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Tom Rini10e47792018-05-06 17:58:06 -04001/* SPDX-License-Identifier: GPL-2.0+ */
Stefano Babicec65c592010-06-29 11:47:48 +02002/*
3 * Porting to U-Boot:
4 *
5 * (C) Copyright 2010
6 * Stefano Babic, DENX Software Engineering, sbabic@denx.de.
7 *
8 * Lattice's ispVME Embedded Tool to load Lattice's FPGA:
9 *
10 * Lattice Semiconductor Corp. Copyright 2009
Stefano Babicec65c592010-06-29 11:47:48 +020011 */
12
13#ifndef _VME_OPCODE_H
14#define _VME_OPCODE_H
15
16#define VME_VERSION_NUMBER "12.1"
17
18/* Maximum declarations. */
19
20#define VMEHEXMAX 60000L /* The hex file is split 60K per file. */
21#define SCANMAX 64000L /* The maximum SDR/SIR burst. */
22
23/*
24 *
25 * Supported JTAG state transitions.
26 *
27 */
28
29#define RESET 0x00
30#define IDLE 0x01
31#define IRPAUSE 0x02
32#define DRPAUSE 0x03
33#define SHIFTIR 0x04
34#define SHIFTDR 0x05
35/* 11/15/05 Nguyen changed to support DRCAPTURE*/
36#define DRCAPTURE 0x06
37
38/*
39 * Flow control register bit definitions. A set bit indicates
40 * that the register currently exhibits the corresponding mode.
41 */
42
43#define INTEL_PRGM 0x0001 /* Intelligent programming is in effect. */
44#define CASCADE 0x0002 /* Currently splitting large SDR. */
45#define REPEATLOOP 0x0008 /* Currently executing a repeat loop. */
46#define SHIFTRIGHT 0x0080 /* The next data stream needs a right shift. */
47#define SHIFTLEFT 0x0100 /* The next data stream needs a left shift. */
48#define VERIFYUES 0x0200 /* Continue if fail is in effect. */
49
50/*
51 * DataType register bit definitions. A set bit indicates
52 * that the register currently holds the corresponding type of data.
53 */
54
55#define EXPRESS 0x0001 /* Simultaneous program and verify. */
56#define SIR_DATA 0x0002 /* SIR is the active SVF command. */
57#define SDR_DATA 0x0004 /* SDR is the active SVF command. */
58#define COMPRESS 0x0008 /* Data is compressed. */
59#define TDI_DATA 0x0010 /* TDI data is present. */
60#define TDO_DATA 0x0020 /* TDO data is present. */
61#define MASK_DATA 0x0040 /* MASK data is present. */
62#define HEAP_IN 0x0080 /* Data is from the heap. */
63#define LHEAP_IN 0x0200 /* Data is from intel data buffer. */
64#define VARIABLE 0x0400 /* Data is from a declared variable. */
65#define CRC_DATA 0x0800 /* CRC data is pressent. */
66#define CMASK_DATA 0x1000 /* CMASK data is pressent. */
67#define RMASK_DATA 0x2000 /* RMASK data is pressent. */
68#define READ_DATA 0x4000 /* READ data is pressent. */
69#define DMASK_DATA 0x8000 /* DMASK data is pressent. */
70
71/*
72 *
73 * Pin opcodes.
74 *
75 */
76
77#define signalENABLE 0x1C /* ispENABLE pin. */
78#define signalTMS 0x1D /* TMS pin. */
79#define signalTCK 0x1E /* TCK pin. */
80#define signalTDI 0x1F /* TDI pin. */
81#define signalTRST 0x20 /* TRST pin. */
82
83/*
84 *
85 * Supported vendors.
86 *
87 */
88
89#define VENDOR 0x56
90#define LATTICE 0x01
91#define ALTERA 0x02
92#define XILINX 0x03
93
94/*
95 * Opcode definitions.
96 *
97 * Note: opcodes must be unique.
98 */
99
100#define ENDDATA 0x00 /* The end of the current SDR data stream. */
101#define RUNTEST 0x01 /* The duration to stay at the stable state. */
102#define ENDDR 0x02 /* The stable state after SDR. */
103#define ENDIR 0x03 /* The stable state after SIR. */
104#define ENDSTATE 0x04 /* The stable state after RUNTEST. */
105#define TRST 0x05 /* Assert the TRST pin. */
106#define HIR 0x06 /*
107 * The sum of the IR bits of the
108 * leading devices.
109 */
110#define TIR 0x07 /*
111 * The sum of the IR bits of the trailing
112 * devices.
113 */
114#define HDR 0x08 /* The number of leading devices. */
115#define TDR 0x09 /* The number of trailing devices. */
116#define ispEN 0x0A /* Assert the ispEN pin. */
117#define FREQUENCY 0x0B /*
118 * The maximum clock rate to run the JTAG state
119 * machine.
120 */
121#define STATE 0x10 /* Move to the next stable state. */
122#define SIR 0x11 /* The instruction stream follows. */
123#define SDR 0x12 /* The data stream follows. */
124#define TDI 0x13 /* The following data stream feeds into
125 the device. */
126#define TDO 0x14 /*
127 * The following data stream is compared against
128 * the device.
129 */
130#define MASK 0x15 /* The following data stream is used as mask. */
131#define XSDR 0x16 /*
132 * The following data stream is for simultaneous
133 * program and verify.
134 */
135#define XTDI 0x17 /* The following data stream is for shift in
136 * only. It must be stored for the next
137 * XSDR.
138 */
139#define XTDO 0x18 /*
140 * There is not data stream. The data stream
141 * was stored from the previous XTDI.
142 */
143#define MEM 0x19 /*
144 * The maximum memory needed to allocate in
145 * order hold one row of data.
146 */
147#define WAIT 0x1A /* The duration of delay to observe. */
148#define TCK 0x1B /* The number of TCK pulses. */
149#define SHR 0x23 /*
150 * Set the flow control register for
151 * right shift
152 */
153#define SHL 0x24 /*
154 * Set the flow control register for left shift.
155 */
156#define HEAP 0x32 /* The memory size needed to hold one loop. */
157#define REPEAT 0x33 /* The beginning of the loop. */
158#define LEFTPAREN 0x35 /* The beginning of data following the loop. */
159#define VAR 0x55 /* Plac holder for loop data. */
160#define SEC 0x1C /*
161 * The delay time in seconds that must be
162 * observed.
163 */
164#define SMASK 0x1D /* The mask for TDI data. */
165#define MAX_WAIT 0x1E /* The absolute maximum wait time. */
166#define ON 0x1F /* Assert the targeted pin. */
167#define OFF 0x20 /* Dis-assert the targeted pin. */
168#define SETFLOW 0x30 /* Change the flow control register. */
169#define RESETFLOW 0x31 /* Clear the flow control register. */
170
171#define CRC 0x47 /*
172 * The following data stream is used for CRC
173 * calculation.
174 */
175#define CMASK 0x48 /*
176 * The following data stream is used as mask
177 * for CRC calculation.
178 */
179#define RMASK 0x49 /*
180 * The following data stream is used as mask
181 * for read and save.
182 */
183#define READ 0x50 /*
184 * The following data stream is used for read
185 * and save.
186 */
187#define ENDLOOP 0x59 /* The end of the repeat loop. */
188#define SECUREHEAP 0x60 /* Used to secure the HEAP opcode. */
189#define VUES 0x61 /* Support continue if fail. */
190#define DMASK 0x62 /*
191 * The following data stream is used for dynamic
192 * I/O.
193 */
194#define COMMENT 0x63 /* Support SVF comments in the VME file. */
195#define HEADER 0x64 /* Support header in VME file. */
196#define FILE_CRC 0x65 /* Support crc-protected VME file. */
197#define LCOUNT 0x66 /* Support intelligent programming. */
198#define LDELAY 0x67 /* Support intelligent programming. */
199#define LSDR 0x68 /* Support intelligent programming. */
200#define LHEAP 0x69 /*
201 * Memory needed to hold intelligent data
202 * buffer
203 */
204#define CONTINUE 0x70 /* Allow continuation. */
205#define LVDS 0x71 /* Support LVDS. */
206#define ENDVME 0x7F /* End of the VME file. */
207#define ENDFILE 0xFF /* End of file. */
208
209/*
210 *
211 * ispVM Embedded Return Codes.
212 *
213 */
214
215#define VME_VERIFICATION_FAILURE -1
216#define VME_FILE_READ_FAILURE -2
217#define VME_VERSION_FAILURE -3
218#define VME_INVALID_FILE -4
219#define VME_ARGUMENT_FAILURE -5
220#define VME_CRC_FAILURE -6
221
222#define g_ucPinTDI 0x01
223#define g_ucPinTCK 0x02
224#define g_ucPinTMS 0x04
225#define g_ucPinENABLE 0x08
226#define g_ucPinTRST 0x10
227
228/*
229 *
230 * Type definitions.
231 *
232 */
233
234/* Support LVDS */
235typedef struct {
236 unsigned short usPositiveIndex;
237 unsigned short usNegativeIndex;
238 unsigned char ucUpdate;
239} LVDSPair;
240
241typedef enum {
242 min_lattice_iface_type, /* insert all new types after this */
243 lattice_jtag_mode, /* jtag/tap */
244 max_lattice_iface_type /* insert all new types before this */
245} Lattice_iface;
246
247typedef enum {
248 min_lattice_type,
249 Lattice_XP2, /* Lattice XP2 Family */
250 max_lattice_type /* insert all new types before this */
251} Lattice_Family;
252
253typedef struct {
254 Lattice_Family family; /* part type */
255 Lattice_iface iface; /* interface type */
256 size_t size; /* bytes of data part can accept */
257 void *iface_fns; /* interface function table */
258 void *base; /* base interface address */
259 int cookie; /* implementation specific cookie */
260 char *desc; /* description string */
261} Lattice_desc; /* end, typedef Altera_desc */
262
Stefano Babicec65c592010-06-29 11:47:48 +0200263/* Board specific implementation specific function types */
264typedef void (*Lattice_jtag_init)(void);
265typedef void (*Lattice_jtag_set_tdi)(int v);
266typedef void (*Lattice_jtag_set_tms)(int v);
267typedef void (*Lattice_jtag_set_tck)(int v);
268typedef int (*Lattice_jtag_get_tdo)(void);
269
270typedef struct {
271 Lattice_jtag_init jtag_init;
272 Lattice_jtag_set_tdi jtag_set_tdi;
273 Lattice_jtag_set_tms jtag_set_tms;
274 Lattice_jtag_set_tck jtag_set_tck;
275 Lattice_jtag_get_tdo jtag_get_tdo;
276} lattice_board_specific_func;
277
278void writePort(unsigned char pins, unsigned char value);
279unsigned char readPort(void);
280void sclock(void);
281void ispVMDelay(unsigned short int a_usMicroSecondDelay);
282void calibration(void);
283
Wolfgang Denkb2c66a82011-08-05 02:26:31 +0000284int lattice_load(Lattice_desc *desc, const void *buf, size_t bsize);
285int lattice_dump(Lattice_desc *desc, const void *buf, size_t bsize);
Stefano Babicec65c592010-06-29 11:47:48 +0200286int lattice_info(Lattice_desc *desc);
287
288void ispVMStart(void);
289void ispVMEnd(void);
Stefano Babicd0dbfaa2010-10-19 09:22:23 +0200290extern void ispVMFreeMem(void);
Stefano Babicec65c592010-06-29 11:47:48 +0200291signed char ispVMCode(void);
292void ispVMDelay(unsigned short int a_usMicroSecondDelay);
293void ispVMCalculateCRC32(unsigned char a_ucData);
294unsigned char GetByte(void);
295void writePort(unsigned char pins, unsigned char value);
296unsigned char readPort(void);
297void sclock(void);
298#endif