mips: m4k alternate pracc code. Patch 4
Now all the functions with only fetch accesses are modified. The same delay between scans has been added to mips32_pracc_fastdata_xfer(), it should work at the same scan rates as the other pracc functions, but it needs higher scan_delays to work. Change-Id: Ifb31d8ea6de9d22674385782913d221a2494dbbf Signed-off-by: Salvador Arroyo <sarroyofdez@yahoo.es> Reviewed-on: http://openocd.zylin.com/1196 Tested-by: jenkins Reviewed-by: Freddie Chopin <freddie.chopin@gmail.com>__archive__
parent
d5e564625f
commit
9695564e63
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@ -81,9 +81,6 @@
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#include "mips32.h"
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#include "mips32_pracc.h"
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#define PRACC_FETCH 0
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#define PRACC_STORE 1
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struct mips32_pracc_context {
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uint32_t *local_iparam;
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int num_iparam;
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@ -551,25 +548,30 @@ exit:
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int mips32_cp0_write(struct mips_ejtag *ejtag_info, uint32_t val, uint32_t cp0_reg, uint32_t cp0_sel)
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{
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uint32_t code[] = {
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/* start: */
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MIPS32_MTC0(15, 31, 0), /* move $15 to COP0 DeSave */
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MIPS32_LUI(15, UPPER16(val)), /* Load val to $15 */
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MIPS32_ORI(15, 15, LOWER16(val)),
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struct pracc_queue_info ctx = {.max_code = 6};
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pracc_queue_init(&ctx);
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if (ctx.retval != ERROR_OK)
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goto exit;
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/* 3 */ MIPS32_MTC0(15, 0, 0), /* move $15 to COP0 [cp0_reg select] */
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pracc_add(&ctx, 0, MIPS32_MTC0(15, 31, 0)); /* move $15 to COP0 DeSave */
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pracc_add(&ctx, 0, MIPS32_LUI(15, UPPER16(val))); /* Load val to $15 */
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pracc_add(&ctx, 0, MIPS32_ORI(15, 15, LOWER16(val)));
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MIPS32_B(NEG16(5)), /* b start */
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MIPS32_MFC0(15, 31, 0), /* move COP0 DeSave to $15 */
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};
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pracc_add(&ctx, 0, MIPS32_MTC0(15, 0, 0) | (cp0_reg << 11) | cp0_sel); /* write cp0 reg / sel */
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pracc_add(&ctx, 0, MIPS32_B(NEG16(ctx.code_count + 1))); /* jump to start */
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pracc_add(&ctx, 0, MIPS32_MFC0(15, 31, 0)); /* move COP0 DeSave to $15 */
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ctx.retval = mips32_pracc_queue_exec(ejtag_info, &ctx, NULL);
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exit:
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pracc_queue_free(&ctx);
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return ctx.retval;
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/**
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* Note that MIPS32_MTC0 macro is implemented via MIPS32_R_INST macro.
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* In order to insert our parameters, we must change rd and funct fields.
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*/
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code[3] |= (cp0_reg << 11) | cp0_sel; /* change rd and funct fields of MIPS32_R_INST macro */
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return mips32_pracc_exec(ejtag_info, ARRAY_SIZE(code), code, 0, NULL, 0, NULL, 1);
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* code[3] |= (cp0_reg << 11) | cp0_sel; change rd and funct fields of MIPS32_R_INST macro
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**/
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}
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/**
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@ -724,90 +726,70 @@ static int mips32_pracc_clean_invalidate_cache(struct mips_ejtag *ejtag_info,
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static int mips32_pracc_write_mem_generic(struct mips_ejtag *ejtag_info, uint32_t addr, int size, int count, void *buf)
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{
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uint32_t *code;
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code = malloc((128 * 3 + 9) * sizeof(uint32_t)); /* alloc memory for the worst case */
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if (code == NULL) {
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LOG_ERROR("Out of memory");
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return ERROR_FAIL;
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}
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struct pracc_queue_info ctx = {.max_code = 128 * 3 + 6 + 1}; /* alloc memory for the worst case */
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pracc_queue_init(&ctx);
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if (ctx.retval != ERROR_OK)
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goto exit;
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uint32_t *buf32 = buf;
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uint16_t *buf16 = buf;
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uint8_t *buf8 = buf;
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int i;
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int retval = ERROR_FAIL;
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uint32_t *code_p;
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uint32_t upper_base_addr, last_upper_base_addr;
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int this_round_count;
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int code_len;
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while (count) {
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this_round_count = (count > 128) ? 128 : count;
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last_upper_base_addr = UPPER16((addr + 0x8000));
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code_p = code;
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ctx.code_count = 0;
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ctx.store_count = 0;
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int this_round_count = (count > 128) ? 128 : count;
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uint32_t last_upper_base_addr = UPPER16((addr + 0x8000));
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*code_p++ = MIPS32_MTC0(15, 31, 0); /* save $15 in DeSave */
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*code_p++ = MIPS32_LUI(15, last_upper_base_addr); /* load $15 with memory base address */
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code_len = 2;
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pracc_add(&ctx, 0, MIPS32_MTC0(15, 31, 0)); /* save $15 in DeSave */
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pracc_add(&ctx, 0, MIPS32_LUI(15, last_upper_base_addr)); /* load $15 with memory base address */
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for (i = 0; i != this_round_count; i++) {
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upper_base_addr = UPPER16((addr + 0x8000));
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for (int i = 0; i != this_round_count; i++) {
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uint32_t upper_base_addr = UPPER16((addr + 0x8000));
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if (last_upper_base_addr != upper_base_addr) {
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*code_p++ = MIPS32_LUI(15, upper_base_addr); /* if needed, change upper address in $15*/
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code_len++;
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pracc_add(&ctx, 0, MIPS32_LUI(15, upper_base_addr)); /* if needed, change upper address in $15*/
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last_upper_base_addr = upper_base_addr;
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}
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if (size == 4) { /* for word write check if one half word is 0 and load it accordingly */
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if (LOWER16(*buf32) == 0) {
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*code_p++ = MIPS32_LUI(8, UPPER16(*buf32)); /* load only upper value */
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code_len++;
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} else if (UPPER16(*buf32) == 0) {
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*code_p++ = MIPS32_ORI(8, 0, LOWER16(*buf32)); /* load only lower value */
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code_len++;
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} else {
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*code_p++ = MIPS32_LUI(8, UPPER16(*buf32)); /* load upper and lower */
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*code_p++ = MIPS32_ORI(8, 8, LOWER16(*buf32));
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code_len += 2;
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if (size == 4) { /* for word writes check if one half word is 0 and load it accordingly */
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if (LOWER16(*buf32) == 0)
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pracc_add(&ctx, 0, MIPS32_LUI(8, UPPER16(*buf32))); /* load only upper value */
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else if (UPPER16(*buf32) == 0)
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pracc_add(&ctx, 0, MIPS32_ORI(8, 0, LOWER16(*buf32))); /* load only lower */
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else {
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pracc_add(&ctx, 0, MIPS32_LUI(8, UPPER16(*buf32))); /* load upper and lower */
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pracc_add(&ctx, 0, MIPS32_ORI(8, 8, LOWER16(*buf32)));
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}
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*code_p++ = MIPS32_SW(8, LOWER16(addr), 15); /* store word to memory */
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code_len++;
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pracc_add(&ctx, 0, MIPS32_SW(8, LOWER16(addr), 15)); /* store word to memory */
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buf32++;
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} else if (size == 2) {
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*code_p++ = MIPS32_ORI(8, 0, *buf16); /* load lower value */
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*code_p++ = MIPS32_SH(8, LOWER16(addr), 15); /* store half word to memory */
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code_len += 2;
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pracc_add(&ctx, 0, MIPS32_ORI(8, 0, *buf16)); /* load lower value */
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pracc_add(&ctx, 0, MIPS32_SH(8, LOWER16(addr), 15)); /* store half word to memory */
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buf16++;
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} else {
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*code_p++ = MIPS32_ORI(8, 0, *buf8); /* load lower value */
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*code_p++ = MIPS32_SB(8, LOWER16(addr), 15); /* store byte to memory */
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code_len += 2;
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pracc_add(&ctx, 0, MIPS32_ORI(8, 0, *buf8)); /* load lower value */
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pracc_add(&ctx, 0, MIPS32_SB(8, LOWER16(addr), 15)); /* store byte to memory */
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buf8++;
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}
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addr += size;
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}
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*code_p++ = MIPS32_LUI(8, UPPER16(ejtag_info->reg8)), /* restore upper 16 bits of reg 8 */
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*code_p++ = MIPS32_ORI(8, 8, LOWER16(ejtag_info->reg8)), /* restore lower 16 bits of reg 8 */
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pracc_add(&ctx, 0, MIPS32_LUI(8, UPPER16(ejtag_info->reg8))); /* restore upper 16 bits of reg 8 */
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pracc_add(&ctx, 0, MIPS32_ORI(8, 8, LOWER16(ejtag_info->reg8))); /* restore lower 16 bits of reg 8 */
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code_len += 4;
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*code_p++ = MIPS32_B(NEG16(code_len - 1)); /* jump to start */
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*code_p = MIPS32_MFC0(15, 31, 0); /* restore $15 from DeSave */
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pracc_add(&ctx, 0, MIPS32_B(NEG16(ctx.code_count + 1))); /* jump to start */
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pracc_add(&ctx, 0, MIPS32_MFC0(15, 31, 0)); /* restore $15 from DeSave */
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retval = mips32_pracc_exec(ejtag_info, code_len, code, 0, NULL, 0, NULL, 1);
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if (retval != ERROR_OK)
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ctx.retval = mips32_pracc_queue_exec(ejtag_info, &ctx, NULL);
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if (ctx.retval != ERROR_OK)
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goto exit;
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count -= this_round_count;
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}
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exit:
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free(code);
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return retval;
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pracc_queue_free(&ctx);
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return ctx.retval;
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}
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int mips32_pracc_write_mem(struct mips_ejtag *ejtag_info, uint32_t addr, int size, int count, void *buf)
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MIPS32_MTC0(1, 24, 0), /* move $1 to depc (pc) */
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};
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uint32_t *code;
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code = malloc((37 * 2 + 6 + 1) * sizeof(uint32_t)); /* alloc memory for the worst case */
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if (code == NULL) {
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LOG_ERROR("Out of memory");
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return ERROR_FAIL;
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}
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struct pracc_queue_info ctx = {.max_code = 37 * 2 + 6 + 1};
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pracc_queue_init(&ctx);
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if (ctx.retval != ERROR_OK)
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goto exit;
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uint32_t *code_p = code;
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int code_len = 0;
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/* load registers 2 to 31 with lui an ori instructions, check if same instructions can be saved */
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/* load registers 2 to 31 with lui and ori instructions, check if some instructions can be saved */
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for (int i = 2; i < 32; i++) {
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if (LOWER16((regs[i])) == 0) {
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*code_p++ = MIPS32_LUI(i, UPPER16((regs[i]))); /* if lower half word is 0, lui instruction only */
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code_len++;
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} else if (UPPER16((regs[i])) == 0) {
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*code_p++ = MIPS32_ORI(i, 0, LOWER16((regs[i]))); /* if upper half word is 0, ori with $0 only*/
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code_len++;
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} else {
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*code_p++ = MIPS32_LUI(i, UPPER16((regs[i]))); /* default, load with lui and ori instructions */
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*code_p++ = MIPS32_ORI(i, i, LOWER16((regs[i])));
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code_len += 2;
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if (LOWER16((regs[i])) == 0) /* if lower half word is 0, lui instruction only */
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pracc_add(&ctx, 0, MIPS32_LUI(i, UPPER16((regs[i]))));
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else if (UPPER16((regs[i])) == 0) /* if upper half word is 0, ori with $0 only*/
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pracc_add(&ctx, 0, MIPS32_ORI(i, 0, LOWER16((regs[i]))));
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else { /* default, load with lui and ori instructions */
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pracc_add(&ctx, 0, MIPS32_LUI(i, UPPER16((regs[i]))));
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pracc_add(&ctx, 0, MIPS32_ORI(i, i, LOWER16((regs[i]))));
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}
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}
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for (int i = 0; i != 6; i++) {
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*code_p++ = MIPS32_LUI(1, UPPER16((regs[i + 32]))); /* load CPO value in $1, with lui and ori */
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*code_p++ = MIPS32_ORI(1, 1, LOWER16((regs[i + 32])));
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*code_p++ = cp0_write_code[i]; /* write value from $1 to CPO register */
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code_len += 3;
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pracc_add(&ctx, 0, MIPS32_LUI(1, UPPER16((regs[i + 32])))); /* load CPO value in $1, with lui and ori */
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pracc_add(&ctx, 0, MIPS32_ORI(1, 1, LOWER16((regs[i + 32]))));
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pracc_add(&ctx, 0, cp0_write_code[i]); /* write value from $1 to CPO register */
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}
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*code_p++ = MIPS32_LUI(1, UPPER16((regs[1]))); /* load upper half word in $1 */
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code_len += 3;
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*code_p++ = MIPS32_B(NEG16(code_len - 1)), /* b start */
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*code_p = MIPS32_ORI(1, 1, LOWER16((regs[1]))); /* load lower half word in $1 */
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pracc_add(&ctx, 0, MIPS32_LUI(1, UPPER16((regs[1])))); /* load upper half word in $1 */
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pracc_add(&ctx, 0, MIPS32_B(NEG16(ctx.code_count + 1))); /* jump to start */
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pracc_add(&ctx, 0, MIPS32_ORI(1, 1, LOWER16((regs[1])))); /* load lower half word in $1 */
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int retval = mips32_pracc_exec(ejtag_info, code_len, code, 0, NULL, 0, NULL, 1);
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free(code);
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ctx.retval = mips32_pracc_queue_exec(ejtag_info, &ctx, NULL);
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ejtag_info->reg8 = regs[8];
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ejtag_info->reg9 = regs[9];
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return retval;
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exit:
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pracc_queue_free(&ctx);
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return ctx.retval;
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}
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int mips32_pracc_read_regs(struct mips_ejtag *ejtag_info, uint32_t *regs)
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@ -1096,7 +1070,12 @@ int mips32_pracc_fastdata_xfer(struct mips_ejtag *ejtag_info, struct working_are
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mips_ejtag_set_instr(ejtag_info, EJTAG_INST_FASTDATA);
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mips_ejtag_fastdata_scan(ejtag_info, 1, &val);
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unsigned num_clocks = 0; /* like in legacy code */
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if (ejtag_info->mode != 0)
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num_clocks = ((uint64_t)(ejtag_info->scan_delay) * jtag_get_speed_khz() + 500000) / 1000000;
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for (i = 0; i < count; i++) {
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jtag_add_clocks(num_clocks);
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retval = mips_ejtag_fastdata_scan(ejtag_info, write_t, buf++);
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if (retval != ERROR_OK)
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return retval;
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@ -260,16 +260,15 @@ int mips_ejtag_enter_debug(struct mips_ejtag *ejtag_info)
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int mips_ejtag_exit_debug(struct mips_ejtag *ejtag_info)
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{
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uint32_t inst;
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inst = MIPS32_DRET;
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uint32_t instr = MIPS32_DRET;
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struct pracc_queue_info ctx = {.max_code = 1, .pracc_list = &instr, .code_count = 1, .store_count = 0};
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/* execute our dret instruction */
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int retval = mips32_pracc_exec(ejtag_info, 1, &inst, 0, NULL, 0, NULL, 0);
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ctx.retval = mips32_pracc_queue_exec(ejtag_info, &ctx, NULL);
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/* pic32mx workaround, false pending at low core clock */
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jtag_add_sleep(1000);
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return retval;
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return ctx.retval;
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}
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int mips_ejtag_init(struct mips_ejtag *ejtag_info)
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