* (http://www.ixo.de/info/usb_jtag/). *
* Some updates by Anthony Liu (2006). *
* Minor updates and cleanup by Catalin Patulea (2009). *
+ * Speed updates by Ali Lown (2011). *
+ * *
+ * Copyright (C) 2011 Ali Lown *
+ * ali@lown.me.uk *
* *
* Copyright (C) 2009 Catalin Patulea *
* cat@vv.carleton.ca *
static uint16_t usb_blaster_vid = 0x09fb; /* Altera */
static uint16_t usb_blaster_pid = 0x6001; /* USB-Blaster */
-/* last output byte in simple bit banging mode */
+/* last output byte in simple bit banging (legacy) mode */
static uint8_t out_value;
+/* global output buffer for bit banging */
+#define BUF_LEN 64 //Size of EP1
+static uint8_t out_buffer[BUF_LEN];
+static uint16_t out_count = 0;
#if BUILD_USB_BLASTER_FTD2XX == 1
static FT_HANDLE ftdih;
}
/* The following code doesn't fully utilize the possibilities of the
- * USB-Blaster. It writes one byte per JTAG pin state change at a time; it
- * doesn't even try to buffer data up to the maximum packet size of 64 bytes.
+ * USB-Blaster. It only buffers data up to the maximum packet size of 64 bytes.
*
* Actually, the USB-Blaster offers a byte-shift mode to transmit up to 504 data
* bits (bidirectional) in a single USB packet. A header byte has to be sent as
* Bit 0 (0x01): TCK Output.
*
* For transmitting a single data bit, you need to write two bytes. Up to 64
- * bytes can be combined in a single USB packet (but this is not done in the
- * code below). It isn't possible to read a data without transmitting data.
+ * bytes can be combined in a single USB packet.
+ * It isn't possible to read a data without transmitting data.
*/
#define TCK (1 << 0)
#define READ_TDO (1 << 0)
-static void usb_blaster_write_data(void)
+static void usb_blaster_write_databuffer(uint8_t* buf, uint16_t len)
{
uint32_t bytes_written;
- usb_blaster_buf_write(&out_value, 1, &bytes_written);
+ usb_blaster_buf_write(buf, len, &bytes_written);
+ out_count = 0;
+#ifdef _DEBUG_JTAG_IO_
+ LOG_DEBUG("---- WROTE %d",bytes_written);
+#endif
+}
+
+static void usb_blaster_addtowritebuffer(uint8_t value, bool forcewrite)
+{
+ out_buffer[out_count] = value;
+ out_count += 1;
+ if(out_count == BUF_LEN || forcewrite)
+ usb_blaster_write_databuffer(out_buffer, out_count);
}
static int usb_blaster_read_data(void)
uint8_t buf[1];
uint32_t bytes_read;
+ if(out_count > 0)
+ usb_blaster_write_databuffer(out_buffer, out_count);
+
out_value |= READ;
- usb_blaster_write_data();
+ usb_blaster_addtowritebuffer(out_value, true);
out_value &= ~READ;
status = usb_blaster_buf_read(buf, 1, &bytes_read);
if (tdi)
out_value |= TDI;
- usb_blaster_write_data();
+ usb_blaster_addtowritebuffer(out_value, false);
}
static int usb_blaster_speed(int speed)
out_value = 0x00;
if(state)
out_value |= LED;
- usb_blaster_write_data();
+
+ usb_blaster_addtowritebuffer(out_value, true);
}
static struct bitbang_interface usb_blaster_bitbang = {
static int usb_blaster_quit(void)
{
+ if(out_count > 0)
+ usb_blaster_write_databuffer(out_buffer, out_count);
+
#if BUILD_USB_BLASTER_FTD2XX == 1
FT_STATUS status;
if (state == 0)
{
out_value &= ~mask;
- usb_blaster_write_data();
+ usb_blaster_addtowritebuffer(out_value, true);
}
else if (state == 1)
{
out_value |= mask;
- usb_blaster_write_data();
+ usb_blaster_addtowritebuffer(out_value, true);
}
else
{