forked from M-Labs/artiq
runtime: refactor spi into rt2wb
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eb01b0bfee
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@ -0,0 +1,14 @@
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from artiq.language.core import *
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from artiq.language.types import *
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@syscall
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def rt2wb_write(time_mu: TInt64, channel: TInt32, addr: TInt32, data: TInt32
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) -> TNone:
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raise NotImplementedError("syscall not simulated")
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@syscall
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def rt2wb_read_sync(time_mu: TInt64, channel: TInt32, addr: TInt32,
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duration_mu: TInt32) -> TInt32:
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raise NotImplementedError("syscall not simulated")
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@ -1,16 +1,6 @@
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from artiq.language.core import *
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from artiq.language.types import *
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@syscall
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def spi_write(time_mu: TInt64, channel: TInt32, addr: TInt32, data: TInt32
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) -> TNone:
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raise NotImplementedError("syscall not simulated")
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@syscall
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def spi_read(time_mu: TInt64, channel: TInt32, addr: TInt32) -> TInt32:
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raise NotImplementedError("syscall not simulated")
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from artiq.coredevice.rt2wb import *
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SPI_DATA_ADDR, SPI_XFER_ADDR, SPI_CONFIG_ADDR = range(3)
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@ -34,14 +24,14 @@ class SPIMaster:
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"""
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def __init__(self, dmgr, ref_period, channel):
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self.core = dmgr.get("core")
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self.ref_period_mu = int(seconds_to_mu(ref_period, self.core), 64)
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self.ref_period_mu = seconds_to_mu(ref_period, self.core)
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self.channel = channel
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self.write_div = 0
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self.read_div = 0
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# a full transfer takes prep_mu + xfer_mu
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self.prep_mu = int(0, 64)
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# chaned transfers can happen every xfer_mu
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self.xfer_mu = int(0, 64)
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self.prep_mu = 0
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# chained transfers can happen every xfer_mu
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self.xfer_mu = 0
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# The second transfer of a chain be written ref_period_mu
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# after the first. Read data is available every xfer_mu starting
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# a bit before prep_mu + xfer_mu.
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@ -49,40 +39,41 @@ class SPIMaster:
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@portable
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def predict_xfer_mu(self, write_length, read_length):
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# this is only the intrinsic bit cycle duration
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return self.ref_period_mu*(
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return int(self.ref_period_mu*(
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write_length*self.write_div +
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read_length*self.read_div)
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read_length*self.read_div))
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@portable
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def predict_prep_mu(self, write_div):
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return self.ref_period_mu*(
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return int(self.ref_period_mu*(
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2 + # intermediate transfers
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# one write_div for the wait+idle cycle
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self.write_div)
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self.write_div))
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@kernel
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def set_config(self, flags=0, write_div=6, read_div=6):
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self.write_div = write_div
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self.read_div = read_div
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self.prep_mu = self.predict_prep_mu(write_div)
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spi_write(now_mu(), self.channel, SPI_CONFIG_ADDR, flags |
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((write_div - 2) << 8) | ((read_div - 2) << 20))
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rt2wb_write(now_mu(), self.channel, SPI_CONFIG_ADDR, flags |
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((write_div - 2) << 8) | ((read_div - 2) << 20))
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delay_mu(self.ref_period_mu)
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@kernel
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def set_xfer(self, chip_select=0, write_length=0, read_length=0):
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self.xfer_mu = self.predict_xfer_mu(write_length, read_length)
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spi_write(now_mu(), self.channel, SPI_XFER_ADDR,
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chip_select | (write_length << 16) | (read_length << 24))
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rt2wb_write(now_mu(), self.channel, SPI_XFER_ADDR,
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chip_select | (write_length << 16) | (read_length << 24))
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delay_mu(self.ref_period_mu)
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@kernel
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def write(self, data):
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spi_write(now_mu(), self.channel, SPI_DATA_ADDR, data)
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delay_mu(self.prep_mu + self.xfer_mu)
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rt2wb_write(now_mu(), self.channel, SPI_DATA_ADDR, data)
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delay_mu(int(self.prep_mu + self.xfer_mu))
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@kernel
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def read(self):
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r = spi_read(now_mu(), self.channel, SPI_DATA_ADDR)
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def read_sync(self):
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r = rt2wb_read_sync(now_mu(), self.channel, SPI_DATA_ADDR,
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int(self.ref_period_mu))
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delay_mu(self.ref_period_mu)
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return r
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@ -7,7 +7,7 @@ OBJECTS := isr.o clock.o rtiocrg.o flash_storage.o mailbox.o \
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session.o log.o analyzer.o moninj.o net_server.o bridge_ctl.o \
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ksupport_data.o kloader.o test_mode.o main.o
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OBJECTS_KSUPPORT := ksupport.o artiq_personality.o mailbox.o \
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bridge.o rtio.o ttl.o dds.o spi.o
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bridge.o rtio.o ttl.o dds.o rt2wb.o
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CFLAGS += -I$(LIBALLOC_DIRECTORY) \
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-I$(MISOC_DIRECTORY)/software/include/dyld \
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@ -15,8 +15,8 @@
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#include "artiq_personality.h"
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#include "ttl.h"
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#include "dds.h"
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#include "spi.h"
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#include "rtio.h"
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#include "rt2wb.h"
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double round(double x);
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@ -122,8 +122,8 @@ static const struct symbol runtime_exports[] = {
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{"dds_batch_exit", &dds_batch_exit},
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{"dds_set", &dds_set},
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{"spi_write", &spi_write},
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{"spi_read", &spi_read},
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{"rt2wb_write", &rt2wb_write},
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{"rt2wb_read_sync", &rt2wb_read_sync},
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{"cache_get", &cache_get},
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{"cache_put", &cache_put},
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@ -1,15 +1,11 @@
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#include <generated/csr.h>
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#include <stdio.h>
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#include "artiq_personality.h"
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#include "rtio.h"
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#include "log.h"
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#include "spi.h"
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#include "rt2wb.h"
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#define DURATION_WRITE (1 << CONFIG_RTIO_FINE_TS_WIDTH)
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void spi_write(long long int timestamp, int channel, int addr,
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void rt2wb_write(long long int timestamp, int channel, int addr,
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unsigned int data)
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{
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rtio_chan_sel_write(channel);
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@ -20,31 +16,33 @@ void spi_write(long long int timestamp, int channel, int addr,
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}
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unsigned int spi_read(long long int timestamp, int channel, int addr)
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unsigned int rt2wb_read_sync(long long int timestamp, int channel,
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int addr, int duration)
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{
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int status;
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long long int time_limit = timestamp + DURATION_WRITE;
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unsigned int r;
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unsigned int data;
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spi_write(timestamp, channel, addr | SPI_WB_READ, 0);
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rt2wb_write(timestamp, channel, addr, 0);
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while((status = rtio_i_status_read())) {
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if(rtio_i_status_read() & RTIO_I_STATUS_OVERFLOW) {
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if(status & RTIO_I_STATUS_OVERFLOW) {
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rtio_i_overflow_reset_write(1);
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artiq_raise_from_c("RTIOOverflow",
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"RTIO overflow at channel {0}",
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"RTIO WB overflow on channel {0}",
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channel, 0, 0);
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}
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if(rtio_get_counter() >= time_limit) {
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if(rtio_get_counter() >= timestamp + duration) {
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/* check empty flag again to prevent race condition.
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* now we are sure that the time limit has been exceeded.
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*/
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if(rtio_i_status_read() & RTIO_I_STATUS_EMPTY)
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return -1;
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artiq_raise_from_c("InternalError",
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"RTIO WB read failed on channel {0}",
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channel, 0, 0);
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}
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/* input FIFO is empty - keep waiting */
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}
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r = rtio_i_data_read();
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data = rtio_i_data_read();
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rtio_i_re_write(1);
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return r;
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return data;
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}
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@ -0,0 +1,10 @@
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#ifndef __RT2WB_H
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#define __RT2WB_H
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void rt2wb_write(long long int timestamp, int channel, int address,
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unsigned int data);
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unsigned int rt2wb_read_sync(long long int timestamp, int channel, int address,
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int duration);
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#endif /* __RT2WB_H */
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@ -1,20 +0,0 @@
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#ifndef __SPI_H
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#define __SPI_H
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#include <hw/common.h>
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#include <generated/csr.h>
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#include <generated/mem.h>
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#define SPI_ADDR_DATA 0
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#define SPI_ADDR_XFER 1
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#define SPI_ADDR_CONFIG 2
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#define SPI_WB_READ (1 << 2)
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#define SPI_XFER_CS(x) (x)
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#define SPI_XFER_WRITE_LENGTH(x) ((x) << 16)
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#define SPI_XFER_READ_LENGTH(x) ((x) << 24)
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void spi_write(long long int timestamp, int channel, int address, unsigned int data);
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unsigned int spi_read(long long int timestamp, int channel, int address);
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#endif /* __SPI_H */
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