1205965f81e4b9eb661d7ea5816f35e30c00d4d4
1 // See LICENSE for license details.
5 #include "remote_bitbang.h"
9 #include <fesvr/option_parser.h>
18 fprintf(stderr
, "usage: spike [host options] <target program> [target options]\n");
19 fprintf(stderr
, "Host Options:\n");
20 fprintf(stderr
, " -p<n> Simulate <n> processors [default 1]\n");
21 fprintf(stderr
, " -m<n> Provide <n> MiB of target memory [default 2048]\n");
22 fprintf(stderr
, " -m<a:m,b:n,...> Provide memory regions of size m and n bytes\n");
23 fprintf(stderr
, " at base addresses a and b (with 4 KiB alignment)\n");
24 fprintf(stderr
, " -d Interactive debug mode\n");
25 fprintf(stderr
, " -g Track histogram of PCs\n");
26 fprintf(stderr
, " -l Generate a log of execution\n");
27 fprintf(stderr
, " -h Print this help message\n");
28 fprintf(stderr
, " -H Start halted, allowing a debugger to connect\n");
29 fprintf(stderr
, " --isa=<name> RISC-V ISA string [default %s]\n", DEFAULT_ISA
);
30 fprintf(stderr
, " --pc=<address> Override ELF entry point\n");
31 fprintf(stderr
, " --hartids=<a,b,...> Explicitly specify hartids, default is 0,1,...\n");
32 fprintf(stderr
, " --ic=<S>:<W>:<B> Instantiate a cache model with S sets,\n");
33 fprintf(stderr
, " --dc=<S>:<W>:<B> W ways, and B-byte blocks (with S and\n");
34 fprintf(stderr
, " --l2=<S>:<W>:<B> B both powers of 2).\n");
35 fprintf(stderr
, " --extension=<name> Specify RoCC Extension\n");
36 fprintf(stderr
, " --extlib=<name> Shared library to load\n");
37 fprintf(stderr
, " --rbb-port=<port> Listen on <port> for remote bitbang connection\n");
38 fprintf(stderr
, " --dump-dts Print device tree string and exit\n");
39 fprintf(stderr
, " --progsize=<words> progsize for the debug module [default 2]\n");
43 static std::vector
<std::pair
<reg_t
, mem_t
*>> make_mems(const char* arg
)
45 // handle legacy mem argument
47 auto mb
= strtoull(arg
, &p
, 0);
49 reg_t size
= reg_t(mb
) << 20;
50 return std::vector
<std::pair
<reg_t
, mem_t
*>>(1, std::make_pair(reg_t(DRAM_BASE
), new mem_t(size
)));
53 // handle base/size tuples
54 std::vector
<std::pair
<reg_t
, mem_t
*>> res
;
56 auto base
= strtoull(arg
, &p
, 0);
59 auto size
= strtoull(p
+ 1, &p
, 0);
60 if ((size
| base
) % PGSIZE
!= 0)
62 res
.push_back(std::make_pair(reg_t(base
), new mem_t(size
)));
72 int main(int argc
, char** argv
)
76 bool histogram
= false;
78 bool dump_dts
= false;
80 reg_t start_pc
= reg_t(-1);
81 std::vector
<std::pair
<reg_t
, mem_t
*>> mems
;
82 std::unique_ptr
<icache_sim_t
> ic
;
83 std::unique_ptr
<dcache_sim_t
> dc
;
84 std::unique_ptr
<cache_sim_t
> l2
;
85 std::function
<extension_t
*()> extension
;
86 const char* isa
= DEFAULT_ISA
;
87 uint16_t rbb_port
= 0;
89 unsigned progsize
= 2;
90 std::vector
<int> hartids
;
92 auto const hartids_parser
= [&](const char *s
) {
93 std::string
const str(s
);
94 std::stringstream
stream(str
);
100 if (stream
.peek() == ',') stream
.ignore();
104 option_parser_t parser
;
106 parser
.option('h', 0, 0, [&](const char* s
){help();});
107 parser
.option('d', 0, 0, [&](const char* s
){debug
= true;});
108 parser
.option('g', 0, 0, [&](const char* s
){histogram
= true;});
109 parser
.option('l', 0, 0, [&](const char* s
){log
= true;});
110 parser
.option('p', 0, 1, [&](const char* s
){nprocs
= atoi(s
);});
111 parser
.option('m', 0, 1, [&](const char* s
){mems
= make_mems(s
);});
112 // I wanted to use --halted, but for some reason that doesn't work.
113 parser
.option('H', 0, 0, [&](const char* s
){halted
= true;});
114 parser
.option(0, "rbb-port", 1, [&](const char* s
){use_rbb
= true; rbb_port
= atoi(s
);});
115 parser
.option(0, "pc", 1, [&](const char* s
){start_pc
= strtoull(s
, 0, 0);});
116 parser
.option(0, "hartids", 1, hartids_parser
);
117 parser
.option(0, "ic", 1, [&](const char* s
){ic
.reset(new icache_sim_t(s
));});
118 parser
.option(0, "dc", 1, [&](const char* s
){dc
.reset(new dcache_sim_t(s
));});
119 parser
.option(0, "l2", 1, [&](const char* s
){l2
.reset(cache_sim_t::construct(s
, "L2$"));});
120 parser
.option(0, "isa", 1, [&](const char* s
){isa
= s
;});
121 parser
.option(0, "extension", 1, [&](const char* s
){extension
= find_extension(s
);});
122 parser
.option(0, "dump-dts", 0, [&](const char *s
){dump_dts
= true;});
123 parser
.option(0, "extlib", 1, [&](const char *s
){
124 void *lib
= dlopen(s
, RTLD_NOW
| RTLD_GLOBAL
);
126 fprintf(stderr
, "Unable to load extlib '%s': %s\n", s
, dlerror());
130 parser
.option(0, "progsize", 1, [&](const char* s
){progsize
= atoi(s
);});
132 auto argv1
= parser
.parse(argv
);
133 std::vector
<std::string
> htif_args(argv1
, (const char*const*)argv
+ argc
);
135 mems
= make_mems("2048");
137 sim_t
s(isa
, nprocs
, halted
, start_pc
, mems
, htif_args
, std::move(hartids
),
139 std::unique_ptr
<remote_bitbang_t
> remote_bitbang((remote_bitbang_t
*) NULL
);
140 std::unique_ptr
<jtag_dtm_t
> jtag_dtm(new jtag_dtm_t(&s
.debug_module
));
142 remote_bitbang
.reset(new remote_bitbang_t(rbb_port
, &(*jtag_dtm
)));
143 s
.set_remote_bitbang(&(*remote_bitbang
));
147 printf("%s", s
.get_dts());
154 if (ic
&& l2
) ic
->set_miss_handler(&*l2
);
155 if (dc
&& l2
) dc
->set_miss_handler(&*l2
);
156 for (size_t i
= 0; i
< nprocs
; i
++)
158 if (ic
) s
.get_core(i
)->get_mmu()->register_memtracer(&*ic
);
159 if (dc
) s
.get_core(i
)->get_mmu()->register_memtracer(&*dc
);
160 if (extension
) s
.get_core(i
)->register_extension(extension());
165 s
.set_histogram(histogram
);