Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
David Daney | 750 | 87.11% | 1 | 10.00% |
James Hogan | 30 | 3.48% | 2 | 20.00% |
Matt Redfearn | 26 | 3.02% | 2 | 20.00% |
Liangliang Huang | 26 | 3.02% | 1 | 10.00% |
Paul Burton | 24 | 2.79% | 1 | 10.00% |
Linus Torvalds (pre-git) | 3 | 0.35% | 2 | 20.00% |
Ralf Baechle | 2 | 0.23% | 1 | 10.00% |
Total | 861 | 10 |
/* * This file is subject to the terms and conditions of the GNU General Public * License. See the file "COPYING" in the main directory of this archive * for more details. * * Copyright (C) 2008 David Daney */ #include <linux/sched.h> #include <asm/processor.h> #include <asm/watch.h> /* * Install the watch registers for the current thread. A maximum of * four registers are installed although the machine may have more. */ void mips_install_watch_registers(struct task_struct *t) { struct mips3264_watch_reg_state *watches = &t->thread.watch.mips3264; unsigned int watchhi = MIPS_WATCHHI_G | /* Trap all ASIDs */ MIPS_WATCHHI_IRW; /* Clear result bits */ switch (current_cpu_data.watch_reg_use_cnt) { default: BUG(); case 4: write_c0_watchlo3(watches->watchlo[3]); write_c0_watchhi3(watchhi | watches->watchhi[3]); fallthrough; case 3: write_c0_watchlo2(watches->watchlo[2]); write_c0_watchhi2(watchhi | watches->watchhi[2]); fallthrough; case 2: write_c0_watchlo1(watches->watchlo[1]); write_c0_watchhi1(watchhi | watches->watchhi[1]); fallthrough; case 1: write_c0_watchlo0(watches->watchlo[0]); write_c0_watchhi0(watchhi | watches->watchhi[0]); } } /* * Read back the watchhi registers so the user space debugger has * access to the I, R, and W bits. A maximum of four registers are * read although the machine may have more. */ void mips_read_watch_registers(void) { struct mips3264_watch_reg_state *watches = ¤t->thread.watch.mips3264; unsigned int watchhi_mask = MIPS_WATCHHI_MASK | MIPS_WATCHHI_IRW; switch (current_cpu_data.watch_reg_use_cnt) { default: BUG(); case 4: watches->watchhi[3] = (read_c0_watchhi3() & watchhi_mask); fallthrough; case 3: watches->watchhi[2] = (read_c0_watchhi2() & watchhi_mask); fallthrough; case 2: watches->watchhi[1] = (read_c0_watchhi1() & watchhi_mask); fallthrough; case 1: watches->watchhi[0] = (read_c0_watchhi0() & watchhi_mask); } if (current_cpu_data.watch_reg_use_cnt == 1 && (watches->watchhi[0] & MIPS_WATCHHI_IRW) == 0) { /* Pathological case of release 1 architecture that * doesn't set the condition bits. We assume that * since we got here, the watch condition was met and * signal that the conditions requested in watchlo * were met. */ watches->watchhi[0] |= (watches->watchlo[0] & MIPS_WATCHHI_IRW); } } /* * Disable all watch registers. Although only four registers are * installed, all are cleared to eliminate the possibility of endless * looping in the watch handler. */ void mips_clear_watch_registers(void) { switch (current_cpu_data.watch_reg_count) { default: BUG(); case 8: write_c0_watchlo7(0); fallthrough; case 7: write_c0_watchlo6(0); fallthrough; case 6: write_c0_watchlo5(0); fallthrough; case 5: write_c0_watchlo4(0); fallthrough; case 4: write_c0_watchlo3(0); fallthrough; case 3: write_c0_watchlo2(0); fallthrough; case 2: write_c0_watchlo1(0); fallthrough; case 1: write_c0_watchlo0(0); } } void mips_probe_watch_registers(struct cpuinfo_mips *c) { unsigned int t; if ((c->options & MIPS_CPU_WATCH) == 0) return; /* * Check which of the I,R and W bits are supported, then * disable the register. */ write_c0_watchlo0(MIPS_WATCHLO_IRW); back_to_back_c0_hazard(); t = read_c0_watchlo0(); write_c0_watchlo0(0); c->watch_reg_masks[0] = t & MIPS_WATCHLO_IRW; /* Write the mask bits and read them back to determine which * can be used. */ c->watch_reg_count = 1; c->watch_reg_use_cnt = 1; t = read_c0_watchhi0(); write_c0_watchhi0(t | MIPS_WATCHHI_MASK); back_to_back_c0_hazard(); t = read_c0_watchhi0(); c->watch_reg_masks[0] |= (t & MIPS_WATCHHI_MASK); if ((t & MIPS_WATCHHI_M) == 0) return; write_c0_watchlo1(MIPS_WATCHLO_IRW); back_to_back_c0_hazard(); t = read_c0_watchlo1(); write_c0_watchlo1(0); c->watch_reg_masks[1] = t & MIPS_WATCHLO_IRW; c->watch_reg_count = 2; c->watch_reg_use_cnt = 2; t = read_c0_watchhi1(); write_c0_watchhi1(t | MIPS_WATCHHI_MASK); back_to_back_c0_hazard(); t = read_c0_watchhi1(); c->watch_reg_masks[1] |= (t & MIPS_WATCHHI_MASK); if ((t & MIPS_WATCHHI_M) == 0) return; write_c0_watchlo2(MIPS_WATCHLO_IRW); back_to_back_c0_hazard(); t = read_c0_watchlo2(); write_c0_watchlo2(0); c->watch_reg_masks[2] = t & MIPS_WATCHLO_IRW; c->watch_reg_count = 3; c->watch_reg_use_cnt = 3; t = read_c0_watchhi2(); write_c0_watchhi2(t | MIPS_WATCHHI_MASK); back_to_back_c0_hazard(); t = read_c0_watchhi2(); c->watch_reg_masks[2] |= (t & MIPS_WATCHHI_MASK); if ((t & MIPS_WATCHHI_M) == 0) return; write_c0_watchlo3(MIPS_WATCHLO_IRW); back_to_back_c0_hazard(); t = read_c0_watchlo3(); write_c0_watchlo3(0); c->watch_reg_masks[3] = t & MIPS_WATCHLO_IRW; c->watch_reg_count = 4; c->watch_reg_use_cnt = 4; t = read_c0_watchhi3(); write_c0_watchhi3(t | MIPS_WATCHHI_MASK); back_to_back_c0_hazard(); t = read_c0_watchhi3(); c->watch_reg_masks[3] |= (t & MIPS_WATCHHI_MASK); if ((t & MIPS_WATCHHI_M) == 0) return; /* We use at most 4, but probe and report up to 8. */ c->watch_reg_count = 5; t = read_c0_watchhi4(); if ((t & MIPS_WATCHHI_M) == 0) return; c->watch_reg_count = 6; t = read_c0_watchhi5(); if ((t & MIPS_WATCHHI_M) == 0) return; c->watch_reg_count = 7; t = read_c0_watchhi6(); if ((t & MIPS_WATCHHI_M) == 0) return; c->watch_reg_count = 8; }
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