[picodrive.git] / Pico / Patch.c

/* Decode a Game Genie code into an M68000 address/data pair.
 * The Game Genie code is made of the characters
 * ABCDEFGHJKLMNPRSTVWXYZ0123456789 (notice the missing I, O, Q and U).
 * Where A = 00000, B = 00001, C = 00010, ... , on to 9 = 11111.
 *
 * These come out to a very scrambled bit pattern like this:
 * (SCRA-MBLE is just an example)
 *
 *   S     C     R     A  -  M     B     L     E
 * 01111 00010 01110 00000 01011 00001 01010 00100
 * ijklm nopIJ KLMNO PABCD EFGHd efgha bcQRS TUVWX
 *
 * Our goal is to rearrange that to this:
 *
 * 0000 0101 1001 1100 0100 0100 : 1011 0000 0111 1000
 * ABCD EFGH IJKL MNOP QRST UVWX : abcd efgh ijkl mnop
 *
 * which in Hexadecimal is 059C44:B078. Simple, huh? ;)
 *
 * So, then, we dutifully change memory location 059C44 to B078!
 * (of course, that's handled by a different source file :)
 */

//#include <stdio.h>
//#include <string.h>
#include <ctype.h>

#include "PicoInt.h"
#include "Patch.h"

struct patch
{
	unsigned int addr;
	unsigned short data;
};

struct patch_inst *PicoPatches = NULL;
int PicoPatchCount = 0;

static char genie_chars[] = "AaBbCcDdEeFfGgHhJjKkLlMmNnPpRrSsTtVvWwXxYyZz0O1I2233445566778899";

/* genie_decode
 * This function converts a Game Genie code to an address:data pair.
 * The code is given as an 8-character string, like "BJX0SA1C". It need not
 * be null terminated, since only the first 8 characters are taken. It is
 * assumed that the code is already made of valid characters, i.e. there are no
 * Q's, U's, or symbols. If such a character is
 * encountered, the function will return with a warning on stderr.
 *
 * The resulting address:data pair is returned in the struct patch pointed to
 * by result. If an error results, both the address and data will be set to -1.
 */

static void genie_decode(const char* code, struct patch* result)
{
  int i = 0, n;
  char* x;

  for(; i < 8; ++i)
  {
    /* If strchr returns NULL, we were given a bad character */
    if(!(x = strchr(genie_chars, code[i])))
    {
      result->addr = -1; result->data = -1;
      return;
    }
    n = (x - genie_chars) >> 1;
    /* Now, based on which character this is, fit it into the result */
    switch(i)
    {
    case 0:
      /* ____ ____ ____ ____ ____ ____ : ____ ____ ABCD E___ */
      result->data |= n << 3;
      break;
    case 1:
      /* ____ ____ DE__ ____ ____ ____ : ____ ____ ____ _ABC */
      result->data |= n >> 2;
      result->addr |= (n & 3) << 14;
      break;
    case 2:
      /* ____ ____ __AB CDE_ ____ ____ : ____ ____ ____ ____ */
      result->addr |= n << 9;
      break;
    case 3:
      /* BCDE ____ ____ ___A ____ ____ : ____ ____ ____ ____ */
      result->addr |= (n & 0xF) << 20 | (n >> 4) << 8;
      break;
    case 4:
      /* ____ ABCD ____ ____ ____ ____ : ___E ____ ____ ____ */
      result->data |= (n & 1) << 12;
      result->addr |= (n >> 1) << 16;
      break;
    case 5:
      /* ____ ____ ____ ____ ____ ____ : E___ ABCD ____ ____ */
      result->data |= (n & 1) << 15 | (n >> 1) << 8;
      break;
    case 6:
      /* ____ ____ ____ ____ CDE_ ____ : _AB_ ____ ____ ____ */
      result->data |= (n >> 3) << 13;
      result->addr |= (n & 7) << 5;
      break;
    case 7:
      /* ____ ____ ____ ____ ___A BCDE : ____ ____ ____ ____ */
      result->addr |= n;
      break;
    }
    /* Go around again */
  }
  return;
}

/* "Decode" an address/data pair into a structure. This is for "012345:ABCD"
 * type codes. You're more likely to find Genie codes circulating around, but
 * there's a chance you could come on to one of these. Which is nice, since
 * they're MUCH easier to implement ;) Once again, the input should be depunc-
 * tuated already. */

static char hex_chars[] = "00112233445566778899AaBbCcDdEeFf";

static void hex_decode(const char *code, struct patch *result)
{
  char *x;
  int i;
  /* 6 digits for address */
  for(i = 0; i < 6; ++i)
    {
      if(!(x = strchr(hex_chars, code[i])))
      {
	result->addr = result->data = -1;
	return;
      }
      result->addr = (result->addr << 4) | ((x - hex_chars) >> 1);
    }
  /* 4 digits for data */
  for(i = 6; i < 10; ++i)
    {
      if(!(x = strchr(hex_chars, code[i])))
      {
	result->addr = result->data = -1;
	return;
      }
      result->data = (result->data << 4) | ((x - hex_chars) >> 1);
    }
}

/* THIS is the function you call from the MegaDrive or whatever. This figures
 * out whether it's a genie or hex code, depunctuates it, and calls the proper
 * decoder. */
static void decode(const char* code, struct patch* result)
{
  int len = strlen(code), i, j;
  char code_to_pass[16], *x;
  const char *ad, *da;
  int adl, dal;

  /* Initialize the result */
  result->addr = result->data = 0;

  /* Just assume 8 char long string to be Game Genie code */
  if (len == 8)
  {
    genie_decode(code, result);
    return;
  }

  /* If it's 9 chars long and the 5th is a hyphen, we have a Game Genie
   * code. */
    if(len == 9 && code[4] == '-')
    {
      /* Remove the hyphen and pass to genie_decode */
      code_to_pass[0] = code[0];
      code_to_pass[1] = code[1];
      code_to_pass[2] = code[2];
      code_to_pass[3] = code[3];
      code_to_pass[4] = code[5];
      code_to_pass[5] = code[6];
      code_to_pass[6] = code[7];
      code_to_pass[7] = code[8];
      code_to_pass[8] = '\0';
      genie_decode(code_to_pass, result);
      return;
    }

  /* Otherwise, we assume it's a hex code.
   * Find the colon so we know where address ends and data starts. If there's
   * no colon, then we haven't a code at all! */
  if(!(x = strchr(code, ':'))) goto bad_code;
  ad = code; da = x + 1; adl = x - code; dal = len - adl - 1;

  /* If a section is empty or too long, toss it */
  if(adl == 0 || adl > 6 || dal == 0 || dal > 4) goto bad_code;

  /* Pad the address with zeros, then fill it with the value */
  for(i = 0; i < (6 - adl); ++i) code_to_pass[i] = '0';
  for(j = 0; i < 6; ++i, ++j) code_to_pass[i] = ad[j];

  /* Do the same for data */
  for(i = 6; i < (10 - dal); ++i) code_to_pass[i] = '0';
  for(j = 0; i < 10; ++i, ++j) code_to_pass[i] = da[j];

  code_to_pass[10] = '\0';

  /* Decode and goodbye */
  hex_decode(code_to_pass, result);
  return;

bad_code:

  /* AGH! Invalid code! */
  result->data = result->addr = -1;
  return;
}


unsigned int PicoRead16(unsigned int a);
void PicoWrite16(unsigned int a, unsigned short d);


void PicoPatchUnload(void)
{
	if (PicoPatches != NULL)
	{
		free(PicoPatches);
		PicoPatches = NULL;
	}
	PicoPatchCount = 0;
}

int PicoPatchLoad(const char *fname)
{
	FILE *f;
	char buff[256];
	struct patch pt;
	int array_len = 0;

	PicoPatchUnload();

	f = fopen(fname, "r");
	if (f == NULL)
	{
		return -1;
	}

	while (fgets(buff, sizeof(buff), f))
	{
		int llen, clen;

		llen = strlen(buff);
		for (clen = 0; clen < llen; clen++)
			if (isspace(buff[clen])) break;
		buff[clen] = 0;

		if (clen > 11 || clen < 8)
			continue;

		decode(buff, &pt);
		if (pt.addr == (unsigned int)-1 || pt.data == (unsigned short)-1)
			continue;

		/* code was good, add it */
		if (array_len < PicoPatchCount + 1)
		{
			void *ptr;
			array_len *= 2;
			array_len++;
			ptr = realloc(PicoPatches, array_len * sizeof(PicoPatches[0]));
			if (ptr == NULL) break;
			PicoPatches = ptr;
		}
		strcpy(PicoPatches[PicoPatchCount].code, buff);
		/* strip */
		for (clen++; clen < llen; clen++)
			if (!isspace(buff[clen])) break;
		for (llen--; llen > 0; llen--)
			if (!isspace(buff[llen])) break;
		buff[llen+1] = 0;
		strncpy(PicoPatches[PicoPatchCount].name, buff + clen, 51);
		PicoPatches[PicoPatchCount].name[51] = 0;
		PicoPatches[PicoPatchCount].active = 0;
		PicoPatches[PicoPatchCount].addr = pt.addr;
		PicoPatches[PicoPatchCount].data = pt.data;
		PicoPatches[PicoPatchCount].data_old = 0;
		PicoPatchCount++;
		// fprintf(stderr, "loaded patch #%i: %06x:%04x \"%s\"\n", PicoPatchCount-1, pt.addr, pt.data,
		//	PicoPatches[PicoPatchCount-1].name);
	}
	fclose(f);

	return 0;
}

/* to be called when the Rom is loaded and byteswapped */
void PicoPatchPrepare(void)
{
	int i;

	for (i = 0; i < PicoPatchCount; i++)
	{
		PicoPatches[i].addr &= ~1;
		PicoPatches[i].data_old = PicoRead16(PicoPatches[i].addr);
		if (strstr(PicoPatches[i].name, "AUTO"))
			PicoPatches[i].active = 1;
	}
}

void PicoPatchApply(void)
{
	int i, u;
	unsigned int addr;

	for (i = 0; i < PicoPatchCount; i++)
	{
		addr = PicoPatches[i].addr;
		if (addr < Pico.romsize)
		{
			if (PicoPatches[i].active)
				*(unsigned short *)(Pico.rom + addr) = PicoPatches[i].data;
			else {
				// if current addr is not patched by older patch, write back original val
				for (u = 0; u < i; u++)
					if (PicoPatches[u].addr == addr) break;
				if (u == i)
					*(unsigned short *)(Pico.rom + addr) = PicoPatches[i].data_old;
			}
			// fprintf(stderr, "patched %i: %06x:%04x\n", PicoPatches[i].active, addr,
			//	*(unsigned short *)(Pico.rom + addr));
		}
		else
		{
			/* RAM or some other weird patch */
			if (PicoPatches[i].active)
				PicoWrite16(addr, PicoPatches[i].data);
		}
	}
}
Commit	Line	Data
b67ef287	1	/* Decode a Game Genie code into an M68000 address/data pair.
	2	* The Game Genie code is made of the characters
	3	* ABCDEFGHJKLMNPRSTVWXYZ0123456789 (notice the missing I, O, Q and U).
	4	* Where A = 00000, B = 00001, C = 00010, ... , on to 9 = 11111.
	5	*
	6	* These come out to a very scrambled bit pattern like this:
	7	* (SCRA-MBLE is just an example)
	8	*
	9	* S C R A - M B L E
	10	* 01111 00010 01110 00000 01011 00001 01010 00100
	11	* ijklm nopIJ KLMNO PABCD EFGHd efgha bcQRS TUVWX
	12	*
	13	* Our goal is to rearrange that to this:
	14	*
	15	* 0000 0101 1001 1100 0100 0100 : 1011 0000 0111 1000
	16	* ABCD EFGH IJKL MNOP QRST UVWX : abcd efgh ijkl mnop
	17	*
	18	* which in Hexadecimal is 059C44:B078. Simple, huh? ;)
	19	*
	20	* So, then, we dutifully change memory location 059C44 to B078!
	21	* (of course, that's handled by a different source file :)
	22	*/
	23
	24	//#include <stdio.h>
	25	//#include <string.h>
	26	#include <ctype.h>
	27
	28	#include "PicoInt.h"
	29	#include "Patch.h"
	30
	31	struct patch
	32	{
	33	unsigned int addr;
	34	unsigned short data;
	35	};
	36
	37	struct patch_inst *PicoPatches = NULL;
	38	int PicoPatchCount = 0;
	39
	40	static char genie_chars[] = "AaBbCcDdEeFfGgHhJjKkLlMmNnPpRrSsTtVvWwXxYyZz0O1I2233445566778899";
	41
	42	/* genie_decode
	43	* This function converts a Game Genie code to an address:data pair.
	44	* The code is given as an 8-character string, like "BJX0SA1C". It need not
	45	* be null terminated, since only the first 8 characters are taken. It is
	46	* assumed that the code is already made of valid characters, i.e. there are no
	47	* Q's, U's, or symbols. If such a character is
	48	* encountered, the function will return with a warning on stderr.
	49	*
	50	* The resulting address:data pair is returned in the struct patch pointed to
	51	* by result. If an error results, both the address and data will be set to -1.
	52	*/
	53
	54	static void genie_decode(const char* code, struct patch* result)
	55	{
	56	int i = 0, n;
	57	char* x;
	58
	59	for(; i < 8; ++i)
	60	{
	61	/* If strchr returns NULL, we were given a bad character */
	62	if(!(x = strchr(genie_chars, code[i])))
	63	{
	64	result->addr = -1; result->data = -1;
65	return;
66	}
67	n = (x - genie_chars) >> 1;
68	/* Now, based on which character this is, fit it into the result */
69	switch(i)
70	{
71	case 0:
72	/* ____ ____ ____ ____ ____ ____ : ____ ____ ABCD E___ */
73	result->data \|= n << 3;
74	break;
75	case 1:
76	/* ____ ____ DE__ ____ ____ ____ : ____ ____ ____ _ABC */
77	result->data \|= n >> 2;
78	result->addr \|= (n & 3) << 14;
79	break;
80	case 2:
81	/* ____ ____ __AB CDE_ ____ ____ : ____ ____ ____ ____ */
82	result->addr \|= n << 9;
83	break;
84	case 3:
85	/* BCDE ____ ____ ___A ____ ____ : ____ ____ ____ ____ */
86	result->addr \|= (n & 0xF) << 20 \| (n >> 4) << 8;
87	break;
88	case 4:
89	/* ____ ABCD ____ ____ ____ ____ : ___E ____ ____ ____ */
90	result->data \|= (n & 1) << 12;
91	result->addr \|= (n >> 1) << 16;
92	break;
93	case 5:
94	/* ____ ____ ____ ____ ____ ____ : E___ ABCD ____ ____ */
95	result->data \|= (n & 1) << 15 \| (n >> 1) << 8;
96	break;
97	case 6:
98	/* ____ ____ ____ ____ CDE_ ____ : _AB_ ____ ____ ____ */
99	result->data \|= (n >> 3) << 13;
100	result->addr \|= (n & 7) << 5;
101	break;
102	case 7:
103	/* ____ ____ ____ ____ ___A BCDE : ____ ____ ____ ____ */
104	result->addr \|= n;
105	break;
106	}
107	/* Go around again */
108	}
109	return;
110	}
111
112	/* "Decode" an address/data pair into a structure. This is for "012345:ABCD"
113	* type codes. You're more likely to find Genie codes circulating around, but
114	* there's a chance you could come on to one of these. Which is nice, since
115	* they're MUCH easier to implement ;) Once again, the input should be depunc-
116	* tuated already. */
117
118	static char hex_chars[] = "00112233445566778899AaBbCcDdEeFf";
119
120	static void hex_decode(const char code, struct patch result)
121	{
122	char *x;
123	int i;
124	/* 6 digits for address */
125	for(i = 0; i < 6; ++i)
126	{
127	if(!(x = strchr(hex_chars, code[i])))
128	{
129	result->addr = result->data = -1;
130	return;
131	}
132	result->addr = (result->addr << 4) \| ((x - hex_chars) >> 1);
133	}
134	/* 4 digits for data */
135	for(i = 6; i < 10; ++i)
136	{
137	if(!(x = strchr(hex_chars, code[i])))
138	{
139	result->addr = result->data = -1;
140	return;
141	}
142	result->data = (result->data << 4) \| ((x - hex_chars) >> 1);
143	}
144	}
145
146	/* THIS is the function you call from the MegaDrive or whatever. This figures
147	* out whether it's a genie or hex code, depunctuates it, and calls the proper
148	* decoder. */
149	static void decode(const char* code, struct patch* result)
150	{
151	int len = strlen(code), i, j;
152	char code_to_pass[16], *x;
153	const char ad, da;
154	int adl, dal;
155
156	/* Initialize the result */
157	result->addr = result->data = 0;
158
159	/* Just assume 8 char long string to be Game Genie code */
160	if (len == 8)
161	{
162	genie_decode(code, result);
163	return;
164	}
165
166	/* If it's 9 chars long and the 5th is a hyphen, we have a Game Genie
167	* code. */
168	if(len == 9 && code[4] == '-')
169	{
170	/* Remove the hyphen and pass to genie_decode */
171	code_to_pass[0] = code[0];
172	code_to_pass[1] = code[1];
173	code_to_pass[2] = code[2];
174	code_to_pass[3] = code[3];
175	code_to_pass[4] = code[5];
176	code_to_pass[5] = code[6];
177	code_to_pass[6] = code[7];
178	code_to_pass[7] = code[8];
179	code_to_pass[8] = '\0';
180	genie_decode(code_to_pass, result);
181	return;
182	}
183
184	/* Otherwise, we assume it's a hex code.
185	* Find the colon so we know where address ends and data starts. If there's
186	* no colon, then we haven't a code at all! */
187	if(!(x = strchr(code, ':'))) goto bad_code;
188	ad = code; da = x + 1; adl = x - code; dal = len - adl - 1;
189
190	/* If a section is empty or too long, toss it */
191	if(adl == 0 \|\| adl > 6 \|\| dal == 0 \|\| dal > 4) goto bad_code;
192
193	/* Pad the address with zeros, then fill it with the value */
194	for(i = 0; i < (6 - adl); ++i) code_to_pass[i] = '0';
195	for(j = 0; i < 6; ++i, ++j) code_to_pass[i] = ad[j];
196
197	/* Do the same for data */
198	for(i = 6; i < (10 - dal); ++i) code_to_pass[i] = '0';
199	for(j = 0; i < 10; ++i, ++j) code_to_pass[i] = da[j];
200
201	code_to_pass[10] = '\0';
202
203	/* Decode and goodbye */
204	hex_decode(code_to_pass, result);
205	return;
206
207	bad_code:
208
209	/* AGH! Invalid code! */
210	result->data = result->addr = -1;
211	return;
212	}
213
214
215
eff55556	216	unsigned int PicoRead16(unsigned int a);
b67ef287	217	void PicoWrite16(unsigned int a, unsigned short d);
	218
	219
	220	void PicoPatchUnload(void)
	221	{
	222	if (PicoPatches != NULL)
	223	{
	224	free(PicoPatches);
	225	PicoPatches = NULL;
	226	}
	227	PicoPatchCount = 0;
	228	}
	229
	230	int PicoPatchLoad(const char *fname)
	231	{
	232	FILE *f;
	233	char buff[256];
	234	struct patch pt;
	235	int array_len = 0;
	236
	237	PicoPatchUnload();
	238
	239	f = fopen(fname, "r");
	240	if (f == NULL)
	241	{
	242	return -1;
	243	}
	244
	245	while (fgets(buff, sizeof(buff), f))
	246	{
	247	int llen, clen;
	248
	249	llen = strlen(buff);
	250	for (clen = 0; clen < llen; clen++)
	251	if (isspace(buff[clen])) break;
	252	buff[clen] = 0;
	253
	254	if (clen > 11 \|\| clen < 8)
	255	continue;
	256
	257	decode(buff, &pt);
	258	if (pt.addr == (unsigned int)-1 \|\| pt.data == (unsigned short)-1)
	259	continue;
	260
	261	/* code was good, add it */
	262	if (array_len < PicoPatchCount + 1)
	263	{
	264	void *ptr;
	265	array_len *= 2;
	266	array_len++;
	267	ptr = realloc(PicoPatches, array_len * sizeof(PicoPatches[0]));
	268	if (ptr == NULL) break;
	269	PicoPatches = ptr;
	270	}
	271	strcpy(PicoPatches[PicoPatchCount].code, buff);
	272	/* strip */
	273	for (clen++; clen < llen; clen++)
	274	if (!isspace(buff[clen])) break;
	275	for (llen--; llen > 0; llen--)
	276	if (!isspace(buff[llen])) break;
	277	buff[llen+1] = 0;
	278	strncpy(PicoPatches[PicoPatchCount].name, buff + clen, 51);
	279	PicoPatches[PicoPatchCount].name[51] = 0;
	280	PicoPatches[PicoPatchCount].active = 0;
281	PicoPatches[PicoPatchCount].addr = pt.addr;
282	PicoPatches[PicoPatchCount].data = pt.data;
283	PicoPatches[PicoPatchCount].data_old = 0;
284	PicoPatchCount++;
285	// fprintf(stderr, "loaded patch #%i: %06x:%04x \"%s\"\n", PicoPatchCount-1, pt.addr, pt.data,
286	// PicoPatches[PicoPatchCount-1].name);
287	}
288	fclose(f);
289
290	return 0;
291	}
292
293	/* to be called when the Rom is loaded and byteswapped */
294	void PicoPatchPrepare(void)
295	{
296	int i;
297
298	for (i = 0; i < PicoPatchCount; i++)
299	{
300	PicoPatches[i].addr &= ~1;
301	PicoPatches[i].data_old = PicoRead16(PicoPatches[i].addr);
302	if (strstr(PicoPatches[i].name, "AUTO"))
303	PicoPatches[i].active = 1;
304	}
305	}
306
307	void PicoPatchApply(void)
308	{
309	int i, u;
310	unsigned int addr;
311
312	for (i = 0; i < PicoPatchCount; i++)
313	{
314	addr = PicoPatches[i].addr;
315	if (addr < Pico.romsize)
316	{
317	if (PicoPatches[i].active)
318	(unsigned short )(Pico.rom + addr) = PicoPatches[i].data;
319	else {
320	// if current addr is not patched by older patch, write back original val
321	for (u = 0; u < i; u++)
322	if (PicoPatches[u].addr == addr) break;
323	if (u == i)
324	(unsigned short )(Pico.rom + addr) = PicoPatches[i].data_old;
325	}
326	// fprintf(stderr, "patched %i: %06x:%04x\n", PicoPatches[i].active, addr,
327	// (unsigned short )(Pico.rom + addr));
328	}
329	else
330	{
331	/* RAM or some other weird patch */
332	if (PicoPatches[i].active)
333	PicoWrite16(addr, PicoPatches[i].data);
334	}
335	}
336	}
337