/* * Thread configuration for each thread. Make sure it matches the number abov

1. /*
2. * Thread configuration for each thread. Make sure it matches the number above.
3. * low_power_mode - This mode will double the cache usage, and double the single thread performance. It will
4. * consume much less power (as less cores are working), but will max out at around 80-85% of
5. * the maximum performance.
6. *
7. * no_prefetch - Some sytems can gain up to extra 5% here, but sometimes it will have no difference or make
8. * things slower.
9. *
10. * affine_to_cpu - This can be either false (no affinity), or the CPU core number. Note that on hyperthreading
11. * systems it is better to assign threads to physical cores. On Windows this usually means selecting
12. * even or odd numbered cpu numbers. For Linux it will be usually the lower CPU numbers, so for a 4
13. * physical core CPU you should select cpu numbers 0-3.
14. *
15. * On the first run the miner will look at your system and suggest a basic configuration that will work,
16. * you can try to tweak it from there to get the best performance.
17. *
18. * A filled out configuration should look like this:
19. * "cpu_threads_conf" :
20. * [
21. * { "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 0 },
22. * { "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 1 },
23. * ],
24. */
25. "cpu_threads_conf" :
26. [
27. { "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 0 },
28. { "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 2 },
29. { "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 4 },
30. { "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 6 },
31. { "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 1 },
32. { "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 3 },
33. { "low_power_mode" : false, "no_prefetch" : true, "affine_to_cpu" : 5 },
34. ],
35.  
36. /*
37. * LARGE PAGE SUPPORT
38. * Lare pages need a properly set up OS. It can be difficult if you are not used to systems administation,
39. * but the performace results are worth the trouble - you will get around 20% boost. Slow memory mode is
40. * meant as a backup, you won't get stellar results there. If you are running into trouble, especially
41. * on Windows, please read the common issues in the README.
42. *
43. * By default we will try to allocate large pages. This means you need to "Run As Administrator" on Windows.
44. * You need to edit your system's group policies to enable locking large pages. Here are the steps from MSDN
45. *
46. * 1. On the Start menu, click Run. In the Open box, type gpedit.msc.
47. * 2. On the Local Group Policy Editor console, expand Computer Configuration, and then expand Windows Settings.
48. * 3. Expand Security Settings, and then expand Local Policies.
49. * 4. Select the User Rights Assignment folder.
50. * 5. The policies will be displayed in the details pane.
51. * 6. In the pane, double-click Lock pages in memory.
52. * 7. In the Local Security Setting – Lock pages in memory dialog box, click Add User or Group.
53. * 8. In the Select Users, Service Accounts, or Groups dialog box, add an account that you will run the miner on
54. * 9. Reboot for change to take effect.
55. *
56. * Windows also tends to fragment memory a lot. If you are running on a system with 4-8GB of RAM you might need
57. * to switch off all the auto-start applications and reboot to have a large enough chunk of contiguous memory.
58. *
59. * On Linux you will need to configure large page support "sudo sysctl -w vm.nr_hugepages=128" and increase your
60. * ulimit -l. To do do this you need to add following lines to /etc/security/limits.conf - "* soft memlock 262144"
61. * and "* hard memlock 262144". You can also do it Windows-style and simply run-as-root, but this is NOT
62. * recommended for security reasons.
63. *
64. * Memory locking means that the kernel can't swap out the page to disk - something that is unlikey to happen on a
65. * command line system that isn't starved of memory. I haven't observed any difference on a CLI Linux system between
66. * locked and unlocked memory. If that is your setup see option "no_mlck".
67. */
68.  
69. /*
70. * use_slow_memory defines our behaviour with regards to large pages. There are three possible options here:
71. * always - Don't even try to use large pages. Always use slow memory.
72. * warn - We will try to use large pages, but fall back to slow memory if that fails.
73. * no_mlck - This option is only relevant on Linux, where we can use large pages without locking memory.
74. * It will never use slow memory, but it won't attempt to mlock
75. * never - If we fail to allocate large pages we will print an error and exit.
76. */
77. "use_slow_memory" : "never",
78.  
79. /*
80. * NiceHash mode
81. * nicehash_nonce - Limit the noce to 3 bytes as required by nicehash. This cuts all the safety margins, and
82. * if a block isn't found within 30 minutes then you might run into nonce collisions. Number
83. * of threads in this mode is hard-limited to 32.
84. */
85. "nicehash_nonce" : false,
86.  
87. /*
88. * TLS Settings
89. * If you need real security, make sure tls_secure_algo is enabled (otherwise MITM attack can downgrade encryption
90. * to trivially breakable stuff like DES and MD5), and verify the server's fingerprint through a trusted channel.
91. *
92. * use_tls - This option will make us connect using Transport Layer Security.
93. * tls_secure_algo - Use only secure algorithms. This will make us quit with an error if we can't negotiate a secure algo.
94. * tls_fingerprint - Server's SHA256 fingerprint. If this string is non-empty then we will check the server's cert against it.
95. */
96. "use_tls" : false,
97. "tls_secure_algo" : true,
98. "tls_fingerprint" : "",
99.  
100. /*
101. * pool_address - Pool address should be in the form "pool.supportxmr.com:3333". Only stratum pools are supported.
102. * wallet_address - Your wallet, or pool login.
103. * pool_password - Can be empty in most cases or "x".
104. */
105. "pool_address" : "pool.minexmr.com:4444",
106. "wallet_address" : "46XGmuJecQr1EfHdu65JN5C9TQvnvd6HVL6SDPyQvbTUcuTcyCEMLsHBLwUgtCafH9NTd8Gj8be5i7jbmfD265Z42ZQcEW8.rig01",
107. "pool_password" : "x",
108.  
109. /*
110. * Network timeouts.
111. * Because of the way this client is written it doesn't need to constantly talk (keep-alive) to the server to make
112. * sure it is there. We detect a buggy / overloaded server by the call timeout. The default values will be ok for
113. * nearly all cases. If they aren't the pool has most likely overload issues. Low call timeout values are preferable -
114. * long timeouts mean that we waste hashes on potentially stale jobs. Connection report will tell you how long the
115. * server usually takes to process our calls.
116. *
117. * call_timeout - How long should we wait for a response from the server before we assume it is dead and drop the connection.
118. * retry_time - How long should we wait before another connection attempt.
119. * Both values are in seconds.
120. * giveup_limit - Limit how many times we try to reconnect to the pool. Zero means no limit. Note that stak miners
121. * don't mine while the connection is lost, so your computer's power usage goes down to idle.
122. */
123. "call_timeout" : 10,
124. "retry_time" : 10,
125. "giveup_limit" : 0,
126.  
127. /*
128. * Output control.
129. * Since most people are used to miners printing all the time, that's what we do by default too. This is suboptimal
130. * really, since you cannot see errors under pages and pages of text and performance stats. Given that we have internal
131. * performance monitors, there is very little reason to spew out pages of text instead of concise reports.
132. * Press 'h' (hashrate), 'r' (results) or 'c' (connection) to print reports.
133. *
134. * verbose_level - 0 - Don't print anything.
135. * 1 - Print intro, connection event, disconnect event
136. * 2 - All of level 1, and new job (block) event if the difficulty is different from the last job
137. * 3 - All of level 1, and new job (block) event in all cases, result submission event.
138. * 4 - All of level 3, and automatic hashrate report printing
139. */
140. "verbose_level" : 4,
141.  
142. /*
143. * Automatic hashrate report
144. *
145. * h_print_time - How often, in seconds, should we print a hashrate report if verbose_level is set to 4.
146. * This option has no effect if verbose_level is not 4.
147. */
148. "h_print_time" : 60,
149.  
150. /*
151. * Output file
152. *
153. * output_file - This option will log all output to a file.
154. *
155. */
156. "output_file" : "",
157.  
158. /*
159. * Built-in web server
160. * I like checking my hashrate on my phone. Don't you?
161. * Keep in mind that you will need to set up port forwarding on your router if you want to access it from
162. * outside of your home network. Ports lower than 1024 on Linux systems will require root.
163. *
164. * httpd_port - Port we should listen on. Default, 0, will switch off the server.
165. */
166. "httpd_port" : 0,
167.  
168. /*
169. * prefer_ipv4 - IPv6 preference. If the host is available on both IPv4 and IPv6 net, which one should be choose?
170. * This setting will only be needed in 2020's. No need to worry about it now.
171. */
172. "prefer_ipv4" : true,