main: incoporate alloc, tls, and flash

Cargo.lock

@@ -1,5 +1,60 @@
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@@ -9,6 +64,16 @@ dependencies = [
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@@ -68,12 +168,71 @@ dependencies = [
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@@ -236,13 +558,55 @@ dependencies = [
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@@ -257,8 +621,12 @@ dependencies = [
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  "panic-itm",
+ "rand_core",
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+ "serde",
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@@ -281,13 +658,25 @@ dependencies = [
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+name = "postcard-cobs"
+version = "0.1.5-pre"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "7c68cb38ed13fd7bc9dd5db8f165b7c8d9c1a315104083a2b10f11354c2af97f"
+
+[[package]]
+name = "ppv-lite86"
+version = "0.2.10"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "ac74c624d6b2d21f425f752262f42188365d7b8ff1aff74c82e45136510a4857"
+
 [[package]]
 name = "proc-macro-hack"
 version = "0.5.18"
@@ -409,6 +942,65 @@ version = "0.2.2"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "e2a38df5b15c8d5c7e8654189744d8e396bddc18ad48041a500ce52d6948941f"
 
+[[package]]
+name = "radium"
+version = "0.4.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "64de9a0c5361e034f1aefc9f71a86871ec870e766fe31a009734a989b329286a"
+
+[[package]]
+name = "rand"
+version = "0.7.3"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "6a6b1679d49b24bbfe0c803429aa1874472f50d9b363131f0e89fc356b544d03"
+dependencies = [
+ "rand_chacha",
+ "rand_core",
+ "rand_hc",
+]
+
+[[package]]
+name = "rand_chacha"
+version = "0.2.2"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "f4c8ed856279c9737206bf725bf36935d8666ead7aa69b52be55af369d193402"
+dependencies = [
+ "ppv-lite86",
+ "rand_core",
+]
+
+[[package]]
+name = "rand_core"
+version = "0.5.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "90bde5296fc891b0cef12a6d03ddccc162ce7b2aff54160af9338f8d40df6d19"
+
+[[package]]
+name = "rand_hc"
+version = "0.2.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "ca3129af7b92a17112d59ad498c6f81eaf463253766b90396d39ea7a39d6613c"
+dependencies = [
+ "rand_core",
+]
+
+[[package]]
+name = "rsa"
+version = "0.3.0"
+source = "git+https://github.com/RustCrypto/RSA.git?rev=c879eb2#c879eb27175d08f092f9e014abf16a467c3cf393"
+dependencies = [
+ "byteorder",
+ "digest",
+ "lazy_static",
+ "num-bigint-dig",
+ "num-integer",
+ "num-iter",
+ "num-traits",
+ "rand",
+ "subtle",
+ "zeroize",
+]
+
 [[package]]
 name = "rtic-core"
 version = "0.3.0"
@@ -456,6 +1048,79 @@ version = "0.7.0"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "388a1df253eca08550bef6c72392cfe7c30914bf41df5269b68cbd6ff8f570a3"
 
+[[package]]
+name = "serde"
+version = "1.0.118"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "06c64263859d87aa2eb554587e2d23183398d617427327cf2b3d0ed8c69e4800"
+dependencies = [
+ "serde_derive",
+]
+
+[[package]]
+name = "serde_derive"
+version = "1.0.118"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "c84d3526699cd55261af4b941e4e725444df67aa4f9e6a3564f18030d12672df"
+dependencies = [
+ "proc-macro2",
+ "quote",
+ "syn",
+]
+
+[[package]]
+name = "sfkv"
+version = "0.1.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "25f5bfac3f66a7c10a6f37ee81aeaa471f4d35dc21665b59ad7c555adcb9e8aa"
+dependencies = [
+ "byteorder",
+ "postcard",
+ "serde",
+]
+
+[[package]]
+name = "sha-1"
+version = "0.9.2"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "ce3cdf1b5e620a498ee6f2a171885ac7e22f0e12089ec4b3d22b84921792507c"
+dependencies = [
+ "block-buffer",
+ "cfg-if 1.0.0",
+ "cpuid-bool",
+ "digest",
+ "opaque-debug",
+]
+
+[[package]]
+name = "sha2"
+version = "0.9.2"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "6e7aab86fe2149bad8c507606bdb3f4ef5e7b2380eb92350f56122cca72a42a8"
+dependencies = [
+ "block-buffer",
+ "cfg-if 1.0.0",
+ "cpuid-bool",
+ "digest",
+ "opaque-debug",
+]
+
+[[package]]
+name = "signature"
+version = "1.2.2"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "29f060a7d147e33490ec10da418795238fd7545bba241504d6b31a409f2e6210"
+dependencies = [
+ "digest",
+ "rand_core",
+]
+
+[[package]]
+name = "smallvec"
+version = "1.5.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "ae524f056d7d770e174287294f562e95044c68e88dec909a00d2094805db9d75"
+
 [[package]]
 name = "smoltcp"
 version = "0.6.0"
@@ -463,7 +1128,37 @@ source = "git+https://github.com/smoltcp-rs/smoltcp.git#bdfa44270e9c59b3095b555c
 dependencies = [
  "bitflags",
  "byteorder",
- "managed",
+ "managed 0.7.2",
+]
+
+[[package]]
+name = "smoltcp-tls"
+version = "0.1.0"
+source = "git+https://git.m-labs.hk/M-Labs/smoltcp-tls.git#0c6807f59315e040244b3400c3eae691540eef6b"
+dependencies = [
+ "aes-gcm",
+ "byteorder",
+ "ccm",
+ "chacha20poly1305",
+ "chrono",
+ "ed25519-dalek",
+ "embedded-nal",
+ "generic-array 0.14.4",
+ "heapless",
+ "hkdf",
+ "hmac 0.10.1",
+ "intrusive-collections",
+ "log",
+ "managed 0.8.0",
+ "nom",
+ "num_enum",
+ "p256",
+ "rand_core",
+ "rsa",
+ "sha-1",
+ "sha2",
+ "smoltcp",
+ "x25519-dalek",
 ]
 
 [[package]]
@@ -508,6 +1203,22 @@ dependencies = [
  "void",
 ]
 
+[[package]]
+name = "stream-cipher"
+version = "0.7.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "c80e15f898d8d8f25db24c253ea615cc14acf418ff307822995814e7d42cfa89"
+dependencies = [
+ "block-cipher",
+ "generic-array 0.14.4",
+]
+
+[[package]]
+name = "subtle"
+version = "2.3.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "343f3f510c2915908f155e94f17220b19ccfacf2a64a2a5d8004f2c3e311e7fd"
+
 [[package]]
 name = "syn"
 version = "1.0.38"
@@ -519,6 +1230,18 @@ dependencies = [
  "unicode-xid",
 ]
 
+[[package]]
+name = "synstructure"
+version = "0.12.4"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "b834f2d66f734cb897113e34aaff2f1ab4719ca946f9a7358dba8f8064148701"
+dependencies = [
+ "proc-macro2",
+ "quote",
+ "syn",
+ "unicode-xid",
+]
+
 [[package]]
 name = "typenum"
 version = "1.12.0"
@@ -531,6 +1254,16 @@ version = "0.2.1"
 source = "registry+https://github.com/rust-lang/crates.io-index"
 checksum = "f7fe0bb3479651439c9112f72b6c505038574c9fbb575ed1bf3b797fa39dd564"
 
+[[package]]
+name = "universal-hash"
+version = "0.4.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "8326b2c654932e3e4f9196e69d08fdf7cfd718e1dc6f66b347e6024a0c961402"
+dependencies = [
+ "generic-array 0.14.4",
+ "subtle",
+]
+
 [[package]]
 name = "vcell"
 version = "0.1.2"
@@ -557,3 +1290,41 @@ checksum = "0d67cb4616d99b940db1d6bd28844ff97108b498a6ca850e5b6191a532063286"
 dependencies = [
  "vcell",
 ]
+
+[[package]]
+name = "wyz"
+version = "0.2.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "85e60b0d1b5f99db2556934e21937020776a5d31520bf169e851ac44e6420214"
+
+[[package]]
+name = "x25519-dalek"
+version = "1.1.0"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "bc614d95359fd7afc321b66d2107ede58b246b844cf5d8a0adcca413e439f088"
+dependencies = [
+ "curve25519-dalek",
+ "rand_core",
+ "zeroize",
+]
+
+[[package]]
+name = "zeroize"
+version = "1.1.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "05f33972566adbd2d3588b0491eb94b98b43695c4ef897903470ede4f3f5a28a"
+dependencies = [
+ "zeroize_derive",
+]
+
+[[package]]
+name = "zeroize_derive"
+version = "1.0.1"
+source = "registry+https://github.com/rust-lang/crates.io-index"
+checksum = "c3f369ddb18862aba61aa49bf31e74d29f0f162dec753063200e1dc084345d16"
+dependencies = [
+ "proc-macro2",
+ "quote",
+ "syn",
+ "synstructure",
+]

Cargo.toml

@@ -18,6 +18,13 @@ minimq = { git = "https://github.com/quartiq/minimq.git", branch = "master" }
 heapless = "0.5.6"
 nom = { version = "5.1.2", default-features = false, features = [] }
 ryu = "1.0"
+smoltcp-tls = { git = "https://git.m-labs.hk/M-Labs/smoltcp-tls.git", features = [ "nal_tcp_stack" ] }
+rand_core = { version = "0.5.1", default-features = false, features = [] }
+sfkv = "0.1.0"
+serde = { version = "1.0", default-features = false, features = ["derive"] }
+
+# Allocator
+alloc-cortex-m = "0.4.0"
 
 # Logging and Panicking
 panic-itm = "0.4.1"

README.md

@@ -25,7 +25,7 @@ openocd-flash
 ## Networking Setup for First-time User
 Provide them to setup Humpback-DDS:
 - IP Address of Humpback-DDS
-- Address block of the local area network
+- Bit length of the LAN prefix
 - MAC Address of Humpback-DDS
 - IP Address of MQTT broker
 - Device name of Humpback-DDS
@@ -50,7 +50,7 @@ Parameters:
 openocd-flash-customised 192.168.1.200/24 AC:6F:7A:DE:D6:C8 192.168.1.125 "Urukul"
 ```
 The device will be named `Urukul`.  
-It has `192.168.1.200` as IPv4 Address, inside a `\24` network, with `AC:6F:7A:DE:D6:C8` as MAC address.  
+It has `192.168.1.200` as IPv4 Address, inside a `/24` network, with `AC:6F:7A:DE:D6:C8` as MAC address.  
 It will connect to a MQTT broker at `192.168.1.125:1883`.
 
 

cargosha256.nix

@@ -1 +1 @@
-"1kc2i3c7lmbx6fxlhw1wd3v679zh4mldyiyvaa24jarwlxnp5wq8"
+"1wzbn4r6gya72lgp8464izi0fhvp9pmmi1qck7qcw4ww8p8lzq7p"

flash.py

@@ -0,0 +1,49 @@
+import argparse
+import struct
+
+
+def get_argparser():
+    parser = argparse.ArgumentParser(description="MQTT-controlled 4-channel DDS signal generator")
+
+    parser.add_argument("cidr", nargs=1,
+                        metavar=("Client_CIDR"),
+                        help="IPv4 Address of Humpback-DDS in CIDR notation")
+    parser.add_argument("mac_addr", nargs=1,
+                        metavar=("Client_MAC"),
+                        help="MAC Address of Humpback-DDS")
+    parser.add_argument("broker_ip", nargs=1,
+                        metavar=("Broker_IP"),
+                        help="IP address of MQTT broker")
+    parser.add_argument("name", nargs=1,
+                        metavar=("Name"),
+                        help="Device name of Humpback-DDS")
+
+    return parser
+
+
+def write_record(f, key, value):
+    key_size = len(key) + 1
+    value_size = len(value)
+    record_size = key_size + value_size + 4
+    f.write(struct.pack(">l", record_size))
+    f.write(key.encode())
+    f.write(b"\x00")
+    f.write(value)
+
+
+def write_end_marker(f):
+    f.write(b"\xff\xff\xff\xff")
+
+
+def main():
+    args = get_argparser().parse_args()
+    with open("flash_config.bin", "wb") as fo:
+        write_record(fo, "CIDR", args.cidr[0].encode())
+        write_record(fo, "MAC", args.mac_addr[0].encode())
+        write_record(fo, "BrokerIP", args.broker_ip[0].encode())
+        write_record(fo, "Name", args.name[0].encode())
+        write_end_marker(fo)
+
+
+if __name__ == "__main__":
+    main()

memory.x

@@ -1,7 +1,7 @@
 MEMORY
 {
   /* FLASH and RAM are mandatory memory regions */
-  FLASH  : ORIGIN = 0x08000000, LENGTH = 1024K
+  FLASH  : ORIGIN = 0x08000000, LENGTH = 1920K
   RAM    : ORIGIN = 0x20000000, LENGTH = 128K
 
   /* AXISRAM */

nix/itm.nix

@@ -13,7 +13,7 @@ rustPlatform.buildRustPackage rec {
 
   cargoPatches = [ ./itm-cargo-lock.patch ];
 
-  cargoSha256 = "1lgv8nhzbzfw9cl4rhj46a86h9jygz0ih3j4zw5nd1346xgmz7b8";
+  cargoSha256 = "1x2pagfxwhgxliygw7325qsg3ccn276f4slg9cql0sf1s304qj4g";
 
   nativeBuildInputs = [ pkgconfig ];
 

shell.nix

@@ -21,27 +21,16 @@ let
     '';
 
     openOCDFlashCustomised = writeShellScriptBin "openocd-flash-customised" ''
-        IFS='.|/' read -r a b c d e <<< $1
-        ((ip = (a << 32) + (b << 24) + (c << 16) + (d << 8) + e))
-        IFS=':' read -r a b c d e f <<< $2
-        ((mac = (16#$a << 40) + (16#$b << 32) + (16#$c << 24) + (16#$d << 16) + (16#$e << 8) + 16#$f))
-        IFS='.' read -r a b c d <<< $3
-        ((broker_ip = (a << 24) + (b << 16) + (c << 8) + d))
-        touch temp_name
-        printf "%s\x04" "$4" > temp_name
+        python3 flash.py $1 $2 $3 $4
         openocd -f openocd/openocd.cfg \
                 -c "init 
                     reset init 
                     halt 
                     stm32h7x mass_erase 1 
                     flash write_image erase target/thumbv7em-none-eabihf/release/humpback-dds 
-                    flash filld 0x08100000 $ip 1 
-                    flash filld 0x08100020 $mac 1 
-                    flash fillw 0x08100040 $broker_ip 1 
-                    flash write_image temp_name 0x08100060 bin
+                    flash write_image flash_config.bin 0x081e0000 bin 
                     reset run 
                     shutdown"
-        rm temp_name
     '';
 
 in

src/config.rs

@@ -0,0 +1,72 @@
+use smoltcp as net;
+use net::wire::IpCidr;
+use net::wire::EthernetAddress;
+
+use embedded_nal as nal;
+use nal::IpAddr;
+
+use heapless::{ String, consts::* };
+
+use serde::{ Serialize, Deserialize };
+
+use crate::urukul::ClockSource;
+use crate::flash_store::FlashStore;
+
+use core::str::FromStr;
+
+#[derive(Debug)]
+pub struct NetConfig {
+    pub ip_cidr: IpCidr,
+    pub eth_addr: EthernetAddress,
+    pub broker_ip: IpAddr,
+    pub name: String<U64>,
+}
+
+#[derive(Clone, Debug, Serialize, Deserialize)]
+pub struct UrukulConfig {
+    pub clk_src: ClockSource,
+    pub clk_freq: f64,
+    pub clk_div: u8,
+    pub profile: u8,
+}
+
+#[derive(Clone, Debug, Serialize, Deserialize)]
+pub struct ChannelConfig {
+    pub sw: bool,
+    pub att: f32,
+    pub sys_clk: f64,
+    pub freq: f64,
+    pub phase: f64,
+    pub asf: f64,
+}
+
+pub fn get_net_config(store: &mut FlashStore) -> NetConfig {
+    let net_config = NetConfig {
+        ip_cidr: {
+            match store.read_str("CIDR").unwrap() {
+                Some(cidr) => IpCidr::from_str(cidr).unwrap(),
+                None => IpCidr::from_str("192.168.1.200/24").unwrap(),
+            }
+        },
+        eth_addr: {
+            match store.read_str("MAC").unwrap() {
+                Some(mac) => EthernetAddress::from_str(mac).unwrap(),
+                None => EthernetAddress::from_str("AC:6F:7A:DE:D6:C8").unwrap()
+            }
+        },
+        broker_ip: {
+            match store.read_str("BrokerIP").unwrap() {
+                Some(ip) => IpAddr::from_str(ip).unwrap(),
+                None => IpAddr::from_str("192.168.1.125").unwrap(),
+            }
+        },
+        name: {
+            match store.read_str("Name").unwrap() {
+                Some(name) => String::from(name),
+                None => String::from("HumpbackDDS")
+            }
+        }
+    };
+    log::info!("Net config: {:?}", net_config);
+    net_config
+}

src/dds.rs

@@ -253,7 +253,12 @@ where
         }
         // Finally, try enabling PLL
         else {
-            self.enable_pll(f_sys_clk)
+            self.enable_pll(f_sys_clk)?;
+            if self.f_sys_clk == self.get_sys_clk_frequency()? {
+                Ok(())
+            } else {
+                Err(Error::WaitRetry)
+            }
         }
     }
 
@@ -844,6 +849,32 @@ where
     pub fn get_f_sys_clk(&mut self) -> f64 {
         self.f_sys_clk
     }
+    
+    // Acquire real f_sys_clk
+    pub fn get_sys_clk_frequency(&mut self) -> Result<f64, Error<E>> {
+        // Calculate the new system clock frequency, examine the clock tree
+        let mut configuration_queries = [
+            // Acquire PLL status
+            (DDSCFRMask::PLL_ENABLE, 0),
+            // Acquire N-divider, to adjust VCO if necessary
+            (DDSCFRMask::N, 0),
+            // Acquire REF_CLK divider bypass
+            (DDSCFRMask::REFCLK_IN_DIV_BYPASS, 0)
+        ];
+
+        self.get_configurations(&mut configuration_queries)?;
+        if configuration_queries[0].1 == 1 {
+            // Recalculate sys_clk
+            let divider :f64 = configuration_queries[1].1.into();
+            Ok(self.f_ref_clk * divider)
+        }
+        else if configuration_queries[2].1 == 0 {
+            Ok(self.f_ref_clk / 2.0)
+        }
+        else {
+            Ok(self.f_ref_clk)
+        }
+    }
 }
 
 // Strong check for bytes passed to a register

src/flash.rs

@@ -1,91 +1,408 @@
-use embedded_hal::{
-    digital::v2::{OutputPin, InputPin},
-    blocking::spi::Transfer,
-    blocking::delay::DelayUs,
-};
+//! Flash memory, with major reference from STM32F7xx_HAL crate,
+//! as well as @Astro 's work in STM32F4xx_HAL
 
-#[derive(Debug)]
-pub enum FPGAFlashError {
-    SPICommunicationError,
-    NegotiationError,
-    ResetStatusError,
+use stm32h7xx_hal::pac::FLASH;
+
+/// Base address of flash memory on AXIM interface.
+const FLASH_BASE: *mut u8 = 0x800_0000 as *mut u8;
+
+/// The last valid flash address in STM32H743
+const MAX_FLASH_ADDRESS: *mut u8 = 0x81F_FFFF as *mut u8;
+
+/// Flash programming error.
+#[derive(Debug, PartialEq, Eq)]
+pub enum Error {
+    Busy,
+    Locked,
+    WriteProtection,
+    ProgrammingSequence,
+    Strobe,
+    Inconsistency,
+    Operation,
+    ErrorCorrectionCode,
+    ReadProtection,
+    ReadSecure,
+    WriteError
 }
 
-const DATA: &'static [u8] = include_bytes!("../build/top.bin");
+/// Embedded flash memory.
+pub struct Flash {
+    registers: FLASH,
+}
 
-// A public method to flash iCE40 FPGA on Humpback
-pub fn flash_ice40_fpga<SPI: Transfer<u8>,
-                        SS: OutputPin,
-                        RST: OutputPin,
-                        DELAY: DelayUs<u32>,
-                        DONE: InputPin>
-    (mut spi: SPI, mut ss: SS, mut creset: RST, cdone: DONE, mut delay: DELAY) -> Result<(), FPGAFlashError>
-{
-    // Data buffer setup
-    let mut dummy_byte :[u8; 1] = [0x00];
-    let mut dummy_13_bytes :[u8; 13] = [0x00; 13];
-
-    // Drive CRESET_B low
-    creset.set_low()
-            .map_err(|_| FPGAFlashError::NegotiationError)?;
-
-    // Drive SPI_SS_B low
-    ss.set_low()
-        .map_err(|_| FPGAFlashError::NegotiationError)?;
-
-    // Wait at least 200ns
-    delay.delay_us(1_u32);
-
-    // Drive CRESET_B high
-    creset.set_high()
-            .map_err(|_| FPGAFlashError::NegotiationError)?;
-
-    // Wait at least another 1200us to clear internal config memory
-    delay.delay_us(1200_u32);
-
-    // Before data transmission starts, check if C_DONE is truly low
-    // If C_DONE is high, the FPGA reset procedure is unsuccessful
-    match cdone.is_low() {
-        Ok(true) => {},
-        _ => return Err(FPGAFlashError::ResetStatusError),
-    };
-
-    // Set SPI_SS_B high
-    ss.set_high()
-        .map_err(|_| FPGAFlashError::NegotiationError)?;
-
-    // Send 8 dummy clock, effectively 1 byte of 0x00
-    spi.transfer(&mut dummy_byte)
-        .map_err(|_| FPGAFlashError::SPICommunicationError)?;
-
-    // Drive SPI_SS_B low
-    ss.set_low()
-        .map_err(|_| FPGAFlashError::NegotiationError)?;
-
-    // Send the whole image without interruption
-    for byte in DATA.into_iter() {
-        let mut single_byte_slice = [*byte];
-        spi.transfer(&mut single_byte_slice)
-            .map_err(|_| FPGAFlashError::SPICommunicationError)?;
+impl Flash {
+    /// Creates a new Flash instance.
+    pub fn new(flash: FLASH) -> Self {
+        let mut flash = Self { registers: flash };
+        // Lock both banks initially
+        flash.lock();
+        flash
     }
 
-    // Drive SPI_SS_B high
-    ss.set_high()
-        .map_err(|_| FPGAFlashError::NegotiationError)?;
+    /// Unlocks the FLASH_CR1/2 register.
+    pub fn unlock(&mut self) {
+        // Note: Unlocking an unlocked bank will cause HardFault
 
-    // Send at another 100 dummy clocks (choosing 13 bytes)
-    spi.transfer(&mut dummy_13_bytes)
-        .map_err(|_| FPGAFlashError::SPICommunicationError)?;
+        // Unlock bank 1 if needed.
+        if self.bank1_is_locked() {
+            self.registers.bank1_mut().keyr.write(|w| unsafe {
+                w.keyr().bits(0x45670123)
+            });
+            self.registers.bank1_mut().keyr.write(|w| unsafe {
+                w.keyr().bits(0xCDEF89AB)
+            });
+        }
 
-    // Check the CDONE output from FPGA
-    // CDONE needs to be high
-    match cdone.is_high() {
-        Ok(true) => {},
-        _ => return Err(FPGAFlashError::ResetStatusError),
-    };
+        // Unlock bank 2 if needed.
+        if self.bank2_is_locked() {
+            self.registers.bank2_mut().keyr.write(|w| unsafe {
+                w.keyr().bits(0x45670123)
+            });
+            self.registers.bank2_mut().keyr.write(|w| unsafe {
+                w.keyr().bits(0xCDEF89AB)
+            });
+        }
+    }
 
-    // Send at least another 49 clock cycles to activate IO pins (choosing same 13 bytes)
-    spi.transfer(&mut dummy_13_bytes).map_err(|_| FPGAFlashError::SPICommunicationError)?;
-    Ok(())
+    /// Unlocks the FLASH_OPTCR register
+    pub fn unlock_optcr(&mut self) {
+        if self.optcr_is_locked() {
+            self.registers.optkeyr_mut().write(|w| unsafe {
+                w.optkeyr().bits(0x08192A3B)
+            });
+            self.registers.optkeyr_mut().write(|w| unsafe {
+                w.optkeyr().bits(0x4C5D6E7F)
+            });
+        }
+    }
 
-}
+    /// Locks the FLASH_CR1/2 register.
+    pub fn lock(&mut self) {
+        self.registers.bank1_mut().cr.modify(|_, w| w.lock().set_bit());
+        self.registers.bank2_mut().cr.modify(|_, w| w.lock().set_bit());
+    }
+
+    /// Lock the FLASH_OPTCR register
+    pub fn lock_optcr(&mut self) {
+        self.registers.optcr_mut().modify(|_, w| w.optlock().set_bit());
+    }
+
+    // More literal methods to get bank status
+    fn bank1_is_locked(&self) -> bool {
+        self.registers.bank1_mut().cr.read().lock().bit_is_set()
+    }
+    fn bank2_is_locked(&self) -> bool {
+        self.registers.bank2_mut().cr.read().lock().bit_is_set()
+    }
+    fn optcr_is_locked(&self) -> bool {
+        self.registers.optcr().read().optlock().bit_is_set()
+    }
+
+    pub fn is_locked(&self) -> bool {
+        self.bank1_is_locked() || self.bank2_is_locked()
+    }
+
+    /// Returns `true` if a write/erase operation is in progress.
+    fn is_busy(&self) -> bool {
+        let (sr1, sr2) = (
+            self.registers.bank1_mut().sr.read(),
+            self.registers.bank2_mut().sr.read()
+        );
+        sr1.bsy().bit_is_set() || sr2.bsy().bit_is_set()
+    }
+
+    /// Returns `true` if a write/erase operation is in a command queue buffer.
+    fn is_queuing(&self) -> bool {
+        let (sr1, sr2) = (
+            self.registers.bank1_mut().sr.read(),
+            self.registers.bank2_mut().sr.read()
+        );
+        sr1.qw().bit_is_set() || sr2.qw().bit_is_set()
+    }
+
+    /// Returns `true` if write buffer is not empty in bank 1
+    fn bank1_is_buffering(&self) -> bool {
+        let sr1 = self.registers.bank1_mut().sr.read();
+        sr1.wbne().bit_is_set()
+    }
+
+    /// Returns `true` if write buffer is not empty in bank 2
+    fn bank2_is_buffering(&self) -> bool {
+        let sr2 = self.registers.bank2_mut().sr.read();
+        sr2.wbne().bit_is_set()
+    }
+
+    /// Erase a sector.
+    pub fn erase_sector(&mut self, bank_number: u8, sector_number: u8) -> Result<(), Error> {
+        // Assert parameters validity
+        assert!(bank_number == 1 || bank_number == 2);
+        assert!(sector_number < 8);
+        // 1. Check & clear error flags
+        self.clear_errors();
+        // 2. Unlock FLASH_CR1/2 register if necessary
+        self.unlock();
+        // 3. Set SER1/2 & SNB1/2 bits in FLASH_CR1/2 register
+        // 4. Set START1/2 bit in FLASH_CR1/2 register
+        match bank_number {
+            1 => {
+                self.registers.bank1_mut().cr.modify(|_, w| unsafe {
+                    w.ser()
+                        .set_bit()
+                        .snb()
+                        .bits(sector_number)
+                });
+                self.registers.bank1_mut().cr.modify(|_, w| {
+                    w.start().set_bit()
+                });
+            },
+            2 => {
+                self.registers.bank2_mut().cr.modify(|_, w| unsafe {
+                    w.ser()
+                        .set_bit()
+                        .snb()
+                        .bits(sector_number)
+                });
+                self.registers.bank2_mut().cr.modify(|_, w| {
+                    w.start().set_bit()
+                });
+            },
+            _ => unreachable!()
+        }
+        // Lock the flash CR again
+        self.lock();
+        Ok(())
+    }
+
+    /// Erase a bank.
+    pub fn erase_bank(&mut self, bank_number: u8) -> Result<(), Error> {
+        // Assert parameters validity
+        assert!(bank_number == 1 || bank_number == 2);
+        // 1. Check & clear error flags
+        self.clear_errors();
+        // 2. Unlock FLASH_CR1/2 register if necessary
+        self.unlock();
+        // 3 & 4. Set BER1/2 bit and START1/2 bit in FLASH_CR1/2 register
+        //         Wait until the corresponding QW1/2 bit is cleared.
+        // Note: By setting BER1/2 bit alongside START1/2,
+        //       mass erase is invoked since it supersedes sector erase.
+        match bank_number {
+            1 => {
+                self.registers.bank1_mut().cr.modify(|_, w| {
+                    w.ber()
+                        .set_bit()
+                        .start()
+                        .set_bit()
+                });
+                while self.registers.bank1_mut().sr.read().qw().bit_is_set() {}
+            },
+            2 => {
+                self.registers.bank2_mut().cr.modify(|_, w| {
+                    w.ber()
+                        .set_bit()
+                        .start()
+                        .set_bit()
+                });
+                while self.registers.bank2_mut().sr.read().qw().bit_is_set() {}
+            },
+            _ => unreachable!()
+        }
+        // Lock the flash CR again
+        self.lock();
+        Ok(())
+    }
+
+    /// Mass erases of the flash memory.
+    pub fn mass_erase(&mut self) -> Result<(), Error> {
+        // 1. Check & clear error flags
+        self.clear_errors();
+        // 2. Unlock Flash_CR1&2, FLASH_OPTCR registers
+        self.unlock();
+        self.unlock_optcr();
+        // 3. Set MER in FLASH_OPTCR to 1, wait until both QW to clear
+        self.registers.optcr_mut().modify(|_, w| {
+            w.mer().set_bit()
+        });
+        while self.is_queuing() {}
+        // Lock the flash CR and OPTCR again
+        self.lock();
+        self.lock_optcr();
+        Ok(())
+    }
+
+    /// Program flash words (32-bytes).
+    /// Flashing incomplete flash word is "tolerated", but you have been warned..
+    pub fn program<'a, 'b>(
+        &'a mut self,
+        start_offset: usize,
+        data: &'b [u8],
+    ) -> Result<(), Error> {
+        if (start_offset % 32 != 0) || (data.len() % 32 != 0) {
+            log::warn!("Warning: This flash operation might not be supported...");
+            log::warn!("Consider force writing the data in buffer...");
+        }
+        self.clear_errors();
+        // Invoke single writes per 32-bytes row
+        let mut current_address = start_offset;
+        let mut remaining_data = data;
+        while remaining_data.len() != 0 {
+            let single_write_size = 32 - (current_address % 32);
+            // Determine the index that split the coming row and the remaining bytes.
+            let splitting_index = core::cmp::min(
+                single_write_size,
+                remaining_data.len()
+            );
+            let single_row_data = &remaining_data[..splitting_index];
+            // 1. Unlock FLASH_CR1/2 register if necessary
+            self.unlock();
+            // 2. Set PG bit in FLASH_CR1/2
+            self.registers.bank1_mut().cr.modify(|_, w| {
+                w.pg().set_bit()
+            });
+            self.registers.bank2_mut().cr.modify(|_, w| {
+                w.pg().set_bit()
+            });
+            // 3. Check Protection
+            // There should not be any data protection anyway...
+            // 4. Write data byte by byte
+            for (index, byte) in single_row_data.iter().enumerate() {
+                while self.is_busy() {}
+                match self.check_errors() {
+                    Ok(_) => {
+                        let address: *mut u8 = unsafe {
+                            FLASH_BASE.add(current_address + index)
+                        };
+                        if address > MAX_FLASH_ADDRESS {
+                            self.registers.bank1_mut().cr.modify(|_, w| w.pg().clear_bit());
+                            self.registers.bank2_mut().cr.modify(|_, w| w.pg().clear_bit());
+                            return Err(Error::WriteError);
+                        } else {
+                            unsafe {
+                                core::ptr::write_volatile(address, *byte);
+                            }
+                        }
+                    },
+                    Err(error) => {
+                        self.registers.bank1_mut().cr.modify(|_, w| w.pg().clear_bit());
+                        self.registers.bank2_mut().cr.modify(|_, w| w.pg().clear_bit());
+                        return Err(error);
+                    }
+                }
+            }
+            // 5. Wait till the command queue of the device to be empty
+            while self.is_queuing() {}
+            // Modify remaining data and the address for next 32-bytes row.
+            remaining_data = &remaining_data[splitting_index..];
+            current_address += single_row_data.len();
+        }
+        // Reset PG1/2
+        self.registers.bank1_mut().cr.modify(|_, w| w.pg().clear_bit());
+        self.registers.bank2_mut().cr.modify(|_, w| w.pg().clear_bit());
+        // Lock FLASH_CR1/2 register
+        self.lock();
+        Ok(())
+    }
+
+    /// Force empty the bytes buffer for flash programming
+    /// Warning: It can invalidate the whole flash due to invalid CRC.
+    pub fn force_write<'a>(
+        &'a mut self
+    ) -> Result<(), Error> {
+        if self.bank1_is_buffering() {
+            self.registers.bank1_mut().cr.modify(
+                |_, w| w.fw().set_bit()
+            );
+        }
+        if self.bank2_is_buffering() {
+            self.registers.bank2_mut().cr.modify(
+                |_, w| w.fw().set_bit()
+            );
+        }
+        Ok(())
+    }
+
+    /// Read a slice from flash memory
+    pub fn read(&self, start_offset: usize, len: usize) -> &'static [u8] {
+        let address = unsafe {
+            FLASH_BASE.add(start_offset)
+        };
+        unsafe { core::slice::from_raw_parts(address, len) }
+    }
+
+    /// Releases the flash peripheral.
+    pub fn free(self) -> FLASH {
+        self.registers
+    }
+
+    /// Checks the error flags.
+    fn check_errors(&self) -> Result<(), Error> {
+        let (sr1, sr2) = (
+            self.registers.bank1_mut().sr.read(),
+            self.registers.bank2_mut().sr.read()
+        );
+
+        if sr1.wrperr().bit_is_set() || sr2.wrperr().bit_is_set() {
+            Err(Error::WriteProtection)
+        } else if sr1.pgserr().bit_is_set() || sr2.pgserr().bit_is_set() {
+            Err(Error::ProgrammingSequence)
+        } else if sr1.strberr().bit_is_set() || sr2.strberr().bit_is_set() {
+            Err(Error::Strobe)
+        } else if sr1.incerr().bit_is_set() || sr2.incerr().bit_is_set() {
+            Err(Error::Inconsistency)
+        } else if sr1.operr().bit_is_set() || sr2.operr().bit_is_set() {
+            Err(Error::Operation)
+        } else if sr1.sneccerr1().bit_is_set() || sr1.dbeccerr().bit_is_set()
+                || sr2.sneccerr1().bit_is_set() || sr2.dbeccerr().bit_is_set() {
+            Err(Error::ErrorCorrectionCode)
+        } else if sr1.rdperr().bit_is_set() || sr2.rdperr().bit_is_set() {
+            Err(Error::ReadProtection)
+        } else if sr1.rdserr().bit_is_set() || sr2.rdserr().bit_is_set() {
+            Err(Error::ReadSecure)
+        } else {
+            Ok(())
+        }
+    }
+
+    /// Clears all error flags.
+    fn clear_errors(&mut self) {
+        self.registers.bank1_mut().ccr.write(|w| {
+            w.clr_wrperr()
+                .set_bit()
+                .clr_pgserr()
+                .set_bit()
+                .clr_strberr()
+                .set_bit()
+                .clr_incerr()
+                .set_bit()
+                .clr_operr()
+                .set_bit()
+                .clr_rdperr()
+                .set_bit()
+                .clr_rdserr()
+                .set_bit()
+                .clr_sneccerr()
+                .set_bit()
+                .clr_dbeccerr()
+                .set_bit()
+        });
+        self.registers.bank2_mut().ccr.write(|w| {
+            w.clr_wrperr()
+                .set_bit()
+                .clr_pgserr()
+                .set_bit()
+                .clr_strberr()
+                .set_bit()
+                .clr_incerr()
+                .set_bit()
+                .clr_operr()
+                .set_bit()
+                .clr_rdperr()
+                .set_bit()
+                .clr_rdserr()
+                .set_bit()
+                .clr_sneccerr()
+                .set_bit()
+                .clr_dbeccerr()
+                .set_bit()
+        });
+    }
+}

src/flash_store.rs

@@ -0,0 +1,171 @@
+use crate::flash::Flash;
+use crate::flash::Error as FlashError;
+
+use stm32h7xx_hal::pac::FLASH;
+use sfkv::{ StoreBackend, Store };
+
+use log::error;
+
+// Use the first 8KiB of last sector of bank 2 for config
+// i.e. 0x081E0000 to 0x081E2000
+// The sector size might be too large for `compact()` to work with intended benefit.
+pub const FLASH_SECTOR_SIZE: usize = 0x2000;
+pub const FLASH_BANK: u8 = 2;
+pub const FLASH_SECTOR: u8 = 7;
+pub const FLASH_SECTOR_OFFSET: usize = 0x1E0000;
+pub static mut BACKUP_SPACE: [u8; FLASH_SECTOR_SIZE] = [0x00; FLASH_SECTOR_SIZE];
+// Middle space will pretend to be the flash (i.e. the fake flash, or a very large cache)
+// STM32H7 flash is an abomination.
+// static mut MIDDLE_SPACE: [u8; FLASH_SECTOR_SIZE] = [0xFF; FLASH_SECTOR_SIZE];
+
+#[derive(Debug, Clone, Copy, PartialEq)]
+pub enum SFKVProcessType {
+    Length,
+    Type,
+    Space,
+    Data,
+}
+
+// Manage access to flash memory
+// Motivation: STM32H7 flash only accepts 32-bytes transaction, SFKV mandates byte-by-byte access
+//              A middle layer is needed to inplement SFKV, that is acceptable to STM32H7 flash
+// Idea: Forces BACKUP_SPACE to act as a cache.
+pub struct FakeFlashManager {
+    // FSM: Track the type of data being programmed
+    process_type: SFKVProcessType
+}
+
+impl StoreBackend for FakeFlashManager {
+    type Data = [u8];
+
+    // Return 
+    fn data(&self) -> &Self::Data {
+        unsafe { &BACKUP_SPACE }
+    }
+
+    type Error = FlashError;
+
+    fn erase(&mut self) -> Result<(), Self::Error> {
+        self.reset_state();
+        Ok(())
+    }
+
+    fn program(&mut self, offset: usize, payload: &[u8]) -> Result<(), Self::Error> {
+        // Skip programming if payload is 0 length
+        if payload.len() == 0 {
+            self.advance_state();
+            return Ok(());
+        }
+
+        // Examine payload address
+        // If it is not identical to the programming address of the bankup space,
+        // Program trailing bytes of 0xFF to prevent misinterpretation of data.
+        unsafe {
+            let cache_ptr: *const u8 = &BACKUP_SPACE[offset] as *const u8;
+            let payload_ptr: *const u8 = &(*payload)[0] as *const u8;
+
+            BACKUP_SPACE[offset..(offset+payload.len())].copy_from_slice(payload);
+
+            // This part program extra trailing termination bytes (4 0xFF s)
+            // However, if the remaining space is too small, there is also no need to program these bytes
+            // Bytes that are too short will not be picked up by the iterator in sfkv.
+
+            // If the data is programmed back to the exact same spot,
+            // then we can assert that no k-v pair were ditched
+            // Then there is no concern of accidentally interpreting unused flash memory as malformatted.
+            if (cache_ptr != payload_ptr)
+                && (offset+payload.len()+4 <= FLASH_SECTOR_SIZE)
+                && self.process_type == SFKVProcessType::Data
+            {
+                BACKUP_SPACE[(offset+payload.len())..(offset+payload.len()+4)].copy_from_slice(&[0xFF; 4]);
+            }
+        }
+        self.advance_state();
+        Ok(())
+    }
+
+    fn backup_space(&self) -> &'static mut [u8] {
+        unsafe { &mut BACKUP_SPACE }
+    }
+}
+
+impl FakeFlashManager {
+    pub fn new() -> Self {
+        Self {
+            process_type: SFKVProcessType::Length,
+        }
+    }
+
+    pub fn advance_state(&mut self) {
+        self.process_type = match self.process_type {
+            SFKVProcessType::Length => {
+                SFKVProcessType::Type
+            },
+            SFKVProcessType::Type => {
+                SFKVProcessType::Space
+            },
+            SFKVProcessType::Space => {
+                SFKVProcessType::Data
+            },
+            SFKVProcessType::Data => {
+                SFKVProcessType::Length
+            }
+        };
+    }
+
+    pub fn reset_state(&mut self) {
+        self.process_type = SFKVProcessType::Length;
+    }
+}
+
+pub type FlashStore = Store<FakeFlashManager>;
+
+fn init_flash_cache(flash: FLASH) -> Flash {
+    let flash = Flash::new(flash);
+    // Initialize backup space
+    // Now backup space acts like a cache,
+    // sfkv will perform in-place operation in cache
+    // flash will only be updated after invoking `save()`
+    unsafe {
+        BACKUP_SPACE.copy_from_slice(
+            flash.read(FLASH_SECTOR_OFFSET, FLASH_SECTOR_SIZE)
+        );
+    }
+    flash
+}
+
+fn init_flash_store() -> FlashStore {
+    let ffm = FakeFlashManager::new();
+    let mut store = FlashStore::new(ffm);
+
+    // just try to read the store
+    match store.get_bytes_used() {
+        Ok(_) => {}
+        Err(e) => {
+            error!("corrupt store, erasing. error: {:?}", e);
+            let _ = store.erase()
+                .map_err(|e| error!("flash erase failed: {:?}", e));
+        }
+    }
+
+    store
+}
+
+pub fn init_flash(flash: FLASH) -> (Flash, FlashStore) {
+    let flash = init_flash_cache(flash);
+    let store = init_flash_store();
+    (flash, store)
+}
+
+pub fn update_flash(flash: &mut Flash, store: &FlashStore) -> Result<(), FlashError> {
+    flash.erase_sector(FLASH_BANK, FLASH_SECTOR)?;
+    let flash_size = store.get_bytes_used().unwrap();
+    let save_size = if (flash_size % 0x20) == 0 {
+        flash_size
+    } else {
+        flash_size + 0x20 - (flash_size % 0x20)
+    };
+    unsafe {
+        flash.program(FLASH_SECTOR_OFFSET, &BACKUP_SPACE[..save_size]).map(|_| ())
+    }
+}

src/fpga.rs

@@ -0,0 +1,91 @@
+use embedded_hal::{
+    digital::v2::{OutputPin, InputPin},
+    blocking::spi::Transfer,
+    blocking::delay::DelayUs,
+};
+
+#[derive(Debug)]
+pub enum FPGAFlashError {
+    SPICommunicationError,
+    NegotiationError,
+    ResetStatusError,
+}
+
+const DATA: &'static [u8] = include_bytes!("../build/top.bin");
+
+// A public method to flash iCE40 FPGA on Humpback
+pub fn flash_ice40_fpga<SPI: Transfer<u8>,
+                        SS: OutputPin,
+                        RST: OutputPin,
+                        DELAY: DelayUs<u32>,
+                        DONE: InputPin>
+    (mut spi: SPI, mut ss: SS, mut creset: RST, cdone: DONE, mut delay: DELAY) -> Result<(), FPGAFlashError>
+{
+    // Data buffer setup
+    let mut dummy_byte :[u8; 1] = [0x00];
+    let mut dummy_13_bytes :[u8; 13] = [0x00; 13];
+
+    // Drive CRESET_B low
+    creset.set_low()
+            .map_err(|_| FPGAFlashError::NegotiationError)?;
+
+    // Drive SPI_SS_B low
+    ss.set_low()
+        .map_err(|_| FPGAFlashError::NegotiationError)?;
+
+    // Wait at least 200ns
+    delay.delay_us(1_u32);
+
+    // Drive CRESET_B high
+    creset.set_high()
+            .map_err(|_| FPGAFlashError::NegotiationError)?;
+
+    // Wait at least another 1200us to clear internal config memory
+    delay.delay_us(1200_u32);
+
+    // Before data transmission starts, check if C_DONE is truly low
+    // If C_DONE is high, the FPGA reset procedure is unsuccessful
+    match cdone.is_low() {
+        Ok(true) => {},
+        _ => return Err(FPGAFlashError::ResetStatusError),
+    };
+
+    // Set SPI_SS_B high
+    ss.set_high()
+        .map_err(|_| FPGAFlashError::NegotiationError)?;
+
+    // Send 8 dummy clock, effectively 1 byte of 0x00
+    spi.transfer(&mut dummy_byte)
+        .map_err(|_| FPGAFlashError::SPICommunicationError)?;
+
+    // Drive SPI_SS_B low
+    ss.set_low()
+        .map_err(|_| FPGAFlashError::NegotiationError)?;
+
+    // Send the whole image without interruption
+    for byte in DATA.into_iter() {
+        let mut single_byte_slice = [*byte];
+        spi.transfer(&mut single_byte_slice)
+            .map_err(|_| FPGAFlashError::SPICommunicationError)?;
+    }
+
+    // Drive SPI_SS_B high
+    ss.set_high()
+        .map_err(|_| FPGAFlashError::NegotiationError)?;
+
+    // Send at another 100 dummy clocks (choosing 13 bytes)
+    spi.transfer(&mut dummy_13_bytes)
+        .map_err(|_| FPGAFlashError::SPICommunicationError)?;
+
+    // Check the CDONE output from FPGA
+    // CDONE needs to be high
+    match cdone.is_high() {
+        Ok(true) => {},
+        _ => return Err(FPGAFlashError::ResetStatusError),
+    };
+
+    // Send at least another 49 clock cycles to activate IO pins (choosing same 13 bytes)
+    spi.transfer(&mut dummy_13_bytes).map_err(|_| FPGAFlashError::SPICommunicationError)?;
+    Ok(())
+
+}

src/main.rs

@@ -2,25 +2,30 @@
 #![no_std]
 #![feature(core_intrinsics)]
 #![feature(assoc_char_funcs)]
+#![feature(alloc_error_handler)]
 
 use log::{ trace, warn };
 use stm32h7xx_hal::gpio::Speed;
+use stm32h7xx_hal::rng::Rng;
 use stm32h7xx_hal::{pac, prelude::*, spi};
 use stm32h7xx_hal::ethernet;
 
 use smoltcp as net;
-use minimq::{
-    embedded_nal::{ IpAddr, Ipv4Addr },
-    MqttClient, QoS
-};
+use smoltcp_tls as tls;
+
+use minimq::{ MqttClient, QoS };
 
 use cortex_m;
 use cortex_m_rt::entry;
+use alloc_cortex_m::CortexMHeap;
 use rtic::cyccnt::{Instant, U32Ext};
+use rand_core::{RngCore, CryptoRng};
 
+use tls::TlsRng;
+use tls::tls::TlsSocket;
+use tls::tcp_stack::NetworkStack;
 use heapless::{ String, consts, consts::* };
-
-use core::convert::TryInto;
+use core::alloc::Layout;
 
 #[macro_use]
 pub mod bitmask_macro;
@@ -30,17 +35,31 @@ use crate::cpld::CPLD;
 pub mod config_register;
 pub mod attenuator;
 pub mod dds;
-pub mod nal_tcp_client;
-use crate::nal_tcp_client::{ NetStorage, NetworkStack };
-pub mod flash;
-use crate::flash::flash_ice40_fpga;
+pub mod net_store;
+use crate::net_store::NetStorage;
+pub mod fpga;
+use crate::fpga::flash_ice40_fpga;
 pub mod mqtt_mux;
 use crate::mqtt_mux::MqttMux;
 pub mod urukul;
 use crate::urukul::Urukul;
+pub mod flash;
+pub mod config;
+use crate::config::get_net_config;
+pub mod flash_store;
+use crate::flash_store::init_flash;
 
 mod logger;
 
+#[global_allocator]
+static ALLOCATOR: CortexMHeap = CortexMHeap::empty();
+
+#[alloc_error_handler]
+fn oom(_: Layout) -> ! {
+    warn!("Out of memory!");
+    loop {}
+}
+
 static mut NET_STORE: NetStorage = NetStorage {
     // Placeholder for the real IP address, which is initialized at runtime.
     ip_addrs: [net::wire::IpCidr::Ipv6(
@@ -53,25 +72,40 @@ static mut NET_STORE: NetStorage = NetStorage {
 #[link_section = ".sram3.eth"]
 static mut DES_RING: ethernet::DesRing = ethernet::DesRing::new();
 
-macro_rules! add_socket {
-    ($sockets:ident, $tx_storage:ident, $rx_storage:ident) => {
-        let mut $rx_storage = [0; 4096];
-        let mut $tx_storage = [0; 4096];
-
-        let tcp_socket = {
-            let tx_buffer = net::socket::TcpSocketBuffer::new(&mut $tx_storage[..]);
-            let rx_buffer = net::socket::TcpSocketBuffer::new(&mut $rx_storage[..]);
-
-            net::socket::TcpSocket::new(tx_buffer, rx_buffer)
-        };
-
-        let _handle = $sockets.add(tcp_socket);
-    };
+struct RngStruct {
+    rng: Rng
 }
 
+impl RngCore for RngStruct {
+    fn next_u32(&mut self) -> u32 {
+        self.rng.gen().unwrap()
+    }
+
+    fn next_u64(&mut self) -> u64 {
+        (u64::from(self.next_u32()) << 32) | u64::from(self.next_u32())
+    }
+
+    fn fill_bytes(&mut self, dest: &mut [u8]) {
+        self.rng.fill(dest).unwrap();
+    }
+
+    fn try_fill_bytes(&mut self, dest: &mut [u8]) -> Result<(), rand_core::Error> {
+        Ok(self.fill_bytes(dest))
+    }
+}
+
+impl CryptoRng for RngStruct {}
+
+impl TlsRng for RngStruct {}
+
 #[entry]
 fn main() -> ! {
 
+    // Initialize the allocator BEFORE you use it
+    let start = cortex_m_rt::heap_start() as usize;
+    let size = 32768; // in bytes
+    unsafe { ALLOCATOR.init(start, size) }
+
     let mut cp = cortex_m::Peripherals::take().unwrap();
     let dp = pac::Peripherals::take().unwrap();
 
@@ -104,6 +138,17 @@ fn main() -> ! {
 
     cp.DWT.enable_cycle_counter();
 
+    // Instantiate random number generator
+    let mut rng = RngStruct {
+        rng: dp.RNG.constrain(ccdr.peripheral.RNG, &ccdr.clocks)
+    };
+
+    // Create sfkv store and flash storage manager
+    let (flash, mut flash_store) = init_flash(dp.FLASH);
+
+    // Acquire client/broker IP Address, client MAC address from flash memory
+    let net_config = get_net_config(&mut flash_store);
+
     let gpioa = dp.GPIOA.split(ccdr.peripheral.GPIOA);
     let gpiob = dp.GPIOB.split(ccdr.peripheral.GPIOB);
     let gpioc = dp.GPIOC.split(ccdr.peripheral.GPIOC);
@@ -112,58 +157,6 @@ fn main() -> ! {
     let gpiof = dp.GPIOF.split(ccdr.peripheral.GPIOF);
     let gpiog = dp.GPIOG.split(ccdr.peripheral.GPIOG);
 
-    // Acquire client/broker IP Address, client MAC address from flash memory
-    let ipv4_addr_cidr = unsafe {
-        let ipv4_bits = core::ptr::read(0x08100000 as *const u64);
-        net::wire::IpCidr::new(
-            net::wire::IpAddress::v4(
-                ((ipv4_bits >> 32) & 0xFF).try_into().unwrap(),
-                ((ipv4_bits >> 24) & 0xFF).try_into().unwrap(),
-                ((ipv4_bits >> 16) & 0xFF).try_into().unwrap(),
-                ((ipv4_bits >>  8) & 0xFF).try_into().unwrap()
-            ),
-            ((ipv4_bits >>  0) & 0xFF).try_into().unwrap()
-        )
-    };
-
-    let mac_addr = unsafe {
-        let mac_bits = core::ptr::read(0x08100020 as *const u64);
-        net::wire::EthernetAddress([
-            ((mac_bits >> 40) & 0xFF).try_into().unwrap(),
-            ((mac_bits >> 32) & 0xFF).try_into().unwrap(),
-            ((mac_bits >> 24) & 0xFF).try_into().unwrap(),
-            ((mac_bits >> 16) & 0xFF).try_into().unwrap(),
-            ((mac_bits >>  8) & 0xFF).try_into().unwrap(),
-            (mac_bits & 0xFF).try_into().unwrap(),
-        ])
-    };
-
-    let broker_ipv4_addr = unsafe {
-        let ipv4_bits = core::ptr::read(0x08100040 as *const u64);
-        Ipv4Addr::new(
-            ((ipv4_bits >> 24) & 0xFF).try_into().unwrap(),
-            ((ipv4_bits >> 16) & 0xFF).try_into().unwrap(),
-            ((ipv4_bits >>  8) & 0xFF).try_into().unwrap(),
-            ((ipv4_bits >>  0) & 0xFF).try_into().unwrap()
-        )
-    };
-
-    let device_name: String<U32> = unsafe {
-        let mut name = String::new();
-        let mut addr = 0x08100060;
-        loop {
-            let c = core::ptr::read(addr as *const u8);
-            if c == 4 {
-                break;
-            } else {
-                name.push(c as char).unwrap();
-                addr += 1;
-            }
-        }
-        name
-    };
-
-
     // Note: ITM doesn't work beyond this, due to a pin conflict between:
     // - FPGA_SPI: SCK  (af5)
     // - ST_LINK SWO    (af0)
@@ -214,7 +207,7 @@ fn main() -> ! {
             dp.ETHERNET_MTL,
             dp.ETHERNET_DMA,
             &mut DES_RING,
-            mac_addr.clone(),
+            net_config.eth_addr.clone(),
         )
     };
 
@@ -222,7 +215,7 @@ fn main() -> ! {
 
     let store = unsafe { &mut NET_STORE };
 
-    store.ip_addrs[0] = ipv4_addr_cidr;
+    store.ip_addrs[0] = net_config.ip_cidr;
 
     let neighbor_cache = net::iface::NeighborCache::new(&mut store.neighbor_cache[..]);
 
@@ -231,7 +224,7 @@ fn main() -> ! {
     routes.add_default_ipv4_route(default_v4_gw).unwrap();
 
     let mut net_interface = net::iface::EthernetInterfaceBuilder::new(eth_dma)
-        .ethernet_addr(mac_addr)
+        .ethernet_addr(net_config.eth_addr)
         .neighbor_cache(neighbor_cache)
         .ip_addrs(&mut store.ip_addrs[..])
         .routes(routes)
@@ -269,12 +262,11 @@ fn main() -> ! {
     let switch = CPLD::new(spi, (cs0, cs1, cs2), io_update);
     let parts = switch.split();
 
-    let mut urukul = Urukul::new(
+    let urukul = Urukul::new(
         parts.spi1, parts.spi2, parts.spi3, parts.spi4, parts.spi5, parts.spi6, parts.spi7
-    );
-    urukul.reset().unwrap();
+    );    
 
-    let mut mqtt_mux = MqttMux::new(urukul, device_name.as_str());
+    let mut mqtt_mux = MqttMux::new(urukul, flash, flash_store, net_config.name.as_str());
 
     // Time unit in ms
     let mut time: u32 = 0;
@@ -284,16 +276,35 @@ fn main() -> ! {
     let mut next_ms = Instant::now();
     next_ms += 400_000.cycles();
 
-    let mut socket_set_entries: [_; 8] = Default::default();
-    let mut sockets = net::socket::SocketSet::new(&mut socket_set_entries[..]);
-    add_socket!(sockets, rx_storage, tx_storage);
+    let mut tls_socket_entries: [_; 1] = Default::default();
+    let mut tls_socket_set = smoltcp_tls::set::TlsSocketSet::new(
+        &mut tls_socket_entries[..]
+    );
 
-    let tcp_stack = NetworkStack::new(&mut net_interface, sockets);
+	let mut tx_storage = [0; 4096];
+    let mut rx_storage = [0; 4096];
+    let tx_buffer = net::socket::TcpSocketBuffer::new(&mut tx_storage[..]);
+    let rx_buffer = net::socket::TcpSocketBuffer::new(&mut rx_storage[..]);
+    let mut tcp_socket = net::socket::TcpSocket::new(rx_buffer, tx_buffer);
+    tcp_socket.set_keep_alive(
+        Some(net::time::Duration::from_secs(2))
+    );
+
+    let tls_socket = TlsSocket::new(
+        tcp_socket,
+        &mut rng,
+        None
+    );
+    let _ = tls_socket_set.add(tls_socket);
+
+    let tls_stack = NetworkStack::new(
+        tls_socket_set
+    );
 
     let mut client = MqttClient::<consts::U256, _>::new(
-        IpAddr::V4(broker_ipv4_addr),
-        device_name.as_str(),
-        tcp_stack,
+        net_config.broker_ip,
+        net_config.name.as_str(),
+        tls_stack,
     )
     .unwrap();
 
@@ -311,9 +322,8 @@ fn main() -> ! {
 
         // eth Poll if necessary
         // Do not poll if eth link is down
-        if tick && client.network_stack.update_delay(time) == 0 && eth_mac.phy_poll_link() {
-            client.network_stack.update(time);
-        }
+        while !eth_mac.phy_poll_link() {}
+        client.network_stack.poll(&mut net_interface, net::time::Instant::from_millis(time));
 
         // Process MQTT messages about Urukul/Control
         let connection = match client
@@ -323,7 +333,7 @@ fn main() -> ! {
             }) {
                 Ok(_) => true,
                 Err(e) => {
-                    warn!("{:?}", e);
+                    log::info!("Warn: {:?}", e);
                     false
                 },
             };
@@ -339,7 +349,7 @@ fn main() -> ! {
         }
         
         if connection && !has_subscribed && tick {
-            let mut str_builder: String<U128> = String::from(device_name.as_str());
+            let mut str_builder: String<U128> = String::from(net_config.name.as_str());
             str_builder.push_str("/Control/#").unwrap();
             match client.subscribe(str_builder.as_str(), &[]) {
                 Ok(()) => has_subscribed = true,

src/mqtt_mux.rs

@@ -13,6 +13,9 @@ use core::convert::TryInto;
 use crate::urukul::ClockSource as UrukulClockSource;
 use crate::urukul::Urukul;
 use crate::urukul::Error;
+use crate::flash_store::{ FlashStore, update_flash };
+use crate::flash::Flash;
+use crate::config::{ UrukulConfig, ChannelConfig };
 
 #[derive(Debug, Clone)]
 pub enum MqttTopic {
@@ -29,6 +32,8 @@ pub enum MqttTopic {
     SingletoneAmplitude(u8, u8),
     SingletonePhase(u8, u8),
     Profile,
+    Save,
+    Load,
 }
 
 // Prossible change: Make this enum public to all comm protocol (if any)
@@ -48,26 +53,131 @@ pub enum MqttCommand {
     SingletoneFrequency(u8, u8, f64),
     SingletoneAmplitude(u8, u8, f64),
     SingletonePhase(u8, u8, f64),
-    Profile(u8)
+    Profile(u8),
+    Save,
+    Load,
 }
 
 pub struct MqttMux<'s, SPI> {
     urukul: Urukul<SPI>,
     yet_to_respond: Option<MqttCommand>,
+    flash_controller: Flash,
+    flash_store: FlashStore,
     name: &'s str,
     float_buffer: ryu::Buffer,
 }
 
+const CHANNELS: [&str; 4] = [ "ch0", "ch1", "ch2", "ch3" ];
+static mut SERDE_BUFFER: [u8; 64] = [0; 64];
+
 impl<'s, SPI, E> MqttMux<'s, SPI> where SPI: Transfer<u8, Error = E> {
-    pub fn new(urukul: Urukul<SPI>, name: &'s str) -> Self {
-        MqttMux {
+    pub fn new(urukul: Urukul<SPI>, flash_controller: Flash, flash_store: FlashStore, name: &'s str) -> Self {
+        Self {
             urukul: urukul,
             yet_to_respond: None,
+            flash_controller,
+            flash_store,
             name: name,
             float_buffer: ryu::Buffer::new(),
         }
     }
 
+    fn load_device(&mut self) -> Result<(), Error<E>> {
+        self.urukul.reset()?;
+        let profile = match self.flash_store
+            .read_value::<UrukulConfig>("urukul")
+            .unwrap()
+        {
+            Some(urukul_config) => {
+                self.urukul.set_clock(
+                    urukul_config.clk_src,
+                    urukul_config.clk_freq,
+                    urukul_config.clk_div
+                )?;
+                self.urukul.set_profile(urukul_config.profile)?;
+                urukul_config.profile
+            },
+            None => 0,
+        };
+
+        for (channel, channel_tag) in CHANNELS.iter().enumerate() {
+            match self.flash_store
+                .read_value::<ChannelConfig>(channel_tag)
+                .unwrap()
+            {
+                Some(channel_config) => {
+                    self.urukul.set_channel_switch(
+                        channel as u32,
+                        channel_config.sw
+                    )?;
+                    self.urukul.set_channel_attenuation(
+                        channel as u8,
+                        channel_config.att
+                    )?;
+                    self.urukul.set_channel_sys_clk(
+                        channel as u8,
+                        channel_config.sys_clk
+                    )?;
+                    self.urukul.set_channel_single_tone_profile(
+                        channel as u8,
+                        profile,
+                        channel_config.freq,
+                        channel_config.phase,
+                        channel_config.asf,
+                    )?;
+                },
+                None => ()
+            };
+        }
+        Ok(())
+    }
+
+    fn save_device(&mut self) -> Result<(), Error<E>> {
+        let urukul_config = UrukulConfig {
+            clk_src: {
+                self.urukul.get_clock_source()?
+            },
+            clk_freq: {
+                self.urukul.get_clock_frequency()
+            },
+            clk_div: {
+                self.urukul.get_clock_division()?
+            },
+            profile: {
+                self.urukul.get_profile()?
+            }
+        };
+
+        unsafe { self.flash_store.write_value("urukul", &urukul_config, &mut SERDE_BUFFER).unwrap(); }
+
+        for channel in 0..4 {
+            let (freq, phase, asf) = self.urukul.get_channel_single_tone_profile(
+                channel as u8,
+                urukul_config.profile
+            )?;
+            let channel_config = ChannelConfig {
+                sw: {
+                    self.urukul.get_channel_switch_status(channel as u32)?
+                },
+                att: {
+                    self.urukul.get_channel_attenuation(channel as u8)?
+                },
+                sys_clk: {
+                    self.urukul.get_channel_sys_clk(channel as u8)?
+                },
+                freq,
+                phase,
+                asf
+            };
+            unsafe {
+                self.flash_store.write_value(CHANNELS[channel], &channel_config, &mut SERDE_BUFFER).unwrap();
+            }
+        }
+
+        update_flash(&mut self.flash_controller, &mut self.flash_store).unwrap();
+        Ok(())
+    }
+
     // Instead of using a return type, the result of processing the command is stored internally
     // Invoke process_mqtt_egress to get a response after invoking ingress handler
     pub fn process_mqtt_ingress(&mut self, topic: &str, message: &[u8]) {
@@ -273,6 +383,32 @@ impl<'s, SPI, E> MqttMux<'s, SPI> where SPI: Transfer<u8, Error = E> {
                     )).map_err(|_| Error::VectorOutOfSpace)?;
                     Ok(vec)
                 }
+
+                MqttCommand::Save => {
+                    vec.push((
+                        {
+                            let mut topic_string = String::from(self.name);
+                            topic_string.push_str("/Feedback/Save")
+                                .map_err(|_| Error::StringOutOfSpace)?;
+                            topic_string
+                        },
+                        String::from("Saved device.")
+                    )).map_err(|_| Error::VectorOutOfSpace)?;
+                    Ok(vec)
+                }
+
+                MqttCommand::Load => {
+                    vec.push((
+                        {
+                            let mut topic_string = String::from(self.name);
+                            topic_string.push_str("/Feedback/Load")
+                                .map_err(|_| Error::StringOutOfSpace)?;
+                            topic_string
+                        },
+                        String::from("Loaded from flash.")
+                    )).map_err(|_| Error::VectorOutOfSpace)?;
+                    Ok(vec)
+                }
             },
             None => Ok(vec),
         }
@@ -455,6 +591,20 @@ impl<'s, SPI, E> MqttMux<'s, SPI> where SPI: Transfer<u8, Error = E> {
                     return Ok(MqttTopic::Profile);
                 }
 
+                "Save" => {
+                    if assigned_channel || assigned_profile {
+                        return Err(Error::MqttCommandError)
+                    }
+                    return Ok(MqttTopic::Save);
+                }
+
+                "Load" => {
+                    if assigned_channel || assigned_profile {
+                        return Err(Error::MqttCommandError)
+                    }
+                    return Ok(MqttTopic::Load);
+                }
+
                 _ => return Err(Error::MqttCommandError),
             };
         }
@@ -475,6 +625,8 @@ impl<'s, SPI, E> MqttMux<'s, SPI> where SPI: Transfer<u8, Error = E> {
             MqttTopic::SingletoneAmplitude(ch, prof) => singletone_amplitude_message(ch, prof, message),
             MqttTopic::SingletonePhase(ch, prof) => singletone_phase_message(ch, prof, message),
             MqttTopic::Profile => profile_message(message),
+            MqttTopic::Save => Ok((message, MqttCommand::Save)),
+            MqttTopic::Load => Ok((message, MqttCommand::Load)),
         }
     }
 
@@ -494,6 +646,8 @@ impl<'s, SPI, E> MqttMux<'s, SPI> where SPI: Transfer<u8, Error = E> {
             MqttCommand::SingletoneAmplitude(ch, prof, ampl) => self.urukul.set_channel_single_tone_profile_amplitude(ch, prof, ampl),
             MqttCommand::SingletonePhase(ch, prof, deg) => self.urukul.set_channel_single_tone_profile_phase(ch, prof, deg),
             MqttCommand::Profile(prof) => self.urukul.set_profile(prof),
+            MqttCommand::Save => self.save_device(),
+            MqttCommand::Load => self.load_device(),
         }
     }
 

src/nal_tcp_client.rs

@@ -1,194 +0,0 @@
-use core::cell::RefCell;
-use nb;
-
-use heapless::{consts, Vec};
-
-use stm32h7xx_hal::ethernet;
-use smoltcp as net;
-
-use minimq::embedded_nal;
-
-#[derive(Debug)]
-pub enum NetworkError {
-    NoSocket,
-    ConnectionFailure,
-    ReadFailure,
-    WriteFailure,
-}
-
-pub struct NetStorage {
-    pub ip_addrs: [net::wire::IpCidr; 1],
-    pub neighbor_cache: [Option<(net::wire::IpAddress, net::iface::Neighbor)>; 8],
-    pub routes_cache: [Option<(net::wire::IpCidr, net::iface::Route)>; 8],
-}
-
-pub type NetworkInterface =
-    net::iface::EthernetInterface<'static, 'static, 'static, ethernet::EthernetDMA<'static>>;
-
-// TODO: The network stack likely needs a time-tracking mechanic here to support
-// blocking/nonblocking/timeout based operations.
-pub struct NetworkStack<'a, 'b, 'c, 'n> {
-    network_interface: &'n mut NetworkInterface,
-    sockets: RefCell<net::socket::SocketSet<'a, 'b, 'c>>,
-    next_port: RefCell<u16>,
-    unused_handles: RefCell<Vec<net::socket::SocketHandle, consts::U16>>,
-}
-
-impl<'a, 'b, 'c, 'n> NetworkStack<'a, 'b, 'c, 'n> {
-    pub fn new(
-        interface: &'n mut NetworkInterface,
-        sockets: net::socket::SocketSet<'a, 'b, 'c>,
-    ) -> Self {
-        let mut unused_handles: Vec<net::socket::SocketHandle, consts::U16> = Vec::new();
-        for socket in sockets.iter() {
-            unused_handles.push(socket.handle()).unwrap();
-        }
-
-        NetworkStack {
-            network_interface: interface,
-            sockets: RefCell::new(sockets),
-            next_port: RefCell::new(49152),
-            unused_handles: RefCell::new(unused_handles),
-        }
-    }
-
-    pub fn update_delay(&mut self, time: u32) -> u32 {
-        self.network_interface.poll_delay(
-            &mut self.sockets.borrow_mut(),
-            net::time::Instant::from_millis(time as i64),
-        ).map_or(0, |next_poll_time| next_poll_time.total_millis() as u32)
-    }
-
-    pub fn update(&mut self, time: u32) -> bool {
-        self.network_interface.poll(
-            &mut self.sockets.borrow_mut(),
-            net::time::Instant::from_millis(time as i64),
-        ).map_or(true, |changed| changed == false)
-    }
-
-    fn get_ephemeral_port(&self) -> u16 {
-        // Get the next ephemeral port
-        let current_port = self.next_port.borrow().clone();
-
-        let (next, wrap) = self.next_port.borrow().overflowing_add(1);
-        *self.next_port.borrow_mut() = if wrap { 49152 } else { next };
-
-        return current_port;
-    }
-}
-
-impl<'a, 'b, 'c, 'n> embedded_nal::TcpStack for NetworkStack<'a, 'b, 'c, 'n> {
-    type TcpSocket = net::socket::SocketHandle;
-    type Error = NetworkError;
-
-    fn open(&self, _mode: embedded_nal::Mode) -> Result<Self::TcpSocket, Self::Error> {
-        // TODO: Handle mode?
-        match self.unused_handles.borrow_mut().pop() {
-            Some(handle) => {
-                // Abort any active connections on the handle.
-                let mut sockets = self.sockets.borrow_mut();
-                let internal_socket: &mut net::socket::TcpSocket = &mut *sockets.get(handle);
-                internal_socket.abort();
-
-                Ok(handle)
-            }
-            None => Err(NetworkError::NoSocket),
-        }
-    }
-
-    fn connect(
-        &self,
-        socket: Self::TcpSocket,
-        remote: embedded_nal::SocketAddr,
-    ) -> Result<Self::TcpSocket, Self::Error> {
-        // TODO: Handle socket mode?
-
-        let mut sockets = self.sockets.borrow_mut();
-        let internal_socket: &mut net::socket::TcpSocket = &mut *sockets.get(socket);
-
-        // If we're already in the process of connecting, ignore the request silently.
-        if internal_socket.is_open() {
-            return Ok(socket);
-        }
-
-        match remote.ip() {
-            embedded_nal::IpAddr::V4(addr) => {
-                let address = {
-                    let octets = addr.octets();
-                    net::wire::Ipv4Address::new(octets[0], octets[1], octets[2], octets[3])
-                };
-                internal_socket
-                    .connect((address, remote.port()), self.get_ephemeral_port())
-                    .map_err(|_| NetworkError::ConnectionFailure)?;
-                internal_socket
-                    .set_keep_alive(Some(net::time::Duration::from_millis(1000)));
-            }
-            embedded_nal::IpAddr::V6(addr) => {
-                let address = {
-                    let octets = addr.segments();
-                    net::wire::Ipv6Address::new(
-                        octets[0], octets[1], octets[2], octets[3], octets[4], octets[5],
-                        octets[6], octets[7],
-                    )
-                };
-                internal_socket
-                    .connect((address, remote.port()), self.get_ephemeral_port())
-                    .map_err(|_| NetworkError::ConnectionFailure)?;
-                internal_socket
-                    .set_keep_alive(Some(net::time::Duration::from_millis(1000)));
-            }
-        };
-
-        Ok(socket)
-    }
-
-    fn is_connected(&self, socket: &Self::TcpSocket) -> Result<bool, Self::Error> {
-        let mut sockets = self.sockets.borrow_mut();
-        let socket: &mut net::socket::TcpSocket = &mut *sockets.get(*socket);
-
-        Ok(socket.may_send() && socket.may_recv())
-    }
-
-    fn write(&self, socket: &mut Self::TcpSocket, buffer: &[u8]) -> nb::Result<usize, Self::Error> {
-        // TODO: Handle the socket mode.
-
-        let mut sockets = self.sockets.borrow_mut();
-        let socket: &mut net::socket::TcpSocket = &mut *sockets.get(*socket);
-
-        let result = socket.send_slice(buffer);
-
-        match result {
-            Ok(num_bytes) => Ok(num_bytes),
-            Err(_) => Err(nb::Error::Other(NetworkError::WriteFailure)),
-        }
-    }
-
-    fn read(
-        &self,
-        socket: &mut Self::TcpSocket,
-        buffer: &mut [u8],
-    ) -> nb::Result<usize, Self::Error> {
-        // TODO: Handle the socket mode.
-
-        let mut sockets = self.sockets.borrow_mut();
-        let socket: &mut net::socket::TcpSocket = &mut *sockets.get(*socket);
-
-        let result = socket.recv_slice(buffer);
-
-        match result {
-            Ok(num_bytes) => Ok(num_bytes),
-            Err(_) => Err(nb::Error::Other(NetworkError::ReadFailure)),
-        }
-    }
-
-    fn close(&self, socket: Self::TcpSocket) -> Result<(), Self::Error> {
-        // TODO: Free the ephemeral port in use by the socket.
-
-        let mut sockets = self.sockets.borrow_mut();
-        let internal_socket: &mut net::socket::TcpSocket = &mut *sockets.get(socket);
-        internal_socket.close();
-
-        self.unused_handles.borrow_mut().push(socket).unwrap();
-        Ok(())
-    }
-}

src/net_store.rs

@@ -0,0 +1,7 @@
+use smoltcp as net;
+
+pub struct NetStorage {
+    pub ip_addrs: [net::wire::IpCidr; 1],
+    pub neighbor_cache: [Option<(net::wire::IpAddress, net::iface::Neighbor)>; 8],
+    pub routes_cache: [Option<(net::wire::IpCidr, net::iface::Route)>; 8],
+}

src/urukul.rs

@@ -3,6 +3,8 @@ use embedded_hal::{
     blocking::spi::Transfer,
 };
 
+use serde::{ Serialize, Deserialize };
+
 use crate::config_register::ConfigRegister;
 use crate::config_register::CFGMask;
 use crate::config_register::StatusMask;
@@ -28,9 +30,19 @@ pub enum Error<E> {
     MqttCommandError,
     VectorOutOfSpace,
     StringOutOfSpace,
+    WaitRetry,          // Prompt driver to just wait and retry
 }
 
-#[derive(Debug, Clone)]
+impl<E> Error<E> {
+    pub fn is_wait_retry(&self) -> bool {
+        match self {
+            Error::WaitRetry => true,
+            _ => false,
+        }
+    }
+}
+
+#[derive(Debug, Clone, Serialize, Deserialize)]
 pub enum ClockSource {
     OSC,
     SMA,
@@ -328,16 +340,39 @@ where
     }
 
     pub fn set_channel_sys_clk(&mut self, channel: u8, f_sys_clk: f64) -> Result<(), Error<E>> {
-        self.dds[usize::from(channel)].set_sys_clk_frequency(f_sys_clk).map(|_| ())
+        loop {
+            if let Err(e) = self.dds[usize::from(channel)].set_sys_clk_frequency(f_sys_clk).map(|_| ()) {
+                if e.is_wait_retry() {
+                    cortex_m::asm::delay(400_000);
+                } else {
+                    return Err(e);
+                }
+            } else {
+                break;
+            }
+        }
+        Ok(())
     }
 
     pub fn get_channel_sys_clk(&mut self, channel: u8) -> Result<f64, Error<E>> {
         Ok(self.dds[usize::from(channel)].get_f_sys_clk())
     }
 
+    pub fn get_channel_calculated_sys_clk(&mut self, channel: u8) -> Result<f64, Error<E>> {
+        self.dds[usize::from(channel)].get_sys_clk_frequency()
+    }
+
+    pub fn borrow_dds(&mut self, channel: u8) -> &mut DDS<SPI> {
+        &mut self.dds[usize::from(channel)]
+    }
+
+    pub fn borrow_config_register(&mut self) -> &mut ConfigRegister<SPI> {
+        &mut self.config_register
+    }
+
     // Multi-dds channel functions
     // Do not allow reading of DDS registers
-    // Make sure only 1 SPI transaction is compelted per function call
+    // Make sure only 1 SPI transaction is completed per function call
 
     // Setup NU_MASK in configuration register
     // This selects the DDS channels that will be covered by multi_channel DDS (spi3)