jtaglib xv2: memory accesses start to work now

2022-07-25 01:20:26 +02:00 · 2022-07-25 01:20:26 +02:00 · 649d82b695
parent 98c434555f
commit 649d82b695
2 changed files with 135 additions and 40 deletions
--- a/drivers/jtaglib.c
+++ b/drivers/jtaglib.c
@ -331,15 +331,6 @@ unsigned int jtag_get_device(struct jtdev *p)
 	return r;
 }

-/* Reads one byte/word from a given address */
-uint16_t jtag_read_mem(struct jtdev *p, unsigned int format, address_t address)
-{
-	// NOTE: this is one of the special functions that have to be called early
-	//       on before chip ID stuff is done
-
-	return get_jlf(p)->jlf_read_mem(p, format, address);
-}
-
 /* Execute a Power-Up Clear (PUC) using JTAG CNTRL SIG register */
 unsigned int jtag_execute_puc(struct jtdev *p)
 {
@ -349,10 +340,19 @@ unsigned int jtag_execute_puc(struct jtdev *p)
 	return get_jlf(p)->jlf_execute_puc(p);
 }

+/* Reads one byte/word from a given address */
+uint16_t jtag_read_mem(struct jtdev *p, unsigned int format, address_t address)
+{
+	return get_jlf(p)->jlf_read_mem(p, format, address);
+}
+
 /* Reads an array of words from target memory */
 void jtag_read_mem_quick(struct jtdev *p, address_t start_address,
 			 unsigned int word_count, uint16_t *data)
 {
+	// NOTE: this is one of the special functions that have to be called early
+	//       on before chip ID stuff is done
+
 	get_jlf(p)->jlf_read_mem_quick(p, start_address, word_count, data);
 }

@ -589,7 +589,7 @@ static int read_words(device_t dev_base, const struct chipinfo_memory *m,
 	if (len > 2 && !(len & 1)) {
 		uint16_t* word = malloc((len>>1) * sizeof(*word));
 		if (!word) {
-			pr_error("jtaglib: failed to allocate memory");
+			pr_error("jtaglib: read_words: failed to allocate memory");
 			return -1;
 		}

@ -619,8 +619,32 @@ static int write_words(device_t dev_base, const struct chipinfo_memory *m,

 	if (m->type != CHIPINFO_MEMTYPE_FLASH) {
 		printc_dbg("jtaglib: write_words: ram: len=%d addr=%06x\n", len, addr);
-		uint16_t value = data[0] | ((uint16_t)data[1] << 8);
-		jtag_write_mem(p, 16, addr, value);
+		if ((len > 2) && !(len & 1)) {
+			uint16_t* word = malloc((len>>1) * sizeof(*word));
+			if (!word) {
+				pr_error("jtaglib: write_words: failed to allocate memory");
+				return -1;
+			}
+
+			for (unsigned int i = 0; i < len/2; i++) {
+				word[i] = data[2*i] | ((uint16_t)data[2*i+1] << 8);
+			}
+
+			jtag_write_mem_quick(p, addr, (len >> 1), word);
+			free(word);
+		} else {
+			for (address_t i = 0; i < len; i += 2) {
+				uint16_t value;
+				if ((len & 1) && i == len - 1) {
+					value = data[i];
+					jtag_write_mem(p, 8, addr, value);
+				} else {
+					value = data[i] | ((uint16_t)data[i+1] << 8);
+					jtag_write_mem(p, 16, addr, value);
+				}
+				if (p->failed) break;
+			}
+		}
 		r = p->failed ? -1 : 0;
 	} else {
 		r = write_flash_block(p, addr, len, data);
--- a/drivers/jtaglib_cpuxv2.c
+++ b/drivers/jtaglib_cpuxv2.c
@ -8,12 +8,10 @@
 #define SAFE_FRAM_PC 0x0004

 // FIXME:
-// * read mem (broken)
-// * read mem quick (consecutive ones break)
-// * write mem (no effect)
 // * read reg (nonsense values)
-//   -> also loses FES
 // * write reg?
+// * implement flash write, erase, verify stuff
+// * other stuff?
 // * single step: check if it works
 // * breakpoints are a big TODO

@ -151,26 +149,32 @@ static unsigned int jlfxv2_get_device(struct jtdev *p)
 	return jtag_id;
 }

+static void jlfxv2_read_mem_quick(struct jtdev *p, address_t address,
+			 unsigned int length, uint16_t *data);
+
 /* Reads one byte/word from a given address
 * format : 8-byte, 16-word
 * address: address of memory
 * return : content of memory
 */
-static void jlfxv2_read_mem_quick(struct jtdev *p, address_t address,
-			 unsigned int length, uint16_t *data);
 static uint16_t jlfxv2_read_mem(struct jtdev *p, unsigned int format, address_t address)
 {	// SLAU320AJ name: ReadMem
-	uint16_t r=0;
-	printc_dbg("read mem %d %06x\n", format, address);
-	jlfxv2_read_mem_quick(p, address ^ (address & 1), 1, &r);
-	if (format == 8) {
-		if (address & 1) return r >> 8;
-		else return r & 0xff;
-	} else return r;
+	uint16_t r = 0;

 	if (!jlfxv2_check_full_emu_state(p))
 		return 0;

+	// the code below (an attempt at implementing the real read_mem) doesn't
+	// work, so let's use read_mem_quick as a backup
+	jlfxv2_read_mem_quick(p, address ^ (address & 1), 1, &r);
+	if (format == 8) {
+		if (address & 1) return (r >> 8) & 0xff;
+		else return r & 0xff;
+	} else return r;
+
+	/*//jtag_ir_shift(p, IR_CNTRL_SIG_CAPTURE);
+	//uint16_t dr = jtag_dr_shift_16(p, 0);
+
 	jtag_tclk_clr(p);
 	jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
 	jtag_dr_shift_16(p, (format == 16) ? 0x0501 : 0x0511);
@ -179,6 +183,7 @@ static uint16_t jlfxv2_read_mem(struct jtdev *p, unsigned int format, address_t
 	jtag_ir_shift(p, IR_DATA_TO_ADDR);
 	jtag_tclk_set(p);
 	jtag_tclk_clr(p);
+	jtag_ir_shift(p, IR_DATA_CAPTURE);

 	r = jtag_dr_shift_16(p, 0);

@ -186,7 +191,7 @@ static uint16_t jlfxv2_read_mem(struct jtdev *p, unsigned int format, address_t
 	jtag_tclk_clr(p);
 	jtag_tclk_set(p);

-	return r;
+	return r;*/
 }

 /* Reads an array of words from target memory
@ -197,9 +202,12 @@ static uint16_t jlfxv2_read_mem(struct jtdev *p, unsigned int format, address_t
 static void jlfxv2_read_mem_quick(struct jtdev *p, address_t address,
 			 unsigned int length, uint16_t *data)
 {	// SLAU320AJ name: ReadMemQuick
+	address_t pc_bak;
+
 	if (!jlfxv2_check_full_emu_state(p))
 		return;

+	//pc_bak = jlfxv2_read_reg(p, 0); // FIXME
 	jlfxv2_set_pc(p, address);

 	//jtag_tclk_set(p);
@ -218,12 +226,18 @@ static void jlfxv2_read_mem_quick(struct jtdev *p, address_t address,
 	jtag_ir_shift(p, IR_CNTRL_SIG_CAPTURE);
 	jtag_dr_shift_16(p, 0);

-	if (p->jtag_id == 0x99) {
-		jlfxv2_set_pc(p, SAFE_FRAM_PC);
-	}
+	jlfxv2_set_pc(p, SAFE_FRAM_PC);
+	jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
+	jtag_dr_shift_16(p, 0x0501);
 	jtag_tclk_set(p);
+	jtag_ir_shift(p, IR_ADDR_CAPTURE);
+
+	//jlfxv2_write_reg(p, 0, pc_bak); // FIXME
 }

+static void jlfxv2_write_mem_quick(struct jtdev *p, address_t address,
+			  unsigned int length, const uint16_t *data);
+
 /* Writes one byte/word at a given address
 * format : 8-byte, 16-word
 * address: address to be written
@ -232,10 +246,24 @@ static void jlfxv2_read_mem_quick(struct jtdev *p, address_t address,
 static void jlfxv2_write_mem(struct jtdev *p, unsigned int format,
 		    address_t address, uint16_t data)
 {	// SLAU320AJ name: WriteMem
-	if (!jlfxv2_check_full_emu_state(p))
+	printc_dbg("jlfxv2 write mem: %d %06x <- %04x\n", format, address, data);
+
+	if (format == 8) {
+		p->failed = 1;
+		printc_err("jlfxv2 write mem: byte access not yet implemented!\n");
+		return;
+	}
+
+	// same story as with read_mem
+	jlfxv2_write_mem_quick(p, address, 1, &data);
+
+	/*if (!jlfxv2_check_full_emu_state(p))
 		return;

-	printc_dbg("write mem %d: %06x<-%04x\n", format, address, data);
+	jtag_ir_shift(p, IR_CNTRL_SIG_CAPTURE);
+	uint16_t dr = jtag_dr_shift_16(p, 0);
+
+	printc_dbg("write mem %d: %06x<-%04x: dr=%04x\n", format, address, data, dr);

 	jtag_tclk_clr(p);
 	jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
@ -251,7 +279,7 @@ static void jlfxv2_write_mem(struct jtdev *p, unsigned int format,

 	jtag_tclk_set(p);
 	jtag_tclk_clr(p);
-	jtag_tclk_set(p);
+	jtag_tclk_set(p);*/
 }

 /* Writes an array of words into target memory
@ -262,9 +290,41 @@ static void jlfxv2_write_mem(struct jtdev *p, unsigned int format,
 static void jlfxv2_write_mem_quick(struct jtdev *p, address_t address,
 			  unsigned int length, const uint16_t *data)
 {	// SLAU320AJ name: WriteMemQuick
-	for (unsigned int i = 0; i < length; ++i) {
+	uint16_t pc_bak;
+
+	/*for (unsigned int i = 0; i < length; ++i) {
 		jlfxv2_write_mem(p, 16, address + i*2, data[i]);
+	}*/
+
+	if (!jlfxv2_check_full_emu_state(p))
+		return;
+
+	//pc_bak = jlfxv2_read_reg(p, 0); // FIXME
+	jlfxv2_set_pc(p, address);
+	jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
+	jtag_dr_shift_16(p, 0x0500);
+	jtag_tclk_set(p);
+
+	jtag_ir_shift(p, IR_DATA_QUICK);
+
+
+	for (unsigned int i = 0; i < length; ++i) {
+		jtag_tclk_set(p);
+		jtag_dr_shift_16(p, data[i]);
+		jtag_tclk_clr(p);
 	}
+
+	jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
+	jtag_dr_shift_16(p, 0x0501);
+	jtag_tclk_set(p);
+
+	jlfxv2_set_pc(p, SAFE_FRAM_PC);
+	jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
+	jtag_dr_shift_16(p, 0x0501);
+	jtag_tclk_set(p);
+	jtag_ir_shift(p, IR_ADDR_CAPTURE);
+
+	//jlfxv2_write_reg(p, 0, pc_bak);
 }

 /* Execute a Power-Up Clear (PUC) using JTAG CNTRL SIG register
@ -392,6 +452,7 @@ static address_t jlfxv2_read_reg(struct jtdev *p, int reg)
 {	// libmsp430 BIOS name: ReadCpuReg
 	uint16_t reglo, reghi;
 	uint16_t jtag_id, jmb_addr;
+	const bool alt_addr = true;

 	if (reg == 3) return 0; // CG

@ -399,8 +460,9 @@ static address_t jlfxv2_read_reg(struct jtdev *p, int reg)
 	if (!jlfxv2_check_full_emu_state(p))
 		return 0;

+	jtag_id = jtag_ir_shift(p, IR_CNTRL_SIG_CAPTURE);
 	jtag_tclk_clr(p);
-	jtag_id = jtag_ir_shift(p, IR_DATA_16BIT);
+	jtag_ir_shift(p, IR_DATA_16BIT);
 	jtag_tclk_set(p);
 	jtag_dr_shift_16(p, reg);
 	jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
@ -409,14 +471,22 @@ static address_t jlfxv2_read_reg(struct jtdev *p, int reg)
 	jtag_tclk_clr(p);
 	jtag_tclk_set(p);

-	jmb_addr = (jtag_id == 0x98) ? 0x14c : 0x18c;
-
-	jtag_dr_shift_16(p, jmb_addr);
+	if (alt_addr) {
+		jtag_dr_shift_16(p, 0x0ff6);
+	} else {
+		jmb_addr = (jtag_id == 0x98) ? 0x14c : 0x18c;
+		jtag_dr_shift_16(p, jmb_addr);
+	}
 	jtag_tclk_clr(p);
 	jtag_tclk_set(p);
 	jtag_dr_shift_16(p, 0x3ffd);
 	jtag_tclk_clr(p);

+	if (alt_addr) {
+		jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
+		jtag_dr_shift_16(p, 0x0501);
+	}
+
 	jtag_ir_shift(p, IR_DATA_CAPTURE);
 	jtag_tclk_set(p);
 	reglo = jtag_dr_shift_16(p, 0);
@ -430,14 +500,15 @@ static address_t jlfxv2_read_reg(struct jtdev *p, int reg)
 	jtag_tclk_clr(p);
 	jtag_tclk_set(p);

-	jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
-	jtag_dr_shift_16(p, 0x0501);
+	if (!alt_addr) {
+		jtag_ir_shift(p, IR_CNTRL_SIG_16BIT);
+		jtag_dr_shift_16(p, 0x0501);
+	}

 	jtag_tclk_clr(p);
 	jtag_ir_shift(p, IR_DATA_CAPTURE);
 	jtag_tclk_set(p);

-
 	printc_dbg("read reg %d: lo=%04x hi=%04x\n", reg, reglo, reghi);
 	return reglo | ((address_t)reghi << 16);
 }