrl(stream); return &dma->stream[stream % STM32_DMAS_COUNT]; } #ifdef CHIP_FAMILY_STM32H7 void dma_select_channel(enum dma_channel channel, uint8_t req) { STM2_DMAMUX_CxCR(DMAMUX1, channel) = req; } #endif void dma_disable(enum dma_channel ch) { stm32_dma_stream_t *stream = dma_get_channel(ch); if (stream->scr & STM32_DMA_CCR_EN) { stream->scr &= ~STM32_DMA_CCR_EN; while (stream->scr & STM32_DMA_CCR_EN) ; } } void dma_disable_all(void) { int ch; for (ch = 0; ch < STM32_DMAS_TOTAL_COUNT; ch++) dma_disable(ch); } /** * Prepare a stream for use and start it * * @param stream stream to read * @param count Number of bytes to transfer * @param periph Pointer to peripheral data register * @param memory Pointer to memory address for receive/transmit * @param flags DMA flags for the control register. */ static void prepare_stream(enum dma_channel stream, unsigned count, void *periph, void *memory, unsigned flags) { stm32_dma_stream_t *dma_stream = dma_get_channel(stream); uint32_t ccr = STM32_DMA_CCR_PL_VERY_HIGH; dma_disable(stream); dma_clear_isr(stream); /* Following the order in DocID026448 Rev 1 (RM0383) p181 */ dma_stream->spar = (uint32_t)periph; dma_stream->sm0ar = (uint32_t)memory; dma_stream->sndtr = count; dma_stream->scr = ccr; ccr |= flags & STM32_DMA_CCR_CHANNEL_MASK; dma_stream->scr = ccr; dma_stream->sfcr &= ~STM32_DMA_SFCR_DMDIS; ccr |= flags; dma_stream->scr = ccr; } void dma_go(stm32_dma_stream_t *stream) { /* Flush data in write buffer so that DMA can get the latest data */ asm volatile("dsb;"); /* Fire it up */ stream->scr |= STM32_DMA_CCR_EN; } void dma_prepare_tx(const struct dma_option *option, unsigned count, const void *memory) { /* * Cast away const for memory pointer; this is ok because we know * we're preparing the stream for transmit. */ prepare_stream(option->channel, count, option->periph, (void *)memory, STM32_DMA_CCR_MINC | STM32_DMA_CCR_DIR_M2P | option->flags); } void dma_start_rx(const struct dma_option *option, unsigned count, void *memory) { stm32_dma_stream_t *stream = dma_get_channel(option->channel); prepare_stream(option->channel, count, option->periph, memory, STM32_DMA_CCR_MINC | STM32_DMA_CCR_DIR_P2M | option->flags); dma_go(stream); } int dma_bytes_done(stm32_dma_stream_t *stream, int orig_count) { /* * Note that we're intentionally not checking that DMA is enabled here * because there is a race when the hardware stops the transfer: * * From Section 9.3.14 DMA transfer completion in RM0402 Rev 5 * https://www.st.com/resource/en/reference_manual/dm00180369.pdf: * If the stream is configured in non-circular mode, after the end of * the transfer (that is when the number of data to be transferred * reaches zero), the DMA is stopped (EN bit in DMA_SxCR register is * cleared by Hardware) and no DMA request is served unless the software * reprograms the stream and re-enables it (by setting the EN bit in the * DMA_SxCR register). * * See http://b/132444384 for full details. */ return orig_count - stream->sndtr; } bool dma_is_enabled(stm32_dma_stream_t *stream) { return (stream->scr & STM32_DMA_CCR_EN); } #ifdef CONFIG_DMA_HELP void dma_dump(enum dma_channel stream) { stm32_dma_stream_t *dma_stream = dma_get_channel(stream); CPRINTF("scr=%x, sndtr=%x, spar=%x, sm0ar=%x, sfcr=%x\n", dma_stream->scr, dma_stream->sndtr, dma_stream->spar, dma_stream->sm0ar, dma_stream->sfcr); CPRINTF("stream %d, isr=%x, ifcr=%x\n", stream, STM32_DMA_GET_ISR(stream), STM32_DMA_GET_IFCR(stream)); } void dma_check(enum dma_channel stream, char *buf) { stm32_dma_stream_t *dma_stream = dma_get_channel(stream); int count; int i; count = dma_stream->sndtr; CPRINTF("c=%d\n", count); udelay(100 * MSEC); CPRINTF("c=%d\n", dma_stream->sndtr); for (i = 0; i < count; i++) CPRINTF("%02x ", buf[i]); udelay(100 * MSEC); CPRINTF("c=%d\n", dma_stream->sndtr); for (i = 0; i < count; i++) CPRINTF("%02x ", buf[i]); } /* Run a check of memory-to-memory DMA */ void dma_test(enum dma_channel stream) { stm32_dma_stream_t *dma_stream = dma_get_channel(stream); uint32_t ctrl; char periph[32], memory[32]; unsigned count = sizeof(periph); int i; memset(memory, '\0', sizeof(memory)); for (i = 0; i < count; i++) periph[i] = 10 + i; dma_clear_isr(stream); /* Following the order in Doc ID 15965 Rev 5 p194 */ dma_stream->spar = (uint32_t)periph; dma_stream->sm0ar = (uint32_t)memory; dma_stream->sndtr = count; dma_stream->sfcr &= ~STM32_DMA_SFCR_DMDIS; ctrl = STM32_DMA_CCR_PL_MEDIUM; dma_stream->scr = ctrl; ctrl |= STM32_DMA_CCR_MINC; ctrl |= STM32_DMA_CCR_DIR_M2M; ctrl |= STM32_DMA_CCR_PINC; dma_stream->scr = ctrl; dma_dump(stream); dma_stream->scr = ctrl | STM32_DMA_CCR_EN; for (i = 0; i < count; i++) CPRINTF("%d/%d ", periph[i], memory[i]); CPRINTF("\ncount=%d\n", dma_stream->sndtr); dma_dump(stream); } #endif /* CONFIG_DMA_HELP */ void dma_init(void) { STM32_RCC_AHB1ENR |= STM32_RCC_HB1_DMA1 | STM32_RCC_HB1_DMA2; } int dma_wait(enum dma_channel stream) { timestamp_t deadline; deadline.val = get_time().val + DMA_TRANSFER_TIMEOUT_US; while ((STM32_DMA_GET_ISR(stream) & STM32_DMA_TCIF) == 0) { if (deadline.val <= get_time().val) return EC_ERROR_TIMEOUT; udelay(DMA_POLLING_INTERVAL_US); } return EC_SUCCESS; } static inline void _dma_wake_callback(void *cb_data) { task_id_t id = (task_id_t)(int)cb_data; if (id != TASK_ID_INVALID) task_set_event(id, TASK_EVENT_DMA_TC, 0); } void dma_enable_tc_interrupt(enum dma_channel stream) { dma_enable_tc_interrupt_callback(stream, _dma_wake_callback, (void *)(int)task_get_current()); } void dma_enable_tc_interrupt_callback(enum dma_channel stream, void (*callback)(void *), void *callback_data) { stm32_dma_stream_t *dma_stream = dma_get_channel(stream); dma_irq[stream].cb = callback; dma_irq[stream].cb_data = callback_data; dma_stream->scr |= STM32_DMA_CCR_TCIE; task_enable_irq(dma_get_irq(stream)); } void dma_disable_tc_interrupt(enum dma_channel stream) { stm32_dma_stream_t *dma_stream = dma_get_channel(stream); dma_stream->scr &= ~STM32_DMA_CCR_TCIE; task_disable_irq(dma_get_irq(stream)); dma_irq[stream].cb = NULL; dma_irq[stream].cb_data = NULL; } void dma_clear_isr(enum dma_channel stream) { STM32_DMA_SET_IFCR(stream, STM32_DMA_ALL); } #ifdef CONFIG_DMA_DEFAULT_HANDLERS #define STM32_DMA_IDX(dma, x) CONCAT4(STM32_DMA, dma, _STREAM, x) #define STM32_DMA_FCT(dma, x) CONCAT4(dma_, dma, _event_interrupt_stream_, x) #define DECLARE_DMA_IRQ(dma, x) \ void STM32_DMA_FCT(dma, x)(void) \ { \ dma_clear_isr(STM32_DMA_IDX(dma, x)); \ if (dma_irq[STM32_DMA_IDX(dma, x)].cb != NULL) \ (*dma_irq[STM32_DMA_IDX(dma, x)].cb) \ (dma_irq[STM32_DMA_IDX(dma, x)].cb_data); \ } \ DECLARE_IRQ(CONCAT4(STM32_IRQ_DMA, dma, _STREAM, x), \ STM32_DMA_FCT(dma, x), 1); DECLARE_DMA_IRQ(1, 0); DECLARE_DMA_IRQ(1, 1); DECLARE_DMA_IRQ(1, 2); DECLARE_DMA_IRQ(1, 3); DECLARE_DMA_IRQ(1, 4); DECLARE_DMA_IRQ(1, 5); DECLARE_DMA_IRQ(1, 6); DECLARE_DMA_IRQ(1, 7); DECLARE_DMA_IRQ(2, 0); DECLARE_DMA_IRQ(2, 1); DECLARE_DMA_IRQ(2, 2); DECLARE_DMA_IRQ(2, 3); DECLARE_DMA_IRQ(2, 4); DECLARE_DMA_IRQ(2, 5); DECLARE_DMA_IRQ(2, 6); DECLARE_DMA_IRQ(2, 7); #endif /* CONFIG_DMA_DEFAULT_HANDLERS */