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[/] [openarty/] [trunk/] [sw/] [board/] [exmulti.c] - Blame information for rev 36

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////////////////////////////////////////////////////////////////////////////////
//
// Filename:    exmulti.c
//
// Project:     OpenArty, an entirely open SoC based upon the Arty platform
//
// Purpose:     Very similar to exstartup.c, the purpose of this program is to
//              demonstrate several working peripherals.  To the exstartup
//      peripherals, we'll add the GPS and the GPS PPS tracking.
//
// Creator:     Dan Gisselquist, Ph.D.
//              Gisselquist Technology, LLC
//
////////////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2015-2016, Gisselquist Technology, LLC
//
// This program is free software (firmware): 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 3 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 MERCHANTIBILITY 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.  (It's in the $(ROOT)/doc directory, run make with no
// target there if the PDF file isn't present.)  If not, see
// <http://www.gnu.org/licenses/> for a copy.
//
// License:     GPL, v3, as defined and found on www.gnu.org,
//              http://www.gnu.org/licenses/gpl.html
//
//
////////////////////////////////////////////////////////////////////////////////
//
//
#include "artyboard.h"
#include "zipsys.h"
 
void    idle_task(void) {
        while(1)
                zip_idle();
}
 
void    wait_on_interrupt(int mask) {
        zip->pic = DALLPIC|mask;
        zip->pic = EINT(mask);
        zip_rtu();
}
 
int     user_stack[256];
void    user_task(void) {
        const unsigned white = 0x070707, black = 0;
        while(1) {
                unsigned        btn, subnow, sw;
 
                subnow = (sys->io_gps_sub >> 28)&0x0f;
 
                // If the button is pressed, toggle the LED
                // Otherwise, turn the LED off.
                //
 
                // First, get all the pressed buttons
                btn = (sys->io_btnsw) & 0x0f0;
                // Now, acknowledge the button presses that we just read
                sys->io_btnsw = btn;
                btn >>= 4;
 
                // Now, use the time as the toggle function.
                btn = (subnow ^ btn)&btn & 0x07;
 
                sys->io_ledctrl = btn | 0x070;
 
                sw = sys->io_btnsw & 0x0f;
                for(int i=0; i<4; i++)
                        sys->io_clrled[i] = (sw & (1<<i)) ? white : black;
 
        }
}
 
int     mpyuhi(int a, int b) {
        // err_in_ns = mpyuhi(err_in_ns, err);
        // __asm__("MPYUHI %1,%0" :"+r"(a):"r"(b));
        unsigned alo, blo, ahi, bhi, f, o, i, l, rhi;
 
        alo = (a & 0x0ffff);
        ahi = (a >> 16)&0x0ffff;
        blo = (b & 0x0ffff);
        bhi = (b >> 16)&0x0ffff;
 
        l = alo * blo;
        o = ahi * blo;
        i = alo * bhi;
        f = ahi * bhi;
 
        rhi = o + i + (l >> 16);
        return (rhi >> 16) + f;
        // return f;
        // return ahi;
}
 
int     hexdigit(int v) {
        if (v < 10)
                return v + '0';
        else
                return v + 'A' - 10;
}
 
int     errstring[128];
 
void    entry(void) {
        const unsigned red = 0x0ff0000, green = 0x0ff00, blue = 0x0ff,
                white = 0x070707, black = 0, dimgreen = 0x1f00,
                second = 81250000;
        int     i, sw;
 
        // Start the GPS converging ...
        sys->io_gps.g_alpha = 2;
        sys->io_gps.g_beta  = 0x14bda12f;
        sys->io_gps.g_gamma = 0x1f533ae8;
 
        int     user_context[16];
        for(i=0; i<15; i++)
                user_context[i] = 0;
        user_context[15] = (unsigned)idle_task;
        zip_restore_context(user_context);
 
        for(i=0; i<4; i++)
                sys->io_clrled[i] = red;
        sys->io_ledctrl = 0x0ff;
 
        // Clear the PIC
        //
        //      Acknowledge all interrupts, turn off all interrupts
        //
        zip->pic = 0x7fff7fff;
        while(sys->io_pwrcount < (second >> 4))
                ;
 
        // Repeating timer, every 250ms
        zip->tma = (second/4) | 0x80000000;
        wait_on_interrupt(SYSINT_TMA);
 
        sys->io_clrled[0] = green;
        sys->io_ledctrl = 0x010;
 
        wait_on_interrupt(SYSINT_TMA);
 
        sys->io_clrled[0] = dimgreen;
        sys->io_clrled[1] = green;
        sys->io_scope[0].s_ctrl = 32 | 0x80000000; // SCOPE_TRIGGER;
        sys->io_ledctrl = 0x020;
 
        wait_on_interrupt(SYSINT_TMA);
 
        sys->io_clrled[1] = dimgreen;
        sys->io_clrled[2] = green;
        sys->io_ledctrl = 0x040;
 
        wait_on_interrupt(SYSINT_TMA);
 
        sys->io_clrled[2] = dimgreen;
        sys->io_clrled[3] = green;
        sys->io_ledctrl = 0x080;
 
        wait_on_interrupt(SYSINT_TMA);
 
        sys->io_clrled[3] = dimgreen;
 
        wait_on_interrupt(SYSINT_TMA);
 
        for(i=0; i<4; i++)
                sys->io_clrled[i] = black;
 
        // Wait one second ...
        for(i=0; i<4; i++)
                wait_on_interrupt(SYSINT_TMA);
 
        // Blink all the LEDs
        //      First turn them on
        sys->io_ledctrl = 0x0ff;
        // Then wait a quarter second
        wait_on_interrupt(SYSINT_TMA);
        // Then turn the back off
        sys->io_ledctrl = 0x0f0;
        // and wait another quarter second
        wait_on_interrupt(SYSINT_TMA);
 
        // Now, read buttons, and flash an LED on any button being held
        // down ... ? neat?
 
        // Now, let's synchronize ourselves to the PPS
        user_context[13] = (int)&user_stack[256];
        user_context[15] = (int)&user_task;
        zip_restore_context(user_context);
 
        do {
                wait_on_interrupt(SYSINT_PPS|SYSINT_TMA);
        } while((zip->pic & SYSINT_PPS)==0);
 
        while(1) {
                int     *s = errstring;
 
                zip->wdt = CLOCKFREQ_HZ*4;
                sys->io_ledctrl = 0x088;
 
                // 1. Read and report the GPS tracking err
 
                // Get the upper 32-bits of the error;
                int     err = *(int *)(&sys->io_gpstb.tb_err);
                int     err_in_ns;
                /*
                long    err_in_ns_long = err;
                err_in_ns_long *= 1000000000l;
                err_in_ns_long >>= 32;
                int     err_in_ns = (int)(err_in_ns_long);
                */
                int     err_sgn = (err < 0)?1:0;
                err_in_ns = (err<0)?-err:err;
                err_in_ns = mpyuhi(err_in_ns, 1000000000);
                int     digit;
 
 
                *s++ = '\r';
                *s++ = '\n';
                *s++ = 'G';
                *s++ = 'P';
                *s++ = 'S';
                *s++ = ' ';
                *s++ = 'P';
                *s++ = 'P';
                *s++ = 'S';
                *s++ = ' ';
                *s++ = 'E';
                *s++ = 'r';
                *s++ = 'r';
                *s++ = ':';
                *s++ = ' ';
 
 
                *s++ = '0';
                *s++ = 'x';
                *s++ = hexdigit((err>>28)&0x0f);
                *s++ = hexdigit((err>>24)&0x0f);
                *s++ = hexdigit((err>>20)&0x0f);
                *s++ = hexdigit((err>>16)&0x0f);
                *s++ = hexdigit((err>>12)&0x0f);
                *s++ = hexdigit((err>> 8)&0x0f);
                *s++ = hexdigit((err>> 4)&0x0f);
                *s++ = hexdigit((err    )&0x0f);
 
                *s++ = ' ';
                *s++ = '=';
                *s++ = '>';
                *s++ = ' ';
 
                *s++ = '0';
                *s++ = 'x';
                *s++ = hexdigit((err_in_ns>>28)&0x0f);
                *s++ = hexdigit((err_in_ns>>24)&0x0f);
                *s++ = hexdigit((err_in_ns>>20)&0x0f);
                *s++ = hexdigit((err_in_ns>>16)&0x0f);
                *s++ = hexdigit((err_in_ns>>12)&0x0f);
                *s++ = hexdigit((err_in_ns>> 8)&0x0f);
                *s++ = hexdigit((err_in_ns>> 4)&0x0f);
                *s++ = hexdigit((err_in_ns    )&0x0f);
 
                *s++ = ' ';
                *s++ = '=';
                *s++ = '>';
                *s++ = ' ';
 
                *s++ = (err_sgn)?'-':' ';
                // Milliseconds
                digit = err_in_ns / 100000000;
                *s++ = digit+'0';
                err_in_ns -= digit * 100000000;
                //
                digit = err_in_ns / 10000000;
                *s++ = digit+'0';
                err_in_ns -= digit * 10000000;
                //
                digit = err_in_ns / 1000000;
                *s++ = digit+'0';
                err_in_ns -= digit * 1000000;
                // Micro seconds
                digit = err_in_ns / 100000;
                *s++ = digit+'0';
                err_in_ns -= digit * 100000;
                //
                digit = err_in_ns / 10000;
                *s++ = digit+'0';
                err_in_ns -= digit * 10000;
                //
                digit = err_in_ns / 1000;
                *s++ = digit+'0';
                err_in_ns -= digit * 1000;
                // Nano seconds
                *s++ = '.';
                digit = err_in_ns / 100;
                *s++ = digit+'0';
                err_in_ns -= digit * 100;
                //
                digit = err_in_ns / 10;
                *s++ = digit+'0';
                err_in_ns -= digit * 10;
                //
                digit = err_in_ns;
                *s++ = digit+'0';
                //
                *s++ = ' ';
                *s++ = 'u';
                *s++ = 'S';
                *s++ = '\r';
                *s++ = '\n';
                *s++ = '\r';
                *s++ = '\n';
                *s++ = '\0';
 
                /*
                zip->dma.ctrl = DMACLEAR;
                zip->dma.rd = errstring;
                zip->dma.wr = &sys->io_uart_tx;
                zip->dma.len = s - errstring-1;
                zip->dma.ctrl = (DMAONEATATIME|DMA_CONSTDST|DMA_GPSRX);
                wait_on_interrupt(SYSINT_DMAC);
                */
 
                for(int i=0; errstring[i]; i++) {
                        wait_on_interrupt(SYSINT_UARTTX);
                        sys->io_uart_tx = errstring[i];
                        zip->pic = SYSINT_UARTTX;
                }
 
                sys->io_ledctrl = 0x080;
 
                /*
                zip->dma.rd = &sys->io_gps_rx;
                zip->dma.wr = &sys->io_uart_tx;
                zip->dma.len = 0x01000000;
                zip->dma.ctrl = (DMAONEATATIME|DMA_CONSTDST|DMA_CONSTSRC|DMA_GPSRX);
                wait_on_interrupt(SYSINT_PPS);
                */
 
                /*
                if (zip_ucc() & CC_FAULT) {
                        zip_save_context(user_context);
                        user_context[14] = CC_GIE;
                        user_context[15] = (int)&idle_task;
                        zip_restore_context(user_context);
                }
                */
 
                zip->pic = SYSINT_GPSRX | SYSINT_PPS;
                do {
                        wait_on_interrupt(SYSINT_PPS|SYSINT_GPSRX);
                        if (zip->pic & SYSINT_GPSRX) {
                                sys->io_uart_tx = sys->io_gps_rx;
                                zip->pic = SYSINT_GPSRX;
                        }
                } while((zip->pic & SYSINT_PPS)==0);
 
                // wait_on_interrupt(SYSINT_PPS);
                // zip->dma.ctrl= DMACLEAR;
        }
 
        zip_halt();
}
 

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[/] [openarty/] [trunk/] [sw/] [board/] [exmulti.c] - Blame information for rev 36

Line No.	Rev	Author	Line
1	36	dgisselq	`////////////////////////////////////////////////////////////////////////////////`
2			`//`
3			`// Filename: exmulti.c`
4			`//`
5			`// Project: OpenArty, an entirely open SoC based upon the Arty platform`
6			`//`
7			`// Purpose: Very similar to exstartup.c, the purpose of this program is to`
8			`// demonstrate several working peripherals. To the exstartup`
9			`// peripherals, we'll add the GPS and the GPS PPS tracking.`
10			`//`
11			`// Creator: Dan Gisselquist, Ph.D.`
12			`// Gisselquist Technology, LLC`
13			`//`
14			`////////////////////////////////////////////////////////////////////////////////`
15			`//`
16			`// Copyright (C) 2015-2016, Gisselquist Technology, LLC`
17			`//`
18			`// This program is free software (firmware): you can redistribute it and/or`
19			`// modify it under the terms of the GNU General Public License as published`
20			`// by the Free Software Foundation, either version 3 of the License, or (at`
21			`// your option) any later version.`
22			`//`
23			`// This program is distributed in the hope that it will be useful, but WITHOUT`
24			`// ANY WARRANTY; without even the implied warranty of MERCHANTIBILITY or`
25			`// FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License`
26			`// for more details.`
27			`//`
28			`// You should have received a copy of the GNU General Public License along`
29			`// with this program. (It's in the $(ROOT)/doc directory, run make with no`
30			`// target there if the PDF file isn't present.) If not, see`
31			`// <http://www.gnu.org/licenses/> for a copy.`
32			`//`
33			`// License: GPL, v3, as defined and found on www.gnu.org,`
34			`// http://www.gnu.org/licenses/gpl.html`
35			`//`
36			`//`
37			`////////////////////////////////////////////////////////////////////////////////`
38			`//`
39			`//`
40			`#include "artyboard.h"`
41			`#include "zipsys.h"`
42
43			`void idle_task(void) {`
44			`while(1)`
45			`zip_idle();`
46			`}`
47
48			`void wait_on_interrupt(int mask) {`
49			`zip->pic = DALLPIC\|mask;`
50			`zip->pic = EINT(mask);`
51			`zip_rtu();`
52			`}`
53
54			`int user_stack[256];`
55			`void user_task(void) {`
56			`const unsigned white = 0x070707, black = 0;`
57			`while(1) {`
58			`unsigned btn, subnow, sw;`
59
60			`subnow = (sys->io_gps_sub >> 28)&0x0f;`
61
62			`// If the button is pressed, toggle the LED`
63			`// Otherwise, turn the LED off.`
64			`//`
65
66			`// First, get all the pressed buttons`
67			`btn = (sys->io_btnsw) & 0x0f0;`
68			`// Now, acknowledge the button presses that we just read`
69			`sys->io_btnsw = btn;`
70			`btn >>= 4;`
71
72			`// Now, use the time as the toggle function.`
73			`btn = (subnow ^ btn)&btn & 0x07;`
74
75			`sys->io_ledctrl = btn \| 0x070;`
76
77			`sw = sys->io_btnsw & 0x0f;`
78			`for(int i=0; i<4; i++)`
79			`sys->io_clrled[i] = (sw & (1<<i)) ? white : black;`
80
81			`}`
82			`}`
83
84			`int mpyuhi(int a, int b) {`
85			`// err_in_ns = mpyuhi(err_in_ns, err);`
86			`// __asm__("MPYUHI %1,%0" :"+r"(a):"r"(b));`
87			`unsigned alo, blo, ahi, bhi, f, o, i, l, rhi;`
88
89			`alo = (a & 0x0ffff);`
90			`ahi = (a >> 16)&0x0ffff;`
91			`blo = (b & 0x0ffff);`
92			`bhi = (b >> 16)&0x0ffff;`
93
94			`l = alo * blo;`
95			`o = ahi * blo;`
96			`i = alo * bhi;`
97			`f = ahi * bhi;`
98
99			`rhi = o + i + (l >> 16);`
100			`return (rhi >> 16) + f;`
101			`// return f;`
102			`// return ahi;`
103			`}`
104
105			`int hexdigit(int v) {`
106			`if (v < 10)`
107			`return v + '0';`
108			`else`
109			`return v + 'A' - 10;`
110			`}`
111
112			`int errstring[128];`
113
114			`void entry(void) {`
115			`const unsigned red = 0x0ff0000, green = 0x0ff00, blue = 0x0ff,`
116			`white = 0x070707, black = 0, dimgreen = 0x1f00,`
117			`second = 81250000;`
118			`int i, sw;`
119
120			`// Start the GPS converging ...`
121			`sys->io_gps.g_alpha = 2;`
122			`sys->io_gps.g_beta = 0x14bda12f;`
123			`sys->io_gps.g_gamma = 0x1f533ae8;`
124
125			`int user_context[16];`
126			`for(i=0; i<15; i++)`
127			`user_context[i] = 0;`
128			`user_context[15] = (unsigned)idle_task;`
129			`zip_restore_context(user_context);`
130
131			`for(i=0; i<4; i++)`
132			`sys->io_clrled[i] = red;`
133			`sys->io_ledctrl = 0x0ff;`
134
135			`// Clear the PIC`
136			`//`
137			`// Acknowledge all interrupts, turn off all interrupts`
138			`//`
139			`zip->pic = 0x7fff7fff;`
140			`while(sys->io_pwrcount < (second >> 4))`
141			`;`
142
143			`// Repeating timer, every 250ms`
144			`zip->tma = (second/4) \| 0x80000000;`
145			`wait_on_interrupt(SYSINT_TMA);`
146
147			`sys->io_clrled[0] = green;`
148			`sys->io_ledctrl = 0x010;`
149
150			`wait_on_interrupt(SYSINT_TMA);`
151
152			`sys->io_clrled[0] = dimgreen;`
153			`sys->io_clrled[1] = green;`
154			`sys->io_scope[0].s_ctrl = 32 \| 0x80000000; // SCOPE_TRIGGER;`
155			`sys->io_ledctrl = 0x020;`
156
157			`wait_on_interrupt(SYSINT_TMA);`
158
159			`sys->io_clrled[1] = dimgreen;`
160			`sys->io_clrled[2] = green;`
161			`sys->io_ledctrl = 0x040;`
162
163			`wait_on_interrupt(SYSINT_TMA);`
164
165			`sys->io_clrled[2] = dimgreen;`
166			`sys->io_clrled[3] = green;`
167			`sys->io_ledctrl = 0x080;`
168
169			`wait_on_interrupt(SYSINT_TMA);`
170
171			`sys->io_clrled[3] = dimgreen;`
172
173			`wait_on_interrupt(SYSINT_TMA);`
174
175			`for(i=0; i<4; i++)`
176			`sys->io_clrled[i] = black;`
177
178			`// Wait one second ...`
179			`for(i=0; i<4; i++)`
180			`wait_on_interrupt(SYSINT_TMA);`
181
182			`// Blink all the LEDs`
183			`// First turn them on`
184			`sys->io_ledctrl = 0x0ff;`
185			`// Then wait a quarter second`
186			`wait_on_interrupt(SYSINT_TMA);`
187			`// Then turn the back off`
188			`sys->io_ledctrl = 0x0f0;`
189			`// and wait another quarter second`
190			`wait_on_interrupt(SYSINT_TMA);`
191
192			`// Now, read buttons, and flash an LED on any button being held`
193			`// down ... ? neat?`
194
195			`// Now, let's synchronize ourselves to the PPS`
196			`user_context[13] = (int)&user_stack[256];`
197			`user_context[15] = (int)&user_task;`
198			`zip_restore_context(user_context);`
199
200			`do {`
201			`wait_on_interrupt(SYSINT_PPS\|SYSINT_TMA);`
202			`} while((zip->pic & SYSINT_PPS)==0);`
203
204			`while(1) {`
205			`int *s = errstring;`
206
207			`zip->wdt = CLOCKFREQ_HZ*4;`
208			`sys->io_ledctrl = 0x088;`
209
210			`// 1. Read and report the GPS tracking err`
211
212			`// Get the upper 32-bits of the error;`
213			`int err = (int )(&sys->io_gpstb.tb_err);`
214			`int err_in_ns;`
215			`/*`
216			`long err_in_ns_long = err;`
217			`err_in_ns_long *= 1000000000l;`
218			`err_in_ns_long >>= 32;`
219			`int err_in_ns = (int)(err_in_ns_long);`
220			`*/`
221			`int err_sgn = (err < 0)?1:0;`
222			`err_in_ns = (err<0)?-err:err;`
223			`err_in_ns = mpyuhi(err_in_ns, 1000000000);`
224			`int digit;`
225
226
227			`*s++ = '\r';`
228			`*s++ = '\n';`
229			`*s++ = 'G';`
230			`*s++ = 'P';`
231			`*s++ = 'S';`
232			`*s++ = ' ';`
233			`*s++ = 'P';`
234			`*s++ = 'P';`
235			`*s++ = 'S';`
236			`*s++ = ' ';`
237			`*s++ = 'E';`
238			`*s++ = 'r';`
239			`*s++ = 'r';`
240			`*s++ = ':';`
241			`*s++ = ' ';`
242
243
244			`*s++ = '0';`
245			`*s++ = 'x';`
246			`*s++ = hexdigit((err>>28)&0x0f);`
247			`*s++ = hexdigit((err>>24)&0x0f);`
248			`*s++ = hexdigit((err>>20)&0x0f);`
249			`*s++ = hexdigit((err>>16)&0x0f);`
250			`*s++ = hexdigit((err>>12)&0x0f);`
251			`*s++ = hexdigit((err>> 8)&0x0f);`
252			`*s++ = hexdigit((err>> 4)&0x0f);`
253			`*s++ = hexdigit((err )&0x0f);`
254
255			`*s++ = ' ';`
256			`*s++ = '=';`
257			`*s++ = '>';`
258			`*s++ = ' ';`
259
260			`*s++ = '0';`
261			`*s++ = 'x';`
262			`*s++ = hexdigit((err_in_ns>>28)&0x0f);`
263			`*s++ = hexdigit((err_in_ns>>24)&0x0f);`
264			`*s++ = hexdigit((err_in_ns>>20)&0x0f);`
265			`*s++ = hexdigit((err_in_ns>>16)&0x0f);`
266			`*s++ = hexdigit((err_in_ns>>12)&0x0f);`
267			`*s++ = hexdigit((err_in_ns>> 8)&0x0f);`
268			`*s++ = hexdigit((err_in_ns>> 4)&0x0f);`
269			`*s++ = hexdigit((err_in_ns )&0x0f);`
270
271			`*s++ = ' ';`
272			`*s++ = '=';`
273			`*s++ = '>';`
274			`*s++ = ' ';`
275
276			`*s++ = (err_sgn)?'-':' ';`
277			`// Milliseconds`
278			`digit = err_in_ns / 100000000;`
279			`*s++ = digit+'0';`
280			`err_in_ns -= digit * 100000000;`
281			`//`
282			`digit = err_in_ns / 10000000;`
283			`*s++ = digit+'0';`
284			`err_in_ns -= digit * 10000000;`
285			`//`
286			`digit = err_in_ns / 1000000;`
287			`*s++ = digit+'0';`
288			`err_in_ns -= digit * 1000000;`
289			`// Micro seconds`
290			`digit = err_in_ns / 100000;`
291			`*s++ = digit+'0';`
292			`err_in_ns -= digit * 100000;`
293			`//`
294			`digit = err_in_ns / 10000;`
295			`*s++ = digit+'0';`
296			`err_in_ns -= digit * 10000;`
297			`//`
298			`digit = err_in_ns / 1000;`
299			`*s++ = digit+'0';`
300			`err_in_ns -= digit * 1000;`
301			`// Nano seconds`
302			`*s++ = '.';`
303			`digit = err_in_ns / 100;`
304			`*s++ = digit+'0';`
305			`err_in_ns -= digit * 100;`
306			`//`
307			`digit = err_in_ns / 10;`
308			`*s++ = digit+'0';`
309			`err_in_ns -= digit * 10;`
310			`//`
311			`digit = err_in_ns;`
312			`*s++ = digit+'0';`
313			`//`
314			`*s++ = ' ';`
315			`*s++ = 'u';`
316			`*s++ = 'S';`
317			`*s++ = '\r';`
318			`*s++ = '\n';`
319			`*s++ = '\r';`
320			`*s++ = '\n';`
321			`*s++ = '\0';`
322
323			`/*`
324			`zip->dma.ctrl = DMACLEAR;`
325			`zip->dma.rd = errstring;`
326			`zip->dma.wr = &sys->io_uart_tx;`
327			`zip->dma.len = s - errstring-1;`
328			`zip->dma.ctrl = (DMAONEATATIME\|DMA_CONSTDST\|DMA_GPSRX);`
329			`wait_on_interrupt(SYSINT_DMAC);`
330			`*/`
331
332			`for(int i=0; errstring[i]; i++) {`
333			`wait_on_interrupt(SYSINT_UARTTX);`
334			`sys->io_uart_tx = errstring[i];`
335			`zip->pic = SYSINT_UARTTX;`
336			`}`
337
338			`sys->io_ledctrl = 0x080;`
339
340			`/*`
341			`zip->dma.rd = &sys->io_gps_rx;`
342			`zip->dma.wr = &sys->io_uart_tx;`
343			`zip->dma.len = 0x01000000;`
344			`zip->dma.ctrl = (DMAONEATATIME\|DMA_CONSTDST\|DMA_CONSTSRC\|DMA_GPSRX);`
345			`wait_on_interrupt(SYSINT_PPS);`
346			`*/`
347
348			`/*`
349			`if (zip_ucc() & CC_FAULT) {`
350			`zip_save_context(user_context);`
351			`user_context[14] = CC_GIE;`
352			`user_context[15] = (int)&idle_task;`
353			`zip_restore_context(user_context);`
354			`}`
355			`*/`
356
357			`zip->pic = SYSINT_GPSRX \| SYSINT_PPS;`
358			`do {`
359			`wait_on_interrupt(SYSINT_PPS\|SYSINT_GPSRX);`
360			`if (zip->pic & SYSINT_GPSRX) {`
361			`sys->io_uart_tx = sys->io_gps_rx;`
362			`zip->pic = SYSINT_GPSRX;`
363			`}`
364			`} while((zip->pic & SYSINT_PPS)==0);`
365
366			`// wait_on_interrupt(SYSINT_PPS);`
367			`// zip->dma.ctrl= DMACLEAR;`
368			`}`
369
370			`zip_halt();`
371			`}`
372