diff --git a/server/src/Common.cs b/server/src/Common.cs
index a6b267b..46c0fcc 100644
--- a/server/src/Common.cs
+++ b/server/src/Common.cs
@@ -12,9 +12,9 @@ namespace Common
///
/// 整数
/// 整数长度
- /// 是否高位在右边
+ /// 是否高位在数组索引低
/// 二进制字节数组
- public static Result NumberToBytes(ulong num, uint length, bool isRightHigh = false)
+ public static Result NumberToBytes(ulong num, uint length, bool isLowNumHigh = false)
{
if (length > 8)
{
@@ -26,7 +26,7 @@ namespace Common
var arr = new byte[length];
- if (isRightHigh)
+ if (isLowNumHigh)
{
for (var i = 0; i < length; i++)
{
@@ -47,9 +47,9 @@ namespace Common
/// 二进制字节数组转成64bits整数
///
/// 二进制字节数组
- /// 是否高位在右边
+ /// 是否高位在数组索引低
/// 整数
- public static Result BytesToUInt64(byte[] bytes, bool isRightHigh = false)
+ public static Result BytesToUInt64(byte[] bytes, bool isLowNumHigh = false)
{
if (bytes.Length > 8)
{
@@ -64,7 +64,7 @@ namespace Common
try
{
- if (isRightHigh)
+ if (isLowNumHigh)
{
for (var i = 0; i < len; i++)
{
@@ -91,9 +91,9 @@ namespace Common
/// 二进制字节数组转成32bits整数
///
/// 二进制字节数组
- /// 是否高位在右边
+ /// 是否高位在数组索引低
/// 整数
- public static Result BytesToUInt32(byte[] bytes, bool isRightHigh = false)
+ public static Result BytesToUInt32(byte[] bytes, bool isLowNumHigh = false)
{
if (bytes.Length > 4)
{
@@ -108,7 +108,7 @@ namespace Common
try
{
- if (isRightHigh)
+ if (isLowNumHigh)
{
for (var i = 0; i < len; i++)
{
diff --git a/server/src/Controllers.cs b/server/src/Controllers.cs
index a1d31cf..6124b2c 100644
--- a/server/src/Controllers.cs
+++ b/server/src/Controllers.cs
@@ -449,12 +449,14 @@ public class RemoteUpdater : ControllerBase
if (restStreamLen != 0)
{
var appendLen = ((int)(4 * 1024 - restStreamLen));
- await memoryStream.WriteAsync(new byte[appendLen], 0, appendLen);
+ var bytesAppend = new byte[appendLen];
+ Array.Fill(bytesAppend, 0xFF);
+ await memoryStream.WriteAsync(bytesAppend, 0, appendLen);
}
var fileBytes = memoryStream.ToArray();
// 下载比特流
- var remoteUpdater = new RemoteUpdate.RemoteUpdater(address, port);
+ var remoteUpdater = new RemoteUpdate.RemoteUpdateClient(address, port);
var ret = await remoteUpdater.UpdateBitstream(bitstreamNum, fileBytes);
if (ret.IsSuccessful)
diff --git a/server/src/RemoteUpdate.cs b/server/src/RemoteUpdate.cs
index 590096c..727f72b 100644
--- a/server/src/RemoteUpdate.cs
+++ b/server/src/RemoteUpdate.cs
@@ -2,236 +2,174 @@ using System.Net;
using DotNext;
namespace RemoteUpdate;
-static class Global
+static class RemoteUpdateClientAddr
{
- ///
- /// FPGA 远程更新器地址
- ///
- public class RemoteUpdaterAddr
- {
- ///
- /// 基地址
- ///
- public const UInt32 BaseAddr = 0x2000_0000;
- ///
- /// 写比特流-读写地址——控制位
- /// [31:24]: 保留
- /// [23:17]: 保留
- /// [16: 8]: 保留
- /// [ 7: 0]: {-, -, -, -, -,{bitstream_wr_num}, flash_wr_en}
- ///
- public const UInt32 WriteCtrl = 0x2000_0000;
- ///
- /// 写比特流-只写地址——FIFO入口
- /// [31:0]: 写比特流数据入口
- ///
- public const UInt32 WriteFIFO = 0x2000_0001;
- ///
- /// 写比特流-只读地址——标志位
- /// [31:24]: {-, -, -, -, -, -, -, wr_fifo_full}
- /// [23:17]: {-, -, -, -, -, -, -, wr_fifo_empty}
- /// [16: 8]: {-, -, -, -, -, -, -, bitstream_wr_done}
- /// [ 7: 0]: {-, -, -, -, -, -, -, clear_bs_done}
- ///
- public const UInt32 WriteSign = 0x2000_0002;
- ///
- /// 读比特流-读写地址——控制位
- /// [31:24]: {-, -, -, -, -, -,{ bs_crc32_ok }}
- /// [23:17]: {-, -, -, -, -, -, -, crc_check_en}
- /// [16: 8]: {-, -, -, -, -, -, -, bitstream_up2cpu_en}
- /// [ 7: 0]: {-, -, -, -, -,{bitstream_rd_num},flash_rd_en}
- ///
- public const UInt32 ReadCtrl = 0x2000_0003;
- ///
- /// 读比特流-只读地址——FIFO出口
- /// [31:0]: 读比特流数据出口
- ///
- public const UInt32 ReadFIFO = 0x2000_0004;
- ///
- /// 读比特流-只读地址——CRC校验值
- /// [31:0]: CRC校验值 bs_readback_crc
- ///
- public const UInt32 ReadCRC = 0x2000_0005;
- ///
- /// 读比特流-只读地址——标志位
- /// [31:24]: {-, -, -, -, -, -, -, rd_fifo_afull}
- /// [23:17]: {-, -, -, -, -, -, -, rd_fifo_empty}
- /// [16: 8]: {-, -, -, -, -, -, -, bitstream_rd_done}
- /// [ 7: 0]: {-, -, -, -, -, -, -, bs_readback_crc_valid}
- ///
- public const UInt32 ReadSign = 0x2000_0006;
- ///
- /// 单独擦除开关-读写地址——控制位
- /// [31:24]: {-, -, -, -, -, -, -, - }
- /// [23:17]: {-, -, -, -, -, -, -, - }
- /// [16: 8]: {-, -, -, -, -, -, -, - }
- /// [ 7: 0]: {-, -, -, -, -, -, -, clear_sw_en}
- ///
- public const UInt32 ClearCtrl = 0x2000_0007;
- ///
- /// 单独擦除开关-只读地址——标志位
- /// [31:24]: {-, -, -, -, -, -, -, time_out_reg}
- /// [23:17]: { flash_flag_status[15:8]}
- /// [16: 8]: { flash_flag_status[7:0]}
- /// [ 7: 0]: {-, -, -, -, -, -, -, clear_sw_done}
- ///
- public const UInt32 ClearSign = 0x2000_0008;
- ///
- /// 写开关-读写地址——控制位
- /// [31:24]: {-, -, -, -, -, -, -, - }
- /// [23:17]: {-, -, -, -, -, -, -, - }
- /// [16: 8]: {-, -, -, -, -, -, { open_sw_num}}
- /// [ 7: 0]: {-, -, -, -, -, -, -, write_sw_code_en}
- ///
- public const UInt32 WriteSwitchCtrl = 0x2000_0009;
- ///
- /// 写开关-只读地址——标志位
- /// [31:24]: {-, -, -, -, -, -, -, - }
- /// [23:17]: {-, -, -, -, -, -, -, - }
- /// [16: 8]: {-, -, -, -, -, -, -, ipal_busy}
- /// [ 7: 0]: {-, -, -, -, -, -, -, open_sw_code_done}
- ///
- public const UInt32 WriteSwitchSign = 0x2000_000A;
- ///
- /// 热启动开关-读写地址——控制位
- /// [31:24]: {-, -, -, -, -, -, -, - }
- /// [23:17]: {-, -, -, -, -, -, -, - }
- /// [16: 8]: {-, -, -, -, -, -, }
- /// [ 7: 0]: {-, -, -, -, -, -, -, hotreset_en}
- ///
- public const UInt32 HotResetCtrl = 0x2000_000B;
- }
+ ///
+ /// ADDR: 0X00: 写Flash-读写地址——控制位
+ /// [31:16]: wr_sector_num
+ /// [15: 0]: {flash_wr_en,-,-,-, start_wr_sector}
+ ///
+ public const UInt32 WriteCtrl = 0x00;
+
+ ///
+ /// ADDR: 0X01: 写Flash-只写地址——FIFO入口
+ /// [31:0]: 写比特流数据入口
+ ///
+ public const UInt32 WriteFIFO = 0x01;
+
+ ///
+ /// ADDR: 0X02: 写Flash-只读地址——标志位
+ /// [31:24]: {-, -, -, -, -, -, -, wr_fifo_full}
+ /// [23:16]: {-, -, -, -, -, -, -, wr_fifo_empty}
+ /// [15: 8]: {-, -, -, -, -, -, -, flash_wr_done}
+ /// [ 7: 0]: {-, -, -, -, -, -, -, flash_clear_done}
+ ///
+ public const UInt32 WriteSign = 0x02;
+
+ ///
+ /// ADDR: 0X03: 读Flash-读写地址——控制位1
+ /// [31:16]: rd_sector_num
+ /// [15: 0]: {flash_rd_en,-,-,-, start_rd_sub_sector}
+ ///
+ public const UInt32 ReadCtrl1 = 0x03;
+
+ ///
+ /// ADDR: 0X04: 读Flash-读写地址——控制位2
+ /// [31:24]: { }
+ /// [23:16]: {-, -, -, -, -, -,{ bs_crc32_ok }}
+ /// [15: 8]: {-, -, -, -, -, -, -, crc_check_en}
+ /// [ 7: 0]: {-, -, -, -, -, -, -, bitstream_up2cpu_en}
+ ///
+ public const UInt32 ReadCtrl2 = 0x04;
+
+ ///
+ /// ADDR: 0X05: 读Flash-只读地址——FIFO出口
+ /// [31:0]: 读比特流数据出口
+ ///
+ public const UInt32 ReadFIFO = 0x05;
+
+ ///
+ /// ADDR: 0X06: 读Flash-只读地址——CRC校验值
+ /// [31:0]: CRC校验值 bs_readback_crc
+ ///
+ public const UInt32 ReadCRC = 0x06;
+
+ ///
+ /// ADDR: 0X07: 读Flash-只读地址——标志位
+ /// [31:24]: {-, -, -, -, -, -, -, rd_fifo_afull}
+ /// [23:16]: {-, -, -, -, -, -, -, rd_fifo_empty}
+ /// [15: 8]: {-, -, -, -, -, -, -, flash_rd_done}
+ /// [ 7: 0]: {-, -, -, -, -, -, -, bs_readback_crc_valid}
+ ///
+ public const UInt32 ReadSign = 0x07;
+
+ ///
+ /// ADDR: 0X08: 热启动开关-读写地址——控制位
+ /// [31: 8]: hotreset_addr
+ /// [ 7: 0]: {-, -, -, -, -, -, -, hotreset_en}
+ ///
+ public const UInt32 HotResetCtrl = 0x08;
+
+ ///
+ /// ADDR: 0X09: 只读地址 版本号
+ /// [31: 0]: FPGA_VERSION[31:0]
+ ///
+ public const UInt32 Version = 0x09;
}
+static class FlashAddr
+{
+ public static readonly UInt32[] Switch = { 0x0000, 0x2000, 0x4000 };
+ public static readonly UInt32[] Jump = { 0x1000, 0x3000, 0x5000 };
+ public static readonly UInt32[] User = { 0x406000, 0x806000, 0xC06000 };
+
+ public const UInt32 Golden = 0x6000;
+}
+
+
+
///
-/// FPGA远程更新
+/// [TODO:description]
///
-public class RemoteUpdater
+public class RemoteUpdateClient
{
private static readonly NLog.Logger logger = NLog.LogManager.GetCurrentClassLogger();
- readonly int timeout = 1000;
+ const int FLASH_SECTOR_LENGTH = 4 * 1024;
- int port { get; }
- string address { get; }
- private IPEndPoint remoteEP;
+ readonly int timeout = 2000;
+ readonly int timeoutForWait = 60 * 1000;
+
+ readonly int port;
+ readonly string address;
+ private IPEndPoint ep;
///
- /// 初始化 FPGA 远程更新器
+ /// [TODO:description]
///
- /// 目标设备的 IP 地址
- /// 目标设备的端口号
- public RemoteUpdater(string address, int port)
+ /// [TODO:parameter]
+ /// [TODO:parameter]
+ /// [TODO:parameter]
+ /// [TODO:parameter]
+ /// [TODO:return]
+ public RemoteUpdateClient(string address, int port, int timeout = 2000, int timeoutForWait = 60 * 1000)
{
+ if (timeout < 0)
+ throw new ArgumentException("Timeout couldn't be negative", nameof(timeout));
this.address = address;
this.port = port;
- this.remoteEP = new IPEndPoint(IPAddress.Parse(address), port);
+ this.ep = new IPEndPoint(IPAddress.Parse(address), port);
+ this.timeout = timeout;
+ this.timeoutForWait = timeoutForWait;
}
///
- /// Writes a bitstream to the FPGA device.
+ /// [TODO:description]
///
- /// The bitstream number (0-3).
- /// The bitstream data to write.
- /// A result indicating success or failure.
- public async ValueTask> WriteBitstream(int bitstreamNum, byte[] bitstream)
+ /// [TODO:parameter]
+ /// [TODO:parameter]
+ /// [TODO:parameter]
+ /// [TODO:return]
+ public async ValueTask> WriteFlash(UInt32 flashAddr, int writeSectorNum, byte[] bytesData)
{
- if (bitstreamNum < 0 || bitstreamNum > 0b11)
+ // Assert
+ if (writeSectorNum <= 0 || writeSectorNum >= FLASH_SECTOR_LENGTH)
return new(new ArgumentException(
- "The number of bitstream can't be negative or over 3(0b11)", nameof(bitstreamNum)));
-
- if (bitstream.Length % (4 * 1024) != 0)
+ $"Write sector num should be 1 ~ 4096, but given {writeSectorNum}", nameof(writeSectorNum)));
+ if (bytesData.Length % (4 * 1024) != 0)
return new(new ArgumentException(
- "Bitstream doesn't match 4KB align, which should be divided by 4 * 1024", nameof(bitstream)));
-
- // Clear Data
- await MsgBus.UDPServer.ClearUDPData(this.address);
-
- logger.Trace($"Clear up udp server {this.address} receive data");
-
+ $"The length of data should be divided by 4096, bug given {bytesData.Length}", nameof(bytesData)));
{
var ret = await UDPClientPool.WriteAddr(
- this.remoteEP, Global.RemoteUpdaterAddr.WriteCtrl, (UInt32)((bitstreamNum << 1) | 0b1), timeout);
+ this.ep, RemoteUpdateClientAddr.WriteCtrl,
+ Convert.ToUInt32((writeSectorNum << 16) | (1 << 15) | Convert.ToInt32(flashAddr / 4096)), this.timeout);
if (!ret.IsSuccessful) return new(ret.Error);
if (!ret.Value) return new(new Exception("Enable write flash failed"));
}
- // {
- // var ret = await UDPClientPool.ReadAddrWithWait(
- // this.remoteEP, Global.RemoteUpdaterAddr.ClearSign, 0x00_01, 0x00_01, 60 * 1000);
- // if (!ret.IsSuccessful) return new(ret.Error);
- // if (!ret.Value) return new(new Exception("Clear switch failed even over time"));
- // }
+
{
var ret = await UDPClientPool.ReadAddrWithWait(
- this.remoteEP, Global.RemoteUpdaterAddr.WriteSign, 0x00_00_00_01, 0x00_00_00_01, 60 * 1000);
+ this.ep, RemoteUpdateClientAddr.WriteSign,
+ 0x00_00_00_01, 0x00_00_00_01, this.timeoutForWait);
if (!ret.IsSuccessful) return new(ret.Error);
- if (!ret.Value) return new(new Exception("Clear bitstream failed even over time"));
+ if (!ret.Value) return new(new Exception(
+ $"Flash clear failed after {this.timeoutForWait} milliseconds"));
}
- logger.Trace($"Device {this.address} remote update init finished");
{
- var ret = await UDPClientPool.WriteAddr(this.remoteEP, Global.RemoteUpdaterAddr.WriteFIFO, bitstream);
+ var ret = await UDPClientPool.WriteAddr(this.ep, RemoteUpdateClientAddr.WriteFIFO, bytesData, this.timeout);
if (!ret.IsSuccessful) return new(ret.Error);
- if (!ret.Value) return new(new Exception("Send bitstream failed"));
+ if (!ret.Value) return new(new Exception("Send data to flash failed"));
}
+
{
var ret = await UDPClientPool.ReadAddrWithWait(
- this.remoteEP, Global.RemoteUpdaterAddr.WriteSign, 0x00_00_01_00, 0x00_00_01_00, timeout);
+ this.ep, RemoteUpdateClientAddr.WriteSign,
+ 0x00_00_01_00, 0x00_00_01_00, this.timeoutForWait);
if (!ret.IsSuccessful) return new(ret.Error);
- if (!ret.Value) return new(new Exception("Write bitstream failed even over time"));
- }
- logger.Trace($"Device {this.address} write bitstream finished");
-
- return true;
- }
-
- ///
- /// Checks the CRC of a bitstream on the FPGA device.
- ///
- /// The bitstream number (0-3).
- /// The expected CRC checksum value.
- /// A result indicating whether the CRC matches.
- public async ValueTask> CheckBitstreamCRC(int bitstreamNum, UInt32 checkSum)
- {
- // Clear Data
- await MsgBus.UDPServer.ClearUDPData(this.address);
-
- logger.Trace($"Clear up udp server {this.address} receive data");
-
-
- {
- var ret = await UDPClientPool.WriteAddr(
- this.remoteEP, Global.RemoteUpdaterAddr.ReadCtrl,
- (UInt32)((bitstreamNum << 1) | 0b1), timeout);
- if (!ret.IsSuccessful) return new(ret.Error);
- if (!ret.Value) return new(new Exception("Enable read failed"));
- }
- {
- var ret = await UDPClientPool.ReadAddrWithWait(
- this.remoteEP, Global.RemoteUpdaterAddr.ReadSign, 0x00_00_01_00, 0x00_00_01_00, 60 * 1000);
- if (!ret.IsSuccessful) return new(ret.Error);
- if (!ret.Value) return new(new Exception("Read bitstream failed even over time"));
- }
- logger.Trace($"Device {this.address} remote update read bitstream finished");
-
- {
- var ret = await UDPClientPool.ReadAddr(
- this.remoteEP, Global.RemoteUpdaterAddr.ReadCRC, timeout);
- if (!ret.IsSuccessful) return new(ret.Error);
- if (ret.Value.Options.Data is null) return new(new Exception("Receive null when read sign"));
-
- // Check CRC
- var crcCode = Common.Number.BytesToUInt32(ret.Value.Options.Data);
- if (!crcCode.IsSuccessful) return new(crcCode.Error);
-
- var retCRC = crcCode.Value == checkSum;
- logger.Trace($"Device {this.address} remote update check crc finished");
-
- logger.Debug($"Expected CRC32/Mpeg Code: 0x{checkSum.ToString("X").PadLeft(8, '0')}");
- logger.Debug($"Actually CRC32/Mpeg Code: 0x{crcCode.Value.ToString("X").PadLeft(8, '0')}");
- return retCRC;
+ return ret.Value;
}
}
@@ -240,80 +178,205 @@ public class RemoteUpdater
///
/// [TODO:parameter]
/// [TODO:return]
- public async ValueTask> HotReset(int bitstreamNum)
+ public async ValueTask> EnableBitstream(int bitstreamNum)
{
- // Clear Data
- await MsgBus.UDPServer.ClearUDPData(this.address);
+ // Assert
+ if (bitstreamNum <= 0 || bitstreamNum > 3)
+ return new(new ArgumentException(
+ $"Bitsteam num should be 1 ~ 3, but given {bitstreamNum}", nameof(bitstreamNum)));
- logger.Trace($"Clear up udp server {this.address} receive data");
+ var bytesData = new byte[FLASH_SECTOR_LENGTH];
+ Array.Fill(bytesData, 0xFF);
+ bytesData[FLASH_SECTOR_LENGTH - 1] = 0x01;
+ bytesData[FLASH_SECTOR_LENGTH - 2] = 0x33;
+ bytesData[FLASH_SECTOR_LENGTH - 3] = 0x2D;
+ bytesData[FLASH_SECTOR_LENGTH - 4] = 0x94;
+ var ret = await WriteFlash(FlashAddr.Switch[bitstreamNum], 1, bytesData);
+ if (!ret.IsSuccessful) return new(ret.Error);
+ return ret.Value;
+ }
+
+ ///
+ /// [TODO:description]
+ ///
+ /// [TODO:parameter]
+ /// [TODO:return]
+ public async ValueTask> DisableBitstream(int bitstreamNum)
+ {
+ // Assert
+ if (bitstreamNum <= 0 || bitstreamNum > 3)
+ return new(new ArgumentException(
+ $"Bitsteam num should be 1 ~ 3, but given {bitstreamNum}", nameof(bitstreamNum)));
+
+ var bytesData = new byte[FLASH_SECTOR_LENGTH];
+ Array.Fill(bytesData, 0xFF);
+
+ var ret = await WriteFlash(FlashAddr.Switch[bitstreamNum], 1, bytesData);
+ if (!ret.IsSuccessful) return new(ret.Error);
+ return ret.Value;
+ }
+
+
+ ///
+ /// [TODO:description]
+ ///
+ /// [TODO:parameter]
+ /// [TODO:return]
+ public async ValueTask> WriteJumpCmd(int bitstreamNum)
+ {
+ // Assert
+ if (bitstreamNum <= 0 || bitstreamNum > 3)
+ return new(new ArgumentException(
+ $"Bitsteam num should be 1 ~ 3, but given {bitstreamNum}", nameof(bitstreamNum)));
+
+ // Init data
+ var bytesData = new byte[FLASH_SECTOR_LENGTH];
+ for (int i = 0; i < FLASH_SECTOR_LENGTH; i += 4)
+ bytesData[i] = 0xA0;
+
+ Buffer.BlockCopy(new byte[] { 0xAB, 0x00, 0x00, 0x01 }, 0, bytesData, 0x04, 4);
+ Buffer.BlockCopy(new byte[] { 0x00, 0x00, 0x00, 0x0B }, 0, bytesData, 0x08, 4);
+ Buffer.BlockCopy(new byte[] { 0xAB, 0xC0, 0x00, 0x01 }, 0, bytesData, 0x34, 4);
+ Buffer.BlockCopy(new byte[] { 0x00, 0x00, 0x00, 0x00 }, 0, bytesData, 0x38, 4);
+ Buffer.BlockCopy(new byte[] { 0xAC, 0x00, 0x00, 0x01 }, 0, bytesData, 0x3C, 4);
+ Buffer.BlockCopy(Common.Number.NumberToBytes(FlashAddr.User[bitstreamNum], 4).Value, 0, bytesData, 0x40, 4);
+ Buffer.BlockCopy(new byte[] { 0xA8, 0x80, 0x00, 0x01 }, 0, bytesData, 0x44, 4);
+ Buffer.BlockCopy(new byte[] { 0x00, 0x00, 0x00, 0x0F }, 0, bytesData, 0x48, 4);
+
+ var ret = await WriteFlash(FlashAddr.Switch[bitstreamNum], 1, bytesData);
+ if (!ret.IsSuccessful) return new(ret.Error);
+ return ret.Value;
+ }
+
+ ///
+ /// [TODO:description]
+ ///
+ /// [TODO:parameter]
+ /// [TODO:return]
+ public async ValueTask> InitRemoteUpdate(int bitstreamNum)
+ {
+ // Assert
+ if (bitstreamNum <= 0 || bitstreamNum > 3)
+ return new(new ArgumentException(
+ $"Bitsteam num should be 1 ~ 3, but given {bitstreamNum}", nameof(bitstreamNum)));
+
+ for (int i = 0; i < 3; i++)
+ {
+ {
+ var ret = (i == bitstreamNum) ? await EnableBitstream(i) : await DisableBitstream(i);
+ if (!ret.IsSuccessful) return new(ret.Error);
+ if (!ret.Value) return new(new Exception($"Write switch {i} failed"));
+ }
+
+ {
+ var ret = await WriteJumpCmd(i);
+ if (!ret.IsSuccessful) return new(ret.Error);
+ if (!ret.Value) return new(new Exception($"Write jump {i} failed"));
+ }
+ }
+
+ return true;
+ }
+
+
+ ///
+ /// [TODO:description]
+ ///
+ /// [TODO:parameter]
+ /// [TODO:parameter]
+ /// [TODO:return]
+ public async ValueTask> CheckBitstreamCRC(int bitstreamNum, UInt32 checkSum)
+ {
+ {
+ var ret = await UDPClientPool.WriteAddr(this.ep, RemoteUpdateClientAddr.ReadCtrl2, 0x00_00_00_00, this.timeout);
+ if (!ret.IsSuccessful) return new(ret.Error);
+ if (!ret.Value) return new(new Exception("Write read control 2 failed"));
+ }
{
var ret = await UDPClientPool.WriteAddr(
- this.remoteEP, Global.RemoteUpdaterAddr.ClearCtrl,
- (UInt32)(0b1), timeout);
+ this.ep, RemoteUpdateClientAddr.ReadCtrl1,
+ Convert.ToUInt32((1024 << 16) | (1 << 15) | Convert.ToInt32(FlashAddr.User[bitstreamNum] / 4096)), this.timeout);
if (!ret.IsSuccessful) return new(ret.Error);
- if (!ret.Value) return new(new Exception("Run clear failed"));
+ if (!ret.Value) return new(new Exception("Write read control 1 failed"));
}
+
{
var ret = await UDPClientPool.ReadAddrWithWait(
- this.remoteEP, Global.RemoteUpdaterAddr.ClearSign, 0x00_00_00_01, 0x00_00_00_01, 60 * 1000);
+ this.ep, RemoteUpdateClientAddr.ReadSign,
+ 0x00_00_01_00, 0x00_00_01_00, this.timeoutForWait);
if (!ret.IsSuccessful) return new(ret.Error);
- if (!ret.Value) return new(new Exception("Clear failed even over time"));
+ if (!ret.Value) return new(new Exception(
+ $"Read bitstream failed after {this.timeoutForWait} milliseconds"));
}
- logger.Trace($"Device {this.address} remote update clear finished");
{
- var ret = await UDPClientPool.WriteAddr(
- this.remoteEP, Global.RemoteUpdaterAddr.WriteSwitchCtrl,
- (UInt32)((bitstreamNum << 1) | 0b1), timeout);
+ var ret = await UDPClientPool.ReadAddr(this.ep, RemoteUpdateClientAddr.ReadCRC, this.timeout);
if (!ret.IsSuccessful) return new(ret.Error);
- if (!ret.Value) return new(new Exception("Run write switch code failed"));
- }
- {
- var ret = await UDPClientPool.ReadAddrWithWait(
- this.remoteEP, Global.RemoteUpdaterAddr.WriteSwitchSign,
- 0x00_00_00_01, 0x00_00_00_01, 60 * 1000);
- if (!ret.IsSuccessful) return new(ret.Error);
- if (!ret.Value) return new(new Exception("Write switch code failed even over time"));
- }
- logger.Trace($"Device {this.address} remote update write switch open finished");
- {
- var ret = await UDPClientPool.WriteAddr(
- this.remoteEP, Global.RemoteUpdaterAddr.HotResetCtrl, (UInt32)(0b1), timeout);
- if (!ret.IsSuccessful) return new(ret.Error);
- return ret.Value;
+ var bytes = ret.Value.Options.Data;
+ if (bytes is null)
+ return new(new Exception("CRC is null"));
+
+ var remoteCRC = Common.Number.BytesToUInt32(bytes);
+ if (!remoteCRC.IsSuccessful) return new(remoteCRC.Error);
+
+ logger.Debug($"Expected CRC: \t 0x{Convert.ToString(checkSum, 16)}");
+ logger.Debug($"Received CRC: \t 0x{Convert.ToString(remoteCRC.Value, 16)}");
+
+ return remoteCRC.Value == checkSum;
}
}
///
- /// Updates the bitstream on the FPGA device.
+ /// [TODO:description]
///
- /// The bitstream number (0-3).
- /// The bitstream data to update.
- /// A result indicating success or failure.
- public async ValueTask> UpdateBitstream(int bitstreamNum, byte[] bitstream)
+ /// [TODO:parameter]
+ /// [TODO:return]
+ public async ValueTask> HotRest(int bitstreamNum)
{
+ // Assert
+ if (bitstreamNum <= 0 || bitstreamNum > 3)
+ return new(new ArgumentException(
+ $"Bitsteam num should be 1 ~ 3, but given {bitstreamNum}", nameof(bitstreamNum)));
+
+ var ret = await UDPClientPool.WriteAddr(
+ this.ep, RemoteUpdateClientAddr.HotResetCtrl,
+ ((FlashAddr.User[bitstreamNum] << 8) | 1), this.timeout);
+ if (!ret.IsSuccessful) return new(ret.Error);
+ return ret.Value;
+ }
+
+ ///
+ /// [TODO:description]
+ ///
+ /// [TODO:parameter]
+ /// [TODO:parameter]
+ /// [TODO:return]
+ public async ValueTask> UpdateBitstream(int bitstreamNum, byte[] bytesData)
+ {
+ // Assert
+ if (bitstreamNum <= 0 || bitstreamNum > 3)
+ return new(new ArgumentException(
+ $"Bitsteam num should be 1 ~ 3, but given {bitstreamNum}", nameof(bitstreamNum)));
+
{
- var ret = await WriteBitstream(bitstreamNum, bitstream);
+ var ret = await InitRemoteUpdate(bitstreamNum);
+ if (!ret.IsSuccessful) return new(ret.Error);
+ if (!ret.Value) return new(new Exception("Init remote update failed"));
+ }
+
+ {
+ var ret = await WriteFlash(FlashAddr.User[bitstreamNum], 1024, bytesData);
if (!ret.IsSuccessful) return new(ret.Error);
if (!ret.Value) return new(new Exception("Write bitstream failed"));
}
- {
- var crc = Honoo.IO.Hashing.Crc.Create(Honoo.IO.Hashing.CrcName.CRC32_MPEG_2);
- var checkSum = crc.ComputeFinal(bitstream);
- var ret = await CheckBitstreamCRC(bitstreamNum, checkSum.ToUInt32());
- if (!ret.IsSuccessful) return new(ret.Error);
- // if (!ret.Value) return new(new Exception("Check bitstream crc32/mpeg-2 failed"));
- }
{
- var ret = await HotReset(bitstreamNum);
+ var ret = await HotRest(bitstreamNum);
if (!ret.IsSuccessful) return new(ret.Error);
- if (!ret.Value) return new(new Exception("Hot reset failed"));
return ret.Value;
}
}
-
}