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41289e6)
The cc1111 manual suggests placing a 2.7kΩ resister and 1nF capacitor on the
RESET_N line to filter out noise. This increases the time necessary to reset
the chip to several microseconds which is longer than the interval between
two USB packets. Flush the USB packet queue and sleep for a while after
changing the value on the RESET_N line to make sure the chip sees the state
change.
Signed-off-by: Keith Packard <keithp@keithp.com>
ccdbg_debug(CC_DEBUG_COMMAND, "#\n");
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA|CC_RESET_N);
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_DATA );
ccdbg_debug(CC_DEBUG_COMMAND, "#\n");
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA|CC_RESET_N);
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_DATA|CC_RESET_N);
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_DATA|CC_RESET_N);
ccdbg_debug(CC_DEBUG_COMMAND, "#\n");
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA|CC_RESET_N);
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_debug(CC_DEBUG_COMMAND, "#\n");
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA|CC_RESET_N);
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA|CC_RESET_N);
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA );
ccdbg_send(dbg, CC_CLOCK|CC_DATA|CC_RESET_N, CC_CLOCK|CC_DATA|CC_RESET_N);
#endif
static uint32_t cc_clock_us = CC_CLOCK_US;
#endif
static uint32_t cc_clock_us = CC_CLOCK_US;
+static uint32_t cc_reset_us = CC_RESET_US;
void
ccdbg_set_clock(uint32_t us)
void
ccdbg_set_clock(uint32_t us)
+void
+ccdbg_wait_reset(struct ccdbg *dbg)
+{
+ struct timespec req, rem;
+
+ ccdbg_sync_io(dbg);
+ req.tv_sec = (cc_reset_us) / 1000000;
+ req.tv_nsec = ((cc_reset_us) % 1000000) * 1000;
+ nanosleep(&req, &rem);
+}
+
struct ccdbg *
ccdbg_open(void)
{
struct ccdbg *
ccdbg_open(void)
{
#define CC_RESET_N 0x4
#define CC_CLOCK_US (0)
#define CC_RESET_N 0x4
#define CC_CLOCK_US (0)
+/* Telemetrum has a 10k pull-up to 3.3v, a 0.001uF cap to ground
+ * and a 2.7k resistor to the reset line. This takes about 6us
+ * to settle, so we'll wait longer than that after changing the reset line
+ */
+#define CC_RESET_US (12)
+
/* 8051 instructions
*/
#define NOP 0x00
/* 8051 instructions
*/
#define NOP 0x00
void
ccdbg_half_clock(struct ccdbg *dbg);
void
ccdbg_half_clock(struct ccdbg *dbg);
+void
+ccdbg_wait_reset(struct ccdbg *dbg);
+
int
ccdbg_write(struct ccdbg *dbg, uint8_t mask, uint8_t value);
int
ccdbg_write(struct ccdbg *dbg, uint8_t mask, uint8_t value);