[sigrok-firmware-fx2lafw.git] / gpif-acquisition.c

/*
 * This file is part of the sigrok-firmware-fx2lafw project.
 *
 * Copyright (C) 2011-2012 Uwe Hermann <uwe@hermann-uwe.de>
 * Copyright (C) 2012 Joel Holdsworth <joel@airwebreathe.org.uk>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301 USA
 */

#include <eputils.h>
#include <fx2regs.h>
#include <fx2macros.h>
#include <delay.h>
#include <gpif.h>
#include <fx2lafw.h>
#include <gpif-acquisition.h>

__bit gpif_acquiring;

static void gpif_reset_waveforms(void)
{
	int i;

	/* Reset WAVEDATA. */
	AUTOPTRSETUP = 0x03;
	AUTOPTRH1 = 0xe4;
	AUTOPTRL1 = 0x00;
	for (i = 0; i < 128; i++)
		EXTAUTODAT1 = 0;
}

static void gpif_setup_registers(void)
{
	/* TODO. Value probably irrelevant, as we don't use RDY* signals? */
	GPIFREADYCFG = 0;

	/*
	 * Set TRICTL = 0, thus CTL0-CTL5 are CMOS outputs.
	 * TODO: Probably irrelevant, as we don't use CTL0-CTL5?
	 */
	GPIFCTLCFG = 0;

	/* When GPIF is idle, tri-state the data bus. */
	/* Bit 7: DONE, bit 0: IDLEDRV. TODO: Set/clear DONE bit? */
	GPIFIDLECS = (1 << 0);

	/* When GPIF is idle, set CTL0-CTL5 to 0. */
	GPIFIDLECTL = 0;

	/*
	 * Map index 0 in WAVEDATA to FIFORD. The rest is assigned too,
	 * but not used by us.
	 *
	 * GPIFWFSELECT: [7:6] = SINGLEWR index, [5:4] = SINGLERD index,
	 *               [3:2] = FIFOWR index, [1:0] = FIFORD index
	 */
	GPIFWFSELECT = (0x3 << 6) | (0x2 << 4) | (0x1 << 2) | (0x0 << 0);

	/* Contains RDY* pin values. Read-only according to TRM. */
	GPIFREADYSTAT = 0;

	/* Make GPIF stop on transaction count not flag. */
	EP2GPIFPFSTOP = (0 << 0);
}

static void gpif_init_addr_pins(void)
{
	/*
	 * Configure the 9 GPIF address pins (GPIFADR[8:0], which consist of
	 * PORTC[7:0] and PORTE[7]), and output an initial address (zero).
	 * TODO: Probably irrelevant, the 56pin FX2 has no ports C and E.
	 */
	PORTCCFG = 0xff;    /* Set PORTC[7:0] as alt. func. (GPIFADR[7:0]). */
	OEC = 0xff;         /* Configure PORTC[7:0] as outputs. */
	PORTECFG |= 0x80;   /* Set PORTE[7] as alt. func. (GPIFADR[8]). */
	OEE |= 0x80;        /* Configure PORTE[7] as output. */
	SYNCDELAY();
	GPIFADRL = 0x00;    /* Clear GPIFADR[7:0]. */
	SYNCDELAY();
	GPIFADRH = 0x00;    /* Clear GPIFADR[8]. */
}

static void gpif_init_flowstates(void)
{
	/* Clear all flowstate registers, we don't use this functionality. */
	FLOWSTATE = 0;
	FLOWLOGIC = 0;
	FLOWEQ0CTL = 0;
	FLOWEQ1CTL = 0;
	FLOWHOLDOFF = 0;
	FLOWSTB = 0;
	FLOWSTBEDGE = 0;
	FLOWSTBHPERIOD = 0;
}

void gpif_init_la(void)
{
	/*
	 * Setup the FX2 in GPIF master mode, using the internal clock
	 * (non-inverted) at 48MHz, and using async sampling.
	 */
	IFCONFIG = 0xee;

	/* Abort currently executing GPIF waveform (if any). */
	GPIFABORT = 0xff;

	/* Setup the GPIF registers. */
	gpif_setup_registers();

	/* Reset WAVEDATA. */
	gpif_reset_waveforms();

	/* Initialize GPIF address pins, output initial values. */
	gpif_init_addr_pins();

	/* Initialize flowstate registers (not used by us). */
	gpif_init_flowstates();

	/* Reset the status. */
	gpif_acquiring = FALSE;
}

static void gpif_make_delay_state(volatile BYTE *pSTATE, uint8_t delay)
{
	/*
	 * DELAY
	 * Delay cmd->sample_delay clocks.
	 */
	pSTATE[0] = delay;

	/*
	 * OPCODE
	 * SGL=0, GIN=0, INCAD=0, NEXT=0, DATA=0, DP=0
	 * Collect data in this state.
	 */
	pSTATE[8] = 0x00;

	/*
	 * OUTPUT
	 * OE[0:3]=0, CTL[0:3]=0
	 */
	pSTATE[16] = 0x00;

	/*
	 * LOGIC FUNCTION
	 * Not used.
	 */
	pSTATE[24] = 0x00;
}

static void gpid_make_data_dp_state(volatile BYTE *pSTATE)
{
	/*
	 * BRANCH
	 * Branch to IDLE if condition is true, back to S0 otherwise.
	 */
	pSTATE[0] = (7 << 3) | (0 << 0);

	/*
	 * OPCODE
	 * SGL=0, GIN=0, INCAD=0, NEXT=0, DATA=1, DP=1
	 */
	pSTATE[8] = (1 << 1) | (1 << 0);

	/*
	 * OUTPUT
	 * OE[0:3]=0, CTL[0:3]=0
	 */
	pSTATE[16] = 0x00;

	/*
	 * LOGIC FUNCTION
	 * Evaluate if the FIFO full flag is set.
	 * LFUNC=0 (AND), TERMA=6 (FIFO Flag), TERMB=6 (FIFO Flag)
	 */
	pSTATE[24] = (6 << 3) | (6 << 0);
}

bool gpif_acquisition_start(const struct cmd_start_acquisition *cmd)
{
	int i;
	volatile BYTE *pSTATE = &GPIF_WAVE_DATA;

	/* Ensure GPIF is idle before reconfiguration. */
	while (!(GPIFTRIG & 0x80));

	/* Configure the EP2 FIFO. */
	if (cmd->flags & CMD_START_FLAGS_SAMPLE_16BIT) {
		EP2FIFOCFG = bmAUTOIN | bmWORDWIDE;
	} else {
		EP2FIFOCFG = bmAUTOIN;
	}
	SYNCDELAY();

	/* Set IFCONFIG to the correct clock source. */
	if (cmd->flags & CMD_START_FLAGS_CLK_48MHZ) {
		IFCONFIG = bmIFCLKSRC | bm3048MHZ | bmIFCLKOE | bmASYNC |
			   bmGSTATE | bmIFGPIF;
	} else {
		IFCONFIG = bmIFCLKSRC | bmIFCLKOE | bmASYNC |
			   bmGSTATE | bmIFGPIF;
	}

	/* Populate delay states. */
	if ((cmd->sample_delay_h == 0 && cmd->sample_delay_l == 0) ||
	    cmd->sample_delay_h >= 6)
		return false;

	for (i = 0; i < cmd->sample_delay_h; i++)
		gpif_make_delay_state(pSTATE++, 0);

	if (cmd->sample_delay_l != 0)
		gpif_make_delay_state(pSTATE++, cmd->sample_delay_l);

	/* Populate S1 - the decision point. */
	gpid_make_data_dp_state(pSTATE++);

	/* Execute the whole GPIF waveform once. */
	gpif_set_tc16(1);

	/* Perform the initial GPIF read. */
	gpif_fifo_read(GPIF_EP2);

	/* Update the status. */
	gpif_acquiring = TRUE;

	return true;
}

void gpif_poll(void)
{
	/* Detect if acquisition has completed. */
	if (gpif_acquiring && (GPIFTRIG & 0x80)) {
		/* Activate NAK-ALL to avoid race conditions. */
		FIFORESET = 0x80;
		SYNCDELAY();

		/* Switch to manual mode. */
		EP2FIFOCFG = 0;
		SYNCDELAY();

		/* Reset EP2. */
		FIFORESET = 0x02;
		SYNCDELAY();

		/* Return to auto mode. */
		EP2FIFOCFG = bmAUTOIN;
		SYNCDELAY();

		/* Release NAK-ALL. */
		FIFORESET = 0x00;
		SYNCDELAY();

		gpif_acquiring = FALSE;
	}
}
Commit	Line	Data
e41576ec	1	/*
a986cfff	2	* This file is part of the sigrok-firmware-fx2lafw project.
e41576ec JH	3	*
	4	* Copyright (C) 2011-2012 Uwe Hermann <uwe@hermann-uwe.de>
	5	* Copyright (C) 2012 Joel Holdsworth <joel@airwebreathe.org.uk>
	6	*
	7	* This program is free software; you can redistribute it and/or modify
	8	* it under the terms of the GNU General Public License as published by
	9	* the Free Software Foundation; either version 2 of the License, or
	10	* (at your option) any later version.
	11	*
	12	* This program is distributed in the hope that it will be useful,
	13	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	14	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	15	* GNU General Public License for more details.
	16	*
	17	* You should have received a copy of the GNU General Public License
	18	* along with this program; if not, write to the Free Software
	19	* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
	20	*/
	21
293d7e9e	22	#include <eputils.h>
e41576ec JH	23	#include <fx2regs.h>
	24	#include <fx2macros.h>
	25	#include <delay.h>
	26	#include <gpif.h>
e41576ec JH	27	#include <fx2lafw.h>
	28	#include <gpif-acquisition.h>
	29
8819f75c	30	__bit gpif_acquiring;
293d7e9e	31
421e7d6d JH	32	static void gpif_reset_waveforms(void)
	33	{
	34	int i;
e41576ec	35
421e7d6d JH	36	/* Reset WAVEDATA. */
	37	AUTOPTRSETUP = 0x03;
	38	AUTOPTRH1 = 0xe4;
	39	AUTOPTRL1 = 0x00;
	40	for (i = 0; i < 128; i++)
	41	EXTAUTODAT1 = 0;
	42	}
e41576ec JH	43
	44	static void gpif_setup_registers(void)
	45	{
	46	/* TODO. Value probably irrelevant, as we don't use RDY* signals? */
	47	GPIFREADYCFG = 0;
	48
	49	/*
	50	* Set TRICTL = 0, thus CTL0-CTL5 are CMOS outputs.
	51	* TODO: Probably irrelevant, as we don't use CTL0-CTL5?
	52	*/
	53	GPIFCTLCFG = 0;
	54
	55	/* When GPIF is idle, tri-state the data bus. */
	56	/* Bit 7: DONE, bit 0: IDLEDRV. TODO: Set/clear DONE bit? */
	57	GPIFIDLECS = (1 << 0);
	58
	59	/* When GPIF is idle, set CTL0-CTL5 to 0. */
	60	GPIFIDLECTL = 0;
	61
	62	/*
421e7d6d	63	* Map index 0 in WAVEDATA to FIFORD. The rest is assigned too,
e41576ec JH	64	* but not used by us.
	65	*
	66	* GPIFWFSELECT: [7:6] = SINGLEWR index, [5:4] = SINGLERD index,
	67	* [3:2] = FIFOWR index, [1:0] = FIFORD index
	68	*/
	69	GPIFWFSELECT = (0x3 << 6) \| (0x2 << 4) \| (0x1 << 2) \| (0x0 << 0);
	70
	71	/* Contains RDY* pin values. Read-only according to TRM. */
	72	GPIFREADYSTAT = 0;
1e588d06	73
c7e02d8c	74	/* Make GPIF stop on transaction count not flag. */
1e588d06	75	EP2GPIFPFSTOP = (0 << 0);
e41576ec JH	76	}
e41576ec JH	77
e41576ec JH	78	static void gpif_init_addr_pins(void)
	79	{
	80	/*
	81	* Configure the 9 GPIF address pins (GPIFADR[8:0], which consist of
	82	* PORTC[7:0] and PORTE[7]), and output an initial address (zero).
	83	* TODO: Probably irrelevant, the 56pin FX2 has no ports C and E.
	84	*/
	85	PORTCCFG = 0xff; /* Set PORTC[7:0] as alt. func. (GPIFADR[7:0]). */
	86	OEC = 0xff; /* Configure PORTC[7:0] as outputs. */
	87	PORTECFG \|= 0x80; /* Set PORTE[7] as alt. func. (GPIFADR[8]). */
	88	OEE \|= 0x80; /* Configure PORTE[7] as output. */
	89	SYNCDELAY();
	90	GPIFADRL = 0x00; /* Clear GPIFADR[7:0]. */
	91	SYNCDELAY();
	92	GPIFADRH = 0x00; /* Clear GPIFADR[8]. */
	93	}
	94
	95	static void gpif_init_flowstates(void)
	96	{
	97	/* Clear all flowstate registers, we don't use this functionality. */
	98	FLOWSTATE = 0;
	99	FLOWLOGIC = 0;
	100	FLOWEQ0CTL = 0;
	101	FLOWEQ1CTL = 0;
	102	FLOWHOLDOFF = 0;
	103	FLOWSTB = 0;
	104	FLOWSTBEDGE = 0;
	105	FLOWSTBHPERIOD = 0;
	106	}
	107
	108	void gpif_init_la(void)
	109	{
	110	/*
	111	* Setup the FX2 in GPIF master mode, using the internal clock
	112	* (non-inverted) at 48MHz, and using async sampling.
	113	*/
	114	IFCONFIG = 0xee;
	115
	116	/* Abort currently executing GPIF waveform (if any). */
	117	GPIFABORT = 0xff;
	118
	119	/* Setup the GPIF registers. */
	120	gpif_setup_registers();
	121
421e7d6d JH	122	/* Reset WAVEDATA. */
421e7d6d JH	123	gpif_reset_waveforms();
e41576ec JH	124
	125	/* Initialize GPIF address pins, output initial values. */
	126	gpif_init_addr_pins();
	127
	128	/* Initialize flowstate registers (not used by us). */
	129	gpif_init_flowstates();
293d7e9e	130
c7e02d8c	131	/* Reset the status. */
293d7e9e	132	gpif_acquiring = FALSE;
e41576ec JH	133	}
e41576ec JH	134
a371bdee	135	static void gpif_make_delay_state(volatile BYTE *pSTATE, uint8_t delay)
e41576ec	136	{
cd29817d UH	137	/*
cd29817d UH	138	* DELAY
baecf744 JH	139	* Delay cmd->sample_delay clocks.
baecf744 JH	140	*/
7dfad4cb	141	pSTATE[0] = delay;
baecf744	142
cd29817d UH	143	/*
cd29817d UH	144	* OPCODE
a371bdee	145	* SGL=0, GIN=0, INCAD=0, NEXT=0, DATA=0, DP=0
baecf744 JH	146	* Collect data in this state.
baecf744 JH	147	*/
a371bdee	148	pSTATE[8] = 0x00;
baecf744	149
cd29817d UH	150	/*
cd29817d UH	151	* OUTPUT
baecf744 JH	152	* OE[0:3]=0, CTL[0:3]=0
baecf744 JH	153	*/
421e7d6d	154	pSTATE[16] = 0x00;
baecf744	155
cd29817d UH	156	/*
	157	* LOGIC FUNCTION
	158	* Not used.
baecf744	159	*/
421e7d6d	160	pSTATE[24] = 0x00;
7dfad4cb	161	}
421e7d6d	162
a371bdee	163	static void gpid_make_data_dp_state(volatile BYTE *pSTATE)
7dfad4cb	164	{
cd29817d UH	165	/*
	166	* BRANCH
	167	* Branch to IDLE if condition is true, back to S0 otherwise.
baecf744 JH	168	*/
	169	pSTATE[0] = (7 << 3) \| (0 << 0);
	170
cd29817d UH	171	/*
cd29817d UH	172	* OPCODE
a371bdee	173	* SGL=0, GIN=0, INCAD=0, NEXT=0, DATA=1, DP=1
baecf744	174	*/
a371bdee	175	pSTATE[8] = (1 << 1) \| (1 << 0);
baecf744	176
cd29817d UH	177	/*
cd29817d UH	178	* OUTPUT
baecf744 JH	179	* OE[0:3]=0, CTL[0:3]=0
baecf744 JH	180	*/
421e7d6d	181	pSTATE[16] = 0x00;
baecf744	182
cd29817d UH	183	/*
cd29817d UH	184	* LOGIC FUNCTION
baecf744 JH	185	* Evaluate if the FIFO full flag is set.
	186	* LFUNC=0 (AND), TERMA=6 (FIFO Flag), TERMB=6 (FIFO Flag)
	187	*/
	188	pSTATE[24] = (6 << 3) \| (6 << 0);
7dfad4cb JH	189	}
7dfad4cb JH	190
fb08a72d	191	bool gpif_acquisition_start(const struct cmd_start_acquisition *cmd)
7dfad4cb	192	{
fb08a72d JH	193	int i;
fb08a72d JH	194	volatile BYTE *pSTATE = &GPIF_WAVE_DATA;
7dfad4cb JH	195
	196	/* Ensure GPIF is idle before reconfiguration. */
	197	while (!(GPIFTRIG & 0x80));
	198
5d492e18 UH	199	/* Configure the EP2 FIFO. */
5d492e18 UH	200	if (cmd->flags & CMD_START_FLAGS_SAMPLE_16BIT) {
daf6d940 JH	201	EP2FIFOCFG = bmAUTOIN \| bmWORDWIDE;
	202	} else {
	203	EP2FIFOCFG = bmAUTOIN;
	204	}
	205	SYNCDELAY();
	206
7dfad4cb JH	207	/* Set IFCONFIG to the correct clock source. */
	208	if (cmd->flags & CMD_START_FLAGS_CLK_48MHZ) {
	209	IFCONFIG = bmIFCLKSRC \| bm3048MHZ \| bmIFCLKOE \| bmASYNC \|
	210	bmGSTATE \| bmIFGPIF;
	211	} else {
	212	IFCONFIG = bmIFCLKSRC \| bmIFCLKOE \| bmASYNC \|
	213	bmGSTATE \| bmIFGPIF;
	214	}
	215
5d492e18 UH	216	/* Populate delay states. */
	217	if ((cmd->sample_delay_h == 0 && cmd->sample_delay_l == 0) \|\|
	218	cmd->sample_delay_h >= 6)
fb08a72d	219	return false;
7dfad4cb	220
5d492e18	221	for (i = 0; i < cmd->sample_delay_h; i++)
fb08a72d	222	gpif_make_delay_state(pSTATE++, 0);
7dfad4cb	223
5d492e18	224	if (cmd->sample_delay_l != 0)
fb08a72d	225	gpif_make_delay_state(pSTATE++, cmd->sample_delay_l);
7dfad4cb JH	226
7dfad4cb JH	227	/* Populate S1 - the decision point. */
fb08a72d	228	gpid_make_data_dp_state(pSTATE++);
421e7d6d	229
cd29817d	230	/* Execute the whole GPIF waveform once. */
1e588d06 JH	231	gpif_set_tc16(1);
1e588d06 JH	232
e41576ec JH	233	/* Perform the initial GPIF read. */
e41576ec JH	234	gpif_fifo_read(GPIF_EP2);
293d7e9e	235
cd29817d	236	/* Update the status. */
293d7e9e	237	gpif_acquiring = TRUE;
fb08a72d JH	238
fb08a72d JH	239	return true;
293d7e9e JH	240	}
	241
	242	void gpif_poll(void)
	243	{
cd29817d UH	244	/* Detect if acquisition has completed. */
	245	if (gpif_acquiring && (GPIFTRIG & 0x80)) {
	246	/* Activate NAK-ALL to avoid race conditions. */
293d7e9e JH	247	FIFORESET = 0x80;
	248	SYNCDELAY();
	249
cd29817d	250	/* Switch to manual mode. */
293d7e9e JH	251	EP2FIFOCFG = 0;
	252	SYNCDELAY();
	253
cd29817d	254	/* Reset EP2. */
293d7e9e JH	255	FIFORESET = 0x02;
	256	SYNCDELAY();
	257
cd29817d	258	/* Return to auto mode. */
293d7e9e JH	259	EP2FIFOCFG = bmAUTOIN;
	260	SYNCDELAY();
	261
cd29817d	262	/* Release NAK-ALL. */
293d7e9e JH	263	FIFORESET = 0x00;
	264	SYNCDELAY();
	265
	266	gpif_acquiring = FALSE;
	267	}
e41576ec	268	}