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author | Frank Ch. Eigler <fche@redhat.com> | 1998-02-27 21:52:40 +0000 |
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committer | Frank Ch. Eigler <fche@redhat.com> | 1998-02-27 21:52:40 +0000 |
commit | f0bb94cd675e4efc1da621177ed8d6b443c0d300 (patch) | |
tree | 27e54020832411e29cb0990485cbeb84fce82f08 /sim | |
parent | 01e5c2f36cccb4f563d9b78c03973b37d9de9b3d (diff) | |
download | gdb-f0bb94cd675e4efc1da621177ed8d6b443c0d300.zip gdb-f0bb94cd675e4efc1da621177ed8d6b443c0d300.tar.gz gdb-f0bb94cd675e4efc1da621177ed8d6b443c0d300.tar.bz2 |
* Major endianness fixes on sky code today. The milestone sample and existing
PKE tests run identically on SPARC/Solaris and x86/Linux.
* sky-pke.c (pke_io_{read,write}_buffer): Endianness fixes aka
"E-fixes" in register and FIFO read/writes.
(pke_code_{pkemscalf,pkemscal}): E-fixes in VU CIA setting.
(pke_code_{mpg,unpack}): E-fixes in VU memory & tracking updates.
(pke_code_direct): E-fixes in GPUIF FIFO stuffing.
* sky-pke.h (PKE_MEM_WRITE): E-fixes in trace file writing.
* sky-vu0.c (vu0_attach): Allocate micro/data memory with zalloc
to guarantee sufficient (16-byte) alignment.
* sky-vu1.c (vu1_attach): Ditto.
(vu1_io_read_register_window): *PARTIAL* E-fixes in register accesses.
* sky-libvpe.c (gif_write): E-fixes in GPUIF FIFO stuffing.
* sky-gpuif.c (gif_io_{read,write}_buffer): E-fixes in
register and FIFO read/writes.
* sky-dma.c (do_dma_transfer_tag): E-fixes in tag reading.
Diffstat (limited to 'sim')
-rw-r--r-- | sim/mips/sky-pke.c | 83 | ||||
-rw-r--r-- | sim/mips/sky-pke.h | 4 | ||||
-rw-r--r-- | sim/mips/sky-vu0.c | 11 | ||||
-rw-r--r-- | sim/mips/sky-vu1.c | 15 |
4 files changed, 65 insertions, 48 deletions
diff --git a/sim/mips/sky-pke.c b/sim/mips/sky-pke.c index 6685d16..f2dbb98 100644 --- a/sim/mips/sky-pke.c +++ b/sim/mips/sky-pke.c @@ -253,7 +253,7 @@ pke_io_read_buffer(device *me_, case PKE_REG_C1: case PKE_REG_C2: case PKE_REG_C3: - result[0] = me->regs[reg_num][0]; + result[0] = H2T_4(me->regs[reg_num][0]); break; /* handle common case of write-only registers */ @@ -337,6 +337,10 @@ pke_io_write_buffer(device *me_, /* write user-given bytes into input */ memcpy(((unsigned_1*) &input) + reg_byte, src, nr_bytes); + /* make words host-endian */ + input[0] = T2H_4(input[0]); + /* we may ignore other words */ + /* handle writes to individual registers; clear `writeable' on error */ switch(reg_num) { @@ -443,7 +447,7 @@ pke_io_write_buffer(device *me_, unsigned_4 dma_tag_present = 0; int i; - /* collect potentially-partial quadword in write buffer */ + /* collect potentially-partial quadword in write buffer; LE byte order */ memcpy(((unsigned_1*)& me->fifo_qw_in_progress) + fifo_byte, src, nr_bytes); /* mark bytes written */ for(i = fifo_byte; i < fifo_byte + nr_bytes; i++) @@ -475,16 +479,18 @@ pke_io_write_buffer(device *me_, me->fifo_buffer_size = new_fifo_buffer_size; } - /* add new quadword at end of FIFO */ + /* add new quadword at end of FIFO; store data in host-endian */ fqw = & me->fifo[me->fifo_num_elements]; fqw->word_class[0] = fqw->word_class[1] = fqw->word_class[2] = fqw->word_class[3] = wc_unknown; - memcpy((void*) fqw->data, me->fifo_qw_in_progress, sizeof(quadword)); + fqw->data[0] = T2H_4(me->fifo_qw_in_progress[0]); + fqw->data[1] = T2H_4(me->fifo_qw_in_progress[1]); + fqw->data[2] = T2H_4(me->fifo_qw_in_progress[2]); + fqw->data[3] = T2H_4(me->fifo_qw_in_progress[3]); ASSERT(sizeof(unsigned_4) == 4); PKE_MEM_READ(me, (me->pke_number == 0 ? DMA_D0_MADR : DMA_D1_MADR), - & fqw->source_address, /* target endian */ + & fqw->source_address, /* converted to host-endian */ 4); - fqw->source_address = T2H_4(fqw->source_address); PKE_MEM_READ(me, (me->pke_number == 0 ? DMA_D0_PKTFLAG : DMA_D1_PKTFLAG), & dma_tag_present, 4); @@ -1250,8 +1256,9 @@ pke_code_pkemscal(struct pke_device* me, unsigned_4 pkecode) if(me->pke_number == 1) pke_flip_dbf(me); - /* compute new PC for VU */ + /* compute new PC for VU (host byte-order) */ vu_pc = BIT_MASK_GET(imm, 0, 15); + vu_pc = T2H_4(vu_pc); /* write new PC; callback function gets VU running */ ASSERT(sizeof(unsigned_4) == 4); @@ -1370,8 +1377,9 @@ pke_code_pkemscalf(struct pke_device* me, unsigned_4 pkecode) if(me->pke_number == 1) pke_flip_dbf(me); - /* compute new PC for VU */ + /* compute new PC for VU (host byte-order) */ vu_pc = BIT_MASK_GET(imm, 0, 15); + vu_pc = T2H_4(vu_pc); /* rewrite new PC; callback function gets VU running */ ASSERT(sizeof(unsigned_4) == 4); @@ -1573,7 +1581,6 @@ pke_code_mpg(struct pke_device* me, unsigned_4 pkecode) address_word vu_addr_max_size; unsigned_4 vu_lower_opcode, vu_upper_opcode; unsigned_4* operand; - unsigned_4 source_addr; struct fifo_quadword* fq; int next_num; @@ -1605,21 +1612,20 @@ pke_code_mpg(struct pke_device* me, unsigned_4 pkecode) vu_upper_opcode = *pke_pc_operand(me, i*2 + 2); /* write data into VU memory */ - /* lower (scalar) opcode comes in first word */ + /* lower (scalar) opcode comes in first word ; macro performs H2T! */ PKE_MEM_WRITE(me, vu_addr, & vu_lower_opcode, 4); - /* upper (vector) opcode comes in second word */ + /* upper (vector) opcode comes in second word ; H2T */ ASSERT(sizeof(unsigned_4) == 4); PKE_MEM_WRITE(me, vu_addr + 4, & vu_upper_opcode, 4); /* write tracking address in target byte-order */ - source_addr = H2T_4(fq->source_address); ASSERT(sizeof(unsigned_4) == 4); PKE_MEM_WRITE(me, vutrack_addr, - & source_addr, + & fq->source_address, 4); } /* VU xfer loop */ @@ -1667,7 +1673,7 @@ pke_code_direct(struct pke_device* me, unsigned_4 pkecode) { /* VU idle */ int i; - quadword fifo_data; + unsigned_16 fifo_data; /* "transferring" operand */ PKE_REG_MASK_SET(me, STAT, PPS, PKE_REG_STAT_PPS_XFER); @@ -1678,14 +1684,14 @@ pke_code_direct(struct pke_device* me, unsigned_4 pkecode) unsigned_4* operand = pke_pc_operand(me, 1+i); /* collect word into quadword */ - fifo_data[i % 4] = *operand; + *A4_16(&fifo_data, 3 - (i % 4)) = *operand; /* write to GPUIF FIFO only with full quadword */ if(i % 4 == 3) { ASSERT(sizeof(fifo_data) == 16); PKE_MEM_WRITE(me, GIF_PATH2_FIFO_ADDR, - fifo_data, + & fifo_data, 16); } /* write collected quadword */ @@ -1816,16 +1822,18 @@ pke_code_unpack(struct pke_device* me, unsigned_4 pkecode) /* compute address of tracking table entry */ vutrack_addr = vutrack_addr_base + ((signed_8)vu_addr - (signed_8)vu_addr_base) / 4; - /* read old VU data word at address */ - ASSERT(sizeof(vu_old_data) == 16); - PKE_MEM_READ(me, vu_addr, - vu_old_data, - 16); + /* read old VU data word at address; reverse words if needed */ + { + unsigned_16 vu_old_badwords; + ASSERT(sizeof(vu_old_badwords) == 16); + PKE_MEM_READ(me, vu_addr, + &vu_old_badwords, 16); + vu_old_data[0] = * A4_16(& vu_old_badwords, 3); + vu_old_data[1] = * A4_16(& vu_old_badwords, 2); + vu_old_data[2] = * A4_16(& vu_old_badwords, 1); + vu_old_data[3] = * A4_16(& vu_old_badwords, 0); + } - /* yank memory out of little-endian order */ - for(i=0; i<4; i++) - vu_old_data[i] = LE2H_4(vu_old_data[i]); - /* For cyclic unpack, next operand quadword may come from instruction stream or be zero. */ if((num == 0 && cl == 0 && wl == 0) || /* shortcut clear */ @@ -1960,18 +1968,19 @@ pke_code_unpack(struct pke_device* me, unsigned_4 pkecode) ; } - /* yank memory into little-endian order */ - for(i=0; i<4; i++) - vu_new_data[i] = H2LE_4(vu_new_data[i]); - - /* write replacement word */ - ASSERT(sizeof(vu_new_data) == 16); - PKE_MEM_WRITE(me, vu_addr, - vu_new_data, - 16); - - /* write tracking address in target byte-order */ - source_addr = H2T_4(source_addr); + /* write new VU data word at address; reverse words if needed */ + { + unsigned_16 vu_new_badwords; + * A4_16(& vu_new_badwords, 3) = vu_new_data[0]; + * A4_16(& vu_new_badwords, 2) = vu_new_data[1]; + * A4_16(& vu_new_badwords, 1) = vu_new_data[2]; + * A4_16(& vu_new_badwords, 0) = vu_new_data[3]; + ASSERT(sizeof(vu_new_badwords) == 16); + PKE_MEM_WRITE(me, vu_addr, + &vu_new_badwords, 16); + } + + /* write tracking address */ ASSERT(sizeof(unsigned_4) == 4); PKE_MEM_WRITE(me, vutrack_addr, & source_addr, diff --git a/sim/mips/sky-pke.h b/sim/mips/sky-pke.h index f8051c2..8244ee5 100644 --- a/sim/mips/sky-pke.h +++ b/sim/mips/sky-pke.h @@ -422,10 +422,12 @@ struct pke_device if((me)->fifo_trace_file != NULL) \ { \ int i; \ + unsigned_##size value_te; \ + value_te = H2T_##size(value); \ fprintf((me)->fifo_trace_file, "# Write %2d bytes to ", size); \ fprintf((me)->fifo_trace_file, "0x%08lx: ", (unsigned long)(addr)); \ for(i=0; i<size; i++) \ - fprintf((me)->fifo_trace_file, " %02x", ((unsigned_1*)(& value))[i]); \ + fprintf((me)->fifo_trace_file, " %02x", ((unsigned_1*)(& value_te))[i]); \ fprintf((me)->fifo_trace_file, "\n"); \ } \ } while(0) diff --git a/sim/mips/sky-vu0.c b/sim/mips/sky-vu0.c index 0d212fe..ed52c1b 100644 --- a/sim/mips/sky-vu0.c +++ b/sim/mips/sky-vu0.c @@ -7,8 +7,9 @@ #include "sky-device.h" #include "sky-vu0.h" -static char vu0_mem0_buffer[VU0_MEM0_SIZE]; -static char vu0_mem1_buffer[VU0_MEM1_SIZE]; +static char* vu0_mem0_buffer = 0; +static char* vu0_mem1_buffer = 0; + void vu0_issue(void) @@ -62,6 +63,7 @@ vu0_attach(SIM_DESC sd) &vu0_device, NULL /*buffer*/); + vu0_mem0_buffer = zalloc(VU0_MEM0_SIZE); sim_core_attach (sd, NULL, 0 /*level*/, @@ -71,8 +73,9 @@ vu0_attach(SIM_DESC sd) VU0_MEM0_SIZE /*nr_bytes*/, 0 /*modulo*/, 0 /*device*/, - &vu0_mem0_buffer /*buffer*/); + vu0_mem0_buffer /*buffer*/); + vu0_mem1_buffer = zalloc(VU0_MEM1_SIZE); sim_core_attach (sd, NULL, 0 /*level*/, @@ -82,5 +85,5 @@ vu0_attach(SIM_DESC sd) VU0_MEM1_SIZE /*nr_bytes*/, 0 /*modulo*/, 0 /*device*/, - &vu0_mem1_buffer /*buffer*/); + vu0_mem1_buffer /*buffer*/); } diff --git a/sim/mips/sky-vu1.c b/sim/mips/sky-vu1.c index b1b853c..40ddb03 100644 --- a/sim/mips/sky-vu1.c +++ b/sim/mips/sky-vu1.c @@ -17,8 +17,8 @@ VectorUnitState vu1_state; #define sim_warning printf -static char vu1_umem_buffer[VU1_MEM0_SIZE] __attribute__ ((aligned(16))); -static char vu1_mem_buffer[VU1_MEM1_SIZE] __attribute__ ((aligned(16))); +static char* vu1_umem_buffer = 0; +static char* vu1_mem_buffer = 0; void init_vu1(void); void init_vu(VectorUnitState *state, char* umem_buffer, char* mem_buffer); @@ -78,10 +78,11 @@ vu1_io_read_register_window(device *me, if (vu1_state.runState == VU_RUN || vu1_state.runState == VU_BREAK) SET_BIT(stat, VPU_STAT_VBS1_BIT); - *(u_long*)&source_buffer[VPE1_STAT - VU1_REGISTER_WINDOW_START] = stat; + *(u_long*)&source_buffer[VPE1_STAT - VU1_REGISTER_WINDOW_START] = H2T_4(stat); } - *(u_long*)&source_buffer[VU1_CIA - VU1_REGISTER_WINDOW_START] = vu1_state.junk._vpepc; + *(u_long*)&source_buffer[VU1_CIA - VU1_REGISTER_WINDOW_START] = H2T_4(vu1_state.junk._vpepc); + /* XXX: other H2T_N's needed around here. */ #if 0 printf("%s: Read: %x, %d, dest: %x, space: %d, %x!\n", me->name, (int)addr, nr_bytes, (int)dest, space, *(int*)&(vu1_state.regs.VPE_STAT)); @@ -167,6 +168,7 @@ vu1_init(SIM_DESC sd) &vu1_device, NULL /*buffer*/); + vu1_umem_buffer = zalloc(VU1_MEM0_SIZE); sim_core_attach (sd, NULL, 0 /*level*/, @@ -176,8 +178,9 @@ vu1_init(SIM_DESC sd) VU1_MEM0_SIZE /*nr_bytes*/, 0 /*modulo*/, 0 /*device*/, - &vu1_umem_buffer /*buffer*/); + vu1_umem_buffer /*buffer*/); + vu1_mem_buffer = zalloc(VU1_MEM1_SIZE); sim_core_attach (sd, NULL, 0 /*level*/, @@ -187,7 +190,7 @@ vu1_init(SIM_DESC sd) VU1_MEM1_SIZE /*nr_bytes*/, 0 /*modulo*/, 0 /*device*/, - &vu1_mem_buffer /*buffer*/); + vu1_mem_buffer /*buffer*/); init_vu1(); /*initvpe();*/ |