#include <cassert>
#include "debug_module.h"
+#include "debug_defines.h"
+#include "opcodes.h"
#include "mmu.h"
#include "debug_rom/debug_rom.h"
+#include "debug_rom/debug_rom_defines.h"
+
+#if 1
+# define D(x) x
+#else
+# define D(x)
+#endif
+
+///////////////////////// debug_module_t
+
+debug_module_t::debug_module_t(sim_t *sim) : sim(sim)
+{
+ dmcontrol = {0};
+
+ dmstatus = {0};
+ dmstatus.authenticated = 1;
+ dmstatus.versionlo = 2;
+
+ abstractcs = {0};
+ abstractcs.progsize = progsize;
+
+ abstractauto = {0};
+
+ memset(halted, 0, sizeof(halted));
+ memset(debug_rom_flags, 0, sizeof(debug_rom_flags));
+ memset(resumeack, 0, sizeof(resumeack));
+ memset(program_buffer, 0, sizeof(program_buffer));
+ memset(dmdata, 0, sizeof(dmdata));
+
+ write32(debug_rom_whereto, 0,
+ jal(ZERO, debug_abstract_start - DEBUG_ROM_WHERETO));
+
+ memset(debug_abstract, 0, sizeof(debug_abstract));
+
+}
+
+void debug_module_t::reset()
+{
+ for (unsigned i = 0; i < sim->nprocs(); i++) {
+ processor_t *proc = sim->get_core(i);
+ if (proc)
+ proc->halt_request = false;
+ }
+
+ dmcontrol = {0};
+
+ dmstatus = {0};
+ dmstatus.authenticated = 1;
+ dmstatus.versionlo = 2;
+
+ abstractcs = {0};
+ abstractcs.datacount = sizeof(dmdata) / 4;
+ abstractcs.progsize = progsize;
+
+ abstractauto = {0};
+}
+
+void debug_module_t::add_device(bus_t *bus) {
+ bus->add_device(DEBUG_START, this);
+}
bool debug_module_t::load(reg_t addr, size_t len, uint8_t* bytes)
{
addr = DEBUG_START + addr;
- if (addr >= DEBUG_RAM_START && addr + len <= DEBUG_RAM_END) {
- memcpy(bytes, debug_ram + addr - DEBUG_RAM_START, len);
+ if (addr >= DEBUG_ROM_ENTRY &&
+ (addr + len) <= (DEBUG_ROM_ENTRY + debug_rom_raw_len)) {
+ memcpy(bytes, debug_rom_raw + addr - DEBUG_ROM_ENTRY, len);
+ return true;
+ }
+
+ if (addr >= DEBUG_ROM_WHERETO && (addr + len) <= (DEBUG_ROM_WHERETO + 4)) {
+ memcpy(bytes, debug_rom_whereto + addr - DEBUG_ROM_WHERETO, len);
+ return true;
+ }
+
+ if (addr >= DEBUG_ROM_FLAGS && ((addr + len) <= DEBUG_ROM_FLAGS + 1024)) {
+ memcpy(bytes, debug_rom_flags + addr - DEBUG_ROM_FLAGS, len);
return true;
}
- if (addr >= DEBUG_ROM_START && addr + len <= DEBUG_ROM_END) {
- memcpy(bytes, debug_rom_raw + addr - DEBUG_ROM_START, len);
+ if (addr >= debug_abstract_start && ((addr + len) <= (debug_abstract_start + sizeof(debug_abstract)))) {
+ memcpy(bytes, debug_abstract + addr - debug_abstract_start, len);
return true;
}
- fprintf(stderr, "ERROR: invalid load from debug module: %ld bytes at 0x%lx\n",
- len, addr);
+ if (addr >= debug_data_start && (addr + len) <= (debug_data_start + sizeof(dmdata))) {
+ memcpy(bytes, dmdata + addr - debug_data_start, len);
+ return true;
+ }
+
+ if (addr >= debug_progbuf_start && ((addr + len) <= (debug_progbuf_start + sizeof(program_buffer)))) {
+ memcpy(bytes, program_buffer + addr - debug_progbuf_start, len);
+ return true;
+ }
+
+ fprintf(stderr, "ERROR: invalid load from debug module: %zd bytes at 0x%016"
+ PRIx64 "\n", len, addr);
+
return false;
}
bool debug_module_t::store(reg_t addr, size_t len, const uint8_t* bytes)
{
+
+ uint8_t id_bytes[4];
+ uint32_t id = 0;
+ if (len == 4) {
+ memcpy(id_bytes, bytes, 4);
+ id = read32(id_bytes, 0);
+ }
+
addr = DEBUG_START + addr;
+
+ if (addr >= debug_data_start && (addr + len) <= (debug_data_start + sizeof(dmdata))) {
+ memcpy(dmdata + addr - debug_data_start, bytes, len);
+ return true;
+ }
+
+ if (addr >= debug_progbuf_start && ((addr + len) <= (debug_progbuf_start + sizeof(program_buffer)))) {
+ memcpy(program_buffer + addr - debug_progbuf_start, bytes, len);
+ return true;
+ }
- if (addr & (len-1)) {
- fprintf(stderr, "ERROR: unaligned store to debug module: %ld bytes at 0x%lx\n",
- len, addr);
- return false;
+ if (addr == DEBUG_ROM_HALTED) {
+ assert (len == 4);
+ halted[id] = true;
+ if (dmcontrol.hartsel == id) {
+ if (0 == (debug_rom_flags[id] & (1 << DEBUG_ROM_FLAG_GO))){
+ if (dmcontrol.hartsel == id) {
+ abstractcs.busy = false;
+ }
+ }
+ }
+ return true;
}
- if (addr >= DEBUG_RAM_START && addr + len <= DEBUG_RAM_END) {
- memcpy(debug_ram + addr - DEBUG_RAM_START, bytes, len);
+ if (addr == DEBUG_ROM_GOING) {
+ debug_rom_flags[dmcontrol.hartsel] &= ~(1 << DEBUG_ROM_FLAG_GO);
return true;
- } else if (len == 4 && addr == DEBUG_CLEARDEBINT) {
- clear_interrupt(bytes[0] | (bytes[1] << 8) |
- (bytes[2] << 16) | (bytes[3] << 24));
+ }
+
+ if (addr == DEBUG_ROM_RESUMING) {
+ assert (len == 4);
+ halted[id] = false;
+ resumeack[id] = true;
+ debug_rom_flags[id] &= ~(1 << DEBUG_ROM_FLAG_RESUME);
return true;
}
- fprintf(stderr, "ERROR: invalid store to debug module: %ld bytes at 0x%lx\n",
- len, addr);
+ if (addr == DEBUG_ROM_EXCEPTION) {
+ if (abstractcs.cmderr == CMDERR_NONE) {
+ abstractcs.cmderr = CMDERR_EXCEPTION;
+ }
+ return true;
+ }
+
+ fprintf(stderr, "ERROR: invalid store to debug module: %zd bytes at 0x%016"
+ PRIx64 "\n", len, addr);
return false;
}
-void debug_module_t::ram_write32(unsigned int index, uint32_t value)
+void debug_module_t::write32(uint8_t *memory, unsigned int index, uint32_t value)
{
- char* base = debug_ram + index * 4;
+ uint8_t* base = memory + index * 4;
base[0] = value & 0xff;
base[1] = (value >> 8) & 0xff;
base[2] = (value >> 16) & 0xff;
base[3] = (value >> 24) & 0xff;
}
-uint32_t debug_module_t::ram_read32(unsigned int index)
+uint32_t debug_module_t::read32(uint8_t *memory, unsigned int index)
{
- // It'd be better for raw_page (and all memory) to be unsigned chars, but mem
- // in sim_t is just chars, so I'm following that convention.
- unsigned char* base = (unsigned char*) (debug_ram + index * 4);
+ uint8_t* base = memory + index * 4;
uint32_t value = ((uint32_t) base[0]) |
(((uint32_t) base[1]) << 8) |
(((uint32_t) base[2]) << 16) |
(((uint32_t) base[3]) << 24);
return value;
}
+
+processor_t *debug_module_t::current_proc() const
+{
+ processor_t *proc = NULL;
+ try {
+ proc = sim->get_core(dmcontrol.hartsel);
+ } catch (const std::out_of_range&) {
+ }
+ return proc;
+}
+
+bool debug_module_t::dmi_read(unsigned address, uint32_t *value)
+{
+ uint32_t result = 0;
+ D(fprintf(stderr, "dmi_read(0x%x) -> ", address));
+ if (address >= DMI_DATA0 && address < DMI_DATA0 + abstractcs.datacount) {
+ unsigned i = address - DMI_DATA0;
+ result = read32(dmdata, i);
+
+ if (abstractcs.busy && abstractcs.cmderr == CMDERR_NONE) {
+ abstractcs.cmderr = CMDERR_BUSY;
+ }
+
+ if ((abstractauto.autoexecdata >> i) & 1){
+ perform_abstract_command();
+ }
+ } else if (address >= DMI_PROGBUF0 && address < DMI_PROGBUF0 + progsize) {
+ unsigned i = address = DMI_PROGBUF0;
+ result = read32(program_buffer, i);
+ if ((abstractauto.autoexecprogbuf >> i) & 1) {
+ perform_abstract_command();
+ }
+
+ } else {
+ switch (address) {
+ case DMI_DMCONTROL:
+ {
+ processor_t *proc = current_proc();
+ if (proc)
+ dmcontrol.haltreq = proc->halt_request;
+
+ result = set_field(result, DMI_DMCONTROL_HALTREQ, dmcontrol.haltreq);
+ result = set_field(result, DMI_DMCONTROL_RESUMEREQ, dmcontrol.resumereq);
+ result = set_field(result, DMI_DMCONTROL_HARTSEL, dmcontrol.hartsel);
+ result = set_field(result, DMI_DMCONTROL_HARTRESET, dmcontrol.hartreset);
+ result = set_field(result, DMI_DMCONTROL_NDMRESET, dmcontrol.ndmreset);
+ result = set_field(result, DMI_DMCONTROL_DMACTIVE, dmcontrol.dmactive);
+ }
+ break;
+ case DMI_DMSTATUS:
+ {
+ processor_t *proc = current_proc();
+
+ dmstatus.allnonexistant = false;
+ dmstatus.allunavail = false;
+ dmstatus.allrunning = false;
+ dmstatus.allhalted = false;
+ dmstatus.allresumeack = false;
+ if (proc) {
+ if (halted[dmcontrol.hartsel]) {
+ dmstatus.allhalted = true;
+ } else {
+ dmstatus.allrunning = true;
+ }
+ } else {
+ dmstatus.allnonexistant = true;
+ }
+ dmstatus.anynonexistant = dmstatus.allnonexistant;
+ dmstatus.anyunavail = dmstatus.allunavail;
+ dmstatus.anyrunning = dmstatus.allrunning;
+ dmstatus.anyhalted = dmstatus.allhalted;
+ if (proc) {
+ if (resumeack[dmcontrol.hartsel]) {
+ dmstatus.allresumeack = true;
+ } else {
+ dmstatus.allresumeack = false;
+ }
+ } else {
+ dmstatus.allresumeack = false;
+ }
+
+ result = set_field(result, DMI_DMSTATUS_ALLNONEXISTENT, dmstatus.allnonexistant);
+ result = set_field(result, DMI_DMSTATUS_ALLUNAVAIL, dmstatus.allunavail);
+ result = set_field(result, DMI_DMSTATUS_ALLRUNNING, dmstatus.allrunning);
+ result = set_field(result, DMI_DMSTATUS_ALLHALTED, dmstatus.allhalted);
+ result = set_field(result, DMI_DMSTATUS_ALLRESUMEACK, dmstatus.allresumeack);
+ result = set_field(result, DMI_DMSTATUS_ANYNONEXISTENT, dmstatus.anynonexistant);
+ result = set_field(result, DMI_DMSTATUS_ANYUNAVAIL, dmstatus.anyunavail);
+ result = set_field(result, DMI_DMSTATUS_ANYRUNNING, dmstatus.anyrunning);
+ result = set_field(result, DMI_DMSTATUS_ANYHALTED, dmstatus.anyhalted);
+ result = set_field(result, DMI_DMSTATUS_ANYRESUMEACK, dmstatus.anyresumeack);
+ result = set_field(result, DMI_DMSTATUS_AUTHENTICATED, dmstatus.authenticated);
+ result = set_field(result, DMI_DMSTATUS_AUTHBUSY, dmstatus.authbusy);
+ result = set_field(result, DMI_DMSTATUS_VERSIONHI, dmstatus.versionhi);
+ result = set_field(result, DMI_DMSTATUS_VERSIONLO, dmstatus.versionlo);
+ }
+ break;
+ case DMI_ABSTRACTCS:
+ result = set_field(result, DMI_ABSTRACTCS_CMDERR, abstractcs.cmderr);
+ result = set_field(result, DMI_ABSTRACTCS_BUSY, abstractcs.busy);
+ result = set_field(result, DMI_ABSTRACTCS_DATACOUNT, abstractcs.datacount);
+ result = set_field(result, DMI_ABSTRACTCS_PROGSIZE, abstractcs.progsize);
+ break;
+ case DMI_ABSTRACTAUTO:
+ result = set_field(result, DMI_ABSTRACTAUTO_AUTOEXECPROGBUF, abstractauto.autoexecprogbuf);
+ result = set_field(result, DMI_ABSTRACTAUTO_AUTOEXECDATA, abstractauto.autoexecdata);
+ break;
+ case DMI_COMMAND:
+ result = 0;
+ break;
+ case DMI_HARTINFO:
+ result = set_field(result, DMI_HARTINFO_NSCRATCH, 1);
+ result = set_field(result, DMI_HARTINFO_DATAACCESS, 1);
+ result = set_field(result, DMI_HARTINFO_DATASIZE, abstractcs.datacount);
+ result = set_field(result, DMI_HARTINFO_DATAADDR, debug_data_start);
+ break;
+ default:
+ result = 0;
+ D(fprintf(stderr, "Unexpected. Returning Error."));
+ return false;
+ }
+ }
+ D(fprintf(stderr, "0x%x\n", result));
+ *value = result;
+ return true;
+}
+
+bool debug_module_t::perform_abstract_command()
+{
+ if (abstractcs.cmderr != CMDERR_NONE)
+ return true;
+ if (abstractcs.busy) {
+ abstractcs.cmderr = CMDERR_BUSY;
+ return true;
+ }
+
+ if ((command >> 24) == 0) {
+ // register access
+ unsigned size = get_field(command, AC_ACCESS_REGISTER_SIZE);
+ bool write = get_field(command, AC_ACCESS_REGISTER_WRITE);
+ unsigned regno = get_field(command, AC_ACCESS_REGISTER_REGNO);
+
+ if (!halted[dmcontrol.hartsel]) {
+ abstractcs.cmderr = CMDERR_HALTRESUME;
+ return true;
+ }
+
+ if (get_field(command, AC_ACCESS_REGISTER_TRANSFER)) {
+
+ if (regno < 0x1000 || regno >= 0x1020) {
+ abstractcs.cmderr = CMDERR_NOTSUP;
+ return true;
+ }
+
+ unsigned regnum = regno - 0x1000;
+
+ switch (size) {
+ case 2:
+ if (write)
+ write32(debug_abstract, 0, lw(regnum, ZERO, debug_data_start));
+ else
+ write32(debug_abstract, 0, sw(regnum, ZERO, debug_data_start));
+ break;
+ case 3:
+ if (write)
+ write32(debug_abstract, 0, ld(regnum, ZERO, debug_data_start));
+ else
+ write32(debug_abstract, 0, sd(regnum, ZERO, debug_data_start));
+ break;
+ /*
+ case 4:
+ if (write)
+ write32(debug_rom_code, 0, lq(regnum, ZERO, debug_data_start));
+ else
+ write32(debug_rom_code, 0, sq(regnum, ZERO, debug_data_start));
+ break;
+ */
+ default:
+ abstractcs.cmderr = CMDERR_NOTSUP;
+ return true;
+ }
+ } else {
+ //NOP
+ write32(debug_abstract, 0, addi(ZERO, ZERO, 0));
+ }
+
+ if (get_field(command, AC_ACCESS_REGISTER_POSTEXEC)) {
+ // Since the next instruction is what we will use, just use nother NOP
+ // to get there.
+ write32(debug_abstract, 1, addi(ZERO, ZERO, 0));
+ } else {
+ write32(debug_abstract, 1, ebreak());
+ }
+
+ debug_rom_flags[dmcontrol.hartsel] |= 1 << DEBUG_ROM_FLAG_GO;
+
+ abstractcs.busy = true;
+ } else {
+ abstractcs.cmderr = CMDERR_NOTSUP;
+ }
+ return true;
+}
+
+bool debug_module_t::dmi_write(unsigned address, uint32_t value)
+{
+ D(fprintf(stderr, "dmi_write(0x%x, 0x%x)\n", address, value));
+ if (address >= DMI_DATA0 && address < DMI_DATA0 + abstractcs.datacount) {
+ unsigned i = address - DMI_DATA0;
+ write32(dmdata, address - DMI_DATA0, value);
+
+ if (abstractcs.busy && abstractcs.cmderr == CMDERR_NONE) {
+ abstractcs.cmderr = CMDERR_BUSY;
+ }
+
+ if ((abstractauto.autoexecdata >> i) & 1) {
+ perform_abstract_command();
+ }
+ return true;
+
+ } else if (address >= DMI_PROGBUF0 && address < DMI_PROGBUF0 + progsize) {
+ unsigned i = address - DMI_PROGBUF0;
+
+ write32(program_buffer, i, value);
+
+ if ((abstractauto.autoexecprogbuf >> i) & 1) {
+ perform_abstract_command();
+ }
+ return true;
+
+ } else {
+ switch (address) {
+ case DMI_DMCONTROL:
+ {
+ dmcontrol.dmactive = get_field(value, DMI_DMCONTROL_DMACTIVE);
+ if (dmcontrol.dmactive) {
+ dmcontrol.haltreq = get_field(value, DMI_DMCONTROL_HALTREQ);
+ dmcontrol.resumereq = get_field(value, DMI_DMCONTROL_RESUMEREQ);
+ dmcontrol.ndmreset = get_field(value, DMI_DMCONTROL_NDMRESET);
+ dmcontrol.hartsel = get_field(value, DMI_DMCONTROL_HARTSEL);
+ } else {
+ reset();
+ }
+ processor_t *proc = current_proc();
+ if (proc) {
+ proc->halt_request = dmcontrol.haltreq;
+ if (dmcontrol.resumereq) {
+ debug_rom_flags[dmcontrol.hartsel] |= (1 << DEBUG_ROM_FLAG_RESUME);
+ resumeack[dmcontrol.hartsel] = false;
+ }
+ }
+ }
+ return true;
+
+ case DMI_COMMAND:
+ command = value;
+ return perform_abstract_command();
+
+ case DMI_ABSTRACTCS:
+ abstractcs.cmderr = (cmderr_t) (((uint32_t) (abstractcs.cmderr)) & (~(uint32_t)(get_field(value, DMI_ABSTRACTCS_CMDERR))));
+ return true;
+
+ case DMI_ABSTRACTAUTO:
+ abstractauto.autoexecprogbuf = get_field(value, DMI_ABSTRACTAUTO_AUTOEXECPROGBUF);
+ abstractauto.autoexecdata = get_field(value, DMI_ABSTRACTAUTO_AUTOEXECDATA);
+ break;
+ }
+ }
+ return false;
+}