attenuator: fix reverse data

.cargo/config

@@ -1,5 +1,5 @@
 [target.thumbv7em-none-eabihf]
-runner = "gdb -q -x gdb_config/debug.gdb"
+runner = "gdb -q -x gdb_config/openocd.gdb"
 rustflags = [
   "-C", "link-arg=-Tlink.x",
 ]

src/attenuator.rs

@@ -17,11 +17,16 @@ where
 	pub fn new(spi: SPI) -> Self {
 		Attenuator {
 			spi,
+			// data[y] refers to the yth byte for SPI communication
 			data: [0, 0, 0, 0],
 		}
 	}
 
-	pub fn set_attenuation(&mut self, att: [f32; 4]) -> Result<[u8; 4], Error<E>> {
+	/*
+	 *  Set attenuations of all attenuators
+	 *  att[x] refers to the attenuation for channel x
+	 */
+	pub fn set_attenuation(&mut self, att: [f32; 4]) -> Result<(), Error<E>> {
 		for i in 0..4 {
 			let mut atten = att[i];
 			if att[i] > 31.5 {
@@ -30,48 +35,49 @@ where
 			if att[i] < 0.0 {
 				atten = 0.0;
 			}
-			self.data[i] = (atten * 2.0) as u8;
-			self.data[i] = self.data[i] << 2;
+			// Set data as attenuation * 2
+			// Flip data using bitwise XOR, active low data
+			// Data is most signifant attenuator first
+			self.data[3-i] = (((atten * 2.0) as u8) ^ 0xFF) << 2
 		}
 		let mut clone = self.data.clone();
 		// Transmit SPI once to set attenuation
-		if self.spi.transfer(&mut clone).map_err(Error::SPI).is_err() {
-			return Err(Error::AttenuatorError);
-		}
-
-		// Transmit the same data again, to get the return value
-		// Report the data returned by SPI, or an error
-		clone = self.data.clone();
 		match self.spi.transfer(&mut clone).map_err(Error::SPI) {
-			Ok(arr) => {
-				Ok([arr[0], arr[1], arr[2], arr[3]])
-			},
-			err => Err(Error::AttenuatorError)
+			Err(e) => Err(Error::AttenuatorError),
+			Ok(_) => Ok(()),
 		}
 	}
 
-	pub fn set_channel_attenuation(&mut self, channel: u8, attenuation: f32) -> Result<u8, Error<E>> {
+	pub fn set_channel_attenuation(&mut self, channel: u8, attenuation: f32) -> Result<(), Error<E>> {
 		assert!(channel < 4);
-		let mut arr: [f32; 4] = self.get_attenuation();
+		let mut arr: [f32; 4] = self.get_attenuation()?;
 		arr[channel as usize] = attenuation;
 		match self.set_attenuation(arr) {
-			Ok(v) => Ok(v[channel as usize]),
+			Ok(v) => Ok(()),
 			Err(e) => Err(e)
 		}
 	}
 
-	pub fn get_channel_attenuation(&mut self, channel: u8) -> f32 {
+	pub fn get_channel_attenuation(&mut self, channel: u8) -> Result<f32, Error<E>> {
 		assert!(channel < 4);
-		(self.data[channel as usize] as f32)/8.0
+		match self.get_attenuation() {
+			Ok(arr) => Ok(arr[channel as usize]),
+			Err(e) => Err(e),
+		}
 	}
 
-	pub fn get_attenuation(&mut self) -> [f32; 4] {
-		[
-			self.get_channel_attenuation(0),
-			self.get_channel_attenuation(1),
-			self.get_channel_attenuation(2),
-			self.get_channel_attenuation(3),
-		]
+	pub fn get_attenuation(&mut self) -> Result<[f32; 4], Error<E>> {
+		let mut clone = self.data.clone();
+		match self.spi.transfer(&mut clone).map_err(Error::SPI) {
+			Ok(arr) => {
+				let mut ret :[f32; 4] = [0.0; 4];
+				for index in 0..4 {
+					ret[index] = ((arr[3 - index] ^ 0xFC) as f32) / 8.0;
+				}
+				Ok(ret)
+			},
+			Err(e) => Err(e),
+		}
 	}
 }
 

src/main.rs

@@ -84,8 +84,7 @@ fn main() -> ! {
 	/*
 	 *	I/O_Update -> PB13
 	 */
-	// TODO: Incoporate io_update into DDS
-	let mut io_update = gpiob.pb15.into_push_pull_output();
+	let io_update = gpiob.pb15.into_push_pull_output();
 
 	let spi = dp.SPI1.spi(
 		(sclk, miso, mosi),
@@ -94,7 +93,7 @@ fn main() -> ! {
 		ccdr.peripheral.SPI1,
 		&ccdr.clocks,
 	);
-	
+
 	let mut switch = CPLD::new(spi, (cs0, cs1, cs2), io_update);
 	let parts = switch.split();
 
@@ -119,18 +118,10 @@ fn main() -> ! {
 		0x00, 0x00, 0x00, 0x02
 	]).unwrap();
 
-//	io_update.set_high().unwrap();
-//	io_update.set_low().unwrap();
-//	switch.issue_io_update();
-
 	dds0.write_register(0x02, &mut[
-		0x01F, 0x3F, 0xC0, 0x00
+		0x01F, 0x3F, 0x41, 0x00
 	]).unwrap();
 
-//	io_update.set_high().unwrap();
-//	io_update.set_low().unwrap();
-//	switch.issue_io_update();
-
 	hprintln!("{:#X?}", dds0.read_register(0x00, &mut[
 		0x00, 0x00, 0x00, 0x00
 	]).unwrap()).unwrap();
@@ -148,109 +139,36 @@ fn main() -> ! {
 	dds0.read_register(0x0E, &mut profile).unwrap();
 
 	// Overwrite FTW on profile
+	profile[0] = 0x20;
 	profile[4] = ((ftw >> 24) & 0xFF) as u8;
 	profile[5] = ((ftw >> 16) & 0xFF) as u8;
 	profile[6] = ((ftw >> 8 ) & 0xFF) as u8;
 	profile[7] = ((ftw >> 0 ) & 0xFF) as u8;
 
 	dds0.write_register(0x0E, &mut profile).unwrap();
-//	io_update.set_high().unwrap();
-//	io_update.set_low().unwrap();
-//	switch.issue_io_update();
 
 	hprintln!("{:#X?}", dds0.read_register(0x0E, &mut profile).unwrap()).unwrap();
-	
+
+	// Attenuator
+	att.set_attenuation([
+		0.0, 31.5, 24.0, 0.0
+	]).unwrap();
+
+	hprintln!("{:#X?}", att.get_attenuation().unwrap()).unwrap();
+
 /*
-	cs0.set_low().unwrap();
-	cs1.set_low().unwrap();
-	cs2.set_low().unwrap();
-
-	io_update.set_low().unwrap();
-
-	let mut dummy :[u8;1] = [0];
-	spi.transfer(&mut dummy);
-
-	// Master reset DDS_0 through CPLD, with LED at 3
-	cs0.set_high().unwrap();
-	spi.transfer(&mut [
-		0x08, 0x00, 0x03
-	]).unwrap();
-	cs0.set_low().unwrap();
-
-	// Perform I/O Reset through CPLD, with LED at 4
-	cs0.set_high().unwrap();
-	spi.transfer(&mut [
-		0x10, 0x00, 0x04
-	]).unwrap();
-	cs0.set_low().unwrap();
-
-	// Release reset, control I/O Update through EEM
-	// Relay clock signal from internal OSC (CLK_SEL = 0)
-	// Enable Switch 0
-	cs0.set_high().unwrap();
-	spi.transfer(&mut [
-		0x00, 0x00, 0x01
-	]).unwrap();
-	cs0.set_low().unwrap();
-
-	cs0.set_low().unwrap();
-	cs1.set_low().unwrap();
-	cs2.set_high().unwrap();
-
-	// Configure SDIO to be input only, enable 3-wires communication
-	spi.transfer(&mut [
-		0x00, 0x00, 0x00, 0x00, 0x02
+	// Write to FTW register
+	dds0.write_register(0x07, &mut [
+		((ftw >> 24) & 0xFF) as u8,
+		((ftw >> 16) & 0xFF) as u8,
+		((ftw >> 8 ) & 0xFF) as u8,
+		((ftw >> 0 ) & 0xFF) as u8,
 	]).unwrap();
 
-	// IO Update after every SPI transfer
-	io_update.set_high().unwrap();
-	delay.delay_ms(1_u16);
-	io_update.set_low().unwrap();
-
-	// Bypass PLL, bypass divisor
-	spi.transfer(&mut [
-		0x02, 0x1F, 0x3F, 0xC0, 0x00
-	]).unwrap();
-
-	io_update.set_high().unwrap();
-	delay.delay_ms(1_u16);
-	io_update.set_low().unwrap();
-
-	hprintln!("{:#X?}", spi.transfer(&mut [
-		0x82, 0x00, 0x00, 0x00, 0x00
+	hprintln!("{:#X?}", dds0.read_register(0x07, &mut [
+		0x00, 0x00, 0x00, 0x00
 	]).unwrap()).unwrap();
-
-	let f_out = 10_000_000.0;
-	let f_sclk = 100_000_000.0;
-	let resolution :u64 = 1 << 32;
-	let ftw = ((resolution as f32) * f_out / f_sclk) as u32;
-	hprintln!("{:#X}", ftw);
-
-	// Read profile 0
-	let mut profile_arr_0 :[u8; 9] = [0; 9];
-	profile_arr_0[0] = 0x8E;
-	hprintln!("{:#X?}", spi.transfer(&mut profile_arr_0).unwrap()).unwrap();
-
-	// Write FTW to profile 0
-	profile_arr_0[0] = 0x0E;
-	profile_arr_0[5] = ((ftw >> 24) & 0xFF) as u8;
-	profile_arr_0[6] = ((ftw >> 16) & 0xFF) as u8;
-	profile_arr_0[7] = ((ftw >> 8 ) & 0xFF) as u8;
-	profile_arr_0[8] = ((ftw >> 0 ) & 0xFF) as u8;
-	
-	hprintln!("{:#X?}", profile_arr_0).unwrap();
-	spi.transfer(&mut profile_arr_0).unwrap();
-
-	// Update after write
-	io_update.set_high().unwrap();
-	delay.delay_ms(1_u16);
-	io_update.set_low().unwrap();
-
-	// Read profile again, new value should be present
-	profile_arr_0[0] = 0x8E;
-	hprintln!("{:#X?}", spi.transfer(&mut profile_arr_0).unwrap()).unwrap();
-*/
-	
+*/	
 	loop {}
 }