/* * Copyright (c) 2020 Raspberry Pi (Trading) Ltd. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include "hardware/dma.h" #include "hardware/claim.h" #define DMA_CHAN_STRIDE (DMA_CH1_CTRL_TRIG_OFFSET - DMA_CH0_CTRL_TRIG_OFFSET) check_hw_size(dma_channel_hw_t, DMA_CHAN_STRIDE); check_hw_layout(dma_hw_t, abort, DMA_CHAN_ABORT_OFFSET); // sanity check static_assert(offsetof(dma_hw_t, ch[0].ctrl_trig) == DMA_CH0_CTRL_TRIG_OFFSET, "hw mismatch"); static_assert(offsetof(dma_hw_t, ch[1].ctrl_trig) == DMA_CH1_CTRL_TRIG_OFFSET, "hw mismatch"); static_assert(NUM_DMA_CHANNELS <= 16, ""); static uint16_t _claimed; static uint8_t _timer_claimed; void dma_channel_claim(uint channel) { check_dma_channel_param(channel); hw_claim_or_assert((uint8_t *) &_claimed, channel, "DMA channel %d is already claimed"); } void dma_claim_mask(uint32_t mask) { for(uint i = 0; mask; i++, mask >>= 1u) { if (mask & 1u) dma_channel_claim(i); } } void dma_channel_unclaim(uint channel) { check_dma_channel_param(channel); hw_claim_clear((uint8_t *) &_claimed, channel); } void dma_unclaim_mask(uint32_t mask) { for(uint i = 0; mask; i++, mask >>= 1u) { if (mask & 1u) dma_channel_unclaim(i); } } int dma_claim_unused_channel(bool required) { return hw_claim_unused_from_range((uint8_t*)&_claimed, required, 0, NUM_DMA_CHANNELS-1, "No DMA channels are available"); } bool dma_channel_is_claimed(uint channel) { check_dma_channel_param(channel); return hw_is_claimed((uint8_t *) &_claimed, channel); } void dma_timer_claim(uint timer) { check_dma_timer_param(timer); hw_claim_or_assert(&_timer_claimed, timer, "DMA timer %d is already claimed"); } void dma_timer_unclaim(uint timer) { check_dma_timer_param(timer); hw_claim_clear(&_timer_claimed, timer); } int dma_claim_unused_timer(bool required) { return hw_claim_unused_from_range(&_timer_claimed, required, 0, NUM_DMA_TIMERS-1, "No DMA timers are available"); } bool dma_timer_is_claimed(uint timer) { check_dma_timer_param(timer); return hw_is_claimed(&_timer_claimed, timer); } void dma_channel_cleanup(uint channel) { check_dma_channel_param(channel); // Disable CHAIN_TO, and disable channel, so that it ignores any further triggers hw_write_masked( &dma_hw->ch[channel].al1_ctrl, (channel << DMA_CH0_CTRL_TRIG_CHAIN_TO_LSB) | (0u << DMA_CH0_CTRL_TRIG_EN_LSB), DMA_CH0_CTRL_TRIG_CHAIN_TO_BITS | DMA_CH0_CTRL_TRIG_EN_BITS ); // disable IRQs first as abort can cause spurious IRQs dma_channel_set_irq0_enabled(channel, false); dma_channel_set_irq1_enabled(channel, false); dma_channel_abort(channel); // finally clear the IRQ status, which may have been set during abort dma_hw->intr = 1u << channel; } #ifndef NDEBUG void print_dma_ctrl(dma_channel_hw_t *channel) { uint32_t ctrl = channel->ctrl_trig; int rgsz = (ctrl & DMA_CH0_CTRL_TRIG_RING_SIZE_BITS) >> DMA_CH0_CTRL_TRIG_RING_SIZE_LSB; printf("(%08x) ber %d rer %d wer %d busy %d trq %d cto %d rgsl %d rgsz %d inw %d inr %d sz %d hip %d en %d", (uint) ctrl, ctrl & DMA_CH0_CTRL_TRIG_AHB_ERROR_BITS ? 1 : 0, ctrl & DMA_CH0_CTRL_TRIG_READ_ERROR_BITS ? 1 : 0, ctrl & DMA_CH0_CTRL_TRIG_WRITE_ERROR_BITS ? 1 : 0, ctrl & DMA_CH0_CTRL_TRIG_BUSY_BITS ? 1 : 0, (int) ((ctrl & DMA_CH0_CTRL_TRIG_TREQ_SEL_BITS) >> DMA_CH0_CTRL_TRIG_TREQ_SEL_LSB), (int) ((ctrl & DMA_CH0_CTRL_TRIG_CHAIN_TO_BITS) >> DMA_CH0_CTRL_TRIG_CHAIN_TO_LSB), ctrl & DMA_CH0_CTRL_TRIG_RING_SEL_BITS ? 1 : 0, rgsz ? (1 << rgsz) : 0, ctrl & DMA_CH0_CTRL_TRIG_INCR_WRITE_BITS ? 1 : 0, ctrl & DMA_CH0_CTRL_TRIG_INCR_READ_BITS ? 1 : 0, 1 << ((ctrl & DMA_CH0_CTRL_TRIG_DATA_SIZE_BITS) >> DMA_CH0_CTRL_TRIG_DATA_SIZE_LSB), ctrl & DMA_CH0_CTRL_TRIG_HIGH_PRIORITY_BITS ? 1 : 0, ctrl & DMA_CH0_CTRL_TRIG_EN_BITS ? 1 : 0); } #endif #if PARAM_ASSERTIONS_ENABLED(HARDWARE_DMA) void check_dma_channel_param_impl(uint __unused channel) { valid_params_if(HARDWARE_DMA, channel < NUM_DMA_CHANNELS); } #endif