From: Mike Frysinger Date: Sun, 5 Dec 2021 17:29:43 +0000 (-0500) Subject: sim: erc32: migrate to standard uintXX_t types X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=4a92dedc592fd0d5e8bbf9987ed2602b92607bed;p=binutils-gdb.git sim: erc32: migrate to standard uintXX_t types This old port setup its own uintXX types, but since we require C11 now, we can assume the standard uintXX_t types exist and use them. --- diff --git a/sim/erc32/erc32.c b/sim/erc32/erc32.c index 8789cbc812a..0206c02e6f0 100644 --- a/sim/erc32/erc32.c +++ b/sim/erc32/erc32.c @@ -34,8 +34,8 @@ #include "sim-config.h" extern int ctrl_c; -extern int32 sis_verbose; -extern int32 sparclite, sparclite_board; +extern int32_t sis_verbose; +extern int32_t sparclite, sparclite_board; extern int rom8,wrp,uben; extern char uart_dev1[], uart_dev2[]; @@ -147,45 +147,45 @@ extern int errmec; /* MEC registers */ static char fname[256]; -static int32 find = 0; -static uint32 mec_ssa[2]; /* Write protection start address */ -static uint32 mec_sea[2]; /* Write protection end address */ -static uint32 mec_wpr[2]; /* Write protection control fields */ -static uint32 mec_sfsr; -static uint32 mec_ffar; -static uint32 mec_ipr; -static uint32 mec_imr; -static uint32 mec_isr; -static uint32 mec_icr; -static uint32 mec_ifr; -static uint32 mec_mcr; /* MEC control register */ -static uint32 mec_memcfg; /* Memory control register */ -static uint32 mec_wcr; /* MEC waitstate register */ -static uint32 mec_iocr; /* MEC IO control register */ -static uint32 posted_irq; -static uint32 mec_ersr; /* MEC error and status register */ -static uint32 mec_tcr; /* MEC test comtrol register */ - -static uint32 rtc_counter; -static uint32 rtc_reload; -static uint32 rtc_scaler; -static uint32 rtc_scaler_start; -static uint32 rtc_enabled; -static uint32 rtc_cr; -static uint32 rtc_se; - -static uint32 gpt_counter; -static uint32 gpt_reload; -static uint32 gpt_scaler; -static uint32 gpt_scaler_start; -static uint32 gpt_enabled; -static uint32 gpt_cr; -static uint32 gpt_se; - -static uint32 wdog_scaler; -static uint32 wdog_counter; -static uint32 wdog_rst_delay; -static uint32 wdog_rston; +static int32_t find = 0; +static uint32_t mec_ssa[2]; /* Write protection start address */ +static uint32_t mec_sea[2]; /* Write protection end address */ +static uint32_t mec_wpr[2]; /* Write protection control fields */ +static uint32_t mec_sfsr; +static uint32_t mec_ffar; +static uint32_t mec_ipr; +static uint32_t mec_imr; +static uint32_t mec_isr; +static uint32_t mec_icr; +static uint32_t mec_ifr; +static uint32_t mec_mcr; /* MEC control register */ +static uint32_t mec_memcfg; /* Memory control register */ +static uint32_t mec_wcr; /* MEC waitstate register */ +static uint32_t mec_iocr; /* MEC IO control register */ +static uint32_t posted_irq; +static uint32_t mec_ersr; /* MEC error and status register */ +static uint32_t mec_tcr; /* MEC test comtrol register */ + +static uint32_t rtc_counter; +static uint32_t rtc_reload; +static uint32_t rtc_scaler; +static uint32_t rtc_scaler_start; +static uint32_t rtc_enabled; +static uint32_t rtc_cr; +static uint32_t rtc_se; + +static uint32_t gpt_counter; +static uint32_t gpt_reload; +static uint32_t gpt_scaler; +static uint32_t gpt_scaler_start; +static uint32_t gpt_enabled; +static uint32_t gpt_cr; +static uint32_t gpt_se; + +static uint32_t wdog_scaler; +static uint32_t wdog_counter; +static uint32_t wdog_rst_delay; +static uint32_t wdog_rston; enum wdog_type { init, disabled, enabled, stopped @@ -210,17 +210,17 @@ static enum wdog_type wdog_status; /* Memory support variables */ -static uint32 mem_ramr_ws; /* RAM read waitstates */ -static uint32 mem_ramw_ws; /* RAM write waitstates */ -static uint32 mem_romr_ws; /* ROM read waitstates */ -static uint32 mem_romw_ws; /* ROM write waitstates */ -static uint32 mem_ramstart; /* RAM start */ -static uint32 mem_ramend; /* RAM end */ -static uint32 mem_rammask; /* RAM address mask */ -static uint32 mem_ramsz; /* RAM size */ -static uint32 mem_romsz; /* ROM size */ -static uint32 mem_accprot; /* RAM write protection enabled */ -static uint32 mem_blockprot; /* RAM block write protection enabled */ +static uint32_t mem_ramr_ws; /* RAM read waitstates */ +static uint32_t mem_ramw_ws; /* RAM write waitstates */ +static uint32_t mem_romr_ws; /* ROM read waitstates */ +static uint32_t mem_romw_ws; /* ROM write waitstates */ +static uint32_t mem_ramstart; /* RAM start */ +static uint32_t mem_ramend; /* RAM end */ +static uint32_t mem_rammask; /* RAM address mask */ +static uint32_t mem_ramsz; /* RAM size */ +static uint32_t mem_romsz; /* ROM size */ +static uint32_t mem_accprot; /* RAM write protection enabled */ +static uint32_t mem_blockprot; /* RAM block write protection enabled */ static unsigned char romb[ROM_SZ]; static unsigned char ramb[RAM_END - RAM_START]; @@ -228,11 +228,11 @@ static unsigned char ramb[RAM_END - RAM_START]; /* UART support variables */ -static int32 fd1, fd2; /* file descriptor for input file */ -static int32 Ucontrol; /* UART status register */ +static int32_t fd1, fd2; /* file descriptor for input file */ +static int32_t Ucontrol; /* UART status register */ static unsigned char aq[UARTBUF], bq[UARTBUF]; -static int32 anum, aind = 0; -static int32 bnum, bind = 0; +static int32_t anum, aind = 0; +static int32_t bnum, bind = 0; static char wbufa[UARTBUF], wbufb[UARTBUF]; static unsigned wnuma; static unsigned wnumb; @@ -243,8 +243,8 @@ static struct termios ioc1, ioc2, iocold1, iocold2; static int f1open = 0, f2open = 0; static char uarta_sreg, uarta_hreg, uartb_sreg, uartb_hreg; -static uint32 uart_stat_reg; -static uint32 uarta_data, uartb_data; +static uint32_t uart_stat_reg; +static uint32_t uarta_data, uartb_data; #ifdef ERA int era = 0; @@ -263,16 +263,16 @@ static void decode_wcr (void); static void decode_mcr (void); static void close_port (void); static void mec_reset (void); -static void mec_intack (int32 level); +static void mec_intack (int32_t level); static void chk_irq (void); -static void mec_irq (int32 level); -static void set_sfsr (uint32 fault, uint32 addr, - uint32 asi, uint32 read); -static int32 mec_read (uint32 addr, uint32 asi, uint32 *data); -static int mec_write (uint32 addr, uint32 data); +static void mec_irq (int32_t level); +static void set_sfsr (uint32_t fault, uint32_t addr, + uint32_t asi, uint32_t read); +static int32_t mec_read (uint32_t addr, uint32_t asi, uint32_t *data); +static int mec_write (uint32_t addr, uint32_t data); static void port_init (void); -static uint32 read_uart (uint32 addr); -static void write_uart (uint32 addr, uint32 data); +static uint32_t read_uart (uint32_t addr); +static void write_uart (uint32_t addr, uint32_t data); static void flush_uart (void); static void uarta_tx (void); static void uartb_tx (void); @@ -283,18 +283,18 @@ static void wdog_intr (void *arg); static void wdog_start (void); static void rtc_intr (void *arg); static void rtc_start (void); -static uint32 rtc_counter_read (void); -static void rtc_scaler_set (uint32 val); -static void rtc_reload_set (uint32 val); +static uint32_t rtc_counter_read (void); +static void rtc_scaler_set (uint32_t val); +static void rtc_reload_set (uint32_t val); static void gpt_intr (void *arg); static void gpt_start (void); -static uint32 gpt_counter_read (void); -static void gpt_scaler_set (uint32 val); -static void gpt_reload_set (uint32 val); -static void timer_ctrl (uint32 val); -static void * get_mem_ptr (uint32 addr, uint32 size); -static void store_bytes (unsigned char *mem, uint32 waddr, - uint32 *data, int sz, int32 *ws); +static uint32_t gpt_counter_read (void); +static void gpt_scaler_set (uint32_t val); +static void gpt_reload_set (uint32_t val); +static void timer_ctrl (uint32_t val); +static void * get_mem_ptr (uint32_t addr, uint32_t size); +static void store_bytes (unsigned char *mem, uint32_t waddr, + uint32_t *data, int sz, int32_t *ws); extern int ext_irl; @@ -390,7 +390,7 @@ mecparerror(void) /* IU error mode manager */ void -error_mode(uint32 pc) +error_mode(uint32_t pc) { mec_ersr |= 0x1; @@ -551,7 +551,7 @@ mec_reset(void) static void -mec_intack(int32 level) +mec_intack(int32_t level) { int irq_test; @@ -568,8 +568,8 @@ mec_intack(int32 level) static void chk_irq(void) { - int32 i; - uint32 itmp; + int32_t i; + uint32_t itmp; int old_irl; old_irl = ext_irl; @@ -591,14 +591,14 @@ chk_irq(void) } static void -mec_irq(int32 level) +mec_irq(int32_t level) { mec_ipr |= (1 << level); chk_irq(); } static void -set_sfsr(uint32 fault, uint32 addr, uint32 asi, uint32 read) +set_sfsr(uint32_t fault, uint32_t addr, uint32_t asi, uint32_t read) { if ((asi == 0xa) || (asi == 0xb)) { mec_ffar = addr; @@ -615,8 +615,8 @@ set_sfsr(uint32 fault, uint32 addr, uint32 asi, uint32 read) } } -static int32 -mec_read(uint32 addr, uint32 asi, uint32 *data) +static int32_t +mec_read(uint32_t addr, uint32_t asi, uint32_t *data) { switch (addr & 0x0ff) { @@ -743,7 +743,7 @@ mec_read(uint32 addr, uint32 asi, uint32 *data) } static int -mec_write(uint32 addr, uint32 data) +mec_write(uint32_t addr, uint32_t data) { if (sis_verbose > 1) printf("MEC write a: %08x, d: %08x\n",addr,data); @@ -1039,8 +1039,8 @@ port_init(void) } -static uint32 -read_uart(uint32 addr) +static uint32_t +read_uart(uint32_t addr) { unsigned tmp; @@ -1055,7 +1055,7 @@ read_uart(uint32 addr) if (aind < anum) { if ((aind + 1) < anum) mec_irq(4); - return (0x700 | (uint32) aq[aind++]); + return (0x700 | (uint32_t) aq[aind++]); } else { if (f1open) { anum = DO_STDIO_READ(ifd1, aq, UARTBUF); @@ -1064,9 +1064,9 @@ read_uart(uint32 addr) aind = 0; if ((aind + 1) < anum) mec_irq(4); - return (0x700 | (uint32) aq[aind++]); + return (0x700 | (uint32_t) aq[aind++]); } else { - return (0x600 | (uint32) aq[aind]); + return (0x600 | (uint32_t) aq[aind]); } } @@ -1087,7 +1087,7 @@ read_uart(uint32 addr) if (bind < bnum) { if ((bind + 1) < bnum) mec_irq(5); - return (0x700 | (uint32) bq[bind++]); + return (0x700 | (uint32_t) bq[bind++]); } else { if (f2open) { bnum = DO_STDIO_READ(ifd2, bq, UARTBUF); @@ -1096,9 +1096,9 @@ read_uart(uint32 addr) bind = 0; if ((bind + 1) < bnum) mec_irq(5); - return (0x700 | (uint32) bq[bind++]); + return (0x700 | (uint32_t) bq[bind++]); } else { - return (0x600 | (uint32) bq[bind]); + return (0x600 | (uint32_t) bq[bind]); } } @@ -1161,7 +1161,7 @@ read_uart(uint32 addr) } static void -write_uart(uint32 addr, uint32 data) +write_uart(uint32_t addr, uint32_t data) { unsigned char c; @@ -1278,7 +1278,7 @@ ATTRIBUTE_UNUSED static void uart_rx(void *arg) { - int32 rsize; + int32_t rsize; char rxd; @@ -1411,20 +1411,20 @@ rtc_start(void) rtc_enabled = 1; } -static uint32 +static uint32_t rtc_counter_read(void) { return rtc_counter; } static void -rtc_scaler_set(uint32 val) +rtc_scaler_set(uint32_t val) { rtc_scaler = val & 0x0ff; /* eight-bit scaler only */ } static void -rtc_reload_set(uint32 val) +rtc_reload_set(uint32_t val) { rtc_reload = val; } @@ -1461,26 +1461,26 @@ gpt_start(void) gpt_enabled = 1; } -static uint32 +static uint32_t gpt_counter_read(void) { return gpt_counter; } static void -gpt_scaler_set(uint32 val) +gpt_scaler_set(uint32_t val) { gpt_scaler = val & 0x0ffff; /* 16-bit scaler */ } static void -gpt_reload_set(uint32 val) +gpt_reload_set(uint32_t val) { gpt_reload = val; } static void -timer_ctrl(uint32 val) +timer_ctrl(uint32_t val) { rtc_cr = ((val & TCR_TCRCR) != 0); @@ -1512,8 +1512,8 @@ timer_ctrl(uint32 val) wait-states. */ static void -store_bytes (unsigned char *mem, uint32 waddr, uint32 *data, int32 sz, - int32 *ws) +store_bytes (unsigned char *mem, uint32_t waddr, uint32_t *data, int32_t sz, + int32_t *ws) { switch (sz) { case 0: @@ -1543,9 +1543,9 @@ store_bytes (unsigned char *mem, uint32 waddr, uint32 *data, int32 sz, /* Memory emulation */ int -memory_iread (uint32 addr, uint32 *data, uint32 *ws) +memory_iread (uint32_t addr, uint32_t *data, uint32_t *ws) { - uint32 asi; + uint32_t asi; if ((addr >= mem_ramstart) && (addr < (mem_ramstart + mem_ramsz))) { memcpy (data, &ramb[addr & mem_rammask & ~3], 4); *ws = mem_ramr_ws; @@ -1568,9 +1568,9 @@ memory_iread (uint32 addr, uint32 *data, uint32 *ws) } int -memory_read(int32 asi, uint32 addr, void *data, int32 sz, int32 *ws) +memory_read(int32_t asi, uint32_t addr, void *data, int32_t sz, int32_t *ws) { - int32 mexc; + int32_t mexc; #ifdef ERRINJ if (errmec) { @@ -1634,13 +1634,13 @@ memory_read(int32 asi, uint32 addr, void *data, int32 sz, int32 *ws) } int -memory_write(int32 asi, uint32 addr, uint32 *data, int32 sz, int32 *ws) +memory_write(int32_t asi, uint32_t addr, uint32_t *data, int32_t sz, int32_t *ws) { - uint32 byte_addr; - uint32 byte_mask; - uint32 waddr; - uint32 *ram; - int32 mexc; + uint32_t byte_addr; + uint32_t byte_mask; + uint32_t waddr; + uint32_t *ram; + int32_t mexc; int i; int wphit[2]; @@ -1742,7 +1742,7 @@ memory_write(int32 asi, uint32 addr, uint32 *data, int32 sz, int32 *ws) } static void * -get_mem_ptr(uint32 addr, uint32 size) +get_mem_ptr(uint32_t addr, uint32_t size) { if ((addr + size) < ROM_SZ) { return &romb[addr]; @@ -1761,7 +1761,7 @@ get_mem_ptr(uint32 addr, uint32 size) } int -sis_memory_write(uint32 addr, const void *data, uint32 length) +sis_memory_write(uint32_t addr, const void *data, uint32_t length) { void *mem; @@ -1773,7 +1773,7 @@ sis_memory_write(uint32 addr, const void *data, uint32 length) } int -sis_memory_read(uint32 addr, void *data, uint32 length) +sis_memory_read(uint32_t addr, void *data, uint32_t length) { char *mem; diff --git a/sim/erc32/exec.c b/sim/erc32/exec.c index cf733cc5f85..ef93692e7a2 100644 --- a/sim/erc32/exec.c +++ b/sim/erc32/exec.c @@ -23,7 +23,7 @@ #include #include -extern int32 sis_verbose, sparclite; +extern int32_t sis_verbose, sparclite; int ext_irl = 0; /* Load/store interlock delay */ @@ -218,25 +218,25 @@ int ext_irl = 0; /* Forward declarations */ -static uint32 sub_cc (uint32 psr, int32 operand1, int32 operand2, - int32 result); -static uint32 add_cc (uint32 psr, int32 operand1, int32 operand2, - int32 result); -static void log_cc (int32 result, struct pstate *sregs); -static int fpexec (uint32 op3, uint32 rd, uint32 rs1, uint32 rs2, +static uint32_t sub_cc (uint32_t psr, int32_t operand1, int32_t operand2, + int32_t result); +static uint32_t add_cc (uint32_t psr, int32_t operand1, int32_t operand2, + int32_t result); +static void log_cc (int32_t result, struct pstate *sregs); +static int fpexec (uint32_t op3, uint32_t rd, uint32_t rs1, uint32_t rs2, struct pstate *sregs); -static int chk_asi (struct pstate *sregs, uint32 *asi, uint32 op3); +static int chk_asi (struct pstate *sregs, uint32_t *asi, uint32_t op3); extern struct estate ebase; -extern int32 nfp,ift; +extern int32_t nfp,ift; #ifdef ERRINJ -extern uint32 errtt, errftt; +extern uint32_t errtt, errftt; #endif -static uint32 -sub_cc(uint32 psr, int32 operand1, int32 operand2, int32 result) +static uint32_t +sub_cc(uint32_t psr, int32_t operand1, int32_t operand2, int32_t result) { psr = ((psr & ~PSR_N) | ((result >> 8) & PSR_N)); if (result) @@ -250,8 +250,8 @@ sub_cc(uint32 psr, int32 operand1, int32 operand2, int32 result) return psr; } -uint32 -add_cc(uint32 psr, int32 operand1, int32 operand2, int32 result) +uint32_t +add_cc(uint32_t psr, int32_t operand1, int32_t operand2, int32_t result) { psr = ((psr & ~PSR_N) | ((result >> 8) & PSR_N)); if (result) @@ -266,7 +266,7 @@ add_cc(uint32 psr, int32 operand1, int32 operand2, int32 result) } static void -log_cc(int32 result, struct pstate *sregs) +log_cc(int32_t result, struct pstate *sregs) { sregs->psr &= ~(PSR_CC); /* Zero CC bits */ sregs->psr = (sregs->psr | ((result >> 8) & PSR_N)); @@ -276,10 +276,10 @@ log_cc(int32 result, struct pstate *sregs) /* Add two unsigned 32-bit integers, and calculate the carry out. */ -static uint32 -add32 (uint32 n1, uint32 n2, int *carry) +static uint32_t +add32 (uint32_t n1, uint32_t n2, int *carry) { - uint32 result = n1 + n2; + uint32_t result = n1 + n2; *carry = result < n1 || result < n2; return result; @@ -288,9 +288,9 @@ add32 (uint32 n1, uint32 n2, int *carry) /* Multiply two 32-bit integers. */ static void -mul64 (uint32 n1, uint32 n2, uint32 *result_hi, uint32 *result_lo, int msigned) +mul64 (uint32_t n1, uint32_t n2, uint32_t *result_hi, uint32_t *result_lo, int msigned) { - uint32 lo, mid1, mid2, hi, reg_lo, reg_hi; + uint32_t lo, mid1, mid2, hi, reg_lo, reg_hi; int carry; int sign = 0; @@ -338,52 +338,52 @@ mul64 (uint32 n1, uint32 n2, uint32 *result_hi, uint32 *result_lo, int msigned) that the host compiler supports long long operations. */ static void -div64 (uint32 n1_hi, uint32 n1_low, uint32 n2, uint32 *result, int msigned) +div64 (uint32_t n1_hi, uint32_t n1_low, uint32_t n2, uint32_t *result, int msigned) { - uint64 n1; + uint64_t n1; - n1 = ((uint64) n1_hi) << 32; - n1 |= ((uint64) n1_low) & 0xffffffff; + n1 = ((uint64_t) n1_hi) << 32; + n1 |= ((uint64_t) n1_low) & 0xffffffff; if (msigned) { - int64 n1_s = (int64) n1; - int32 n2_s = (int32) n2; + int64_t n1_s = (int64_t) n1; + int32_t n2_s = (int32_t) n2; n1_s = n1_s / n2_s; - n1 = (uint64) n1_s; + n1 = (uint64_t) n1_s; } else n1 = n1 / n2; - *result = (uint32) (n1 & 0xffffffff); + *result = (uint32_t) (n1 & 0xffffffff); } static int -extract_short (uint32 data, uint32 address) +extract_short (uint32_t data, uint32_t address) { return ((data >> ((2 - (address & 2)) * 8)) & 0xffff); } static int -extract_short_signed (uint32 data, uint32 address) +extract_short_signed (uint32_t data, uint32_t address) { - uint32 tmp = ((data >> ((2 - (address & 2)) * 8)) & 0xffff); + uint32_t tmp = ((data >> ((2 - (address & 2)) * 8)) & 0xffff); if (tmp & 0x8000) tmp |= 0xffff0000; return tmp; } static int -extract_byte (uint32 data, uint32 address) +extract_byte (uint32_t data, uint32_t address) { return ((data >> ((3 - (address & 3)) * 8)) & 0xff); } static int -extract_byte_signed (uint32 data, uint32 address) +extract_byte_signed (uint32_t data, uint32_t address) { - uint32 tmp = ((data >> ((3 - (address & 3)) * 8)) & 0xff); + uint32_t tmp = ((data >> ((3 - (address & 3)) * 8)) & 0xff); if (tmp & 0x80) tmp |= 0xffffff00; return tmp; @@ -393,13 +393,13 @@ int dispatch_instruction(struct pstate *sregs) { - uint32 cwp, op, op2, op3, asi, rd, cond, rs1, + uint32_t cwp, op, op2, op3, asi, rd, cond, rs1, rs2; - uint32 ldep, icc, data, *rdd; - int32 operand1, operand2, result, eicc, + uint32_t ldep, icc, data, *rdd; + int32_t operand1, operand2, result, eicc, new_cwp; - int32 pc, npc, address, ws, mexc, fcc; - uint32 ddata[2]; + int32_t pc, npc, address, ws, mexc, fcc; + uint32_t ddata[2]; sregs->ninst++; cwp = ((sregs->psr & PSR_CWP) << 4); @@ -707,7 +707,7 @@ dispatch_instruction(struct pstate *sregs) case DIVScc: { int sign; - uint32 result, remainder; + uint32_t result, remainder; int c0, y31; if (!sparclite) { @@ -733,8 +733,8 @@ dispatch_instruction(struct pstate *sregs) even in cases where the divisor is subtracted from the remainder. FIXME: get the true story from Fujitsu. */ - c0 = result < (uint32) remainder - || result < (uint32) operand2; + c0 = result < (uint32_t) remainder + || result < (uint32_t) operand2; if (result & 0x80000000) sregs->psr |= PSR_N; @@ -773,7 +773,7 @@ dispatch_instruction(struct pstate *sregs) break; case SMULCC: { - uint32 result; + uint32_t result; mul64 (rs1, operand2, &sregs->y, &result, 1); @@ -797,7 +797,7 @@ dispatch_instruction(struct pstate *sregs) break; case UMULCC: { - uint32 result; + uint32_t result; mul64 (rs1, operand2, &sregs->y, &result, 0); @@ -831,7 +831,7 @@ dispatch_instruction(struct pstate *sregs) break; case SDIVCC: { - uint32 result; + uint32_t result; if (sparclite) { sregs->trap = TRAP_UNIMP; @@ -878,7 +878,7 @@ dispatch_instruction(struct pstate *sregs) break; case UDIVCC: { - uint32 result; + uint32_t result; if (sparclite) { sregs->trap = TRAP_UNIMP; @@ -1168,7 +1168,7 @@ dispatch_instruction(struct pstate *sregs) case SCAN: { - uint32 result, mask; + uint32_t result, mask; int i; if (!sparclite) { @@ -1528,7 +1528,7 @@ dispatch_instruction(struct pstate *sregs) if (sregs->frd == rd) sregs->fhold += (sregs->ftime - ebase.simtime); } - mexc = memory_write(asi, address, (uint32 *)&sregs->fsi[rd], 2, &ws); + mexc = memory_write(asi, address, (uint32_t *)&sregs->fsi[rd], 2, &ws); sregs->hold += ws; if (mexc) { sregs->trap = TRAP_DEXC; @@ -1548,7 +1548,7 @@ dispatch_instruction(struct pstate *sregs) if ((sregs->frd == rd) || (sregs->frd + 1 == rd)) sregs->fhold += (sregs->ftime - ebase.simtime); } - mexc = memory_write(asi, address, (uint32 *)&sregs->fsi[rd], 3, &ws); + mexc = memory_write(asi, address, (uint32_t *)&sregs->fsi[rd], 3, &ws); sregs->hold += ws; sregs->icnt = T_STD; #ifdef STAT @@ -1662,11 +1662,11 @@ dispatch_instruction(struct pstate *sregs) static int -fpexec(uint32 op3, uint32 rd, uint32 rs1, uint32 rs2, struct pstate *sregs) +fpexec(uint32_t op3, uint32_t rd, uint32_t rs1, uint32_t rs2, struct pstate *sregs) { - uint32 opf, tem, accex; - int32 fcc; - uint32 ldadj; + uint32_t opf, tem, accex; + int32_t fcc; + uint32_t ldadj; if (sregs->fpstate == FP_EXC_MODE) { sregs->fsr = (sregs->fsr & ~FSR_TT) | FP_SEQ_ERR; @@ -1941,7 +1941,7 @@ fpexec(uint32 op3, uint32 rd, uint32 rs1, uint32 rs2, struct pstate *sregs) } static int -chk_asi(struct pstate *sregs, uint32 *asi, uint32 op3) +chk_asi(struct pstate *sregs, uint32_t *asi, uint32_t op3) { if (!(sregs->psr & PSR_S)) { sregs->trap = TRAP_PRIVI; @@ -1957,7 +1957,7 @@ chk_asi(struct pstate *sregs, uint32 *asi, uint32 op3) int execute_trap(struct pstate *sregs) { - int32 cwp; + int32_t cwp; if (sregs->trap == 256) { sregs->pc = 0; @@ -2042,10 +2042,10 @@ init_regs(struct pstate *sregs) sregs->g[0] = 0; #ifdef HOST_LITTLE_ENDIAN sregs->fdp = (float32 *) sregs->fd; - sregs->fsi = (int32 *) sregs->fs; + sregs->fsi = (int32_t *) sregs->fs; #else sregs->fs = (float32 *) sregs->fd; - sregs->fsi = (int32 *) sregs->fd; + sregs->fsi = (int32_t *) sregs->fd; #endif sregs->fsr = 0; sregs->fpu_pres = !nfp; diff --git a/sim/erc32/float.c b/sim/erc32/float.c index a79cb149143..1a0c272d647 100644 --- a/sim/erc32/float.c +++ b/sim/erc32/float.c @@ -62,7 +62,7 @@ clear_accex(void) /* How to map SPARC FSR onto the host */ void -set_fsr(uint32 fsr) +set_fsr(uint32_t fsr) { int fround; diff --git a/sim/erc32/func.c b/sim/erc32/func.c index d1b7e2e46d8..b4f2b420e34 100644 --- a/sim/erc32/func.c +++ b/sim/erc32/func.c @@ -49,28 +49,28 @@ int sparclite_board = 0; /* emulating SPARClite board RAM? */ char uart_dev1[128] = ""; char uart_dev2[128] = ""; extern int ext_irl; -uint32 last_load_addr = 0; +uint32_t last_load_addr = 0; #ifdef ERRINJ -uint32 errcnt = 0; -uint32 errper = 0; -uint32 errtt = 0; -uint32 errftt = 0; -uint32 errmec = 0; +uint32_t errcnt = 0; +uint32_t errper = 0; +uint32_t errtt = 0; +uint32_t errftt = 0; +uint32_t errmec = 0; #endif /* Forward declarations */ static int batch (struct pstate *sregs, char *fname); -static void set_rega (struct pstate *sregs, char *reg, uint32 rval); +static void set_rega (struct pstate *sregs, char *reg, uint32_t rval); static void disp_reg (struct pstate *sregs, char *reg); -static uint32 limcalc (float32 freq); -static void int_handler (int32 sig); +static uint32_t limcalc (float32 freq); +static void int_handler (int32_t sig); static void init_event (void); static int disp_fpu (struct pstate *sregs); static void disp_regs (struct pstate *sregs, int cwp); static void disp_ctrl (struct pstate *sregs); -static void disp_mem (uint32 addr, uint32 len); +static void disp_mem (uint32_t addr, uint32_t len); static int batch(struct pstate *sregs, char *fname) @@ -98,9 +98,9 @@ batch(struct pstate *sregs, char *fname) } void -set_regi(struct pstate *sregs, int32 reg, uint32 rval) +set_regi(struct pstate *sregs, int32_t reg, uint32_t rval) { - uint32 cwp; + uint32_t cwp; cwp = ((sregs->psr & 0x7) << 4); if ((reg > 0) && (reg < 8)) { @@ -139,10 +139,10 @@ set_regi(struct pstate *sregs, int32 reg, uint32 rval) } void -get_regi(struct pstate * sregs, int32 reg, unsigned char *buf) +get_regi(struct pstate * sregs, int32_t reg, unsigned char *buf) { - uint32 cwp; - uint32 rval = 0; + uint32_t cwp; + uint32_t rval = 0; cwp = ((sregs->psr & 0x7) << 4); if ((reg >= 0) && (reg < 8)) { @@ -185,10 +185,10 @@ get_regi(struct pstate * sregs, int32 reg, unsigned char *buf) static void -set_rega(struct pstate *sregs, char *reg, uint32 rval) +set_rega(struct pstate *sregs, char *reg, uint32_t rval) { - uint32 cwp; - int32 err = 0; + uint32_t cwp; + int32_t err = 0; cwp = ((sregs->psr & 0x7) << 4); if (strcmp(reg, "psr") == 0) @@ -329,10 +329,10 @@ errinjstart() #endif -static uint32 +static uint32_t limcalc (float32 freq) { - uint32 unit, lim; + uint32_t unit, lim; double flim; char *cmd1, *cmd2; @@ -348,7 +348,7 @@ limcalc (float32 freq) flim = (double) lim * (double) unit * (double) freq + (double) ebase.simtime; if ((flim > ebase.simtime) && (flim < 4294967296.0)) { - lim = (uint32) flim; + lim = (uint32_t) flim; } else { printf("error in expression\n"); lim = -1; @@ -361,9 +361,9 @@ int exec_cmd(struct pstate *sregs, const char *cmd) { char *cmd1, *cmd2; - int32 stat; - uint32 len, i, clen, j; - static uint32 daddr = 0; + int32_t stat; + uint32_t len, i, clen, j; + static uint32_t daddr = 0; char *cmdsave, *cmdsave2 = NULL; stat = OK; @@ -563,8 +563,8 @@ exec_cmd(struct pstate *sregs, const char *cmd) sim_halt(); } else if (strncmp(cmd1, "tlimit", clen) == 0) { sregs->tlimit = limcalc(sregs->freq); - if (sregs->tlimit != (uint32) -1) - printf("simulation limit = %u (%.3f ms)\n",(uint32) sregs->tlimit, + if (sregs->tlimit != (uint32_t) -1) + printf("simulation limit = %u (%.3f ms)\n",(uint32_t) sregs->tlimit, sregs->tlimit / sregs->freq / 1000); } else if (strncmp(cmd1, "tra", clen) == 0) { if ((cmd1 = strtok(NULL, " \t\n\r")) == NULL) { @@ -614,8 +614,8 @@ reset_stat(struct pstate *sregs) void show_stat(struct pstate *sregs) { - uint32 iinst; - uint32 stime; + uint32_t iinst; + uint32_t stime; if (sregs->tottime == 0.0) sregs->tottime += 1E-6; @@ -677,7 +677,7 @@ init_bpt(struct pstate *sregs) } static void -int_handler(int32 sig) +int_handler(int32_t sig) { if (sig != 2) printf("\n\n Signal handler error (%d)\n\n", sig); @@ -743,7 +743,7 @@ disp_regs(struct pstate *sregs, int cwp) } } -static void print_insn_sparc_sis(uint32 addr, struct disassemble_info *info) +static void print_insn_sparc_sis(uint32_t addr, struct disassemble_info *info) { unsigned char i[4]; @@ -758,7 +758,7 @@ static void disp_ctrl(struct pstate *sregs) { - uint32 i; + uint32_t i; printf("\n psr: %08X wim: %08X tbr: %08X y: %08X\n", sregs->psr, sregs->wim, sregs->tbr, sregs->y); @@ -774,15 +774,15 @@ disp_ctrl(struct pstate *sregs) } static void -disp_mem(uint32 addr, uint32 len) +disp_mem(uint32_t addr, uint32_t len) { - uint32 i; + uint32_t i; union { unsigned char u8[4]; - uint32 u32; + uint32_t u32; } data; - uint32 mem[4], j; + uint32_t mem[4], j; char *p; for (i = addr & ~3; i < ((addr + len) & ~3); i += 16) { @@ -805,12 +805,12 @@ disp_mem(uint32 addr, uint32 len) } void -dis_mem(uint32 addr, uint32 len, struct disassemble_info *info) +dis_mem(uint32_t addr, uint32_t len, struct disassemble_info *info) { - uint32 i; + uint32_t i; union { unsigned char u8[4]; - uint32 u32; + uint32_t u32; } data; for (i = addr & -3; i < ((addr & -3) + (len << 2)); i += 4) { @@ -825,7 +825,7 @@ dis_mem(uint32 addr, uint32 len, struct disassemble_info *info) /* Add event to event queue */ void -event(void (*cfunc) (), int32 arg, uint64 delta) +event(void (*cfunc) (), int32_t arg, uint64_t delta) { struct evcell *ev1, *evins; @@ -863,7 +863,7 @@ stop_event() void init_event(void) { - int32 i; + int32_t i; ebase.eq.nxt = NULL; ebase.freeq = evbuf; @@ -874,7 +874,7 @@ init_event(void) } void -set_int(int32 level, void (*callback) (), int32 arg) +set_int(int32_t level, void (*callback) (), int32_t arg) { irqarr[level & 0x0f].callback = callback; irqarr[level & 0x0f].arg = arg; @@ -888,8 +888,8 @@ advance_time(struct pstate *sregs) struct evcell *evrem; void (*cfunc) (); - uint32 arg; - uint64 endtime; + uint32_t arg; + uint64_t endtime; #ifdef STAT sregs->fholdt += sregs->fhold; @@ -913,7 +913,7 @@ advance_time(struct pstate *sregs) } -uint32 +uint32_t now(void) { return ebase.simtime; @@ -927,8 +927,8 @@ wait_for_irq(void) { struct evcell *evrem; void (*cfunc) (); - int32 arg; - uint64 endtime; + int32_t arg; + uint64_t endtime; if (ebase.eq.nxt == NULL) printf("Warning: event queue empty - power-down mode not entered\n"); @@ -954,11 +954,11 @@ wait_for_irq(void) int check_bpt(struct pstate *sregs) { - int32 i; + int32_t i; if ((sregs->bphit) || (sregs->annul)) return 0; - for (i = 0; i < (int32) sregs->bptnum; i++) { + for (i = 0; i < (int32_t) sregs->bptnum; i++) { if (sregs->pc == sregs->bpts[i]) return BPT_HIT; } diff --git a/sim/erc32/interf.c b/sim/erc32/interf.c index 9ab2582c8de..d04d07c08c8 100644 --- a/sim/erc32/interf.c +++ b/sim/erc32/interf.c @@ -62,7 +62,7 @@ int sis_gdb_break = 1; host_callback *sim_callback; int -run_sim(struct pstate *sregs, uint64 icount, int dis) +run_sim(struct pstate *sregs, uint64_t icount, int dis) { int mexc, irq; @@ -400,13 +400,13 @@ flush_windows (void) for (win = invwin; ; win = (win - 1) & PSR_CWP) { - uint32 sp; + uint32_t sp; int i; sp = sregs.r[(win * 16 + 14) & 0x7f]; #if 1 if (sis_verbose > 2) { - uint32 fp = sregs.r[(win * 16 + 30) & 0x7f]; + uint32_t fp = sregs.r[(win * 16 + 30) & 0x7f]; printf("flush_window: win %d, sp %x, fp %x\n", win, sp, fp); } #endif diff --git a/sim/erc32/sis.c b/sim/erc32/sis.c index 90573866dad..66a27d07506 100644 --- a/sim/erc32/sis.c +++ b/sim/erc32/sis.c @@ -60,14 +60,14 @@ extern int sparclite; extern int dumbio; extern char uart_dev1[]; extern char uart_dev2[]; -extern uint32 last_load_addr; +extern uint32_t last_load_addr; #ifdef ERA extern int era; #endif int -run_sim(struct pstate *sregs, uint64 icount, int dis) +run_sim(struct pstate *sregs, uint64_t icount, int dis) { int irq, mexc, deb; diff --git a/sim/erc32/sis.h b/sim/erc32/sis.h index b230a033741..33f16c77ca4 100644 --- a/sim/erc32/sis.h +++ b/sim/erc32/sis.h @@ -45,16 +45,9 @@ struct histype { /* type definitions */ -typedef short int int16; /* 16-bit signed int */ -typedef unsigned short int uint16; /* 16-bit unsigned int */ -typedef int int32; /* 32-bit signed int */ -typedef unsigned int uint32; /* 32-bit unsigned int */ typedef float float32; /* 32-bit float */ typedef double float64; /* 64-bit float */ -typedef uint64_t uint64; /* 64-bit unsigned int */ -typedef int64_t int64; /* 64-bit signed int */ - struct pstate { float64 fd[16]; /* FPU registers */ @@ -64,66 +57,66 @@ struct pstate { #else float32 *fs; #endif - int32 *fsi; - uint32 fsr; - int32 fpstate; - uint32 fpq[FPUQN * 2]; - uint32 fpqn; - uint32 ftime; - uint32 flrd; - uint32 frd; - uint32 frs1; - uint32 frs2; - uint32 fpu_pres; /* FPU present (0 = No, 1 = Yes) */ - - uint32 psr; /* IU registers */ - uint32 tbr; - uint32 wim; - uint32 g[8]; - uint32 r[128]; - uint32 y; - uint32 asr17; /* Single vector trapping */ - uint32 pc, npc; - - - uint32 trap; /* Current trap type */ - uint32 annul; /* Instruction annul */ - uint32 data; /* Loaded data */ - uint32 inst; /* Current instruction */ - uint32 asi; /* Current ASI */ - uint32 err_mode; /* IU error mode */ - uint32 breakpoint; - uint32 bptnum; - uint32 bphit; - uint32 bpts[BPT_MAX]; /* Breakpoints */ - - uint32 ltime; /* Load interlock time */ - uint32 hold; /* IU hold cycles in current inst */ - uint32 fhold; /* FPU hold cycles in current inst */ - uint32 icnt; /* Instruction cycles in curr inst */ - - uint32 histlen; /* Trace history management */ - uint32 histind; + int32_t *fsi; + uint32_t fsr; + int32_t fpstate; + uint32_t fpq[FPUQN * 2]; + uint32_t fpqn; + uint32_t ftime; + uint32_t flrd; + uint32_t frd; + uint32_t frs1; + uint32_t frs2; + uint32_t fpu_pres; /* FPU present (0 = No, 1 = Yes) */ + + uint32_t psr; /* IU registers */ + uint32_t tbr; + uint32_t wim; + uint32_t g[8]; + uint32_t r[128]; + uint32_t y; + uint32_t asr17; /* Single vector trapping */ + uint32_t pc, npc; + + + uint32_t trap; /* Current trap type */ + uint32_t annul; /* Instruction annul */ + uint32_t data; /* Loaded data */ + uint32_t inst; /* Current instruction */ + uint32_t asi; /* Current ASI */ + uint32_t err_mode; /* IU error mode */ + uint32_t breakpoint; + uint32_t bptnum; + uint32_t bphit; + uint32_t bpts[BPT_MAX]; /* Breakpoints */ + + uint32_t ltime; /* Load interlock time */ + uint32_t hold; /* IU hold cycles in current inst */ + uint32_t fhold; /* FPU hold cycles in current inst */ + uint32_t icnt; /* Instruction cycles in curr inst */ + + uint32_t histlen; /* Trace history management */ + uint32_t histind; struct histype *histbuf; float32 freq; /* Simulated processor frequency */ double tottime; - uint64 ninst; - uint64 fholdt; - uint64 holdt; - uint64 icntt; - uint64 finst; - uint64 simstart; + uint64_t ninst; + uint64_t fholdt; + uint64_t holdt; + uint64_t icntt; + uint64_t finst; + uint64_t simstart; double starttime; - uint64 tlimit; /* Simulation time limit */ - uint64 pwdtime; /* Cycles in power-down mode */ - uint64 nstore; /* Number of load instructions */ - uint64 nload; /* Number of store instructions */ - uint64 nannul; /* Number of annuled instructions */ - uint64 nbranch; /* Number of branch instructions */ - uint32 ildreg; /* Destination of last load instruction */ - uint64 ildtime; /* Last time point for load dependency */ + uint64_t tlimit; /* Simulation time limit */ + uint64_t pwdtime; /* Cycles in power-down mode */ + uint64_t nstore; /* Number of load instructions */ + uint64_t nload; /* Number of store instructions */ + uint64_t nannul; /* Number of annuled instructions */ + uint64_t nbranch; /* Number of branch instructions */ + uint32_t ildreg; /* Destination of last load instruction */ + uint64_t ildtime; /* Last time point for load dependency */ int rett_err; /* IU in jmpl/restore error state (Rev.0) */ int jmpltime; @@ -131,20 +124,20 @@ struct pstate { struct evcell { void (*cfunc) (); - int32 arg; - uint64 time; + int32_t arg; + uint64_t time; struct evcell *nxt; }; struct estate { struct evcell eq; struct evcell *freeq; - uint64 simtime; + uint64_t simtime; }; struct irqcell { void (*callback) (); - int32 arg; + int32_t arg; }; @@ -159,27 +152,27 @@ struct irqcell { /* erc32.c */ extern void init_sim (void); extern void reset (void); -extern void error_mode (uint32 pc); +extern void error_mode (uint32_t pc); extern void sim_halt (void); extern void exit_sim (void); extern void init_stdio (void); extern void restore_stdio (void); -extern int memory_iread (uint32 addr, uint32 *data, uint32 *ws); -extern int memory_read (int32 asi, uint32 addr, void *data, - int32 sz, int32 *ws); -extern int memory_write (int32 asi, uint32 addr, uint32 *data, - int32 sz, int32 *ws); -extern int sis_memory_write (uint32 addr, - const void *data, uint32 length); -extern int sis_memory_read (uint32 addr, void *data, - uint32 length); +extern int memory_iread (uint32_t addr, uint32_t *data, uint32_t *ws); +extern int memory_read (int32_t asi, uint32_t addr, void *data, + int32_t sz, int32_t *ws); +extern int memory_write (int32_t asi, uint32_t addr, uint32_t *data, + int32_t sz, int32_t *ws); +extern int sis_memory_write (uint32_t addr, + const void *data, uint32_t length); +extern int sis_memory_read (uint32_t addr, void *data, + uint32_t length); extern void boot_init (void); /* func.c */ extern struct pstate sregs; -extern void set_regi (struct pstate *sregs, int32 reg, - uint32 rval); -extern void get_regi (struct pstate *sregs, int32 reg, unsigned char *buf); +extern void set_regi (struct pstate *sregs, int32_t reg, + uint32_t rval); +extern void get_regi (struct pstate *sregs, int32_t reg, unsigned char *buf); extern int exec_cmd (struct pstate *sregs, const char *cmd); extern void reset_stat (struct pstate *sregs); extern void show_stat (struct pstate *sregs); @@ -187,12 +180,12 @@ extern void init_bpt (struct pstate *sregs); extern void init_signals (void); struct disassemble_info; -extern void dis_mem (uint32 addr, uint32 len, +extern void dis_mem (uint32_t addr, uint32_t len, struct disassemble_info *info); -extern void event (void (*cfunc) (), int32 arg, uint64 delta); -extern void set_int (int32 level, void (*callback) (), int32 arg); +extern void event (void (*cfunc) (), int32_t arg, uint64_t delta); +extern void set_int (int32_t level, void (*callback) (), int32_t arg); extern void advance_time (struct pstate *sregs); -extern uint32 now (void); +extern uint32_t now (void); extern int wait_for_irq (void); extern int check_bpt (struct pstate *sregs); extern void reset_all (void); @@ -209,12 +202,12 @@ extern void init_regs (struct pstate *sregs); /* interf.c */ extern int run_sim (struct pstate *sregs, - uint64 icount, int dis); + uint64_t icount, int dis); /* float.c */ extern int get_accex (void); extern void clear_accex (void); -extern void set_fsr (uint32 fsr); +extern void set_fsr (uint32_t fsr); /* help.c */ extern void usage (void);