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iDMA: Add 2D support in hardware, tune interconnect
--------- Co-authored-by: Alessandro Ottaviano <[email protected]>
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// Copyright 2022 ETH Zurich and University of Bologna. | ||
// Licensed under the Apache License, Version 2.0, see LICENSE for details. | ||
// SPDX-License-Identifier: Apache-2.0 | ||
// | ||
// Alessandro Ottaviano <[email protected]> | ||
// Thomas Benz <[email protected]> | ||
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#include <stdint.h> | ||
#include "regs/idma.h" | ||
#include "params.h" | ||
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#define DMA_SRC_ADDR(BASE) ((void *)BASE + IDMA_REG64_2D_FRONTEND_SRC_ADDR_REG_OFFSET) | ||
#define DMA_DST_ADDR(BASE) ((void *)BASE + IDMA_REG64_2D_FRONTEND_DST_ADDR_REG_OFFSET) | ||
#define DMA_NUMBYTES_ADDR(BASE) ((void *)BASE + IDMA_REG64_2D_FRONTEND_NUM_BYTES_REG_OFFSET) | ||
#define DMA_CONF_ADDR(BASE) ((void *)BASE + IDMA_REG64_2D_FRONTEND_CONF_REG_OFFSET) | ||
#define DMA_STATUS_ADDR(BASE) ((void *)BASE + IDMA_REG64_2D_FRONTEND_STATUS_REG_OFFSET) | ||
#define DMA_NEXTID_ADDR(BASE) ((void *)BASE + IDMA_REG64_2D_FRONTEND_NEXT_ID_REG_OFFSET) | ||
#define DMA_DONE_ADDR(BASE) ((void *)BASE + IDMA_REG64_2D_FRONTEND_DONE_REG_OFFSET) | ||
#define DMA_SRC_STRIDE_ADDR(BASE) ((void *)BASE + IDMA_REG64_2D_FRONTEND_STRIDE_SRC_REG_OFFSET) | ||
#define DMA_DST_STRIDE_ADDR(BASE) ((void *)BASE + IDMA_REG64_2D_FRONTEND_STRIDE_DST_REG_OFFSET) | ||
#define DMA_NUM_REPS_ADDR(BASE) ((void *)BASE + IDMA_REG64_2D_FRONTEND_NUM_REPETITIONS_REG_OFFSET) | ||
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#define DMA_CONF_DECOUPLE 0 | ||
#define DMA_CONF_DEBURST 0 | ||
#define DMA_CONF_SERIALIZE 0 | ||
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#define X(NAME, BASE_ADDR) \ | ||
extern volatile uint64_t *NAME##_dma_src_ptr(void); \ | ||
extern volatile uint64_t *NAME##_dma_dst_ptr(void); \ | ||
extern volatile uint64_t *NAME##_dma_num_bytes_ptr(void); \ | ||
extern volatile uint64_t *NAME##_dma_conf_ptr(void); \ | ||
extern volatile uint64_t *NAME##_dma_status_ptr(void); \ | ||
extern volatile uint64_t *NAME##_dma_nextid_ptr(void); \ | ||
extern volatile uint64_t *NAME##_dma_done_ptr(void); \ | ||
extern volatile uint64_t *NAME##_dma_src_stride_ptr(void); \ | ||
extern volatile uint64_t *NAME##_dma_dst_stride_ptr(void); \ | ||
extern volatile uint64_t *NAME##_dma_num_reps_ptr(void); \ | ||
\ | ||
extern uint64_t NAME##_dma_memcpy(uint64_t dst, uint64_t src, uint64_t size); \ | ||
extern void NAME##_dma_blk_memcpy(uint64_t dst, uint64_t src, uint64_t size); \ | ||
extern uint64_t NAME##_dma_2d_memcpy(uint64_t dst, uint64_t src, uint64_t size, \ | ||
uint64_t dst_stride, uint64_t src_stride, \ | ||
uint64_t num_reps); \ | ||
extern void NAME##_dma_2d_blk_memcpy(uint64_t dst, uint64_t src, uint64_t size, \ | ||
uint64_t dst_stride, uint64_t src_stride, \ | ||
uint64_t num_reps); \ | ||
\ | ||
inline volatile uint64_t *NAME##_dma_src_ptr(void) { \ | ||
return (volatile uint64_t *)DMA_SRC_ADDR(BASE_ADDR); \ | ||
} \ | ||
inline volatile uint64_t *NAME##_dma_dst_ptr(void) { \ | ||
return (volatile uint64_t *)DMA_DST_ADDR(BASE_ADDR); \ | ||
} \ | ||
inline volatile uint64_t *NAME##_dma_num_bytes_ptr(void) { \ | ||
return (volatile uint64_t *)DMA_NUMBYTES_ADDR(BASE_ADDR); \ | ||
} \ | ||
inline volatile uint64_t *NAME##_dma_conf_ptr(void) { \ | ||
return (volatile uint64_t *)DMA_CONF_ADDR(BASE_ADDR); \ | ||
} \ | ||
inline volatile uint64_t *NAME##_dma_status_ptr(void) { \ | ||
return (volatile uint64_t *)DMA_STATUS_ADDR(BASE_ADDR); \ | ||
} \ | ||
inline volatile uint64_t *NAME##_dma_nextid_ptr(void) { \ | ||
return (volatile uint64_t *)DMA_NEXTID_ADDR(BASE_ADDR); \ | ||
} \ | ||
inline volatile uint64_t *NAME##_dma_done_ptr(void) { \ | ||
return (volatile uint64_t *)DMA_DONE_ADDR(BASE_ADDR); \ | ||
} \ | ||
inline volatile uint64_t *NAME##_dma_src_stride_ptr(void) { \ | ||
return (volatile uint64_t *)DMA_SRC_STRIDE_ADDR(BASE_ADDR); \ | ||
} \ | ||
inline volatile uint64_t *NAME##_dma_dst_stride_ptr(void) { \ | ||
return (volatile uint64_t *)DMA_DST_STRIDE_ADDR(BASE_ADDR); \ | ||
} \ | ||
inline volatile uint64_t *NAME##_dma_num_reps_ptr(void) { \ | ||
return (volatile uint64_t *)DMA_NUM_REPS_ADDR(BASE_ADDR); \ | ||
} \ | ||
\ | ||
inline uint64_t NAME##_dma_memcpy(uint64_t dst, uint64_t src, uint64_t size) { \ | ||
*(NAME##_dma_src_ptr()) = (uint64_t)src; \ | ||
*(NAME##_dma_dst_ptr()) = (uint64_t)dst; \ | ||
*(NAME##_dma_num_bytes_ptr()) = size; \ | ||
*(NAME##_dma_num_reps_ptr()) = 0; \ | ||
*(NAME##_dma_conf_ptr()) = \ | ||
(DMA_CONF_DECOUPLE << IDMA_REG64_2D_FRONTEND_CONF_DECOUPLE_BIT) | \ | ||
(DMA_CONF_DEBURST << IDMA_REG64_2D_FRONTEND_CONF_DEBURST_BIT) | \ | ||
(DMA_CONF_SERIALIZE << IDMA_REG64_2D_FRONTEND_CONF_SERIALIZE_BIT); \ | ||
return *(NAME##_dma_nextid_ptr()); \ | ||
} \ | ||
\ | ||
inline void NAME##_dma_blk_memcpy(uint64_t dst, uint64_t src, uint64_t size) { \ | ||
volatile uint64_t tf_id = NAME##_dma_memcpy(dst, src, size); \ | ||
while (*(NAME##_dma_done_ptr()) != tf_id) { \ | ||
asm volatile("nop"); \ | ||
} \ | ||
} \ | ||
\ | ||
inline uint64_t NAME##_dma_2d_memcpy(uint64_t dst, uint64_t src, uint64_t size, \ | ||
uint64_t dst_stride, uint64_t src_stride, \ | ||
uint64_t num_reps) { \ | ||
*(NAME##_dma_src_ptr()) = (uint64_t)src; \ | ||
*(NAME##_dma_dst_ptr()) = (uint64_t)dst; \ | ||
*(NAME##_dma_num_bytes_ptr()) = size; \ | ||
*(NAME##_dma_conf_ptr()) = \ | ||
(DMA_CONF_DECOUPLE << IDMA_REG64_2D_FRONTEND_CONF_DECOUPLE_BIT) | \ | ||
(DMA_CONF_DEBURST << IDMA_REG64_2D_FRONTEND_CONF_DEBURST_BIT) | \ | ||
(DMA_CONF_SERIALIZE << IDMA_REG64_2D_FRONTEND_CONF_SERIALIZE_BIT); \ | ||
*(NAME##_dma_src_stride_ptr()) = src_stride; \ | ||
*(NAME##_dma_dst_stride_ptr()) = dst_stride; \ | ||
*(NAME##_dma_num_reps_ptr()) = num_reps; \ | ||
return *(NAME##_dma_nextid_ptr()); \ | ||
} \ | ||
\ | ||
inline void NAME##_dma_2d_blk_memcpy(uint64_t dst, uint64_t src, uint64_t size, \ | ||
uint64_t dst_stride, uint64_t src_stride, \ | ||
uint64_t num_reps) { \ | ||
volatile uint64_t tf_id = \ | ||
NAME##_dma_2d_memcpy(dst, src, size, dst_stride, src_stride, num_reps); \ | ||
while (*(NAME##_dma_done_ptr()) != tf_id) { \ | ||
asm volatile("nop"); \ | ||
} \ | ||
} \ | ||
\ | ||
inline uint64_t NAME##_dma_get_status(void) { \ | ||
return *(NAME##_dma_status_ptr()); \ | ||
} | ||
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X(sys, &__base_dma); | ||
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#undef X |
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// Generated register defines for idma_reg64_2d_frontend | ||
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// Copyright information found in source file: | ||
// Copyright 2022 ETH Zurich and University of Bologna. | ||
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// Licensing information found in source file: | ||
// Licensed under Solderpad Hardware License, Version 0.51 | ||
// SPDX-License-Identifier: SHL-0.51 | ||
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#ifndef _IDMA_REG64_2D_FRONTEND_REG_DEFS_ | ||
#define _IDMA_REG64_2D_FRONTEND_REG_DEFS_ | ||
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#ifdef __cplusplus | ||
extern "C" { | ||
#endif | ||
// Register width | ||
#define IDMA_REG64_2D_FRONTEND_PARAM_REG_WIDTH 64 | ||
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// Source Address | ||
#define IDMA_REG64_2D_FRONTEND_SRC_ADDR_REG_OFFSET 0x0 | ||
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// Destination Address | ||
#define IDMA_REG64_2D_FRONTEND_DST_ADDR_REG_OFFSET 0x8 | ||
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// Number of bytes | ||
#define IDMA_REG64_2D_FRONTEND_NUM_BYTES_REG_OFFSET 0x10 | ||
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// Configuration Register for DMA settings | ||
#define IDMA_REG64_2D_FRONTEND_CONF_REG_OFFSET 0x18 | ||
#define IDMA_REG64_2D_FRONTEND_CONF_DECOUPLE_BIT 0 | ||
#define IDMA_REG64_2D_FRONTEND_CONF_DEBURST_BIT 1 | ||
#define IDMA_REG64_2D_FRONTEND_CONF_SERIALIZE_BIT 2 | ||
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// DMA Status | ||
#define IDMA_REG64_2D_FRONTEND_STATUS_REG_OFFSET 0x20 | ||
#define IDMA_REG64_2D_FRONTEND_STATUS_BUSY_BIT 0 | ||
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// Next ID, launches transfer, returns 0 if transfer not set up properly. | ||
#define IDMA_REG64_2D_FRONTEND_NEXT_ID_REG_OFFSET 0x28 | ||
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// Get ID of finished transactions. | ||
#define IDMA_REG64_2D_FRONTEND_DONE_REG_OFFSET 0x30 | ||
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// Source Stride | ||
#define IDMA_REG64_2D_FRONTEND_STRIDE_SRC_REG_OFFSET 0x38 | ||
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// Destination Stride | ||
#define IDMA_REG64_2D_FRONTEND_STRIDE_DST_REG_OFFSET 0x40 | ||
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// Number of 2D repetitions | ||
#define IDMA_REG64_2D_FRONTEND_NUM_REPETITIONS_REG_OFFSET 0x48 | ||
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#ifdef __cplusplus | ||
} // extern "C" | ||
#endif | ||
#endif // _IDMA_REG64_2D_FRONTEND_REG_DEFS_ | ||
// End generated register defines for idma_reg64_2d_frontend |
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