From fb7380a3ee5d4a7325f3c7e8e485231957547426 Mon Sep 17 00:00:00 2001
From: Bernhard Tittelbach <xro@realraum.at>
Date: Fri, 22 Jun 2012 00:25:03 +0000
Subject: ttyACM instead of usb_hid

git-svn-id: https://svn.spreadspace.org/mur.sat@544 7de4ea59-55d0-425e-a1af-a3118ea81d4c
---
 software/hhd70dongle/c1101lib.c | 98 ++++++++++++++++++++++++-----------------
 1 file changed, 57 insertions(+), 41 deletions(-)

(limited to 'software/hhd70dongle/c1101lib.c')

diff --git a/software/hhd70dongle/c1101lib.c b/software/hhd70dongle/c1101lib.c
index 79187b9..47a446a 100644
--- a/software/hhd70dongle/c1101lib.c
+++ b/software/hhd70dongle/c1101lib.c
@@ -34,13 +34,37 @@
 
 #include "c1101lib.h"
 #include "hhd70.h"
-#include "usb_rawhid.h"
 #include "util.h"
 
 /**** Helper Functions ****/
 
 #define SPIC1101_MAX_WAIT 21
 
+
+
+/* ######          ######
+             LUFA Library
+     Copyright (C) Dean Camera, 2012.
+
+  dean [at] fourwalledcubicle [dot] com
+           www.lufa-lib.org
+*/
+//#include <LUFA/Drivers/Misc/RingBuffer.h>
+#include <LUFA/Drivers/USB/USB.h>
+
+   /* Global I/O Buffers: */
+//static RingBuffer_t SPItoUSB_Buffer;
+//static uint8_t      SPItoUSB_Buffer_Data[8];
+
+/** LUFA CDC Class driver interface configuration and state information. This structure is
+ *  passed to all CDC Class driver functions, so that multiple instances of the same class
+ *  within a device can be differentiated from one another.
+ */
+extern USB_ClassInfo_CDC_Device_t VirtualSerial_CDC_Interface;
+/* ###### end LUFA CDC-ACM specific definitions ###### */
+
+
+
 int16_t c1101_spi_write_byte_ok_get_status(char data)
 {
     //~ uint8_t debug_sb[6];
@@ -53,9 +77,9 @@ int16_t c1101_spi_write_byte_ok_get_status(char data)
         //            i.e. we won't get Fifo Byte count or overflow status on normal command and so on
         //            e.g. we only get TX Fifo Free Byte count while writing to TX Fifo
         //            thus it makes sense to only check for CHIP_RDY here
-        //~ usb_rawhid_send((uint8_t*)"spi byte exchanged ",255);
+        //~ ((uint8_t*)"spi byte exchanged ",255);
         //~ debug_sprint_int16hex(debug_sb, sb);
-        //~ usb_rawhid_send(debug_sb,255);
+        //~ (debug_sb,255);
         if (attempts++ > SPIC1101_MAX_WAIT)
             return -1;
     } while ( SPIC1101_SB_CHIP_NOT_RDY(sb) );
@@ -111,16 +135,16 @@ int16_t c1101_spi_write_register(char address, char byte)
 void c1101_spi_dump_registers_to_usb(void)
 {
     int c = 0;
-    uint8_t debug_sb[6];
+    char debug_sb[6];
     hhd70_spi_cs_enable();
     hhd70_c1101_wait_chip_rdy();
     if (c1101_spi_write_byte_ok_get_status(0xC0) < 0)
         return;
-    usb_rawhid_send((uint8_t*)"dump all 46 registers:",255);
+    CDC_Device_SendString(&VirtualSerial_CDC_Interface,"dump all 46 registers:");
     for (c=0; c<47; c++)
     {
         debug_sprint_int16hex(debug_sb, hhd70_spi_read_byte());
-        usb_rawhid_send(debug_sb,255);
+        CDC_Device_SendString(&VirtualSerial_CDC_Interface,  debug_sb);
     }
     hhd70_spi_cs_disable();
 }
@@ -176,12 +200,8 @@ int c1101_spi_write_txfifo(char *buffer, int len)
     sb = c1101_spi_write_byte_ok_get_status(SPIC1101_ADDR_FIFO_WRITE_BURST);
     if (sb < 0)
         return -1;
-    //~ uint8_t debug_sb[6];
     while (len-- > 0 && SPIC1101_SB_FIFO_BYTES_AVAILABLE(sb) > 2)
     {
-        //~ usb_rawhid_send((uint8_t*)"TXFifo bytes available",255);
-        //~ debug_sprint_int16hex(debug_sb, SPIC1101_SB_FIFO_BYTES_AVAILABLE(sb));
-        //~ usb_rawhid_send(debug_sb,255);
         sb = c1101_spi_write_byte_ok_get_status(buffer[num_written++]);
     }
     hhd70_spi_cs_disable();
@@ -261,7 +281,6 @@ void c1101_setFrequency(uint32_t freq, uint8_t freq_offset, uint8_t if_freq)
         sb = c1101_getStatus();
     } while (! (SPIC1101_SB_IDLE(sb)));
     //programm frequency
-    usb_rawhid_send((uint8_t*)"setting frequency",255);
     c1101_spi_write_register(SPIC1101_ADDR_FREQ0, freq & 0xFF);
     c1101_spi_write_register(SPIC1101_ADDR_FREQ1, (freq >> 8) & 0xFF);
     c1101_spi_write_register(SPIC1101_ADDR_FREQ2, (freq >> 16) & 0x3F);
@@ -298,13 +317,13 @@ void c1101_handleStatusByte(char sb)
     if (SPIC1101_SB_RXFIFO_OVERFLOW(sb))
     {
         c1101_spi_strobe_command(SPIC1101_ADDR_SFRX);
-        usb_rawhid_send((uint8_t*)"RX fifo flushed",255);
+        CDC_Device_SendString(&VirtualSerial_CDC_Interface,"RX fifo flushed");
     }
     //on TXFifo Overflow, Flush TX Fifo
     if (SPIC1101_SB_TXFIFO_OVERFLOW(sb))
     {
         c1101_spi_strobe_command(SPIC1101_ADDR_SFTX);
-        usb_rawhid_send((uint8_t*)"TX fifo flushed",255);
+        CDC_Device_SendString(&VirtualSerial_CDC_Interface,"TX fifo flushed");
     }
 }
 
@@ -316,10 +335,10 @@ char c1101_getStatus(void)
     sb = c1101_spi_write_byte_ok_get_status(SPIC1101_ADDR_SNOP);
     hhd70_spi_cs_disable();
     //debug start
-    uint8_t debug_sb[6];
-    usb_rawhid_send((uint8_t*)"c1101 status:",255);
+    char debug_sb[6];
+    CDC_Device_SendString(&VirtualSerial_CDC_Interface,"c1101 status:");
     debug_sprint_int16hex(debug_sb, sb);
-    usb_rawhid_send(debug_sb,255);
+    CDC_Device_SendString(&VirtualSerial_CDC_Interface,debug_sb);
     //debug end
     c1101_handleStatusByte(sb);
     return sb;
@@ -331,10 +350,10 @@ char c1101_getMARCState(void)
     sb = c1101_spi_read_register(SPIC1101_ADDR_MARCSTATE);
     sb &= 0x1F;
     //debug start
-    uint8_t debug_sb[6];
-    usb_rawhid_send((uint8_t*)"c1101 MARCSate:",255);
+    char debug_sb[6];
+    CDC_Device_SendString(&VirtualSerial_CDC_Interface,"c1101 MARCSate:");
     debug_sprint_int16hex(debug_sb, sb);
-    usb_rawhid_send(debug_sb,255);
+    CDC_Device_SendString(&VirtualSerial_CDC_Interface,debug_sb);
     //debug end
     return sb;
 }
@@ -346,7 +365,7 @@ uint8_t c1101_getNumBytesInTXFifo(void)
 
 void c1101_transmitData(char *buffer, unsigned int len)
 {
-    uint8_t debug_sb[6];
+    //~ uint8_t debug_sb[6];
     uint8_t num_written = 0;
     //~ uint8_t mcsm1 = c1101_spi_read_register(SPIC1101_ADDR_MCSM1);
     //~ //configure state machine to automatically go to IDLE, once packet was transmitted
@@ -355,9 +374,6 @@ void c1101_transmitData(char *buffer, unsigned int len)
     //~ c1101_spi_write_register(SPIC1101_ADDR_PKTCTRL0, 0b0000000001); //crc disabled; use FIFOs; variable packet length mode (first TX FIFO byte must be length)
     // flush TX FIFO
     num_written = c1101_spi_strobe_command(SPIC1101_ADDR_SFTX);
-    usb_rawhid_send((uint8_t*)"Flush TX Fifo",255);
-    debug_sprint_int16hex(debug_sb, num_written);
-    usb_rawhid_send(debug_sb,255);
 
     num_written = (uint8_t) len;
     //variable packet length: write length of packet to TX FIFO:
@@ -368,24 +384,24 @@ void c1101_transmitData(char *buffer, unsigned int len)
     //~ buffer += num_written;
     //~ len -= num_written;
 
-    //~ usb_rawhid_send((uint8_t*)"TX num written",255);
+    //~ ((uint8_t*)"TX num written",255);
     //~ debug_sprint_int16hex(debug_sb, num_written);
-    //~ usb_rawhid_send(debug_sb,255);
-    //~ usb_rawhid_send((uint8_t*)"TX len",255);
+    //~ (debug_sb,255);
+    //~ ((uint8_t*)"TX len",255);
     //~ debug_sprint_int16hex(debug_sb, len);
-    //~ usb_rawhid_send(debug_sb,255);
+    //~ (debug_sb,255);
 
     //~ c1101_getStatus();
-    //~ usb_rawhid_send((uint8_t*)"TX bytes",255);
+    //~ ((uint8_t*)"TX bytes",255);
     //~ debug_sprint_int16hex(debug_sb, c1101_getNumBytesInTXFifo());
-    //~ usb_rawhid_send(debug_sb,255);
+    //~ (debug_sb,255);
 
     //start transmitting
     //num_written = c1101_spi_strobe_command(SPIC1101_ADDR_STX);
     //~ num_written = hhd70_spi_exchange_byte(SPIC1101_ADDR_STX);
-    //~ usb_rawhid_send((uint8_t*)"Strobe STX",255);
+    //~ ((uint8_t*)"Strobe STX",255);
     //~ debug_sprint_int16hex(debug_sb, num_written);
-    //~ usb_rawhid_send(debug_sb,255);
+    //~ (debug_sb,255);
 
     //enable Power Amplifier
     hhd70_palna_txmode();
@@ -403,19 +419,19 @@ void c1101_transmitData(char *buffer, unsigned int len)
         {
             //from state IDLE or RX go to TX
             num_written = c1101_spi_strobe_command(SPIC1101_ADDR_STX);
-            //~ usb_rawhid_send((uint8_t*)"Strobe STX",255);
+            //~ ((uint8_t*)"Strobe STX",255);
             //~ debug_sprint_int16hex(debug_sb, num_written);
-            //~ usb_rawhid_send(debug_sb,255);
+            //~ (debug_sb,255);
         }
-        //~ usb_rawhid_send((uint8_t*)"TX2 num written",255);
+        //~ ((uint8_t*)"TX2 num written",255);
         //~ debug_sprint_int16hex(debug_sb, num_written);
-        //~ usb_rawhid_send(debug_sb,255);
-        //~ usb_rawhid_send((uint8_t*)"TX2 len",255);
+        //~ (debug_sb,255);
+        //~ ((uint8_t*)"TX2 len",255);
         //~ debug_sprint_int16hex(debug_sb, len);
-        //~ usb_rawhid_send(debug_sb,255);
-        //~ usb_rawhid_send((uint8_t*)"TX2 bytes",255);
+        //~ (debug_sb,255);
+        //~ ((uint8_t*)"TX2 bytes",255);
         //~ debug_sprint_int16hex(debug_sb, c1101_getNumBytesInTXFifo());
-        //~ usb_rawhid_send(debug_sb,255);
+        //~ (debug_sb,255);
     } while (len > 0);
 
     //disable Power Amplifier
@@ -447,8 +463,8 @@ void c1101_recieveData(void)
         num_leave_in_fifo = (recv_data[0] - num_recv_total < 64)? 0 : 1;
     } while (num_recv > 0);
     recv_data[num_recv_total]=0;
-    usb_rawhid_send((uint8_t*)"RX: Data Recieved:",255);
-    usb_rawhid_send((uint8_t*)recv_data,255);
+    CDC_Device_SendString(&VirtualSerial_CDC_Interface,"RX: Data Recieved:");
+    CDC_Device_SendString(&VirtualSerial_CDC_Interface,recv_data);
     c1101_getStatus(); // get status and handle possiblble RX Fifo Overflow
 }
 
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