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Dma.hpp
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Dma.hpp
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#pragma once
#include <cstdint>
#include "Reg.hpp"
//Dma 0/1/2/3
struct Dma : private Reg {
enum
DMAX { DMA0, DMA1, DMA2, DMA3 };
//instantiate Dma with dma number
Dma (DMAX);
//==== DCHXCON ====
auto
busy () -> bool;
enum
CHCHAIN : uint8_t { TOHIGHER, TOLOWER, CHAINOFF };
auto
chain (CHCHAIN) -> void;
auto
on (bool) -> void;
auto
evt_always (bool) -> void;
auto
auto_en (bool) -> void;
auto
evt () -> bool;
enum
CHPRI : uint8_t { PRI0, PRI1, PRI2, PRI3 };
auto
priority (CHPRI) -> void;
//==== DCHXECON ====
enum
IRQ : uint8_t { IRQOFF = 255 };
auto
irq_abort (uint8_t) -> void;
auto
irq_start (uint8_t) -> void;
auto
start () -> void;
auto
abort () -> void;
auto
abort_match (bool) -> void;
//==== DCHXINT ====
enum
IRQENF : uint8_t { //byte positions, use reg byte acccess
SRCDONE = 1<<7, SRCHALF = 1<<6, DSTDONE = 1<<5, DSTHALF = 1<<4,
BLKDONE = 1<<3, CELLDONE = 1<<2, XFERABORT = 1<<1, ADDRERR = 1<<0
};
auto
irq (IRQENF, bool) -> void;
auto
flag (IRQENF) -> bool;
auto
flag_clr (IRQENF) -> void;
//==== DCHXSSA ====
auto
sstart_addr (uint32_t) -> void;
//==== DCHXDSA ====
auto
dstart_addr (uint32_t) -> void;
//==== DCHXSSIZ ====
auto
ssize (uint16_t) -> void;
//==== DCHXDSIZ ====
auto
dsize (uint16_t) -> void;
//==== DCHXSPTR ====
auto
spointer (uint16_t) -> void;
//==== DCHXDPTR ====
auto
dpointer (uint16_t) -> void;
//==== DCHXCSIZ ====
auto
csize (uint16_t) -> void;
//==== DCHXCPTR ====
auto
cpointer () -> uint16_t;
//==== DCHXDAT ====
auto
pattern (uint8_t) -> void;
//common for all instances
//==== DMACON ====
//dma on/off
static auto
all_on (bool) -> void;
//dma suspend
static auto
all_suspend (bool) -> void;
//dma suspended?
static auto
all_suspend () -> bool;
//dma busy?
static auto
any_busy () -> bool;
//==== DMASTAT ====
//true = last dma was read, false = was write
static auto
last_rd () -> bool;
//last dma channel
static auto
last_ch () -> uint8_t;
//==== DMAADDR ====
//last dma address
static auto
last_addr () -> uint32_t;
//==== DCRCCON ====
enum
CRCBYTO : uint8_t { SAME, REVERSE, SWAPH, SWAPB };
static auto
crc_byto (CRCBYTO) -> void;
enum
CRCBITO : bool { MSB, LSB };
static auto
crc_bito (CRCBITO) -> void;
static auto
crc_polyn (uint8_t) -> void;
static auto
crc_on (bool) -> void;
static auto
crc_append (bool) -> void;
enum
CRCTYPE : bool { LFSR, IP };
static auto
crc_type (CRCTYPE) -> void;
static auto
crc_ch (uint8_t) -> void;
//==== DCRCDATA =====
static auto
crc_seed (uint32_t) -> void;
static auto
crc_data () -> uint32_t;
//==== DCRCXOR ====
static auto
crc_xor (uint32_t) -> void;
private:
volatile uint32_t* m_dmax_con;
};